diff --git a/.github/workflows/codeql.yml b/.github/workflows/codeql.yml index 26cc32660..5ad51a4d6 100644 --- a/.github/workflows/codeql.yml +++ b/.github/workflows/codeql.yml @@ -26,7 +26,7 @@ jobs: # - https://gh.io/supported-runners-and-hardware-resources # - https://gh.io/using-larger-runners # Consider using larger runners for possible analysis time improvements. - runs-on: ${{ (matrix.language == 'swift' && 'macos-latest') || 'ubuntu-20.04' }} + runs-on: ${{ (matrix.language == 'swift' && 'macos-latest') || 'ubuntu-latest' }} timeout-minutes: ${{ (matrix.language == 'swift' && 120) || 360 }} permissions: actions: read diff --git a/.github/workflows/linux.yml b/.github/workflows/linux.yml index 97cf75fc2..a4ce5329b 100644 --- a/.github/workflows/linux.yml +++ b/.github/workflows/linux.yml @@ -22,7 +22,7 @@ jobs: build: permissions: contents: write # for actions/upload-release-asset to upload release asset - runs-on: ubuntu-20.04 + runs-on: ubuntu-latest strategy: fail-fast: false max-parallel: 1 diff --git a/BINDINGS.md b/BINDINGS.md index 6f96103c7..719a902a0 100644 --- a/BINDINGS.md +++ b/BINDINGS.md @@ -13,10 +13,12 @@ Some people ported raylib to other languages in the form of bindings or wrappers | [raylib-cs](https://github.com/raylib-cs/raylib-cs) | **5.5** | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | Zlib | | [Raylib-CsLo](https://github.com/NotNotTech/Raylib-CsLo) | 4.2 | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | MPL-2.0 | | [Raylib-CSharp-Vinculum](https://github.com/ZeroElectric/Raylib-CSharp-Vinculum) | **5.0** | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | MPL-2.0 | -| [Raylib-CSharp](https://github.com/MrScautHD/Raylib-CSharp) | **5.1-dev** | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | MIT | +| [Raylib-CSharp](https://github.com/MrScautHD/Raylib-CSharp) | **5.5** | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | MIT | +| [Raylib-cs.BleedingEdge](https://github.com/danilwhale/Raylib-cs.BleedingEdge) | **5.6-dev** | [C#](https://en.wikipedia.org/wiki/C_Sharp_(programming_language)) | Zlib | | [cl-raylib](https://github.com/longlene/cl-raylib) | 4.0 | [Common Lisp](https://common-lisp.net) | MIT | | [claylib/wrap](https://github.com/defun-games/claylib) | 4.5 | [Common Lisp](https://common-lisp.net) | Zlib | | [claw-raylib](https://github.com/bohonghuang/claw-raylib) | **auto** | [Common Lisp](https://common-lisp.net) | Apache-2.0 | +| [raylib](https://github.com/fosskers/raylib) | 5.5 | [Common Lisp](https://common-lisp.net) | MPL-2.0 | | [chez-raylib](https://github.com/Yunoinsky/chez-raylib) | **auto** | [Chez Scheme](https://cisco.github.io/ChezScheme) | GPLv3 | | [CLIPSraylib](https://github.com/mrryanjohnston/CLIPSraylib) | **auto** | [CLIPS](https://www.clipsrules.net/) | MIT | | [raylib-cr](https://github.com/sol-vin/raylib-cr) | 4.6-dev (5e1a81) | [Crystal](https://crystal-lang.org) | Apache-2.0 | @@ -49,7 +51,7 @@ Some people ported raylib to other languages in the form of bindings or wrappers | [raylib-luajit-generated](https://github.com/james2doyle/raylib-luajit-generated) | 5.5 | [Lua](http://www.lua.org) | MIT | | [raylib-matte](https://github.com/jcorks/raylib-matte) | 4.6-dev | [Matte](https://github.com/jcorks/matte) | **???** | | [Raylib.nelua](https://github.com/AuzFox/Raylib.nelua) | **5.5** | [nelua](https://nelua.io) | Zlib | -| [raylib-bindings](https://github.com/vaiorabbit/raylib-bindings) | 5.6-dev | [Ruby](https://www.ruby-lang.org/en) | Zlib | +| [raylib-bindings](https://github.com/vaiorabbit/raylib-bindings) | 5.6-dev | [Ruby](https://www.ruby-lang.org/en) | Zlib | | [naylib](https://github.com/planetis-m/naylib) | **5.6-dev** | [Nim](https://nim-lang.org) | MIT | | [node-raylib](https://github.com/RobLoach/node-raylib) | 4.5 | [Node.js](https://nodejs.org/en) | Zlib | | [raylib-odin](https://github.com/odin-lang/Odin/tree/master/vendor/raylib) | **5.5** | [Odin](https://odin-lang.org) | BSD-3Clause | @@ -71,7 +73,7 @@ Some people ported raylib to other languages in the form of bindings or wrappers | [raylib-rs](https://github.com/raylib-rs/raylib-rs) | **5.5** | [Rust](https://www.rust-lang.org) | Zlib | | [raylib-ruby](https://github.com/wilsonsilva/raylib-ruby) | 4.5 | [Ruby](https://www.ruby-lang.org) | Zlib | | [Relib](https://github.com/RedCubeDev-ByteSpace/Relib) | 3.5 | [ReCT](https://github.com/RedCubeDev-ByteSpace/ReCT) | **???** | -| [racket-raylib](https://github.com/eutro/racket-raylib) | 4.0 | [Racket](https://racket-lang.org) | MIT/Apache-2.0 | +| [racket-raylib](https://github.com/eutro/racket-raylib) | **5.5** | [Racket](https://racket-lang.org) | MIT/Apache-2.0 | | [raylib-swift](https://github.com/STREGAsGate/Raylib) | 4.0 | [Swift](https://swift.org) | MIT | | [raylib-scopes](https://github.com/salotz/raylib-scopes) | auto | [Scopes](http://scopes.rocks) | MIT | | [raylib-SmallBASIC](https://github.com/smallbasic/smallbasic.plugins/tree/master/raylib) | **5.5** | [SmallBASIC](https://github.com/smallbasic/SmallBASIC) | GPLv3 | @@ -93,6 +95,7 @@ Some people ported raylib to other languages in the form of bindings or wrappers | [raylib-apl](https://github.com/Brian-ED/raylib-apl) | **5.0** | [Dyalog APL](https://www.dyalog.com/) | MIT | | [raylib-jai](https://github.com/ahmedqarmout2/raylib-jai) | **5.5** | [Jai](https://github.com/BSVino/JaiPrimer/blob/master/JaiPrimer.md) | MIT | | [fnl-raylib](https://github.com/0riginaln0/fnl-raylib) | **5.5** | [Fennel](https://fennel-lang.org/) | MIT | +| [Rayua](https://github.com/uiua-lang/rayua) | **5.5** | [Uiua](https://www.uiua.org/) | **???** | ### Utility Wrapers @@ -103,6 +106,7 @@ These are utility wrappers for specific languages, they are not required to use | [claylib](https://github.com/defun-games/claylib) | 4.5 | [Common Lisp](https://common-lisp.net) | Zlib | | [rayed-bqn](https://github.com/Brian-ED/rayed-bqn) | **5.0** | [BQN](https://mlochbaum.github.io/BQN) | MIT | | [DOOR](https://github.com/RealDoigt/DOOR) | 4.0 | [D](https://dlang.org) | MIT | +| [Iris](https://github.com/Marcos-cat/iris) | **5.5** | [Uiua](https://www.uiua.org/) | MIT | ### Older or Unmaintained Language Bindings diff --git a/CMakeLists.txt b/CMakeLists.txt index 5f9ee3268..f7597694c 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -23,14 +23,6 @@ cmake_policy(SET CMP0063 NEW) # Anywhere you see include(...) you can check /cmake for that file list(APPEND CMAKE_MODULE_PATH ${CMAKE_CURRENT_SOURCE_DIR}/cmake) -# RAYLIB_IS_MAIN determines whether the project is being used from root -# or if it is added as a dependency (through add_subdirectory for example). -if ("${CMAKE_SOURCE_DIR}" STREQUAL "${CMAKE_CURRENT_SOURCE_DIR}") - set(RAYLIB_IS_MAIN TRUE) -else() - set(RAYLIB_IS_MAIN FALSE) -endif() - # Sets compiler flags and language standard include(CompilerFlags) @@ -46,8 +38,9 @@ endif() # Main sources directory (the second parameter sets the output directory name to raylib) add_subdirectory(src raylib) -# Uninstall target -if(NOT TARGET uninstall) +# Uninstall target, only create when building raylib by itself +# Avoid conflicting target names when using raylib with other libraries +if(NOT TARGET uninstall AND PROJECT_IS_TOP_LEVEL) configure_file( "${CMAKE_CURRENT_SOURCE_DIR}/cmake/Uninstall.cmake" "${CMAKE_CURRENT_BINARY_DIR}/cmake_uninstall.cmake" diff --git a/CMakeOptions.txt b/CMakeOptions.txt index 4e413fe61..3c1c12742 100644 --- a/CMakeOptions.txt +++ b/CMakeOptions.txt @@ -11,7 +11,7 @@ enum_option(PLATFORM "Desktop;Web;Android;Raspberry Pi;DRM;SDL" "Platform to bui enum_option(OPENGL_VERSION "OFF;4.3;3.3;2.1;1.1;ES 2.0;ES 3.0" "Force a specific OpenGL Version?") # Configuration options -option(BUILD_EXAMPLES "Build the examples." ${RAYLIB_IS_MAIN}) +option(BUILD_EXAMPLES "Build the examples." ${PROJECT_IS_TOP_LEVEL}) option(CUSTOMIZE_BUILD "Show options for customizing your Raylib library build." OFF) option(ENABLE_ASAN "Enable AddressSanitizer (ASAN) for debugging (degrades performance)" OFF) option(ENABLE_UBSAN "Enable UndefinedBehaviorSanitizer (UBSan) for debugging" OFF) diff --git a/ROADMAP.md b/ROADMAP.md index 87ca2e1c8..9a8111133 100644 --- a/ROADMAP.md +++ b/ROADMAP.md @@ -3,16 +3,18 @@ Here is a wishlist with features and ideas to improve the library. Note that features listed here are usually long term improvements or just describe a route to follow for the library. There are also some additional places to look for raylib improvements and ideas: - [GitHub Issues](https://github.com/raysan5/raylib/issues) has several open issues for possible improvements or bugs to fix. + - [GitHub PRs](https://github.com/raysan5/raylib/pulls) open with improvements to be reviewed. - [raylib source code](https://github.com/raysan5/raylib/tree/master/src) has multiple *TODO* comments around code with pending things to review or improve. - raylib wishlists discussions are open to everyone to ask for improvements, feel free to check and comment: - - [raylib wishlist 2021](https://github.com/raysan5/raylib/discussions/1502) - - [raylib wishlist 2022](https://github.com/raysan5/raylib/discussions/2272) + - [raylib 6.0 wishlist](https://github.com/raysan5/raylib/discussions/4660) - [raylib 5.0 wishlist](https://github.com/raysan5/raylib/discussions/2952) - + - [raylib wishlist 2022](https://github.com/raysan5/raylib/discussions/2272) + - [raylib wishlist 2021](https://github.com/raysan5/raylib/discussions/1502) + _Current version of raylib is complete and functional but there is always room for improvements._ **raylib 5.x** - - [ ] `rcore`: Support additional platforms: iOS, Xbox Series S|X + - [ ] `rcore`: Support additional platforms: iOS, consoles? - [ ] `rcore_web`: Avoid GLFW dependency, functionality can be directly implemented using emscripten SDK - [ ] `rlgl`: Review GLSL shaders naming conventions for consistency - [ ] `textures`: Improve compressed textures support, loading and saving diff --git a/build.zig b/build.zig index 0f6f29755..501d7a229 100644 --- a/build.zig +++ b/build.zig @@ -4,6 +4,9 @@ const builtin = @import("builtin"); /// Minimum supported version of Zig const min_ver = "0.13.0"; +const emccOutputDir = "zig-out" ++ std.fs.path.sep_str ++ "htmlout" ++ std.fs.path.sep_str; +const emccOutputFile = "index.html"; + comptime { const order = std.SemanticVersion.order; const parse = std.SemanticVersion.parse; @@ -16,6 +19,7 @@ fn setDesktopPlatform(raylib: *std.Build.Step.Compile, platform: PlatformBackend .glfw => raylib.root_module.addCMacro("PLATFORM_DESKTOP_GLFW", ""), .rgfw => raylib.root_module.addCMacro("PLATFORM_DESKTOP_RGFW", ""), .sdl => raylib.root_module.addCMacro("PLATFORM_DESKTOP_SDL", ""), + .android => raylib.root_module.addCMacro("PLATFORM_ANDROID", ""), else => {}, } } @@ -44,6 +48,26 @@ fn emSdkSetupStep(b: *std.Build, emsdk: *std.Build.Dependency) !?*std.Build.Step } } +// Adapted from Not-Nik/raylib-zig +fn emscriptenRunStep(b: *std.Build, emsdk: *std.Build.Dependency, examplePath: []const u8) !*std.Build.Step.Run { + const dot_emsc_path = emsdk.path("upstream/emscripten/cache/sysroot/include").getPath(b); + // If compiling on windows , use emrun.bat. + const emrunExe = switch (builtin.os.tag) { + .windows => "emrun.bat", + else => "emrun", + }; + var emrun_run_arg = try b.allocator.alloc(u8, dot_emsc_path.len + emrunExe.len + 1); + defer b.allocator.free(emrun_run_arg); + + if (b.sysroot == null) { + emrun_run_arg = try std.fmt.bufPrint(emrun_run_arg, "{s}" ++ std.fs.path.sep_str ++ "{s}", .{ emsdk.path("upstream/emscripten").getPath(b), emrunExe }); + } else { + emrun_run_arg = try std.fmt.bufPrint(emrun_run_arg, "{s}" ++ std.fs.path.sep_str ++ "{s}", .{ dot_emsc_path, emrunExe }); + } + const run_cmd = b.addSystemCommand(&.{ emrun_run_arg, examplePath }); + return run_cmd; +} + /// A list of all flags from `src/config.h` that one may override const config_h_flags = outer: { // Set this value higher if compile errors happen as `src/config.h` gets larger @@ -179,7 +203,11 @@ fn compileRaylib(b: *std.Build, target: std.Build.ResolvedTarget, optimize: std. raylib.addIncludePath(b.path("src/platforms")); switch (target.result.os.tag) { .windows => { - try c_source_files.append("src/rglfw.c"); + switch (options.platform) { + .glfw => try c_source_files.append("src/rglfw.c"), + .rgfw, .sdl, .drm, .android => {}, + } + raylib.linkSystemLibrary("winmm"); raylib.linkSystemLibrary("gdi32"); raylib.linkSystemLibrary("opengl32"); @@ -187,7 +215,74 @@ fn compileRaylib(b: *std.Build, target: std.Build.ResolvedTarget, optimize: std. setDesktopPlatform(raylib, options.platform); }, .linux => { - if (options.platform != .drm) { + if (options.platform == .drm) { + if (options.opengl_version == .auto) { + raylib.linkSystemLibrary("GLESv2"); + raylib.root_module.addCMacro("GRAPHICS_API_OPENGL_ES2", ""); + } + + raylib.linkSystemLibrary("EGL"); + raylib.linkSystemLibrary("gbm"); + raylib.linkSystemLibrary2("libdrm", .{ .use_pkg_config = .force }); + + raylib.root_module.addCMacro("PLATFORM_DRM", ""); + raylib.root_module.addCMacro("EGL_NO_X11", ""); + raylib.root_module.addCMacro("DEFAULT_BATCH_BUFFER_ELEMENT", ""); + } else if (target.result.abi.isAndroid()) { + + //these are the only tag options per https://developer.android.com/ndk/guides/other_build_systems + const hostTuple = switch (builtin.target.os.tag) { + .linux => "linux-x86_64", + .windows => "windows-x86_64", + .macos => "darwin-x86_64", + else => @panic("unsupported host OS"), + }; + + const androidTriple = switch (target.result.cpu.arch) { + .x86 => "i686-linux-android", + .x86_64 => "x86_64-linux-android", + .arm => "arm-linux-androideabi", + .aarch64 => "aarch64-linux-android", + .riscv64 => "riscv64-linux-android", + else => error.InvalidAndroidTarget, + } catch @panic("invalid android target!"); + const androidNdkPathString: []const u8 = options.android_ndk; + if (androidNdkPathString.len < 1) @panic("no ndk path provided and ANDROID_NDK_HOME is not set"); + const androidApiLevel: []const u8 = options.android_api_version; + + const androidSysroot = try std.fs.path.join(b.allocator, &.{ androidNdkPathString, "/toolchains/llvm/prebuilt/", hostTuple, "/sysroot" }); + const androidLibPath = try std.fs.path.join(b.allocator, &.{ androidSysroot, "/usr/lib/", androidTriple }); + const androidApiSpecificPath = try std.fs.path.join(b.allocator, &.{ androidLibPath, androidApiLevel }); + const androidIncludePath = try std.fs.path.join(b.allocator, &.{ androidSysroot, "/usr/include" }); + const androidArchIncludePath = try std.fs.path.join(b.allocator, &.{ androidIncludePath, androidTriple }); + const androidAsmPath = try std.fs.path.join(b.allocator, &.{ androidIncludePath, "/asm-generic" }); + const androidGluePath = try std.fs.path.join(b.allocator, &.{ androidNdkPathString, "/sources/android/native_app_glue/" }); + + raylib.addLibraryPath(.{ .cwd_relative = androidLibPath }); + raylib.root_module.addLibraryPath(.{ .cwd_relative = androidApiSpecificPath }); + raylib.addSystemIncludePath(.{ .cwd_relative = androidIncludePath }); + raylib.addSystemIncludePath(.{ .cwd_relative = androidArchIncludePath }); + raylib.addSystemIncludePath(.{ .cwd_relative = androidAsmPath }); + raylib.addSystemIncludePath(.{ .cwd_relative = androidGluePath }); + + var libcData = std.ArrayList(u8).init(b.allocator); + const writer = libcData.writer(); + try (std.zig.LibCInstallation{ + .include_dir = androidIncludePath, + .sys_include_dir = androidIncludePath, + .crt_dir = androidApiSpecificPath, + }).render(writer); + const libcFile = b.addWriteFiles().add("android-libc.txt", try libcData.toOwnedSlice()); + raylib.setLibCFile(libcFile); + + if (options.opengl_version == .auto) { + raylib.root_module.linkSystemLibrary("GLESv2", .{}); + raylib.root_module.addCMacro("GRAPHICS_API_OPENGL_ES2", ""); + } + raylib.root_module.linkSystemLibrary("EGL", .{}); + + setDesktopPlatform(raylib, .android); + } else { try c_source_files.append("src/rglfw.c"); if (options.linux_display_backend == .X11 or options.linux_display_backend == .Both) { @@ -225,21 +320,7 @@ fn compileRaylib(b: *std.Build, target: std.Build.ResolvedTarget, optimize: std. waylandGenerate(b, raylib, "xdg-activation-v1.xml", "xdg-activation-v1-client-protocol"); waylandGenerate(b, raylib, "idle-inhibit-unstable-v1.xml", "idle-inhibit-unstable-v1-client-protocol"); } - setDesktopPlatform(raylib, options.platform); - } else { - if (options.opengl_version == .auto) { - raylib.linkSystemLibrary("GLESv2"); - raylib.root_module.addCMacro("GRAPHICS_API_OPENGL_ES2", ""); - } - - raylib.linkSystemLibrary("EGL"); - raylib.linkSystemLibrary("gbm"); - raylib.linkSystemLibrary2("libdrm", .{ .use_pkg_config = .force }); - - raylib.root_module.addCMacro("PLATFORM_DRM", ""); - raylib.root_module.addCMacro("EGL_NO_X11", ""); - raylib.root_module.addCMacro("DEFAULT_BATCH_BUFFER_ELEMENT", ""); } }, .freebsd, .openbsd, .netbsd, .dragonfly => { @@ -281,7 +362,6 @@ fn compileRaylib(b: *std.Build, target: std.Build.ResolvedTarget, optimize: std. setDesktopPlatform(raylib, options.platform); }, .emscripten => { - // Include emscripten for cross compilation if (b.lazyDependency("emsdk", .{})) |dep| { if (try emSdkSetupStep(b, dep)) |emSdkStep| { raylib.step.dependOn(&emSdkStep.step); @@ -308,8 +388,8 @@ fn compileRaylib(b: *std.Build, target: std.Build.ResolvedTarget, optimize: std. return raylib; } -pub fn addRaygui(b: *std.Build, raylib: *std.Build.Step.Compile, raygui_dep: *std.Build.Dependency) void { - const raylib_dep = b.dependencyFromBuildZig(@This(), .{}); +pub fn addRaygui(b: *std.Build, raylib: *std.Build.Step.Compile, raygui_dep: *std.Build.Dependency, options: Options) void { + const raylib_dep = b.dependencyFromBuildZig(@This(), options); var gen_step = b.addWriteFiles(); raylib.step.dependOn(&gen_step.step); @@ -331,6 +411,8 @@ pub const Options = struct { shared: bool = false, linux_display_backend: LinuxDisplayBackend = .Both, opengl_version: OpenglVersion = .auto, + android_ndk: []const u8 = "", + android_api_version: []const u8 = "35", /// config should be a list of space-separated cflags, eg, "-DSUPPORT_CUSTOM_FRAME_CONTROL" config: []const u8 = &.{}, @@ -348,6 +430,8 @@ pub const Options = struct { .linux_display_backend = b.option(LinuxDisplayBackend, "linux_display_backend", "Linux display backend to use") orelse defaults.linux_display_backend, .opengl_version = b.option(OpenglVersion, "opengl_version", "OpenGL version to use") orelse defaults.opengl_version, .config = b.option([]const u8, "config", "Compile with custom define macros overriding config.h") orelse &.{}, + .android_ndk = b.option([]const u8, "android_ndk", "specify path to android ndk") orelse std.process.getEnvVarOwned(b.allocator, "ANDROID_NDK_HOME") catch "", + .android_api_version = b.option([]const u8, "android_api_version", "specify target android API level") orelse defaults.android_api_version, }; } }; @@ -385,6 +469,7 @@ pub const PlatformBackend = enum { rgfw, sdl, drm, + android, }; pub fn build(b: *std.Build) !void { @@ -406,6 +491,16 @@ pub fn build(b: *std.Build) !void { lib.installHeader(b.path("src/rlgl.h"), "rlgl.h"); b.installArtifact(lib); + + const examples = b.step("examples", "Build/Install all examples"); + examples.dependOn(try addExamples("audio", b, target, optimize, lib)); + examples.dependOn(try addExamples("core", b, target, optimize, lib)); + examples.dependOn(try addExamples("models", b, target, optimize, lib)); + examples.dependOn(try addExamples("others", b, target, optimize, lib)); + examples.dependOn(try addExamples("shaders", b, target, optimize, lib)); + examples.dependOn(try addExamples("shapes", b, target, optimize, lib)); + examples.dependOn(try addExamples("text", b, target, optimize, lib)); + examples.dependOn(try addExamples("textures", b, target, optimize, lib)); } fn waylandGenerate( @@ -430,3 +525,190 @@ fn waylandGenerate( raylib.step.dependOn(&client_step.step); raylib.step.dependOn(&private_step.step); } + +fn addExamples( + comptime module: []const u8, + b: *std.Build, + target: std.Build.ResolvedTarget, + optimize: std.builtin.OptimizeMode, + raylib: *std.Build.Step.Compile, +) !*std.Build.Step { + const all = b.step(module, "All " ++ module ++ " examples"); + const module_subpath = b.pathJoin(&.{ "examples", module }); + const module_resources = b.pathJoin(&.{ module_subpath, "resources@resources" }); + var dir = try std.fs.cwd().openDir(b.pathFromRoot(module_subpath), .{ .iterate = true }); + defer if (comptime builtin.zig_version.minor >= 12) dir.close(); + + var iter = dir.iterate(); + while (try iter.next()) |entry| { + if (entry.kind != .file) continue; + const extension_idx = std.mem.lastIndexOf(u8, entry.name, ".c") orelse continue; + const name = entry.name[0..extension_idx]; + const path = b.pathJoin(&.{ module_subpath, entry.name }); + + // zig's mingw headers do not include pthread.h + if (std.mem.eql(u8, "core_loading_thread", name) and target.result.os.tag == .windows) continue; + + if (target.result.os.tag == .emscripten) { + const exe_lib = b.addStaticLibrary(.{ + .name = name, + .target = target, + .optimize = optimize, + }); + exe_lib.addCSourceFile(.{ + .file = b.path(path), + .flags = &.{}, + }); + exe_lib.linkLibC(); + + if (std.mem.eql(u8, name, "rlgl_standalone")) { + //TODO: Make rlgl_standalone example work + continue; + } + if (std.mem.eql(u8, name, "raylib_opengl_interop")) { + //TODO: Make raylib_opengl_interop example work + continue; + } + + exe_lib.linkLibrary(raylib); + + // Include emscripten for cross compilation + if (b.lazyDependency("emsdk", .{})) |emsdk_dep| { + if (try emSdkSetupStep(b, emsdk_dep)) |emSdkStep| { + exe_lib.step.dependOn(&emSdkStep.step); + } + + exe_lib.addIncludePath(emsdk_dep.path("upstream/emscripten/cache/sysroot/include")); + + // Create the output directory because emcc can't do it. + const emccOutputDirExample = b.pathJoin(&.{ emccOutputDir, name, std.fs.path.sep_str }); + const mkdir_command = switch (builtin.os.tag) { + .windows => b.addSystemCommand(&.{ "cmd.exe", "/c", "if", "not", "exist", emccOutputDirExample, "mkdir", emccOutputDirExample }), + else => b.addSystemCommand(&.{ "mkdir", "-p", emccOutputDirExample }), + }; + + const emcc_exe = switch (builtin.os.tag) { + .windows => "emcc.bat", + else => "emcc", + }; + + const emcc_exe_path = b.pathJoin(&.{ emsdk_dep.path("upstream/emscripten").getPath(b), emcc_exe }); + const emcc_command = b.addSystemCommand(&[_][]const u8{emcc_exe_path}); + emcc_command.step.dependOn(&mkdir_command.step); + const emccOutputDirExampleWithFile = b.pathJoin(&.{ emccOutputDir, name, std.fs.path.sep_str, emccOutputFile }); + emcc_command.addArgs(&[_][]const u8{ + "-o", + emccOutputDirExampleWithFile, + "-sFULL-ES3=1", + "-sUSE_GLFW=3", + "-sSTACK_OVERFLOW_CHECK=1", + "-sEXPORTED_RUNTIME_METHODS=['requestFullscreen']", + "-sASYNCIFY", + "-O0", + "--emrun", + "--preload-file", + module_resources, + "--shell-file", + b.path("src/shell.html").getPath(b), + }); + + const link_items: []const *std.Build.Step.Compile = &.{ + raylib, + exe_lib, + }; + for (link_items) |item| { + emcc_command.addFileArg(item.getEmittedBin()); + emcc_command.step.dependOn(&item.step); + } + + const run_step = try emscriptenRunStep(b, emsdk_dep, emccOutputDirExampleWithFile); + run_step.step.dependOn(&emcc_command.step); + run_step.addArg("--no_browser"); + const run_option = b.step(name, name); + + run_option.dependOn(&run_step.step); + + all.dependOn(&emcc_command.step); + } + } else { + const exe = b.addExecutable(.{ + .name = name, + .target = target, + .optimize = optimize, + }); + exe.addCSourceFile(.{ .file = b.path(path), .flags = &.{} }); + exe.linkLibC(); + + // special examples that test using these external dependencies directly + // alongside raylib + if (std.mem.eql(u8, name, "rlgl_standalone")) { + exe.addIncludePath(b.path("src")); + exe.addIncludePath(b.path("src/external/glfw/include")); + if (!hasCSource(raylib.root_module, "rglfw.c")) { + exe.addCSourceFile(.{ .file = b.path("src/rglfw.c"), .flags = &.{} }); + } + } + if (std.mem.eql(u8, name, "raylib_opengl_interop")) { + exe.addIncludePath(b.path("src/external")); + } + + exe.linkLibrary(raylib); + + switch (target.result.os.tag) { + .windows => { + exe.linkSystemLibrary("winmm"); + exe.linkSystemLibrary("gdi32"); + exe.linkSystemLibrary("opengl32"); + + exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); + }, + .linux => { + exe.linkSystemLibrary("GL"); + exe.linkSystemLibrary("rt"); + exe.linkSystemLibrary("dl"); + exe.linkSystemLibrary("m"); + exe.linkSystemLibrary("X11"); + + exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); + }, + .macos => { + exe.linkFramework("Foundation"); + exe.linkFramework("Cocoa"); + exe.linkFramework("OpenGL"); + exe.linkFramework("CoreAudio"); + exe.linkFramework("CoreVideo"); + exe.linkFramework("IOKit"); + + exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); + }, + else => { + @panic("Unsupported OS"); + }, + } + + const install_cmd = b.addInstallArtifact(exe, .{}); + + const run_cmd = b.addRunArtifact(exe); + run_cmd.cwd = b.path(module_subpath); + run_cmd.step.dependOn(&install_cmd.step); + + const run_step = b.step(name, name); + run_step.dependOn(&run_cmd.step); + + all.dependOn(&install_cmd.step); + } + } + return all; +} + +fn hasCSource(module: *std.Build.Module, name: []const u8) bool { + for (module.link_objects.items) |o| switch (o) { + .c_source_file => |c| if (switch (c.file) { + .src_path => |s| std.ascii.endsWithIgnoreCase(s.sub_path, name), + .generated, .cwd_relative, .dependency => false, + }) return true, + .c_source_files => |s| for (s.files) |c| if (std.ascii.endsWithIgnoreCase(c, name)) return true, + else => {}, + }; + return false; +} diff --git a/build.zig.zon b/build.zig.zon index 077865978..571550860 100644 --- a/build.zig.zon +++ b/build.zig.zon @@ -1,17 +1,19 @@ .{ - .name = "raylib", + .name = .raylib, .version = "5.5.0", - .minimum_zig_version = "0.13.0", + .minimum_zig_version = "0.14.0", + + .fingerprint = 0x13035e5cb8bc1ac2, // Changing this has security and trust implications. .dependencies = .{ .xcode_frameworks = .{ .url = "git+https://github.com/hexops/xcode-frameworks#9a45f3ac977fd25dff77e58c6de1870b6808c4a7", - .hash = "122098b9174895f9708bc824b0f9e550c401892c40a900006459acf2cbf78acd99bb", + .hash = "N-V-__8AABHMqAWYuRdIlflwi8gksPnlUMQBiSxAqQAAZFms", .lazy = true, }, .emsdk = .{ - .url = "git+https://github.com/emscripten-core/emsdk#3.1.50", - .hash = "1220e8fe9509f0843e5e22326300ca415c27afbfbba3992f3c3184d71613540b5564", + .url = "git+https://github.com/emscripten-core/emsdk#4.0.9", + .hash = "N-V-__8AAJl1DwBezhYo_VE6f53mPVm00R-Fk28NPW7P14EQ", .lazy = true, }, }, @@ -20,5 +22,7 @@ "build.zig", "build.zig.zon", "src", + "examples", + "LICENSE", }, } diff --git a/cmake/raylib-config.cmake b/cmake/raylib-config.cmake index b2ef6bfd6..8906ae4d4 100644 --- a/cmake/raylib-config.cmake +++ b/cmake/raylib-config.cmake @@ -12,7 +12,7 @@ # raylib_DEFINITIONS - Compiler switches required for using raylib option(raylib_USE_STATIC_LIBS "Use static libs" ON) -option(raylib_VERBOSE "Use static libs" OFF) +option(raylib_VERBOSE "Show raylib verbose messages" OFF) if (NOT TARGET raylib) set(XPREFIX PC_RAYLIB) diff --git a/examples/CMakeLists.txt b/examples/CMakeLists.txt index f77ece4c0..135db49f5 100644 --- a/examples/CMakeLists.txt +++ b/examples/CMakeLists.txt @@ -90,13 +90,14 @@ if (${PLATFORM} MATCHES "Android") list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_custom_uniform.c) list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_model_shader.c) + list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_view_depth.c) list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_postprocessing.c) list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_raymarching.c) list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_palette_switch.c) list(REMOVE_ITEM example_sources ${CMAKE_CURRENT_SOURCE_DIR}/shaders/shaders_basic_lighting.c) elseif (${PLATFORM} MATCHES "Web") - set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Os") + set(CMAKE_C_FLAGS "${CMAKE_C_FLAGS} -Os") # Since WASM is used, ALLOW_MEMORY_GROWTH has no extra overheads set(CMAKE_EXE_LINKER_FLAGS "${CMAKE_EXE_LINKER_FLAGS} -s WASM=1 -s ASYNCIFY -s ALLOW_MEMORY_GROWTH=1 --shell-file ${CMAKE_SOURCE_DIR}/src/shell.html") set(CMAKE_EXECUTABLE_SUFFIX ".html") diff --git a/examples/Makefile b/examples/Makefile index 6a859eb5f..32a3a75ab 100644 --- a/examples/Makefile +++ b/examples/Makefile @@ -232,7 +232,7 @@ CFLAGS = -Wall -std=c99 -D_DEFAULT_SOURCE -Wno-missing-braces -Wunused-result ifeq ($(BUILD_MODE),DEBUG) CFLAGS += -g -D_DEBUG -else +else ifeq ($(TARGET_PLATFORM),$(filter $(TARGET_PLATFORM),PLATFORM_WEB PLATFORM_WEB_RGFW)) ifeq ($(BUILD_WEB_ASYNCIFY),TRUE) CFLAGS += -O3 @@ -341,12 +341,12 @@ ifeq ($(TARGET_PLATFORM),$(filter $(TARGET_PLATFORM),PLATFORM_WEB PLATFORM_WEB_R # --source-map-base # allow debugging in browser with source map # --shell-file shell.html # define a custom shell .html and output extension LDFLAGS += -sTOTAL_MEMORY=$(BUILD_WEB_HEAP_SIZE) -sFORCE_FILESYSTEM=1 -sMINIFY_HTML=0 - + # Using GLFW3 library (instead of RGFW) ifeq ($(TARGET_PLATFORM),PLATFORM_WEB) LDFLAGS += -sUSE_GLFW=3 endif - + # Build using asyncify ifeq ($(BUILD_WEB_ASYNCIFY),TRUE) LDFLAGS += -sASYNCIFY @@ -508,6 +508,7 @@ CORE = \ core/core_custom_frame_control \ core/core_custom_logging \ core/core_drop_files \ + core/core_high_dpi \ core/core_input_gamepad \ core/core_input_gestures \ core/core_input_gestures_web \ @@ -546,7 +547,8 @@ SHAPES = \ shapes/shapes_rectangle_advanced \ shapes/shapes_rectangle_scaling \ shapes/shapes_splines_drawing \ - shapes/shapes_top_down_lights + shapes/shapes_top_down_lights \ + shapes/shapes_digital_clock TEXTURES = \ textures/textures_background_scrolling \ @@ -641,6 +643,7 @@ SHADERS = \ shaders/shaders_texture_outline \ shaders/shaders_texture_tiling \ shaders/shaders_texture_waves \ + shaders/shaders_view_depth \ shaders/shaders_write_depth \ shaders/shaders_vertex_displacement @@ -651,6 +654,7 @@ AUDIO = \ audio/audio_raw_stream \ audio/audio_sound_loading \ audio/audio_sound_multi \ + audio/audio_sound_positioning \ audio/audio_stream_effects OTHERS = \ diff --git a/examples/Makefile.Web b/examples/Makefile.Web index b9a521bb0..35ae70a18 100644 --- a/examples/Makefile.Web +++ b/examples/Makefile.Web @@ -278,7 +278,7 @@ ifeq ($(PLATFORM),$(filter $(PLATFORM),PLATFORM_WEB PLATFORM_WEB_RGFW)) # --source-map-base # allow debugging in browser with source map # --shell-file shell.html # define a custom shell .html and output extension LDFLAGS += -sTOTAL_MEMORY=$(BUILD_WEB_HEAP_SIZE) -sFORCE_FILESYSTEM=1 -sEXPORTED_RUNTIME_METHODS=ccall -sMINIFY_HTML=0 - + # Using GLFW3 library (instead of RGFW) ifeq ($(PLATFORM),PLATFORM_WEB) LDFLAGS += -sUSE_GLFW=3 @@ -390,6 +390,7 @@ CORE = \ core/core_custom_frame_control \ core/core_custom_logging \ core/core_drop_files \ + core/core_high_dpi \ core/core_input_gamepad \ core/core_input_gestures \ core/core_input_gestures_web \ @@ -428,7 +429,8 @@ SHAPES = \ shapes/shapes_rectangle_advanced \ shapes/shapes_rectangle_scaling \ shapes/shapes_splines_drawing \ - shapes/shapes_top_down_lights + shapes/shapes_top_down_lights \ + shapes/shapes_digital_clock TEXTURES = \ textures/textures_background_scrolling \ @@ -524,6 +526,7 @@ SHADERS = \ shaders/shaders_texture_tiling \ shaders/shaders_texture_waves \ shaders/shaders_vertex_displacement \ + shaders/shaders_view_depth \ shaders/shaders_write_depth AUDIO = \ @@ -533,6 +536,7 @@ AUDIO = \ audio/audio_raw_stream \ audio/audio_sound_loading \ audio/audio_sound_multi \ + audio/audio_sound_positioning \ audio/audio_stream_effects OTHERS = \ @@ -1149,6 +1153,10 @@ shaders/shaders_texture_waves: shaders/shaders_texture_waves.c --preload-file shaders/resources/space.png@resources/space.png \ --preload-file shaders/resources/shaders/glsl100/wave.fs@resources/shaders/glsl100/wave.fs +shaders/shaders_view_depth: shaders/shaders_view_depth.c + $(CC) -o $@$(EXT) $< $(CFLAGS) $(INCLUDE_PATHS) $(LDFLAGS) $(LDLIBS) -D$(PLATFORM) \ + --preload-file shaders/resources/shaders/glsl100/write_depth.fs@resources/shaders/glsl100/write_depth.fs + shaders/shaders_write_depth: shaders/shaders_write_depth.c $(CC) -o $@$(EXT) $< $(CFLAGS) $(INCLUDE_PATHS) $(LDFLAGS) $(LDLIBS) -D$(PLATFORM) \ --preload-file shaders/resources/shaders/glsl100/write_depth.fs@resources/shaders/glsl100/write_depth.fs @@ -1234,4 +1242,3 @@ ifeq ($(PLATFORM),$(filter $(PLATFORM),PLATFORM_WEB PLATFORM_WEB_RGFW)) del *.o *.html *.js endif @echo Cleaning done - diff --git a/examples/README.md b/examples/README.md index c42a701a2..7553ad113 100644 --- a/examples/README.md +++ b/examples/README.md @@ -59,6 +59,7 @@ Examples using raylib core platform functionality like window creation, inputs, | 33 | [core_basic_window_web](core/core_basic_window_web.c) | core_basic_window_web | ⭐️☆☆☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | | 34 | [core_input_gestures_web](core/core_input_gestures_web.c) | core_input_gestures_web | ⭐️⭐️☆☆ | 4.6-dev | 4.6-dev | [ubkp](https://github.com/ubkp) | | 35 | [core_automation_events](core/core_automation_events.c) | core_automation_events | ⭐️⭐️⭐️☆ | 5.0 | 5.0 | [Ray](https://github.com/raysan5) | +| 36 | [core_high_dpi](core/core_high_dpi.c) | core_high_dpi | ⭐️☆☆☆ | 5.0 | 5.0 | [Jonathan Marler](https://github.com/marler8997) | ### category: shapes @@ -84,39 +85,39 @@ Examples using raylib shapes drawing functionality, provided by raylib [shapes]( | 51 | [shapes_top_down_lights](shapes/shapes_top_down_lights.c) | shapes_top_down_lights | ⭐️⭐️⭐️⭐️ | 4.2 | 4.2 | [Jeffery Myers](https://github.com/JeffM2501) | | 52 | [shapes_rectangle_advanced](shapes/shapes_rectangle_advanced.c) | shapes_rectangle_advanced | ⭐️⭐️⭐️⭐️ | 5.5 | 5.5 | [Everton Jr.](https://github.com/evertonse) | | 53 | [shapes_splines_drawing](shapes/shapes_splines_drawing.c) | shapes_splines_drawing | ⭐️⭐️⭐️☆ | 5.0 | 5.0 | [Ray](https://github.com/raysan5) | - +| 54 | [shapes_digital_clock](shapes/shapes_digital_clock.c) | shapes_digital_clock | ⭐️⭐️☆☆ | 5.5 | 5.5 | [Hamza RAHAL](https://github.com/rhmz-rhl) | ### category: textures Examples using raylib textures functionality, including image/textures loading/generation and drawing, provided by raylib [textures](../src/textures.c) modul | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 54 | [textures_logo_raylib](textures/textures_logo_raylib.c) | textures_logo_raylib | ⭐️☆☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | -| 55 | [textures_srcrec_dstrec](textures/textures_srcrec_dstrec.c) | textures_srcrec_dstrec | ⭐️⭐️⭐️☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | -| 56 | [textures_image_drawing](textures/textures_image_drawing.c) | textures_image_drawing | ⭐️⭐️☆☆ | 1.4 | 1.4 | [Ray](https://github.com/raysan5) | -| 57 | [textures_image_generation](textures/textures_image_generation.c) | textures_image_generation | ⭐️⭐️☆☆ | 1.8 | 1.8 | [Wilhem Barbier](https://github.com/nounoursheureux) | -| 58 | [textures_image_loading](textures/textures_image_loading.c) | textures_image_loading | ⭐️☆☆☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | -| 59 | [textures_image_processing](textures/textures_image_processing.c) | textures_image_processing | ⭐️⭐️⭐️☆ | 1.4 | 3.5 | [Ray](https://github.com/raysan5) | -| 60 | [textures_image_text](textures/textures_image_text.c) | textures_image_text | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | -| 61 | [textures_to_image](textures/textures_to_image.c) | textures_to_image | ⭐️☆☆☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | -| 62 | [textures_raw_data](textures/textures_raw_data.c) | textures_raw_data | ⭐️⭐️⭐️☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | -| 63 | [textures_particles_blending](textures/textures_particles_blending.c) | textures_particles_blending | ⭐️☆☆☆ | 1.7 | 3.5 | [Ray](https://github.com/raysan5) | -| 64 | [textures_npatch_drawing](textures/textures_npatch_drawing.c) | textures_npatch_drawing | ⭐️⭐️⭐️☆ | 2.0 | 2.5 | [Jorge A. Gomes](https://github.com/overdev) | -| 65 | [textures_background_scrolling](textures/textures_background_scrolling.c) | textures_background_scrolling | ⭐️☆☆☆ | 2.0 | 2.5 | [Ray](https://github.com/raysan5) | -| 66 | [textures_sprite_anim](textures/textures_sprite_anim.c) | textures_sprite_anim | ⭐️⭐️☆☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | -| 67 | [textures_sprite_button](textures/textures_sprite_button.c) | textures_sprite_button | ⭐️⭐️☆☆ | 2.5 | 2.5 | [Ray](https://github.com/raysan5) | -| 68 | [textures_sprite_explosion](textures/textures_sprite_explosion.c) | textures_sprite_explosion | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Ray](https://github.com/raysan5) | -| 69 | [textures_bunnymark](textures/textures_bunnymark.c) | textures_bunnymark | ⭐️⭐️⭐️☆ | 1.6 | 2.5 | [Ray](https://github.com/raysan5) | -| 70 | [textures_mouse_painting](textures/textures_mouse_painting.c) | textures_mouse_painting | ⭐️⭐️⭐️☆ | 3.0 | 3.0 | [Chris Dill](https://github.com/MysteriousSpace) | -| 71 | [textures_blend_modes](textures/textures_blend_modes.c) | textures_blend_modes | ⭐️☆☆☆ | 3.5 | 3.5 | [Karlo Licudine](https://github.com/accidentalrebel) | -| 72 | [textures_draw_tiled](textures/textures_draw_tiled.c) | textures_draw_tiled | ⭐️⭐️⭐️☆ | 3.0 | 4.2 | [Vlad Adrian](https://github.com/demizdor) | -| 73 | [textures_polygon](textures/textures_polygon.c) | textures_polygon | ⭐️☆☆☆ | 3.7 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | -| 74 | [textures_fog_of_war](textures/textures_fog_of_war.c) | textures_fog_of_war | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | -| 75 | [textures_gif_player](textures/textures_gif_player.c) | textures_gif_player | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | -| 76 | [textures_image_kernel](textures/textures_image_kernel.c) | textures_image_kernel | ⭐️⭐️⭐️⭐️ | 1.3 | 1.3 | [Karim Salem](https://github.com/kimo-s) | -| 77 | [textures_image_channel](textures/textures_image_channel.c) | textures_image_channel | ⭐️⭐️☆☆ | 5.1-dev | 5.1-dev | [Bruno Cabral](https://github.com/brccabral) | -| 78 | [textures_image_rotate](textures/textures_image_rotate.c) | textures_image_rotate | ⭐️⭐️☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | -| 79 | [textures_textured_curve](textures/textures_textured_curve.c) | textures_textured_curve | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Jeffery Myers](https://github.com/JeffM2501) | +| 55 | [textures_logo_raylib](textures/textures_logo_raylib.c) | textures_logo_raylib | ⭐️☆☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | +| 56 | [textures_srcrec_dstrec](textures/textures_srcrec_dstrec.c) | textures_srcrec_dstrec | ⭐️⭐️⭐️☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | +| 57 | [textures_image_drawing](textures/textures_image_drawing.c) | textures_image_drawing | ⭐️⭐️☆☆ | 1.4 | 1.4 | [Ray](https://github.com/raysan5) | +| 58 | [textures_image_generation](textures/textures_image_generation.c) | textures_image_generation | ⭐️⭐️☆☆ | 1.8 | 1.8 | [Wilhem Barbier](https://github.com/nounoursheureux) | +| 59 | [textures_image_loading](textures/textures_image_loading.c) | textures_image_loading | ⭐️☆☆☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | +| 60 | [textures_image_processing](textures/textures_image_processing.c) | textures_image_processing | ⭐️⭐️⭐️☆ | 1.4 | 3.5 | [Ray](https://github.com/raysan5) | +| 61 | [textures_image_text](textures/textures_image_text.c) | textures_image_text | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | +| 62 | [textures_to_image](textures/textures_to_image.c) | textures_to_image | ⭐️☆☆☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | +| 63 | [textures_raw_data](textures/textures_raw_data.c) | textures_raw_data | ⭐️⭐️⭐️☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | +| 64 | [textures_particles_blending](textures/textures_particles_blending.c) | textures_particles_blending | ⭐️☆☆☆ | 1.7 | 3.5 | [Ray](https://github.com/raysan5) | +| 65 | [textures_npatch_drawing](textures/textures_npatch_drawing.c) | textures_npatch_drawing | ⭐️⭐️⭐️☆ | 2.0 | 2.5 | [Jorge A. Gomes](https://github.com/overdev) | +| 66 | [textures_background_scrolling](textures/textures_background_scrolling.c) | textures_background_scrolling | ⭐️☆☆☆ | 2.0 | 2.5 | [Ray](https://github.com/raysan5) | +| 67 | [textures_sprite_anim](textures/textures_sprite_anim.c) | textures_sprite_anim | ⭐️⭐️☆☆ | 1.3 | 1.3 | [Ray](https://github.com/raysan5) | +| 68 | [textures_sprite_button](textures/textures_sprite_button.c) | textures_sprite_button | ⭐️⭐️☆☆ | 2.5 | 2.5 | [Ray](https://github.com/raysan5) | +| 69 | [textures_sprite_explosion](textures/textures_sprite_explosion.c) | textures_sprite_explosion | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Ray](https://github.com/raysan5) | +| 70 | [textures_bunnymark](textures/textures_bunnymark.c) | textures_bunnymark | ⭐️⭐️⭐️☆ | 1.6 | 2.5 | [Ray](https://github.com/raysan5) | +| 71 | [textures_mouse_painting](textures/textures_mouse_painting.c) | textures_mouse_painting | ⭐️⭐️⭐️☆ | 3.0 | 3.0 | [Chris Dill](https://github.com/MysteriousSpace) | +| 72 | [textures_blend_modes](textures/textures_blend_modes.c) | textures_blend_modes | ⭐️☆☆☆ | 3.5 | 3.5 | [Karlo Licudine](https://github.com/accidentalrebel) | +| 73 | [textures_draw_tiled](textures/textures_draw_tiled.c) | textures_draw_tiled | ⭐️⭐️⭐️☆ | 3.0 | 4.2 | [Vlad Adrian](https://github.com/demizdor) | +| 74 | [textures_polygon](textures/textures_polygon.c) | textures_polygon | ⭐️☆☆☆ | 3.7 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | +| 75 | [textures_fog_of_war](textures/textures_fog_of_war.c) | textures_fog_of_war | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | +| 76 | [textures_gif_player](textures/textures_gif_player.c) | textures_gif_player | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | +| 77 | [textures_image_kernel](textures/textures_image_kernel.c) | textures_image_kernel | ⭐️⭐️⭐️⭐️ | 1.3 | 1.3 | [Karim Salem](https://github.com/kimo-s) | +| 78 | [textures_image_channel](textures/textures_image_channel.c) | textures_image_channel | ⭐️⭐️☆☆ | 5.1-dev | 5.1-dev | [Bruno Cabral](https://github.com/brccabral) | +| 79 | [textures_image_rotate](textures/textures_image_rotate.c) | textures_image_rotate | ⭐️⭐️☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | +| 80 | [textures_textured_curve](textures/textures_textured_curve.c) | textures_textured_curve | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Jeffery Myers](https://github.com/JeffM2501) | ### category: text @@ -124,18 +125,18 @@ Examples using raylib text functionality, including sprite fonts loading/generat | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 80 | [text_raylib_fonts](text/text_raylib_fonts.c) | text_raylib_fonts | ⭐️☆☆☆ | 1.7 | 3.7 | [Ray](https://github.com/raysan5) | -| 81 | [text_font_spritefont](text/text_font_spritefont.c) | text_font_spritefont | ⭐️☆☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | -| 82 | [text_font_filters](text/text_font_filters.c) | text_font_filters | ⭐️⭐️☆☆ | 1.3 | 4.2 | [Ray](https://github.com/raysan5) | -| 83 | [text_font_loading](text/text_font_loading.c) | text_font_loading | ⭐️☆☆☆ | 1.4 | 3.0 | [Ray](https://github.com/raysan5) | -| 84 | [text_font_sdf](text/text_font_sdf.c) | text_font_sdf | ⭐️⭐️⭐️☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | -| 85 | [text_format_text](text/text_format_text.c) | text_format_text | ⭐️☆☆☆ | 1.1 | 3.0 | [Ray](https://github.com/raysan5) | -| 86 | [text_input_box](text/text_input_box.c) | text_input_box | ⭐️⭐️☆☆ | 1.7 | 3.5 | [Ray](https://github.com/raysan5) | -| 87 | [text_writing_anim](text/text_writing_anim.c) | text_writing_anim | ⭐️⭐️☆☆ | 1.4 | 1.4 | [Ray](https://github.com/raysan5) | -| 88 | [text_rectangle_bounds](text/text_rectangle_bounds.c) | text_rectangle_bounds | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | -| 89 | [text_unicode](text/text_unicode.c) | text_unicode | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | -| 90 | [text_draw_3d](text/text_draw_3d.c) | text_draw_3d | ⭐️⭐️⭐️⭐️ | 3.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | -| 91 | [text_codepoints_loading](text/text_codepoints_loading.c) | text_codepoints_loading | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | +| 81 | [text_raylib_fonts](text/text_raylib_fonts.c) | text_raylib_fonts | ⭐️☆☆☆ | 1.7 | 3.7 | [Ray](https://github.com/raysan5) | +| 82 | [text_font_spritefont](text/text_font_spritefont.c) | text_font_spritefont | ⭐️☆☆☆ | 1.0 | 1.0 | [Ray](https://github.com/raysan5) | +| 83 | [text_font_filters](text/text_font_filters.c) | text_font_filters | ⭐️⭐️☆☆ | 1.3 | 4.2 | [Ray](https://github.com/raysan5) | +| 84 | [text_font_loading](text/text_font_loading.c) | text_font_loading | ⭐️☆☆☆ | 1.4 | 3.0 | [Ray](https://github.com/raysan5) | +| 85 | [text_font_sdf](text/text_font_sdf.c) | text_font_sdf | ⭐️⭐️⭐️☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | +| 86 | [text_format_text](text/text_format_text.c) | text_format_text | ⭐️☆☆☆ | 1.1 | 3.0 | [Ray](https://github.com/raysan5) | +| 87 | [text_input_box](text/text_input_box.c) | text_input_box | ⭐️⭐️☆☆ | 1.7 | 3.5 | [Ray](https://github.com/raysan5) | +| 88 | [text_writing_anim](text/text_writing_anim.c) | text_writing_anim | ⭐️⭐️☆☆ | 1.4 | 1.4 | [Ray](https://github.com/raysan5) | +| 89 | [text_rectangle_bounds](text/text_rectangle_bounds.c) | text_rectangle_bounds | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | +| 90 | [text_unicode](text/text_unicode.c) | text_unicode | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | +| 91 | [text_draw_3d](text/text_draw_3d.c) | text_draw_3d | ⭐️⭐️⭐️⭐️ | 3.5 | 4.0 | [Vlad Adrian](https://github.com/demizdor) | +| 92 | [text_codepoints_loading](text/text_codepoints_loading.c) | text_codepoints_loading | ⭐️⭐️⭐️☆ | 4.2 | 4.2 | [Ray](https://github.com/raysan5) | ### category: models @@ -143,29 +144,29 @@ Examples using raylib models functionality, including models loading/generation | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 92 | [models_animation](models/models_animation.c) | models_animation | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Culacant](https://github.com/culacant) | -| 93 | [models_billboard](models/models_billboard.c) | models_billboard | ⭐️⭐️⭐️☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | -| 94 | [models_box_collisions](models/models_box_collisions.c) | models_box_collisions | ⭐️☆☆☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | -| 95 | [models_cubicmap](models/models_cubicmap.c) | models_cubicmap | ⭐️⭐️☆☆ | 1.8 | 3.5 | [Ray](https://github.com/raysan5) | -| 96 | [models_first_person_maze](models/models_first_person_maze.c) | models_first_person_maze | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Ray](https://github.com/raysan5) | -| 97 | [models_geometric_shapes](models/models_geometric_shapes.c) | models_geometric_shapes | ⭐️☆☆☆ | 1.0 | 3.5 | [Ray](https://github.com/raysan5) | -| 98 | [models_mesh_generation](models/models_mesh_generation.c) | models_mesh_generation | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | -| 99 | [models_mesh_picking](models/models_mesh_picking.c) | models_mesh_picking | ⭐️⭐️⭐️☆ | 1.7 | 4.0 | [Joel Davis](https://github.com/joeld42) | -| 100 | [models_loading](models/models_loading.c) | models_loading | ⭐️☆☆☆ | 2.0 | 4.2 | [Ray](https://github.com/raysan5) | -| 101 | [models_loading_gltf](models/models_loading_gltf.c) | models_loading_gltf | ⭐️☆☆☆ | 3.7 | 4.2 | [Ray](https://github.com/raysan5) | -| 102 | [models_loading_vox](models/models_loading_vox.c) | models_loading_vox | ⭐️☆☆☆ | 4.0 | 4.0 | [Johann Nadalutti](https://github.com/procfxgen) | -| 103 | [models_loading_m3d](models/models_loading_m3d.c) | models_loading_m3d | ⭐️⭐️☆☆ | 4.5 | 4.5 | [bzt](https://bztsrc.gitlab.io/model3d) | -| 104 | [models_orthographic_projection](models/models_orthographic_projection.c) | models_orthographic_projection | ⭐️☆☆☆ | 2.0 | 3.7 | [Max Danielsson](https://github.com/autious) | -| 105 | [models_point_rendering](models/models_point_rendering.c) | models_point_rendering | ⭐️⭐️⭐️☆ | 5.0 | 5.0 | [Reese Gallagher](https://github.com/satchelfrost) | -| 106 | [models_rlgl_solar_system](models/models_rlgl_solar_system.c) | models_rlgl_solar_system | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Ray](https://github.com/raysan5) | -| 107 | [models_yaw_pitch_roll](models/models_yaw_pitch_roll.c) | models_yaw_pitch_roll | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Berni](https://github.com/Berni8k) | -| 108 | [models_waving_cubes](models/models_waving_cubes.c) | models_waving_cubes | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Codecat](https://github.com/codecat) | -| 109 | [models_heightmap](models/models_heightmap.c) | models_heightmap | ⭐️☆☆☆ | 1.8 | 3.5 | [Ray](https://github.com/raysan5) | -| 110 | [models_skybox](models/models_skybox.c) | models_skybox | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | -| 111 | [models_draw_cube_texture](models/models_draw_cube_texture.c) | models_draw_cube_texture | ⭐️⭐️☆☆ | 4.5 | 4.5 | [Ray](https://github.com/raysan5) | -| 112 | [models_gpu_skinning](models/models_gpu_skinning.c) | models_gpu_skinning | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Daniel Holden](https://github.com/orangeduck) | -| 113 | [models_bone_socket](models/models_bone_socket.c) | models_bone_socket | ⭐️⭐️⭐️⭐️ | 4.5 | 4.5 | [iP](https://github.com/ipzaur) | -| 114 | [models_tesseract_view](models/models_tesseract_view.c) | models_tesseract_view | ⭐️⭐️☆☆ | 5.6-dev | 5.6-dev | [Timothy van der Valk](https://github.com/arceryz) | +| 93 | [models_animation](models/models_animation.c) | models_animation | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Culacant](https://github.com/culacant) | +| 94 | [models_billboard](models/models_billboard.c) | models_billboard | ⭐️⭐️⭐️☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | +| 95 | [models_box_collisions](models/models_box_collisions.c) | models_box_collisions | ⭐️☆☆☆ | 1.3 | 3.5 | [Ray](https://github.com/raysan5) | +| 96 | [models_cubicmap](models/models_cubicmap.c) | models_cubicmap | ⭐️⭐️☆☆ | 1.8 | 3.5 | [Ray](https://github.com/raysan5) | +| 97 | [models_first_person_maze](models/models_first_person_maze.c) | models_first_person_maze | ⭐️⭐️☆☆ | 2.5 | 3.5 | [Ray](https://github.com/raysan5) | +| 98 | [models_geometric_shapes](models/models_geometric_shapes.c) | models_geometric_shapes | ⭐️☆☆☆ | 1.0 | 3.5 | [Ray](https://github.com/raysan5) | +| 99 | [models_mesh_generation](models/models_mesh_generation.c) | models_mesh_generation | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | +| 100 | [models_mesh_picking](models/models_mesh_picking.c) | models_mesh_picking | ⭐️⭐️⭐️☆ | 1.7 | 4.0 | [Joel Davis](https://github.com/joeld42) | +| 101 | [models_loading](models/models_loading.c) | models_loading | ⭐️☆☆☆ | 2.0 | 4.2 | [Ray](https://github.com/raysan5) | +| 102 | [models_loading_gltf](models/models_loading_gltf.c) | models_loading_gltf | ⭐️☆☆☆ | 3.7 | 4.2 | [Ray](https://github.com/raysan5) | +| 103 | [models_loading_vox](models/models_loading_vox.c) | models_loading_vox | ⭐️☆☆☆ | 4.0 | 4.0 | [Johann Nadalutti](https://github.com/procfxgen) | +| 104 | [models_loading_m3d](models/models_loading_m3d.c) | models_loading_m3d | ⭐️⭐️☆☆ | 4.5 | 4.5 | [bzt](https://bztsrc.gitlab.io/model3d) | +| 105 | [models_orthographic_projection](models/models_orthographic_projection.c) | models_orthographic_projection | ⭐️☆☆☆ | 2.0 | 3.7 | [Max Danielsson](https://github.com/autious) | +| 106 | [models_point_rendering](models/models_point_rendering.c) | models_point_rendering | ⭐️⭐️⭐️☆ | 5.0 | 5.0 | [Reese Gallagher](https://github.com/satchelfrost) | +| 107 | [models_rlgl_solar_system](models/models_rlgl_solar_system.c) | models_rlgl_solar_system | ⭐️⭐️⭐️⭐️ | 2.5 | 4.0 | [Ray](https://github.com/raysan5) | +| 108 | [models_yaw_pitch_roll](models/models_yaw_pitch_roll.c) | models_yaw_pitch_roll | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Berni](https://github.com/Berni8k) | +| 109 | [models_waving_cubes](models/models_waving_cubes.c) | models_waving_cubes | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Codecat](https://github.com/codecat) | +| 110 | [models_heightmap](models/models_heightmap.c) | models_heightmap | ⭐️☆☆☆ | 1.8 | 3.5 | [Ray](https://github.com/raysan5) | +| 111 | [models_skybox](models/models_skybox.c) | models_skybox | ⭐️⭐️☆☆ | 1.8 | 4.0 | [Ray](https://github.com/raysan5) | +| 112 | [models_draw_cube_texture](models/models_draw_cube_texture.c) | models_draw_cube_texture | ⭐️⭐️☆☆ | 4.5 | 4.5 | [Ray](https://github.com/raysan5) | +| 113 | [models_gpu_skinning](models/models_gpu_skinning.c) | models_gpu_skinning | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Daniel Holden](https://github.com/orangeduck) | +| 114 | [models_bone_socket](models/models_bone_socket.c) | models_bone_socket | ⭐️⭐️⭐️⭐️ | 4.5 | 4.5 | [iP](https://github.com/ipzaur) | +| 115 | [models_tesseract_view](models/models_tesseract_view.c) | models_tesseract_view | ⭐️⭐️☆☆ | 5.6-dev | 5.6-dev | [Timothy van der Valk](https://github.com/arceryz) | ### category: shaders @@ -173,33 +174,34 @@ Examples using raylib shaders functionality, including shaders loading, paramete | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 115 | [shaders_basic_lighting](shaders/shaders_basic_lighting.c) | shaders_basic_lighting | ⭐️⭐️⭐️⭐️ | 3.0 | 4.2 | [Chris Camacho](https://github.com/chriscamacho) | -| 116 | [shaders_model_shader](shaders/shaders_model_shader.c) | shaders_model_shader | ⭐️⭐️☆☆ | 1.3 | 3.7 | [Ray](https://github.com/raysan5) | -| 117 | [shaders_shapes_textures](shaders/shaders_shapes_textures.c) | shaders_shapes_textures | ⭐️⭐️☆☆ | 1.7 | 3.7 | [Ray](https://github.com/raysan5) | -| 118 | [shaders_custom_uniform](shaders/shaders_custom_uniform.c) | shaders_custom_uniform | ⭐️⭐️☆☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | -| 119 | [shaders_postprocessing](shaders/shaders_postprocessing.c) | shaders_postprocessing | ⭐️⭐️⭐️☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | -| 120 | [shaders_palette_switch](shaders/shaders_palette_switch.c) | shaders_palette_switch | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Marco Lizza](https://github.com/MarcoLizza) | -| 121 | [shaders_raymarching](shaders/shaders_raymarching.c) | shaders_raymarching | ⭐️⭐️⭐️⭐️ | 2.0 | 4.2 | [Ray](https://github.com/raysan5) | -| 122 | [shaders_texture_drawing](shaders/shaders_texture_drawing.c) | shaders_texture_drawing | ⭐️⭐️☆☆ | 2.0 | 3.7 | [Michał Ciesielski](https://github.com/ciessielski) | -| 123 | [shaders_texture_outline](shaders/shaders_texture_outline.c) | shaders_texture_outline | ⭐️⭐️⭐️☆ | 4.0 | 4.0 | [Samuel Skiff](https://github.com/GoldenThumbs) | -| 124 | [shaders_texture_waves](shaders/shaders_texture_waves.c) | shaders_texture_waves | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Anata](https://github.com/anatagawa) | -| 125 | [shaders_julia_set](shaders/shaders_julia_set.c) | shaders_julia_set | ⭐️⭐️⭐️☆ | 2.5 | 4.0 | [Josh Colclough](https://github.com/joshcol9232) | -| 126 | [shaders_eratosthenes](shaders/shaders_eratosthenes.c) | shaders_eratosthenes | ⭐️⭐️⭐️☆ | 2.5 | 4.0 | [ProfJski](https://github.com/ProfJski) | -| 127 | [shaders_fog](shaders/shaders_fog.c) | shaders_fog | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | -| 128 | [shaders_simple_mask](shaders/shaders_simple_mask.c) | shaders_simple_mask | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | -| 129 | [shaders_hot_reloading](shaders/shaders_hot_reloading.c) | shaders_hot_reloading | ⭐️⭐️⭐️☆ | 3.0 | 3.5 | [Ray](https://github.com/raysan5) | -| 130 | [shaders_mesh_instancing](shaders/shaders_mesh_instancing.c) | shaders_mesh_instancing | ⭐️⭐️⭐️⭐️ | 3.7 | 4.2 | [seanpringle](https://github.com/seanpringle) | -| 131 | [shaders_multi_sample2d](shaders/shaders_multi_sample2d.c) | shaders_multi_sample2d | ⭐️⭐️☆☆ | 3.5 | 3.5 | [Ray](https://github.com/raysan5) | -| 132 | [shaders_spotlight](shaders/shaders_spotlight.c) | shaders_spotlight | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | -| 133 | [shaders_deferred_render](shaders/shaders_deferred_render.c) | shaders_deferred_render | ⭐️⭐️⭐️⭐️ | 4.5 | 4.5 | [Justin Andreas Lacoste](https://github.com/27justin) | -| 134 | [shaders_hybrid_render](shaders/shaders_hybrid_render.c) | shaders_hybrid_render | ⭐️⭐️⭐️⭐️ | 4.2 | 4.2 | [Buğra Alptekin Sarı](https://github.com/BugraAlptekinSari) | -| 135 | [shaders_texture_tiling](shaders/shaders_texture_tiling.c) | shaders_texture_tiling | ⭐️⭐️☆☆ | 4.5 | 4.5 | [Luis Almeida](https://github.com/luis605) | -| 136 | [shaders_shadowmap](shaders/shaders_shadowmap.c) | shaders_shadowmap | ⭐️⭐️⭐️⭐️ | 5.0 | 5.0 | [TheManTheMythTheGameDev](https://github.com/TheManTheMythTheGameDev) | -| 137 | [shaders_vertex_displacement](shaders/shaders_vertex_displacement.c) | shaders_vertex_displacement | ⭐️⭐️⭐️☆ | 5.0 | 4.5 | [Alex ZH](https://github.com/ZzzhHe) | -| 138 | [shaders_write_depth](shaders/shaders_write_depth.c) | shaders_write_depth | ⭐️⭐️☆☆ | 4.2 | 4.2 | [Buğra Alptekin Sarı](https://github.com/BugraAlptekinSari) | -| 139 | [shaders_basic_pbr](shaders/shaders_basic_pbr.c) | shaders_basic_pbr | ⭐️⭐️⭐️⭐️ | 5.0 | 5.1-dev | [Afan OLOVCIC](https://github.com/_DevDad) | -| 140 | [shaders_lightmap](shaders/shaders_lightmap.c) | shaders_lightmap | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Jussi Viitala](https://github.com/nullstare) | -| 141 | [shaders_rounded_rectangle](shaders/shaders_rounded_rectangle.c) | shaders_rounded_rectangle | ⭐️⭐️⭐️☆ | 5.5 | 5.5 | [Anstro Pleuton](https://github.com/anstropleuton) | +| 116 | [shaders_basic_lighting](shaders/shaders_basic_lighting.c) | shaders_basic_lighting | ⭐️⭐️⭐️⭐️ | 3.0 | 4.2 | [Chris Camacho](https://github.com/chriscamacho) | +| 117 | [shaders_model_shader](shaders/shaders_model_shader.c) | shaders_model_shader | ⭐️⭐️☆☆ | 1.3 | 3.7 | [Ray](https://github.com/raysan5) | +| 118 | [shaders_shapes_textures](shaders/shaders_shapes_textures.c) | shaders_shapes_textures | ⭐️⭐️☆☆ | 1.7 | 3.7 | [Ray](https://github.com/raysan5) | +| 119 | [shaders_custom_uniform](shaders/shaders_custom_uniform.c) | shaders_custom_uniform | ⭐️⭐️☆☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | +| 120 | [shaders_postprocessing](shaders/shaders_postprocessing.c) | shaders_postprocessing | ⭐️⭐️⭐️☆ | 1.3 | 4.0 | [Ray](https://github.com/raysan5) | +| 121 | [shaders_palette_switch](shaders/shaders_palette_switch.c) | shaders_palette_switch | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Marco Lizza](https://github.com/MarcoLizza) | +| 122 | [shaders_raymarching](shaders/shaders_raymarching.c) | shaders_raymarching | ⭐️⭐️⭐️⭐️ | 2.0 | 4.2 | [Ray](https://github.com/raysan5) | +| 123 | [shaders_texture_drawing](shaders/shaders_texture_drawing.c) | shaders_texture_drawing | ⭐️⭐️☆☆ | 2.0 | 3.7 | [Michał Ciesielski](https://github.com/ciessielski) | +| 124 | [shaders_texture_outline](shaders/shaders_texture_outline.c) | shaders_texture_outline | ⭐️⭐️⭐️☆ | 4.0 | 4.0 | [Samuel Skiff](https://github.com/GoldenThumbs) | +| 125 | [shaders_texture_waves](shaders/shaders_texture_waves.c) | shaders_texture_waves | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Anata](https://github.com/anatagawa) | +| 126 | [shaders_julia_set](shaders/shaders_julia_set.c) | shaders_julia_set | ⭐️⭐️⭐️☆ | 2.5 | 4.0 | [Josh Colclough](https://github.com/joshcol9232) | +| 127 | [shaders_eratosthenes](shaders/shaders_eratosthenes.c) | shaders_eratosthenes | ⭐️⭐️⭐️☆ | 2.5 | 4.0 | [ProfJski](https://github.com/ProfJski) | +| 128 | [shaders_fog](shaders/shaders_fog.c) | shaders_fog | ⭐️⭐️⭐️☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | +| 129 | [shaders_simple_mask](shaders/shaders_simple_mask.c) | shaders_simple_mask | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | +| 130 | [shaders_hot_reloading](shaders/shaders_hot_reloading.c) | shaders_hot_reloading | ⭐️⭐️⭐️☆ | 3.0 | 3.5 | [Ray](https://github.com/raysan5) | +| 131 | [shaders_mesh_instancing](shaders/shaders_mesh_instancing.c) | shaders_mesh_instancing | ⭐️⭐️⭐️⭐️ | 3.7 | 4.2 | [seanpringle](https://github.com/seanpringle) | +| 132 | [shaders_multi_sample2d](shaders/shaders_multi_sample2d.c) | shaders_multi_sample2d | ⭐️⭐️☆☆ | 3.5 | 3.5 | [Ray](https://github.com/raysan5) | +| 133 | [shaders_spotlight](shaders/shaders_spotlight.c) | shaders_spotlight | ⭐️⭐️☆☆ | 2.5 | 3.7 | [Chris Camacho](https://github.com/chriscamacho) | +| 134 | [shaders_deferred_render](shaders/shaders_deferred_render.c) | shaders_deferred_render | ⭐️⭐️⭐️⭐️ | 4.5 | 4.5 | [Justin Andreas Lacoste](https://github.com/27justin) | +| 135 | [shaders_hybrid_render](shaders/shaders_hybrid_render.c) | shaders_hybrid_render | ⭐️⭐️⭐️⭐️ | 4.2 | 4.2 | [Buğra Alptekin Sarı](https://github.com/BugraAlptekinSari) | +| 136 | [shaders_texture_tiling](shaders/shaders_texture_tiling.c) | shaders_texture_tiling | ⭐️⭐️☆☆ | 4.5 | 4.5 | [Luis Almeida](https://github.com/luis605) | +| 137 | [shaders_shadowmap](shaders/shaders_shadowmap.c) | shaders_shadowmap | ⭐️⭐️⭐️⭐️ | 5.0 | 5.0 | [TheManTheMythTheGameDev](https://github.com/TheManTheMythTheGameDev) | +| 138 | [shaders_vertex_displacement](shaders/shaders_vertex_displacement.c) | shaders_vertex_displacement | ⭐️⭐️⭐️☆ | 5.0 | 4.5 | [Alex ZH](https://github.com/ZzzhHe) | +| 139 | [shaders_write_depth](shaders/shaders_write_depth.c) | shaders_write_depth | ⭐️⭐️☆☆ | 4.2 | 4.2 | [Buğra Alptekin Sarı](https://github.com/BugraAlptekinSari) | +| 140 | [shaders_basic_pbr](shaders/shaders_basic_pbr.c) | shaders_basic_pbr | ⭐️⭐️⭐️⭐️ | 5.0 | 5.1-dev | [Afan OLOVCIC](https://github.com/_DevDad) | +| 141 | [shaders_lightmap](shaders/shaders_lightmap.c) | shaders_lightmap | ⭐️⭐️⭐️☆ | 4.5 | 4.5 | [Jussi Viitala](https://github.com/nullstare) | +| 142 | [shaders_rounded_rectangle](shaders/shaders_rounded_rectangle.c) | shaders_rounded_rectangle | ⭐️⭐️⭐️☆ | 5.5 | 5.5 | [Anstro Pleuton](https://github.com/anstropleuton) | +| 143 | [shaders_view_depth](shaders/shaders_view_depth.c) | shaders_view_depth | ⭐️⭐️⭐️☆ | 5.6-dev | 5.6-dev | [Luís Almeida](https://github.com/luis605) | ### category: audio @@ -207,26 +209,26 @@ Examples using raylib audio functionality, including sound/music loading and pla | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 142 | [audio_module_playing](audio/audio_module_playing.c) | audio_module_playing | ⭐️☆☆☆ | 1.5 | 3.5 | [Ray](https://github.com/raysan5) | -| 143 | [audio_music_stream](audio/audio_music_stream.c) | audio_music_stream | ⭐️☆☆☆ | 1.3 | 4.2 | [Ray](https://github.com/raysan5) | -| 144 | [audio_raw_stream](audio/audio_raw_stream.c) | audio_raw_stream | ⭐️⭐️⭐️☆ | 1.6 | 4.2 | [Ray](https://github.com/raysan5) | -| 145 | [audio_sound_loading](audio/audio_sound_loading.c) | audio_sound_loading | ⭐️☆☆☆ | 1.1 | 3.5 | [Ray](https://github.com/raysan5) | -| 146 | [audio_mixed_processor](audio/audio_mixed_processor.c) | audio_mixed_processor | ⭐️⭐️⭐️⭐️ | 4.2 | 4.2 | [hkc](https://github.com/hatkidchan) | -| 147 | [audio_stream_effects](audio/audio_stream_effects.c) | audio_stream_effects | ⭐️⭐️⭐️⭐️ | 4.2 | 5.0 | [Ray](https://github.com/raysan5) | -| 148 | [audio_sound_multi](audio/audio_sound_multi.c) | audio_sound_multi | ⭐️⭐️☆☆ | 4.6 | 4.6 | [Jeffery Myers](https://github.com/JeffM2501) | +| 144 | [audio_module_playing](audio/audio_module_playing.c) | audio_module_playing | ⭐️☆☆☆ | 1.5 | 3.5 | [Ray](https://github.com/raysan5) | +| 145 | [audio_music_stream](audio/audio_music_stream.c) | audio_music_stream | ⭐️☆☆☆ | 1.3 | 4.2 | [Ray](https://github.com/raysan5) | +| 146 | [audio_raw_stream](audio/audio_raw_stream.c) | audio_raw_stream | ⭐️⭐️⭐️☆ | 1.6 | 4.2 | [Ray](https://github.com/raysan5) | +| 147 | [audio_sound_loading](audio/audio_sound_loading.c) | audio_sound_loading | ⭐️☆☆☆ | 1.1 | 3.5 | [Ray](https://github.com/raysan5) | +| 148 | [audio_mixed_processor](audio/audio_mixed_processor.c) | audio_mixed_processor | ⭐️⭐️⭐️⭐️ | 4.2 | 4.2 | [hkc](https://github.com/hatkidchan) | +| 149 | [audio_stream_effects](audio/audio_stream_effects.c) | audio_stream_effects | ⭐️⭐️⭐️⭐️ | 4.2 | 5.0 | [Ray](https://github.com/raysan5) | +| 150 [audio_sound_multi](audio/audio_sound_multi.c) | audio_sound_multi | ⭐️⭐️☆☆ | 4.6 | 4.6 | [Jeffery Myers](https://github.com/JeffM2501) | +| 151 | [audio_sound_positioning](audio/audio_sound_positioning.c) | audio_sound_positioning | ⭐️⭐️☆☆ | 5.5 | 5.5 | [Le Juez Victor](https://github.com/Bigfoot71) | ### category: others -Examples showing raylib misc functionality that does not fit in other categories, like standalone modules usage or examples integrating external libraries. +Ex150amples showing raylib misc functionality that does not fit in other categories, like standalone modules usage or examples integrating external libraries. | ## | example | image | difficulty
level | version
created | last version
updated | original
developer | |----|----------|--------|:-------------------:|:------------------:|:-----------------------:|:----------------------| -| 149 | [rlgl_standalone](others/rlgl_standalone.c) | rlgl_standalone | ⭐️⭐️⭐️⭐️ | 1.6 | 4.0 | [Ray](https://github.com/raysan5) | -| 150 | [rlgl_compute_shader](others/rlgl_compute_shader.c) | rlgl_compute_shader | ⭐️⭐️⭐️⭐️ | 4.0 | 4.0 | [Teddy Astie](https://github.com/tsnake41) | -| 151 | [easings_testbed](others/easings_testbed.c) | easings_testbed | ⭐️⭐️⭐️☆ | 2.5 | 3.0 | [Juan Miguel López](https://github.com/flashback-fx) | -| 152 | [raylib_opengl_interop](others/raylib_opengl_interop.c) | raylib_opengl_interop | ⭐️⭐️⭐️⭐️ | 3.8 | 4.0 | [Stephan Soller](https://github.com/arkanis) | -| 153 | [embedded_files_loading](others/embedded_files_loading.c) | embedded_files_loading | ⭐️⭐️☆☆ | 3.0 | 3.5 | [Kristian Holmgren](https://github.com/defutura) | -| 154 | [raymath_vector_angle](others/raymath_vector_angle.c) | raymath_vector_angle | ⭐️⭐️☆☆ | 1.0 | 4.6 | [Ray](https://github.com/raysan5) | +| 152 | [rlgl_standalone](others/rlgl_standalone.c) | rlgl_standalone | ⭐️⭐️⭐️⭐️ | 1.6 | 4.0 | [Ray](https://github.com/raysan5) | +| 153 | [rlgl_compute_shader](others/rlgl_compute_shader.c) | rlgl_compute_shader | ⭐️⭐️⭐️⭐️ | 4.0 | 4.0 | [Teddy Astie](https://github.com/tsnake41) | +| 154 | [easings_testbed](others/easings_testbed.c) | easings_testbed | ⭐️⭐️⭐️☆ | 2.5 | 3.0 | [Juan Miguel López](https://github.com/flashback-fx) | +| 155 | [raylib_opengl_interop](others/raylib_opengl_interop.c) | raylib_opengl_interop | ⭐️⭐️⭐️⭐️ | 3.8 | 4.0 | [Stephan Soller](https://github.com/arkanis) | +| 156 | [embedded_files_loading](others/embedded_files_loading.c) | embedded_files_loading | ⭐️⭐️☆☆ | 3.0 | 3.5 | [Kristian Holmgren](https://github.com/defutura) | +| 157 | [raymath_vector_angle](others/raymath_vector_angle.c) | raymath_vector_angle | ⭐️⭐️☆☆ | 1.0 | 4.6 | [Ray](https://github.com/raysan5) | As always contributions are welcome, feel free to send new examples! Here is an [examples template](examples_template.c) to start with! - diff --git a/examples/audio/audio_sound_positioning.c b/examples/audio/audio_sound_positioning.c new file mode 100644 index 000000000..aad558672 --- /dev/null +++ b/examples/audio/audio_sound_positioning.c @@ -0,0 +1,123 @@ +/******************************************************************************************* +* +* raylib [audio] example - Playing spatialized 3D sound +* +* Example complexity rating: [★★☆☆] 2/4 +* +* Example originally created with raylib 5.5, last time updated with raylib 5.5 +* +* Example contributed by Le Juez Victor (@Bigfoot71) and reviewed by Ramon Santamaria (@raysan5) +* +* Example licensed under an unmodified zlib/libpng license, which is an OSI-certified, +* BSD-like license that allows static linking with closed source software +* +* Copyright (c) 2025 Le Juez Victor (@Bigfoot71) +* +********************************************************************************************/ + +#include "raylib.h" + +#include "raymath.h" + +// Sound positioning function +static void SetSoundPosition(Camera listener, Sound sound, Vector3 position, float maxDist); + +//------------------------------------------------------------------------------------ +// Program main entry point +//------------------------------------------------------------------------------------ +int main(void) +{ + // Initialization + //-------------------------------------------------------------------------------------- + const int screenWidth = 800; + const int screenHeight = 450; + + InitWindow(screenWidth, screenHeight, "raylib [audio] example - Playing spatialized 3D sound"); + + InitAudioDevice(); + + Sound sound = LoadSound("resources/coin.wav"); + + Camera camera = { + .position = (Vector3) { 0, 5, 5 }, + .target = (Vector3) { 0, 0, 0 }, + .up = (Vector3) { 0, 1, 0 }, + .fovy = 60, + .projection = CAMERA_PERSPECTIVE + }; + + DisableCursor(); + + SetTargetFPS(60); + //-------------------------------------------------------------------------------------- + + // Main game loop + while (!WindowShouldClose()) + { + // Update + //---------------------------------------------------------------------------------- + UpdateCamera(&camera, CAMERA_FREE); + + float th = GetTime(); + + Vector3 spherePos = { + .x = 5.0f*cosf(th), + .y = 0.0f, + .z = 5.0f*sinf(th) + }; + + SetSoundPosition(camera, sound, spherePos, 20.0f); + if (!IsSoundPlaying(sound)) PlaySound(sound); + //---------------------------------------------------------------------------------- + + // Draw + //---------------------------------------------------------------------------------- + BeginDrawing(); + + ClearBackground(RAYWHITE); + + BeginMode3D(camera); + DrawGrid(10, 2); + DrawSphere(spherePos, 0.5f, RED); + EndMode3D(); + + EndDrawing(); + //---------------------------------------------------------------------------------- + } + + // De-Initialization + //-------------------------------------------------------------------------------------- + UnloadSound(sound); + CloseAudioDevice(); // Close audio device + + CloseWindow(); // Close window and OpenGL context + //-------------------------------------------------------------------------------------- +} + +// Sound positioning function +static void SetSoundPosition(Camera listener, Sound sound, Vector3 position, float maxDist) +{ + // Calculate direction vector and distance between listener and sound source + Vector3 direction = Vector3Subtract(position, listener.position); + float distance = Vector3Length(direction); + + // Apply logarithmic distance attenuation and clamp between 0-1 + float attenuation = 1.0f/(1.0f + (distance/maxDist)); + attenuation = Clamp(attenuation, 0.0f, 1.0f); + + // Calculate normalized vectors for spatial positioning + Vector3 normalizedDirection = Vector3Normalize(direction); + Vector3 forward = Vector3Normalize(Vector3Subtract(listener.target, listener.position)); + Vector3 right = Vector3Normalize(Vector3CrossProduct(listener.up, forward)); + + // Reduce volume for sounds behind the listener + float dotProduct = Vector3DotProduct(forward, normalizedDirection); + if (dotProduct < 0.0f) attenuation *= (1.0f + dotProduct*0.5f); + + // Set stereo panning based on sound position relative to listener + float pan = 0.5f + 0.5f*Vector3DotProduct(normalizedDirection, right); + + // Apply final sound properties + SetSoundVolume(sound, attenuation); + SetSoundPan(sound, pan); +} diff --git a/examples/audio/audio_sound_positioning.png b/examples/audio/audio_sound_positioning.png new file mode 100644 index 000000000..6feaf7e4c Binary files /dev/null and b/examples/audio/audio_sound_positioning.png differ diff --git a/examples/build.zig b/examples/build.zig deleted file mode 100644 index 301381df3..000000000 --- a/examples/build.zig +++ /dev/null @@ -1,110 +0,0 @@ -const std = @import("std"); -const builtin = @import("builtin"); - -// This has been tested to work with zig 0.12.0 -fn add_module(comptime module: []const u8, b: *std.Build, target: std.Build.ResolvedTarget, optimize: std.builtin.OptimizeMode) !*std.Build.Step { - if (target.result.os.tag == .emscripten) { - @panic("Emscripten building via Zig unsupported"); - } - - const all = b.step(module, "All " ++ module ++ " examples"); - var dir = try std.fs.cwd().openDir(module, .{ .iterate = true }); - defer if (comptime builtin.zig_version.minor >= 12) dir.close(); - - var iter = dir.iterate(); - while (try iter.next()) |entry| { - if (entry.kind != .file) continue; - const extension_idx = std.mem.lastIndexOf(u8, entry.name, ".c") orelse continue; - const name = entry.name[0..extension_idx]; - const path = try std.fs.path.join(b.allocator, &.{ module, entry.name }); - - // zig's mingw headers do not include pthread.h - if (std.mem.eql(u8, "core_loading_thread", name) and target.result.os.tag == .windows) continue; - - const exe = b.addExecutable(.{ - .name = name, - .target = target, - .optimize = optimize, - }); - exe.addCSourceFile(.{ .file = b.path(path), .flags = &.{} }); - exe.linkLibC(); - exe.addObjectFile(switch (target.result.os.tag) { - .windows => b.path("../zig-out/lib/raylib.lib"), - .linux => b.path("../zig-out/lib/libraylib.a"), - .macos => b.path("../zig-out/lib/libraylib.a"), - .emscripten => b.path("../zig-out/lib/libraylib.a"), - else => @panic("Unsupported OS"), - }); - - exe.addIncludePath(b.path("../src")); - exe.addIncludePath(b.path("../src/external")); - exe.addIncludePath(b.path("../src/external/glfw/include")); - - switch (target.result.os.tag) { - .windows => { - exe.linkSystemLibrary("winmm"); - exe.linkSystemLibrary("gdi32"); - exe.linkSystemLibrary("opengl32"); - - exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); - }, - .linux => { - exe.linkSystemLibrary("GL"); - exe.linkSystemLibrary("rt"); - exe.linkSystemLibrary("dl"); - exe.linkSystemLibrary("m"); - exe.linkSystemLibrary("X11"); - - exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); - }, - .macos => { - exe.linkFramework("Foundation"); - exe.linkFramework("Cocoa"); - exe.linkFramework("OpenGL"); - exe.linkFramework("CoreAudio"); - exe.linkFramework("CoreVideo"); - exe.linkFramework("IOKit"); - - exe.root_module.addCMacro("PLATFORM_DESKTOP", ""); - }, - else => { - @panic("Unsupported OS"); - }, - } - - const install_cmd = b.addInstallArtifact(exe, .{}); - - const run_cmd = b.addRunArtifact(exe); - run_cmd.cwd = b.path(module); - run_cmd.step.dependOn(&install_cmd.step); - - const run_step = b.step(name, name); - run_step.dependOn(&run_cmd.step); - - all.dependOn(&install_cmd.step); - } - return all; -} - -pub fn build(b: *std.Build) !void { - // Standard target options allows the person running `zig build` to choose - // what target to build for. Here we do not override the defaults, which - // means any target is allowed, and the default is native. Other options - // for restricting supported target set are available. - const target = b.standardTargetOptions(.{}); - // Standard optimization options allow the person running `zig build` to select - // between Debug, ReleaseSafe, ReleaseFast, and ReleaseSmall. Here we do not - // set a preferred release mode, allowing the user to decide how to optimize. - const optimize = b.standardOptimizeOption(.{}); - - const all = b.getInstallStep(); - - all.dependOn(try add_module("audio", b, target, optimize)); - all.dependOn(try add_module("core", b, target, optimize)); - all.dependOn(try add_module("models", b, target, optimize)); - all.dependOn(try add_module("others", b, target, optimize)); - all.dependOn(try add_module("shaders", b, target, optimize)); - all.dependOn(try add_module("shapes", b, target, optimize)); - all.dependOn(try add_module("text", b, target, optimize)); - all.dependOn(try add_module("textures", b, target, optimize)); -} diff --git a/examples/core/core_2d_camera.c b/examples/core/core_2d_camera.c index 44d3c6961..07766e0fb 100644 --- a/examples/core/core_2d_camera.c +++ b/examples/core/core_2d_camera.c @@ -14,6 +14,7 @@ ********************************************************************************************/ #include "raylib.h" +#include #define MAX_BUILDINGS 100 @@ -44,7 +45,11 @@ int main(void) spacing += (int)buildings[i].width; - buildColors[i] = (Color){ GetRandomValue(200, 240), GetRandomValue(200, 240), GetRandomValue(200, 250), 255 }; + buildColors[i] = (Color){ + (unsigned char)GetRandomValue(200, 240), + (unsigned char)GetRandomValue(200, 240), + (unsigned char)GetRandomValue(200, 250), + 255}; } Camera2D camera = { 0 }; @@ -77,7 +82,8 @@ int main(void) else if (camera.rotation < -40) camera.rotation = -40; // Camera zoom controls - camera.zoom += ((float)GetMouseWheelMove()*0.05f); + // Uses log scaling to provide consistent zoom speed + camera.zoom = expf(logf(camera.zoom) + ((float)GetMouseWheelMove()*0.1f)); if (camera.zoom > 3.0f) camera.zoom = 3.0f; else if (camera.zoom < 0.1f) camera.zoom = 0.1f; diff --git a/examples/core/core_2d_camera_mouse_zoom.c b/examples/core/core_2d_camera_mouse_zoom.c index cfdaf15aa..31aa7bc6b 100644 --- a/examples/core/core_2d_camera_mouse_zoom.c +++ b/examples/core/core_2d_camera_mouse_zoom.c @@ -73,9 +73,9 @@ int main () camera.target = mouseWorldPos; // Zoom increment - float scaleFactor = 1.0f + (0.25f*fabsf(wheel)); - if (wheel < 0) scaleFactor = 1.0f/scaleFactor; - camera.zoom = Clamp(camera.zoom*scaleFactor, 0.125f, 64.0f); + // Uses log scaling to provide consistent zoom speed + float scale = 0.2f*wheel; + camera.zoom = Clamp(expf(logf(camera.zoom)+scale), 0.125f, 64.0f); } } else @@ -96,10 +96,10 @@ int main () if (IsMouseButtonDown(MOUSE_BUTTON_RIGHT)) { // Zoom increment + // Uses log scaling to provide consistent zoom speed float deltaX = GetMouseDelta().x; - float scaleFactor = 1.0f + (0.01f*fabsf(deltaX)); - if (deltaX < 0) scaleFactor = 1.0f/scaleFactor; - camera.zoom = Clamp(camera.zoom*scaleFactor, 0.125f, 64.0f); + float scale = 0.005f*deltaX; + camera.zoom = Clamp(expf(logf(camera.zoom)+scale), 0.125f, 64.0f); } } //---------------------------------------------------------------------------------- @@ -143,4 +143,4 @@ int main () CloseWindow(); // Close window and OpenGL context //-------------------------------------------------------------------------------------- return 0; -} \ No newline at end of file +} diff --git a/examples/core/core_custom_frame_control.c b/examples/core/core_custom_frame_control.c index 0d149ce9d..a9b98b039 100644 --- a/examples/core/core_custom_frame_control.c +++ b/examples/core/core_custom_frame_control.c @@ -95,7 +95,10 @@ int main(void) DrawText("PRESS SPACE to PAUSE MOVEMENT", 10, GetScreenHeight() - 60, 20, GRAY); DrawText("PRESS UP | DOWN to CHANGE TARGET FPS", 10, GetScreenHeight() - 30, 20, GRAY); DrawText(TextFormat("TARGET FPS: %i", targetFPS), GetScreenWidth() - 220, 10, 20, LIME); - DrawText(TextFormat("CURRENT FPS: %i", (int)(1.0f/deltaTime)), GetScreenWidth() - 220, 40, 20, GREEN); + if (deltaTime != 0) + { + DrawText(TextFormat("CURRENT FPS: %i", (int)(1.0f/deltaTime)), GetScreenWidth() - 220, 40, 20, GREEN); + } EndDrawing(); diff --git a/examples/core/core_high_dpi.c b/examples/core/core_high_dpi.c new file mode 100644 index 000000000..b9417bd63 --- /dev/null +++ b/examples/core/core_high_dpi.c @@ -0,0 +1,119 @@ +/******************************************************************************************* +* +* raylib [core] example - HighDPI +* +* Example complexity rating: [★☆☆☆] e/4 +* +* Example licensed under an unmodified zlib/libpng license, which is an OSI-certified, +* BSD-like license that allows static linking with closed source software +* +* Copyright (c) 2013-2025 Ramon Santamaria (@raysan5) +* +********************************************************************************************/ + +#include "raylib.h" + +static void DrawTextCenter(const char *text, int x, int y, int fontSize, Color color) +{ + Vector2 size = MeasureTextEx(GetFontDefault(), text, (float)fontSize, 3); + Vector2 pos = (Vector2){x - size.x/2, y - size.y/2 }; + DrawTextEx(GetFontDefault(), text, pos, (float)fontSize, 3, color); +} + +//------------------------------------------------------------------------------------ +// Program main entry point +//------------------------------------------------------------------------------------ +int main(void) +{ + // Initialization + //-------------------------------------------------------------------------------------- + const int screenWidth = 800; + const int screenHeight = 450; + + SetConfigFlags(FLAG_WINDOW_HIGHDPI | FLAG_WINDOW_RESIZABLE); + + InitWindow(screenWidth, screenHeight, "raylib [core] example - highdpi"); + SetWindowMinSize(450, 450); + + SetTargetFPS(60); // Set our game to run at 60 frames-per-second + //-------------------------------------------------------------------------------------- + + // Main game loop + while (!WindowShouldClose()) // Detect window close button or ESC key + { + // Update + //---------------------------------------------------------------------------------- + int monitorCount = GetMonitorCount(); + if (monitorCount > 1 && IsKeyPressed(KEY_N)) { + SetWindowMonitor((GetCurrentMonitor() + 1) % monitorCount); + } + int currentMonitor = GetCurrentMonitor(); + + // Draw + //---------------------------------------------------------------------------------- + BeginDrawing(); + + Vector2 dpiScale = GetWindowScaleDPI(); + ClearBackground(RAYWHITE); + + int windowCenter = GetScreenWidth() / 2; + DrawTextCenter(TextFormat("Dpi Scale: %f", dpiScale.x), windowCenter, 30, 40, DARKGRAY); + DrawTextCenter(TextFormat("Monitor: %d/%d ([N] next monitor)", currentMonitor+1, monitorCount), windowCenter, 70, 16, LIGHTGRAY); + + const int logicalGridDescY = 120; + const int logicalGridLabelY = logicalGridDescY + 30; + const int logicalGridTop = logicalGridLabelY + 30; + const int logicalGridBottom = logicalGridTop + 80; + const int pixelGridTop = logicalGridBottom - 20; + const int pixelGridBottom = pixelGridTop + 80; + const int pixelGridLabelY = pixelGridBottom + 30; + const int pixelGridDescY = pixelGridLabelY + 30; + + const int cellSize = 50; + const float cellSizePx = ((float)cellSize) / dpiScale.x; + + DrawTextCenter(TextFormat("Window is %d \"logical points\" wide", GetScreenWidth()), windowCenter, logicalGridDescY, 20, ORANGE); + bool odd = true; + for (int i = cellSize; i < GetScreenWidth(); i += cellSize, odd = !odd) { + if (odd) { + DrawRectangle(i, logicalGridTop, cellSize, logicalGridBottom-logicalGridTop, ORANGE); + } + DrawTextCenter(TextFormat("%d", i), i, logicalGridLabelY, 12, LIGHTGRAY); + DrawLine(i, logicalGridLabelY + 10, i, logicalGridBottom, GRAY); + } + + odd = true; + const int minTextSpace = 30; + int last_text_x = -minTextSpace; + for (int i = cellSize; i < GetRenderWidth(); i += cellSize, odd = !odd) { + int x = (int)(((float)i) / dpiScale.x); + if (odd) { + DrawRectangle(x, pixelGridTop, (int)cellSizePx, pixelGridBottom-pixelGridTop, CLITERAL(Color){ 0, 121, 241, 100 }); + } + DrawLine(x, pixelGridTop, (int)(((float)i) / dpiScale.x), pixelGridLabelY - 10, GRAY); + if (x - last_text_x >= minTextSpace) { + DrawTextCenter(TextFormat("%d", i), x, pixelGridLabelY, 12, LIGHTGRAY); + last_text_x = x; + } + } + + DrawTextCenter(TextFormat("Window is %d \"physical pixels\" wide", GetRenderWidth()), windowCenter, pixelGridDescY, 20, BLUE); + + { + const char *text = "Can you see this?"; + Vector2 size = MeasureTextEx(GetFontDefault(), text, 16, 3); + Vector2 pos = (Vector2){GetScreenWidth() - size.x - 5, GetScreenHeight() - size.y - 5}; + DrawTextEx(GetFontDefault(), text, pos, 16, 3, LIGHTGRAY); + } + + EndDrawing(); + //---------------------------------------------------------------------------------- + } + + // De-Initialization + //-------------------------------------------------------------------------------------- + CloseWindow(); // Close window and OpenGL context + //-------------------------------------------------------------------------------------- + + return 0; +} diff --git a/examples/core/core_high_dpi.png b/examples/core/core_high_dpi.png new file mode 100644 index 000000000..a5c353939 Binary files /dev/null and b/examples/core/core_high_dpi.png differ diff --git a/examples/core/core_window_flags.c b/examples/core/core_window_flags.c index ec4f6aac6..fb4058a9f 100644 --- a/examples/core/core_window_flags.c +++ b/examples/core/core_window_flags.c @@ -52,7 +52,7 @@ int main(void) int framesCounter = 0; - //SetTargetFPS(60); // Set our game to run at 60 frames-per-second + SetTargetFPS(60); // Set our game to run at 60 frames-per-second //---------------------------------------------------------- // Main game loop @@ -97,7 +97,10 @@ int main(void) if (IsWindowState(FLAG_WINDOW_MINIMIZED)) { framesCounter++; - if (framesCounter >= 240) RestoreWindow(); // Restore window after 3 seconds + if (framesCounter >= 240) { + RestoreWindow(); // Restore window after 3 seconds + framesCounter = 0; + } } if (IsKeyPressed(KEY_M)) @@ -131,6 +134,9 @@ int main(void) else SetWindowState(FLAG_VSYNC_HINT); } + if (IsKeyPressed(KEY_B)) ToggleBorderlessWindowed(); + + // Bouncing ball logic ballPosition.x += ballSpeed.x; ballPosition.y += ballSpeed.y; @@ -163,9 +169,9 @@ int main(void) if (IsWindowState(FLAG_WINDOW_UNDECORATED)) DrawText("[D] FLAG_WINDOW_UNDECORATED: on", 10, 120, 10, LIME); else DrawText("[D] FLAG_WINDOW_UNDECORATED: off", 10, 120, 10, MAROON); if (IsWindowState(FLAG_WINDOW_HIDDEN)) DrawText("[H] FLAG_WINDOW_HIDDEN: on", 10, 140, 10, LIME); - else DrawText("[H] FLAG_WINDOW_HIDDEN: off", 10, 140, 10, MAROON); + else DrawText("[H] FLAG_WINDOW_HIDDEN: off (hides for 3 seconds)", 10, 140, 10, MAROON); if (IsWindowState(FLAG_WINDOW_MINIMIZED)) DrawText("[N] FLAG_WINDOW_MINIMIZED: on", 10, 160, 10, LIME); - else DrawText("[N] FLAG_WINDOW_MINIMIZED: off", 10, 160, 10, MAROON); + else DrawText("[N] FLAG_WINDOW_MINIMIZED: off (restores after 3 seconds)", 10, 160, 10, MAROON); if (IsWindowState(FLAG_WINDOW_MAXIMIZED)) DrawText("[M] FLAG_WINDOW_MAXIMIZED: on", 10, 180, 10, LIME); else DrawText("[M] FLAG_WINDOW_MAXIMIZED: off", 10, 180, 10, MAROON); if (IsWindowState(FLAG_WINDOW_UNFOCUSED)) DrawText("[G] FLAG_WINDOW_UNFOCUSED: on", 10, 200, 10, LIME); @@ -176,14 +182,16 @@ int main(void) else DrawText("[A] FLAG_WINDOW_ALWAYS_RUN: off", 10, 240, 10, MAROON); if (IsWindowState(FLAG_VSYNC_HINT)) DrawText("[V] FLAG_VSYNC_HINT: on", 10, 260, 10, LIME); else DrawText("[V] FLAG_VSYNC_HINT: off", 10, 260, 10, MAROON); + if (IsWindowState(FLAG_BORDERLESS_WINDOWED_MODE)) DrawText("[B] FLAG_BORDERLESS_WINDOWED_MODE: on", 10, 280, 10, LIME); + else DrawText("[B] FLAG_BORDERLESS_WINDOWED_MODE: off", 10, 280, 10, MAROON); - DrawText("Following flags can only be set before window creation:", 10, 300, 10, GRAY); - if (IsWindowState(FLAG_WINDOW_HIGHDPI)) DrawText("FLAG_WINDOW_HIGHDPI: on", 10, 320, 10, LIME); - else DrawText("FLAG_WINDOW_HIGHDPI: off", 10, 320, 10, MAROON); - if (IsWindowState(FLAG_WINDOW_TRANSPARENT)) DrawText("FLAG_WINDOW_TRANSPARENT: on", 10, 340, 10, LIME); - else DrawText("FLAG_WINDOW_TRANSPARENT: off", 10, 340, 10, MAROON); - if (IsWindowState(FLAG_MSAA_4X_HINT)) DrawText("FLAG_MSAA_4X_HINT: on", 10, 360, 10, LIME); - else DrawText("FLAG_MSAA_4X_HINT: off", 10, 360, 10, MAROON); + DrawText("Following flags can only be set before window creation:", 10, 320, 10, GRAY); + if (IsWindowState(FLAG_WINDOW_HIGHDPI)) DrawText("FLAG_WINDOW_HIGHDPI: on", 10, 340, 10, LIME); + else DrawText("FLAG_WINDOW_HIGHDPI: off", 10, 340, 10, MAROON); + if (IsWindowState(FLAG_WINDOW_TRANSPARENT)) DrawText("FLAG_WINDOW_TRANSPARENT: on", 10, 360, 10, LIME); + else DrawText("FLAG_WINDOW_TRANSPARENT: off", 10, 360, 10, MAROON); + if (IsWindowState(FLAG_MSAA_4X_HINT)) DrawText("FLAG_MSAA_4X_HINT: on", 10, 380, 10, LIME); + else DrawText("FLAG_MSAA_4X_HINT: off", 10, 380, 10, MAROON); EndDrawing(); //----------------------------------------------------- diff --git a/examples/examples.rc b/examples/examples.rc index e5024b731..14938ae9d 100644 --- a/examples/examples.rc +++ b/examples/examples.rc @@ -1,27 +1,27 @@ GLFW_ICON ICON "raylib.ico" 1 VERSIONINFO -FILEVERSION 1,0,0,0 -PRODUCTVERSION 1,0,0,0 +FILEVERSION 5,5,0,0 +PRODUCTVERSION 5,5,0,0 BEGIN BLOCK "StringFileInfo" BEGIN - //BLOCK "080904E4" // English UK - BLOCK "040904E4" // English US + //BLOCK "080904E4" // English UK + BLOCK "040904E4" // English US BEGIN - VALUE "CompanyName", "raylib technologies" - VALUE "FileDescription", "raylib example" - VALUE "FileVersion", "1.0" + VALUE "CompanyName", "raylib technologies" + VALUE "FileDescription", "raylib application (www.raylib.com)" + VALUE "FileVersion", "5.5.0" VALUE "InternalName", "raylib-example" - VALUE "LegalCopyright", "(c) 2025 raylib technologies (@raylibtech)" - //VALUE "OriginalFilename", "raylib_app.exe" + VALUE "LegalCopyright", "(c) 2025 Ramon Santamaria (@raysan5)" + VALUE "OriginalFilename", "raylib-example" VALUE "ProductName", "raylib-example" - VALUE "ProductVersion", "1.0" + VALUE "ProductVersion", "5.5.0" END END BLOCK "VarFileInfo" BEGIN - //VALUE "Translation", 0x809, 1252 // English UK - VALUE "Translation", 0x409, 1252 // English US + //VALUE "Translation", 0x809, 1252 // English UK + VALUE "Translation", 0x409, 1252 // English US END END diff --git a/examples/shaders/resources/shaders/glsl100/depth.fs b/examples/shaders/resources/shaders/glsl100/depth.fs index e638e81d1..b330bd9c6 100644 --- a/examples/shaders/resources/shaders/glsl100/depth.fs +++ b/examples/shaders/resources/shaders/glsl100/depth.fs @@ -1,26 +1,28 @@ #version 100 -precision mediump float; - // Input vertex attributes (from vertex shader) varying vec2 fragTexCoord; -varying vec4 fragColor; // Input uniform values -uniform sampler2D texture0; // Depth texture -uniform vec4 colDiffuse; +uniform sampler2D depthTexture; +uniform bool flipY; -// NOTE: Add your custom variables here +float nearPlane = 0.1; +float farPlane = 100.0; void main() { - float zNear = 0.01; // camera z near - float zFar = 10.0; // camera z far - float z = texture2D(texture0, fragTexCoord).x; + // Handle potential Y-flipping + vec2 texCoord = fragTexCoord; + if (flipY) + texCoord.y = 1.0 - texCoord.y; - // Linearize depth value - float depth = (2.0*zNear)/(zFar + zNear - z*(zFar - zNear)); + // Sample depth texture + float depth = texture2D(depthTexture, texCoord).r; - // Calculate final fragment color - gl_FragColor = vec4(depth, depth, depth, 1.0); + // Linearize depth + float linearDepth = (2.0*nearPlane)/(farPlane + nearPlane - depth*(farPlane - nearPlane)); + + // Output final color + gl_FragColor = vec4(vec3(linearDepth), 1.0); } \ No newline at end of file diff --git a/examples/shaders/resources/shaders/glsl100/pbr.vs b/examples/shaders/resources/shaders/glsl100/pbr.vs index a55c0ea4b..baf003842 100644 --- a/examples/shaders/resources/shaders/glsl100/pbr.vs +++ b/examples/shaders/resources/shaders/glsl100/pbr.vs @@ -4,7 +4,7 @@ attribute vec3 vertexPosition; attribute vec2 vertexTexCoord; attribute vec3 vertexNormal; -attribute vec3 vertexTangent; +attribute vec4 vertexTangent; attribute vec4 vertexColor; // Input uniform values @@ -52,7 +52,7 @@ mat3 transpose(mat3 m) void main() { // Compute binormal from vertex normal and tangent - vec3 vertexBinormal = cross(vertexNormal, vertexTangent); + vec3 vertexBinormal = cross(vertexNormal, vertexTangent.xyz) * vertexTangent.w; // Compute fragment normal based on normal transformations mat3 normalMatrix = transpose(inverse(mat3(matModel))); @@ -62,7 +62,7 @@ void main() fragTexCoord = vertexTexCoord*2.0; fragNormal = normalize(normalMatrix*vertexNormal); - vec3 fragTangent = normalize(normalMatrix*vertexTangent); + vec3 fragTangent = normalize(normalMatrix*vertexTangent.xyz); fragTangent = normalize(fragTangent - dot(fragTangent, fragNormal)*fragNormal); vec3 fragBinormal = normalize(normalMatrix*vertexBinormal); fragBinormal = cross(fragNormal, fragTangent); diff --git a/examples/shaders/resources/shaders/glsl120/pbr.vs b/examples/shaders/resources/shaders/glsl120/pbr.vs index d3cc66488..e9750a60a 100644 --- a/examples/shaders/resources/shaders/glsl120/pbr.vs +++ b/examples/shaders/resources/shaders/glsl120/pbr.vs @@ -4,7 +4,7 @@ attribute vec3 vertexPosition; attribute vec2 vertexTexCoord; attribute vec3 vertexNormal; -attribute vec3 vertexTangent; +attribute vec4 vertexTangent; attribute vec4 vertexColor; // Input uniform values @@ -52,7 +52,7 @@ mat3 transpose(mat3 m) void main() { // Compute binormal from vertex normal and tangent - vec3 vertexBinormal = cross(vertexNormal, vertexTangent); + vec3 vertexBinormal = cross(vertexNormal, vertexTangent.xyz) * vertexTangent.w; // Compute fragment normal based on normal transformations mat3 normalMatrix = transpose(inverse(mat3(matModel))); @@ -62,7 +62,7 @@ void main() fragTexCoord = vertexTexCoord*2.0; fragNormal = normalize(normalMatrix*vertexNormal); - vec3 fragTangent = normalize(normalMatrix*vertexTangent); + vec3 fragTangent = normalize(normalMatrix*vertexTangent.xyz); fragTangent = normalize(fragTangent - dot(fragTangent, fragNormal)*fragNormal); vec3 fragBinormal = normalize(normalMatrix*vertexBinormal); fragBinormal = cross(fragNormal, fragTangent); @@ -71,4 +71,4 @@ void main() // Calculate final vertex position gl_Position = mvp*vec4(vertexPosition, 1.0); -} \ No newline at end of file +} diff --git a/examples/shaders/resources/shaders/glsl330/depth.fs b/examples/shaders/resources/shaders/glsl330/depth.fs index 43e30f9be..65592c83f 100644 --- a/examples/shaders/resources/shaders/glsl330/depth.fs +++ b/examples/shaders/resources/shaders/glsl330/depth.fs @@ -2,26 +2,29 @@ // Input vertex attributes (from vertex shader) in vec2 fragTexCoord; -in vec4 fragColor; // Input uniform values -uniform sampler2D texture0; // Depth texture -uniform vec4 colDiffuse; +uniform sampler2D depthTexture; +uniform bool flipY; + +const float nearPlane = 0.1; +const float farPlane = 100.0; // Output fragment color out vec4 finalColor; -// NOTE: Add your custom variables here - void main() { - float zNear = 0.01; // camera z near - float zFar = 10.0; // camera z far - float z = texture(texture0, fragTexCoord).x; + // Handle potential Y-flipping + vec2 texCoord = fragTexCoord; + if (flipY) texCoord.y = 1.0 - texCoord.y; + + // Sample depth + float depth = texture(depthTexture, texCoord).r; // Linearize depth value - float depth = (2.0*zNear)/(zFar + zNear - z*(zFar - zNear)); + float linearDepth = (2.0*nearPlane)/(farPlane + nearPlane - depth*(farPlane - nearPlane)); - // Calculate final fragment color - finalColor = vec4(depth, depth, depth, 1.0); + // Output final color + finalColor = vec4(vec3(linearDepth), 1.0); } \ No newline at end of file diff --git a/examples/shaders/resources/shaders/glsl330/pbr.vs b/examples/shaders/resources/shaders/glsl330/pbr.vs index 6f262313c..8aabb6baf 100644 --- a/examples/shaders/resources/shaders/glsl330/pbr.vs +++ b/examples/shaders/resources/shaders/glsl330/pbr.vs @@ -4,7 +4,7 @@ in vec3 vertexPosition; in vec2 vertexTexCoord; in vec3 vertexNormal; -in vec3 vertexTangent; +in vec4 vertexTangent; in vec4 vertexColor; // Input uniform values @@ -26,7 +26,7 @@ const float normalOffset = 0.1; void main() { // Compute binormal from vertex normal and tangent - vec3 vertexBinormal = cross(vertexNormal, vertexTangent); + vec3 vertexBinormal = cross(vertexNormal, vertexTangent.xyz) * vertexTangent.w; // Compute fragment normal based on normal transformations mat3 normalMatrix = transpose(inverse(mat3(matModel))); @@ -36,7 +36,7 @@ void main() fragTexCoord = vertexTexCoord*2.0; fragNormal = normalize(normalMatrix*vertexNormal); - vec3 fragTangent = normalize(normalMatrix*vertexTangent); + vec3 fragTangent = normalize(normalMatrix*vertexTangent.xyz); fragTangent = normalize(fragTangent - dot(fragTangent, fragNormal)*fragNormal); vec3 fragBinormal = normalize(normalMatrix*vertexBinormal); fragBinormal = cross(fragNormal, fragTangent); @@ -45,4 +45,4 @@ void main() // Calculate final vertex position gl_Position = mvp*vec4(vertexPosition, 1.0); -} \ No newline at end of file +} diff --git a/examples/shaders/shaders_basic_pbr.c b/examples/shaders/shaders_basic_pbr.c index e595ef9ca..b375c4fa1 100644 --- a/examples/shaders/shaders_basic_pbr.c +++ b/examples/shaders/shaders_basic_pbr.c @@ -125,6 +125,8 @@ int main() SetShaderValue(shader, GetShaderLocation(shader, "ambient"), &ambientIntensity, SHADER_UNIFORM_FLOAT); // Get location for shader parameters that can be modified in real time + int metallicValueLoc = GetShaderLocation(shader, "metallicValue"); + int roughnessValueLoc = GetShaderLocation(shader, "roughnessValue"); int emissiveIntensityLoc = GetShaderLocation(shader, "emissivePower"); int emissiveColorLoc = GetShaderLocation(shader, "emissiveColor"); int textureTilingLoc = GetShaderLocation(shader, "tiling"); @@ -141,7 +143,7 @@ int main() // Setup materials[0].maps default parameters car.materials[0].maps[MATERIAL_MAP_ALBEDO].color = WHITE; - car.materials[0].maps[MATERIAL_MAP_METALNESS].value = 0.0f; + car.materials[0].maps[MATERIAL_MAP_METALNESS].value = 1.0f; car.materials[0].maps[MATERIAL_MAP_ROUGHNESS].value = 0.0f; car.materials[0].maps[MATERIAL_MAP_OCCLUSION].value = 1.0f; car.materials[0].maps[MATERIAL_MAP_EMISSION].color = (Color){ 255, 162, 0, 255 }; @@ -163,8 +165,8 @@ int main() floor.materials[0].shader = shader; floor.materials[0].maps[MATERIAL_MAP_ALBEDO].color = WHITE; - floor.materials[0].maps[MATERIAL_MAP_METALNESS].value = 0.0f; - floor.materials[0].maps[MATERIAL_MAP_ROUGHNESS].value = 0.0f; + floor.materials[0].maps[MATERIAL_MAP_METALNESS].value = 0.8f; + floor.materials[0].maps[MATERIAL_MAP_ROUGHNESS].value = 0.1f; floor.materials[0].maps[MATERIAL_MAP_OCCLUSION].value = 1.0f; floor.materials[0].maps[MATERIAL_MAP_EMISSION].color = BLACK; @@ -228,6 +230,10 @@ int main() SetShaderValue(shader, textureTilingLoc, &floorTextureTiling, SHADER_UNIFORM_VEC2); Vector4 floorEmissiveColor = ColorNormalize(floor.materials[0].maps[MATERIAL_MAP_EMISSION].color); SetShaderValue(shader, emissiveColorLoc, &floorEmissiveColor, SHADER_UNIFORM_VEC4); + + // Set floor metallic and roughness values + SetShaderValue(shader, metallicValueLoc, &floor.materials[0].maps[MATERIAL_MAP_METALNESS].value, SHADER_UNIFORM_FLOAT); + SetShaderValue(shader, roughnessValueLoc, &floor.materials[0].maps[MATERIAL_MAP_ROUGHNESS].value, SHADER_UNIFORM_FLOAT); DrawModel(floor, (Vector3){ 0.0f, 0.0f, 0.0f }, 5.0f, WHITE); // Draw floor model @@ -237,6 +243,10 @@ int main() SetShaderValue(shader, emissiveColorLoc, &carEmissiveColor, SHADER_UNIFORM_VEC4); float emissiveIntensity = 0.01f; SetShaderValue(shader, emissiveIntensityLoc, &emissiveIntensity, SHADER_UNIFORM_FLOAT); + + // Set old car metallic and roughness values + SetShaderValue(shader, metallicValueLoc, &car.materials[0].maps[MATERIAL_MAP_METALNESS].value, SHADER_UNIFORM_FLOAT); + SetShaderValue(shader, roughnessValueLoc, &car.materials[0].maps[MATERIAL_MAP_ROUGHNESS].value, SHADER_UNIFORM_FLOAT); DrawModel(car, (Vector3){ 0.0f, 0.0f, 0.0f }, 0.25f, WHITE); // Draw car model diff --git a/examples/shaders/shaders_rounded_rectangle.c b/examples/shaders/shaders_rounded_rectangle.c index 754110d92..2256db6c3 100644 --- a/examples/shaders/shaders_rounded_rectangle.c +++ b/examples/shaders/shaders_rounded_rectangle.c @@ -108,8 +108,8 @@ int main(void) // Draw rectangle box with rounded corners using shader Rectangle rec = { 50, 70, 110, 60 }; - DrawRectangleLines(rec.x - 20, rec.y - 20, rec.width + 40, rec.height + 40, DARKGRAY); - DrawText("Rounded rectangle", rec.x - 20, rec.y - 35, 10, DARKGRAY); + DrawRectangleLines((int)rec.x - 20, (int)rec.y - 20, (int)rec.width + 40, (int)rec.height + 40, DARKGRAY); + DrawText("Rounded rectangle", (int)rec.x - 20, (int)rec.y - 35, 10, DARKGRAY); // Flip Y axis to match shader coordinate system rec.y = screenHeight - rec.y - rec.height; @@ -128,8 +128,8 @@ int main(void) // Draw rectangle shadow using shader rec = (Rectangle){ 50, 200, 110, 60 }; - DrawRectangleLines(rec.x - 20, rec.y - 20, rec.width + 40, rec.height + 40, DARKGRAY); - DrawText("Rounded rectangle shadow", rec.x - 20, rec.y - 35, 10, DARKGRAY); + DrawRectangleLines((int)rec.x - 20, (int)rec.y - 20, (int)rec.width + 40, (int)rec.height + 40, DARKGRAY); + DrawText("Rounded rectangle shadow", (int)rec.x - 20, (int)rec.y - 35, 10, DARKGRAY); rec.y = screenHeight - rec.y - rec.height; SetShaderValue(shader, roundedRectangle.rectangleLoc, (float[]){ rec.x, rec.y, rec.width, rec.height }, SHADER_UNIFORM_VEC4); @@ -147,8 +147,8 @@ int main(void) // Draw rectangle's border using shader rec = (Rectangle){ 50, 330, 110, 60 }; - DrawRectangleLines(rec.x - 20, rec.y - 20, rec.width + 40, rec.height + 40, DARKGRAY); - DrawText("Rounded rectangle border", rec.x - 20, rec.y - 35, 10, DARKGRAY); + DrawRectangleLines((int)rec.x - 20, (int)rec.y - 20, (int)rec.width + 40, (int)rec.height + 40, DARKGRAY); + DrawText("Rounded rectangle border", (int)rec.x - 20, (int)rec.y - 35, 10, DARKGRAY); rec.y = screenHeight - rec.y - rec.height; SetShaderValue(shader, roundedRectangle.rectangleLoc, (float[]){ rec.x, rec.y, rec.width, rec.height }, SHADER_UNIFORM_VEC4); @@ -166,8 +166,8 @@ int main(void) // Draw one more rectangle with all three colors rec = (Rectangle){ 240, 80, 500, 300 }; - DrawRectangleLines(rec.x - 30, rec.y - 30, rec.width + 60, rec.height + 60, DARKGRAY); - DrawText("Rectangle with all three combined", rec.x - 30, rec.y - 45, 10, DARKGRAY); + DrawRectangleLines((int)rec.x - 30, (int)rec.y - 30, (int)rec.width + 60, (int)rec.height + 60, DARKGRAY); + DrawText("Rectangle with all three combined", (int)rec.x - 30, (int)rec.y - 45, 10, DARKGRAY); rec.y = screenHeight - rec.y - rec.height; SetShaderValue(shader, roundedRectangle.rectangleLoc, (float[]){ rec.x, rec.y, rec.width, rec.height }, SHADER_UNIFORM_VEC4); diff --git a/examples/shaders/shaders_view_depth.c b/examples/shaders/shaders_view_depth.c new file mode 100644 index 000000000..4f141acb9 --- /dev/null +++ b/examples/shaders/shaders_view_depth.c @@ -0,0 +1,153 @@ +/******************************************************************************************* +* +* raylib [shader] example - render depth texture +* +* Example complexity rating: [★★★☆] 3/4 +* +* Example originally created with raylib 5.6-dev, last time updated with raylib 5.6-dev +* +* Example contributed by Luís Almeida (@luis605) +* +* Example licensed under an unmodified zlib/libpng license, which is an OSI-certified, +* BSD-like license that allows static linking with closed source software +* +* Copyright (c) 2025 Luís Almeida (@luis605) +* +********************************************************************************************/ + +#include "raylib.h" +#include "rlgl.h" + +#if defined(PLATFORM_DESKTOP) + #define GLSL_VERSION 330 +#else // PLATFORM_ANDROID, PLATFORM_WEB + #define GLSL_VERSION 100 +#endif + +RenderTexture2D LoadRenderTextureWithDepth(int width, int height); + +//------------------------------------------------------------------------------------ +// Program main entry point +//------------------------------------------------------------------------------------ +int main(void) +{ + // Initialization + //-------------------------------------------------------------------------------------- + const int screenWidth = 800; + const int screenHeight = 450; + + InitWindow(screenWidth, screenHeight, "raylib [shader] example - render depth texture"); + + // Init camera + Camera camera = { 0 }; + camera.position = (Vector3){ 4.0f, 1.0f, 5.0f }; + camera.target = (Vector3){ 0.0f, 0.0f, 0.0f }; + camera.up = (Vector3){ 0.0f, 1.0f, 0.0f }; + camera.fovy = 45.0f; + camera.projection = CAMERA_PERSPECTIVE; + + // Load an empty render texture with a depth texture + RenderTexture2D target = LoadRenderTextureWithDepth(screenWidth, screenHeight); + + // Load depth shader and get depth texture shader location + Shader depthShader = LoadShader(0, TextFormat("resources/shaders/glsl%i/depth.fs", GLSL_VERSION)); + int depthLoc = GetShaderLocation(depthShader, "depthTexture"); + int flipTextureLoc = GetShaderLocation(depthShader, "flipY"); + SetShaderValue(depthShader, flipTextureLoc, (int[]){ 1 }, SHADER_UNIFORM_INT); // Flip Y texture + + // Load models + Model cube = LoadModelFromMesh(GenMeshCube(1.0f, 1.0f, 1.0f)); + Model floor = LoadModelFromMesh(GenMeshPlane(20.0f, 20.0f, 1, 1)); + + DisableCursor(); // Limit cursor to relative movement inside the window + + SetTargetFPS(60); // Set our game to run at 60 frames-per-second + //-------------------------------------------------------------------------------------- + + // Main game loop + while (!WindowShouldClose()) // Detect window close button or ESC key + { + // Update + //---------------------------------------------------------------------------------- + UpdateCamera(&camera, CAMERA_FREE); + //---------------------------------------------------------------------------------- + + // Draw + //---------------------------------------------------------------------------------- + BeginTextureMode(target); + ClearBackground(WHITE); + + BeginMode3D(camera); + DrawModel(cube, (Vector3){ 0.0f, 0.0f, 0.0f }, 3.0f, YELLOW); + DrawModel(floor, (Vector3){ 10.0f, 0.0f, 2.0f }, 2.0f, RED); + EndMode3D(); + EndTextureMode(); + + BeginDrawing(); + + BeginShaderMode(depthShader); + SetShaderValueTexture(depthShader, depthLoc, target.depth); + DrawTexture(target.depth, 0, 0, WHITE); + EndShaderMode(); + + DrawRectangle( 10, 10, 320, 93, Fade(SKYBLUE, 0.5f)); + DrawRectangleLines( 10, 10, 320, 93, BLUE); + + DrawText("Camera Controls:", 20, 20, 10, BLACK); + DrawText("- WASD to move", 40, 40, 10, DARKGRAY); + DrawText("- Mouse Wheel Pressed to Pan", 40, 60, 10, DARKGRAY); + DrawText("- Z to zoom to (0, 0, 0)", 40, 80, 10, DARKGRAY); + + EndDrawing(); + //---------------------------------------------------------------------------------- + } + + // De-Initialization + //-------------------------------------------------------------------------------------- + UnloadModel(cube); // Unload model + UnloadModel(floor); // Unload model + UnloadRenderTexture(target); // Unload render texture + UnloadShader(depthShader); // Unload shader + + CloseWindow(); // Close window and OpenGL context + //-------------------------------------------------------------------------------------- + return 0; +} + +RenderTexture2D LoadRenderTextureWithDepth(int width, int height) +{ + RenderTexture2D target = {0}; + + target.id = rlLoadFramebuffer(); // Load an empty framebuffer + + if (target.id > 0) + { + rlEnableFramebuffer(target.id); + + // Create color texture (default to RGBA) + target.texture.id = rlLoadTexture(0, width, height, PIXELFORMAT_UNCOMPRESSED_R8G8B8A8, 1); + target.texture.width = width; + target.texture.height = height; + target.texture.format = PIXELFORMAT_UNCOMPRESSED_R8G8B8A8; + target.texture.mipmaps = 1; + + // Create depth texture + target.depth.id = rlLoadTextureDepth(width, height, false); + target.depth.width = width; + target.depth.height = height; + target.depth.format = 19; //DEPTH_COMPONENT_24BIT? THIS DOESN'T EXIST IN RAYLIB + target.depth.mipmaps = 1; + + // Attach color texture and depth texture to FBO + rlFramebufferAttach(target.id, target.texture.id, RL_ATTACHMENT_COLOR_CHANNEL0, RL_ATTACHMENT_TEXTURE2D, 0); + rlFramebufferAttach(target.id, target.depth.id, RL_ATTACHMENT_DEPTH, RL_ATTACHMENT_TEXTURE2D, 0); + + // Check if fbo is complete with attachments (valid) + if (rlFramebufferComplete(target.id)) TRACELOG(LOG_INFO, "FBO: [ID %i] Framebuffer object created successfully", target.id); + + rlDisableFramebuffer(); + } + else TRACELOG(LOG_WARNING, "FBO: Framebuffer object can not be created"); + + return target; +} \ No newline at end of file diff --git a/examples/shaders/shaders_view_depth.png b/examples/shaders/shaders_view_depth.png new file mode 100644 index 000000000..ae4c84502 Binary files /dev/null and b/examples/shaders/shaders_view_depth.png differ diff --git a/examples/shaders/shaders_write_depth.c b/examples/shaders/shaders_write_depth.c index d47ea1ae3..2d24dcaed 100644 --- a/examples/shaders/shaders_write_depth.c +++ b/examples/shaders/shaders_write_depth.c @@ -74,7 +74,6 @@ int main(void) // Draw //---------------------------------------------------------------------------------- - // Draw into our custom render texture (framebuffer) BeginTextureMode(target); ClearBackground(WHITE); @@ -93,7 +92,6 @@ int main(void) // Draw into screen our custom render texture BeginDrawing(); ClearBackground(RAYWHITE); - DrawTextureRec(target.texture, (Rectangle) { 0, 0, (float)screenWidth, (float)-screenHeight }, (Vector2) { 0, 0 }, WHITE); DrawFPS(10, 10); EndDrawing(); diff --git a/examples/shapes/shapes_basic_shapes.c b/examples/shapes/shapes_basic_shapes.c index bd1688453..0302a2ef5 100644 --- a/examples/shapes/shapes_basic_shapes.c +++ b/examples/shapes/shapes_basic_shapes.c @@ -52,6 +52,8 @@ int main(void) DrawCircle(screenWidth/5, 120, 35, DARKBLUE); DrawCircleGradient(screenWidth/5, 220, 60, GREEN, SKYBLUE); DrawCircleLines(screenWidth/5, 340, 80, DARKBLUE); + DrawEllipse(screenWidth/5, 120, 25, 20, YELLOW); + DrawEllipseLines(screenWidth/5, 120, 30, 25, YELLOW); // Rectangle shapes and lines DrawRectangle(screenWidth/4*2 - 60, 100, 120, 60, RED); diff --git a/examples/shapes/shapes_digital_clock.c b/examples/shapes/shapes_digital_clock.c new file mode 100644 index 000000000..ffa1ff5dc --- /dev/null +++ b/examples/shapes/shapes_digital_clock.c @@ -0,0 +1,185 @@ +/******************************************************************************************* +* +* raylib [shapes] example - fancy clock using basic shapes +* +* Example complexity rating: [★★☆☆] 2/4 +* +* Example originally created with raylib 5.5, last time updated with raylib 5.5 +* +* Example contributed by Hamza RAHAL (@hmz-rhl) and reviewed by Ramon Santamaria (@raysan5) +* +* Example licensed under an unmodified zlib/libpng license, which is an OSI-certified, +* BSD-like license that allows static linking with closed source software +* +* Copyright (c) 2025 Hamza RAHAL (@hmz-rhl) +* +********************************************************************************************/ + +#include "raylib.h" + +#include // Required for: cosf(), sinf() +#include // Required for: time(), localtime() + +#define DIGIT_SIZE 30 + +//---------------------------------------------------------------------------------- +// Types and Structures Definition +//---------------------------------------------------------------------------------- +typedef enum { + MODE_NORMAL = 0, + MODE_HANDS_FREE, +} ClockMode; + +typedef struct { + int value; + Vector2 origin; + float angle; + int length; + int thickness; + Color color; +} ClockHand; + +typedef struct { + ClockMode mode; + ClockHand second; + ClockHand minute; + ClockHand hour; +} Clock; + +//---------------------------------------------------------------------------------- +// Module Functions Declaration +//---------------------------------------------------------------------------------- +static void UpdateClock(Clock *clock); // Update clock time +static void DrawClock(Clock clock, Vector2 centerPos); // Draw clock at desired position + +//------------------------------------------------------------------------------------ +// Program main entry point +//------------------------------------------------------------------------------------ +int main(void) +{ + // Initialization + //-------------------------------------------------------------------------------------- + const int screenWidth = 800; + const int screenHeight = 450; + + InitWindow(screenWidth, screenHeight, "raylib [shapes] example - digital clock"); + + // Initialize clock + Clock myClock = { + .mode = MODE_NORMAL, + + .second.angle = 45, + .second.length = 140, + .second.thickness = 3, + .second.color = BEIGE, + + .minute.angle = 10, + .minute.length = 130, + .minute.thickness = 7, + .minute.color = DARKGRAY, + + .hour.angle = 0, + .hour.length = 100, + .hour.thickness = 7, + .hour.color = BLACK, + }; + + SetTargetFPS(60); // Set our game to run at 60 frames-per-second + //-------------------------------------------------------------------------------------- + + // Main game loop + while (!WindowShouldClose()) // Detect window close button or ESC key + { + // Update + //---------------------------------------------------------------------------------- + if (IsKeyPressed(KEY_SPACE)) + { + if (myClock.mode == MODE_HANDS_FREE) myClock.mode = MODE_NORMAL; + else if (myClock.mode == MODE_NORMAL) myClock.mode = MODE_HANDS_FREE; + } + + UpdateClock(&myClock); + //---------------------------------------------------------------------------------- + + // Draw + //---------------------------------------------------------------------------------- + BeginDrawing(); + + ClearBackground(RAYWHITE); + + DrawCircle(400, 225, 5, BLACK); // Clock center dot + + DrawClock(myClock, (Vector2){ 400, 225 }); // Clock in selected mode + + DrawText("Press [SPACE] to switch clock mode", 10, 10, 20, DARKGRAY); + + EndDrawing(); + //---------------------------------------------------------------------------------- + } + + // De-Initialization + //-------------------------------------------------------------------------------------- + CloseWindow(); // Close window and OpenGL context + //-------------------------------------------------------------------------------------- + + return 0; +} + +//---------------------------------------------------------------------------------- +// Module Functions Definition +//---------------------------------------------------------------------------------- + +// Update clock time +static void UpdateClock(Clock *clock) +{ + time_t rawtime; + struct tm * timeinfo; + + time(&rawtime); + timeinfo = localtime(&rawtime); + + // Updating time data + clock->second.value = timeinfo->tm_sec; + clock->minute.value = timeinfo->tm_min; + clock->hour.value = timeinfo->tm_hour; + + clock->hour.angle = (timeinfo->tm_hour%12)*180.0/6.0f; + clock->hour.angle += (timeinfo->tm_min%60)*30/60.0f; + clock->hour.angle -= 90; + + clock->minute.angle = (timeinfo->tm_min%60)*6.0f; + clock->minute.angle += (timeinfo->tm_sec%60)*6/60.0f; + clock->minute.angle -= 90; + + clock->second.angle = (timeinfo->tm_sec%60)*6.0f; + clock->second.angle -= 90; +} + +// Draw clock +static void DrawClock(Clock clock, Vector2 centerPosition) +{ + if (clock.mode == MODE_HANDS_FREE) + { + DrawCircleLinesV(centerPosition, clock.minute.length, LIGHTGRAY); + + DrawText(TextFormat("%i", clock.second.value), centerPosition.x + (clock.second.length - 10)*cosf(clock.second.angle*(float)(PI/180)) - DIGIT_SIZE/2, centerPosition.y + clock.second.length*sinf(clock.second.angle*(float)(PI/180)) - DIGIT_SIZE/2, DIGIT_SIZE, GRAY); + + DrawText(TextFormat("%i", clock.minute.value), clock.minute.origin.x + clock.minute.length*cosf(clock.minute.angle*(float)(PI/180)) - DIGIT_SIZE/2, centerPosition.y + clock.minute.length*sinf(clock.minute.angle*(float)(PI/180)) - DIGIT_SIZE/2, DIGIT_SIZE, RED); + + DrawText(TextFormat("%i", clock.hour.value), centerPosition.x + clock.hour.length*cosf(clock.hour.angle*(float)(PI/180)) - DIGIT_SIZE/2, centerPosition.y + clock.hour.length*sinf(clock.hour.angle*(float)(PI/180)) - DIGIT_SIZE/2, DIGIT_SIZE, GOLD); + } + else if (clock.mode == MODE_NORMAL) + { + // Draw hand seconds + DrawRectanglePro((Rectangle){ centerPosition.x, centerPosition.y, clock.second.length, clock.second.thickness }, + (Vector2){ 0.0f, clock.second.thickness/2.0f }, clock.second.angle, clock.second.color); + + // Draw hand minutes + DrawRectanglePro((Rectangle){ centerPosition.x, centerPosition.y, clock.minute.length, clock.minute.thickness }, + (Vector2){ 0.0f, clock.minute.thickness/2.0f }, clock.minute.angle, clock.minute.color); + + // Draw hand hours + DrawRectanglePro((Rectangle){ centerPosition.x, centerPosition.y, clock.hour.length, clock.hour.thickness }, + (Vector2){ 0.0f, clock.hour.thickness/2.0f }, clock.hour.angle, clock.hour.color); + } +} \ No newline at end of file diff --git a/examples/shapes/shapes_digital_clock.png b/examples/shapes/shapes_digital_clock.png new file mode 100644 index 000000000..229392531 Binary files /dev/null and b/examples/shapes/shapes_digital_clock.png differ diff --git a/examples/shapes/shapes_draw_circle_sector.c b/examples/shapes/shapes_draw_circle_sector.c index e64055c81..1485c464e 100644 --- a/examples/shapes/shapes_draw_circle_sector.c +++ b/examples/shapes/shapes_draw_circle_sector.c @@ -15,7 +15,7 @@ * ********************************************************************************************/ -#include +#include "raylib.h" #define RAYGUI_IMPLEMENTATION #include "raygui.h" // Required for GUI controls diff --git a/examples/shapes/shapes_draw_rectangle_rounded.c b/examples/shapes/shapes_draw_rectangle_rounded.c index ed7e032d1..614ed54b1 100644 --- a/examples/shapes/shapes_draw_rectangle_rounded.c +++ b/examples/shapes/shapes_draw_rectangle_rounded.c @@ -15,7 +15,7 @@ * ********************************************************************************************/ -#include +#include "raylib.h" #define RAYGUI_IMPLEMENTATION #include "raygui.h" // Required for GUI controls diff --git a/examples/shapes/shapes_draw_ring.c b/examples/shapes/shapes_draw_ring.c index daee5cbf5..f7a18bdec 100644 --- a/examples/shapes/shapes_draw_ring.c +++ b/examples/shapes/shapes_draw_ring.c @@ -15,7 +15,7 @@ * ********************************************************************************************/ -#include +#include "raylib.h" #define RAYGUI_IMPLEMENTATION #include "raygui.h" // Required for GUI controls diff --git a/examples/shapes/shapes_splines_drawing.c b/examples/shapes/shapes_splines_drawing.c index 065050e8e..3b4c9c284 100644 --- a/examples/shapes/shapes_splines_drawing.c +++ b/examples/shapes/shapes_splines_drawing.c @@ -101,15 +101,18 @@ int main(void) } // Spline point focus and selection logic - for (int i = 0; i < pointCount; i++) + if ((selectedPoint == -1) && ((splineTypeActive != SPLINE_BEZIER) || (selectedControlPoint == NULL))) { - if (CheckCollisionPointCircle(GetMousePosition(), points[i], 8.0f)) + focusedPoint = -1; + for (int i = 0; i < pointCount; i++) { - focusedPoint = i; - if (IsMouseButtonDown(MOUSE_LEFT_BUTTON)) selectedPoint = i; - break; + if (CheckCollisionPointCircle(GetMousePosition(), points[i], 8.0f)) + { + focusedPoint = i; + break; + } } - else focusedPoint = -1; + if (IsMouseButtonPressed(MOUSE_LEFT_BUTTON)) selectedPoint = focusedPoint; } // Spline point movement logic @@ -123,21 +126,23 @@ int main(void) if ((splineTypeActive == SPLINE_BEZIER) && (focusedPoint == -1)) { // Spline control point focus and selection logic - for (int i = 0; i < pointCount - 1; i++) + if (selectedControlPoint == NULL) { - if (CheckCollisionPointCircle(GetMousePosition(), control[i].start, 6.0f)) + focusedControlPoint = NULL; + for (int i = 0; i < pointCount - 1; i++) { - focusedControlPoint = &control[i].start; - if (IsMouseButtonDown(MOUSE_LEFT_BUTTON)) selectedControlPoint = &control[i].start; - break; + if (CheckCollisionPointCircle(GetMousePosition(), control[i].start, 6.0f)) + { + focusedControlPoint = &control[i].start; + break; + } + else if (CheckCollisionPointCircle(GetMousePosition(), control[i].end, 6.0f)) + { + focusedControlPoint = &control[i].end; + break; + } } - else if (CheckCollisionPointCircle(GetMousePosition(), control[i].end, 6.0f)) - { - focusedControlPoint = &control[i].end; - if (IsMouseButtonDown(MOUSE_LEFT_BUTTON)) selectedControlPoint = &control[i].end; - break; - } - else focusedControlPoint = NULL; + if (IsMouseButtonPressed(MOUSE_LEFT_BUTTON)) selectedControlPoint = focusedControlPoint; } // Spline control point movement logic @@ -153,6 +158,9 @@ int main(void) else if (IsKeyPressed(KEY_TWO)) splineTypeActive = 1; else if (IsKeyPressed(KEY_THREE)) splineTypeActive = 2; else if (IsKeyPressed(KEY_FOUR)) splineTypeActive = 3; + + // Clear selection when changing to a spline without control points + if (IsKeyPressed(KEY_ONE) || IsKeyPressed(KEY_TWO) || IsKeyPressed(KEY_THREE)) selectedControlPoint = NULL; //---------------------------------------------------------------------------------- // Draw @@ -249,7 +257,7 @@ int main(void) } // Check all possible UI states that require controls lock - if (splineTypeEditMode) GuiLock(); + if (splineTypeEditMode || (selectedPoint != -1) || (selectedControlPoint != NULL)) GuiLock(); // Draw spline config GuiLabel((Rectangle){ 12, 62, 140, 24 }, TextFormat("Spline thickness: %i", (int)splineThickness)); @@ -257,10 +265,12 @@ int main(void) GuiCheckBox((Rectangle){ 12, 110, 20, 20 }, "Show point helpers", &splineHelpersActive); - GuiUnlock(); + if (splineTypeEditMode) GuiUnlock(); GuiLabel((Rectangle){ 12, 10, 140, 24 }, "Spline type:"); if (GuiDropdownBox((Rectangle){ 12, 8 + 24, 140, 28 }, "LINEAR;BSPLINE;CATMULLROM;BEZIER", &splineTypeActive, splineTypeEditMode)) splineTypeEditMode = !splineTypeEditMode; + + GuiUnlock(); EndDrawing(); //---------------------------------------------------------------------------------- diff --git a/examples/text/text_draw_3d.c b/examples/text/text_draw_3d.c index 21be7dc62..6fc0e6c5c 100644 --- a/examples/text/text_draw_3d.c +++ b/examples/text/text_draw_3d.c @@ -65,8 +65,6 @@ typedef struct WaveTextConfig { static void DrawTextCodepoint3D(Font font, int codepoint, Vector3 position, float fontSize, bool backface, Color tint); // Draw a 2D text in 3D space static void DrawText3D(Font font, const char *text, Vector3 position, float fontSize, float fontSpacing, float lineSpacing, bool backface, Color tint); -// Measure a text in 3D. For some reason `MeasureTextEx()` just doesn't seem to work so i had to use this instead. -static Vector3 MeasureText3D(Font font, const char *text, float fontSize, float fontSpacing, float lineSpacing); // Draw a 2D text in 3D space and wave the parts that start with `~~` and end with `~~`. // This is a modified version of the original code by @Nighten found here https://github.com/NightenDushi/Raylib_DrawTextStyle @@ -107,9 +105,9 @@ int main(void) // Use the default font Font font = GetFontDefault(); - float fontSize = 8.0f; - float fontSpacing = 0.5f; - float lineSpacing = -1.0f; + float fontSize = 0.8f; + float fontSpacing = 0.05f; + float lineSpacing = -0.1f; // Set the text (using markdown!) char text[64] = "Hello ~~World~~ in 3D!"; @@ -317,44 +315,44 @@ int main(void) rlRotatef(180.0f, 0.0f, 1.0f, 0.0f); char *opt = (char *)TextFormat("< SIZE: %2.1f >", fontSize); quads += TextLength(opt); - Vector3 m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + Vector2 m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); Vector3 pos = { -m.x/2.0f, 0.01f, 2.0f}; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, BLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, BLUE); + pos.z += 0.5f + m.y; opt = (char *)TextFormat("< SPACING: %2.1f >", fontSpacing); quads += TextLength(opt); - m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, BLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, BLUE); + pos.z += 0.5f + m.y; opt = (char *)TextFormat("< LINE: %2.1f >", lineSpacing); quads += TextLength(opt); - m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, BLUE); - pos.z += 1.0f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, BLUE); + pos.z += 0.5f + m.y; opt = (char *)TextFormat("< LBOX: %3s >", slb? "ON" : "OFF"); quads += TextLength(opt); - m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, RED); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, RED); + pos.z += 0.5f + m.y; opt = (char *)TextFormat("< TBOX: %3s >", SHOW_TEXT_BOUNDRY? "ON" : "OFF"); quads += TextLength(opt); - m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, RED); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, RED); + pos.z += 0.5f + m.y; opt = (char *)TextFormat("< LAYER DISTANCE: %.3f >", layerDistance); quads += TextLength(opt); - m = MeasureText3D(GetFontDefault(), opt, 8.0f, 1.0f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.8f, 0.1f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 8.0f, 1.0f, 0.0f, false, DARKPURPLE); + DrawText3D(GetFontDefault(), opt, pos, 0.8f, 0.1f, 0.0f, false, DARKPURPLE); rlPopMatrix(); //------------------------------------------------------------------------- @@ -362,44 +360,44 @@ int main(void) //------------------------------------------------------------------------- opt = "All the text displayed here is in 3D"; quads += 36; - m = MeasureText3D(GetFontDefault(), opt, 10.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 1.0f, 0.05f); pos = (Vector3){-m.x/2.0f, 0.01f, 2.0f}; - DrawText3D(GetFontDefault(), opt, pos, 10.0f, 0.5f, 0.0f, false, DARKBLUE); - pos.z += 1.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 1.0f, 0.05f, 0.0f, false, DARKBLUE); + pos.z += 1.5f + m.y; opt = "press [Left]/[Right] to change the font size"; quads += 44; - m = MeasureText3D(GetFontDefault(), opt, 6.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.6f, 0.05f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 6.0f, 0.5f, 0.0f, false, DARKBLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.6f, 0.05f, 0.0f, false, DARKBLUE); + pos.z += 0.5f + m.y; opt = "press [Up]/[Down] to change the font spacing"; quads += 44; - m = MeasureText3D(GetFontDefault(), opt, 6.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.6f, 0.05f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 6.0f, 0.5f, 0.0f, false, DARKBLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.6f, 0.05f, 0.0f, false, DARKBLUE); + pos.z += 0.5f + m.y; opt = "press [PgUp]/[PgDown] to change the line spacing"; quads += 48; - m = MeasureText3D(GetFontDefault(), opt, 6.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.6f, 0.05f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 6.0f, 0.5f, 0.0f, false, DARKBLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.6f, 0.05f, 0.0f, false, DARKBLUE); + pos.z += 0.5f + m.y; opt = "press [F1] to toggle the letter boundry"; quads += 39; - m = MeasureText3D(GetFontDefault(), opt, 6.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.6f, 0.05f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 6.0f, 0.5f, 0.0f, false, DARKBLUE); - pos.z += 0.5f + m.z; + DrawText3D(GetFontDefault(), opt, pos, 0.6f, 0.05f, 0.0f, false, DARKBLUE); + pos.z += 0.5f + m.y; opt = "press [F2] to toggle the text boundry"; quads += 37; - m = MeasureText3D(GetFontDefault(), opt, 6.0f, 0.5f, 0.0f); + m = MeasureTextEx(GetFontDefault(), opt, 0.6f, 0.05f); pos.x = -m.x/2.0f; - DrawText3D(GetFontDefault(), opt, pos, 6.0f, 0.5f, 0.0f, false, DARKBLUE); + DrawText3D(GetFontDefault(), opt, pos, 0.6f, 0.05f, 0.0f, false, DARKBLUE); //------------------------------------------------------------------------- SHOW_LETTER_BOUNDRY = slb; @@ -462,16 +460,16 @@ static void DrawTextCodepoint3D(Font font, int codepoint, Vector3 position, floa // Character destination rectangle on screen // NOTE: We consider charsPadding on drawing - position.x += (float)(font.glyphs[index].offsetX - font.glyphPadding)/(float)font.baseSize*scale; - position.z += (float)(font.glyphs[index].offsetY - font.glyphPadding)/(float)font.baseSize*scale; + position.x += (float)(font.glyphs[index].offsetX - font.glyphPadding)*scale; + position.z += (float)(font.glyphs[index].offsetY - font.glyphPadding)*scale; // Character source rectangle from font texture atlas // NOTE: We consider chars padding when drawing, it could be required for outline/glow shader effects Rectangle srcRec = { font.recs[index].x - (float)font.glyphPadding, font.recs[index].y - (float)font.glyphPadding, font.recs[index].width + 2.0f*font.glyphPadding, font.recs[index].height + 2.0f*font.glyphPadding }; - float width = (float)(font.recs[index].width + 2.0f*font.glyphPadding)/(float)font.baseSize*scale; - float height = (float)(font.recs[index].height + 2.0f*font.glyphPadding)/(float)font.baseSize*scale; + float width = (float)(font.recs[index].width + 2.0f*font.glyphPadding)*scale; + float height = (float)(font.recs[index].height + 2.0f*font.glyphPadding)*scale; if (font.texture.id > 0) { @@ -544,7 +542,7 @@ static void DrawText3D(Font font, const char *text, Vector3 position, float font { // NOTE: Fixed line spacing of 1.5 line-height // TODO: Support custom line spacing defined by user - textOffsetY += scale + lineSpacing/(float)font.baseSize*scale; + textOffsetY += fontSize + lineSpacing; textOffsetX = 0.0f; } else @@ -554,69 +552,14 @@ static void DrawText3D(Font font, const char *text, Vector3 position, float font DrawTextCodepoint3D(font, codepoint, (Vector3){ position.x + textOffsetX, position.y, position.z + textOffsetY }, fontSize, backface, tint); } - if (font.glyphs[index].advanceX == 0) textOffsetX += (float)(font.recs[index].width + fontSpacing)/(float)font.baseSize*scale; - else textOffsetX += (float)(font.glyphs[index].advanceX + fontSpacing)/(float)font.baseSize*scale; + if (font.glyphs[index].advanceX == 0) textOffsetX += (float)font.recs[index].width*scale + fontSpacing; + else textOffsetX += (float)font.glyphs[index].advanceX*scale + fontSpacing; } i += codepointByteCount; // Move text bytes counter to next codepoint } } -// Measure a text in 3D. For some reason `MeasureTextEx()` just doesn't seem to work so i had to use this instead. -static Vector3 MeasureText3D(Font font, const char* text, float fontSize, float fontSpacing, float lineSpacing) -{ - int len = TextLength(text); - int tempLen = 0; // Used to count longer text line num chars - int lenCounter = 0; - - float tempTextWidth = 0.0f; // Used to count longer text line width - - float scale = fontSize/(float)font.baseSize; - float textHeight = scale; - float textWidth = 0.0f; - - int letter = 0; // Current character - int index = 0; // Index position in sprite font - - for (int i = 0; i < len; i++) - { - lenCounter++; - - int next = 0; - letter = GetCodepoint(&text[i], &next); - index = GetGlyphIndex(font, letter); - - // NOTE: normally we exit the decoding sequence as soon as a bad byte is found (and return 0x3f) - // but we need to draw all of the bad bytes using the '?' symbol so to not skip any we set next = 1 - if (letter == 0x3f) next = 1; - i += next - 1; - - if (letter != '\n') - { - if (font.glyphs[index].advanceX != 0) textWidth += (font.glyphs[index].advanceX+fontSpacing)/(float)font.baseSize*scale; - else textWidth += (font.recs[index].width + font.glyphs[index].offsetX)/(float)font.baseSize*scale; - } - else - { - if (tempTextWidth < textWidth) tempTextWidth = textWidth; - lenCounter = 0; - textWidth = 0.0f; - textHeight += scale + lineSpacing/(float)font.baseSize*scale; - } - - if (tempLen < lenCounter) tempLen = lenCounter; - } - - if (tempTextWidth < textWidth) tempTextWidth = textWidth; - - Vector3 vec = { 0 }; - vec.x = tempTextWidth + (float)((tempLen - 1)*fontSpacing/(float)font.baseSize*scale); // Adds chars spacing to measure - vec.y = 0.25f; - vec.z = textHeight; - - return vec; -} - // Draw a 2D text in 3D space and wave the parts that start with `~~` and end with `~~`. // This is a modified version of the original code by @Nighten found here https://github.com/NightenDushi/Raylib_DrawTextStyle static void DrawTextWave3D(Font font, const char *text, Vector3 position, float fontSize, float fontSpacing, float lineSpacing, bool backface, WaveTextConfig* config, float time, Color tint) @@ -645,7 +588,7 @@ static void DrawTextWave3D(Font font, const char *text, Vector3 position, float { // NOTE: Fixed line spacing of 1.5 line-height // TODO: Support custom line spacing defined by user - textOffsetY += scale + lineSpacing/(float)font.baseSize*scale; + textOffsetY += fontSize + lineSpacing; textOffsetX = 0.0f; k = 0; } @@ -672,8 +615,8 @@ static void DrawTextWave3D(Font font, const char *text, Vector3 position, float DrawTextCodepoint3D(font, codepoint, (Vector3){ pos.x + textOffsetX, pos.y, pos.z + textOffsetY }, fontSize, backface, tint); } - if (font.glyphs[index].advanceX == 0) textOffsetX += (float)(font.recs[index].width + fontSpacing)/(float)font.baseSize*scale; - else textOffsetX += (float)(font.glyphs[index].advanceX + fontSpacing)/(float)font.baseSize*scale; + if (font.glyphs[index].advanceX == 0) textOffsetX += (float)font.recs[index].width*scale + fontSpacing; + else textOffsetX += (float)font.glyphs[index].advanceX*scale + fontSpacing; } i += codepointByteCount; // Move text bytes counter to next codepoint @@ -698,8 +641,6 @@ static Vector3 MeasureTextWave3D(Font font, const char* text, float fontSize, fl for (int i = 0; i < len; i++) { - lenCounter++; - int next = 0; letter = GetCodepoint(&text[i], &next); index = GetGlyphIndex(font, letter); @@ -717,8 +658,9 @@ static Vector3 MeasureTextWave3D(Font font, const char* text, float fontSize, fl } else { - if (font.glyphs[index].advanceX != 0) textWidth += (font.glyphs[index].advanceX+fontSpacing)/(float)font.baseSize*scale; - else textWidth += (font.recs[index].width + font.glyphs[index].offsetX)/(float)font.baseSize*scale; + lenCounter++; + if (font.glyphs[index].advanceX != 0) textWidth += font.glyphs[index].advanceX*scale; + else textWidth += (font.recs[index].width + font.glyphs[index].offsetX)*scale; } } else @@ -726,7 +668,7 @@ static Vector3 MeasureTextWave3D(Font font, const char* text, float fontSize, fl if (tempTextWidth < textWidth) tempTextWidth = textWidth; lenCounter = 0; textWidth = 0.0f; - textHeight += scale + lineSpacing/(float)font.baseSize*scale; + textHeight += fontSize + lineSpacing; } if (tempLen < lenCounter) tempLen = lenCounter; @@ -735,7 +677,7 @@ static Vector3 MeasureTextWave3D(Font font, const char* text, float fontSize, fl if (tempTextWidth < textWidth) tempTextWidth = textWidth; Vector3 vec = { 0 }; - vec.x = tempTextWidth + (float)((tempLen - 1)*fontSpacing/(float)font.baseSize*scale); // Adds chars spacing to measure + vec.x = tempTextWidth + (float)((tempLen - 1)*fontSpacing); // Adds chars spacing to measure vec.y = 0.25f; vec.z = textHeight; @@ -749,4 +691,4 @@ static Color GenerateRandomColor(float s, float v) float h = (float)GetRandomValue(0, 360); h = fmodf((h + h*Phi), 360.0f); return ColorFromHSV(h, s, v); -} +} \ No newline at end of file diff --git a/examples/textures/textures_image_channel.c b/examples/textures/textures_image_channel.c index cebe61651..5e159b984 100644 --- a/examples/textures/textures_image_channel.c +++ b/examples/textures/textures_image_channel.c @@ -17,7 +17,7 @@ * ********************************************************************************************/ -#include +#include "raylib.h" //------------------------------------------------------------------------------------ // Program main entry point diff --git a/examples/textures/textures_polygon.c b/examples/textures/textures_polygon.c index 729e25184..1cde29a4b 100644 --- a/examples/textures/textures_polygon.c +++ b/examples/textures/textures_polygon.c @@ -115,9 +115,9 @@ int main(void) // without crossing perimeter, points must be in anticlockwise order void DrawTexturePoly(Texture2D texture, Vector2 center, Vector2 *points, Vector2 *texcoords, int pointCount, Color tint) { - rlSetTexture(texture.id); - rlBegin(RL_TRIANGLES); + + rlSetTexture(texture.id); rlColor4ub(tint.r, tint.g, tint.b, tint.a); diff --git a/parser/output/raylib_api.json b/parser/output/raylib_api.json index 2fddc75e7..9d85c3135 100644 --- a/parser/output/raylib_api.json +++ b/parser/output/raylib_api.json @@ -2300,7 +2300,7 @@ }, { "name": "GamepadAxis", - "description": "Gamepad axis", + "description": "Gamepad axes", "values": [ { "name": "GAMEPAD_AXIS_LEFT_X", @@ -3139,7 +3139,7 @@ "name": "fileName" }, { - "type": "char *", + "type": "const char *", "name": "text" } ] @@ -3280,7 +3280,7 @@ }, { "name": "RestoreWindow", - "description": "Set window state: not minimized/maximized", + "description": "Restore window from being minimized/maximized", "returnType": "void" }, { @@ -4409,7 +4409,7 @@ "name": "fileName" }, { - "type": "char *", + "type": "const char *", "name": "text" } ] @@ -4684,7 +4684,7 @@ }, { "name": "EncodeDataBase64", - "description": "Encode data to Base64 string, memory must be MemFree()", + "description": "Encode data to Base64 string (includes NULL terminator), memory must be MemFree()", "returnType": "char *", "params": [ { @@ -4703,12 +4703,12 @@ }, { "name": "DecodeDataBase64", - "description": "Decode Base64 string data, memory must be MemFree()", + "description": "Decode Base64 string (expected NULL terminated), memory must be MemFree()", "returnType": "unsigned char *", "params": [ { - "type": "const unsigned char *", - "name": "data" + "type": "const char *", + "name": "text" }, { "type": "int *", @@ -5017,7 +5017,7 @@ }, { "name": "GetGamepadAxisCount", - "description": "Get gamepad axis count for a gamepad", + "description": "Get axis count for a gamepad", "returnType": "int", "params": [ { @@ -5028,7 +5028,7 @@ }, { "name": "GetGamepadAxisMovement", - "description": "Get axis movement value for a gamepad axis", + "description": "Get movement value for a gamepad axis", "returnType": "float", "params": [ { @@ -5702,6 +5702,29 @@ } ] }, + { + "name": "DrawEllipseV", + "description": "Draw ellipse (Vector version)", + "returnType": "void", + "params": [ + { + "type": "Vector2", + "name": "center" + }, + { + "type": "float", + "name": "radiusH" + }, + { + "type": "float", + "name": "radiusV" + }, + { + "type": "Color", + "name": "color" + } + ] + }, { "name": "DrawEllipseLines", "description": "Draw ellipse outline", @@ -5729,6 +5752,29 @@ } ] }, + { + "name": "DrawEllipseLinesV", + "description": "Draw ellipse outline (Vector version)", + "returnType": "void", + "params": [ + { + "type": "Vector2", + "name": "center" + }, + { + "type": "float", + "name": "radiusH" + }, + { + "type": "float", + "name": "radiusV" + }, + { + "type": "Color", + "name": "color" + } + ] + }, { "name": "DrawRing", "description": "Draw ring", @@ -5964,11 +6010,11 @@ }, { "type": "Color", - "name": "topRight" + "name": "bottomRight" }, { "type": "Color", - "name": "bottomRight" + "name": "topRight" } ] }, @@ -8256,7 +8302,7 @@ "name": "dst" }, { - "type": "Vector2 *", + "type": "const Vector2 *", "name": "points" }, { @@ -8279,7 +8325,7 @@ "name": "dst" }, { - "type": "Vector2 *", + "type": "const Vector2 *", "name": "points" }, { diff --git a/parser/output/raylib_api.lua b/parser/output/raylib_api.lua index 49e2e1f47..985a62c8b 100644 --- a/parser/output/raylib_api.lua +++ b/parser/output/raylib_api.lua @@ -2300,7 +2300,7 @@ return { }, { name = "GamepadAxis", - description = "Gamepad axis", + description = "Gamepad axes", values = { { name = "GAMEPAD_AXIS_LEFT_X", @@ -3108,7 +3108,7 @@ return { returnType = "bool", params = { {type = "const char *", name = "fileName"}, - {type = "char *", name = "text"} + {type = "const char *", name = "text"} } }, { @@ -3223,7 +3223,7 @@ return { }, { name = "RestoreWindow", - description = "Set window state: not minimized/maximized", + description = "Restore window from being minimized/maximized", returnType = "void" }, { @@ -4006,7 +4006,7 @@ return { returnType = "bool", params = { {type = "const char *", name = "fileName"}, - {type = "char *", name = "text"} + {type = "const char *", name = "text"} } }, { @@ -4198,7 +4198,7 @@ return { }, { name = "EncodeDataBase64", - description = "Encode data to Base64 string, memory must be MemFree()", + description = "Encode data to Base64 string (includes NULL terminator), memory must be MemFree()", returnType = "char *", params = { {type = "const unsigned char *", name = "data"}, @@ -4208,10 +4208,10 @@ return { }, { name = "DecodeDataBase64", - description = "Decode Base64 string data, memory must be MemFree()", + description = "Decode Base64 string (expected NULL terminated), memory must be MemFree()", returnType = "unsigned char *", params = { - {type = "const unsigned char *", name = "data"}, + {type = "const char *", name = "text"}, {type = "int *", name = "outputSize"} } }, @@ -4426,7 +4426,7 @@ return { }, { name = "GetGamepadAxisCount", - description = "Get gamepad axis count for a gamepad", + description = "Get axis count for a gamepad", returnType = "int", params = { {type = "int", name = "gamepad"} @@ -4434,7 +4434,7 @@ return { }, { name = "GetGamepadAxisMovement", - description = "Get axis movement value for a gamepad axis", + description = "Get movement value for a gamepad axis", returnType = "float", params = { {type = "int", name = "gamepad"}, @@ -4838,6 +4838,17 @@ return { {type = "Color", name = "color"} } }, + { + name = "DrawEllipseV", + description = "Draw ellipse (Vector version)", + returnType = "void", + params = { + {type = "Vector2", name = "center"}, + {type = "float", name = "radiusH"}, + {type = "float", name = "radiusV"}, + {type = "Color", name = "color"} + } + }, { name = "DrawEllipseLines", description = "Draw ellipse outline", @@ -4850,6 +4861,17 @@ return { {type = "Color", name = "color"} } }, + { + name = "DrawEllipseLinesV", + description = "Draw ellipse outline (Vector version)", + returnType = "void", + params = { + {type = "Vector2", name = "center"}, + {type = "float", name = "radiusH"}, + {type = "float", name = "radiusV"}, + {type = "Color", name = "color"} + } + }, { name = "DrawRing", description = "Draw ring", @@ -4954,8 +4976,8 @@ return { {type = "Rectangle", name = "rec"}, {type = "Color", name = "topLeft"}, {type = "Color", name = "bottomLeft"}, - {type = "Color", name = "topRight"}, - {type = "Color", name = "bottomRight"} + {type = "Color", name = "bottomRight"}, + {type = "Color", name = "topRight"} } }, { @@ -6119,7 +6141,7 @@ return { returnType = "void", params = { {type = "Image *", name = "dst"}, - {type = "Vector2 *", name = "points"}, + {type = "const Vector2 *", name = "points"}, {type = "int", name = "pointCount"}, {type = "Color", name = "color"} } @@ -6130,7 +6152,7 @@ return { returnType = "void", params = { {type = "Image *", name = "dst"}, - {type = "Vector2 *", name = "points"}, + {type = "const Vector2 *", name = "points"}, {type = "int", name = "pointCount"}, {type = "Color", name = "color"} } diff --git a/parser/output/raylib_api.txt b/parser/output/raylib_api.txt index a92a96de3..2f9268cbf 100644 --- a/parser/output/raylib_api.txt +++ b/parser/output/raylib_api.txt @@ -774,7 +774,7 @@ Enum 06: GamepadButton (18 values) Value[GAMEPAD_BUTTON_RIGHT_THUMB]: 17 Enum 07: GamepadAxis (6 values) Name: GamepadAxis - Description: Gamepad axis + Description: Gamepad axes Value[GAMEPAD_AXIS_LEFT_X]: 0 Value[GAMEPAD_AXIS_LEFT_Y]: 1 Value[GAMEPAD_AXIS_RIGHT_X]: 2 @@ -985,7 +985,7 @@ Callback 005: SaveFileTextCallback() (2 input parameters) Return type: bool Description: FileIO: Save text data Param[1]: fileName (type: const char *) - Param[2]: text (type: char *) + Param[2]: text (type: const char *) Callback 006: AudioCallback() (2 input parameters) Name: AudioCallback Return type: void @@ -993,7 +993,7 @@ Callback 006: AudioCallback() (2 input parameters) Param[1]: bufferData (type: void *) Param[2]: frames (type: unsigned int) -Functions found: 582 +Functions found: 584 Function 001: InitWindow() (3 input parameters) Name: InitWindow @@ -1085,7 +1085,7 @@ Function 017: MinimizeWindow() (0 input parameters) Function 018: RestoreWindow() (0 input parameters) Name: RestoreWindow Return type: void - Description: Set window state: not minimized/maximized + Description: Restore window from being minimized/maximized No input parameters Function 019: SetWindowIcon() (1 input parameters) Name: SetWindowIcon @@ -1656,7 +1656,7 @@ Function 123: SaveFileText() (2 input parameters) Return type: bool Description: Save text data to file (write), string must be '\0' terminated, returns true on success Param[1]: fileName (type: const char *) - Param[2]: text (type: char *) + Param[2]: text (type: const char *) Function 124: FileExists() (1 input parameters) Name: FileExists Return type: bool @@ -1787,15 +1787,15 @@ Function 147: DecompressData() (3 input parameters) Function 148: EncodeDataBase64() (3 input parameters) Name: EncodeDataBase64 Return type: char * - Description: Encode data to Base64 string, memory must be MemFree() + Description: Encode data to Base64 string (includes NULL terminator), memory must be MemFree() Param[1]: data (type: const unsigned char *) Param[2]: dataSize (type: int) Param[3]: outputSize (type: int *) Function 149: DecodeDataBase64() (2 input parameters) Name: DecodeDataBase64 Return type: unsigned char * - Description: Decode Base64 string data, memory must be MemFree() - Param[1]: data (type: const unsigned char *) + Description: Decode Base64 string (expected NULL terminated), memory must be MemFree() + Param[1]: text (type: const char *) Param[2]: outputSize (type: int *) Function 150: ComputeCRC32() (2 input parameters) Name: ComputeCRC32 @@ -1943,12 +1943,12 @@ Function 176: GetGamepadButtonPressed() (0 input parameters) Function 177: GetGamepadAxisCount() (1 input parameters) Name: GetGamepadAxisCount Return type: int - Description: Get gamepad axis count for a gamepad + Description: Get axis count for a gamepad Param[1]: gamepad (type: int) Function 178: GetGamepadAxisMovement() (2 input parameters) Name: GetGamepadAxisMovement Return type: float - Description: Get axis movement value for a gamepad axis + Description: Get movement value for a gamepad axis Param[1]: gamepad (type: int) Param[2]: axis (type: int) Function 179: SetGamepadMappings() (1 input parameters) @@ -2252,7 +2252,15 @@ Function 227: DrawEllipse() (5 input parameters) Param[3]: radiusH (type: float) Param[4]: radiusV (type: float) Param[5]: color (type: Color) -Function 228: DrawEllipseLines() (5 input parameters) +Function 228: DrawEllipseV() (4 input parameters) + Name: DrawEllipseV + Return type: void + Description: Draw ellipse (Vector version) + Param[1]: center (type: Vector2) + Param[2]: radiusH (type: float) + Param[3]: radiusV (type: float) + Param[4]: color (type: Color) +Function 229: DrawEllipseLines() (5 input parameters) Name: DrawEllipseLines Return type: void Description: Draw ellipse outline @@ -2261,7 +2269,15 @@ Function 228: DrawEllipseLines() (5 input parameters) Param[3]: radiusH (type: float) Param[4]: radiusV (type: float) Param[5]: color (type: Color) -Function 229: DrawRing() (7 input parameters) +Function 230: DrawEllipseLinesV() (4 input parameters) + Name: DrawEllipseLinesV + Return type: void + Description: Draw ellipse outline (Vector version) + Param[1]: center (type: Vector2) + Param[2]: radiusH (type: float) + Param[3]: radiusV (type: float) + Param[4]: color (type: Color) +Function 231: DrawRing() (7 input parameters) Name: DrawRing Return type: void Description: Draw ring @@ -2272,7 +2288,7 @@ Function 229: DrawRing() (7 input parameters) Param[5]: endAngle (type: float) Param[6]: segments (type: int) Param[7]: color (type: Color) -Function 230: DrawRingLines() (7 input parameters) +Function 232: DrawRingLines() (7 input parameters) Name: DrawRingLines Return type: void Description: Draw ring outline @@ -2283,7 +2299,7 @@ Function 230: DrawRingLines() (7 input parameters) Param[5]: endAngle (type: float) Param[6]: segments (type: int) Param[7]: color (type: Color) -Function 231: DrawRectangle() (5 input parameters) +Function 233: DrawRectangle() (5 input parameters) Name: DrawRectangle Return type: void Description: Draw a color-filled rectangle @@ -2292,20 +2308,20 @@ Function 231: DrawRectangle() (5 input parameters) Param[3]: width (type: int) Param[4]: height (type: int) Param[5]: color (type: Color) -Function 232: DrawRectangleV() (3 input parameters) +Function 234: DrawRectangleV() (3 input parameters) Name: DrawRectangleV Return type: void Description: Draw a color-filled rectangle (Vector version) Param[1]: position (type: Vector2) Param[2]: size (type: Vector2) Param[3]: color (type: Color) -Function 233: DrawRectangleRec() (2 input parameters) +Function 235: DrawRectangleRec() (2 input parameters) Name: DrawRectangleRec Return type: void Description: Draw a color-filled rectangle Param[1]: rec (type: Rectangle) Param[2]: color (type: Color) -Function 234: DrawRectanglePro() (4 input parameters) +Function 236: DrawRectanglePro() (4 input parameters) Name: DrawRectanglePro Return type: void Description: Draw a color-filled rectangle with pro parameters @@ -2313,7 +2329,7 @@ Function 234: DrawRectanglePro() (4 input parameters) Param[2]: origin (type: Vector2) Param[3]: rotation (type: float) Param[4]: color (type: Color) -Function 235: DrawRectangleGradientV() (6 input parameters) +Function 237: DrawRectangleGradientV() (6 input parameters) Name: DrawRectangleGradientV Return type: void Description: Draw a vertical-gradient-filled rectangle @@ -2323,7 +2339,7 @@ Function 235: DrawRectangleGradientV() (6 input parameters) Param[4]: height (type: int) Param[5]: top (type: Color) Param[6]: bottom (type: Color) -Function 236: DrawRectangleGradientH() (6 input parameters) +Function 238: DrawRectangleGradientH() (6 input parameters) Name: DrawRectangleGradientH Return type: void Description: Draw a horizontal-gradient-filled rectangle @@ -2333,16 +2349,16 @@ Function 236: DrawRectangleGradientH() (6 input parameters) Param[4]: height (type: int) Param[5]: left (type: Color) Param[6]: right (type: Color) -Function 237: DrawRectangleGradientEx() (5 input parameters) +Function 239: DrawRectangleGradientEx() (5 input parameters) Name: DrawRectangleGradientEx Return type: void Description: Draw a gradient-filled rectangle with custom vertex colors Param[1]: rec (type: Rectangle) Param[2]: topLeft (type: Color) Param[3]: bottomLeft (type: Color) - Param[4]: topRight (type: Color) - Param[5]: bottomRight (type: Color) -Function 238: DrawRectangleLines() (5 input parameters) + Param[4]: bottomRight (type: Color) + Param[5]: topRight (type: Color) +Function 240: DrawRectangleLines() (5 input parameters) Name: DrawRectangleLines Return type: void Description: Draw rectangle outline @@ -2351,14 +2367,14 @@ Function 238: DrawRectangleLines() (5 input parameters) Param[3]: width (type: int) Param[4]: height (type: int) Param[5]: color (type: Color) -Function 239: DrawRectangleLinesEx() (3 input parameters) +Function 241: DrawRectangleLinesEx() (3 input parameters) Name: DrawRectangleLinesEx Return type: void Description: Draw rectangle outline with extended parameters Param[1]: rec (type: Rectangle) Param[2]: lineThick (type: float) Param[3]: color (type: Color) -Function 240: DrawRectangleRounded() (4 input parameters) +Function 242: DrawRectangleRounded() (4 input parameters) Name: DrawRectangleRounded Return type: void Description: Draw rectangle with rounded edges @@ -2366,7 +2382,7 @@ Function 240: DrawRectangleRounded() (4 input parameters) Param[2]: roundness (type: float) Param[3]: segments (type: int) Param[4]: color (type: Color) -Function 241: DrawRectangleRoundedLines() (4 input parameters) +Function 243: DrawRectangleRoundedLines() (4 input parameters) Name: DrawRectangleRoundedLines Return type: void Description: Draw rectangle lines with rounded edges @@ -2374,7 +2390,7 @@ Function 241: DrawRectangleRoundedLines() (4 input parameters) Param[2]: roundness (type: float) Param[3]: segments (type: int) Param[4]: color (type: Color) -Function 242: DrawRectangleRoundedLinesEx() (5 input parameters) +Function 244: DrawRectangleRoundedLinesEx() (5 input parameters) Name: DrawRectangleRoundedLinesEx Return type: void Description: Draw rectangle with rounded edges outline @@ -2383,7 +2399,7 @@ Function 242: DrawRectangleRoundedLinesEx() (5 input parameters) Param[3]: segments (type: int) Param[4]: lineThick (type: float) Param[5]: color (type: Color) -Function 243: DrawTriangle() (4 input parameters) +Function 245: DrawTriangle() (4 input parameters) Name: DrawTriangle Return type: void Description: Draw a color-filled triangle (vertex in counter-clockwise order!) @@ -2391,7 +2407,7 @@ Function 243: DrawTriangle() (4 input parameters) Param[2]: v2 (type: Vector2) Param[3]: v3 (type: Vector2) Param[4]: color (type: Color) -Function 244: DrawTriangleLines() (4 input parameters) +Function 246: DrawTriangleLines() (4 input parameters) Name: DrawTriangleLines Return type: void Description: Draw triangle outline (vertex in counter-clockwise order!) @@ -2399,21 +2415,21 @@ Function 244: DrawTriangleLines() (4 input parameters) Param[2]: v2 (type: Vector2) Param[3]: v3 (type: Vector2) Param[4]: color (type: Color) -Function 245: DrawTriangleFan() (3 input parameters) +Function 247: DrawTriangleFan() (3 input parameters) Name: DrawTriangleFan Return type: void Description: Draw a triangle fan defined by points (first vertex is the center) Param[1]: points (type: const Vector2 *) Param[2]: pointCount (type: int) Param[3]: color (type: Color) -Function 246: DrawTriangleStrip() (3 input parameters) +Function 248: DrawTriangleStrip() (3 input parameters) Name: DrawTriangleStrip Return type: void Description: Draw a triangle strip defined by points Param[1]: points (type: const Vector2 *) Param[2]: pointCount (type: int) Param[3]: color (type: Color) -Function 247: DrawPoly() (5 input parameters) +Function 249: DrawPoly() (5 input parameters) Name: DrawPoly Return type: void Description: Draw a regular polygon (Vector version) @@ -2422,7 +2438,7 @@ Function 247: DrawPoly() (5 input parameters) Param[3]: radius (type: float) Param[4]: rotation (type: float) Param[5]: color (type: Color) -Function 248: DrawPolyLines() (5 input parameters) +Function 250: DrawPolyLines() (5 input parameters) Name: DrawPolyLines Return type: void Description: Draw a polygon outline of n sides @@ -2431,7 +2447,7 @@ Function 248: DrawPolyLines() (5 input parameters) Param[3]: radius (type: float) Param[4]: rotation (type: float) Param[5]: color (type: Color) -Function 249: DrawPolyLinesEx() (6 input parameters) +Function 251: DrawPolyLinesEx() (6 input parameters) Name: DrawPolyLinesEx Return type: void Description: Draw a polygon outline of n sides with extended parameters @@ -2441,7 +2457,7 @@ Function 249: DrawPolyLinesEx() (6 input parameters) Param[4]: rotation (type: float) Param[5]: lineThick (type: float) Param[6]: color (type: Color) -Function 250: DrawSplineLinear() (4 input parameters) +Function 252: DrawSplineLinear() (4 input parameters) Name: DrawSplineLinear Return type: void Description: Draw spline: Linear, minimum 2 points @@ -2449,7 +2465,7 @@ Function 250: DrawSplineLinear() (4 input parameters) Param[2]: pointCount (type: int) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 251: DrawSplineBasis() (4 input parameters) +Function 253: DrawSplineBasis() (4 input parameters) Name: DrawSplineBasis Return type: void Description: Draw spline: B-Spline, minimum 4 points @@ -2457,7 +2473,7 @@ Function 251: DrawSplineBasis() (4 input parameters) Param[2]: pointCount (type: int) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 252: DrawSplineCatmullRom() (4 input parameters) +Function 254: DrawSplineCatmullRom() (4 input parameters) Name: DrawSplineCatmullRom Return type: void Description: Draw spline: Catmull-Rom, minimum 4 points @@ -2465,7 +2481,7 @@ Function 252: DrawSplineCatmullRom() (4 input parameters) Param[2]: pointCount (type: int) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 253: DrawSplineBezierQuadratic() (4 input parameters) +Function 255: DrawSplineBezierQuadratic() (4 input parameters) Name: DrawSplineBezierQuadratic Return type: void Description: Draw spline: Quadratic Bezier, minimum 3 points (1 control point): [p1, c2, p3, c4...] @@ -2473,7 +2489,7 @@ Function 253: DrawSplineBezierQuadratic() (4 input parameters) Param[2]: pointCount (type: int) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 254: DrawSplineBezierCubic() (4 input parameters) +Function 256: DrawSplineBezierCubic() (4 input parameters) Name: DrawSplineBezierCubic Return type: void Description: Draw spline: Cubic Bezier, minimum 4 points (2 control points): [p1, c2, c3, p4, c5, c6...] @@ -2481,7 +2497,7 @@ Function 254: DrawSplineBezierCubic() (4 input parameters) Param[2]: pointCount (type: int) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 255: DrawSplineSegmentLinear() (4 input parameters) +Function 257: DrawSplineSegmentLinear() (4 input parameters) Name: DrawSplineSegmentLinear Return type: void Description: Draw spline segment: Linear, 2 points @@ -2489,7 +2505,7 @@ Function 255: DrawSplineSegmentLinear() (4 input parameters) Param[2]: p2 (type: Vector2) Param[3]: thick (type: float) Param[4]: color (type: Color) -Function 256: DrawSplineSegmentBasis() (6 input parameters) +Function 258: DrawSplineSegmentBasis() (6 input parameters) Name: DrawSplineSegmentBasis Return type: void Description: Draw spline segment: B-Spline, 4 points @@ -2499,7 +2515,7 @@ Function 256: DrawSplineSegmentBasis() (6 input parameters) Param[4]: p4 (type: Vector2) Param[5]: thick (type: float) Param[6]: color (type: Color) -Function 257: DrawSplineSegmentCatmullRom() (6 input parameters) +Function 259: DrawSplineSegmentCatmullRom() (6 input parameters) Name: DrawSplineSegmentCatmullRom Return type: void Description: Draw spline segment: Catmull-Rom, 4 points @@ -2509,7 +2525,7 @@ Function 257: DrawSplineSegmentCatmullRom() (6 input parameters) Param[4]: p4 (type: Vector2) Param[5]: thick (type: float) Param[6]: color (type: Color) -Function 258: DrawSplineSegmentBezierQuadratic() (5 input parameters) +Function 260: DrawSplineSegmentBezierQuadratic() (5 input parameters) Name: DrawSplineSegmentBezierQuadratic Return type: void Description: Draw spline segment: Quadratic Bezier, 2 points, 1 control point @@ -2518,7 +2534,7 @@ Function 258: DrawSplineSegmentBezierQuadratic() (5 input parameters) Param[3]: p3 (type: Vector2) Param[4]: thick (type: float) Param[5]: color (type: Color) -Function 259: DrawSplineSegmentBezierCubic() (6 input parameters) +Function 261: DrawSplineSegmentBezierCubic() (6 input parameters) Name: DrawSplineSegmentBezierCubic Return type: void Description: Draw spline segment: Cubic Bezier, 2 points, 2 control points @@ -2528,14 +2544,14 @@ Function 259: DrawSplineSegmentBezierCubic() (6 input parameters) Param[4]: p4 (type: Vector2) Param[5]: thick (type: float) Param[6]: color (type: Color) -Function 260: GetSplinePointLinear() (3 input parameters) +Function 262: GetSplinePointLinear() (3 input parameters) Name: GetSplinePointLinear Return type: Vector2 Description: Get (evaluate) spline point: Linear Param[1]: startPos (type: Vector2) Param[2]: endPos (type: Vector2) Param[3]: t (type: float) -Function 261: GetSplinePointBasis() (5 input parameters) +Function 263: GetSplinePointBasis() (5 input parameters) Name: GetSplinePointBasis Return type: Vector2 Description: Get (evaluate) spline point: B-Spline @@ -2544,7 +2560,7 @@ Function 261: GetSplinePointBasis() (5 input parameters) Param[3]: p3 (type: Vector2) Param[4]: p4 (type: Vector2) Param[5]: t (type: float) -Function 262: GetSplinePointCatmullRom() (5 input parameters) +Function 264: GetSplinePointCatmullRom() (5 input parameters) Name: GetSplinePointCatmullRom Return type: Vector2 Description: Get (evaluate) spline point: Catmull-Rom @@ -2553,7 +2569,7 @@ Function 262: GetSplinePointCatmullRom() (5 input parameters) Param[3]: p3 (type: Vector2) Param[4]: p4 (type: Vector2) Param[5]: t (type: float) -Function 263: GetSplinePointBezierQuad() (4 input parameters) +Function 265: GetSplinePointBezierQuad() (4 input parameters) Name: GetSplinePointBezierQuad Return type: Vector2 Description: Get (evaluate) spline point: Quadratic Bezier @@ -2561,7 +2577,7 @@ Function 263: GetSplinePointBezierQuad() (4 input parameters) Param[2]: c2 (type: Vector2) Param[3]: p3 (type: Vector2) Param[4]: t (type: float) -Function 264: GetSplinePointBezierCubic() (5 input parameters) +Function 266: GetSplinePointBezierCubic() (5 input parameters) Name: GetSplinePointBezierCubic Return type: Vector2 Description: Get (evaluate) spline point: Cubic Bezier @@ -2570,13 +2586,13 @@ Function 264: GetSplinePointBezierCubic() (5 input parameters) Param[3]: c3 (type: Vector2) Param[4]: p4 (type: Vector2) Param[5]: t (type: float) -Function 265: CheckCollisionRecs() (2 input parameters) +Function 267: CheckCollisionRecs() (2 input parameters) Name: CheckCollisionRecs Return type: bool Description: Check collision between two rectangles Param[1]: rec1 (type: Rectangle) Param[2]: rec2 (type: Rectangle) -Function 266: CheckCollisionCircles() (4 input parameters) +Function 268: CheckCollisionCircles() (4 input parameters) Name: CheckCollisionCircles Return type: bool Description: Check collision between two circles @@ -2584,14 +2600,14 @@ Function 266: CheckCollisionCircles() (4 input parameters) Param[2]: radius1 (type: float) Param[3]: center2 (type: Vector2) Param[4]: radius2 (type: float) -Function 267: CheckCollisionCircleRec() (3 input parameters) +Function 269: CheckCollisionCircleRec() (3 input parameters) Name: CheckCollisionCircleRec Return type: bool Description: Check collision between circle and rectangle Param[1]: center (type: Vector2) Param[2]: radius (type: float) Param[3]: rec (type: Rectangle) -Function 268: CheckCollisionCircleLine() (4 input parameters) +Function 270: CheckCollisionCircleLine() (4 input parameters) Name: CheckCollisionCircleLine Return type: bool Description: Check if circle collides with a line created betweeen two points [p1] and [p2] @@ -2599,20 +2615,20 @@ Function 268: CheckCollisionCircleLine() (4 input parameters) Param[2]: radius (type: float) Param[3]: p1 (type: Vector2) Param[4]: p2 (type: Vector2) -Function 269: CheckCollisionPointRec() (2 input parameters) +Function 271: CheckCollisionPointRec() (2 input parameters) Name: CheckCollisionPointRec Return type: bool Description: Check if point is inside rectangle Param[1]: point (type: Vector2) Param[2]: rec (type: Rectangle) -Function 270: CheckCollisionPointCircle() (3 input parameters) +Function 272: CheckCollisionPointCircle() (3 input parameters) Name: CheckCollisionPointCircle Return type: bool Description: Check if point is inside circle Param[1]: point (type: Vector2) Param[2]: center (type: Vector2) Param[3]: radius (type: float) -Function 271: CheckCollisionPointTriangle() (4 input parameters) +Function 273: CheckCollisionPointTriangle() (4 input parameters) Name: CheckCollisionPointTriangle Return type: bool Description: Check if point is inside a triangle @@ -2620,7 +2636,7 @@ Function 271: CheckCollisionPointTriangle() (4 input parameters) Param[2]: p1 (type: Vector2) Param[3]: p2 (type: Vector2) Param[4]: p3 (type: Vector2) -Function 272: CheckCollisionPointLine() (4 input parameters) +Function 274: CheckCollisionPointLine() (4 input parameters) Name: CheckCollisionPointLine Return type: bool Description: Check if point belongs to line created between two points [p1] and [p2] with defined margin in pixels [threshold] @@ -2628,14 +2644,14 @@ Function 272: CheckCollisionPointLine() (4 input parameters) Param[2]: p1 (type: Vector2) Param[3]: p2 (type: Vector2) Param[4]: threshold (type: int) -Function 273: CheckCollisionPointPoly() (3 input parameters) +Function 275: CheckCollisionPointPoly() (3 input parameters) Name: CheckCollisionPointPoly Return type: bool Description: Check if point is within a polygon described by array of vertices Param[1]: point (type: Vector2) Param[2]: points (type: const Vector2 *) Param[3]: pointCount (type: int) -Function 274: CheckCollisionLines() (5 input parameters) +Function 276: CheckCollisionLines() (5 input parameters) Name: CheckCollisionLines Return type: bool Description: Check the collision between two lines defined by two points each, returns collision point by reference @@ -2644,18 +2660,18 @@ Function 274: CheckCollisionLines() (5 input parameters) Param[3]: startPos2 (type: Vector2) Param[4]: endPos2 (type: Vector2) Param[5]: collisionPoint (type: Vector2 *) -Function 275: GetCollisionRec() (2 input parameters) +Function 277: GetCollisionRec() (2 input parameters) Name: GetCollisionRec Return type: Rectangle Description: Get collision rectangle for two rectangles collision Param[1]: rec1 (type: Rectangle) Param[2]: rec2 (type: Rectangle) -Function 276: LoadImage() (1 input parameters) +Function 278: LoadImage() (1 input parameters) Name: LoadImage Return type: Image Description: Load image from file into CPU memory (RAM) Param[1]: fileName (type: const char *) -Function 277: LoadImageRaw() (5 input parameters) +Function 279: LoadImageRaw() (5 input parameters) Name: LoadImageRaw Return type: Image Description: Load image from RAW file data @@ -2664,13 +2680,13 @@ Function 277: LoadImageRaw() (5 input parameters) Param[3]: height (type: int) Param[4]: format (type: int) Param[5]: headerSize (type: int) -Function 278: LoadImageAnim() (2 input parameters) +Function 280: LoadImageAnim() (2 input parameters) Name: LoadImageAnim Return type: Image Description: Load image sequence from file (frames appended to image.data) Param[1]: fileName (type: const char *) Param[2]: frames (type: int *) -Function 279: LoadImageAnimFromMemory() (4 input parameters) +Function 281: LoadImageAnimFromMemory() (4 input parameters) Name: LoadImageAnimFromMemory Return type: Image Description: Load image sequence from memory buffer @@ -2678,60 +2694,60 @@ Function 279: LoadImageAnimFromMemory() (4 input parameters) Param[2]: fileData (type: const unsigned char *) Param[3]: dataSize (type: int) Param[4]: frames (type: int *) -Function 280: LoadImageFromMemory() (3 input parameters) +Function 282: LoadImageFromMemory() (3 input parameters) Name: LoadImageFromMemory Return type: Image Description: Load image from memory buffer, fileType refers to extension: i.e. '.png' Param[1]: fileType (type: const char *) Param[2]: fileData (type: const unsigned char *) Param[3]: dataSize (type: int) -Function 281: LoadImageFromTexture() (1 input parameters) +Function 283: LoadImageFromTexture() (1 input parameters) Name: LoadImageFromTexture Return type: Image Description: Load image from GPU texture data Param[1]: texture (type: Texture2D) -Function 282: LoadImageFromScreen() (0 input parameters) +Function 284: LoadImageFromScreen() (0 input parameters) Name: LoadImageFromScreen Return type: Image Description: Load image from screen buffer and (screenshot) No input parameters -Function 283: IsImageValid() (1 input parameters) +Function 285: IsImageValid() (1 input parameters) Name: IsImageValid Return type: bool Description: Check if an image is valid (data and parameters) Param[1]: image (type: Image) -Function 284: UnloadImage() (1 input parameters) +Function 286: UnloadImage() (1 input parameters) Name: UnloadImage Return type: void Description: Unload image from CPU memory (RAM) Param[1]: image (type: Image) -Function 285: ExportImage() (2 input parameters) +Function 287: ExportImage() (2 input parameters) Name: ExportImage Return type: bool Description: Export image data to file, returns true on success Param[1]: image (type: Image) Param[2]: fileName (type: const char *) -Function 286: ExportImageToMemory() (3 input parameters) +Function 288: ExportImageToMemory() (3 input parameters) Name: ExportImageToMemory Return type: unsigned char * Description: Export image to memory buffer Param[1]: image (type: Image) Param[2]: fileType (type: const char *) Param[3]: fileSize (type: int *) -Function 287: ExportImageAsCode() (2 input parameters) +Function 289: ExportImageAsCode() (2 input parameters) Name: ExportImageAsCode Return type: bool Description: Export image as code file defining an array of bytes, returns true on success Param[1]: image (type: Image) Param[2]: fileName (type: const char *) -Function 288: GenImageColor() (3 input parameters) +Function 290: GenImageColor() (3 input parameters) Name: GenImageColor Return type: Image Description: Generate image: plain color Param[1]: width (type: int) Param[2]: height (type: int) Param[3]: color (type: Color) -Function 289: GenImageGradientLinear() (5 input parameters) +Function 291: GenImageGradientLinear() (5 input parameters) Name: GenImageGradientLinear Return type: Image Description: Generate image: linear gradient, direction in degrees [0..360], 0=Vertical gradient @@ -2740,7 +2756,7 @@ Function 289: GenImageGradientLinear() (5 input parameters) Param[3]: direction (type: int) Param[4]: start (type: Color) Param[5]: end (type: Color) -Function 290: GenImageGradientRadial() (5 input parameters) +Function 292: GenImageGradientRadial() (5 input parameters) Name: GenImageGradientRadial Return type: Image Description: Generate image: radial gradient @@ -2749,7 +2765,7 @@ Function 290: GenImageGradientRadial() (5 input parameters) Param[3]: density (type: float) Param[4]: inner (type: Color) Param[5]: outer (type: Color) -Function 291: GenImageGradientSquare() (5 input parameters) +Function 293: GenImageGradientSquare() (5 input parameters) Name: GenImageGradientSquare Return type: Image Description: Generate image: square gradient @@ -2758,7 +2774,7 @@ Function 291: GenImageGradientSquare() (5 input parameters) Param[3]: density (type: float) Param[4]: inner (type: Color) Param[5]: outer (type: Color) -Function 292: GenImageChecked() (6 input parameters) +Function 294: GenImageChecked() (6 input parameters) Name: GenImageChecked Return type: Image Description: Generate image: checked @@ -2768,14 +2784,14 @@ Function 292: GenImageChecked() (6 input parameters) Param[4]: checksY (type: int) Param[5]: col1 (type: Color) Param[6]: col2 (type: Color) -Function 293: GenImageWhiteNoise() (3 input parameters) +Function 295: GenImageWhiteNoise() (3 input parameters) Name: GenImageWhiteNoise Return type: Image Description: Generate image: white noise Param[1]: width (type: int) Param[2]: height (type: int) Param[3]: factor (type: float) -Function 294: GenImagePerlinNoise() (5 input parameters) +Function 296: GenImagePerlinNoise() (5 input parameters) Name: GenImagePerlinNoise Return type: Image Description: Generate image: perlin noise @@ -2784,45 +2800,45 @@ Function 294: GenImagePerlinNoise() (5 input parameters) Param[3]: offsetX (type: int) Param[4]: offsetY (type: int) Param[5]: scale (type: float) -Function 295: GenImageCellular() (3 input parameters) +Function 297: GenImageCellular() (3 input parameters) Name: GenImageCellular Return type: Image Description: Generate image: cellular algorithm, bigger tileSize means bigger cells Param[1]: width (type: int) Param[2]: height (type: int) Param[3]: tileSize (type: int) -Function 296: GenImageText() (3 input parameters) +Function 298: GenImageText() (3 input parameters) Name: GenImageText Return type: Image Description: Generate image: grayscale image from text data Param[1]: width (type: int) Param[2]: height (type: int) Param[3]: text (type: const char *) -Function 297: ImageCopy() (1 input parameters) +Function 299: ImageCopy() (1 input parameters) Name: ImageCopy Return type: Image Description: Create an image duplicate (useful for transformations) Param[1]: image (type: Image) -Function 298: ImageFromImage() (2 input parameters) +Function 300: ImageFromImage() (2 input parameters) Name: ImageFromImage Return type: Image Description: Create an image from another image piece Param[1]: image (type: Image) Param[2]: rec (type: Rectangle) -Function 299: ImageFromChannel() (2 input parameters) +Function 301: ImageFromChannel() (2 input parameters) Name: ImageFromChannel Return type: Image Description: Create an image from a selected channel of another image (GRAYSCALE) Param[1]: image (type: Image) Param[2]: selectedChannel (type: int) -Function 300: ImageText() (3 input parameters) +Function 302: ImageText() (3 input parameters) Name: ImageText Return type: Image Description: Create an image from text (default font) Param[1]: text (type: const char *) Param[2]: fontSize (type: int) Param[3]: color (type: Color) -Function 301: ImageTextEx() (5 input parameters) +Function 303: ImageTextEx() (5 input parameters) Name: ImageTextEx Return type: Image Description: Create an image from text (custom sprite font) @@ -2831,76 +2847,76 @@ Function 301: ImageTextEx() (5 input parameters) Param[3]: fontSize (type: float) Param[4]: spacing (type: float) Param[5]: tint (type: Color) -Function 302: ImageFormat() (2 input parameters) +Function 304: ImageFormat() (2 input parameters) Name: ImageFormat Return type: void Description: Convert image data to desired format Param[1]: image (type: Image *) Param[2]: newFormat (type: int) -Function 303: ImageToPOT() (2 input parameters) +Function 305: ImageToPOT() (2 input parameters) Name: ImageToPOT Return type: void Description: Convert image to POT (power-of-two) Param[1]: image (type: Image *) Param[2]: fill (type: Color) -Function 304: ImageCrop() (2 input parameters) +Function 306: ImageCrop() (2 input parameters) Name: ImageCrop Return type: void Description: Crop an image to a defined rectangle Param[1]: image (type: Image *) Param[2]: crop (type: Rectangle) -Function 305: ImageAlphaCrop() (2 input parameters) +Function 307: ImageAlphaCrop() (2 input parameters) Name: ImageAlphaCrop Return type: void Description: Crop image depending on alpha value Param[1]: image (type: Image *) Param[2]: threshold (type: float) -Function 306: ImageAlphaClear() (3 input parameters) +Function 308: ImageAlphaClear() (3 input parameters) Name: ImageAlphaClear Return type: void Description: Clear alpha channel to desired color Param[1]: image (type: Image *) Param[2]: color (type: Color) Param[3]: threshold (type: float) -Function 307: ImageAlphaMask() (2 input parameters) +Function 309: ImageAlphaMask() (2 input parameters) Name: ImageAlphaMask Return type: void Description: Apply alpha mask to image Param[1]: image (type: Image *) Param[2]: alphaMask (type: Image) -Function 308: ImageAlphaPremultiply() (1 input parameters) +Function 310: ImageAlphaPremultiply() (1 input parameters) Name: ImageAlphaPremultiply Return type: void Description: Premultiply alpha channel Param[1]: image (type: Image *) -Function 309: ImageBlurGaussian() (2 input parameters) +Function 311: ImageBlurGaussian() (2 input parameters) Name: ImageBlurGaussian Return type: void Description: Apply Gaussian blur using a box blur approximation Param[1]: image (type: Image *) Param[2]: blurSize (type: int) -Function 310: ImageKernelConvolution() (3 input parameters) +Function 312: ImageKernelConvolution() (3 input parameters) Name: ImageKernelConvolution Return type: void Description: Apply custom square convolution kernel to image Param[1]: image (type: Image *) Param[2]: kernel (type: const float *) Param[3]: kernelSize (type: int) -Function 311: ImageResize() (3 input parameters) +Function 313: ImageResize() (3 input parameters) Name: ImageResize Return type: void Description: Resize image (Bicubic scaling algorithm) Param[1]: image (type: Image *) Param[2]: newWidth (type: int) Param[3]: newHeight (type: int) -Function 312: ImageResizeNN() (3 input parameters) +Function 314: ImageResizeNN() (3 input parameters) Name: ImageResizeNN Return type: void Description: Resize image (Nearest-Neighbor scaling algorithm) Param[1]: image (type: Image *) Param[2]: newWidth (type: int) Param[3]: newHeight (type: int) -Function 313: ImageResizeCanvas() (6 input parameters) +Function 315: ImageResizeCanvas() (6 input parameters) Name: ImageResizeCanvas Return type: void Description: Resize canvas and fill with color @@ -2910,12 +2926,12 @@ Function 313: ImageResizeCanvas() (6 input parameters) Param[4]: offsetX (type: int) Param[5]: offsetY (type: int) Param[6]: fill (type: Color) -Function 314: ImageMipmaps() (1 input parameters) +Function 316: ImageMipmaps() (1 input parameters) Name: ImageMipmaps Return type: void Description: Compute all mipmap levels for a provided image Param[1]: image (type: Image *) -Function 315: ImageDither() (5 input parameters) +Function 317: ImageDither() (5 input parameters) Name: ImageDither Return type: void Description: Dither image data to 16bpp or lower (Floyd-Steinberg dithering) @@ -2924,109 +2940,109 @@ Function 315: ImageDither() (5 input parameters) Param[3]: gBpp (type: int) Param[4]: bBpp (type: int) Param[5]: aBpp (type: int) -Function 316: ImageFlipVertical() (1 input parameters) +Function 318: ImageFlipVertical() (1 input parameters) Name: ImageFlipVertical Return type: void Description: Flip image vertically Param[1]: image (type: Image *) -Function 317: ImageFlipHorizontal() (1 input parameters) +Function 319: ImageFlipHorizontal() (1 input parameters) Name: ImageFlipHorizontal Return type: void Description: Flip image horizontally Param[1]: image (type: Image *) -Function 318: ImageRotate() (2 input parameters) +Function 320: ImageRotate() (2 input parameters) Name: ImageRotate Return type: void Description: Rotate image by input angle in degrees (-359 to 359) Param[1]: image (type: Image *) Param[2]: degrees (type: int) -Function 319: ImageRotateCW() (1 input parameters) +Function 321: ImageRotateCW() (1 input parameters) Name: ImageRotateCW Return type: void Description: Rotate image clockwise 90deg Param[1]: image (type: Image *) -Function 320: ImageRotateCCW() (1 input parameters) +Function 322: ImageRotateCCW() (1 input parameters) Name: ImageRotateCCW Return type: void Description: Rotate image counter-clockwise 90deg Param[1]: image (type: Image *) -Function 321: ImageColorTint() (2 input parameters) +Function 323: ImageColorTint() (2 input parameters) Name: ImageColorTint Return type: void Description: Modify image color: tint Param[1]: image (type: Image *) Param[2]: color (type: Color) -Function 322: ImageColorInvert() (1 input parameters) +Function 324: ImageColorInvert() (1 input parameters) Name: ImageColorInvert Return type: void Description: Modify image color: invert Param[1]: image (type: Image *) -Function 323: ImageColorGrayscale() (1 input parameters) +Function 325: ImageColorGrayscale() (1 input parameters) Name: ImageColorGrayscale Return type: void Description: Modify image color: grayscale Param[1]: image (type: Image *) -Function 324: ImageColorContrast() (2 input parameters) +Function 326: ImageColorContrast() (2 input parameters) Name: ImageColorContrast Return type: void Description: Modify image color: contrast (-100 to 100) Param[1]: image (type: Image *) Param[2]: contrast (type: float) -Function 325: ImageColorBrightness() (2 input parameters) +Function 327: ImageColorBrightness() (2 input parameters) Name: ImageColorBrightness Return type: void Description: Modify image color: brightness (-255 to 255) Param[1]: image (type: Image *) Param[2]: brightness (type: int) -Function 326: ImageColorReplace() (3 input parameters) +Function 328: ImageColorReplace() (3 input parameters) Name: ImageColorReplace Return type: void Description: Modify image color: replace color Param[1]: image (type: Image *) Param[2]: color (type: Color) Param[3]: replace (type: Color) -Function 327: LoadImageColors() (1 input parameters) +Function 329: LoadImageColors() (1 input parameters) Name: LoadImageColors Return type: Color * Description: Load color data from image as a Color array (RGBA - 32bit) Param[1]: image (type: Image) -Function 328: LoadImagePalette() (3 input parameters) +Function 330: LoadImagePalette() (3 input parameters) Name: LoadImagePalette Return type: Color * Description: Load colors palette from image as a Color array (RGBA - 32bit) Param[1]: image (type: Image) Param[2]: maxPaletteSize (type: int) Param[3]: colorCount (type: int *) -Function 329: UnloadImageColors() (1 input parameters) +Function 331: UnloadImageColors() (1 input parameters) Name: UnloadImageColors Return type: void Description: Unload color data loaded with LoadImageColors() Param[1]: colors (type: Color *) -Function 330: UnloadImagePalette() (1 input parameters) +Function 332: UnloadImagePalette() (1 input parameters) Name: UnloadImagePalette Return type: void Description: Unload colors palette loaded with LoadImagePalette() Param[1]: colors (type: Color *) -Function 331: GetImageAlphaBorder() (2 input parameters) +Function 333: GetImageAlphaBorder() (2 input parameters) Name: GetImageAlphaBorder Return type: Rectangle Description: Get image alpha border rectangle Param[1]: image (type: Image) Param[2]: threshold (type: float) -Function 332: GetImageColor() (3 input parameters) +Function 334: GetImageColor() (3 input parameters) Name: GetImageColor Return type: Color Description: Get image pixel color at (x, y) position Param[1]: image (type: Image) Param[2]: x (type: int) Param[3]: y (type: int) -Function 333: ImageClearBackground() (2 input parameters) +Function 335: ImageClearBackground() (2 input parameters) Name: ImageClearBackground Return type: void Description: Clear image background with given color Param[1]: dst (type: Image *) Param[2]: color (type: Color) -Function 334: ImageDrawPixel() (4 input parameters) +Function 336: ImageDrawPixel() (4 input parameters) Name: ImageDrawPixel Return type: void Description: Draw pixel within an image @@ -3034,14 +3050,14 @@ Function 334: ImageDrawPixel() (4 input parameters) Param[2]: posX (type: int) Param[3]: posY (type: int) Param[4]: color (type: Color) -Function 335: ImageDrawPixelV() (3 input parameters) +Function 337: ImageDrawPixelV() (3 input parameters) Name: ImageDrawPixelV Return type: void Description: Draw pixel within an image (Vector version) Param[1]: dst (type: Image *) Param[2]: position (type: Vector2) Param[3]: color (type: Color) -Function 336: ImageDrawLine() (6 input parameters) +Function 338: ImageDrawLine() (6 input parameters) Name: ImageDrawLine Return type: void Description: Draw line within an image @@ -3051,7 +3067,7 @@ Function 336: ImageDrawLine() (6 input parameters) Param[4]: endPosX (type: int) Param[5]: endPosY (type: int) Param[6]: color (type: Color) -Function 337: ImageDrawLineV() (4 input parameters) +Function 339: ImageDrawLineV() (4 input parameters) Name: ImageDrawLineV Return type: void Description: Draw line within an image (Vector version) @@ -3059,7 +3075,7 @@ Function 337: ImageDrawLineV() (4 input parameters) Param[2]: start (type: Vector2) Param[3]: end (type: Vector2) Param[4]: color (type: Color) -Function 338: ImageDrawLineEx() (5 input parameters) +Function 340: ImageDrawLineEx() (5 input parameters) Name: ImageDrawLineEx Return type: void Description: Draw a line defining thickness within an image @@ -3068,7 +3084,7 @@ Function 338: ImageDrawLineEx() (5 input parameters) Param[3]: end (type: Vector2) Param[4]: thick (type: int) Param[5]: color (type: Color) -Function 339: ImageDrawCircle() (5 input parameters) +Function 341: ImageDrawCircle() (5 input parameters) Name: ImageDrawCircle Return type: void Description: Draw a filled circle within an image @@ -3077,7 +3093,7 @@ Function 339: ImageDrawCircle() (5 input parameters) Param[3]: centerY (type: int) Param[4]: radius (type: int) Param[5]: color (type: Color) -Function 340: ImageDrawCircleV() (4 input parameters) +Function 342: ImageDrawCircleV() (4 input parameters) Name: ImageDrawCircleV Return type: void Description: Draw a filled circle within an image (Vector version) @@ -3085,7 +3101,7 @@ Function 340: ImageDrawCircleV() (4 input parameters) Param[2]: center (type: Vector2) Param[3]: radius (type: int) Param[4]: color (type: Color) -Function 341: ImageDrawCircleLines() (5 input parameters) +Function 343: ImageDrawCircleLines() (5 input parameters) Name: ImageDrawCircleLines Return type: void Description: Draw circle outline within an image @@ -3094,7 +3110,7 @@ Function 341: ImageDrawCircleLines() (5 input parameters) Param[3]: centerY (type: int) Param[4]: radius (type: int) Param[5]: color (type: Color) -Function 342: ImageDrawCircleLinesV() (4 input parameters) +Function 344: ImageDrawCircleLinesV() (4 input parameters) Name: ImageDrawCircleLinesV Return type: void Description: Draw circle outline within an image (Vector version) @@ -3102,7 +3118,7 @@ Function 342: ImageDrawCircleLinesV() (4 input parameters) Param[2]: center (type: Vector2) Param[3]: radius (type: int) Param[4]: color (type: Color) -Function 343: ImageDrawRectangle() (6 input parameters) +Function 345: ImageDrawRectangle() (6 input parameters) Name: ImageDrawRectangle Return type: void Description: Draw rectangle within an image @@ -3112,7 +3128,7 @@ Function 343: ImageDrawRectangle() (6 input parameters) Param[4]: width (type: int) Param[5]: height (type: int) Param[6]: color (type: Color) -Function 344: ImageDrawRectangleV() (4 input parameters) +Function 346: ImageDrawRectangleV() (4 input parameters) Name: ImageDrawRectangleV Return type: void Description: Draw rectangle within an image (Vector version) @@ -3120,14 +3136,14 @@ Function 344: ImageDrawRectangleV() (4 input parameters) Param[2]: position (type: Vector2) Param[3]: size (type: Vector2) Param[4]: color (type: Color) -Function 345: ImageDrawRectangleRec() (3 input parameters) +Function 347: ImageDrawRectangleRec() (3 input parameters) Name: ImageDrawRectangleRec Return type: void Description: Draw rectangle within an image Param[1]: dst (type: Image *) Param[2]: rec (type: Rectangle) Param[3]: color (type: Color) -Function 346: ImageDrawRectangleLines() (4 input parameters) +Function 348: ImageDrawRectangleLines() (4 input parameters) Name: ImageDrawRectangleLines Return type: void Description: Draw rectangle lines within an image @@ -3135,7 +3151,7 @@ Function 346: ImageDrawRectangleLines() (4 input parameters) Param[2]: rec (type: Rectangle) Param[3]: thick (type: int) Param[4]: color (type: Color) -Function 347: ImageDrawTriangle() (5 input parameters) +Function 349: ImageDrawTriangle() (5 input parameters) Name: ImageDrawTriangle Return type: void Description: Draw triangle within an image @@ -3144,7 +3160,7 @@ Function 347: ImageDrawTriangle() (5 input parameters) Param[3]: v2 (type: Vector2) Param[4]: v3 (type: Vector2) Param[5]: color (type: Color) -Function 348: ImageDrawTriangleEx() (7 input parameters) +Function 350: ImageDrawTriangleEx() (7 input parameters) Name: ImageDrawTriangleEx Return type: void Description: Draw triangle with interpolated colors within an image @@ -3155,7 +3171,7 @@ Function 348: ImageDrawTriangleEx() (7 input parameters) Param[5]: c1 (type: Color) Param[6]: c2 (type: Color) Param[7]: c3 (type: Color) -Function 349: ImageDrawTriangleLines() (5 input parameters) +Function 351: ImageDrawTriangleLines() (5 input parameters) Name: ImageDrawTriangleLines Return type: void Description: Draw triangle outline within an image @@ -3164,23 +3180,23 @@ Function 349: ImageDrawTriangleLines() (5 input parameters) Param[3]: v2 (type: Vector2) Param[4]: v3 (type: Vector2) Param[5]: color (type: Color) -Function 350: ImageDrawTriangleFan() (4 input parameters) +Function 352: ImageDrawTriangleFan() (4 input parameters) Name: ImageDrawTriangleFan Return type: void Description: Draw a triangle fan defined by points within an image (first vertex is the center) Param[1]: dst (type: Image *) - Param[2]: points (type: Vector2 *) + Param[2]: points (type: const Vector2 *) Param[3]: pointCount (type: int) Param[4]: color (type: Color) -Function 351: ImageDrawTriangleStrip() (4 input parameters) +Function 353: ImageDrawTriangleStrip() (4 input parameters) Name: ImageDrawTriangleStrip Return type: void Description: Draw a triangle strip defined by points within an image Param[1]: dst (type: Image *) - Param[2]: points (type: Vector2 *) + Param[2]: points (type: const Vector2 *) Param[3]: pointCount (type: int) Param[4]: color (type: Color) -Function 352: ImageDraw() (5 input parameters) +Function 354: ImageDraw() (5 input parameters) Name: ImageDraw Return type: void Description: Draw a source image within a destination image (tint applied to source) @@ -3189,7 +3205,7 @@ Function 352: ImageDraw() (5 input parameters) Param[3]: srcRec (type: Rectangle) Param[4]: dstRec (type: Rectangle) Param[5]: tint (type: Color) -Function 353: ImageDrawText() (6 input parameters) +Function 355: ImageDrawText() (6 input parameters) Name: ImageDrawText Return type: void Description: Draw text (using default font) within an image (destination) @@ -3199,7 +3215,7 @@ Function 353: ImageDrawText() (6 input parameters) Param[4]: posY (type: int) Param[5]: fontSize (type: int) Param[6]: color (type: Color) -Function 354: ImageDrawTextEx() (7 input parameters) +Function 356: ImageDrawTextEx() (7 input parameters) Name: ImageDrawTextEx Return type: void Description: Draw text (custom sprite font) within an image (destination) @@ -3210,79 +3226,79 @@ Function 354: ImageDrawTextEx() (7 input parameters) Param[5]: fontSize (type: float) Param[6]: spacing (type: float) Param[7]: tint (type: Color) -Function 355: LoadTexture() (1 input parameters) +Function 357: LoadTexture() (1 input parameters) Name: LoadTexture Return type: Texture2D Description: Load texture from file into GPU memory (VRAM) Param[1]: fileName (type: const char *) -Function 356: LoadTextureFromImage() (1 input parameters) +Function 358: LoadTextureFromImage() (1 input parameters) Name: LoadTextureFromImage Return type: Texture2D Description: Load texture from image data Param[1]: image (type: Image) -Function 357: LoadTextureCubemap() (2 input parameters) +Function 359: LoadTextureCubemap() (2 input parameters) Name: LoadTextureCubemap Return type: TextureCubemap Description: Load cubemap from image, multiple image cubemap layouts supported Param[1]: image (type: Image) Param[2]: layout (type: int) -Function 358: LoadRenderTexture() (2 input parameters) +Function 360: LoadRenderTexture() (2 input parameters) Name: LoadRenderTexture Return type: RenderTexture2D Description: Load texture for rendering (framebuffer) Param[1]: width (type: int) Param[2]: height (type: int) -Function 359: IsTextureValid() (1 input parameters) +Function 361: IsTextureValid() (1 input parameters) Name: IsTextureValid Return type: bool Description: Check if a texture is valid (loaded in GPU) Param[1]: texture (type: Texture2D) -Function 360: UnloadTexture() (1 input parameters) +Function 362: UnloadTexture() (1 input parameters) Name: UnloadTexture Return type: void Description: Unload texture from GPU memory (VRAM) Param[1]: texture (type: Texture2D) -Function 361: IsRenderTextureValid() (1 input parameters) +Function 363: IsRenderTextureValid() (1 input parameters) Name: IsRenderTextureValid Return type: bool Description: Check if a render texture is valid (loaded in GPU) Param[1]: target (type: RenderTexture2D) -Function 362: UnloadRenderTexture() (1 input parameters) +Function 364: UnloadRenderTexture() (1 input parameters) Name: UnloadRenderTexture Return type: void Description: Unload render texture from GPU memory (VRAM) Param[1]: target (type: RenderTexture2D) -Function 363: UpdateTexture() (2 input parameters) +Function 365: UpdateTexture() (2 input parameters) Name: UpdateTexture Return type: void Description: Update GPU texture with new data (pixels should be able to fill texture) Param[1]: texture (type: Texture2D) Param[2]: pixels (type: const void *) -Function 364: UpdateTextureRec() (3 input parameters) +Function 366: UpdateTextureRec() (3 input parameters) Name: UpdateTextureRec Return type: void Description: Update GPU texture rectangle with new data (pixels and rec should fit in texture) Param[1]: texture (type: Texture2D) Param[2]: rec (type: Rectangle) Param[3]: pixels (type: const void *) -Function 365: GenTextureMipmaps() (1 input parameters) +Function 367: GenTextureMipmaps() (1 input parameters) Name: GenTextureMipmaps Return type: void Description: Generate GPU mipmaps for a texture Param[1]: texture (type: Texture2D *) -Function 366: SetTextureFilter() (2 input parameters) +Function 368: SetTextureFilter() (2 input parameters) Name: SetTextureFilter Return type: void Description: Set texture scaling filter mode Param[1]: texture (type: Texture2D) Param[2]: filter (type: int) -Function 367: SetTextureWrap() (2 input parameters) +Function 369: SetTextureWrap() (2 input parameters) Name: SetTextureWrap Return type: void Description: Set texture wrapping mode Param[1]: texture (type: Texture2D) Param[2]: wrap (type: int) -Function 368: DrawTexture() (4 input parameters) +Function 370: DrawTexture() (4 input parameters) Name: DrawTexture Return type: void Description: Draw a Texture2D @@ -3290,14 +3306,14 @@ Function 368: DrawTexture() (4 input parameters) Param[2]: posX (type: int) Param[3]: posY (type: int) Param[4]: tint (type: Color) -Function 369: DrawTextureV() (3 input parameters) +Function 371: DrawTextureV() (3 input parameters) Name: DrawTextureV Return type: void Description: Draw a Texture2D with position defined as Vector2 Param[1]: texture (type: Texture2D) Param[2]: position (type: Vector2) Param[3]: tint (type: Color) -Function 370: DrawTextureEx() (5 input parameters) +Function 372: DrawTextureEx() (5 input parameters) Name: DrawTextureEx Return type: void Description: Draw a Texture2D with extended parameters @@ -3306,7 +3322,7 @@ Function 370: DrawTextureEx() (5 input parameters) Param[3]: rotation (type: float) Param[4]: scale (type: float) Param[5]: tint (type: Color) -Function 371: DrawTextureRec() (4 input parameters) +Function 373: DrawTextureRec() (4 input parameters) Name: DrawTextureRec Return type: void Description: Draw a part of a texture defined by a rectangle @@ -3314,7 +3330,7 @@ Function 371: DrawTextureRec() (4 input parameters) Param[2]: source (type: Rectangle) Param[3]: position (type: Vector2) Param[4]: tint (type: Color) -Function 372: DrawTexturePro() (6 input parameters) +Function 374: DrawTexturePro() (6 input parameters) Name: DrawTexturePro Return type: void Description: Draw a part of a texture defined by a rectangle with 'pro' parameters @@ -3324,7 +3340,7 @@ Function 372: DrawTexturePro() (6 input parameters) Param[4]: origin (type: Vector2) Param[5]: rotation (type: float) Param[6]: tint (type: Color) -Function 373: DrawTextureNPatch() (6 input parameters) +Function 375: DrawTextureNPatch() (6 input parameters) Name: DrawTextureNPatch Return type: void Description: Draws a texture (or part of it) that stretches or shrinks nicely @@ -3334,119 +3350,119 @@ Function 373: DrawTextureNPatch() (6 input parameters) Param[4]: origin (type: Vector2) Param[5]: rotation (type: float) Param[6]: tint (type: Color) -Function 374: ColorIsEqual() (2 input parameters) +Function 376: ColorIsEqual() (2 input parameters) Name: ColorIsEqual Return type: bool Description: Check if two colors are equal Param[1]: col1 (type: Color) Param[2]: col2 (type: Color) -Function 375: Fade() (2 input parameters) +Function 377: Fade() (2 input parameters) Name: Fade Return type: Color Description: Get color with alpha applied, alpha goes from 0.0f to 1.0f Param[1]: color (type: Color) Param[2]: alpha (type: float) -Function 376: ColorToInt() (1 input parameters) +Function 378: ColorToInt() (1 input parameters) Name: ColorToInt Return type: int Description: Get hexadecimal value for a Color (0xRRGGBBAA) Param[1]: color (type: Color) -Function 377: ColorNormalize() (1 input parameters) +Function 379: ColorNormalize() (1 input parameters) Name: ColorNormalize Return type: Vector4 Description: Get Color normalized as float [0..1] Param[1]: color (type: Color) -Function 378: ColorFromNormalized() (1 input parameters) +Function 380: ColorFromNormalized() (1 input parameters) Name: ColorFromNormalized Return type: Color Description: Get Color from normalized values [0..1] Param[1]: normalized (type: Vector4) -Function 379: ColorToHSV() (1 input parameters) +Function 381: ColorToHSV() (1 input parameters) Name: ColorToHSV Return type: Vector3 Description: Get HSV values for a Color, hue [0..360], saturation/value [0..1] Param[1]: color (type: Color) -Function 380: ColorFromHSV() (3 input parameters) +Function 382: ColorFromHSV() (3 input parameters) Name: ColorFromHSV Return type: Color Description: Get a Color from HSV values, hue [0..360], saturation/value [0..1] Param[1]: hue (type: float) Param[2]: saturation (type: float) Param[3]: value (type: float) -Function 381: ColorTint() (2 input parameters) +Function 383: ColorTint() (2 input parameters) Name: ColorTint Return type: Color Description: Get color multiplied with another color Param[1]: color (type: Color) Param[2]: tint (type: Color) -Function 382: ColorBrightness() (2 input parameters) +Function 384: ColorBrightness() (2 input parameters) Name: ColorBrightness Return type: Color Description: Get color with brightness correction, brightness factor goes from -1.0f to 1.0f Param[1]: color (type: Color) Param[2]: factor (type: float) -Function 383: ColorContrast() (2 input parameters) +Function 385: ColorContrast() (2 input parameters) Name: ColorContrast Return type: Color Description: Get color with contrast correction, contrast values between -1.0f and 1.0f Param[1]: color (type: Color) Param[2]: contrast (type: float) -Function 384: ColorAlpha() (2 input parameters) +Function 386: ColorAlpha() (2 input parameters) Name: ColorAlpha Return type: Color Description: Get color with alpha applied, alpha goes from 0.0f to 1.0f Param[1]: color (type: Color) Param[2]: alpha (type: float) -Function 385: ColorAlphaBlend() (3 input parameters) +Function 387: ColorAlphaBlend() (3 input parameters) Name: ColorAlphaBlend Return type: Color Description: Get src alpha-blended into dst color with tint Param[1]: dst (type: Color) Param[2]: src (type: Color) Param[3]: tint (type: Color) -Function 386: ColorLerp() (3 input parameters) +Function 388: ColorLerp() (3 input parameters) Name: ColorLerp Return type: Color Description: Get color lerp interpolation between two colors, factor [0.0f..1.0f] Param[1]: color1 (type: Color) Param[2]: color2 (type: Color) Param[3]: factor (type: float) -Function 387: GetColor() (1 input parameters) +Function 389: GetColor() (1 input parameters) Name: GetColor Return type: Color Description: Get Color structure from hexadecimal value Param[1]: hexValue (type: unsigned int) -Function 388: GetPixelColor() (2 input parameters) +Function 390: GetPixelColor() (2 input parameters) Name: GetPixelColor Return type: Color Description: Get Color from a source pixel pointer of certain format Param[1]: srcPtr (type: void *) Param[2]: format (type: int) -Function 389: SetPixelColor() (3 input parameters) +Function 391: SetPixelColor() (3 input parameters) Name: SetPixelColor Return type: void Description: Set color formatted into destination pixel pointer Param[1]: dstPtr (type: void *) Param[2]: color (type: Color) Param[3]: format (type: int) -Function 390: GetPixelDataSize() (3 input parameters) +Function 392: GetPixelDataSize() (3 input parameters) Name: GetPixelDataSize Return type: int Description: Get pixel data size in bytes for certain format Param[1]: width (type: int) Param[2]: height (type: int) Param[3]: format (type: int) -Function 391: GetFontDefault() (0 input parameters) +Function 393: GetFontDefault() (0 input parameters) Name: GetFontDefault Return type: Font Description: Get the default Font No input parameters -Function 392: LoadFont() (1 input parameters) +Function 394: LoadFont() (1 input parameters) Name: LoadFont Return type: Font Description: Load font from file into GPU memory (VRAM) Param[1]: fileName (type: const char *) -Function 393: LoadFontEx() (4 input parameters) +Function 395: LoadFontEx() (4 input parameters) Name: LoadFontEx Return type: Font Description: Load font from file with extended parameters, use NULL for codepoints and 0 for codepointCount to load the default character set, font size is provided in pixels height @@ -3454,14 +3470,14 @@ Function 393: LoadFontEx() (4 input parameters) Param[2]: fontSize (type: int) Param[3]: codepoints (type: int *) Param[4]: codepointCount (type: int) -Function 394: LoadFontFromImage() (3 input parameters) +Function 396: LoadFontFromImage() (3 input parameters) Name: LoadFontFromImage Return type: Font Description: Load font from Image (XNA style) Param[1]: image (type: Image) Param[2]: key (type: Color) Param[3]: firstChar (type: int) -Function 395: LoadFontFromMemory() (6 input parameters) +Function 397: LoadFontFromMemory() (6 input parameters) Name: LoadFontFromMemory Return type: Font Description: Load font from memory buffer, fileType refers to extension: i.e. '.ttf' @@ -3471,12 +3487,12 @@ Function 395: LoadFontFromMemory() (6 input parameters) Param[4]: fontSize (type: int) Param[5]: codepoints (type: int *) Param[6]: codepointCount (type: int) -Function 396: IsFontValid() (1 input parameters) +Function 398: IsFontValid() (1 input parameters) Name: IsFontValid Return type: bool Description: Check if a font is valid (font data loaded, WARNING: GPU texture not checked) Param[1]: font (type: Font) -Function 397: LoadFontData() (6 input parameters) +Function 399: LoadFontData() (6 input parameters) Name: LoadFontData Return type: GlyphInfo * Description: Load font data for further use @@ -3486,7 +3502,7 @@ Function 397: LoadFontData() (6 input parameters) Param[4]: codepoints (type: int *) Param[5]: codepointCount (type: int) Param[6]: type (type: int) -Function 398: GenImageFontAtlas() (6 input parameters) +Function 400: GenImageFontAtlas() (6 input parameters) Name: GenImageFontAtlas Return type: Image Description: Generate image font atlas using chars info @@ -3496,30 +3512,30 @@ Function 398: GenImageFontAtlas() (6 input parameters) Param[4]: fontSize (type: int) Param[5]: padding (type: int) Param[6]: packMethod (type: int) -Function 399: UnloadFontData() (2 input parameters) +Function 401: UnloadFontData() (2 input parameters) Name: UnloadFontData Return type: void Description: Unload font chars info data (RAM) Param[1]: glyphs (type: GlyphInfo *) Param[2]: glyphCount (type: int) -Function 400: UnloadFont() (1 input parameters) +Function 402: UnloadFont() (1 input parameters) Name: UnloadFont Return type: void Description: Unload font from GPU memory (VRAM) Param[1]: font (type: Font) -Function 401: ExportFontAsCode() (2 input parameters) +Function 403: ExportFontAsCode() (2 input parameters) Name: ExportFontAsCode Return type: bool Description: Export font as code file, returns true on success Param[1]: font (type: Font) Param[2]: fileName (type: const char *) -Function 402: DrawFPS() (2 input parameters) +Function 404: DrawFPS() (2 input parameters) Name: DrawFPS Return type: void Description: Draw current FPS Param[1]: posX (type: int) Param[2]: posY (type: int) -Function 403: DrawText() (5 input parameters) +Function 405: DrawText() (5 input parameters) Name: DrawText Return type: void Description: Draw text (using default font) @@ -3528,7 +3544,7 @@ Function 403: DrawText() (5 input parameters) Param[3]: posY (type: int) Param[4]: fontSize (type: int) Param[5]: color (type: Color) -Function 404: DrawTextEx() (6 input parameters) +Function 406: DrawTextEx() (6 input parameters) Name: DrawTextEx Return type: void Description: Draw text using font and additional parameters @@ -3538,7 +3554,7 @@ Function 404: DrawTextEx() (6 input parameters) Param[4]: fontSize (type: float) Param[5]: spacing (type: float) Param[6]: tint (type: Color) -Function 405: DrawTextPro() (8 input parameters) +Function 407: DrawTextPro() (8 input parameters) Name: DrawTextPro Return type: void Description: Draw text using Font and pro parameters (rotation) @@ -3550,7 +3566,7 @@ Function 405: DrawTextPro() (8 input parameters) Param[6]: fontSize (type: float) Param[7]: spacing (type: float) Param[8]: tint (type: Color) -Function 406: DrawTextCodepoint() (5 input parameters) +Function 408: DrawTextCodepoint() (5 input parameters) Name: DrawTextCodepoint Return type: void Description: Draw one character (codepoint) @@ -3559,7 +3575,7 @@ Function 406: DrawTextCodepoint() (5 input parameters) Param[3]: position (type: Vector2) Param[4]: fontSize (type: float) Param[5]: tint (type: Color) -Function 407: DrawTextCodepoints() (7 input parameters) +Function 409: DrawTextCodepoints() (7 input parameters) Name: DrawTextCodepoints Return type: void Description: Draw multiple character (codepoint) @@ -3570,18 +3586,18 @@ Function 407: DrawTextCodepoints() (7 input parameters) Param[5]: fontSize (type: float) Param[6]: spacing (type: float) Param[7]: tint (type: Color) -Function 408: SetTextLineSpacing() (1 input parameters) +Function 410: SetTextLineSpacing() (1 input parameters) Name: SetTextLineSpacing Return type: void Description: Set vertical line spacing when drawing with line-breaks Param[1]: spacing (type: int) -Function 409: MeasureText() (2 input parameters) +Function 411: MeasureText() (2 input parameters) Name: MeasureText Return type: int Description: Measure string width for default font Param[1]: text (type: const char *) Param[2]: fontSize (type: int) -Function 410: MeasureTextEx() (4 input parameters) +Function 412: MeasureTextEx() (4 input parameters) Name: MeasureTextEx Return type: Vector2 Description: Measure string size for Font @@ -3589,195 +3605,195 @@ Function 410: MeasureTextEx() (4 input parameters) Param[2]: text (type: const char *) Param[3]: fontSize (type: float) Param[4]: spacing (type: float) -Function 411: GetGlyphIndex() (2 input parameters) +Function 413: GetGlyphIndex() (2 input parameters) Name: GetGlyphIndex Return type: int Description: Get glyph index position in font for a codepoint (unicode character), fallback to '?' if not found Param[1]: font (type: Font) Param[2]: codepoint (type: int) -Function 412: GetGlyphInfo() (2 input parameters) +Function 414: GetGlyphInfo() (2 input parameters) Name: GetGlyphInfo Return type: GlyphInfo Description: Get glyph font info data for a codepoint (unicode character), fallback to '?' if not found Param[1]: font (type: Font) Param[2]: codepoint (type: int) -Function 413: GetGlyphAtlasRec() (2 input parameters) +Function 415: GetGlyphAtlasRec() (2 input parameters) Name: GetGlyphAtlasRec Return type: Rectangle Description: Get glyph rectangle in font atlas for a codepoint (unicode character), fallback to '?' if not found Param[1]: font (type: Font) Param[2]: codepoint (type: int) -Function 414: LoadUTF8() (2 input parameters) +Function 416: LoadUTF8() (2 input parameters) Name: LoadUTF8 Return type: char * Description: Load UTF-8 text encoded from codepoints array Param[1]: codepoints (type: const int *) Param[2]: length (type: int) -Function 415: UnloadUTF8() (1 input parameters) +Function 417: UnloadUTF8() (1 input parameters) Name: UnloadUTF8 Return type: void Description: Unload UTF-8 text encoded from codepoints array Param[1]: text (type: char *) -Function 416: LoadCodepoints() (2 input parameters) +Function 418: LoadCodepoints() (2 input parameters) Name: LoadCodepoints Return type: int * Description: Load all codepoints from a UTF-8 text string, codepoints count returned by parameter Param[1]: text (type: const char *) Param[2]: count (type: int *) -Function 417: UnloadCodepoints() (1 input parameters) +Function 419: UnloadCodepoints() (1 input parameters) Name: UnloadCodepoints Return type: void Description: Unload codepoints data from memory Param[1]: codepoints (type: int *) -Function 418: GetCodepointCount() (1 input parameters) +Function 420: GetCodepointCount() (1 input parameters) Name: GetCodepointCount Return type: int Description: Get total number of codepoints in a UTF-8 encoded string Param[1]: text (type: const char *) -Function 419: GetCodepoint() (2 input parameters) +Function 421: GetCodepoint() (2 input parameters) Name: GetCodepoint Return type: int Description: Get next codepoint in a UTF-8 encoded string, 0x3f('?') is returned on failure Param[1]: text (type: const char *) Param[2]: codepointSize (type: int *) -Function 420: GetCodepointNext() (2 input parameters) +Function 422: GetCodepointNext() (2 input parameters) Name: GetCodepointNext Return type: int Description: Get next codepoint in a UTF-8 encoded string, 0x3f('?') is returned on failure Param[1]: text (type: const char *) Param[2]: codepointSize (type: int *) -Function 421: GetCodepointPrevious() (2 input parameters) +Function 423: GetCodepointPrevious() (2 input parameters) Name: GetCodepointPrevious Return type: int Description: Get previous codepoint in a UTF-8 encoded string, 0x3f('?') is returned on failure Param[1]: text (type: const char *) Param[2]: codepointSize (type: int *) -Function 422: CodepointToUTF8() (2 input parameters) +Function 424: CodepointToUTF8() (2 input parameters) Name: CodepointToUTF8 Return type: const char * Description: Encode one codepoint into UTF-8 byte array (array length returned as parameter) Param[1]: codepoint (type: int) Param[2]: utf8Size (type: int *) -Function 423: TextCopy() (2 input parameters) +Function 425: TextCopy() (2 input parameters) Name: TextCopy Return type: int Description: Copy one string to another, returns bytes copied Param[1]: dst (type: char *) Param[2]: src (type: const char *) -Function 424: TextIsEqual() (2 input parameters) +Function 426: TextIsEqual() (2 input parameters) Name: TextIsEqual Return type: bool Description: Check if two text string are equal Param[1]: text1 (type: const char *) Param[2]: text2 (type: const char *) -Function 425: TextLength() (1 input parameters) +Function 427: TextLength() (1 input parameters) Name: TextLength Return type: unsigned int Description: Get text length, checks for '\0' ending Param[1]: text (type: const char *) -Function 426: TextFormat() (2 input parameters) +Function 428: TextFormat() (2 input parameters) Name: TextFormat Return type: const char * Description: Text formatting with variables (sprintf() style) Param[1]: text (type: const char *) Param[2]: args (type: ...) -Function 427: TextSubtext() (3 input parameters) +Function 429: TextSubtext() (3 input parameters) Name: TextSubtext Return type: const char * Description: Get a piece of a text string Param[1]: text (type: const char *) Param[2]: position (type: int) Param[3]: length (type: int) -Function 428: TextReplace() (3 input parameters) +Function 430: TextReplace() (3 input parameters) Name: TextReplace Return type: char * Description: Replace text string (WARNING: memory must be freed!) Param[1]: text (type: const char *) Param[2]: replace (type: const char *) Param[3]: by (type: const char *) -Function 429: TextInsert() (3 input parameters) +Function 431: TextInsert() (3 input parameters) Name: TextInsert Return type: char * Description: Insert text in a position (WARNING: memory must be freed!) Param[1]: text (type: const char *) Param[2]: insert (type: const char *) Param[3]: position (type: int) -Function 430: TextJoin() (3 input parameters) +Function 432: TextJoin() (3 input parameters) Name: TextJoin Return type: char * Description: Join text strings with delimiter Param[1]: textList (type: char **) Param[2]: count (type: int) Param[3]: delimiter (type: const char *) -Function 431: TextSplit() (3 input parameters) +Function 433: TextSplit() (3 input parameters) Name: TextSplit Return type: char ** Description: Split text into multiple strings Param[1]: text (type: const char *) Param[2]: delimiter (type: char) Param[3]: count (type: int *) -Function 432: TextAppend() (3 input parameters) +Function 434: TextAppend() (3 input parameters) Name: TextAppend Return type: void Description: Append text at specific position and move cursor! Param[1]: text (type: char *) Param[2]: append (type: const char *) Param[3]: position (type: int *) -Function 433: TextFindIndex() (2 input parameters) +Function 435: TextFindIndex() (2 input parameters) Name: TextFindIndex Return type: int Description: Find first text occurrence within a string Param[1]: text (type: const char *) Param[2]: find (type: const char *) -Function 434: TextToUpper() (1 input parameters) +Function 436: TextToUpper() (1 input parameters) Name: TextToUpper Return type: char * Description: Get upper case version of provided string Param[1]: text (type: const char *) -Function 435: TextToLower() (1 input parameters) +Function 437: TextToLower() (1 input parameters) Name: TextToLower Return type: char * Description: Get lower case version of provided string Param[1]: text (type: const char *) -Function 436: TextToPascal() (1 input parameters) +Function 438: TextToPascal() (1 input parameters) Name: TextToPascal Return type: char * Description: Get Pascal case notation version of provided string Param[1]: text (type: const char *) -Function 437: TextToSnake() (1 input parameters) +Function 439: TextToSnake() (1 input parameters) Name: TextToSnake Return type: char * Description: Get Snake case notation version of provided string Param[1]: text (type: const char *) -Function 438: TextToCamel() (1 input parameters) +Function 440: TextToCamel() (1 input parameters) Name: TextToCamel Return type: char * Description: Get Camel case notation version of provided string Param[1]: text (type: const char *) -Function 439: TextToInteger() (1 input parameters) +Function 441: TextToInteger() (1 input parameters) Name: TextToInteger Return type: int Description: Get integer value from text Param[1]: text (type: const char *) -Function 440: TextToFloat() (1 input parameters) +Function 442: TextToFloat() (1 input parameters) Name: TextToFloat Return type: float Description: Get float value from text Param[1]: text (type: const char *) -Function 441: DrawLine3D() (3 input parameters) +Function 443: DrawLine3D() (3 input parameters) Name: DrawLine3D Return type: void Description: Draw a line in 3D world space Param[1]: startPos (type: Vector3) Param[2]: endPos (type: Vector3) Param[3]: color (type: Color) -Function 442: DrawPoint3D() (2 input parameters) +Function 444: DrawPoint3D() (2 input parameters) Name: DrawPoint3D Return type: void Description: Draw a point in 3D space, actually a small line Param[1]: position (type: Vector3) Param[2]: color (type: Color) -Function 443: DrawCircle3D() (5 input parameters) +Function 445: DrawCircle3D() (5 input parameters) Name: DrawCircle3D Return type: void Description: Draw a circle in 3D world space @@ -3786,7 +3802,7 @@ Function 443: DrawCircle3D() (5 input parameters) Param[3]: rotationAxis (type: Vector3) Param[4]: rotationAngle (type: float) Param[5]: color (type: Color) -Function 444: DrawTriangle3D() (4 input parameters) +Function 446: DrawTriangle3D() (4 input parameters) Name: DrawTriangle3D Return type: void Description: Draw a color-filled triangle (vertex in counter-clockwise order!) @@ -3794,14 +3810,14 @@ Function 444: DrawTriangle3D() (4 input parameters) Param[2]: v2 (type: Vector3) Param[3]: v3 (type: Vector3) Param[4]: color (type: Color) -Function 445: DrawTriangleStrip3D() (3 input parameters) +Function 447: DrawTriangleStrip3D() (3 input parameters) Name: DrawTriangleStrip3D Return type: void Description: Draw a triangle strip defined by points Param[1]: points (type: const Vector3 *) Param[2]: pointCount (type: int) Param[3]: color (type: Color) -Function 446: DrawCube() (5 input parameters) +Function 448: DrawCube() (5 input parameters) Name: DrawCube Return type: void Description: Draw cube @@ -3810,14 +3826,14 @@ Function 446: DrawCube() (5 input parameters) Param[3]: height (type: float) Param[4]: length (type: float) Param[5]: color (type: Color) -Function 447: DrawCubeV() (3 input parameters) +Function 449: DrawCubeV() (3 input parameters) Name: DrawCubeV Return type: void Description: Draw cube (Vector version) Param[1]: position (type: Vector3) Param[2]: size (type: Vector3) Param[3]: color (type: Color) -Function 448: DrawCubeWires() (5 input parameters) +Function 450: DrawCubeWires() (5 input parameters) Name: DrawCubeWires Return type: void Description: Draw cube wires @@ -3826,21 +3842,21 @@ Function 448: DrawCubeWires() (5 input parameters) Param[3]: height (type: float) Param[4]: length (type: float) Param[5]: color (type: Color) -Function 449: DrawCubeWiresV() (3 input parameters) +Function 451: DrawCubeWiresV() (3 input parameters) Name: DrawCubeWiresV Return type: void Description: Draw cube wires (Vector version) Param[1]: position (type: Vector3) Param[2]: size (type: Vector3) Param[3]: color (type: Color) -Function 450: DrawSphere() (3 input parameters) +Function 452: DrawSphere() (3 input parameters) Name: DrawSphere Return type: void Description: Draw sphere Param[1]: centerPos (type: Vector3) Param[2]: radius (type: float) Param[3]: color (type: Color) -Function 451: DrawSphereEx() (5 input parameters) +Function 453: DrawSphereEx() (5 input parameters) Name: DrawSphereEx Return type: void Description: Draw sphere with extended parameters @@ -3849,7 +3865,7 @@ Function 451: DrawSphereEx() (5 input parameters) Param[3]: rings (type: int) Param[4]: slices (type: int) Param[5]: color (type: Color) -Function 452: DrawSphereWires() (5 input parameters) +Function 454: DrawSphereWires() (5 input parameters) Name: DrawSphereWires Return type: void Description: Draw sphere wires @@ -3858,7 +3874,7 @@ Function 452: DrawSphereWires() (5 input parameters) Param[3]: rings (type: int) Param[4]: slices (type: int) Param[5]: color (type: Color) -Function 453: DrawCylinder() (6 input parameters) +Function 455: DrawCylinder() (6 input parameters) Name: DrawCylinder Return type: void Description: Draw a cylinder/cone @@ -3868,7 +3884,7 @@ Function 453: DrawCylinder() (6 input parameters) Param[4]: height (type: float) Param[5]: slices (type: int) Param[6]: color (type: Color) -Function 454: DrawCylinderEx() (6 input parameters) +Function 456: DrawCylinderEx() (6 input parameters) Name: DrawCylinderEx Return type: void Description: Draw a cylinder with base at startPos and top at endPos @@ -3878,7 +3894,7 @@ Function 454: DrawCylinderEx() (6 input parameters) Param[4]: endRadius (type: float) Param[5]: sides (type: int) Param[6]: color (type: Color) -Function 455: DrawCylinderWires() (6 input parameters) +Function 457: DrawCylinderWires() (6 input parameters) Name: DrawCylinderWires Return type: void Description: Draw a cylinder/cone wires @@ -3888,7 +3904,7 @@ Function 455: DrawCylinderWires() (6 input parameters) Param[4]: height (type: float) Param[5]: slices (type: int) Param[6]: color (type: Color) -Function 456: DrawCylinderWiresEx() (6 input parameters) +Function 458: DrawCylinderWiresEx() (6 input parameters) Name: DrawCylinderWiresEx Return type: void Description: Draw a cylinder wires with base at startPos and top at endPos @@ -3898,7 +3914,7 @@ Function 456: DrawCylinderWiresEx() (6 input parameters) Param[4]: endRadius (type: float) Param[5]: sides (type: int) Param[6]: color (type: Color) -Function 457: DrawCapsule() (6 input parameters) +Function 459: DrawCapsule() (6 input parameters) Name: DrawCapsule Return type: void Description: Draw a capsule with the center of its sphere caps at startPos and endPos @@ -3908,7 +3924,7 @@ Function 457: DrawCapsule() (6 input parameters) Param[4]: slices (type: int) Param[5]: rings (type: int) Param[6]: color (type: Color) -Function 458: DrawCapsuleWires() (6 input parameters) +Function 460: DrawCapsuleWires() (6 input parameters) Name: DrawCapsuleWires Return type: void Description: Draw capsule wireframe with the center of its sphere caps at startPos and endPos @@ -3918,51 +3934,51 @@ Function 458: DrawCapsuleWires() (6 input parameters) Param[4]: slices (type: int) Param[5]: rings (type: int) Param[6]: color (type: Color) -Function 459: DrawPlane() (3 input parameters) +Function 461: DrawPlane() (3 input parameters) Name: DrawPlane Return type: void Description: Draw a plane XZ Param[1]: centerPos (type: Vector3) Param[2]: size (type: Vector2) Param[3]: color (type: Color) -Function 460: DrawRay() (2 input parameters) +Function 462: DrawRay() (2 input parameters) Name: DrawRay Return type: void Description: Draw a ray line Param[1]: ray (type: Ray) Param[2]: color (type: Color) -Function 461: DrawGrid() (2 input parameters) +Function 463: DrawGrid() (2 input parameters) Name: DrawGrid Return type: void Description: Draw a grid (centered at (0, 0, 0)) Param[1]: slices (type: int) Param[2]: spacing (type: float) -Function 462: LoadModel() (1 input parameters) +Function 464: LoadModel() (1 input parameters) Name: LoadModel Return type: Model Description: Load model from files (meshes and materials) Param[1]: fileName (type: const char *) -Function 463: LoadModelFromMesh() (1 input parameters) +Function 465: LoadModelFromMesh() (1 input parameters) Name: LoadModelFromMesh Return type: Model Description: Load model from generated mesh (default material) Param[1]: mesh (type: Mesh) -Function 464: IsModelValid() (1 input parameters) +Function 466: IsModelValid() (1 input parameters) Name: IsModelValid Return type: bool Description: Check if a model is valid (loaded in GPU, VAO/VBOs) Param[1]: model (type: Model) -Function 465: UnloadModel() (1 input parameters) +Function 467: UnloadModel() (1 input parameters) Name: UnloadModel Return type: void Description: Unload model (including meshes) from memory (RAM and/or VRAM) Param[1]: model (type: Model) -Function 466: GetModelBoundingBox() (1 input parameters) +Function 468: GetModelBoundingBox() (1 input parameters) Name: GetModelBoundingBox Return type: BoundingBox Description: Compute model bounding box limits (considers all meshes) Param[1]: model (type: Model) -Function 467: DrawModel() (4 input parameters) +Function 469: DrawModel() (4 input parameters) Name: DrawModel Return type: void Description: Draw a model (with texture if set) @@ -3970,7 +3986,7 @@ Function 467: DrawModel() (4 input parameters) Param[2]: position (type: Vector3) Param[3]: scale (type: float) Param[4]: tint (type: Color) -Function 468: DrawModelEx() (6 input parameters) +Function 470: DrawModelEx() (6 input parameters) Name: DrawModelEx Return type: void Description: Draw a model with extended parameters @@ -3980,7 +3996,7 @@ Function 468: DrawModelEx() (6 input parameters) Param[4]: rotationAngle (type: float) Param[5]: scale (type: Vector3) Param[6]: tint (type: Color) -Function 469: DrawModelWires() (4 input parameters) +Function 471: DrawModelWires() (4 input parameters) Name: DrawModelWires Return type: void Description: Draw a model wires (with texture if set) @@ -3988,7 +4004,7 @@ Function 469: DrawModelWires() (4 input parameters) Param[2]: position (type: Vector3) Param[3]: scale (type: float) Param[4]: tint (type: Color) -Function 470: DrawModelWiresEx() (6 input parameters) +Function 472: DrawModelWiresEx() (6 input parameters) Name: DrawModelWiresEx Return type: void Description: Draw a model wires (with texture if set) with extended parameters @@ -3998,7 +4014,7 @@ Function 470: DrawModelWiresEx() (6 input parameters) Param[4]: rotationAngle (type: float) Param[5]: scale (type: Vector3) Param[6]: tint (type: Color) -Function 471: DrawModelPoints() (4 input parameters) +Function 473: DrawModelPoints() (4 input parameters) Name: DrawModelPoints Return type: void Description: Draw a model as points @@ -4006,7 +4022,7 @@ Function 471: DrawModelPoints() (4 input parameters) Param[2]: position (type: Vector3) Param[3]: scale (type: float) Param[4]: tint (type: Color) -Function 472: DrawModelPointsEx() (6 input parameters) +Function 474: DrawModelPointsEx() (6 input parameters) Name: DrawModelPointsEx Return type: void Description: Draw a model as points with extended parameters @@ -4016,13 +4032,13 @@ Function 472: DrawModelPointsEx() (6 input parameters) Param[4]: rotationAngle (type: float) Param[5]: scale (type: Vector3) Param[6]: tint (type: Color) -Function 473: DrawBoundingBox() (2 input parameters) +Function 475: DrawBoundingBox() (2 input parameters) Name: DrawBoundingBox Return type: void Description: Draw bounding box (wires) Param[1]: box (type: BoundingBox) Param[2]: color (type: Color) -Function 474: DrawBillboard() (5 input parameters) +Function 476: DrawBillboard() (5 input parameters) Name: DrawBillboard Return type: void Description: Draw a billboard texture @@ -4031,7 +4047,7 @@ Function 474: DrawBillboard() (5 input parameters) Param[3]: position (type: Vector3) Param[4]: scale (type: float) Param[5]: tint (type: Color) -Function 475: DrawBillboardRec() (6 input parameters) +Function 477: DrawBillboardRec() (6 input parameters) Name: DrawBillboardRec Return type: void Description: Draw a billboard texture defined by source @@ -4041,7 +4057,7 @@ Function 475: DrawBillboardRec() (6 input parameters) Param[4]: position (type: Vector3) Param[5]: size (type: Vector2) Param[6]: tint (type: Color) -Function 476: DrawBillboardPro() (9 input parameters) +Function 478: DrawBillboardPro() (9 input parameters) Name: DrawBillboardPro Return type: void Description: Draw a billboard texture defined by source and rotation @@ -4054,13 +4070,13 @@ Function 476: DrawBillboardPro() (9 input parameters) Param[7]: origin (type: Vector2) Param[8]: rotation (type: float) Param[9]: tint (type: Color) -Function 477: UploadMesh() (2 input parameters) +Function 479: UploadMesh() (2 input parameters) Name: UploadMesh Return type: void Description: Upload mesh vertex data in GPU and provide VAO/VBO ids Param[1]: mesh (type: Mesh *) Param[2]: dynamic (type: bool) -Function 478: UpdateMeshBuffer() (5 input parameters) +Function 480: UpdateMeshBuffer() (5 input parameters) Name: UpdateMeshBuffer Return type: void Description: Update mesh vertex data in GPU for a specific buffer index @@ -4069,19 +4085,19 @@ Function 478: UpdateMeshBuffer() (5 input parameters) Param[3]: data (type: const void *) Param[4]: dataSize (type: int) Param[5]: offset (type: int) -Function 479: UnloadMesh() (1 input parameters) +Function 481: UnloadMesh() (1 input parameters) Name: UnloadMesh Return type: void Description: Unload mesh data from CPU and GPU Param[1]: mesh (type: Mesh) -Function 480: DrawMesh() (3 input parameters) +Function 482: DrawMesh() (3 input parameters) Name: DrawMesh Return type: void Description: Draw a 3d mesh with material and transform Param[1]: mesh (type: Mesh) Param[2]: material (type: Material) Param[3]: transform (type: Matrix) -Function 481: DrawMeshInstanced() (4 input parameters) +Function 483: DrawMeshInstanced() (4 input parameters) Name: DrawMeshInstanced Return type: void Description: Draw multiple mesh instances with material and different transforms @@ -4089,35 +4105,35 @@ Function 481: DrawMeshInstanced() (4 input parameters) Param[2]: material (type: Material) Param[3]: transforms (type: const Matrix *) Param[4]: instances (type: int) -Function 482: GetMeshBoundingBox() (1 input parameters) +Function 484: GetMeshBoundingBox() (1 input parameters) Name: GetMeshBoundingBox Return type: BoundingBox Description: Compute mesh bounding box limits Param[1]: mesh (type: Mesh) -Function 483: GenMeshTangents() (1 input parameters) +Function 485: GenMeshTangents() (1 input parameters) Name: GenMeshTangents Return type: void Description: Compute mesh tangents Param[1]: mesh (type: Mesh *) -Function 484: ExportMesh() (2 input parameters) +Function 486: ExportMesh() (2 input parameters) Name: ExportMesh Return type: bool Description: Export mesh data to file, returns true on success Param[1]: mesh (type: Mesh) Param[2]: fileName (type: const char *) -Function 485: ExportMeshAsCode() (2 input parameters) +Function 487: ExportMeshAsCode() (2 input parameters) Name: ExportMeshAsCode Return type: bool Description: Export mesh as code file (.h) defining multiple arrays of vertex attributes Param[1]: mesh (type: Mesh) Param[2]: fileName (type: const char *) -Function 486: GenMeshPoly() (2 input parameters) +Function 488: GenMeshPoly() (2 input parameters) Name: GenMeshPoly Return type: Mesh Description: Generate polygonal mesh Param[1]: sides (type: int) Param[2]: radius (type: float) -Function 487: GenMeshPlane() (4 input parameters) +Function 489: GenMeshPlane() (4 input parameters) Name: GenMeshPlane Return type: Mesh Description: Generate plane mesh (with subdivisions) @@ -4125,42 +4141,42 @@ Function 487: GenMeshPlane() (4 input parameters) Param[2]: length (type: float) Param[3]: resX (type: int) Param[4]: resZ (type: int) -Function 488: GenMeshCube() (3 input parameters) +Function 490: GenMeshCube() (3 input parameters) Name: GenMeshCube Return type: Mesh Description: Generate cuboid mesh Param[1]: width (type: float) Param[2]: height (type: float) Param[3]: length (type: float) -Function 489: GenMeshSphere() (3 input parameters) +Function 491: GenMeshSphere() (3 input parameters) Name: GenMeshSphere Return type: Mesh Description: Generate sphere mesh (standard sphere) Param[1]: radius (type: float) Param[2]: rings (type: int) Param[3]: slices (type: int) -Function 490: GenMeshHemiSphere() (3 input parameters) +Function 492: GenMeshHemiSphere() (3 input parameters) Name: GenMeshHemiSphere Return type: Mesh Description: Generate half-sphere mesh (no bottom cap) Param[1]: radius (type: float) Param[2]: rings (type: int) Param[3]: slices (type: int) -Function 491: GenMeshCylinder() (3 input parameters) +Function 493: GenMeshCylinder() (3 input parameters) Name: GenMeshCylinder Return type: Mesh Description: Generate cylinder mesh Param[1]: radius (type: float) Param[2]: height (type: float) Param[3]: slices (type: int) -Function 492: GenMeshCone() (3 input parameters) +Function 494: GenMeshCone() (3 input parameters) Name: GenMeshCone Return type: Mesh Description: Generate cone/pyramid mesh Param[1]: radius (type: float) Param[2]: height (type: float) Param[3]: slices (type: int) -Function 493: GenMeshTorus() (4 input parameters) +Function 495: GenMeshTorus() (4 input parameters) Name: GenMeshTorus Return type: Mesh Description: Generate torus mesh @@ -4168,7 +4184,7 @@ Function 493: GenMeshTorus() (4 input parameters) Param[2]: size (type: float) Param[3]: radSeg (type: int) Param[4]: sides (type: int) -Function 494: GenMeshKnot() (4 input parameters) +Function 496: GenMeshKnot() (4 input parameters) Name: GenMeshKnot Return type: Mesh Description: Generate trefoil knot mesh @@ -4176,91 +4192,91 @@ Function 494: GenMeshKnot() (4 input parameters) Param[2]: size (type: float) Param[3]: radSeg (type: int) Param[4]: sides (type: int) -Function 495: GenMeshHeightmap() (2 input parameters) +Function 497: GenMeshHeightmap() (2 input parameters) Name: GenMeshHeightmap Return type: Mesh Description: Generate heightmap mesh from image data Param[1]: heightmap (type: Image) Param[2]: size (type: Vector3) -Function 496: GenMeshCubicmap() (2 input parameters) +Function 498: GenMeshCubicmap() (2 input parameters) Name: GenMeshCubicmap Return type: Mesh Description: Generate cubes-based map mesh from image data Param[1]: cubicmap (type: Image) Param[2]: cubeSize (type: Vector3) -Function 497: LoadMaterials() (2 input parameters) +Function 499: LoadMaterials() (2 input parameters) Name: LoadMaterials Return type: Material * Description: Load materials from model file Param[1]: fileName (type: const char *) Param[2]: materialCount (type: int *) -Function 498: LoadMaterialDefault() (0 input parameters) +Function 500: LoadMaterialDefault() (0 input parameters) Name: LoadMaterialDefault Return type: Material Description: Load default material (Supports: DIFFUSE, SPECULAR, NORMAL maps) No input parameters -Function 499: IsMaterialValid() (1 input parameters) +Function 501: IsMaterialValid() (1 input parameters) Name: IsMaterialValid Return type: bool Description: Check if a material is valid (shader assigned, map textures loaded in GPU) Param[1]: material (type: Material) -Function 500: UnloadMaterial() (1 input parameters) +Function 502: UnloadMaterial() (1 input parameters) Name: UnloadMaterial Return type: void Description: Unload material from GPU memory (VRAM) Param[1]: material (type: Material) -Function 501: SetMaterialTexture() (3 input parameters) +Function 503: SetMaterialTexture() (3 input parameters) Name: SetMaterialTexture Return type: void Description: Set texture for a material map type (MATERIAL_MAP_DIFFUSE, MATERIAL_MAP_SPECULAR...) Param[1]: material (type: Material *) Param[2]: mapType (type: int) Param[3]: texture (type: Texture2D) -Function 502: SetModelMeshMaterial() (3 input parameters) +Function 504: SetModelMeshMaterial() (3 input parameters) Name: SetModelMeshMaterial Return type: void Description: Set material for a mesh Param[1]: model (type: Model *) Param[2]: meshId (type: int) Param[3]: materialId (type: int) -Function 503: LoadModelAnimations() (2 input parameters) +Function 505: LoadModelAnimations() (2 input parameters) Name: LoadModelAnimations Return type: ModelAnimation * Description: Load model animations from file Param[1]: fileName (type: const char *) Param[2]: animCount (type: int *) -Function 504: UpdateModelAnimation() (3 input parameters) +Function 506: UpdateModelAnimation() (3 input parameters) Name: UpdateModelAnimation Return type: void Description: Update model animation pose (CPU) Param[1]: model (type: Model) Param[2]: anim (type: ModelAnimation) Param[3]: frame (type: int) -Function 505: UpdateModelAnimationBones() (3 input parameters) +Function 507: UpdateModelAnimationBones() (3 input parameters) Name: UpdateModelAnimationBones Return type: void Description: Update model animation mesh bone matrices (GPU skinning) Param[1]: model (type: Model) Param[2]: anim (type: ModelAnimation) Param[3]: frame (type: int) -Function 506: UnloadModelAnimation() (1 input parameters) +Function 508: UnloadModelAnimation() (1 input parameters) Name: UnloadModelAnimation Return type: void Description: Unload animation data Param[1]: anim (type: ModelAnimation) -Function 507: UnloadModelAnimations() (2 input parameters) +Function 509: UnloadModelAnimations() (2 input parameters) Name: UnloadModelAnimations Return type: void Description: Unload animation array data Param[1]: animations (type: ModelAnimation *) Param[2]: animCount (type: int) -Function 508: IsModelAnimationValid() (2 input parameters) +Function 510: IsModelAnimationValid() (2 input parameters) Name: IsModelAnimationValid Return type: bool Description: Check model animation skeleton match Param[1]: model (type: Model) Param[2]: anim (type: ModelAnimation) -Function 509: CheckCollisionSpheres() (4 input parameters) +Function 511: CheckCollisionSpheres() (4 input parameters) Name: CheckCollisionSpheres Return type: bool Description: Check collision between two spheres @@ -4268,40 +4284,40 @@ Function 509: CheckCollisionSpheres() (4 input parameters) Param[2]: radius1 (type: float) Param[3]: center2 (type: Vector3) Param[4]: radius2 (type: float) -Function 510: CheckCollisionBoxes() (2 input parameters) +Function 512: CheckCollisionBoxes() (2 input parameters) Name: CheckCollisionBoxes Return type: bool Description: Check collision between two bounding boxes Param[1]: box1 (type: BoundingBox) Param[2]: box2 (type: BoundingBox) -Function 511: CheckCollisionBoxSphere() (3 input parameters) +Function 513: CheckCollisionBoxSphere() (3 input parameters) Name: CheckCollisionBoxSphere Return type: bool Description: Check collision between box and sphere Param[1]: box (type: BoundingBox) Param[2]: center (type: Vector3) Param[3]: radius (type: float) -Function 512: GetRayCollisionSphere() (3 input parameters) +Function 514: GetRayCollisionSphere() (3 input parameters) Name: GetRayCollisionSphere Return type: RayCollision Description: Get collision info between ray and sphere Param[1]: ray (type: Ray) Param[2]: center (type: Vector3) Param[3]: radius (type: float) -Function 513: GetRayCollisionBox() (2 input parameters) +Function 515: GetRayCollisionBox() (2 input parameters) Name: GetRayCollisionBox Return type: RayCollision Description: Get collision info between ray and box Param[1]: ray (type: Ray) Param[2]: box (type: BoundingBox) -Function 514: GetRayCollisionMesh() (3 input parameters) +Function 516: GetRayCollisionMesh() (3 input parameters) Name: GetRayCollisionMesh Return type: RayCollision Description: Get collision info between ray and mesh Param[1]: ray (type: Ray) Param[2]: mesh (type: Mesh) Param[3]: transform (type: Matrix) -Function 515: GetRayCollisionTriangle() (4 input parameters) +Function 517: GetRayCollisionTriangle() (4 input parameters) Name: GetRayCollisionTriangle Return type: RayCollision Description: Get collision info between ray and triangle @@ -4309,7 +4325,7 @@ Function 515: GetRayCollisionTriangle() (4 input parameters) Param[2]: p1 (type: Vector3) Param[3]: p2 (type: Vector3) Param[4]: p3 (type: Vector3) -Function 516: GetRayCollisionQuad() (5 input parameters) +Function 518: GetRayCollisionQuad() (5 input parameters) Name: GetRayCollisionQuad Return type: RayCollision Description: Get collision info between ray and quad @@ -4318,158 +4334,158 @@ Function 516: GetRayCollisionQuad() (5 input parameters) Param[3]: p2 (type: Vector3) Param[4]: p3 (type: Vector3) Param[5]: p4 (type: Vector3) -Function 517: InitAudioDevice() (0 input parameters) +Function 519: InitAudioDevice() (0 input parameters) Name: InitAudioDevice Return type: void Description: Initialize audio device and context No input parameters -Function 518: CloseAudioDevice() (0 input parameters) +Function 520: CloseAudioDevice() (0 input parameters) Name: CloseAudioDevice Return type: void Description: Close the audio device and context No input parameters -Function 519: IsAudioDeviceReady() (0 input parameters) +Function 521: IsAudioDeviceReady() (0 input parameters) Name: IsAudioDeviceReady Return type: bool Description: Check if audio device has been initialized successfully No input parameters -Function 520: SetMasterVolume() (1 input parameters) +Function 522: SetMasterVolume() (1 input parameters) Name: SetMasterVolume Return type: void Description: Set master volume (listener) Param[1]: volume (type: float) -Function 521: GetMasterVolume() (0 input parameters) +Function 523: GetMasterVolume() (0 input parameters) Name: GetMasterVolume Return type: float Description: Get master volume (listener) No input parameters -Function 522: LoadWave() (1 input parameters) +Function 524: LoadWave() (1 input parameters) Name: LoadWave Return type: Wave Description: Load wave data from file Param[1]: fileName (type: const char *) -Function 523: LoadWaveFromMemory() (3 input parameters) +Function 525: LoadWaveFromMemory() (3 input parameters) Name: LoadWaveFromMemory Return type: Wave Description: Load wave from memory buffer, fileType refers to extension: i.e. '.wav' Param[1]: fileType (type: const char *) Param[2]: fileData (type: const unsigned char *) Param[3]: dataSize (type: int) -Function 524: IsWaveValid() (1 input parameters) +Function 526: IsWaveValid() (1 input parameters) Name: IsWaveValid Return type: bool Description: Checks if wave data is valid (data loaded and parameters) Param[1]: wave (type: Wave) -Function 525: LoadSound() (1 input parameters) +Function 527: LoadSound() (1 input parameters) Name: LoadSound Return type: Sound Description: Load sound from file Param[1]: fileName (type: const char *) -Function 526: LoadSoundFromWave() (1 input parameters) +Function 528: LoadSoundFromWave() (1 input parameters) Name: LoadSoundFromWave Return type: Sound Description: Load sound from wave data Param[1]: wave (type: Wave) -Function 527: LoadSoundAlias() (1 input parameters) +Function 529: LoadSoundAlias() (1 input parameters) Name: LoadSoundAlias Return type: Sound Description: Create a new sound that shares the same sample data as the source sound, does not own the sound data Param[1]: source (type: Sound) -Function 528: IsSoundValid() (1 input parameters) +Function 530: IsSoundValid() (1 input parameters) Name: IsSoundValid Return type: bool Description: Checks if a sound is valid (data loaded and buffers initialized) Param[1]: sound (type: Sound) -Function 529: UpdateSound() (3 input parameters) +Function 531: UpdateSound() (3 input parameters) Name: UpdateSound Return type: void Description: Update sound buffer with new data (data and frame count should fit in sound) Param[1]: sound (type: Sound) Param[2]: data (type: const void *) Param[3]: sampleCount (type: int) -Function 530: UnloadWave() (1 input parameters) +Function 532: UnloadWave() (1 input parameters) Name: UnloadWave Return type: void Description: Unload wave data Param[1]: wave (type: Wave) -Function 531: UnloadSound() (1 input parameters) +Function 533: UnloadSound() (1 input parameters) Name: UnloadSound Return type: void Description: Unload sound Param[1]: sound (type: Sound) -Function 532: UnloadSoundAlias() (1 input parameters) +Function 534: UnloadSoundAlias() (1 input parameters) Name: UnloadSoundAlias Return type: void Description: Unload a sound alias (does not deallocate sample data) Param[1]: alias (type: Sound) -Function 533: ExportWave() (2 input parameters) +Function 535: ExportWave() (2 input parameters) Name: ExportWave Return type: bool Description: Export wave data to file, returns true on success Param[1]: wave (type: Wave) Param[2]: fileName (type: const char *) -Function 534: ExportWaveAsCode() (2 input parameters) +Function 536: ExportWaveAsCode() (2 input parameters) Name: ExportWaveAsCode Return type: bool Description: Export wave sample data to code (.h), returns true on success Param[1]: wave (type: Wave) Param[2]: fileName (type: const char *) -Function 535: PlaySound() (1 input parameters) +Function 537: PlaySound() (1 input parameters) Name: PlaySound Return type: void Description: Play a sound Param[1]: sound (type: Sound) -Function 536: StopSound() (1 input parameters) +Function 538: StopSound() (1 input parameters) Name: StopSound Return type: void Description: Stop playing a sound Param[1]: sound (type: Sound) -Function 537: PauseSound() (1 input parameters) +Function 539: PauseSound() (1 input parameters) Name: PauseSound Return type: void Description: Pause a sound Param[1]: sound (type: Sound) -Function 538: ResumeSound() (1 input parameters) +Function 540: ResumeSound() (1 input parameters) Name: ResumeSound Return type: void Description: Resume a paused sound Param[1]: sound (type: Sound) -Function 539: IsSoundPlaying() (1 input parameters) +Function 541: IsSoundPlaying() (1 input parameters) Name: IsSoundPlaying Return type: bool Description: Check if a sound is currently playing Param[1]: sound (type: Sound) -Function 540: SetSoundVolume() (2 input parameters) +Function 542: SetSoundVolume() (2 input parameters) Name: SetSoundVolume Return type: void Description: Set volume for a sound (1.0 is max level) Param[1]: sound (type: Sound) Param[2]: volume (type: float) -Function 541: SetSoundPitch() (2 input parameters) +Function 543: SetSoundPitch() (2 input parameters) Name: SetSoundPitch Return type: void Description: Set pitch for a sound (1.0 is base level) Param[1]: sound (type: Sound) Param[2]: pitch (type: float) -Function 542: SetSoundPan() (2 input parameters) +Function 544: SetSoundPan() (2 input parameters) Name: SetSoundPan Return type: void Description: Set pan for a sound (0.5 is center) Param[1]: sound (type: Sound) Param[2]: pan (type: float) -Function 543: WaveCopy() (1 input parameters) +Function 545: WaveCopy() (1 input parameters) Name: WaveCopy Return type: Wave Description: Copy a wave to a new wave Param[1]: wave (type: Wave) -Function 544: WaveCrop() (3 input parameters) +Function 546: WaveCrop() (3 input parameters) Name: WaveCrop Return type: void Description: Crop a wave to defined frames range Param[1]: wave (type: Wave *) Param[2]: initFrame (type: int) Param[3]: finalFrame (type: int) -Function 545: WaveFormat() (4 input parameters) +Function 547: WaveFormat() (4 input parameters) Name: WaveFormat Return type: void Description: Convert wave data to desired format @@ -4477,203 +4493,203 @@ Function 545: WaveFormat() (4 input parameters) Param[2]: sampleRate (type: int) Param[3]: sampleSize (type: int) Param[4]: channels (type: int) -Function 546: LoadWaveSamples() (1 input parameters) +Function 548: LoadWaveSamples() (1 input parameters) Name: LoadWaveSamples Return type: float * Description: Load samples data from wave as a 32bit float data array Param[1]: wave (type: Wave) -Function 547: UnloadWaveSamples() (1 input parameters) +Function 549: UnloadWaveSamples() (1 input parameters) Name: UnloadWaveSamples Return type: void Description: Unload samples data loaded with LoadWaveSamples() Param[1]: samples (type: float *) -Function 548: LoadMusicStream() (1 input parameters) +Function 550: LoadMusicStream() (1 input parameters) Name: LoadMusicStream Return type: Music Description: Load music stream from file Param[1]: fileName (type: const char *) -Function 549: LoadMusicStreamFromMemory() (3 input parameters) +Function 551: LoadMusicStreamFromMemory() (3 input parameters) Name: LoadMusicStreamFromMemory Return type: Music Description: Load music stream from data Param[1]: fileType (type: const char *) Param[2]: data (type: const unsigned char *) Param[3]: dataSize (type: int) -Function 550: IsMusicValid() (1 input parameters) +Function 552: IsMusicValid() (1 input parameters) Name: IsMusicValid Return type: bool Description: Checks if a music stream is valid (context and buffers initialized) Param[1]: music (type: Music) -Function 551: UnloadMusicStream() (1 input parameters) +Function 553: UnloadMusicStream() (1 input parameters) Name: UnloadMusicStream Return type: void Description: Unload music stream Param[1]: music (type: Music) -Function 552: PlayMusicStream() (1 input parameters) +Function 554: PlayMusicStream() (1 input parameters) Name: PlayMusicStream Return type: void Description: Start music playing Param[1]: music (type: Music) -Function 553: IsMusicStreamPlaying() (1 input parameters) +Function 555: IsMusicStreamPlaying() (1 input parameters) Name: IsMusicStreamPlaying Return type: bool Description: Check if music is playing Param[1]: music (type: Music) -Function 554: UpdateMusicStream() (1 input parameters) +Function 556: UpdateMusicStream() (1 input parameters) Name: UpdateMusicStream Return type: void Description: Updates buffers for music streaming Param[1]: music (type: Music) -Function 555: StopMusicStream() (1 input parameters) +Function 557: StopMusicStream() (1 input parameters) Name: StopMusicStream Return type: void Description: Stop music playing Param[1]: music (type: Music) -Function 556: PauseMusicStream() (1 input parameters) +Function 558: PauseMusicStream() (1 input parameters) Name: PauseMusicStream Return type: void Description: Pause music playing Param[1]: music (type: Music) -Function 557: ResumeMusicStream() (1 input parameters) +Function 559: ResumeMusicStream() (1 input parameters) Name: ResumeMusicStream Return type: void Description: Resume playing paused music Param[1]: music (type: Music) -Function 558: SeekMusicStream() (2 input parameters) +Function 560: SeekMusicStream() (2 input parameters) Name: SeekMusicStream Return type: void Description: Seek music to a position (in seconds) Param[1]: music (type: Music) Param[2]: position (type: float) -Function 559: SetMusicVolume() (2 input parameters) +Function 561: SetMusicVolume() (2 input parameters) Name: SetMusicVolume Return type: void Description: Set volume for music (1.0 is max level) Param[1]: music (type: Music) Param[2]: volume (type: float) -Function 560: SetMusicPitch() (2 input parameters) +Function 562: SetMusicPitch() (2 input parameters) Name: SetMusicPitch Return type: void Description: Set pitch for a music (1.0 is base level) Param[1]: music (type: Music) Param[2]: pitch (type: float) -Function 561: SetMusicPan() (2 input parameters) +Function 563: SetMusicPan() (2 input parameters) Name: SetMusicPan Return type: void Description: Set pan for a music (0.5 is center) Param[1]: music (type: Music) Param[2]: pan (type: float) -Function 562: GetMusicTimeLength() (1 input parameters) +Function 564: GetMusicTimeLength() (1 input parameters) Name: GetMusicTimeLength Return type: float Description: Get music time length (in seconds) Param[1]: music (type: Music) -Function 563: GetMusicTimePlayed() (1 input parameters) +Function 565: GetMusicTimePlayed() (1 input parameters) Name: GetMusicTimePlayed Return type: float Description: Get current music time played (in seconds) Param[1]: music (type: Music) -Function 564: LoadAudioStream() (3 input parameters) +Function 566: LoadAudioStream() (3 input parameters) Name: LoadAudioStream Return type: AudioStream Description: Load audio stream (to stream raw audio pcm data) Param[1]: sampleRate (type: unsigned int) Param[2]: sampleSize (type: unsigned int) Param[3]: channels (type: unsigned int) -Function 565: IsAudioStreamValid() (1 input parameters) +Function 567: IsAudioStreamValid() (1 input parameters) Name: IsAudioStreamValid Return type: bool Description: Checks if an audio stream is valid (buffers initialized) Param[1]: stream (type: AudioStream) -Function 566: UnloadAudioStream() (1 input parameters) +Function 568: UnloadAudioStream() (1 input parameters) Name: UnloadAudioStream Return type: void Description: Unload audio stream and free memory Param[1]: stream (type: AudioStream) -Function 567: UpdateAudioStream() (3 input parameters) +Function 569: UpdateAudioStream() (3 input parameters) Name: UpdateAudioStream Return type: void Description: Update audio stream buffers with data Param[1]: stream (type: AudioStream) Param[2]: data (type: const void *) Param[3]: frameCount (type: int) -Function 568: IsAudioStreamProcessed() (1 input parameters) +Function 570: IsAudioStreamProcessed() (1 input parameters) Name: IsAudioStreamProcessed Return type: bool Description: Check if any audio stream buffers requires refill Param[1]: stream (type: AudioStream) -Function 569: PlayAudioStream() (1 input parameters) +Function 571: PlayAudioStream() (1 input parameters) Name: PlayAudioStream Return type: void Description: Play audio stream Param[1]: stream (type: AudioStream) -Function 570: PauseAudioStream() (1 input parameters) +Function 572: PauseAudioStream() (1 input parameters) Name: PauseAudioStream Return type: void Description: Pause audio stream Param[1]: stream (type: AudioStream) -Function 571: ResumeAudioStream() (1 input parameters) +Function 573: ResumeAudioStream() (1 input parameters) Name: ResumeAudioStream Return type: void Description: Resume audio stream Param[1]: stream (type: AudioStream) -Function 572: IsAudioStreamPlaying() (1 input parameters) +Function 574: IsAudioStreamPlaying() (1 input parameters) Name: IsAudioStreamPlaying Return type: bool Description: Check if audio stream is playing Param[1]: stream (type: AudioStream) -Function 573: StopAudioStream() (1 input parameters) +Function 575: StopAudioStream() (1 input parameters) Name: StopAudioStream Return type: void Description: Stop audio stream Param[1]: stream (type: AudioStream) -Function 574: SetAudioStreamVolume() (2 input parameters) +Function 576: SetAudioStreamVolume() (2 input parameters) Name: SetAudioStreamVolume Return type: void Description: Set volume for audio stream (1.0 is max level) Param[1]: stream (type: AudioStream) Param[2]: volume (type: float) -Function 575: SetAudioStreamPitch() (2 input parameters) +Function 577: SetAudioStreamPitch() (2 input parameters) Name: SetAudioStreamPitch Return type: void Description: Set pitch for audio stream (1.0 is base level) Param[1]: stream (type: AudioStream) Param[2]: pitch (type: float) -Function 576: SetAudioStreamPan() (2 input parameters) +Function 578: SetAudioStreamPan() (2 input parameters) Name: SetAudioStreamPan Return type: void Description: Set pan for audio stream (0.5 is centered) Param[1]: stream (type: AudioStream) Param[2]: pan (type: float) -Function 577: SetAudioStreamBufferSizeDefault() (1 input parameters) +Function 579: SetAudioStreamBufferSizeDefault() (1 input parameters) Name: SetAudioStreamBufferSizeDefault Return type: void Description: Default size for new audio streams Param[1]: size (type: int) -Function 578: SetAudioStreamCallback() (2 input parameters) +Function 580: SetAudioStreamCallback() (2 input parameters) Name: SetAudioStreamCallback Return type: void Description: Audio thread callback to request new data Param[1]: stream (type: AudioStream) Param[2]: callback (type: AudioCallback) -Function 579: AttachAudioStreamProcessor() (2 input parameters) +Function 581: AttachAudioStreamProcessor() (2 input parameters) Name: AttachAudioStreamProcessor Return type: void Description: Attach audio stream processor to stream, receives frames x 2 samples as 'float' (stereo) Param[1]: stream (type: AudioStream) Param[2]: processor (type: AudioCallback) -Function 580: DetachAudioStreamProcessor() (2 input parameters) +Function 582: DetachAudioStreamProcessor() (2 input parameters) Name: DetachAudioStreamProcessor Return type: void Description: Detach audio stream processor from stream Param[1]: stream (type: AudioStream) Param[2]: processor (type: AudioCallback) -Function 581: AttachAudioMixedProcessor() (1 input parameters) +Function 583: AttachAudioMixedProcessor() (1 input parameters) Name: AttachAudioMixedProcessor Return type: void Description: Attach audio stream processor to the entire audio pipeline, receives frames x 2 samples as 'float' (stereo) Param[1]: processor (type: AudioCallback) -Function 582: DetachAudioMixedProcessor() (1 input parameters) +Function 584: DetachAudioMixedProcessor() (1 input parameters) Name: DetachAudioMixedProcessor Return type: void Description: Detach audio stream processor from the entire audio pipeline diff --git a/parser/output/raylib_api.xml b/parser/output/raylib_api.xml index e9c83ad9c..8125824e7 100644 --- a/parser/output/raylib_api.xml +++ b/parser/output/raylib_api.xml @@ -486,7 +486,7 @@ - + @@ -672,14 +672,14 @@ - + - + @@ -720,7 +720,7 @@ - + @@ -1046,7 +1046,7 @@ - + @@ -1123,13 +1123,13 @@ - + - - + + @@ -1216,10 +1216,10 @@ - + - + @@ -1409,6 +1409,12 @@ + + + + + + @@ -1416,6 +1422,12 @@ + + + + + + @@ -1476,8 +1488,8 @@ - + @@ -2078,13 +2090,13 @@ - + - + diff --git a/projects/CMake/CMakeLists.txt b/projects/CMake/CMakeLists.txt index 96e33f344..56a5a5f51 100644 --- a/projects/CMake/CMakeLists.txt +++ b/projects/CMake/CMakeLists.txt @@ -18,7 +18,6 @@ if (NOT raylib_FOUND) # If there's none, fetch and build raylib if (NOT raylib_POPULATED) # Have we downloaded raylib yet? set(FETCHCONTENT_QUIET NO) FetchContent_MakeAvailable(raylib) - set(BUILD_EXAMPLES OFF CACHE BOOL "" FORCE) # don't build the supplied examples endif() endif() diff --git a/projects/Notepad++/raylib_npp_parser/raylib_npp.xml b/projects/Notepad++/raylib_npp_parser/raylib_npp.xml index 0fada9c4f..4c6362162 100644 --- a/projects/Notepad++/raylib_npp_parser/raylib_npp.xml +++ b/projects/Notepad++/raylib_npp_parser/raylib_npp.xml @@ -65,7 +65,7 @@ - + diff --git a/projects/Notepad++/raylib_npp_parser/raylib_to_parse.h b/projects/Notepad++/raylib_npp_parser/raylib_to_parse.h index c6b34b777..27e9b79a2 100644 --- a/projects/Notepad++/raylib_npp_parser/raylib_to_parse.h +++ b/projects/Notepad++/raylib_npp_parser/raylib_to_parse.h @@ -20,7 +20,7 @@ RLAPI void ToggleFullscreen(void); // Toggle wind RLAPI void ToggleBorderlessWindowed(void); // Toggle window state: borderless windowed, resizes window to match monitor resolution RLAPI void MaximizeWindow(void); // Set window state: maximized, if resizable RLAPI void MinimizeWindow(void); // Set window state: minimized, if resizable -RLAPI void RestoreWindow(void); // Set window state: not minimized/maximized +RLAPI void RestoreWindow(void); // Restore window from being minimized/maximized RLAPI void SetWindowIcon(Image image); // Set icon for window (single image, RGBA 32bit) RLAPI void SetWindowIcons(Image *images, int count); // Set icon for window (multiple images, RGBA 32bit) RLAPI void SetWindowTitle(const char *title); // Set title for window @@ -440,8 +440,8 @@ RLAPI void ImageDrawRectangleLines(Image *dst, Rectangle rec, int thick, Color c RLAPI void ImageDrawTriangle(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color color); // Draw triangle within an image RLAPI void ImageDrawTriangleEx(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color c1, Color c2, Color c3); // Draw triangle with interpolated colors within an image RLAPI void ImageDrawTriangleLines(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color color); // Draw triangle outline within an image -RLAPI void ImageDrawTriangleFan(Image *dst, Vector2 *points, int pointCount, Color color); // Draw a triangle fan defined by points within an image (first vertex is the center) -RLAPI void ImageDrawTriangleStrip(Image *dst, Vector2 *points, int pointCount, Color color); // Draw a triangle strip defined by points within an image +RLAPI void ImageDrawTriangleFan(Image *dst, const Vector2 *points, int pointCount, Color color); // Draw a triangle fan defined by points within an image (first vertex is the center) +RLAPI void ImageDrawTriangleStrip(Image *dst, const Vector2 *points, int pointCount, Color color); // Draw a triangle strip defined by points within an image RLAPI void ImageDraw(Image *dst, Image src, Rectangle srcRec, Rectangle dstRec, Color tint); // Draw a source image within a destination image (tint applied to source) RLAPI void ImageDrawText(Image *dst, const char *text, int posX, int posY, int fontSize, Color color); // Draw text (using default font) within an image (destination) RLAPI void ImageDrawTextEx(Image *dst, Font font, const char *text, Vector2 position, float fontSize, float spacing, Color tint); // Draw text (custom sprite font) within an image (destination) diff --git a/projects/VS2022/examples/audio_mixed_processor.vcxproj b/projects/VS2022/examples/audio_mixed_processor.vcxproj index 9adf33344..9efacd72f 100644 --- a/projects/VS2022/examples/audio_mixed_processor.vcxproj +++ b/projects/VS2022/examples/audio_mixed_processor.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_module_playing.vcxproj b/projects/VS2022/examples/audio_module_playing.vcxproj index 32535ada7..c13247e6b 100644 --- a/projects/VS2022/examples/audio_module_playing.vcxproj +++ b/projects/VS2022/examples/audio_module_playing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_music_stream.vcxproj b/projects/VS2022/examples/audio_music_stream.vcxproj index 1507a8458..afa3b1b65 100644 --- a/projects/VS2022/examples/audio_music_stream.vcxproj +++ b/projects/VS2022/examples/audio_music_stream.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_raw_stream.vcxproj b/projects/VS2022/examples/audio_raw_stream.vcxproj index 48da2c9a0..3c39abf1a 100644 --- a/projects/VS2022/examples/audio_raw_stream.vcxproj +++ b/projects/VS2022/examples/audio_raw_stream.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_sound_loading.vcxproj b/projects/VS2022/examples/audio_sound_loading.vcxproj index 65af71240..9f189225b 100644 --- a/projects/VS2022/examples/audio_sound_loading.vcxproj +++ b/projects/VS2022/examples/audio_sound_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_sound_multi.vcxproj b/projects/VS2022/examples/audio_sound_multi.vcxproj index ca4eb2b38..ae53a0a72 100644 --- a/projects/VS2022/examples/audio_sound_multi.vcxproj +++ b/projects/VS2022/examples/audio_sound_multi.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/audio_stream_effects.vcxproj b/projects/VS2022/examples/audio_stream_effects.vcxproj index b9ac9c4df..a6e1b789c 100644 --- a/projects/VS2022/examples/audio_stream_effects.vcxproj +++ b/projects/VS2022/examples/audio_stream_effects.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_2d_camera.vcxproj b/projects/VS2022/examples/core_2d_camera.vcxproj index fc2a75b2d..f82685b09 100644 --- a/projects/VS2022/examples/core_2d_camera.vcxproj +++ b/projects/VS2022/examples/core_2d_camera.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_2d_camera_mouse_zoom.vcxproj b/projects/VS2022/examples/core_2d_camera_mouse_zoom.vcxproj index 30df1d318..f3a568d0a 100644 --- a/projects/VS2022/examples/core_2d_camera_mouse_zoom.vcxproj +++ b/projects/VS2022/examples/core_2d_camera_mouse_zoom.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_2d_camera_platformer.vcxproj b/projects/VS2022/examples/core_2d_camera_platformer.vcxproj index 789998f1c..287d52594 100644 --- a/projects/VS2022/examples/core_2d_camera_platformer.vcxproj +++ b/projects/VS2022/examples/core_2d_camera_platformer.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_2d_camera_split_screen.vcxproj b/projects/VS2022/examples/core_2d_camera_split_screen.vcxproj index 7e63a4589..734f3789d 100644 --- a/projects/VS2022/examples/core_2d_camera_split_screen.vcxproj +++ b/projects/VS2022/examples/core_2d_camera_split_screen.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_3d_camera_first_person.vcxproj b/projects/VS2022/examples/core_3d_camera_first_person.vcxproj index 9831a3f6d..39f971318 100644 --- a/projects/VS2022/examples/core_3d_camera_first_person.vcxproj +++ b/projects/VS2022/examples/core_3d_camera_first_person.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_3d_camera_free.vcxproj b/projects/VS2022/examples/core_3d_camera_free.vcxproj index d2640f751..638f8123c 100644 --- a/projects/VS2022/examples/core_3d_camera_free.vcxproj +++ b/projects/VS2022/examples/core_3d_camera_free.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_3d_camera_mode.vcxproj b/projects/VS2022/examples/core_3d_camera_mode.vcxproj index 552d7fb73..fc6ec60ab 100644 --- a/projects/VS2022/examples/core_3d_camera_mode.vcxproj +++ b/projects/VS2022/examples/core_3d_camera_mode.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_3d_camera_split_screen.vcxproj b/projects/VS2022/examples/core_3d_camera_split_screen.vcxproj index 529aff1f1..dba830c87 100644 --- a/projects/VS2022/examples/core_3d_camera_split_screen.vcxproj +++ b/projects/VS2022/examples/core_3d_camera_split_screen.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_3d_picking.vcxproj b/projects/VS2022/examples/core_3d_picking.vcxproj index b38ef71d9..e0d216235 100644 --- a/projects/VS2022/examples/core_3d_picking.vcxproj +++ b/projects/VS2022/examples/core_3d_picking.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_automation_events.vcxproj b/projects/VS2022/examples/core_automation_events.vcxproj index 275d39c98..71bbb0730 100644 --- a/projects/VS2022/examples/core_automation_events.vcxproj +++ b/projects/VS2022/examples/core_automation_events.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_basic_screen_manager.vcxproj b/projects/VS2022/examples/core_basic_screen_manager.vcxproj index 8794ef92f..c741f89a9 100644 --- a/projects/VS2022/examples/core_basic_screen_manager.vcxproj +++ b/projects/VS2022/examples/core_basic_screen_manager.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_basic_window.vcxproj b/projects/VS2022/examples/core_basic_window.vcxproj index baec0bf2b..c8c7879ba 100644 --- a/projects/VS2022/examples/core_basic_window.vcxproj +++ b/projects/VS2022/examples/core_basic_window.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_custom_frame_control.vcxproj b/projects/VS2022/examples/core_custom_frame_control.vcxproj index e37b43ca1..5b69e0aaf 100644 --- a/projects/VS2022/examples/core_custom_frame_control.vcxproj +++ b/projects/VS2022/examples/core_custom_frame_control.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_custom_logging.vcxproj b/projects/VS2022/examples/core_custom_logging.vcxproj index 373671308..dbdd74c59 100644 --- a/projects/VS2022/examples/core_custom_logging.vcxproj +++ b/projects/VS2022/examples/core_custom_logging.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_drop_files.vcxproj b/projects/VS2022/examples/core_drop_files.vcxproj index 6936f2806..512681f5e 100644 --- a/projects/VS2022/examples/core_drop_files.vcxproj +++ b/projects/VS2022/examples/core_drop_files.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_high_dpi.vcxproj b/projects/VS2022/examples/core_high_dpi.vcxproj new file mode 100644 index 000000000..11e1b41c0 --- /dev/null +++ b/projects/VS2022/examples/core_high_dpi.vcxproj @@ -0,0 +1,569 @@ + + + + + Debug.DLL + ARM64 + + + Debug.DLL + Win32 + + + Debug.DLL + x64 + + + Debug + ARM64 + + + Debug + Win32 + + + Debug + x64 + + + Release.DLL + ARM64 + + + Release.DLL + Win32 + + + Release.DLL + x64 + + + Release + ARM64 + + + Release + Win32 + + + Release + x64 + + + + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D} + Win32Proj + core_high_dpi + 10.0 + core_high_dpi + + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + true + $(DefaultPlatformToolset) + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + Application + false + $(DefaultPlatformToolset) + true + Unicode + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + true + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + false + $(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)\ + $(SolutionDir)\build\$(ProjectName)\obj\$(Platform)\$(Configuration)\ + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + $(SolutionDir)..\..\examples\core + WindowsLocalDebugger + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + /FS %(AdditionalOptions) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + /FS %(AdditionalOptions) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + Copy Debug DLL to output directory + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + Copy Debug DLL to output directory + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + Copy Debug DLL to output directory + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + + + + + + + {e89d61ac-55de-4482-afd4-df7242ebc859} + + + + + + diff --git a/projects/VS2022/examples/core_input_gamepad.vcxproj b/projects/VS2022/examples/core_input_gamepad.vcxproj index 8b5e0274e..bdc31509b 100644 --- a/projects/VS2022/examples/core_input_gamepad.vcxproj +++ b/projects/VS2022/examples/core_input_gamepad.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_gestures.vcxproj b/projects/VS2022/examples/core_input_gestures.vcxproj index 56485cea3..36c5ec228 100644 --- a/projects/VS2022/examples/core_input_gestures.vcxproj +++ b/projects/VS2022/examples/core_input_gestures.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_keys.vcxproj b/projects/VS2022/examples/core_input_keys.vcxproj index efdf5e9cc..8b1838a00 100644 --- a/projects/VS2022/examples/core_input_keys.vcxproj +++ b/projects/VS2022/examples/core_input_keys.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_mouse.vcxproj b/projects/VS2022/examples/core_input_mouse.vcxproj index ab8964094..abdeca101 100644 --- a/projects/VS2022/examples/core_input_mouse.vcxproj +++ b/projects/VS2022/examples/core_input_mouse.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_mouse_wheel.vcxproj b/projects/VS2022/examples/core_input_mouse_wheel.vcxproj index 41ffebd82..e7975abcf 100644 --- a/projects/VS2022/examples/core_input_mouse_wheel.vcxproj +++ b/projects/VS2022/examples/core_input_mouse_wheel.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_multitouch.vcxproj b/projects/VS2022/examples/core_input_multitouch.vcxproj index b3b18a8bd..fb57bca70 100644 --- a/projects/VS2022/examples/core_input_multitouch.vcxproj +++ b/projects/VS2022/examples/core_input_multitouch.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_input_virtual_controls.vcxproj b/projects/VS2022/examples/core_input_virtual_controls.vcxproj index 63d6a6cc6..8a86ba29a 100644 --- a/projects/VS2022/examples/core_input_virtual_controls.vcxproj +++ b/projects/VS2022/examples/core_input_virtual_controls.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_loading_thread.vcxproj b/projects/VS2022/examples/core_loading_thread.vcxproj index 57d68768c..f9c5203cf 100644 --- a/projects/VS2022/examples/core_loading_thread.vcxproj +++ b/projects/VS2022/examples/core_loading_thread.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_random_sequence.vcxproj b/projects/VS2022/examples/core_random_sequence.vcxproj index de86d3f2b..5afdebe91 100644 --- a/projects/VS2022/examples/core_random_sequence.vcxproj +++ b/projects/VS2022/examples/core_random_sequence.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_random_values.vcxproj b/projects/VS2022/examples/core_random_values.vcxproj index 0567c4d7b..822d8c741 100644 --- a/projects/VS2022/examples/core_random_values.vcxproj +++ b/projects/VS2022/examples/core_random_values.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_scissor_test.vcxproj b/projects/VS2022/examples/core_scissor_test.vcxproj index 3f5a5a6e1..69b72776b 100644 --- a/projects/VS2022/examples/core_scissor_test.vcxproj +++ b/projects/VS2022/examples/core_scissor_test.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_smooth_pixelperfect.vcxproj b/projects/VS2022/examples/core_smooth_pixelperfect.vcxproj index 61870fac4..8abffabc0 100644 --- a/projects/VS2022/examples/core_smooth_pixelperfect.vcxproj +++ b/projects/VS2022/examples/core_smooth_pixelperfect.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_storage_values.vcxproj b/projects/VS2022/examples/core_storage_values.vcxproj index 14c9e07e8..782f6c89c 100644 --- a/projects/VS2022/examples/core_storage_values.vcxproj +++ b/projects/VS2022/examples/core_storage_values.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_vr_simulator.vcxproj b/projects/VS2022/examples/core_vr_simulator.vcxproj index eaa45c83f..a47bf5d10 100644 --- a/projects/VS2022/examples/core_vr_simulator.vcxproj +++ b/projects/VS2022/examples/core_vr_simulator.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_window_flags.vcxproj b/projects/VS2022/examples/core_window_flags.vcxproj index cd8fbbfea..188c2ab98 100644 --- a/projects/VS2022/examples/core_window_flags.vcxproj +++ b/projects/VS2022/examples/core_window_flags.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_window_letterbox.vcxproj b/projects/VS2022/examples/core_window_letterbox.vcxproj index f2678eed1..c589d623d 100644 --- a/projects/VS2022/examples/core_window_letterbox.vcxproj +++ b/projects/VS2022/examples/core_window_letterbox.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_window_should_close.vcxproj b/projects/VS2022/examples/core_window_should_close.vcxproj index 4135ed8c7..30c18941b 100644 --- a/projects/VS2022/examples/core_window_should_close.vcxproj +++ b/projects/VS2022/examples/core_window_should_close.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/core_world_screen.vcxproj b/projects/VS2022/examples/core_world_screen.vcxproj index 241e67008..8a04dc873 100644 --- a/projects/VS2022/examples/core_world_screen.vcxproj +++ b/projects/VS2022/examples/core_world_screen.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/easings_testbed.vcxproj b/projects/VS2022/examples/easings_testbed.vcxproj index 38736ddd1..44cd894f1 100644 --- a/projects/VS2022/examples/easings_testbed.vcxproj +++ b/projects/VS2022/examples/easings_testbed.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/embedded_files_loading.vcxproj b/projects/VS2022/examples/embedded_files_loading.vcxproj index 8f717a619..73c603a25 100644 --- a/projects/VS2022/examples/embedded_files_loading.vcxproj +++ b/projects/VS2022/examples/embedded_files_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_animation.vcxproj b/projects/VS2022/examples/models_animation.vcxproj index 434dea9bf..5b9399265 100644 --- a/projects/VS2022/examples/models_animation.vcxproj +++ b/projects/VS2022/examples/models_animation.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_billboard.vcxproj b/projects/VS2022/examples/models_billboard.vcxproj index 62eb6539c..7ee85637c 100644 --- a/projects/VS2022/examples/models_billboard.vcxproj +++ b/projects/VS2022/examples/models_billboard.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_bone_socket.vcxproj b/projects/VS2022/examples/models_bone_socket.vcxproj index 481b4efc3..85ccf99a4 100644 --- a/projects/VS2022/examples/models_bone_socket.vcxproj +++ b/projects/VS2022/examples/models_bone_socket.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_box_collisions.vcxproj b/projects/VS2022/examples/models_box_collisions.vcxproj index fc5176cd0..870e8400b 100644 --- a/projects/VS2022/examples/models_box_collisions.vcxproj +++ b/projects/VS2022/examples/models_box_collisions.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_cubicmap.vcxproj b/projects/VS2022/examples/models_cubicmap.vcxproj index cd92efc26..1ef1738a0 100644 --- a/projects/VS2022/examples/models_cubicmap.vcxproj +++ b/projects/VS2022/examples/models_cubicmap.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_draw_cube_texture.vcxproj b/projects/VS2022/examples/models_draw_cube_texture.vcxproj index d44ddabc9..a2ca31eb2 100644 --- a/projects/VS2022/examples/models_draw_cube_texture.vcxproj +++ b/projects/VS2022/examples/models_draw_cube_texture.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_first_person_maze.vcxproj b/projects/VS2022/examples/models_first_person_maze.vcxproj index c963da561..c3b7eb803 100644 --- a/projects/VS2022/examples/models_first_person_maze.vcxproj +++ b/projects/VS2022/examples/models_first_person_maze.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_geometric_shapes.vcxproj b/projects/VS2022/examples/models_geometric_shapes.vcxproj index 7c3784ac9..190ec51ab 100644 --- a/projects/VS2022/examples/models_geometric_shapes.vcxproj +++ b/projects/VS2022/examples/models_geometric_shapes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_gpu_skinning.vcxproj b/projects/VS2022/examples/models_gpu_skinning.vcxproj index 7d58012e0..25b94488f 100644 --- a/projects/VS2022/examples/models_gpu_skinning.vcxproj +++ b/projects/VS2022/examples/models_gpu_skinning.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_heightmap.vcxproj b/projects/VS2022/examples/models_heightmap.vcxproj index 5875f0ee3..734d68565 100644 --- a/projects/VS2022/examples/models_heightmap.vcxproj +++ b/projects/VS2022/examples/models_heightmap.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_loading.vcxproj b/projects/VS2022/examples/models_loading.vcxproj index c0d83f258..e81631339 100644 --- a/projects/VS2022/examples/models_loading.vcxproj +++ b/projects/VS2022/examples/models_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_loading_gltf.vcxproj b/projects/VS2022/examples/models_loading_gltf.vcxproj index a9989ef3b..29b14abcd 100644 --- a/projects/VS2022/examples/models_loading_gltf.vcxproj +++ b/projects/VS2022/examples/models_loading_gltf.vcxproj @@ -558,9 +558,6 @@ - - - {e89d61ac-55de-4482-afd4-df7242ebc859} diff --git a/projects/VS2022/examples/models_loading_m3d.vcxproj b/projects/VS2022/examples/models_loading_m3d.vcxproj index d6110af04..61e647ffb 100644 --- a/projects/VS2022/examples/models_loading_m3d.vcxproj +++ b/projects/VS2022/examples/models_loading_m3d.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_loading_vox.vcxproj b/projects/VS2022/examples/models_loading_vox.vcxproj index 60b961c05..3490fd377 100644 --- a/projects/VS2022/examples/models_loading_vox.vcxproj +++ b/projects/VS2022/examples/models_loading_vox.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_mesh_generation.vcxproj b/projects/VS2022/examples/models_mesh_generation.vcxproj index 42dbb3e6a..67fe94609 100644 --- a/projects/VS2022/examples/models_mesh_generation.vcxproj +++ b/projects/VS2022/examples/models_mesh_generation.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_mesh_picking.vcxproj b/projects/VS2022/examples/models_mesh_picking.vcxproj index 937d7756f..689816721 100644 --- a/projects/VS2022/examples/models_mesh_picking.vcxproj +++ b/projects/VS2022/examples/models_mesh_picking.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_orthographic_projection.vcxproj b/projects/VS2022/examples/models_orthographic_projection.vcxproj index 0a001c1bf..fad2e9786 100644 --- a/projects/VS2022/examples/models_orthographic_projection.vcxproj +++ b/projects/VS2022/examples/models_orthographic_projection.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_rlgl_solar_system.vcxproj b/projects/VS2022/examples/models_rlgl_solar_system.vcxproj index 0386214ba..6d0fa7cfd 100644 --- a/projects/VS2022/examples/models_rlgl_solar_system.vcxproj +++ b/projects/VS2022/examples/models_rlgl_solar_system.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_skybox.vcxproj b/projects/VS2022/examples/models_skybox.vcxproj index 55856ab2c..3fbdc170e 100644 --- a/projects/VS2022/examples/models_skybox.vcxproj +++ b/projects/VS2022/examples/models_skybox.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_waving_cubes.vcxproj b/projects/VS2022/examples/models_waving_cubes.vcxproj index f7b927290..6b1d7e748 100644 --- a/projects/VS2022/examples/models_waving_cubes.vcxproj +++ b/projects/VS2022/examples/models_waving_cubes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/models_yaw_pitch_roll.vcxproj b/projects/VS2022/examples/models_yaw_pitch_roll.vcxproj index d4f9f16a0..26b1a9c6f 100644 --- a/projects/VS2022/examples/models_yaw_pitch_roll.vcxproj +++ b/projects/VS2022/examples/models_yaw_pitch_roll.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/rlgl_compute_shaders.vcxproj b/projects/VS2022/examples/rlgl_compute_shaders.vcxproj index 0dc6301c7..48e5b20f6 100644 --- a/projects/VS2022/examples/rlgl_compute_shaders.vcxproj +++ b/projects/VS2022/examples/rlgl_compute_shaders.vcxproj @@ -557,7 +557,7 @@ - + diff --git a/projects/VS2022/examples/shaders_basic_lighting.vcxproj b/projects/VS2022/examples/shaders_basic_lighting.vcxproj index febc38190..b0941b092 100644 --- a/projects/VS2022/examples/shaders_basic_lighting.vcxproj +++ b/projects/VS2022/examples/shaders_basic_lighting.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_custom_uniform.vcxproj b/projects/VS2022/examples/shaders_custom_uniform.vcxproj index 03b0a292f..3cf7a092e 100644 --- a/projects/VS2022/examples/shaders_custom_uniform.vcxproj +++ b/projects/VS2022/examples/shaders_custom_uniform.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_deferred_render.vcxproj b/projects/VS2022/examples/shaders_deferred_render.vcxproj index b9750389c..1ac650091 100644 --- a/projects/VS2022/examples/shaders_deferred_render.vcxproj +++ b/projects/VS2022/examples/shaders_deferred_render.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_eratosthenes.vcxproj b/projects/VS2022/examples/shaders_eratosthenes.vcxproj index 1efb47922..a8050804c 100644 --- a/projects/VS2022/examples/shaders_eratosthenes.vcxproj +++ b/projects/VS2022/examples/shaders_eratosthenes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_fog.vcxproj b/projects/VS2022/examples/shaders_fog.vcxproj index eddd00e7f..0c00c5124 100644 --- a/projects/VS2022/examples/shaders_fog.vcxproj +++ b/projects/VS2022/examples/shaders_fog.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_hot_reloading.vcxproj b/projects/VS2022/examples/shaders_hot_reloading.vcxproj index 29820341e..95e1842d1 100644 --- a/projects/VS2022/examples/shaders_hot_reloading.vcxproj +++ b/projects/VS2022/examples/shaders_hot_reloading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_hybrid_render.vcxproj b/projects/VS2022/examples/shaders_hybrid_render.vcxproj index 799e4e40b..4072e3988 100644 --- a/projects/VS2022/examples/shaders_hybrid_render.vcxproj +++ b/projects/VS2022/examples/shaders_hybrid_render.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_julia_set.vcxproj b/projects/VS2022/examples/shaders_julia_set.vcxproj index 21ca5d36b..c8027f0e5 100644 --- a/projects/VS2022/examples/shaders_julia_set.vcxproj +++ b/projects/VS2022/examples/shaders_julia_set.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_mesh_instancing.vcxproj b/projects/VS2022/examples/shaders_mesh_instancing.vcxproj index 00f3de055..e5727f629 100644 --- a/projects/VS2022/examples/shaders_mesh_instancing.vcxproj +++ b/projects/VS2022/examples/shaders_mesh_instancing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_model_shader.vcxproj b/projects/VS2022/examples/shaders_model_shader.vcxproj index a558602bc..bf8fe16fe 100644 --- a/projects/VS2022/examples/shaders_model_shader.vcxproj +++ b/projects/VS2022/examples/shaders_model_shader.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_multi_sample2d.vcxproj b/projects/VS2022/examples/shaders_multi_sample2d.vcxproj index 0dd3046a5..61be03f08 100644 --- a/projects/VS2022/examples/shaders_multi_sample2d.vcxproj +++ b/projects/VS2022/examples/shaders_multi_sample2d.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_palette_switch.vcxproj b/projects/VS2022/examples/shaders_palette_switch.vcxproj index c427b3c01..34ed5e7b3 100644 --- a/projects/VS2022/examples/shaders_palette_switch.vcxproj +++ b/projects/VS2022/examples/shaders_palette_switch.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_postprocessing.vcxproj b/projects/VS2022/examples/shaders_postprocessing.vcxproj index edb3a8869..4b15a06e2 100644 --- a/projects/VS2022/examples/shaders_postprocessing.vcxproj +++ b/projects/VS2022/examples/shaders_postprocessing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_raymarching.vcxproj b/projects/VS2022/examples/shaders_raymarching.vcxproj index 6845f7de4..c796134bc 100644 --- a/projects/VS2022/examples/shaders_raymarching.vcxproj +++ b/projects/VS2022/examples/shaders_raymarching.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_rounded_rectangle.vcxproj b/projects/VS2022/examples/shaders_rounded_rectangle.vcxproj index 6c1a215e2..d67b3ee2d 100644 --- a/projects/VS2022/examples/shaders_rounded_rectangle.vcxproj +++ b/projects/VS2022/examples/shaders_rounded_rectangle.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_shadowmap.vcxproj b/projects/VS2022/examples/shaders_shadowmap.vcxproj index 8c10615ed..48dbcb3e5 100644 --- a/projects/VS2022/examples/shaders_shadowmap.vcxproj +++ b/projects/VS2022/examples/shaders_shadowmap.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_shapes_textures.vcxproj b/projects/VS2022/examples/shaders_shapes_textures.vcxproj index e27f2f944..6d1dc545e 100644 --- a/projects/VS2022/examples/shaders_shapes_textures.vcxproj +++ b/projects/VS2022/examples/shaders_shapes_textures.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_simple_mask.vcxproj b/projects/VS2022/examples/shaders_simple_mask.vcxproj index bed9ea8de..b4f402694 100644 --- a/projects/VS2022/examples/shaders_simple_mask.vcxproj +++ b/projects/VS2022/examples/shaders_simple_mask.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_spotlight.vcxproj b/projects/VS2022/examples/shaders_spotlight.vcxproj index c137e618e..39545d2a6 100644 --- a/projects/VS2022/examples/shaders_spotlight.vcxproj +++ b/projects/VS2022/examples/shaders_spotlight.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_texture_drawing.vcxproj b/projects/VS2022/examples/shaders_texture_drawing.vcxproj index cebe69330..744642015 100644 --- a/projects/VS2022/examples/shaders_texture_drawing.vcxproj +++ b/projects/VS2022/examples/shaders_texture_drawing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_texture_outline.vcxproj b/projects/VS2022/examples/shaders_texture_outline.vcxproj index ceb3be8f8..8d608b2a6 100644 --- a/projects/VS2022/examples/shaders_texture_outline.vcxproj +++ b/projects/VS2022/examples/shaders_texture_outline.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_texture_tiling.vcxproj b/projects/VS2022/examples/shaders_texture_tiling.vcxproj index 5c733ae99..18220515b 100644 --- a/projects/VS2022/examples/shaders_texture_tiling.vcxproj +++ b/projects/VS2022/examples/shaders_texture_tiling.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_texture_waves.vcxproj b/projects/VS2022/examples/shaders_texture_waves.vcxproj index b7510fcd2..d9cfa3e6d 100644 --- a/projects/VS2022/examples/shaders_texture_waves.vcxproj +++ b/projects/VS2022/examples/shaders_texture_waves.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_vertex_displacement.vcxproj b/projects/VS2022/examples/shaders_vertex_displacement.vcxproj index 44d6deeaa..0a770afa5 100644 --- a/projects/VS2022/examples/shaders_vertex_displacement.vcxproj +++ b/projects/VS2022/examples/shaders_vertex_displacement.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shaders_view_depth.vcxproj b/projects/VS2022/examples/shaders_view_depth.vcxproj new file mode 100644 index 000000000..859628de8 --- /dev/null +++ b/projects/VS2022/examples/shaders_view_depth.vcxproj @@ -0,0 +1,569 @@ + + + + + Debug.DLL + ARM64 + + + Debug.DLL + Win32 + + + Debug.DLL + x64 + + + Debug + ARM64 + + + Debug + Win32 + + + Debug + x64 + + + Release.DLL + ARM64 + + + Release.DLL + Win32 + + + Release.DLL + x64 + + + Release + ARM64 + + + 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raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + + + Console + true + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + Copy Debug DLL to output directory + + + + + + + Level3 + Disabled + WIN32;_DEBUG;_CONSOLE;PLATFORM_DESKTOP;%(PreprocessorDefinitions) + CompileAsC + 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WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + Level3 + + + MaxSpeed + true + true + WIN32;NDEBUG;_CONSOLE;%(PreprocessorDefinitions);PLATFORM_DESKTOP + $(SolutionDir)..\..\src;%(AdditionalIncludeDirectories) + CompileAsC + true + + + Console + true + true + true + raylib.lib;opengl32.lib;kernel32.lib;user32.lib;gdi32.lib;winmm.lib;winspool.lib;comdlg32.lib;advapi32.lib;shell32.lib;ole32.lib;oleaut32.lib;uuid.lib;odbc32.lib;odbccp32.lib;%(AdditionalDependencies) + $(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\ + + + xcopy /y /d "$(SolutionDir)\build\raylib\bin\$(Platform)\$(Configuration)\raylib.dll" "$(SolutionDir)\build\$(ProjectName)\bin\$(Platform)\$(Configuration)" + + + Copy Release DLL to output directory + + + + + + + + + + + {e89d61ac-55de-4482-afd4-df7242ebc859} + + + + + + \ No newline at end of file diff --git a/projects/VS2022/examples/shaders_write_depth.vcxproj b/projects/VS2022/examples/shaders_write_depth.vcxproj index 836ab1a5c..4c19cd4b2 100644 --- a/projects/VS2022/examples/shaders_write_depth.vcxproj +++ b/projects/VS2022/examples/shaders_write_depth.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_basic_shapes.vcxproj b/projects/VS2022/examples/shapes_basic_shapes.vcxproj index ba3805967..6e30a1fca 100644 --- a/projects/VS2022/examples/shapes_basic_shapes.vcxproj +++ b/projects/VS2022/examples/shapes_basic_shapes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_bouncing_ball.vcxproj b/projects/VS2022/examples/shapes_bouncing_ball.vcxproj index 542a62165..162427c53 100644 --- a/projects/VS2022/examples/shapes_bouncing_ball.vcxproj +++ b/projects/VS2022/examples/shapes_bouncing_ball.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_collision_area.vcxproj b/projects/VS2022/examples/shapes_collision_area.vcxproj index 45230ca39..5088493ec 100644 --- a/projects/VS2022/examples/shapes_collision_area.vcxproj +++ b/projects/VS2022/examples/shapes_collision_area.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_colors_palette.vcxproj b/projects/VS2022/examples/shapes_colors_palette.vcxproj index 6f9234444..97b7f262f 100644 --- a/projects/VS2022/examples/shapes_colors_palette.vcxproj +++ b/projects/VS2022/examples/shapes_colors_palette.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_draw_circle_sector.vcxproj b/projects/VS2022/examples/shapes_draw_circle_sector.vcxproj index 6a2278000..7189288fd 100644 --- a/projects/VS2022/examples/shapes_draw_circle_sector.vcxproj +++ b/projects/VS2022/examples/shapes_draw_circle_sector.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_draw_rectangle_rounded.vcxproj b/projects/VS2022/examples/shapes_draw_rectangle_rounded.vcxproj index 9ad7fd3e1..4317cb1cb 100644 --- a/projects/VS2022/examples/shapes_draw_rectangle_rounded.vcxproj +++ b/projects/VS2022/examples/shapes_draw_rectangle_rounded.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_draw_ring.vcxproj b/projects/VS2022/examples/shapes_draw_ring.vcxproj index 526006f3d..a22feb5e4 100644 --- a/projects/VS2022/examples/shapes_draw_ring.vcxproj +++ b/projects/VS2022/examples/shapes_draw_ring.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_easings_ball_anim.vcxproj b/projects/VS2022/examples/shapes_easings_ball_anim.vcxproj index c85bb7493..682d29c96 100644 --- a/projects/VS2022/examples/shapes_easings_ball_anim.vcxproj +++ b/projects/VS2022/examples/shapes_easings_ball_anim.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_easings_box_anim.vcxproj b/projects/VS2022/examples/shapes_easings_box_anim.vcxproj index e9fbdbec3..27b85b82b 100644 --- a/projects/VS2022/examples/shapes_easings_box_anim.vcxproj +++ b/projects/VS2022/examples/shapes_easings_box_anim.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_easings_rectangle_array.vcxproj b/projects/VS2022/examples/shapes_easings_rectangle_array.vcxproj index 71ec5198e..cf14665b8 100644 --- a/projects/VS2022/examples/shapes_easings_rectangle_array.vcxproj +++ b/projects/VS2022/examples/shapes_easings_rectangle_array.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_following_eyes.vcxproj b/projects/VS2022/examples/shapes_following_eyes.vcxproj index c4ff36235..1527bb0ae 100644 --- a/projects/VS2022/examples/shapes_following_eyes.vcxproj +++ b/projects/VS2022/examples/shapes_following_eyes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_lines_bezier.vcxproj b/projects/VS2022/examples/shapes_lines_bezier.vcxproj index b07622ac2..86af34f5a 100644 --- a/projects/VS2022/examples/shapes_lines_bezier.vcxproj +++ b/projects/VS2022/examples/shapes_lines_bezier.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_logo_raylib.vcxproj b/projects/VS2022/examples/shapes_logo_raylib.vcxproj index 86f4d161f..c325c6ea3 100644 --- a/projects/VS2022/examples/shapes_logo_raylib.vcxproj +++ b/projects/VS2022/examples/shapes_logo_raylib.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_logo_raylib_anim.vcxproj b/projects/VS2022/examples/shapes_logo_raylib_anim.vcxproj index a1553a422..9b6841c0b 100644 --- a/projects/VS2022/examples/shapes_logo_raylib_anim.vcxproj +++ b/projects/VS2022/examples/shapes_logo_raylib_anim.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_rectangle_advanced.vcxproj b/projects/VS2022/examples/shapes_rectangle_advanced.vcxproj index 809254c83..8f46e7360 100644 --- a/projects/VS2022/examples/shapes_rectangle_advanced.vcxproj +++ b/projects/VS2022/examples/shapes_rectangle_advanced.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_rectangle_scaling.vcxproj b/projects/VS2022/examples/shapes_rectangle_scaling.vcxproj index fadd78ae8..d632f7eef 100644 --- a/projects/VS2022/examples/shapes_rectangle_scaling.vcxproj +++ b/projects/VS2022/examples/shapes_rectangle_scaling.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_splines_drawing.vcxproj b/projects/VS2022/examples/shapes_splines_drawing.vcxproj index 249b40d22..d4f29e67c 100644 --- a/projects/VS2022/examples/shapes_splines_drawing.vcxproj +++ b/projects/VS2022/examples/shapes_splines_drawing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/shapes_top_down_lights.vcxproj b/projects/VS2022/examples/shapes_top_down_lights.vcxproj index d8b1817f7..1eb11724e 100644 --- a/projects/VS2022/examples/shapes_top_down_lights.vcxproj +++ b/projects/VS2022/examples/shapes_top_down_lights.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_codepoints_loading.vcxproj b/projects/VS2022/examples/text_codepoints_loading.vcxproj index f56507a90..f92d39c61 100644 --- a/projects/VS2022/examples/text_codepoints_loading.vcxproj +++ b/projects/VS2022/examples/text_codepoints_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_draw_3d.vcxproj b/projects/VS2022/examples/text_draw_3d.vcxproj index f21549544..c3dd4a37d 100644 --- a/projects/VS2022/examples/text_draw_3d.vcxproj +++ b/projects/VS2022/examples/text_draw_3d.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_font_filters.vcxproj b/projects/VS2022/examples/text_font_filters.vcxproj index 80dc4a786..962695d9f 100644 --- a/projects/VS2022/examples/text_font_filters.vcxproj +++ b/projects/VS2022/examples/text_font_filters.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_font_loading.vcxproj b/projects/VS2022/examples/text_font_loading.vcxproj index 1cdd7413f..0a7f20d93 100644 --- a/projects/VS2022/examples/text_font_loading.vcxproj +++ b/projects/VS2022/examples/text_font_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_font_sdf.vcxproj b/projects/VS2022/examples/text_font_sdf.vcxproj index 967273ee7..3bc5d8a59 100644 --- a/projects/VS2022/examples/text_font_sdf.vcxproj +++ b/projects/VS2022/examples/text_font_sdf.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_font_spritefont.vcxproj b/projects/VS2022/examples/text_font_spritefont.vcxproj index 4c73d87cd..7ea74daa8 100644 --- a/projects/VS2022/examples/text_font_spritefont.vcxproj +++ b/projects/VS2022/examples/text_font_spritefont.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_format_text.vcxproj b/projects/VS2022/examples/text_format_text.vcxproj index 5ca406ef8..2b7d250e4 100644 --- a/projects/VS2022/examples/text_format_text.vcxproj +++ b/projects/VS2022/examples/text_format_text.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_input_box.vcxproj b/projects/VS2022/examples/text_input_box.vcxproj index 6655dff57..6e1db62f6 100644 --- a/projects/VS2022/examples/text_input_box.vcxproj +++ b/projects/VS2022/examples/text_input_box.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_raylib_fonts.vcxproj b/projects/VS2022/examples/text_raylib_fonts.vcxproj index 29847ed58..4ca414afd 100644 --- a/projects/VS2022/examples/text_raylib_fonts.vcxproj +++ b/projects/VS2022/examples/text_raylib_fonts.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_rectangle_bounds.vcxproj b/projects/VS2022/examples/text_rectangle_bounds.vcxproj index 9c379294d..3175bd09b 100644 --- a/projects/VS2022/examples/text_rectangle_bounds.vcxproj +++ b/projects/VS2022/examples/text_rectangle_bounds.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_unicode.vcxproj b/projects/VS2022/examples/text_unicode.vcxproj index 4dbc45524..26a679de1 100644 --- a/projects/VS2022/examples/text_unicode.vcxproj +++ b/projects/VS2022/examples/text_unicode.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/text_writing_anim.vcxproj b/projects/VS2022/examples/text_writing_anim.vcxproj index 0b685a32b..2920eaf5b 100644 --- a/projects/VS2022/examples/text_writing_anim.vcxproj +++ b/projects/VS2022/examples/text_writing_anim.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_background_scrolling.vcxproj b/projects/VS2022/examples/textures_background_scrolling.vcxproj index 2004a1338..ab8cf2248 100644 --- a/projects/VS2022/examples/textures_background_scrolling.vcxproj +++ b/projects/VS2022/examples/textures_background_scrolling.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_blend_modes.vcxproj b/projects/VS2022/examples/textures_blend_modes.vcxproj index c7aaeaa00..4ada1c3cd 100644 --- a/projects/VS2022/examples/textures_blend_modes.vcxproj +++ b/projects/VS2022/examples/textures_blend_modes.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_bunnymark.vcxproj b/projects/VS2022/examples/textures_bunnymark.vcxproj index d3c1ee256..0c230fd13 100644 --- a/projects/VS2022/examples/textures_bunnymark.vcxproj +++ b/projects/VS2022/examples/textures_bunnymark.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_draw_tiled.vcxproj b/projects/VS2022/examples/textures_draw_tiled.vcxproj index 2566985d7..209a12091 100644 --- a/projects/VS2022/examples/textures_draw_tiled.vcxproj +++ b/projects/VS2022/examples/textures_draw_tiled.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_fog_of_war.vcxproj b/projects/VS2022/examples/textures_fog_of_war.vcxproj index 46377acc1..9ab2544c0 100644 --- a/projects/VS2022/examples/textures_fog_of_war.vcxproj +++ b/projects/VS2022/examples/textures_fog_of_war.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_gif_player.vcxproj b/projects/VS2022/examples/textures_gif_player.vcxproj index 89c7a37f6..96b028a03 100644 --- a/projects/VS2022/examples/textures_gif_player.vcxproj +++ b/projects/VS2022/examples/textures_gif_player.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_image_drawing.vcxproj b/projects/VS2022/examples/textures_image_drawing.vcxproj index 27bba85ef..8aca17c08 100644 --- a/projects/VS2022/examples/textures_image_drawing.vcxproj +++ b/projects/VS2022/examples/textures_image_drawing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_image_generation.vcxproj b/projects/VS2022/examples/textures_image_generation.vcxproj index a780b82de..1f32eaabe 100644 --- a/projects/VS2022/examples/textures_image_generation.vcxproj +++ b/projects/VS2022/examples/textures_image_generation.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_image_loading.vcxproj b/projects/VS2022/examples/textures_image_loading.vcxproj index c772c064e..2d7f98faf 100644 --- a/projects/VS2022/examples/textures_image_loading.vcxproj +++ b/projects/VS2022/examples/textures_image_loading.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_image_processing.vcxproj b/projects/VS2022/examples/textures_image_processing.vcxproj index 604926e8b..f91f8d70c 100644 --- a/projects/VS2022/examples/textures_image_processing.vcxproj +++ b/projects/VS2022/examples/textures_image_processing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_image_text.vcxproj b/projects/VS2022/examples/textures_image_text.vcxproj index 6c20b084c..97f17cb22 100644 --- a/projects/VS2022/examples/textures_image_text.vcxproj +++ b/projects/VS2022/examples/textures_image_text.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_logo_raylib.vcxproj b/projects/VS2022/examples/textures_logo_raylib.vcxproj index d68b61d23..0b97aeb4a 100644 --- a/projects/VS2022/examples/textures_logo_raylib.vcxproj +++ b/projects/VS2022/examples/textures_logo_raylib.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_mouse_painting.vcxproj b/projects/VS2022/examples/textures_mouse_painting.vcxproj index dc9546e62..a164c5cc7 100644 --- a/projects/VS2022/examples/textures_mouse_painting.vcxproj +++ b/projects/VS2022/examples/textures_mouse_painting.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_npatch_drawing.vcxproj b/projects/VS2022/examples/textures_npatch_drawing.vcxproj index e7482f90c..0759bc180 100644 --- a/projects/VS2022/examples/textures_npatch_drawing.vcxproj +++ b/projects/VS2022/examples/textures_npatch_drawing.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_particles_blending.vcxproj b/projects/VS2022/examples/textures_particles_blending.vcxproj index 8b3d96fe9..9d9dfb414 100644 --- a/projects/VS2022/examples/textures_particles_blending.vcxproj +++ b/projects/VS2022/examples/textures_particles_blending.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_polygon.vcxproj b/projects/VS2022/examples/textures_polygon.vcxproj index f655da8c0..3c15bc8f3 100644 --- a/projects/VS2022/examples/textures_polygon.vcxproj +++ b/projects/VS2022/examples/textures_polygon.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_raw_data.vcxproj b/projects/VS2022/examples/textures_raw_data.vcxproj index 705cdd93f..8040d5fe6 100644 --- a/projects/VS2022/examples/textures_raw_data.vcxproj +++ b/projects/VS2022/examples/textures_raw_data.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_sprite_anim.vcxproj b/projects/VS2022/examples/textures_sprite_anim.vcxproj index ef69ed173..ee2259dfa 100644 --- a/projects/VS2022/examples/textures_sprite_anim.vcxproj +++ b/projects/VS2022/examples/textures_sprite_anim.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_sprite_button.vcxproj b/projects/VS2022/examples/textures_sprite_button.vcxproj index 058bad757..ae15d9aec 100644 --- a/projects/VS2022/examples/textures_sprite_button.vcxproj +++ b/projects/VS2022/examples/textures_sprite_button.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_sprite_explosion.vcxproj b/projects/VS2022/examples/textures_sprite_explosion.vcxproj index 066965dc5..0ceb1e3af 100644 --- a/projects/VS2022/examples/textures_sprite_explosion.vcxproj +++ b/projects/VS2022/examples/textures_sprite_explosion.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_srcrec_dstrec.vcxproj b/projects/VS2022/examples/textures_srcrec_dstrec.vcxproj index f3150aea7..d0ddbdf66 100644 --- a/projects/VS2022/examples/textures_srcrec_dstrec.vcxproj +++ b/projects/VS2022/examples/textures_srcrec_dstrec.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_svg_loading.vcxproj b/projects/VS2022/examples/textures_svg_loading.vcxproj index 8b59d9526..fc2375aff 100644 --- a/projects/VS2022/examples/textures_svg_loading.vcxproj +++ b/projects/VS2022/examples/textures_svg_loading.vcxproj @@ -377,7 +377,7 @@ - + diff --git a/projects/VS2022/examples/textures_textured_curve.vcxproj b/projects/VS2022/examples/textures_textured_curve.vcxproj index f8b720335..cd87a0536 100644 --- a/projects/VS2022/examples/textures_textured_curve.vcxproj +++ b/projects/VS2022/examples/textures_textured_curve.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/examples/textures_to_image.vcxproj b/projects/VS2022/examples/textures_to_image.vcxproj index 41e7faf71..07271a554 100644 --- a/projects/VS2022/examples/textures_to_image.vcxproj +++ b/projects/VS2022/examples/textures_to_image.vcxproj @@ -556,7 +556,7 @@ - + diff --git a/projects/VS2022/raylib.sln b/projects/VS2022/raylib.sln index 3859c15b0..4f8c3beea 100644 --- a/projects/VS2022/raylib.sln +++ b/projects/VS2022/raylib.sln @@ -41,6 +41,8 @@ Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "core_custom_logging", "exam EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "core_drop_files", "examples\core_drop_files.vcxproj", "{0199E349-0701-40BC-8A7F-06A54FFA3E7C}" EndProject +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "core_high_dpi", "examples\core_high_dpi.vcxproj", "{BCB71111-8505-4B35-8CEF-EC6115DC9D4D}" +EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "core_input_gamepad", "examples\core_input_gamepad.vcxproj", "{8F19E3DA-8929-4000-87B5-3CA6929636CC}" EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "core_input_gestures", "examples\core_input_gestures.vcxproj", "{51A00565-5787-4911-9CC0-28403AA4909D}" @@ -269,6 +271,8 @@ Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "models_loading_m3d", "examp EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "shaders_write_depth", "examples\shaders_write_depth.vcxproj", "{70B35F59-AFC2-4D8F-8833-5314D2047A81}" EndProject +Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "shaders_view_depth", "examples\shaders_view_depth.vcxproj", "{DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}" +EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "shaders_hybrid_render", "examples\shaders_hybrid_render.vcxproj", "{3755E9F4-CB48-4EC3-B561-3B85964EBDEF}" EndProject Project("{8BC9CEB8-8B4A-11D0-8D11-00A0C91BC942}") = "audio_sound_multi", "examples\audio_sound_multi.vcxproj", "{F81C5819-85B4-4D2E-B6DC-104A7634461B}" @@ -757,6 +761,30 @@ Global {0199E349-0701-40BC-8A7F-06A54FFA3E7C}.Release|x64.Build.0 = Release|x64 {0199E349-0701-40BC-8A7F-06A54FFA3E7C}.Release|x86.ActiveCfg = Release|Win32 {0199E349-0701-40BC-8A7F-06A54FFA3E7C}.Release|x86.Build.0 = Release|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|ARM64.ActiveCfg = Debug.DLL|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|ARM64.Build.0 = Debug.DLL|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|x64.ActiveCfg = Debug.DLL|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|x64.Build.0 = Debug.DLL|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|x86.ActiveCfg = Debug.DLL|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug.DLL|x86.Build.0 = Debug.DLL|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|ARM64.ActiveCfg = Debug|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|ARM64.Build.0 = Debug|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|x64.ActiveCfg = Debug|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|x64.Build.0 = Debug|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|x86.ActiveCfg = Debug|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Debug|x86.Build.0 = Debug|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|ARM64.ActiveCfg = Release.DLL|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|ARM64.Build.0 = Release.DLL|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|x64.ActiveCfg = Release.DLL|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|x64.Build.0 = Release.DLL|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|x86.ActiveCfg = Release.DLL|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release.DLL|x86.Build.0 = Release.DLL|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|ARM64.ActiveCfg = Release|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|ARM64.Build.0 = Release|ARM64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|x64.ActiveCfg = Release|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|x64.Build.0 = Release|x64 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|x86.ActiveCfg = Release|Win32 + {BCB71111-8505-4B35-8CEF-EC6115DC9D4D}.Release|x86.Build.0 = Release|Win32 {8F19E3DA-8929-4000-87B5-3CA6929636CC}.Debug.DLL|ARM64.ActiveCfg = Debug.DLL|ARM64 {8F19E3DA-8929-4000-87B5-3CA6929636CC}.Debug.DLL|ARM64.Build.0 = Debug.DLL|ARM64 {8F19E3DA-8929-4000-87B5-3CA6929636CC}.Debug.DLL|x64.ActiveCfg = Debug.DLL|x64 @@ -3289,6 +3317,30 @@ Global {70B35F59-AFC2-4D8F-8833-5314D2047A81}.Release|x64.Build.0 = Release|x64 {70B35F59-AFC2-4D8F-8833-5314D2047A81}.Release|x86.ActiveCfg = Release|Win32 {70B35F59-AFC2-4D8F-8833-5314D2047A81}.Release|x86.Build.0 = Release|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|ARM64.ActiveCfg = Debug.DLL|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|ARM64.Build.0 = Debug.DLL|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|x64.ActiveCfg = Debug.DLL|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|x64.Build.0 = Debug.DLL|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|x86.ActiveCfg = Debug.DLL|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug.DLL|x86.Build.0 = Debug.DLL|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|ARM64.ActiveCfg = Debug|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|ARM64.Build.0 = Debug|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|x64.ActiveCfg = Debug|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|x64.Build.0 = Debug|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|x86.ActiveCfg = Debug|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Debug|x86.Build.0 = Debug|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|ARM64.ActiveCfg = Release.DLL|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|ARM64.Build.0 = Release.DLL|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|x64.ActiveCfg = Release.DLL|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|x64.Build.0 = Release.DLL|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|x86.ActiveCfg = Release.DLL|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release.DLL|x86.Build.0 = Release.DLL|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|ARM64.ActiveCfg = Release|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|ARM64.Build.0 = Release|ARM64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|x64.ActiveCfg = Release|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|x64.Build.0 = Release|x64 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|x86.ActiveCfg = Release|Win32 + {DFDE29A7-4F54-455D-B20B-D2BF79D3B3F7}.Release|x86.Build.0 = Release|Win32 {3755E9F4-CB48-4EC3-B561-3B85964EBDEF}.Debug.DLL|ARM64.ActiveCfg = Debug.DLL|ARM64 {3755E9F4-CB48-4EC3-B561-3B85964EBDEF}.Debug.DLL|ARM64.Build.0 = Debug.DLL|ARM64 {3755E9F4-CB48-4EC3-B561-3B85964EBDEF}.Debug.DLL|x64.ActiveCfg = Debug.DLL|x64 diff --git a/src/CMakeLists.txt b/src/CMakeLists.txt index a7313a0b4..4ce6cb81a 100644 --- a/src/CMakeLists.txt +++ b/src/CMakeLists.txt @@ -8,7 +8,7 @@ include(JoinPaths) # Sets build type if not set by now if(NOT CMAKE_BUILD_TYPE AND NOT CMAKE_CONFIGURATION_TYPES) - if(RAYLIB_IS_MAIN) + if(PROJECT_IS_TOP_LEVEL) set(default_build_type Debug) else() message(WARNING "Default build type is not set (CMAKE_BUILD_TYPE)") diff --git a/src/Makefile b/src/Makefile index c29eedc6b..833f955a9 100644 --- a/src/Makefile +++ b/src/Makefile @@ -638,7 +638,7 @@ OBJS = rcore.o \ rshapes.o \ rtextures.o \ rtext.o \ - utils.o + utils.o ifeq ($(TARGET_PLATFORM),PLATFORM_DESKTOP_GLFW) ifeq ($(USE_EXTERNAL_GLFW),FALSE) diff --git a/src/config.h b/src/config.h index f7b015305..ef01013b3 100644 --- a/src/config.h +++ b/src/config.h @@ -104,7 +104,7 @@ #define MAX_KEYBOARD_KEYS 512 // Maximum number of keyboard keys supported #define MAX_MOUSE_BUTTONS 8 // Maximum number of mouse buttons supported #define MAX_GAMEPADS 4 // Maximum number of gamepads supported -#define MAX_GAMEPAD_AXIS 8 // Maximum number of axis supported (per gamepad) +#define MAX_GAMEPAD_AXES 8 // Maximum number of axes supported (per gamepad) #define MAX_GAMEPAD_BUTTONS 32 // Maximum number of buttons supported (per gamepad) #define MAX_GAMEPAD_VIBRATION_TIME 2.0f // Maximum vibration time in seconds #define MAX_TOUCH_POINTS 8 // Maximum number of touch points supported @@ -136,8 +136,8 @@ #define RL_MAX_SHADER_LOCATIONS 32 // Maximum number of shader locations supported -#define RL_CULL_DISTANCE_NEAR 0.01 // Default projection matrix near cull distance -#define RL_CULL_DISTANCE_FAR 1000.0 // Default projection matrix far cull distance +#define RL_CULL_DISTANCE_NEAR 0.001 // Default projection matrix near cull distance +#define RL_CULL_DISTANCE_FAR 10000.0 // Default projection matrix far cull distance // Default shader vertex attribute locations #define RL_DEFAULT_SHADER_ATTRIB_LOCATION_POSITION 0 @@ -189,7 +189,7 @@ //------------------------------------------------------------------------------------ // Module: rtextures - Configuration Flags //------------------------------------------------------------------------------------ -// Selecte desired fileformats to be supported for image data loading +// Selected desired fileformats to be supported for image data loading #define SUPPORT_FILEFORMAT_PNG 1 //#define SUPPORT_FILEFORMAT_BMP 1 //#define SUPPORT_FILEFORMAT_TGA 1 diff --git a/src/external/RGFW.h b/src/external/RGFW.h index bfee3857a..8bd9b5709 100644 --- a/src/external/RGFW.h +++ b/src/external/RGFW.h @@ -1,10380 +1,11072 @@ -/* -* -* RGFW 1.6 -* -* Copyright (C) 2022-25 ColleagueRiley -* -* libpng license -* -* This software is provided 'as-is', without any express or implied -* warranty. In no event will the authors be held liable for any damages -* arising from the use of this software. -* -* Permission is granted to anyone to use this software for any purpose, -* including commercial applications, and to alter it and redistribute it -* freely, subject to the following restrictions: -* -* 1. The origin of this software must not be misrepresented; you must not -* claim that you wrote the original software. If you use this software -* in a product, an acknowledgment in the product documentation would be -* appreciated but is not required. -* 2. Altered source versions must be plainly marked as such, and must not be -* misrepresented as being the original software. -* 3. This notice may not be removed or altered from any source distribution. -* -* -*/ - -/* - (MAKE SURE RGFW_IMPLEMENTATION is in exactly one header or you use -D RGFW_IMPLEMENTATION) - #define RGFW_IMPLEMENTATION - makes it so source code is included with header -*/ - -/* - #define RGFW_IMPLEMENTATION - (required) makes it so the source code is included - #define RGFW_DEBUG - (optional) makes it so RGFW prints debug messages anderrors when they're found - #define RGFW_OSMESA - (optional) use OSmesa as backend (instead of system's opengl api + regular opengl) - #define RGFW_BUFFER - (optional) just draw directly to (RGFW) window pixel buffer that is drawn to screen (the buffer is in the RGBA format) - #define RGFW_EGL - (optional) use EGL for loading an OpenGL context (instead of the system's opengl api) - #define RGFW_OPENGL_ES1 - (optional) use EGL to load and use Opengl ES (version 1) for backend rendering (instead of the system's opengl api) - This version doesn't work for desktops (I'm pretty sure) - #define RGFW_OPENGL_ES2 - (optional) use OpenGL ES (version 2) - #define RGFW_OPENGL_ES3 - (optional) use OpenGL ES (version 3) - #define RGFW_DIRECTX - (optional) use directX for the rendering backend (rather than opengl) (windows only, defaults to opengl for unix) - #define RGFW_WEBGPU - (optional) use webGPU for rendering (Web ONLY) - #define RGFW_NO_API - (optional) don't use any rendering API (no opengl, no vulkan, no directX) - - #define RGFW_LINK_EGL (optional) (windows only) if EGL is being used, if EGL functions should be defined dymanically (using GetProcAddress) - #define RGFW_X11 (optional) (unix only) if X11 should be used. This option is turned on by default by unix systems except for MacOS - #define RGFW_WAYLAND (optional) (unix only) if Wayland should be used. (This can be used with X11) - #define RGFW_NO_X11 (optional) (unix only) if X11 should be used (with Wayland). - #define RGFW_NO_LOAD_WGL (optional) (windows only) if WGL should be loaded dynamically during runtime - #define RGFW_NO_X11_CURSOR (optional) (unix only) don't use XCursor - #define RGFW_NO_X11_CURSOR_PRELOAD (optional) (unix only) Use XCursor, but don't link it in code, (you'll have to link it with -lXcursor) - #define RGFW_NO_LOAD_WINMM (optional) (windows only) Use winmm (timeBeginPeriod), but don't link it in code, (you'll have to link it with -lwinmm) - #define RGFW_NO_WINMM (optional) (windows only) don't use winmm - #define RGFW_NO_IOKIT (optional) (macOS) don't use IOKit - #define RGFW_NO_UNIX_CLOCK (optional) (unux) don't link unix clock functions - #define RGFW_NO_DWM (windows only) - Do not use or linj dwmapi - #define RGFW_USE_XDL (optional) (X11) use X11 in RGFW (must include XDL.h along with RGFW) (XLib Dynamic Loader) - #define RGFW_COCOA_GRAPHICS_SWITCHING - (optional) (cocoa) use automatic graphics switching (allow the system to choose to use GPU or iGPU) - #define RGFW_COCOA_FRAME_NAME (optional) (cocoa) set frame name (cocoa) - - #define RGFW_NO_DPI - Do not include calculate DPI (no XRM nor libShcore included) - - #define RGFW_ALLOC x - choose what default function to use to allocate, by default the standard malloc is used - #define RGFW_FREE x - choose what default function to use to allocated memory, by default the standard free is used - #define RGFW_USERPTR x - choose the default userptr sent to the malloc call, (NULL by default) - - #define RGFW_EXPORT - Use when building RGFW - #define RGFW_IMPORT - Use when linking with RGFW (not as a single-header) - - #define RGFW_USE_INT - force the use c-types rather than stdint.h (for systems that might not have stdint.h (msvc)) - #define RGFW_bool x - choose what type to use for bool, by default u32 is used -*/ - -/* -Example to get you started : - -linux : gcc main.c -lX11 -lXrandr -lGL -windows : gcc main.c -lopengl32 -lgdi32 -macos : gcc main.c -framework Cocoa -framework CoreVideo -framework OpenGL -framework IOKit - -#define RGFW_IMPLEMENTATION -#include "RGFW.h" - -u8 icon[4 * 3 * 3] = {0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF}; - -int main() { - RGFW_window* win = RGFW_createWindow("name", RGFW_RECT(100, 100, 500, 500), (u64)0); - - RGFW_window_setIcon(win, icon, RGFW_AREA(3, 3), 4); - - for (;;) { - RGFW_window_checkEvent(win); // NOTE: checking events outside of a while loop may cause input lag - if (win->event.type == RGFW_quit || RGFW_isPressed(win, RGFW_escape)) - break; - - RGFW_window_swapBuffers(win); - - glClearColor(1, 1, 1, 1); - glClear(GL_COLOR_BUFFER_BIT); - } - - RGFW_window_close(win); -} - - compiling : - - if you wish to compile the library all you have to do is create a new file with this in it - - rgfw.c - #define RGFW_IMPLEMENTATION - #include "RGFW.h" - - You may also want to add - `#define RGFW_EXPORT` when compiling and - `#define RGFW_IMPORT`when linking RGFW on it's own: - this reduces inline functions and prevents bloat in the object file - - then you can use gcc (or whatever compile you wish to use) to compile the library into object file - - ex. gcc -c RGFW.c -fPIC - - after you compile the library into an object file, you can also turn the object file into an static or shared library - - (commands ar and gcc can be replaced with whatever equivalent your system uses) - - static : ar rcs RGFW.a RGFW.o - shared : - windows: - gcc -shared RGFW.o -lopengl32 -lgdi32 -o RGFW.dll - linux: - gcc -shared RGFW.o -lX11 -lGL -lXrandr -o RGFW.so - macos: - gcc -shared RGFW.o -framework CoreVideo -framework Cocoa -framework OpenGL -framework IOKit -*/ - - - -/* - Credits : - EimaMei/Sacode : Much of the code for creating windows using winapi, Wrote the Silicon library, helped with MacOS Support, siliapp.h -> referencing - - stb - This project is heavily inspired by the stb single header files - - GLFW: - certain parts of winapi and X11 are very poorly documented, - GLFW's source code was referenced and used throughout the project. - - contributors : (feel free to put yourself here if you contribute) - krisvers -> code review - EimaMei (SaCode) -> code review - Code-Nycticebus -> bug fixes - Rob Rohan -> X11 bugs and missing features, MacOS/Cocoa fixing memory issues/bugs - AICDG (@THISISAGOODNAME) -> vulkan support (example) - @Easymode -> support, testing/debugging, bug fixes and reviews - Joshua Rowe (omnisci3nce) - bug fix, review (macOS) - @lesleyrs -> bug fix, review (OpenGL) - Nick Porcino (meshula) - testing, organization, review (MacOS, examples) - @DarekParodia -> code review (X11) (C++) -*/ - -#if _MSC_VER - #pragma comment(lib, "gdi32") - #pragma comment(lib, "shell32") - #pragma comment(lib, "opengl32") - #pragma comment(lib, "winmm") - #pragma comment(lib, "user32") -#endif - -#ifndef RGFW_USERPTR - #define RGFW_USERPTR NULL -#endif - -#ifndef RGFW_UNUSED - #define RGFW_UNUSED(x) (void)(x) -#endif - -#ifndef RGFW_ROUND - #define RGFW_ROUND(x) (int)((x) >= 0 ? (x) + 0.5f : (x) - 0.5f) -#endif - -#ifndef RGFW_ALLOC - #include - - #ifndef __USE_POSIX199309 - #define __USE_POSIX199309 - #endif - - #define RGFW_ALLOC malloc - #define RGFW_FREE free -#endif - -#ifndef RGFW_ASSERT - #include - #define RGFW_ASSERT assert -#endif - -#ifndef RGFW_MEMCPY - #include - - #define RGFW_MEMCPY(dist, src, len) memcpy(dist, src, len) - #define RGFW_STRNCMP(s1, s2, max) strncmp(s1, s2, max) - //required for X11 - #define RGFW_STRTOL(str, endptr, base) strtol(str, endptr, base) -#else -#undef _INC_STRING -#endif - -#if !_MSC_VER - #ifndef inline - #ifndef __APPLE__ - #define inline __inline - #endif - #endif -#endif - -#ifdef RGFW_WIN95 /* for windows 95 testing (not that it really works) */ - #define RGFW_NO_MONITOR - #define RGFW_NO_PASSTHROUGH -#endif - -#if defined(RGFW_EXPORT) || defined(RGFW_IMPORT) - #if defined(_WIN32) - #if defined(__TINYC__) && (defined(RGFW_EXPORT) || defined(RGFW_IMPORT)) - #define __declspec(x) __attribute__((x)) - #endif - - #if defined(RGFW_EXPORT) - #define RGFWDEF __declspec(dllexport) - #else - #define RGFWDEF __declspec(dllimport) - #endif - #else - #if defined(RGFW_EXPORT) - #define RGFWDEF __attribute__((visibility("default"))) - #endif - #endif -#endif - -#ifndef RGFWDEF - #define RGFWDEF inline -#endif - -#ifndef RGFW_ENUM - #define RGFW_ENUM(type, name) type name; enum -#endif - - -#if defined(__cplusplus) && !defined(__EMSCRIPTEN__) - #ifdef __clang__ - #pragma clang diagnostic push - #pragma clang diagnostic ignored "-Wnullability-completeness" - #endif - extern "C" { -#endif - - /* makes sure the header file part is only defined once by default */ -#ifndef RGFW_HEADER - -#define RGFW_HEADER - -#include -#if !defined(u8) - #ifdef RGFW_USE_INT /* optional for any system that might not have stdint.h */ - typedef unsigned char u8; - typedef signed char i8; - typedef unsigned short u16; - typedef signed short i16; - typedef unsigned long int u32; - typedef signed long int i32; - typedef unsigned long long u64; - typedef signed long long i64; - #else /* use stdint standard types instead of c ""standard"" types */ - #include - - typedef uint8_t u8; - typedef int8_t i8; - typedef uint16_t u16; - typedef int16_t i16; - typedef uint32_t u32; - typedef int32_t i32; - typedef uint64_t u64; - typedef int64_t i64; - #endif - #define u8 u8 -#endif - -#if !defined(RGFW_bool) /* RGFW bool type */ - typedef u32 RGFW_bool; - #define RGFW_bool u8 -#endif - -#define RGFW_BOOL(x) ((x) ? RGFW_TRUE : RGFW_FALSE) /* force an value to be 0 or 1 */ -#define RGFW_TRUE 1 -#define RGFW_FALSE 0 - -/* thse OS macros looks better & are standardized */ -/* plus it helps with cross-compiling */ - -#ifdef __EMSCRIPTEN__ - #define RGFW_WASM - - #if !defined(RGFW_NO_API) && !defined(RGFW_WEBGPU) - #define RGFW_OPENGL - #endif - - #ifdef RGFW_EGL - #undef RGFW_EGL - #endif - - #include - #include - - #ifdef RGFW_WEBGPU - #include - #endif -#endif - -#if defined(RGFW_X11) && defined(__APPLE__) && !defined(RGFW_CUSTOM_BACKEND) - #define RGFW_MACOS_X11 - #define RGFW_UNIX - #undef __APPLE__ -#endif - -#if defined(_WIN32) && !defined(RGFW_UNIX) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) /* (if you're using X11 on windows some how) */ - #define RGFW_WINDOWS - /* make sure the correct architecture is defined */ - #if defined(_WIN64) - #define _AMD64_ - #undef _X86_ - #else - #undef _AMD64_ - #ifndef _X86_ - #define _X86_ - #endif - #endif - - #ifndef RGFW_NO_XINPUT - #ifdef __MINGW32__ /* try to find the right header */ - #include - #else - #include - #endif - #endif -#elif defined(RGFW_WAYLAND) - #define RGFW_DEBUG // wayland will be in debug mode by default for now - #if !defined(RGFW_NO_API) && (!defined(RGFW_BUFFER) || defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) - #define RGFW_EGL - #define RGFW_OPENGL - #define RGFW_UNIX - #include - #endif - - #include -#endif -#if !defined(RGFW_NO_X11) && !defined(RGFW_NO_X11) && (defined(__unix__) || defined(RGFW_MACOS_X11) || defined(RGFW_X11)) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) - #define RGFW_MACOS_X11 - #define RGFW_X11 - #define RGFW_UNIX - #include -#elif defined(__APPLE__) && !defined(RGFW_MACOS_X11) && !defined(RGFW_X11) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) - #define RGFW_MACOS -#endif - -#if (defined(RGFW_OPENGL_ES1) || defined(RGFW_OPENGL_ES2) || defined(RGFW_OPENGL_ES3)) && !defined(RGFW_EGL) - #define RGFW_EGL -#endif - -#if !defined(RGFW_OSMESA) && !defined(RGFW_EGL) && !defined(RGFW_OPENGL) && !defined(RGFW_DIRECTX) && !defined(RGFW_BUFFER) && !defined(RGFW_NO_API) - #define RGFW_OPENGL -#endif - -#ifdef RGFW_EGL - #include -#elif defined(RGFW_OSMESA) - #ifdef RGFW_WINDOWS - #define OEMRESOURCE - #include - #define GLAPIENTRY APIENTRY - #define GLAPI WINGDIAPI - #endif - - #ifndef __APPLE__ - #include - #else - #include - #endif -#endif - -#if defined(RGFW_OPENGL) && defined(RGFW_X11) - #ifndef GLX_MESA_swap_control - #define GLX_MESA_swap_control - #endif - #include /* GLX defs, xlib.h, gl.h */ -#endif - -#define RGFW_COCOA_FRAME_NAME NULL - -/*! (unix) Toggle use of wayland, this will be on by default if you use `RGFW_WAYLAND` (if you don't use RGFW_WAYLAND, you dont' expose WAYLAND functions) - this is mostly used to allow you to force the use of XWayland -*/ -RGFWDEF void RGFW_useWayland(RGFW_bool wayland); -/* - regular RGFW stuff -*/ - -#define RGFW_key u8 - -typedef RGFW_ENUM(u8, RGFW_eventType) { - /*! event codes */ - RGFW_eventNone = 0, /*!< no event has been sent */ - RGFW_keyPressed, /* a key has been pressed */ - RGFW_keyReleased, /*!< a key has been released*/ - /*! key event note - the code of the key pressed is stored in - RGFW_event.key - !!Keycodes defined at the bottom of the RGFW_HEADER part of this file!! - - while a string version is stored in - RGFW_event.KeyString - - RGFW_event.keyMod holds the current keyMod - this means if CapsLock, NumLock are active or not - */ - RGFW_mouseButtonPressed, /*!< a mouse button has been pressed (left,middle,right)*/ - RGFW_mouseButtonReleased, /*!< a mouse button has been released (left,middle,right)*/ - RGFW_mousePosChanged, /*!< the position of the mouse has been changed*/ - /*! mouse event note - the x and y of the mouse can be found in the vector, RGFW_event.point - - RGFW_event.button holds which mouse button was pressed - */ - RGFW_gamepadConnected, /*!< a gamepad was connected */ - RGFW_gamepadDisconnected, /*!< a gamepad was disconnected */ - RGFW_gamepadButtonPressed, /*!< a gamepad button was pressed */ - RGFW_gamepadButtonReleased, /*!< a gamepad button was released */ - RGFW_gamepadAxisMove, /*!< an axis of a gamepad was moved*/ - /*! gamepad event note - RGFW_event.gamepad holds which gamepad was altered, if any - RGFW_event.button holds which gamepad button was pressed - - RGFW_event.axis holds the data of all the axis - RGFW_event.axisesCount says how many axis there are - */ - RGFW_windowMoved, /*!< the window was moved (b the user) */ - RGFW_windowResized, /*!< the window was resized (by the user), [on WASM this means the browser was resized] */ - RGFW_focusIn, /*!< window is in focus now */ - RGFW_focusOut, /*!< window is out of focus now */ - RGFW_mouseEnter, /* mouse entered the window */ - RGFW_mouseLeave, /* mouse left the window */ - RGFW_windowRefresh, /* The window content needs to be refreshed */ - - /* attribs change event note - The event data is sent straight to the window structure - with win->r.x, win->r.y, win->r.w and win->r.h - */ - RGFW_quit, /*!< the user clicked the quit button*/ - RGFW_DND, /*!< a file has been dropped into the window*/ - RGFW_DNDInit /*!< the start of a dnd event, when the place where the file drop is known */ - /* dnd data note - The x and y coords of the drop are stored in the vector RGFW_event.point - - RGFW_event.droppedFilesCount holds how many files were dropped - - This is also the size of the array which stores all the dropped file string, - RGFW_event.droppedFiles - */ -}; - -/*! mouse button codes (RGFW_event.button) */ -typedef RGFW_ENUM(u8, RGFW_mouseButton) { - RGFW_mouseLeft = 0, /*!< left mouse button is pressed*/ - RGFW_mouseMiddle, /* !< mouse-wheel-button is pressed*/ - RGFW_mouseRight, /*!< right mouse button is pressed*/ - RGFW_mouseScrollUp, /*!< mouse wheel is scrolling up*/ - RGFW_mouseScrollDown, /*!< mouse wheel is scrolling down*/ - RGFW_mouseMisc1, RGFW_mouseMisc2, RGFW_mouseMisc3, RGFW_mouseMisc4, RGFW_mouseMisc5, - RGFW_mouseFinal -}; - -#ifndef RGFW_MAX_PATH -#define RGFW_MAX_PATH 260 /* max length of a path (for dnd) */ -#endif -#ifndef RGFW_MAX_DROPS -#define RGFW_MAX_DROPS 260 /* max items you can drop at once */ -#endif - -#define RGFW_BIT(x) (1L << x) - -/* for RGFW_event.lockstate */ -typedef RGFW_ENUM(u8, RGFW_keymod) { - RGFW_modCapsLock = RGFW_BIT(0), - RGFW_modNumLock = RGFW_BIT(1), - RGFW_modControl = RGFW_BIT(2), - RGFW_modAlt = RGFW_BIT(3), - RGFW_modShift = RGFW_BIT(4), - RGFW_modSuper = RGFW_BIT(5), - RGFW_modScrollLock = RGFW_BIT(6) -}; - -/*! gamepad button codes (based on xbox/playstation), you may need to change these values per controller */ -typedef RGFW_ENUM(u8, RGFW_gamepadCodes) { - RGFW_gamepadNone = 0, /*!< or PS X button */ - RGFW_gamepadA, /*!< or PS X button */ - RGFW_gamepadB, /*!< or PS circle button */ - RGFW_gamepadY, /*!< or PS triangle button */ - RGFW_gamepadX, /*!< or PS square button */ - RGFW_gamepadStart, /*!< start button */ - RGFW_gamepadSelect, /*!< select button */ - RGFW_gamepadHome, /*!< home button */ - RGFW_gamepadUp, /*!< dpad up */ - RGFW_gamepadDown, /*!< dpad down*/ - RGFW_gamepadLeft, /*!< dpad left */ - RGFW_gamepadRight, /*!< dpad right */ - RGFW_gamepadL1, /*!< left bump */ - RGFW_gamepadL2, /*!< left trigger*/ - RGFW_gamepadR1, /*!< right bumper */ - RGFW_gamepadR2, /*!< right trigger */ - RGFW_gamepadL3, /* left thumb stick */ - RGFW_gamepadR3, /*!< right thumb stick */ - RGFW_gamepadFinal -}; - -/*! basic vector type, if there's not already a point/vector type of choice */ -#ifndef RGFW_point - typedef struct { i32 x, y; } RGFW_point; -#endif - -/*! basic rect type, if there's not already a rect type of choice */ -#ifndef RGFW_rect - typedef struct { i32 x, y, w, h; } RGFW_rect; -#endif - -/*! basic area type, if there's not already a area type of choice */ -#ifndef RGFW_area - typedef struct { u32 w, h; } RGFW_area; -#endif - -#define RGFW_POINT(x, y) (RGFW_point){(i32)(x), (i32)(y)} -#define RGFW_RECT(x, y, w, h) (RGFW_rect){(i32)(x), (i32)(y), (i32)(w), (i32)(h)} -#define RGFW_AREA(w, h) (RGFW_area){(u32)(w), (u32)(h)} - -#ifndef RGFW_NO_MONITOR - /* monitor mode data | can be changed by the user (with functions)*/ - typedef struct RGFW_monitorMode { - RGFW_area area; /*!< monitor workarea size */ - u32 refreshRate; /*!< monitor refresh rate */ - u8 red, blue, green; - } RGFW_monitorMode; - - /*! structure for monitor data */ - typedef struct RGFW_monitor { - i32 x, y; /*!< x - y of the monitor workarea */ - char name[128]; /*!< monitor name */ - float scaleX, scaleY; /*!< monitor content scale*/ - float pixelRatio; /*!< pixel ratio for monitor (1.0 for regular, 2.0 for hiDPI) */ - float physW, physH; /*!< monitor physical size in inches*/ - - RGFW_monitorMode mode; - } RGFW_monitor; - - /*! get an array of all the monitors (max 6) */ - RGFWDEF RGFW_monitor* RGFW_getMonitors(void); - /*! get the primary monitor */ - RGFWDEF RGFW_monitor RGFW_getPrimaryMonitor(void); - - typedef RGFW_ENUM(u8, RGFW_modeRequest) { - RGFW_monitorScale = RGFW_BIT(0), /*!< scale the monitor size */ - RGFW_monitorRefresh = RGFW_BIT(1), /*!< change the refresh rate */ - RGFW_monitorRGB = RGFW_BIT(2), /*!< change the monitor RGB bits size */ - RGFW_monitorAll = RGFW_monitorScale | RGFW_monitorRefresh | RGFW_monitorRGB - }; - - /*! request a specific mode */ - RGFWDEF RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request); - RGFWDEF RGFW_bool RGFW_monitorModeCompare(RGFW_monitorMode mon, RGFW_monitorMode mon2, RGFW_modeRequest request); -#endif - -/* RGFW mouse loading */ -typedef void RGFW_mouse; - -/*!< loads mouse from bitmap (similar to RGFW_window_setIcon), icon NOT resized by default*/ -RGFWDEF RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels); -/*!< frees RGFW_mouse data */ -RGFWDEF void RGFW_freeMouse(RGFW_mouse* mouse); -/* */ - -/* NOTE: some parts of the data can represent different things based on the event (read comments in RGFW_event struct) */ -/*! Event structure for checking/getting events */ -typedef struct RGFW_event { - /*! drag and drop data */ - /* 260 max paths with a max length of 260 */ - char droppedFiles[RGFW_MAX_DROPS][RGFW_MAX_PATH]; /*!< dropped files*/ - size_t droppedFilesCount; /*!< house many files were dropped */ - - RGFW_eventType type; /*!< which event has been sent?*/ - RGFW_point point; /*!< mouse x, y of event (or drop point) */ - RGFW_point vector; /*!< raw mouse movement */ - - RGFW_key key; /*!< the physical key of the event, refers to where key is physically !!Keycodes defined at the bottom of the RGFW_HEADER part of this file!! */ - u8 keyChar; /*!< mapped key char of the event*/ - - RGFW_bool repeat; /*!< key press event repeated (the key is being held) */ - RGFW_bool inFocus; /*!< if the window is in focus or not (this is always true for MacOS windows due to the api being weird) */ - - RGFW_keymod keyMod; - - u8 button; /* !< which mouse (or gamepad) button was pressed */ - double scroll; /*!< the raw mouse scroll value */ - - u16 gamepad; /*! which gamepad this event applies to (if applicable to any) */ - u8 axisesCount; /*!< number of axises */ - - u8 whichAxis; /* which axis was effected */ - RGFW_point axis[4]; /*!< x, y of axises (-100 to 100) */ - - u64 frameTime, frameTime2; /*!< this is used for counting the fps */ -} RGFW_event; - -/*! source data for the window (used by the APIs) */ -#ifdef RGFW_WINDOWS -typedef struct RGFW_window_src { - HWND window; /*!< source window */ - HDC hdc; /*!< source HDC */ - u32 hOffset; /*!< height offset for window */ - HICON hIconSmall, hIconBig; /*!< source window icons */ - #if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) - HGLRC ctx; /*!< source graphics context */ - #elif defined(RGFW_OSMESA) - OSMesaContext ctx; - #elif defined(RGFW_EGL) - EGLSurface EGL_surface; - EGLDisplay EGL_display; - EGLContext EGL_context; - #endif - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - HDC hdcMem; - HBITMAP bitmap; - u8* bitmapBits; - #endif - RGFW_area maxSize, minSize, aspectRatio; /*!< for setting max/min resize (RGFW_WINDOWS) */ -} RGFW_window_src; -#elif defined(RGFW_UNIX) -typedef struct RGFW_window_src { -#if defined(RGFW_X11) - Display* display; /*!< source display */ - Window window; /*!< source window */ - #if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) - GLXContext ctx; /*!< source graphics context */ - #elif defined(RGFW_OSMESA) - OSMesaContext ctx; - #elif defined(RGFW_EGL) - EGLSurface EGL_surface; - EGLDisplay EGL_display; - EGLContext EGL_context; - #endif - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - XImage* bitmap; - #endif - GC gc; - char* clipboard; /* for writing to the clipboard selection */ - size_t clipboard_len; -#endif /* RGFW_X11 */ -#if defined(RGFW_WAYLAND) - struct wl_display* wl_display; - struct wl_surface* surface; - struct wl_buffer* wl_buffer; - struct wl_keyboard* keyboard; - - struct wl_compositor* compositor; - struct xdg_surface* xdg_surface; - struct xdg_toplevel* xdg_toplevel; - struct zxdg_toplevel_decoration_v1* decoration; - struct xdg_wm_base* xdg_wm_base; - struct wl_shm* shm; - struct wl_seat *seat; - u8* buffer; - - RGFW_event events[20]; - i32 eventLen; - size_t eventIndex; - #if defined(RGFW_EGL) - struct wl_egl_window* eglWindow; - #endif - #if defined(RGFW_EGL) && !defined(RGFW_X11) - EGLSurface EGL_surface; - EGLDisplay EGL_display; - EGLContext EGL_context; - #elif defined(RGFW_OSMESA) && !defined(RGFW_X11) - OSMesaContext ctx; - #endif -#endif /* RGFW_WAYLAND */ -} RGFW_window_src; -#endif /* RGFW_UNIX */ -#if defined(RGFW_MACOS) -typedef struct RGFW_window_src { - void* window; -#if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) - void* ctx; /*!< source graphics context */ -#elif defined(RGFW_OSMESA) - OSMesaContext ctx; -#elif defined(RGFW_EGL) - EGLSurface EGL_surface; - EGLDisplay EGL_display; - EGLContext EGL_context; -#endif - - void* view; /*apple viewpoint thingy*/ - -#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - void* bitmap; /*!< API's bitmap for storing or managing */ - void* image; -#endif -} RGFW_window_src; -#elif defined(RGFW_WASM) -typedef struct RGFW_window_src { - #ifdef RGFW_WEBGPU - WGPUInstance ctx; - WGPUDevice device; - WGPUQueue queue; - #else - EMSCRIPTEN_WEBGL_CONTEXT_HANDLE ctx; - #endif -} RGFW_window_src; -#endif - -/*! Optional arguments for making a windows */ -typedef RGFW_ENUM(u32, RGFW_windowFlags) { - RGFW_windowNoInitAPI = RGFW_BIT(0), /* DO not init an API (mostly for bindings, you should use `#define RGFW_NO_API` in C */ - RGFW_windowNoBorder = RGFW_BIT(1), /*!< the window doesn't have border */ - RGFW_windowNoResize = RGFW_BIT(2), /*!< the window cannot be resized by the user */ - RGFW_windowAllowDND = RGFW_BIT(3), /*!< the window supports drag and drop*/ - RGFW_windowHideMouse = RGFW_BIT(4), /*! the window should hide the mouse or not (can be toggled later on) using `RGFW_window_mouseShow*/ - RGFW_windowFullscreen = RGFW_BIT(5), /* the window is fullscreen by default or not */ - RGFW_windowTransparent = RGFW_BIT(6), /*!< the window is transparent (only properly works on X11 and MacOS, although it's although for windows) */ - RGFW_windowCenter = RGFW_BIT(7), /*! center the window on the screen */ - RGFW_windowOpenglSoftware = RGFW_BIT(8), /*! use OpenGL software rendering */ - RGFW_windowCocoaCHDirToRes = RGFW_BIT(9), /*! (cocoa only), change directory to resource folder */ - RGFW_windowScaleToMonitor = RGFW_BIT(10), /*! scale the window to the screen */ - RGFW_windowHide = RGFW_BIT(11), /*! the window is hidden */ - RGFW_windowMaximize = RGFW_BIT(12), - RGFW_windowCenterCursor = RGFW_BIT(13), - RGFW_windowFloating = RGFW_BIT(14), /*!< creat a floating window */ - RGFW_windowedFullscreen = RGFW_windowNoBorder | RGFW_windowMaximize, -}; - -typedef struct RGFW_window { - RGFW_window_src src; /*!< src window data */ - -#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - u8* buffer; /*!< buffer for non-GPU systems (OSMesa, basic software rendering) */ - /* when rendering using RGFW_BUFFER, the buffer is in the RGBA format */ - RGFW_area bufferSize; -#endif - void* userPtr; /* ptr for usr data */ - - RGFW_event event; /*!< current event */ - - RGFW_rect r; /*!< the x, y, w and h of the struct */ - - RGFW_point _lastMousePoint; /*!< last cusor point (for raw mouse data) */ - - u32 _flags; /*!< windows flags (for RGFW to check) */ - RGFW_rect _oldRect; /*!< rect before fullscreen */ -} RGFW_window; /*!< Window structure for managing the window */ - -#if defined(RGFW_X11) || defined(RGFW_MACOS) - typedef u64 RGFW_thread; /*!< thread type unix */ -#else - typedef void* RGFW_thread; /*!< thread type for window */ -#endif - -/*! scale monitor to window size */ -RGFWDEF RGFW_bool RGFW_monitor_scaleToWindow(RGFW_monitor mon, RGFW_window* win); - -/** * @defgroup Window_management -* @{ */ - - -/*! - * the class name for X11 and WinAPI. apps with the same class will be grouped by the WM - * by default the class name will == the root window's name -*/ -RGFWDEF void RGFW_setClassName(const char* name); -RGFWDEF void RGFW_setXInstName(const char* name); /*!< X11 instance name (window name will by used by default) */ - -/*! (cocoa only), change directory to resource folder */ -RGFWDEF void RGFW_moveToMacOSResourceDir(void); - -/* NOTE: (windows)If the executable has an icon resource named RGFW_ICON, it will be set as the initial icon for the window.*/ - -RGFWDEF RGFW_window* RGFW_createWindow( - const char* name, /* name of the window */ - RGFW_rect rect, /* rect of window */ - RGFW_windowFlags flags /* extra arguments ((u32)0 means no flags used)*/ -); /*!< function to create a window and struct */ - -RGFWDEF RGFW_window* RGFW_createWindowPtr( - const char* name, /* name of the window */ - RGFW_rect rect, /* rect of window */ - RGFW_windowFlags flags, /* extra arguments (NULL / (u32)0 means no flags used)*/ - RGFW_window* win /* ptr to the window struct you want to use */ -); /*!< function to create a window (without allocating a window struct) */ - -RGFWDEF void RGFW_window_initBuffer(RGFW_window* win); -RGFWDEF void RGFW_window_initBufferSize(RGFW_window* win, RGFW_area area); -RGFWDEF void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area); - -/*! set the window flags (will undo flags if they don't match the old ones)*/ -RGFWDEF void RGFW_window_setFlags(RGFW_window* win, RGFW_windowFlags); - -/*! get the size of the screen to an area struct */ -RGFWDEF RGFW_area RGFW_getScreenSize(void); - - -/*! - this function checks an *individual* event (and updates window structure attributes) - this means, using this function without a while loop may cause event lag - - ex. - - while (RGFW_window_checkEvent(win) != NULL) [this keeps checking events until it reaches the last one] - - this function is optional if you choose to use event callbacks, - although you still need some way to tell RGFW to process events eg. `RGFW_window_checkEvents` -*/ - -RGFWDEF RGFW_event* RGFW_window_checkEvent(RGFW_window* win); /*!< check current event (returns a pointer to win->event or NULL if there is no event)*/ - -/*! - for RGFW_window_eventWait and RGFW_window_checkEvents - waitMS -> Allows th e function to keep checking for events even after `RGFW_window_checkEvent == NULL` - if waitMS == 0, the loop will not wait for events - if waitMS == a positive integer, the loop will wait that many miliseconds after there are no more events until it returns - if waitMS == a the max size of a 32-bit int (or -1), the loop will not return until it gets another event -*/ -typedef RGFW_ENUM(u32, RGFW_eventWait) { - RGFW_eventNoWait = 0, - RGFW_eventWaitNext = 0xFFFFFFFF -}; - -/*! sleep until RGFW gets an event or the timer ends (defined by OS) */ -RGFWDEF void RGFW_window_eventWait(RGFW_window* win, u32 waitMS); - -/*! - check all the events until there are none left, - this should only be used if you're using callbacks only -*/ -RGFWDEF void RGFW_window_checkEvents(RGFW_window* win, u32 waitMS); - -/*! - Tell RGFW_window_eventWait to stop waiting, to be ran from another thread -*/ -RGFWDEF void RGFW_stopCheckEvents(void); - -/*! window managment functions*/ -RGFWDEF void RGFW_window_close(RGFW_window* win); /*!< close the window and free leftover data */ - -/*! moves window to a given point */ -RGFWDEF void RGFW_window_move(RGFW_window* win, - RGFW_point v/*!< new pos*/ -); - -#ifndef RGFW_NO_MONITOR - /*! move to a specific monitor */ - RGFWDEF void RGFW_window_moveToMonitor(RGFW_window* win, RGFW_monitor m /* monitor */); -#endif - -/*! resize window to a current size/area */ -RGFWDEF void RGFW_window_resize(RGFW_window* win, /*!< source window */ - RGFW_area a/*!< new size*/ -); - -/*! set window aspect ratio */ -RGFWDEF void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a); -/*! set the minimum size a user can shrink a window to a given size/area */ -RGFWDEF void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a); -/*! set the minimum size a user can extend a window to a given size/area */ -RGFWDEF void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a); - -RGFWDEF void RGFW_window_focus(RGFW_window* win); /*!< sets the focus to this window */ -RGFWDEF void RGFW_window_raise(RGFW_window* win); /*!< raise the window (to the top) */ -RGFWDEF void RGFW_window_maximize(RGFW_window* win); /*!< maximize the window size */ -RGFWDEF void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen); /*!< fullscreen the window size */ -RGFWDEF void RGFW_window_center(RGFW_window* win); /*!< center the window */ -RGFWDEF void RGFW_window_minimize(RGFW_window* win); /*!< minimize the window (in taskbar (per OS))*/ -RGFWDEF void RGFW_window_restore(RGFW_window* win); /*!< restore the window from minimized (per OS)*/ -RGFWDEF void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating); /*!< make the window a floating window */ -RGFWDEF void RGFW_window_setOpacity(RGFW_window* win, u8 opacity); /*!< sets the opacity of the whole window */ - -/*! if the window should have a border or not (borderless) based on bool value of `border` */ -RGFWDEF void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border); -RGFWDEF RGFW_bool RGFW_window_borderless(RGFW_window* win); - -/*! turn on / off dnd (RGFW_windowAllowDND stil must be passed to the window)*/ -RGFWDEF void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow); -/*! check if DND is allowed */ -RGFWDEF RGFW_bool RGFW_window_allowsDND(RGFW_window* win); - - -#ifndef RGFW_NO_PASSTHROUGH - /*!! turn on / off mouse passthrough */ - RGFWDEF void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough); -#endif - -/*! rename window to a given string */ -RGFWDEF void RGFW_window_setName(RGFW_window* win, - const char* name -); - -RGFWDEF RGFW_bool RGFW_window_setIcon(RGFW_window* win, /*!< source window */ - u8* icon /*!< icon bitmap */, - RGFW_area a /*!< width and height of the bitmap*/, - i32 channels /*!< how many channels the bitmap has (rgb : 3, rgba : 4) */ -); /*!< image MAY be resized by default, set both the taskbar and window icon */ - -typedef RGFW_ENUM(u8, RGFW_icon) { - RGFW_iconTaskbar = RGFW_BIT(0), - RGFW_iconWindow = RGFW_BIT(1), - RGFW_iconBoth = RGFW_iconTaskbar | RGFW_iconWindow -}; -RGFWDEF RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type); - -/*!< sets mouse to RGFW_mouse icon (loaded from a bitmap struct) */ -RGFWDEF void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse); - -/*!< sets the mouse to a standard API cursor (based on RGFW_MOUSE, as seen at the end of the RGFW_HEADER part of this file) */ -RGFWDEF RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse); - -RGFWDEF RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win); /*!< sets the mouse to the default mouse icon */ -/* - Locks cursor at the center of the window - win->event.point become raw mouse movement data - - this is useful for a 3D camera -*/ -RGFWDEF void RGFW_window_mouseHold(RGFW_window* win, RGFW_area area); -/*! stop holding the mouse and let it move freely */ -RGFWDEF void RGFW_window_mouseUnhold(RGFW_window* win); - -/*! hide the window */ -RGFWDEF void RGFW_window_hide(RGFW_window* win); -/*! show the window */ -RGFWDEF void RGFW_window_show(RGFW_window* win); - -/* - makes it so `RGFW_window_shouldClose` returns true - by setting the window event.type to RGFW_quit -*/ -RGFWDEF void RGFW_window_setShouldClose(RGFW_window* win); - -/*! where the mouse is on the screen */ -RGFWDEF RGFW_point RGFW_getGlobalMousePoint(void); - -/*! where the mouse is on the window */ -RGFWDEF RGFW_point RGFW_window_getMousePoint(RGFW_window* win); - -/*! show the mouse or hide the mouse*/ -RGFWDEF void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show); -/*! if the mouse is hidden */ -RGFWDEF RGFW_bool RGFW_window_mouseHidden(RGFW_window* win); -/*! move the mouse to a set x, y pos*/ -RGFWDEF void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v); - -/*! if the window should close (RGFW_close was sent or escape was pressed) */ -RGFWDEF RGFW_bool RGFW_window_shouldClose(RGFW_window* win); -/*! if window is fullscreen'd */ -RGFWDEF RGFW_bool RGFW_window_isFullscreen(RGFW_window* win); -/*! if window is hidden */ -RGFWDEF RGFW_bool RGFW_window_isHidden(RGFW_window* win); -/*! if window is minimized */ -RGFWDEF RGFW_bool RGFW_window_isMinimized(RGFW_window* win); -/*! if window is maximized */ -RGFWDEF RGFW_bool RGFW_window_isMaximized(RGFW_window* win); -/*! if window is floating */ -RGFWDEF RGFW_bool RGFW_window_isFloating(RGFW_window* win); - -/** @} */ - -/** * @defgroup Monitor -* @{ */ - -#ifndef RGFW_NO_MONITOR -/* -scale the window to the monitor, -this is run by default if the user uses the arg `RGFW_scaleToMonitor` during window creation -*/ -RGFWDEF void RGFW_window_scaleToMonitor(RGFW_window* win); -/*! get the struct of the window's monitor */ -RGFWDEF RGFW_monitor RGFW_window_getMonitor(RGFW_window* win); -#endif - -/** @} */ - -/** * @defgroup Input -* @{ */ - -/*! if window == NULL, it checks if the key is pressed globally. Otherwise, it checks only if the key is pressed while the window in focus.*/ -RGFWDEF RGFW_bool RGFW_isPressed(RGFW_window* win, RGFW_key key); /*!< if key is pressed (key code)*/ - -RGFWDEF RGFW_bool RGFW_wasPressed(RGFW_window* win, RGFW_key key); /*!< if key was pressed (checks previous state only) (key code)*/ - -RGFWDEF RGFW_bool RGFW_isHeld(RGFW_window* win, RGFW_key key); /*!< if key is held (key code)*/ -RGFWDEF RGFW_bool RGFW_isReleased(RGFW_window* win, RGFW_key key); /*!< if key is released (key code)*/ - -/* if a key is pressed and then released, pretty much the same as RGFW_isReleased */ -RGFWDEF RGFW_bool RGFW_isClicked(RGFW_window* win, RGFW_key key /*!< key code*/); - -/*! if a mouse button is pressed */ -RGFWDEF RGFW_bool RGFW_isMousePressed(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); -/*! if a mouse button is held */ -RGFWDEF RGFW_bool RGFW_isMouseHeld(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); -/*! if a mouse button was released */ -RGFWDEF RGFW_bool RGFW_isMouseReleased(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); -/*! if a mouse button was pressed (checks previous state only) */ -RGFWDEF RGFW_bool RGFW_wasMousePressed(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); -/** @} */ - -/** * @defgroup Clipboard -* @{ */ -typedef ptrdiff_t RGFW_ssize_t; - -RGFWDEF const char* RGFW_readClipboard(size_t* size); /*!< read clipboard data */ -/*! read clipboard data or send a NULL str to just get the length of the clipboard data */ -RGFWDEF RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity); -RGFWDEF void RGFW_writeClipboard(const char* text, u32 textLen); /*!< write text to the clipboard */ -/** @} */ - -/** - - - Event callbacks, - these are completely optional, you can use the normal - RGFW_checkEvent() method if you prefer that - -* @defgroup Callbacks -* @{ -*/ - -/*! RGFW_windowMoved, the window and its new rect value */ -typedef void (* RGFW_windowmovefunc)(RGFW_window* win, RGFW_rect r); -/*! RGFW_windowResized, the window and its new rect value */ -typedef void (* RGFW_windowresizefunc)(RGFW_window* win, RGFW_rect r); -/*! RGFW_quit, the window that was closed */ -typedef void (* RGFW_windowquitfunc)(RGFW_window* win); -/*! RGFW_focusIn / RGFW_focusOut, the window who's focus has changed and if its inFocus */ -typedef void (* RGFW_focusfunc)(RGFW_window* win, RGFW_bool inFocus); -/*! RGFW_mouseEnter / RGFW_mouseLeave, the window that changed, the point of the mouse (enter only) and if the mouse has entered */ -typedef void (* RGFW_mouseNotifyfunc)(RGFW_window* win, RGFW_point point, RGFW_bool status); -/*! RGFW_mousePosChanged, the window that the move happened on and the new point of the mouse */ -typedef void (* RGFW_mouseposfunc)(RGFW_window* win, RGFW_point point, RGFW_point vector); -/*! RGFW_DNDInit, the window, the point of the drop on the windows */ -typedef void (* RGFW_dndInitfunc)(RGFW_window* win, RGFW_point point); -/*! RGFW_windowRefresh, the window that needs to be refreshed */ -typedef void (* RGFW_windowrefreshfunc)(RGFW_window* win); -/*! RGFW_keyPressed / RGFW_keyReleased, the window that got the event, the mapped key, the physical key, the string version, the state of mod keys, if it was a press (else it's a release) */ -typedef void (* RGFW_keyfunc)(RGFW_window* win, u8 key, char keyChar, RGFW_keymod keyMod, RGFW_bool pressed); -/*! RGFW_mouseButtonPressed / RGFW_mouseButtonReleased, the window that got the event, the button that was pressed, the scroll value, if it was a press (else it's a release) */ -typedef void (* RGFW_mousebuttonfunc)(RGFW_window* win, RGFW_mouseButton button, double scroll, RGFW_bool pressed); -/*!gamepad /gamepad, the window that got the event, the button that was pressed, the scroll value, if it was a press (else it's a release) */ -typedef void (* RGFW_gamepadButtonfunc)(RGFW_window* win, u16 gamepad, u8 button, RGFW_bool pressed); -/*! RGFW_gamepadAxisMove, the window that got the event, the gamepad in question, the axis values and the amount of axises */ -typedef void (* RGFW_gamepadAxisfunc)(RGFW_window* win, u16 gamepad, RGFW_point axis[2], u8 axisesCount, u8 whichAxis); -/*! RGFW_gamepadConnected/RGFW_gamepadDisconnected, the window that got the event, the gamepad in question, if the controller was connected (or disconnected if false) */ -typedef void (* RGFW_gamepadfunc)(RGFW_window* win, u16 gamepad, RGFW_bool connected); - -/*! RGFW_dnd, the window that had the drop, the drop data and the amount files dropped returns previous callback function (if it was set) */ -typedef void (* RGFW_dndfunc)(RGFW_window* win, char droppedFiles[RGFW_MAX_DROPS][RGFW_MAX_PATH], u32 droppedFilesCount); - -/*! set callback for a window move event returns previous callback function (if it was set) */ -RGFWDEF RGFW_windowmovefunc RGFW_setWindowMoveCallback(RGFW_windowmovefunc func); -/*! set callback for a window resize event returns previous callback function (if it was set) */ -RGFWDEF RGFW_windowresizefunc RGFW_setWindowResizeCallback(RGFW_windowresizefunc func); -/*! set callback for a window quit event returns previous callback function (if it was set) */ -RGFWDEF RGFW_windowquitfunc RGFW_setWindowQuitCallback(RGFW_windowquitfunc func); -/*! set callback for a mouse move event returns previous callback function (if it was set) */ -RGFWDEF RGFW_mouseposfunc RGFW_setMousePosCallback(RGFW_mouseposfunc func); -/*! set callback for a window refresh event returns previous callback function (if it was set) */ -RGFWDEF RGFW_windowrefreshfunc RGFW_setWindowRefreshCallback(RGFW_windowrefreshfunc func); -/*! set callback for a window focus change event returns previous callback function (if it was set) */ -RGFWDEF RGFW_focusfunc RGFW_setFocusCallback(RGFW_focusfunc func); -/*! set callback for a mouse notify event returns previous callback function (if it was set) */ -RGFWDEF RGFW_mouseNotifyfunc RGFW_setMouseNotifyCallBack(RGFW_mouseNotifyfunc func); -/*! set callback for a drop event event returns previous callback function (if it was set) */ -RGFWDEF RGFW_dndfunc RGFW_setDndCallback(RGFW_dndfunc func); -/*! set callback for a start of a drop event returns previous callback function (if it was set) */ -RGFWDEF RGFW_dndInitfunc RGFW_setDndInitCallback(RGFW_dndInitfunc func); -/*! set callback for a key (press / release ) event returns previous callback function (if it was set) */ -RGFWDEF RGFW_keyfunc RGFW_setKeyCallback(RGFW_keyfunc func); -/*! set callback for a mouse button (press / release ) event returns previous callback function (if it was set) */ -RGFWDEF RGFW_mousebuttonfunc RGFW_setMouseButtonCallback(RGFW_mousebuttonfunc func); -/*! set callback for a controller button (press / release ) event returns previous callback function (if it was set) */ -RGFWDEF RGFW_gamepadButtonfunc RGFW_setgamepadButtonCallback(RGFW_gamepadButtonfunc func); -/*! set callback for a gamepad axis mov event returns previous callback function (if it was set) */ -RGFWDEF RGFW_gamepadAxisfunc RGFW_setgamepadAxisCallback(RGFW_gamepadAxisfunc func); -/*! set callback for when a controller is connected or disconnected */ -RGFWDEF RGFW_gamepadfunc RGFW_setGamepadCallback(RGFW_gamepadfunc func); - -/** @} */ - -/** * @defgroup Threads -* @{ */ - -#ifndef RGFW_NO_THREADS -/*! threading functions*/ - -/*! NOTE! (for X11/linux) : if you define a window in a thread, it must be run after the original thread's window is created or else there will be a memory error */ -/* - I'd suggest you use sili's threading functions instead - if you're going to use sili - which is a good idea generally -*/ - -#if defined(__unix__) || defined(__APPLE__) || defined(RGFW_WASM) || defined(RGFW_CUSTOM_BACKEND) - typedef void* (* RGFW_threadFunc_ptr)(void*); -#else - typedef DWORD (__stdcall *RGFW_threadFunc_ptr) (LPVOID lpThreadParameter); -#endif - -RGFWDEF RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args); /*!< create a thread*/ -RGFWDEF void RGFW_cancelThread(RGFW_thread thread); /*!< cancels a thread*/ -RGFWDEF void RGFW_joinThread(RGFW_thread thread); /*!< join thread to current thread */ -RGFWDEF void RGFW_setThreadPriority(RGFW_thread thread, u8 priority); /*!< sets the priority priority */ -#endif - -/** @} */ - -/** * @defgroup gamepad -* @{ */ - -typedef RGFW_ENUM(u8, RGFW_gamepadType) { - RGFW_gamepadMicrosoft = 0, RGFW_gamepadSony, RGFW_gamepadNintendo, RGFW_gamepadLogitech, RGFW_gamepadUnknown -}; - -/*! gamepad count starts at 0*/ -RGFWDEF u32 RGFW_isPressedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); -RGFWDEF u32 RGFW_isReleasedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); -RGFWDEF u32 RGFW_isHeldGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); -RGFWDEF u32 RGFW_wasPressedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); -RGFWDEF RGFW_point RGFW_getGamepadAxis(RGFW_window* win, u16 controller, u16 whichAxis); -RGFWDEF const char* RGFW_getGamepadName(RGFW_window* win, u16 controller); -RGFWDEF size_t RGFW_getGamepadCount(RGFW_window* win); -RGFWDEF RGFW_gamepadType RGFW_getGamepadType(RGFW_window* win, u16 controller); - -/** @} */ - -/** * @defgroup graphics_API -* @{ */ - -/*!< make the window the current opengl drawing context - - NOTE: - if you want to switch the graphics context's thread, - you have to run RGFW_window_makeCurrent(NULL); on the old thread - then RGFW_window_makeCurrent(valid_window) on the new thread -*/ -RGFWDEF void RGFW_window_makeCurrent(RGFW_window* win); - -/*< updates fps / sets fps to cap (must by ran manually by the user at the end of a frame), returns current fps */ -RGFWDEF u32 RGFW_window_checkFPS(RGFW_window* win, u32 fpsCap); - -/* supports openGL, directX, OSMesa, EGL and software rendering */ -RGFWDEF void RGFW_window_swapBuffers(RGFW_window* win); /*!< swap the rendering buffer */ -RGFWDEF void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval); - -RGFWDEF void RGFW_window_setGPURender(RGFW_window* win, RGFW_bool set); -RGFWDEF void RGFW_window_setCPURender(RGFW_window* win, RGFW_bool set); - -/*! native API functions */ -#if defined(RGFW_OPENGL) || defined(RGFW_EGL) -/*! OpenGL init hints */ -typedef RGFW_ENUM(u8, RGFW_glHints) { - RGFW_glStencil = 0, /*!< set stencil buffer bit size (8 by default) */ - RGFW_glSamples, /*!< set number of sampiling buffers (4 by default) */ - RGFW_glStereo, /*!< use GL_STEREO (GL_FALSE by default) */ - RGFW_glAuxBuffers, /*!< number of aux buffers (0 by default) */ - RGFW_glDoubleBuffer, /*!< request double buffering */ - RGFW_glRed, RGFW_glGreen, RGFW_glBlue, RGFW_glAlpha, /*!< set RGBA bit sizes */ - RGFW_glDepth, - RGFW_glAccumRed, RGFW_glAccumGreen, RGFW_glAccumBlue,RGFW_glAccumAlpha, /*!< set accumulated RGBA bit sizes*/ - RGFW_glSRGB, /*!< request sRGA */ - RGFW_glRobustness, /*!< request a robust context */ - RGFW_glDebug, /*!< request opengl debugging */ - RGFW_glNoError, /*!< request no opengl errors */ - RGFW_glReleaseBehavior, - RGFW_glProfile, - RGFW_glMajor, RGFW_glMinor, - RGFW_glFinalHint, /*!< the final hint (not for setting) */ - RGFW_releaseFlush = 0, RGFW_glReleaseNone, /* RGFW_glReleaseBehavior options */ - RGFW_glCore = 0, RGFW_glCompatibility /*!< RGFW_glProfile options */ -}; -RGFWDEF void RGFW_setGLHint(RGFW_glHints hint, i32 value); -RGFWDEF void* RGFW_getProcAddress(const char* procname); /*!< get native opengl proc address */ -RGFWDEF void RGFW_window_makeCurrent_OpenGL(RGFW_window* win); /*!< to be called by RGFW_window_makeCurrent */ -void* RGFW_getCurrent_OpenGL(void); /*!< get the current context (OpenGL backend (GLX) (WGL) (EGL) (cocoa) (webgl))*/ -#elif defined(RGFW_VULKAN) - #if defined(RGFW_X11) - #define VK_USE_PLATFORM_XLIB_KHR - #define RGFW_VK_SURFACE "VK_KHR_xlib_surface" - #elif defined(RGFW_WINDOWS) - #define VK_USE_PLATFORM_WIN32_KHR - #define OEMRESOURCE - #define RGFW_VK_SURFACE "VK_KHR_win32_surface" - #elif defined(RGFW_MACOS) && !defined(RGFW_MACOS_X11) - #define VK_USE_PLATFORM_MACOS_MVK - #define RGFW_VK_SURFACE "VK_MVK_macos_surface" - #elif defined(RGFW_WAYLAND) - #define VK_USE_PLATFORM_WAYLAND_KHR - #define RGFW_VK_SURFACE "VK_KHR_wayland_surface" - #else - #define RGFW_VK_SURFACE NULL - #endif - -#include - -RGFWDEF VkResult RGFW_window_createVKSurface(RGFW_window* win, VkInstance instance, VkSurfaceKHR* surface); -#endif - -/** @} */ - -/** * @defgroup Supporting -* @{ */ -RGFWDEF u64 RGFW_getTime(void); /*!< get time in seconds */ -RGFWDEF u64 RGFW_getTimeNS(void); /*!< get time in nanoseconds */ -RGFWDEF void RGFW_sleep(u64 milisecond); /*!< sleep for a set time */ -RGFWDEF u64 RGFW_getTimerValue(void); /*!< get API timer value */ -RGFWDEF u64 RGFW_getTimerFreq(void); /*!< get API time freq */ - -/*! - key codes and mouse icon enums -*/ -#undef RGFW_key -typedef RGFW_ENUM(u8, RGFW_key) { - RGFW_keyNULL = 0, - RGFW_escape = '\033', - RGFW_backtick = '`', - RGFW_0 = '0', - RGFW_1 = '1', - RGFW_2 = '2', - RGFW_3 = '3', - RGFW_4 = '4', - RGFW_5 = '5', - RGFW_6 = '6', - RGFW_7 = '7', - RGFW_8 = '8', - RGFW_9 = '9', - - RGFW_minus = '-', - RGFW_equals = '=', - RGFW_backSpace = '\b', - RGFW_tab = '\t', - RGFW_space = ' ', - - RGFW_a = 'a', - RGFW_b = 'b', - RGFW_c = 'c', - RGFW_d = 'd', - RGFW_e = 'e', - RGFW_f = 'f', - RGFW_g = 'g', - RGFW_h = 'h', - RGFW_i = 'i', - RGFW_j = 'j', - RGFW_k = 'k', - RGFW_l = 'l', - RGFW_m = 'm', - RGFW_n = 'n', - RGFW_o = 'o', - RGFW_p = 'p', - RGFW_q = 'q', - RGFW_r = 'r', - RGFW_s = 's', - RGFW_t = 't', - RGFW_u = 'u', - RGFW_v = 'v', - RGFW_w = 'w', - RGFW_x = 'x', - RGFW_y = 'y', - RGFW_z = 'z', - - RGFW_period = '.', - RGFW_comma = ',', - RGFW_slash = '/', - RGFW_bracket = '{', - RGFW_closeBracket = '}', - RGFW_semicolon = ';', - RGFW_apostrophe = '\'', - RGFW_backSlash = '\\', - RGFW_return = '\n', - - RGFW_delete = '\177', /* 127 */ - - RGFW_F1, - RGFW_F2, - RGFW_F3, - RGFW_F4, - RGFW_F5, - RGFW_F6, - RGFW_F7, - RGFW_F8, - RGFW_F9, - RGFW_F10, - RGFW_F11, - RGFW_F12, - - RGFW_capsLock, - RGFW_shiftL, - RGFW_controlL, - RGFW_altL, - RGFW_superL, - RGFW_shiftR, - RGFW_controlR, - RGFW_altR, - RGFW_superR, - RGFW_up, - RGFW_down, - RGFW_left, - RGFW_right, - - RGFW_insert, - RGFW_end, - RGFW_home, - RGFW_pageUp, - RGFW_pageDown, - - RGFW_numLock, - RGFW_KP_Slash, - RGFW_multiply, - RGFW_KP_Minus, - RGFW_KP_1, - RGFW_KP_2, - RGFW_KP_3, - RGFW_KP_4, - RGFW_KP_5, - RGFW_KP_6, - RGFW_KP_7, - RGFW_KP_8, - RGFW_KP_9, - RGFW_KP_0, - RGFW_KP_Period, - RGFW_KP_Return, - RGFW_scrollLock, - RGFW_keyLast -}; - -RGFWDEF u32 RGFW_apiKeyToRGFW(u32 keycode); - -typedef RGFW_ENUM(u8, RGFW_mouseIcons) { - RGFW_mouseNormal = 0, - RGFW_mouseArrow, - RGFW_mouseIbeam, - RGFW_mouseCrosshair, - RGFW_mousePointingHand, - RGFW_mouseResizeEW, - RGFW_mouseResizeNS, - RGFW_mouseResizeNWSE, - RGFW_mouseResizeNESW, - RGFW_mouseResizeAll, - RGFW_mouseNotAllowed, -}; - -/** @} */ - -#endif /* RGFW_HEADER */ -#if defined(RGFW_X11) || defined(RGFW_WAYLAND) - #define RGFW_OS_BASED_VALUE(l, w, m, h) l -#elif defined(RGFW_WINDOWS) - #define RGFW_OS_BASED_VALUE(l, w, m, h) w -#elif defined(RGFW_MACOS) - #define RGFW_OS_BASED_VALUE(l, w, m, h) m -#elif defined(RGFW_WASM) - #define RGFW_OS_BASED_VALUE(l, w, m, h) h -#endif - - -#ifdef RGFW_IMPLEMENTATION -RGFW_bool RGFW_useWaylandBool = 1; - -#ifdef RGFW_DEBUG -#include -#endif - -char* RGFW_clipboard_data; -void RGFW_clipboard_switch(char* newstr) { - if (RGFW_clipboard_data != NULL) - RGFW_FREE(RGFW_clipboard_data); - RGFW_clipboard_data = newstr; -} - -#define RGFW_CHECK_CLIPBOARD() \ - if (size <= 0 && RGFW_clipboard_data != NULL) \ - return (const char*)RGFW_clipboard_data; \ - else if (size <= 0) \ - return "\0"; - -const char* RGFW_readClipboard(size_t* len) { - RGFW_ssize_t size = RGFW_readClipboardPtr(NULL, 0); - RGFW_CHECK_CLIPBOARD(); - char* str = (char*)RGFW_ALLOC(size); - size = RGFW_readClipboardPtr(str, size); - RGFW_CHECK_CLIPBOARD(); - - if (len != NULL) *len = size; - - RGFW_clipboard_switch(str); - return (const char*)str; -} - -/* -RGFW_IMPLEMENTATION starts with generic RGFW defines - -This is the start of keycode data - - Why not use macros instead of the numbers itself? - Windows -> Not all scancodes keys are macros - Linux -> Only symcodes are values, (XK_0 - XK_1, XK_a - XK_z) are larger than 0xFF00, I can't find any way to work with them without making the array an unreasonable size - MacOS -> windows and linux already don't have keycodes as macros, so there's no point -*/ - - - -/* - the c++ compiler doesn't support setting up an array like, - we'll have to do it during runtime using a function & this messy setup -*/ - -#ifndef RGFW_CUSTOM_BACKEND - -#ifndef __cplusplus -#define RGFW_NEXT , -#define RGFW_MAP -#else -#define RGFW_NEXT ; -#define RGFW_MAP RGFW_keycodes -#endif - -u8 RGFW_keycodes [RGFW_OS_BASED_VALUE(136, 0x15C + 1, 128, DOM_VK_WIN_OEM_CLEAR + 1)] = { -#ifdef __cplusplus - 0 -}; -void RGFW_init_keys(void) { -#endif - RGFW_MAP [RGFW_OS_BASED_VALUE(49, 0x029, 50, DOM_VK_BACK_QUOTE)] = RGFW_backtick RGFW_NEXT - - RGFW_MAP [RGFW_OS_BASED_VALUE(19, 0x00B, 29, DOM_VK_0)] = RGFW_0 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(10, 0x002, 18, DOM_VK_1)] = RGFW_1 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(11, 0x003, 19, DOM_VK_2)] = RGFW_2 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(12, 0x004, 20, DOM_VK_3)] = RGFW_3 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(13, 0x005, 21, DOM_VK_4)] = RGFW_4 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(14, 0x006, 23, DOM_VK_5)] = RGFW_5 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(15, 0x007, 22, DOM_VK_6)] = RGFW_6 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(16, 0x008, 26, DOM_VK_7)] = RGFW_7 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(17, 0x009, 28, DOM_VK_8)] = RGFW_8 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(18, 0x00A, 25, DOM_VK_9)] = RGFW_9, - RGFW_MAP [RGFW_OS_BASED_VALUE(65, 0x039, 49, DOM_VK_SPACE)] = RGFW_space, - RGFW_MAP [RGFW_OS_BASED_VALUE(38, 0x01E, 0, DOM_VK_A)] = RGFW_a RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(56, 0x030, 11, DOM_VK_B)] = RGFW_b RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(54, 0x02E, 8, DOM_VK_C)] = RGFW_c RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(40, 0x020, 2, DOM_VK_D)] = RGFW_d RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(26, 0x012, 14, DOM_VK_E)] = RGFW_e RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(41, 0x021, 3, DOM_VK_F)] = RGFW_f RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(42, 0x022, 5, DOM_VK_G)] = RGFW_g RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(43, 0x023, 4, DOM_VK_H)] = RGFW_h RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(31, 0x017, 34, DOM_VK_I)] = RGFW_i RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(44, 0x024, 38, DOM_VK_J)] = RGFW_j RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(45, 0x025, 40, DOM_VK_K)] = RGFW_k RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(46, 0x026, 37, DOM_VK_L)] = RGFW_l RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(58, 0x032, 46, DOM_VK_M)] = RGFW_m RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(57, 0x031, 45, DOM_VK_N)] = RGFW_n RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(32, 0x018, 31, DOM_VK_O)] = RGFW_o RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(33, 0x019, 35, DOM_VK_P)] = RGFW_p RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(24, 0x010, 12, DOM_VK_Q)] = RGFW_q RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(27, 0x013, 15, DOM_VK_R)] = RGFW_r RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(39, 0x01F, 1, DOM_VK_S)] = RGFW_s RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(28, 0x014, 17, DOM_VK_T)] = RGFW_t RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(30, 0x016, 32, DOM_VK_U)] = RGFW_u RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(55, 0x02F, 9, DOM_VK_V)] = RGFW_v RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(25, 0x011, 13, DOM_VK_W)] = RGFW_w RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(53, 0x02D, 7, DOM_VK_X)] = RGFW_x RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(29, 0x015, 16, DOM_VK_Y)] = RGFW_y RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(52, 0x02C, 6, DOM_VK_Z)] = RGFW_z, - RGFW_MAP [RGFW_OS_BASED_VALUE(60, 0x034, 47, DOM_VK_PERIOD)] = RGFW_period RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(59, 0x033, 43, DOM_VK_COMMA)] = RGFW_comma RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(61, 0x035, 44, DOM_VK_SLASH)] = RGFW_slash RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(34, 0x01A, 33, DOM_VK_OPEN_BRACKET)] = RGFW_bracket RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(35, 0x01B, 30, DOM_VK_CLOSE_BRACKET)] = RGFW_closeBracket RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(47, 0x027, 41, DOM_VK_SEMICOLON)] = RGFW_semicolon RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(48, 0x028, 39, DOM_VK_QUOTE)] = RGFW_apostrophe RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(51, 0x02B, 42, DOM_VK_BACK_SLASH)] = RGFW_backSlash, - RGFW_MAP [RGFW_OS_BASED_VALUE(36, 0x01C, 36, DOM_VK_RETURN)] = RGFW_return RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(119, 0x153, 118, DOM_VK_DELETE)] = RGFW_delete RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(77, 0x145, 72, DOM_VK_NUM_LOCK)] = RGFW_numLock RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(106, 0x135, 82, DOM_VK_DIVIDE)] = RGFW_KP_Slash RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(63, 0x037, 76, DOM_VK_MULTIPLY)] = RGFW_multiply RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(82, 0x04A, 67, DOM_VK_SUBTRACT)] = RGFW_KP_Minus RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(87, 0x04F, 84, DOM_VK_NUMPAD1)] = RGFW_KP_1 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(88, 0x050, 85, DOM_VK_NUMPAD2)] = RGFW_KP_2 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(89, 0x051, 86, DOM_VK_NUMPAD3)] = RGFW_KP_3 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(83, 0x04B, 87, DOM_VK_NUMPAD4)] = RGFW_KP_4 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(84, 0x04C, 88, DOM_VK_NUMPAD5)] = RGFW_KP_5 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(85, 0x04D, 89, DOM_VK_NUMPAD6)] = RGFW_KP_6 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(79, 0x047, 90, DOM_VK_NUMPAD7)] = RGFW_KP_7 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(80, 0x048, 92, DOM_VK_NUMPAD8)] = RGFW_KP_8 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(81, 0x049, 93, DOM_VK_NUMPAD9)] = RGFW_KP_9 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(90, 0x052, 83, DOM_VK_NUMPAD0)] = RGFW_KP_0 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(91, 0x053, 65, DOM_VK_DECIMAL)] = RGFW_KP_Period RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(104, 0x11C, 77, 0)] = RGFW_KP_Return, - RGFW_MAP [RGFW_OS_BASED_VALUE(20, 0x00C, 27, DOM_VK_HYPHEN_MINUS)] = RGFW_minus RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(21, 0x00D, 24, DOM_VK_EQUALS)] = RGFW_equals RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(22, 0x00E, 51, DOM_VK_BACK_SPACE)] = RGFW_backSpace RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(23, 0x00F, 48, DOM_VK_TAB)] = RGFW_tab RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(66, 0x03A, 57, DOM_VK_CAPS_LOCK)] = RGFW_capsLock RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(50, 0x02A, 56, DOM_VK_SHIFT)] = RGFW_shiftL RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(37, 0x01D, 59, DOM_VK_CONTROL)] = RGFW_controlL RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(64, 0x038, 58, DOM_VK_ALT)] = RGFW_altL RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(133, 0x15B, 55, DOM_VK_WIN)] = RGFW_superL, - #if !defined(RGFW_MACOS) && !defined(RGFW_WASM) - RGFW_MAP [RGFW_OS_BASED_VALUE(105, 0x11D, 59, 0)] = RGFW_controlR RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(135, 0x15C, 55, 0)] = RGFW_superR, - RGFW_MAP [RGFW_OS_BASED_VALUE(62, 0x036, 56, 0)] = RGFW_shiftR RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(108, 0x138, 58, 0)] = RGFW_altR, - #endif - RGFW_MAP [RGFW_OS_BASED_VALUE(67, 0x03B, 127, DOM_VK_F1)] = RGFW_F1 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(68, 0x03C, 121, DOM_VK_F2)] = RGFW_F2 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(69, 0x03D, 100, DOM_VK_F3)] = RGFW_F3 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(70, 0x03E, 119, DOM_VK_F4)] = RGFW_F4 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(71, 0x03F, 97, DOM_VK_F5)] = RGFW_F5 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(72, 0x040, 98, DOM_VK_F6)] = RGFW_F6 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(73, 0x041, 99, DOM_VK_F7)] = RGFW_F7 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(74, 0x042, 101, DOM_VK_F8)] = RGFW_F8 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(75, 0x043, 102, DOM_VK_F9)] = RGFW_F9 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(76, 0x044, 110, DOM_VK_F10)] = RGFW_F10 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(95, 0x057, 104, DOM_VK_F11)] = RGFW_F11 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(96, 0x058, 112, DOM_VK_F12)] = RGFW_F12 RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(111, 0x148, 126, DOM_VK_UP)] = RGFW_up RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(116, 0x150, 125, DOM_VK_DOWN)] = RGFW_down RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(113, 0x14B, 123, DOM_VK_LEFT)] = RGFW_left RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(114, 0x14D, 124, DOM_VK_RIGHT)] = RGFW_right RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(118, 0x152, 115, DOM_VK_INSERT)] = RGFW_insert RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(115, 0x14F, 120, DOM_VK_END)] = RGFW_end RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(112, 0x149, 117, DOM_VK_PAGE_UP)] = RGFW_pageUp RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(117, 0x151, 122, DOM_VK_PAGE_DOWN)] = RGFW_pageDown RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(9, 0x001, 53, DOM_VK_ESCAPE)] = RGFW_escape RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(110, 0x147, 116, DOM_VK_HOME)] = RGFW_home RGFW_NEXT - RGFW_MAP [RGFW_OS_BASED_VALUE(78, 0x046, 107, DOM_VK_SCROLL_LOCK)] = RGFW_scrollLock RGFW_NEXT -#ifndef __cplusplus -}; -#else -} -#endif - -#undef RGFW_NEXT -#undef RGFW_MAP - -u32 RGFW_apiKeyToRGFW(u32 keycode) { - #ifdef __cplusplus - if (RGFW_OS_BASED_VALUE(49, 192, 50, DOM_VK_BACK_QUOTE, KEY_GRAVE) != RGFW_backtick) { - RGFW_init_keys(); - } - #endif - - /* make sure the key isn't out of bounds */ - if (keycode > sizeof(RGFW_keycodes) / sizeof(u8)) - return 0; - - return RGFW_keycodes[keycode]; -} -#endif - -typedef struct { - RGFW_bool current : 1; - RGFW_bool prev : 1; -} RGFW_keyState; - -RGFW_keyState RGFW_keyboard[RGFW_keyLast] = { {0, 0} }; - -RGFWDEF void RGFW_resetKey(void); -void RGFW_resetKey(void) { - size_t len = RGFW_keyLast; /*!< last_key == length */ - - size_t i; /*!< reset each previous state */ - for (i = 0; i < len; i++) - RGFW_keyboard[i].prev = 0; -} - -/* - this is the end of keycode data -*/ - -/* gamepad data */ -RGFW_keyState RGFW_gamepadPressed[4][18]; /*!< if a key is currently pressed or not (per gamepad) */ -RGFW_point RGFW_gamepadAxes[4][4]; /*!< if a key is currently pressed or not (per gamepad) */ - -RGFW_gamepadType RGFW_gamepads_type[4]; /*!< if a key is currently pressed or not (per gamepad) */ -i32 RGFW_gamepads[4] = {0, 0, 0, 0}; /*!< limit of 4 gamepads at a time */ -char RGFW_gamepads_name[4][128]; /*!< gamepad names */ -u16 RGFW_gamepadCount = 0; /*!< the actual amount of gamepads */ - -/* - event callback defines start here -*/ - - -/* - These exist to avoid the - if (func == NULL) check - for (allegedly) better performance -*/ -void RGFW_windowmovefuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } -void RGFW_windowresizefuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } -void RGFW_windowquitfuncEMPTY(RGFW_window* win) { RGFW_UNUSED(win); } -void RGFW_focusfuncEMPTY(RGFW_window* win, RGFW_bool inFocus) {RGFW_UNUSED(win); RGFW_UNUSED(inFocus);} -void RGFW_mouseNotifyfuncEMPTY(RGFW_window* win, RGFW_point point, RGFW_bool status) {RGFW_UNUSED(win); RGFW_UNUSED(point); RGFW_UNUSED(status);} -void RGFW_mouseposfuncEMPTY(RGFW_window* win, RGFW_point point, RGFW_point vector) {RGFW_UNUSED(win); RGFW_UNUSED(point); RGFW_UNUSED(vector);} -void RGFW_dndInitfuncEMPTY(RGFW_window* win, RGFW_point point) {RGFW_UNUSED(win); RGFW_UNUSED(point);} -void RGFW_windowrefreshfuncEMPTY(RGFW_window* win) {RGFW_UNUSED(win); } -void RGFW_keyfuncEMPTY(RGFW_window* win, RGFW_key key, char keyChar, RGFW_keymod keyMod, RGFW_bool pressed) {RGFW_UNUSED(win); RGFW_UNUSED(key); RGFW_UNUSED(keyChar); RGFW_UNUSED(keyMod); RGFW_UNUSED(pressed);} -void RGFW_mousebuttonfuncEMPTY(RGFW_window* win, RGFW_mouseButton button, double scroll, RGFW_bool pressed) {RGFW_UNUSED(win); RGFW_UNUSED(button); RGFW_UNUSED(scroll); RGFW_UNUSED(pressed);} -void RGFW_gamepadButtonfuncEMPTY(RGFW_window* win, u16 gamepad, u8 button, RGFW_bool pressed){RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(button); RGFW_UNUSED(pressed); } -void RGFW_gamepadAxisfuncEMPTY(RGFW_window* win, u16 gamepad, RGFW_point axis[2], u8 axisesCount, u8 whichAxis){RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(axis); RGFW_UNUSED(axisesCount); RGFW_UNUSED(whichAxis); } -void RGFW_gamepadfuncEMPTY(RGFW_window* win, u16 gamepad, RGFW_bool connected) {RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(connected);} -void RGFW_dndfuncEMPTY(RGFW_window* win, char droppedFiles[RGFW_MAX_DROPS][RGFW_MAX_PATH], u32 droppedFilesCount) {RGFW_UNUSED(win); RGFW_UNUSED(droppedFiles); RGFW_UNUSED(droppedFilesCount);} - -RGFW_windowmovefunc RGFW_windowMoveCallback = RGFW_windowmovefuncEMPTY; -RGFW_windowresizefunc RGFW_windowResizeCallback = RGFW_windowresizefuncEMPTY; -RGFW_windowquitfunc RGFW_windowQuitCallback = RGFW_windowquitfuncEMPTY; -RGFW_mouseposfunc RGFW_mousePosCallback = RGFW_mouseposfuncEMPTY; -RGFW_windowrefreshfunc RGFW_windowRefreshCallback = RGFW_windowrefreshfuncEMPTY; -RGFW_focusfunc RGFW_focusCallback = RGFW_focusfuncEMPTY; -RGFW_mouseNotifyfunc RGFW_mouseNotifyCallBack = RGFW_mouseNotifyfuncEMPTY; -RGFW_dndfunc RGFW_dndCallback = RGFW_dndfuncEMPTY; -RGFW_dndInitfunc RGFW_dndInitCallback = RGFW_dndInitfuncEMPTY; -RGFW_keyfunc RGFW_keyCallback = RGFW_keyfuncEMPTY; -RGFW_mousebuttonfunc RGFW_mouseButtonCallback = RGFW_mousebuttonfuncEMPTY; -RGFW_gamepadButtonfunc RGFW_gamepadButtonCallback = RGFW_gamepadButtonfuncEMPTY; -RGFW_gamepadAxisfunc RGFW_gamepadAxisCallback = RGFW_gamepadAxisfuncEMPTY; -RGFW_gamepadfunc RGFW_gamepadCallback = RGFW_gamepadfuncEMPTY; - -void RGFW_window_checkEvents(RGFW_window* win, u32 waitMS) { - RGFW_window_eventWait(win, waitMS); - - while (RGFW_window_checkEvent(win) != NULL && RGFW_window_shouldClose(win) == 0) { - if (win->event.type == RGFW_quit) return; - } - - #ifdef RGFW_WASM /* WASM needs to run the sleep function for asyncify */ - RGFW_sleep(0); - #endif -} - -RGFW_windowmovefunc RGFW_setWindowMoveCallback(RGFW_windowmovefunc func) { - RGFW_windowmovefunc prev = (RGFW_windowMoveCallback == RGFW_windowmovefuncEMPTY) ? NULL : RGFW_windowMoveCallback; - RGFW_windowMoveCallback = func; - return prev; -} -RGFW_windowresizefunc RGFW_setWindowResizeCallback(RGFW_windowresizefunc func) { - RGFW_windowresizefunc prev = (RGFW_windowResizeCallback == RGFW_windowresizefuncEMPTY) ? NULL : RGFW_windowResizeCallback; - RGFW_windowResizeCallback = func; - return prev; -} -RGFW_windowquitfunc RGFW_setWindowQuitCallback(RGFW_windowquitfunc func) { - RGFW_windowquitfunc prev = (RGFW_windowQuitCallback == RGFW_windowquitfuncEMPTY) ? NULL : RGFW_windowQuitCallback; - RGFW_windowQuitCallback = func; - return prev; -} - -RGFW_mouseposfunc RGFW_setMousePosCallback(RGFW_mouseposfunc func) { - RGFW_mouseposfunc prev = (RGFW_mousePosCallback == RGFW_mouseposfuncEMPTY) ? NULL : RGFW_mousePosCallback; - RGFW_mousePosCallback = func; - return prev; -} -RGFW_windowrefreshfunc RGFW_setWindowRefreshCallback(RGFW_windowrefreshfunc func) { - RGFW_windowrefreshfunc prev = (RGFW_windowRefreshCallback == RGFW_windowrefreshfuncEMPTY) ? NULL : RGFW_windowRefreshCallback; - RGFW_windowRefreshCallback = func; - return prev; -} -RGFW_focusfunc RGFW_setFocusCallback(RGFW_focusfunc func) { - RGFW_focusfunc prev = (RGFW_focusCallback == RGFW_focusfuncEMPTY) ? NULL : RGFW_focusCallback; - RGFW_focusCallback = func; - return prev; -} - -RGFW_mouseNotifyfunc RGFW_setMouseNotifyCallBack(RGFW_mouseNotifyfunc func) { - RGFW_mouseNotifyfunc prev = (RGFW_mouseNotifyCallBack == RGFW_mouseNotifyfuncEMPTY) ? NULL : RGFW_mouseNotifyCallBack; - RGFW_mouseNotifyCallBack = func; - return prev; -} -RGFW_dndfunc RGFW_setDndCallback(RGFW_dndfunc func) { - RGFW_dndfunc prev = (RGFW_dndCallback == RGFW_dndfuncEMPTY) ? NULL : RGFW_dndCallback; - RGFW_dndCallback = func; - return prev; -} -RGFW_dndInitfunc RGFW_setDndInitCallback(RGFW_dndInitfunc func) { - RGFW_dndInitfunc prev = (RGFW_dndInitCallback == RGFW_dndInitfuncEMPTY) ? NULL : RGFW_dndInitCallback; - RGFW_dndInitCallback = func; - return prev; -} -RGFW_keyfunc RGFW_setKeyCallback(RGFW_keyfunc func) { - RGFW_keyfunc prev = (RGFW_keyCallback == RGFW_keyfuncEMPTY) ? NULL : RGFW_keyCallback; - RGFW_keyCallback = func; - return prev; -} -RGFW_mousebuttonfunc RGFW_setMouseButtonCallback(RGFW_mousebuttonfunc func) { - RGFW_mousebuttonfunc prev = (RGFW_mouseButtonCallback == RGFW_mousebuttonfuncEMPTY) ? NULL : RGFW_mouseButtonCallback; - RGFW_mouseButtonCallback = func; - return prev; -} -RGFW_gamepadButtonfunc RGFW_setgamepadButtonCallback(RGFW_gamepadButtonfunc func) { - RGFW_gamepadButtonfunc prev = (RGFW_gamepadButtonCallback == RGFW_gamepadButtonfuncEMPTY) ? NULL : RGFW_gamepadButtonCallback; - RGFW_gamepadButtonCallback = func; - return prev; -} -RGFW_gamepadAxisfunc RGFW_setgamepadAxisCallback(RGFW_gamepadAxisfunc func) { - RGFW_gamepadAxisfunc prev = (RGFW_gamepadAxisCallback == RGFW_gamepadAxisfuncEMPTY) ? NULL : RGFW_gamepadAxisCallback; - RGFW_gamepadAxisCallback = func; - return prev; -} -RGFW_gamepadfunc RGFW_setGamepadCallback(RGFW_gamepadfunc func) { - RGFW_gamepadfunc prev = (RGFW_gamepadCallback == RGFW_gamepadfuncEMPTY) ? NULL : RGFW_gamepadCallback; - RGFW_gamepadCallback = func; - return prev; -} -/* -no more event call back defines -*/ - -#define SET_ATTRIB(a, v) { \ - RGFW_ASSERT(((size_t) index + 1) < sizeof(attribs) / sizeof(attribs[0])); \ - attribs[index++] = a; \ - attribs[index++] = v; \ -} - -#define RGFW_EVENT_PASSED RGFW_BIT(24) /* if a queued event was passed*/ -#define RGFW_NO_GPU_RENDER RGFW_BIT(25) /* don't render (using the GPU based API)*/ -#define RGFW_NO_CPU_RENDER RGFW_BIT(26) /* don't render (using the CPU based buffer rendering)*/ -#define RGFW_HOLD_MOUSE RGFW_BIT(27) /*!< hold the moues still */ -#define RGFW_MOUSE_LEFT RGFW_BIT(28) /* if mouse left the window */ -#define RGFW_WINDOW_ALLOC RGFW_BIT(29) /* if window was allocated by RGFW */ -#define RGFW_BUFFER_ALLOC RGFW_BIT(30) /* if window.buffer was allocated by RGFW */ -#define RGFW_WINDOW_INIT RGFW_BIT(31) /* if window.buffer was allocated by RGFW */ - - -RGFW_window* RGFW_createWindow(const char* name, RGFW_rect rect, RGFW_windowFlags flags) { - RGFW_window* win = (RGFW_window*)RGFW_ALLOC(sizeof(RGFW_window)); - win->_flags = 0; - win->_flags |= RGFW_WINDOW_ALLOC; - return RGFW_createWindowPtr(name, rect, flags, win); -} - -#if defined(RGFW_USE_XDL) && defined(RGFW_X11) - #define XDL_IMPLEMENTATION - #include "XDL.h" -#endif - -RGFWDEF void RGFW_window_basic_init(RGFW_window* win, RGFW_rect rect, RGFW_windowFlags flags); -#if defined(RGFW_X11) || defined(RGFW_WINDOWS) -RGFW_mouse* RGFW_hiddenMouse = NULL; -#endif - -RGFW_window* RGFW_root = NULL; - -/* do a basic initialization for RGFW_window, this is to standard it for each OS */ -void RGFW_window_basic_init(RGFW_window* win, RGFW_rect rect, RGFW_windowFlags flags) { - RGFW_UNUSED(flags); - /* rect based the requested flags */ - if (RGFW_root == NULL) { - RGFW_root = win; - #ifdef RGFW_X11 - RGFW_root->src.display = XOpenDisplay(NULL); - #endif - } - - #ifdef RGFW_X11 - win->src.clipboard = NULL; - win->src.display = RGFW_root->src.display; - RGFW_ASSERT(win->src.display != NULL); - #endif - - #if defined(RGFW_X11) || defined(RGFW_WINDOWS) - if (RGFW_hiddenMouse == NULL) { - u8 RGFW_blk[] = { 0, 0, 0, 0 }; - RGFW_hiddenMouse = RGFW_loadMouse(RGFW_blk, RGFW_AREA(1, 1), 4); - } - #endif - - if (!(win->_flags & RGFW_WINDOW_ALLOC)) win->_flags = 0; - - /* set and init the new window's data */ - win->r = rect; - win->event.inFocus = 1; - win->event.droppedFilesCount = 0; - win->_flags |= flags; - win->event.keyMod = 0; -} - -void RGFW_window_setFlags(RGFW_window* win, RGFW_windowFlags flags) { - RGFW_windowFlags cmpFlags = win->_flags; - if (win->_flags & RGFW_WINDOW_INIT) cmpFlags = win->_flags; - - #ifndef RGFW_NO_MONITOR - if (flags & RGFW_windowScaleToMonitor) RGFW_window_scaleToMonitor(win); - #endif - - if (flags & RGFW_windowCenter) RGFW_window_center(win); - if (flags & RGFW_windowCenterCursor) - RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); - if (flags & RGFW_windowNoBorder) RGFW_window_setBorder(win, 0); - else RGFW_window_setBorder(win, 1); - if (flags & RGFW_windowFullscreen) RGFW_window_setFullscreen(win, RGFW_TRUE); - else if (cmpFlags & RGFW_windowFullscreen) RGFW_window_setFullscreen(win, 0); - if (flags & RGFW_windowMaximize) RGFW_window_maximize(win); - else if (cmpFlags & RGFW_windowMaximize) RGFW_window_restore(win); - if (flags & RGFW_windowHideMouse) RGFW_window_showMouse(win, 0); - else if (cmpFlags & RGFW_windowHideMouse) RGFW_window_showMouse(win, 1); - if (flags & RGFW_windowCocoaCHDirToRes) RGFW_moveToMacOSResourceDir(); - if (flags & RGFW_windowFloating) RGFW_window_setFloating(win, 1); - else if (cmpFlags & RGFW_windowFloating) RGFW_window_setFloating(win, 0); - - if (!(win->_flags & RGFW_WINDOW_INIT)) win->_flags |= RGFW_WINDOW_INIT; - win->_flags = flags; -} - -void RGFW_window_initBuffer(RGFW_window* win) { - RGFW_window_initBufferSize(win, RGFW_getScreenSize()); -} - -void RGFW_window_initBufferSize(RGFW_window* win, RGFW_area area) { - win->_flags |= RGFW_BUFFER_ALLOC; - #ifndef RGFW_WINDOWS - RGFW_window_initBufferPtr(win, RGFW_ALLOC(area.w * area.h * 4), area); - #else /* windows's bitmap allocs memory for us */ - RGFW_window_initBufferPtr(win, NULL, area); - #endif -} - -#ifdef RGFW_MACOS -RGFWDEF void RGFW_window_cocoaSetLayer(RGFW_window* win, void* layer); -RGFWDEF void* RGFW_cocoaGetLayer(void); -#endif - -const char* RGFW_className = NULL; -void RGFW_setClassName(const char* name) { RGFW_className = name; } - -#ifndef RGFW_X11 -void RGFW_setXInstName(const char* name) { RGFW_UNUSED(name); } -#endif - -RGFW_keyState RGFW_mouseButtons[RGFW_mouseFinal] = { {0, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0} }; - -RGFW_bool RGFW_isMousePressed(RGFW_window* win, RGFW_mouseButton button) { - return RGFW_mouseButtons[button].current && (win == NULL || win->event.inFocus); -} -RGFW_bool RGFW_wasMousePressed(RGFW_window* win, RGFW_mouseButton button) { - return RGFW_mouseButtons[button].prev && (win != NULL || win->event.inFocus); -} -RGFW_bool RGFW_isMouseHeld(RGFW_window* win, RGFW_mouseButton button) { - return (RGFW_isMousePressed(win, button) && RGFW_wasMousePressed(win, button)); -} -RGFW_bool RGFW_isMouseReleased(RGFW_window* win, RGFW_mouseButton button) { - return (!RGFW_isMousePressed(win, button) && RGFW_wasMousePressed(win, button)); -} - -RGFW_point RGFW_window_getMousePoint(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - return win->_lastMousePoint; -} - -RGFW_bool RGFW_isPressed(RGFW_window* win, RGFW_key key) { - return RGFW_keyboard[key].current && (win == NULL || win->event.inFocus); -} - -RGFW_bool RGFW_wasPressed(RGFW_window* win, RGFW_key key) { - return RGFW_keyboard[key].prev && (win == NULL || win->event.inFocus); -} - -RGFW_bool RGFW_isHeld(RGFW_window* win, RGFW_key key) { - return (RGFW_isPressed(win, key) && RGFW_wasPressed(win, key)); -} - -RGFW_bool RGFW_isClicked(RGFW_window* win, RGFW_key key) { - return (RGFW_wasPressed(win, key) && !RGFW_isPressed(win, key)); -} - -RGFW_bool RGFW_isReleased(RGFW_window* win, RGFW_key key) { - return (!RGFW_isPressed(win, key) && RGFW_wasPressed(win, key)); -} - -#ifndef RGFW_CUSTOM_BACKEND -void RGFW_window_makeCurrent(RGFW_window* win) { -#if defined(RGFW_OPENGL) - RGFW_window_makeCurrent_OpenGL(win); -#else - RGFW_UNUSED(win); -#endif -} -#endif - -RGFWDEF void RGFW_setBit(u32* data, u32 bit, RGFW_bool value); -void RGFW_setBit(u32* data, u32 bit, RGFW_bool value) { - if (value) - *data |= bit; - else if (!value && (*(data) & bit)) - *data ^= bit; -} - -void RGFW_window_setGPURender(RGFW_window* win, RGFW_bool set) { - RGFW_setBit(&win->_flags, RGFW_NO_GPU_RENDER, !set); -} - -void RGFW_window_setCPURender(RGFW_window* win, RGFW_bool set) { - RGFW_setBit(&win->_flags, RGFW_NO_CPU_RENDER, !set); -} - -void RGFW_window_center(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_area screenR = RGFW_getScreenSize(); - RGFW_window_move(win, RGFW_POINT((screenR.w - win->r.w) / 2, (screenR.h - win->r.h) / 2)); -} - -RGFW_bool RGFW_monitor_scaleToWindow(RGFW_monitor mon, RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - RGFW_monitorMode mode; - mode.area = RGFW_AREA(win->r.w, win->r.h); - return RGFW_monitor_requestMode(mon, mode, RGFW_monitorScale); -} - - -void RGFW_splitBPP(u32 bpp, RGFW_monitorMode* mode) { - if (bpp == 32) bpp = 24; - mode->red = mode->green = mode->blue = bpp / 3; - - u32 delta = bpp - (mode->red * 3); // handle leftovers - if (delta >= 1) mode->green = mode->green + 1; - if (delta == 2) mode->red = mode->red + 1; -} - -RGFW_bool RGFW_monitorModeCompare(RGFW_monitorMode mon, RGFW_monitorMode mon2, RGFW_modeRequest request) { - return (((mon.area.w == mon2.area.w && mon.area.h == mon2.area.h) || !(request & RGFW_monitorScale)) && - ((mon.refreshRate == mon2.refreshRate) || !(request & RGFW_monitorRefresh)) && - ((mon.red == mon2.red && mon.green == mon2.green && mon.blue == mon2.blue) || !(request & RGFW_monitorRGB))); -} - -RGFW_bool RGFW_window_shouldClose(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - return (win->event.type == RGFW_quit || RGFW_isPressed(win, RGFW_escape)); -} - -void RGFW_window_setShouldClose(RGFW_window* win) { win->event.type = RGFW_quit; RGFW_windowQuitCallback(win); } - -#ifndef RGFW_NO_MONITOR -void RGFW_window_scaleToMonitor(RGFW_window* win) { - RGFW_monitor monitor = RGFW_window_getMonitor(win); - if (monitor.scaleX == 0 && monitor.scaleY == 0) - return; - - RGFW_window_resize(win, RGFW_AREA((u32)(monitor.scaleX * (float)win->r.w), (u32)(monitor.scaleY * (float)win->r.h))); -} - -void RGFW_window_moveToMonitor(RGFW_window* win, RGFW_monitor m) { - RGFW_window_move(win, RGFW_POINT(m.x + win->r.x, m.y + win->r.y)); -} -#endif - -RGFW_bool RGFW_window_setIcon(RGFW_window* win, u8* icon, RGFW_area a, i32 channels) { - return RGFW_window_setIconEx(win, icon, a, channels, RGFW_iconBoth); -} - -RGFWDEF void RGFW_captureCursor(RGFW_window* win, RGFW_rect); -RGFWDEF void RGFW_releaseCursor(RGFW_window* win); - -void RGFW_window_mouseHold(RGFW_window* win, RGFW_area area) { - if ((win->_flags & RGFW_HOLD_MOUSE)) - return; - - if (!area.w && !area.h) - area = RGFW_AREA(win->r.w / 2, win->r.h / 2); - - win->_flags |= RGFW_HOLD_MOUSE; - RGFW_captureCursor(win, win->r); - RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); -} - -void RGFW_window_mouseUnhold(RGFW_window* win) { - win->_flags &= ~RGFW_HOLD_MOUSE; - RGFW_releaseCursor(win); -} - -u32 RGFW_window_checkFPS(RGFW_window* win, u32 fpsCap) { - u64 deltaTime = RGFW_getTimeNS() - win->event.frameTime; - - u32 output_fps = 0; - u64 fps = RGFW_ROUND(1e+9 / deltaTime); - output_fps= fps; - - if (fpsCap && fps > fpsCap) { - u64 frameTimeNS = 1e+9 / fpsCap; - u64 sleepTimeMS = (frameTimeNS - deltaTime) / 1e6; - - if (sleepTimeMS > 0) { - RGFW_sleep(sleepTimeMS); - win->event.frameTime = 0; - } - } - - win->event.frameTime = RGFW_getTimeNS(); - - if (fpsCap == 0) - return (u32) output_fps; - - deltaTime = RGFW_getTimeNS() - win->event.frameTime2; - output_fps = RGFW_ROUND(1e+9 / deltaTime); - win->event.frameTime2 = RGFW_getTimeNS(); - - return output_fps; -} - -u32 RGFW_isPressedGamepad(RGFW_window* win, u8 c, RGFW_gamepadCodes button) { - RGFW_UNUSED(win); - return RGFW_gamepadPressed[c][button].current; -} -u32 RGFW_wasPressedGamepad(RGFW_window* win, u8 c, RGFW_gamepadCodes button) { - RGFW_UNUSED(win); - return RGFW_gamepadPressed[c][button].prev; -} -u32 RGFW_isReleasedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button) { - RGFW_UNUSED(win); - return !RGFW_isPressedGamepad(win, controller, button) && RGFW_wasPressedGamepad(win, controller, button); -} -u32 RGFW_isHeldGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button) { - RGFW_UNUSED(win); - return RGFW_isPressedGamepad(win, controller, button) && RGFW_wasPressedGamepad(win, controller, button); -} - -RGFW_point RGFW_getGamepadAxis(RGFW_window* win, u16 controller, u16 whichAxis) { - RGFW_UNUSED(win); - return RGFW_gamepadAxes[controller][whichAxis]; -} -const char* RGFW_getGamepadName(RGFW_window* win, u16 controller) { - RGFW_UNUSED(win); - return (const char*)RGFW_gamepads_name[controller]; -} - -size_t RGFW_getGamepadCount(RGFW_window* win) { - RGFW_UNUSED(win); - return RGFW_gamepadCount; -} - -RGFW_gamepadType RGFW_getGamepadType(RGFW_window* win, u16 controller) { - RGFW_UNUSED(win); - return RGFW_gamepads_type[controller]; -} - -RGFWDEF void RGFW_updateKeyMod(RGFW_window* win, RGFW_keymod mod, RGFW_bool value); -void RGFW_updateKeyMod(RGFW_window* win, RGFW_keymod mod, RGFW_bool value) { - RGFW_setBit((u32*)&win->event.keyMod, mod, value); -} - -RGFWDEF void RGFW_updateKeyModsPro(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll); -void RGFW_updateKeyModsPro(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll) { - RGFW_updateKeyMod(win, RGFW_modCapsLock, capital); - RGFW_updateKeyMod(win, RGFW_modNumLock, numlock); - RGFW_updateKeyMod(win, RGFW_modControl, control); - RGFW_updateKeyMod(win, RGFW_modAlt, alt); - RGFW_updateKeyMod(win, RGFW_modShift, shift); - RGFW_updateKeyMod(win, RGFW_modSuper, super); - RGFW_updateKeyMod(win, RGFW_modScrollLock, scroll); -} - -RGFWDEF void RGFW_updateKeyMods(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool scroll); -void RGFW_updateKeyMods(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool scroll) { - RGFW_updateKeyModsPro(win, capital, numlock, - RGFW_isPressed(win, RGFW_controlL) || RGFW_isPressed(win, RGFW_controlR), - RGFW_isPressed(win, RGFW_altL) || RGFW_isPressed(win, RGFW_altR), - RGFW_isPressed(win, RGFW_shiftL) || RGFW_isPressed(win, RGFW_shiftR), - RGFW_isPressed(win, RGFW_superL) || RGFW_isPressed(win, RGFW_superR), - scroll); -} - -RGFWDEF void RGFW_window_showMouseFlags(RGFW_window* win, RGFW_bool show); -void RGFW_window_showMouseFlags(RGFW_window* win, RGFW_bool show) { - if (show && (win->_flags & RGFW_windowHideMouse)) - win->_flags ^= RGFW_windowHideMouse; - else if (!show && !(win->_flags & RGFW_windowHideMouse)) - win->_flags |= RGFW_windowHideMouse; -} - -RGFW_bool RGFW_window_mouseHidden(RGFW_window* win) { - return (RGFW_bool)RGFW_BOOL(win->_flags & RGFW_windowHideMouse); -} - -RGFW_bool RGFW_window_borderless(RGFW_window* win) { - return (RGFW_bool)RGFW_BOOL(win->_flags & RGFW_windowNoBorder); -} - -RGFW_bool RGFW_window_isFullscreen(RGFW_window* win){ return RGFW_BOOL(win->_flags & RGFW_windowFullscreen); } -RGFW_bool RGFW_window_allowsDND(RGFW_window* win) { return RGFW_BOOL(win->_flags & RGFW_windowAllowDND); } -#ifndef RGFW_WINDOWS -void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow) { - RGFW_setBit(&win->_flags, RGFW_windowAllowDND, allow); -} -#endif - -#if defined(RGFW_X11) || defined(RGFW_MACOS) || defined(RGFW_WASM) || defined(RGFW_WAYLAND) -#include -struct timespec; - -#ifndef RGFW_NO_UNIX_CLOCK -int nanosleep(const struct timespec* duration, struct timespec* rem); -int clock_gettime(clockid_t clk_id, struct timespec* tp); -#endif - -int setenv(const char *name, const char *value, int overwrite); -#endif - -#if defined(RGFW_X11) || defined(RGFW_WINDOWS) -void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { - RGFW_window_showMouseFlags(win, show); - if (show == 0) - RGFW_window_setMouse(win, RGFW_hiddenMouse); - else - RGFW_window_setMouseDefault(win); -} -#endif - -#ifndef RGFW_MACOS -void RGFW_moveToMacOSResourceDir(void) { } -#endif - -/* - graphics API specific code (end of generic code) - starts here -*/ - - -/* - OpenGL defines start here (Normal, EGL, OSMesa) -*/ - -#if defined(RGFW_OPENGL) || defined(RGFW_EGL) - -#ifdef RGFW_WINDOWS - #define WIN32_LEAN_AND_MEAN - #define OEMRESOURCE - #include -#endif - -#if !defined(__APPLE__) && !defined(RGFW_NO_GL_HEADER) - #include -#elif defined(__APPLE__) - #ifndef GL_SILENCE_DEPRECATION - #define GL_SILENCE_DEPRECATION - #endif - #include - #include -#endif - -/* EGL, normal OpenGL only */ -#ifndef RGFW_EGL -i32 RGFW_GL_HINTS[RGFW_glFinalHint] = {8, 4, -#else -i32 RGFW_GL_HINTS[RGFW_glFinalHint] = {0, 0, -#endif - 0, 0, 1, 8, 8, 8, 8, 24, 0, 0, 0, 0, 0, 0, 0, 0, RGFW_glReleaseNone, RGFW_glCore, 0, 0}; - -void RGFW_setGLHint(RGFW_glHints hint, i32 value) { - if (hint < RGFW_glFinalHint && hint) RGFW_GL_HINTS[hint] = value; -} - -/* OPENGL normal only (no EGL / OSMesa) */ -#if !defined(RGFW_EGL) && !defined(RGFW_CUSTOM_BACKEND) - -#define RGFW_GL_RENDER_TYPE RGFW_OS_BASED_VALUE(GLX_X_VISUAL_TYPE, 0x2003, 73, 0) - #define RGFW_GL_ALPHA_SIZE RGFW_OS_BASED_VALUE(GLX_ALPHA_SIZE, 0x201b, 11, 0) - #define RGFW_GL_DEPTH_SIZE RGFW_OS_BASED_VALUE(GLX_DEPTH_SIZE, 0x2022, 12, 0) - #define RGFW_GL_DOUBLEBUFFER RGFW_OS_BASED_VALUE(GLX_DOUBLEBUFFER, 0x2011, 5, 0) - #define RGFW_GL_STENCIL_SIZE RGFW_OS_BASED_VALUE(GLX_STENCIL_SIZE, 0x2023, 13, 0) - #define RGFW_GL_SAMPLES RGFW_OS_BASED_VALUE(GLX_SAMPLES, 0x2042, 55, 0) - #define RGFW_GL_STEREO RGFW_OS_BASED_VALUE(GLX_STEREO, 0x2012, 6, 0) - #define RGFW_GL_AUX_BUFFERS RGFW_OS_BASED_VALUE(GLX_AUX_BUFFERS, 0x2024, 7, 0) - -#if defined(RGFW_X11) || defined(RGFW_WINDOWS) - #define RGFW_GL_DRAW RGFW_OS_BASED_VALUE(GLX_X_RENDERABLE, 0x2001, 0, 0) - #define RGFW_GL_DRAW_TYPE RGFW_OS_BASED_VALUE(GLX_RENDER_TYPE, 0x2013, 0, 0) - #define RGFW_GL_FULL_FORMAT RGFW_OS_BASED_VALUE(GLX_TRUE_COLOR, 0x2027, 0, 0) - #define RGFW_GL_RED_SIZE RGFW_OS_BASED_VALUE(GLX_RED_SIZE, 0x2015, 0, 0) - #define RGFW_GL_GREEN_SIZE RGFW_OS_BASED_VALUE(GLX_GREEN_SIZE, 0x2017, 0, 0) - #define RGFW_GL_BLUE_SIZE RGFW_OS_BASED_VALUE(GLX_BLUE_SIZE, 0x2019, 0, 0) - #define RGFW_GL_USE_RGBA RGFW_OS_BASED_VALUE(GLX_RGBA_BIT, 0x202B, 0, 0) - #define RGFW_GL_ACCUM_RED_SIZE RGFW_OS_BASED_VALUE(14, 0x201E, 0, 0) - #define RGFW_GL_ACCUM_GREEN_SIZE RGFW_OS_BASED_VALUE(15, 0x201F, 0, 0) - #define RGFW_GL_ACCUM_BLUE_SIZE RGFW_OS_BASED_VALUE(16, 0x2020, 0, 0) - #define RGFW_GL_ACCUM_ALPHA_SIZE RGFW_OS_BASED_VALUE(17, 0x2021, 0, 0) - #define RGFW_GL_SRGB RGFW_OS_BASED_VALUE(0x20b2, 0x3089, 0, 0) - #define RGFW_GL_NOERROR RGFW_OS_BASED_VALUE(0x31b3, 0x31b3, 0, 0) - #define RGFW_GL_FLAGS RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) - #define RGFW_GL_RELEASE_BEHAVIOR RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_ARB, 0x2097 , 0, 0) - #define RGFW_GL_CONTEXT_RELEASE RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_FLUSH_ARB, 0x2098, 0, 0) - #define RGFW_GL_CONTEXT_NONE RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_NONE_ARB, 0x0000, 0, 0) - #define RGFW_GL_FLAGS RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) - #define RGFW_GL_DEBUG_BIT RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) - #define RGFW_GL_ROBUST_BIT RGFW_OS_BASED_VALUE(GLX_CONTEXT_ROBUST_ACCESS_BIT_ARB, 0x00000004, 0, 0) -#endif - -#ifdef RGFW_WINDOWS - #define WGL_SUPPORT_OPENGL_ARB 0x2010 - #define WGL_COLOR_BITS_ARB 0x2014 - #define WGL_NUMBER_PIXEL_FORMATS_ARB 0x2000 - #define WGL_CONTEXT_MAJOR_VERSION_ARB 0x2091 - #define WGL_CONTEXT_MINOR_VERSION_ARB 0x2092 - #define WGL_CONTEXT_PROFILE_MASK_ARB 0x9126 - #define WGL_CONTEXT_CORE_PROFILE_BIT_ARB 0x00000001 - #define WGL_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB 0x00000002 - #define WGL_SAMPLE_BUFFERS_ARB 0x2041 - #define WGL_FRAMEBUFFER_SRGB_CAPABLE_ARB 0x20a9 - #define WGL_PIXEL_TYPE_ARB 0x2013 - #define WGL_TYPE_RGBA_ARB 0x202B - - #define WGL_TRANSPARENT_ARB 0x200A -#endif - -/* The window'ing api needs to know how to render the data we (or opengl) give it - MacOS and Windows do this using a structure called a "pixel format" - X11 calls it a "Visual" - This function returns the attributes for the format we want */ -u32* RGFW_initFormatAttribs(u32 useSoftware) { - RGFW_UNUSED(useSoftware); - static u32 attribs[] = { - #if defined(RGFW_X11) || defined(RGFW_WINDOWS) - RGFW_GL_RENDER_TYPE, - RGFW_GL_FULL_FORMAT, - RGFW_GL_DRAW, 1, - RGFW_GL_DRAW_TYPE , RGFW_GL_USE_RGBA, - #endif - - #ifdef RGFW_X11 - GLX_DRAWABLE_TYPE , GLX_WINDOW_BIT, - #endif - - #ifdef RGFW_MACOS - 72, - 8, 24, - #endif - - #ifdef RGFW_WINDOWS - WGL_SUPPORT_OPENGL_ARB, 1, - WGL_PIXEL_TYPE_ARB, WGL_TYPE_RGBA_ARB, - WGL_COLOR_BITS_ARB, 32, - #endif - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 - }; - - size_t index = (sizeof(attribs) / sizeof(attribs[0])) - 27; - - #define RGFW_GL_ADD_ATTRIB(attrib, attVal) \ - if (attVal) { \ - attribs[index] = attrib;\ - attribs[index + 1] = attVal;\ - index += 2;\ - } - - #if defined(RGFW_MACOS) && defined(RGFW_COCOA_GRAPHICS_SWITCHING) - RGFW_GL_ADD_ATTRIB(96, kCGLPFASupportsAutomaticGraphicsSwitching); - #endif - - RGFW_GL_ADD_ATTRIB(RGFW_GL_DOUBLEBUFFER, 1); - - RGFW_GL_ADD_ATTRIB(RGFW_GL_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAlpha]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_DEPTH_SIZE, RGFW_GL_HINTS[RGFW_glDepth]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_STENCIL_SIZE, RGFW_GL_HINTS[RGFW_glStencil]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_STEREO, RGFW_GL_HINTS[RGFW_glStereo]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_AUX_BUFFERS, RGFW_GL_HINTS[RGFW_glAuxBuffers]); - - #if defined(RGFW_X11) || defined(RGFW_WINDOWS) - RGFW_GL_ADD_ATTRIB(RGFW_GL_RED_SIZE, RGFW_GL_HINTS[RGFW_glRed]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glBlue]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glGreen]); - #endif - - #if defined(RGFW_X11) || defined(RGFW_WINDOWS) - RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_RED_SIZE, RGFW_GL_HINTS[RGFW_glAccumRed]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glAccumBlue]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glAccumGreen]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAccumAlpha]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_SRGB, RGFW_GL_HINTS[RGFW_glSRGB]); - RGFW_GL_ADD_ATTRIB(RGFW_GL_NOERROR, RGFW_GL_HINTS[RGFW_glNoError]); - - if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_releaseFlush) { - RGFW_GL_ADD_ATTRIB(RGFW_GL_RELEASE_BEHAVIOR, RGFW_GL_CONTEXT_RELEASE); - } else if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_glReleaseNone) { - RGFW_GL_ADD_ATTRIB(RGFW_GL_RELEASE_BEHAVIOR, RGFW_GL_CONTEXT_NONE); - } - - u32 flags = 0; - if (RGFW_GL_HINTS[RGFW_glDebug]) flags |= RGFW_GL_DEBUG_BIT; - if (RGFW_GL_HINTS[RGFW_glRobustness]) flags |= RGFW_GL_ROBUST_BIT; - RGFW_GL_ADD_ATTRIB(RGFW_GL_FLAGS, flags); - #else - u32 accumSize = (RGFW_GL_HINTS[RGFW_glAccumRed] + RGFW_GL_HINTS[RGFW_glAccumGreen] + RGFW_GL_HINTS[RGFW_glAccumBlue] + RGFW_GL_HINTS[RGFW_glAccumAlpha]) / 4; - RGFW_GL_ADD_ATTRIB(14, accumSize); - #endif - - #ifndef RGFW_X11 - RGFW_GL_ADD_ATTRIB(RGFW_GL_SAMPLES, RGFW_GL_HINTS[RGFW_glSamples]); - #endif - - #ifdef RGFW_MACOS - if (useSoftware) { - RGFW_GL_ADD_ATTRIB(70, kCGLRendererGenericFloatID); - } else { - attribs[index] = RGFW_GL_RENDER_TYPE; - index += 1; - } - #endif - - #ifdef RGFW_MACOS - /* macOS has the surface attribs and the opengl attribs connected for some reason - maybe this is to give macOS more control to limit openGL/the opengl version? */ - - attribs[index] = 99; - attribs[index + 1] = 0x1000; - - - if (RGFW_GL_HINTS[RGFW_glMinor] >= 4 || RGFW_GL_HINTS[RGFW_glMinor] >= 3) { - attribs[index + 1] = (u32) ((RGFW_GL_HINTS[RGFW_glMinor] >= 4) ? 0x4100 : 0x3200); - } - #endif - - RGFW_GL_ADD_ATTRIB(0, 0); - - return attribs; -} - -/* EGL only (no OSMesa nor normal OPENGL) */ -#elif defined(RGFW_EGL) - -#include - -#if defined(RGFW_LINK_EGL) - typedef EGLBoolean(EGLAPIENTRY* PFN_eglInitialize)(EGLDisplay, EGLint*, EGLint*); - - PFNEGLINITIALIZEPROC eglInitializeSource; - PFNEGLGETCONFIGSPROC eglGetConfigsSource; - PFNEGLCHOOSECONFIgamepadROC eglChooseConfigSource; - PFNEGLCREATEWINDOWSURFACEPROC eglCreateWindowSurfaceSource; - PFNEGLCREATECONTEXTPROC eglCreateContextSource; - PFNEGLMAKECURRENTPROC eglMakeCurrentSource; - PFNEGLGETDISPLAYPROC eglGetDisplaySource; - PFNEGLSWAPBUFFERSPROC eglSwapBuffersSource; - PFNEGLSWAPINTERVALPROC eglSwapIntervalSource; - PFNEGLBINDAPIPROC eglBindAPISource; - PFNEGLDESTROYCONTEXTPROC eglDestroyContextSource; - PFNEGLTERMINATEPROC eglTerminateSource; - PFNEGLDESTROYSURFACEPROC eglDestroySurfaceSource; - - #define eglInitialize eglInitializeSource - #define eglGetConfigs eglGetConfigsSource - #define eglChooseConfig eglChooseConfigSource - #define eglCreateWindowSurface eglCreateWindowSurfaceSource - #define eglCreateContext eglCreateContextSource - #define eglMakeCurrent eglMakeCurrentSource - #define eglGetDisplay eglGetDisplaySource - #define eglSwapBuffers eglSwapBuffersSource - #define eglSwapInterval eglSwapIntervalSource - #define eglBindAPI eglBindAPISource - #define eglDestroyContext eglDestroyContextSource - #define eglTerminate eglTerminateSource - #define eglDestroySurface eglDestroySurfaceSource; -#endif - - -#define EGL_SURFACE_MAJOR_VERSION_KHR 0x3098 -#define EGL_SURFACE_MINOR_VERSION_KHR 0x30fb - -#ifndef RGFW_GL_ADD_ATTRIB -#define RGFW_GL_ADD_ATTRIB(attrib, attVal) \ - if (attVal) { \ - attribs[index] = attrib;\ - attribs[index + 1] = attVal;\ - index += 2;\ - } -#endif - - -void RGFW_createOpenGLContext(RGFW_window* win) { -#if defined(RGFW_LINK_EGL) - eglInitializeSource = (PFNEGLINITIALIZEPROC) eglGetProcAddress("eglInitialize"); - eglGetConfigsSource = (PFNEGLGETCONFIGSPROC) eglGetProcAddress("eglGetConfigs"); - eglChooseConfigSource = (PFNEGLCHOOSECONFIgamepadROC) eglGetProcAddress("eglChooseConfig"); - eglCreateWindowSurfaceSource = (PFNEGLCREATEWINDOWSURFACEPROC) eglGetProcAddress("eglCreateWindowSurface"); - eglCreateContextSource = (PFNEGLCREATECONTEXTPROC) eglGetProcAddress("eglCreateContext"); - eglMakeCurrentSource = (PFNEGLMAKECURRENTPROC) eglGetProcAddress("eglMakeCurrent"); - eglGetDisplaySource = (PFNEGLGETDISPLAYPROC) eglGetProcAddress("eglGetDisplay"); - eglSwapBuffersSource = (PFNEGLSWAPBUFFERSPROC) eglGetProcAddress("eglSwapBuffers"); - eglSwapIntervalSource = (PFNEGLSWAPINTERVALPROC) eglGetProcAddress("eglSwapInterval"); - eglBindAPISource = (PFNEGLBINDAPIPROC) eglGetProcAddress("eglBindAPI"); - eglDestroyContextSource = (PFNEGLDESTROYCONTEXTPROC) eglGetProcAddress("eglDestroyContext"); - eglTerminateSource = (PFNEGLTERMINATEPROC) eglGetProcAddress("eglTerminate"); - eglDestroySurfaceSource = (PFNEGLDESTROYSURFACEPROC) eglGetProcAddress("eglDestroySurface"); -#endif /* RGFW_LINK_EGL */ - - #ifdef RGFW_WINDOWS - win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.hdc); - #elif defined(RGFW_MACOS) - win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType)0); - #elif defined(RGFW_WAYLAND) - if (RGFW_useWaylandBool) - win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.wl_display); - else - win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.display); - #else - win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.display); - #endif - - EGLint major, minor; - - eglInitialize(win->src.EGL_display, &major, &minor); - - #ifndef EGL_OPENGL_ES1_BIT - #define EGL_OPENGL_ES1_BIT 0x1 - #endif - - EGLint egl_config[] = { - EGL_SURFACE_TYPE, EGL_WINDOW_BIT, - EGL_RENDERABLE_TYPE, - #ifdef RGFW_OPENGL_ES1 - EGL_OPENGL_ES1_BIT, - #elif defined(RGFW_OPENGL_ES3) - EGL_OPENGL_ES3_BIT, - #elif defined(RGFW_OPENGL_ES2) - EGL_OPENGL_ES2_BIT, - #else - EGL_OPENGL_BIT, - #endif - EGL_NONE, EGL_NONE - }; - - { - size_t index = 7; - EGLint* attribs = egl_config; - - RGFW_GL_ADD_ATTRIB(EGL_RED_SIZE, RGFW_GL_HINTS[RGFW_glRed]); - RGFW_GL_ADD_ATTRIB(EGL_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glBlue]); - RGFW_GL_ADD_ATTRIB(EGL_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glGreen]); - RGFW_GL_ADD_ATTRIB(EGL_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAlpha]); - RGFW_GL_ADD_ATTRIB(EGL_DEPTH_SIZE, RGFW_GL_HINTS[RGFW_glDepth]); - - if (RGFW_GL_HINTS[RGFW_glSRGB]) - RGFW_GL_ADD_ATTRIB(0x3089, RGFW_GL_HINTS[RGFW_glSRGB]); - - RGFW_GL_ADD_ATTRIB(EGL_NONE, EGL_NONE); - } - - EGLConfig config; - EGLint numConfigs; - eglChooseConfig(win->src.EGL_display, egl_config, &config, 1, &numConfigs); - - #if defined(RGFW_MACOS) - void* layer = RGFW_cocoaGetLayer(); - - RGFW_window_cocoaSetLayer(win, layer); - - win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) layer, NULL); - #elif defined(RGFW_WINDOWS) - win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); - #elif defined(RGFW_WAYLAND) - if (RGFW_useWaylandBool) - win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.eglWindow, NULL); - else - win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); - #else - win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); - #endif - - EGLint attribs[] = { - EGL_CONTEXT_CLIENT_VERSION, - #ifdef RGFW_OPENGL_ES1 - 1, - #else - 2, - #endif - EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE, EGL_NONE - }; - - size_t index = 4; - RGFW_GL_ADD_ATTRIB(EGL_STENCIL_SIZE, RGFW_GL_HINTS[RGFW_glStencil]); - RGFW_GL_ADD_ATTRIB(EGL_SAMPLES, RGFW_GL_HINTS[RGFW_glSamples]); - - if (RGFW_GL_HINTS[RGFW_glDoubleBuffer]) - RGFW_GL_ADD_ATTRIB(EGL_RENDER_BUFFER, EGL_BACK_BUFFER); - - if (RGFW_GL_HINTS[RGFW_glMinor]) { - attribs[1] = RGFW_GL_HINTS[RGFW_glMinor]; - - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_MAJOR_VERSION, RGFW_GL_HINTS[RGFW_glMinor]); - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_MINOR_VERSION, RGFW_GL_HINTS[RGFW_glMajor]); - - if (RGFW_GL_HINTS[RGFW_glProfile] == RGFW_glCore) { - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_PROFILE_MASK, EGL_CONTEXT_OPENGL_CORE_PROFILE_BIT); - } - else { - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_PROFILE_MASK, EGL_CONTEXT_OPENGL_COMPATIBILITY_PROFILE_BIT); - } - } - - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_ROBUST_ACCESS, RGFW_GL_HINTS[RGFW_glRobustness]); - RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_DEBUG, RGFW_GL_HINTS[RGFW_glDebug]); - if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_releaseFlush) { - RGFW_GL_ADD_ATTRIB(0x2097, 0x2098); - } else { - RGFW_GL_ADD_ATTRIB(0x2097, 0x0000); - } - - #if defined(RGFW_OPENGL_ES1) || defined(RGFW_OPENGL_ES2) || defined(RGFW_OPENGL_ES3) - eglBindAPI(EGL_OPENGL_ES_API); - #else - eglBindAPI(EGL_OPENGL_API); - #endif - - win->src.EGL_context = eglCreateContext(win->src.EGL_display, config, EGL_NO_CONTEXT, attribs); - - if (win->src.EGL_context == NULL) { - #ifdef RGFW_DEBUG - fprintf(stderr, "failed to create an EGL opengl context\n"); - #endif - } - eglMakeCurrent(win->src.EGL_display, win->src.EGL_surface, win->src.EGL_surface, win->src.EGL_context); - eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); -} - -void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { - eglMakeCurrent(win->src.EGL_display, win->src.EGL_surface, win->src.EGL_surface, win->src.EGL_context); -} - -void* RGFW_getCurrent_OpenGL(void) { return eglGetCurrentContext(); } - -#ifdef RGFW_APPLE -void* RGFWnsglFramework = NULL; -#elif defined(RGFW_WINDOWS) -static HMODULE RGFW_wgl_dll = NULL; -#endif - -void* RGFW_getProcAddress(const char* procname) { - #if defined(RGFW_WINDOWS) - void* proc = (void*) GetProcAddress(RGFW_wgl_dll, procname); - - if (proc) - return proc; - #endif - - return (void*) eglGetProcAddress(procname); -} - -void RGFW_closeEGL(RGFW_window* win) { - eglDestroySurface(win->src.EGL_display, win->src.EGL_surface); - eglDestroyContext(win->src.EGL_display, win->src.EGL_context); - - eglTerminate(win->src.EGL_display); -} - -void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { - RGFW_ASSERT(win != NULL); - - eglSwapInterval(win->src.EGL_display, swapInterval); - -} - -#endif /* RGFW_EGL */ - -/* - end of RGFW_EGL defines -*/ -/* end of RGFW_GL (OpenGL, EGL, OSMesa )*/ - -/* - RGFW_VULKAN defines -*/ -#elif defined(RGFW_VULKAN) - -VkResult RGFW_window_createVKSurface(RGFW_window* win, VkInstance instance, VkSurfaceKHR* surface) { - assert(win != NULL); assert(instance); - assert(surface != NULL); - - *surface = VK_NULL_HANDLE; - -#ifdef RGFW_X11 - VkXlibSurfaceCreateInfoKHR x11 = { VK_STRUCTURE_TYPE_XLIB_SURFACE_CREATE_INFO_KHR, 0, 0, (Display*) win->src.display, (Window) win->src.window }; - return vkCreateXlibSurfaceKHR(instance, &x11, NULL, surface); -#elif defined(RGFW_WINDOWS) - VkWin32SurfaceCreateInfoKHR win32 = { VK_STRUCTURE_TYPE_WIN32_SURFACE_CREATE_INFO_KHR, 0, 0, GetModuleHandle(NULL), (HWND)win->src.window }; - - return vkCreateWin32SurfaceKHR(instance, &win32, NULL, surface); -#elif defined(RGFW_MACOS) && !defined(RGFW_MACOS_X11) - VkMacOSSurfaceCreateFlagsMVK macos = { VK_STRUCTURE_TYPE_MACOS_SURFACE_CREATE_INFO_MVK, 0, 0, vulkWin->display, (void *)win->src.window }; - - return vkCreateMacOSSurfaceMVK(instance, &macos, NULL, surface); -#endif -} -#endif /* end of RGFW_vulkan */ - -/* -This is where OS specific stuff starts -*/ - - -#if (defined(RGFW_WAYLAND) || defined(RGFW_X11)) && !defined(RGFW_NO_LINUX) - int RGFW_eventWait_forceStop[] = {0, 0, 0}; /* for wait events */ - - #if defined(__linux__) - #include - #include - #include - #include - - u32 RGFW_linux_updateGamepad(RGFW_window* win) { - /* check for new gamepads */ - static const char* str[] = {"/dev/input/js0", "/dev/input/js1", "/dev/input/js2", "/dev/input/js3", "/dev/input/js4", "/dev/input/js5"}; - static u8 RGFW_rawGamepads[6]; - - for (size_t i = 0; i < 6; i++) { - size_t index = RGFW_gamepadCount; - if (RGFW_rawGamepads[i]) { - struct input_id device_info; - if (ioctl(RGFW_rawGamepads[i], EVIOCGID, &device_info) == -1) { - if (errno == ENODEV) { - RGFW_rawGamepads[i] = 0; - } - } - continue; - } - - i32 js = open(str[i], O_RDONLY); - - if (js <= 0) - break; - - if (RGFW_gamepadCount >= 4) { - close(js); - break; - } - - RGFW_rawGamepads[i] = 1; - - int axes, buttons; - if (ioctl(js, JSIOCGAXES, &axes) < 0 || ioctl(js, JSIOCGBUTTONS, &buttons) < 0) { - close(js); - continue; - } - - if (buttons <= 5 || buttons >= 30) { - close(js); - continue; - } - - RGFW_gamepadCount++; - - RGFW_gamepads[index] = js; - - ioctl(js, JSIOCGNAME(sizeof(RGFW_gamepads_name[index])), RGFW_gamepads_name[index]); - RGFW_gamepads_name[index][sizeof(RGFW_gamepads_name[index]) - 1] = 0; - - u8 j; - for (j = 0; j < 16; j++) - RGFW_gamepadPressed[index][j] = (RGFW_keyState){0, 0}; - - win->event.type = RGFW_gamepadConnected; - - RGFW_gamepads_type[index] = RGFW_gamepadUnknown; - if (strstr(RGFW_gamepads_name[index], "Microsoft") || strstr(RGFW_gamepads_name[index], "X-Box")) - RGFW_gamepads_type[index] = RGFW_gamepadMicrosoft; - else if (strstr(RGFW_gamepads_name[index], "PlayStation") || strstr(RGFW_gamepads_name[index], "PS3") || strstr(RGFW_gamepads_name[index], "PS4") || strstr(RGFW_gamepads_name[index], "PS5")) - RGFW_gamepads_type[index] = RGFW_gamepadSony; - else if (strstr(RGFW_gamepads_name[index], "Nintendo")) - RGFW_gamepads_type[index] = RGFW_gamepadNintendo; - else if (strstr(RGFW_gamepads_name[index], "Logitech")) - RGFW_gamepads_type[index] = RGFW_gamepadLogitech; - - win->event.gamepad = index; - RGFW_gamepadCallback(win, index, 1); - return 1; - } - - /* check gamepad events */ - u8 i; - - for (i = 0; i < RGFW_gamepadCount; i++) { - struct js_event e; - if (RGFW_gamepads[i] == 0) - continue; - - i32 flags = fcntl(RGFW_gamepads[i], F_GETFL, 0); - fcntl(RGFW_gamepads[i], F_SETFL, flags | O_NONBLOCK); - - ssize_t bytes; - while ((bytes = read(RGFW_gamepads[i], &e, sizeof(e))) > 0) { - switch (e.type) { - case JS_EVENT_BUTTON: { - size_t typeIndex = 0; - if (RGFW_gamepads_type[i] == RGFW_gamepadMicrosoft) typeIndex = 1; - else if (RGFW_gamepads_type[i] == RGFW_gamepadLogitech) typeIndex = 2; - - win->event.type = e.value ? RGFW_gamepadButtonPressed : RGFW_gamepadButtonReleased; - u8 RGFW_linux2RGFW[3][RGFW_gamepadR3 + 8] = {{ /* ps */ - RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadY, RGFW_gamepadX, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, - RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight, - },{ /* xbox */ - RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadSelect, RGFW_gamepadStart, - RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, 255, 255, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight - },{ /* Logitech */ - RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, - RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight - } - }; - - win->event.button = RGFW_linux2RGFW[typeIndex][e.number]; - win->event.gamepad = i; - if (win->event.button == 255) break; - - RGFW_gamepadPressed[i][win->event.button].prev = RGFW_gamepadPressed[i][win->event.button].current; - RGFW_gamepadPressed[i][win->event.button].current = e.value; - RGFW_gamepadButtonCallback(win, i, win->event.button, e.value); - - return 1; - } - case JS_EVENT_AXIS: { - size_t axis = e.number / 2; - if (axis == 2) axis = 1; - - ioctl(RGFW_gamepads[i], JSIOCGAXES, &win->event.axisesCount); - win->event.axisesCount = 2; - - if (axis < 3) { - if (e.number == 0 || e.number == 3) - RGFW_gamepadAxes[i][axis].x = (e.value / 32767.0f) * 100; - else if (e.number == 1 || e.number == 4) { - RGFW_gamepadAxes[i][axis].y = (e.value / 32767.0f) * 100; - } - } - - win->event.axis[axis] = RGFW_gamepadAxes[i][axis]; - win->event.type = RGFW_gamepadAxisMove; - win->event.gamepad = i; - win->event.whichAxis = axis; - RGFW_gamepadAxisCallback(win, i, win->event.axis, win->event.axisesCount, win->event.whichAxis); - return 1; - } - default: break; - } - } - if (bytes == -1 && errno == ENODEV) { - RGFW_gamepadCount--; - close(RGFW_gamepads[i]); - RGFW_gamepads[i] = 0; - - win->event.type = RGFW_gamepadDisconnected; - win->event.gamepad = i; - RGFW_gamepadCallback(win, i, 0); - return 1; - } - } - return 0; - } - - #endif -#endif - - - -/* - - Start of Wayland defines - - -*/ - -#ifdef RGFW_WAYLAND -/* -Wayland TODO: (out of date) -- fix RGFW_keyPressed lock state - - RGFW_windowMoved, the window was moved (by the user) - RGFW_windowResized the window was resized (by the user), [on WASM this means the browser was resized] - RGFW_windowRefresh The window content needs to be refreshed - - RGFW_DND a file has been dropped into the window - RGFW_DNDInit - -- window args: - #define RGFW_windowNoResize the window cannot be resized by the user - #define RGFW_windowAllowDND the window supports drag and drop - #define RGFW_scaleToMonitor scale the window to the screen - -- other missing functions functions ("TODO wayland") (~30 functions) -- fix buffer rendering weird behavior -*/ -#include -#include -#include -#include -#include -#include -#include -#include - -RGFW_window* RGFW_key_win = NULL; - -void RGFW_eventPipe_push(RGFW_window* win, RGFW_event event) { - if (win == NULL) { - win = RGFW_key_win; - - if (win == NULL) return; - } - - if (win->src.eventLen >= (i32)(sizeof(win->src.events) / sizeof(win->src.events[0]))) - return; - - win->src.events[win->src.eventLen] = event; - win->src.eventLen += 1; -} - -RGFW_event RGFW_eventPipe_pop(RGFW_window* win) { - RGFW_event ev; - ev.type = 0; - - if (win->src.eventLen > -1) - win->src.eventLen -= 1; - - if (win->src.eventLen >= 0) - ev = win->src.events[win->src.eventLen]; - - return ev; -} - -/* wayland global garbage (wayland bad, X11 is fine (ish) (not really)) */ -#include "xdg-shell.h" -#include "xdg-decoration-unstable-v1.h" - -static struct xkb_context *xkb_context; -static struct xkb_keymap *keymap = NULL; -static struct xkb_state *xkb_state = NULL; -enum zxdg_toplevel_decoration_v1_mode client_preferred_mode, RGFW_current_mode; -static struct zxdg_decoration_manager_v1 *decoration_manager = NULL; - -struct wl_cursor_theme* RGFW_wl_cursor_theme = NULL; -struct wl_surface* RGFW_cursor_surface = NULL; -struct wl_cursor_image* RGFW_cursor_image = NULL; - -static void xdg_wm_base_ping_handler(void *data, - struct xdg_wm_base *wm_base, uint32_t serial) -{ - RGFW_UNUSED(data); - xdg_wm_base_pong(wm_base, serial); -} - -static const struct xdg_wm_base_listener xdg_wm_base_listener = { - .ping = xdg_wm_base_ping_handler, -}; - -RGFW_bool RGFW_wl_configured = 0; - -static void xdg_surface_configure_handler(void *data, - struct xdg_surface *xdg_surface, uint32_t serial) -{ - RGFW_UNUSED(data); - xdg_surface_ack_configure(xdg_surface, serial); - #ifdef RGFW_DEBUG - printf("Surface configured\n"); - #endif - RGFW_wl_configured = 1; -} - -static const struct xdg_surface_listener xdg_surface_listener = { - .configure = xdg_surface_configure_handler, -}; - -static void xdg_toplevel_configure_handler(void *data, - struct xdg_toplevel *toplevel, int32_t width, int32_t height, - struct wl_array *states) -{ - RGFW_UNUSED(data); RGFW_UNUSED(toplevel); RGFW_UNUSED(states); - #ifdef RGFW_DEBUG - fprintf(stderr, "XDG toplevel configure: %dx%d\n", width, height); - #endif -} - -static void xdg_toplevel_close_handler(void *data, - struct xdg_toplevel *toplevel) -{ - RGFW_UNUSED(data); - RGFW_window* win = (RGFW_window*)xdg_toplevel_get_user_data(toplevel); - if (win == NULL) - win = RGFW_key_win; - - RGFW_event ev; - ev.type = RGFW_quit; - - RGFW_eventPipe_push(win, ev); - - RGFW_windowQuitCallback(win); -} - -static void shm_format_handler(void *data, - struct wl_shm *shm, uint32_t format) -{ - RGFW_UNUSED(data); RGFW_UNUSED(shm); - #ifdef RGFW_DEBUG - fprintf(stderr, "Format %d\n", format); - #endif -} - -static const struct wl_shm_listener shm_listener = { - .format = shm_format_handler, -}; - -static const struct xdg_toplevel_listener xdg_toplevel_listener = { - .configure = xdg_toplevel_configure_handler, - .close = xdg_toplevel_close_handler, -}; - -RGFW_window* RGFW_mouse_win = NULL; - -static void pointer_enter(void *data, struct wl_pointer *pointer, uint32_t serial, struct wl_surface *surface, wl_fixed_t surface_x, wl_fixed_t surface_y) { - RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(serial); RGFW_UNUSED(surface_x); RGFW_UNUSED(surface_y); - RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); - RGFW_mouse_win = win; - - RGFW_event ev; - ev.type = RGFW_mouseEnter; - ev.point = win->event.point; - - RGFW_eventPipe_push(win, ev); - - RGFW_mouseNotifyCallBack(win, win->event.point, RGFW_TRUE); -} -static void pointer_leave(void *data, struct wl_pointer *pointer, uint32_t serial, struct wl_surface *surface) { - RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(serial); RGFW_UNUSED(surface); - RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); - if (RGFW_mouse_win == win) - RGFW_mouse_win = NULL; - - RGFW_event ev; - ev.type = RGFW_mouseLeave; - ev.point = win->event.point; - RGFW_eventPipe_push(win, ev); - - RGFW_mouseNotifyCallBack(win, win->event.point, RGFW_FALSE); -} -static void pointer_motion(void *data, struct wl_pointer *pointer, uint32_t time, wl_fixed_t x, wl_fixed_t y) { - RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(x); RGFW_UNUSED(y); - - RGFW_ASSERT(RGFW_mouse_win != NULL); - - RGFW_event ev; - ev.type = RGFW_mousePosChanged; - ev.point = RGFW_POINT(wl_fixed_to_double(x), wl_fixed_to_double(y)); - RGFW_eventPipe_push(RGFW_mouse_win, ev); - - RGFW_mousePosCallback(RGFW_mouse_win, RGFW_POINT(wl_fixed_to_double(x), wl_fixed_to_double(y)), ev.vector); -} -static void pointer_button(void *data, struct wl_pointer *pointer, uint32_t serial, uint32_t time, uint32_t button, uint32_t state) { - RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(serial); - RGFW_ASSERT(RGFW_mouse_win != NULL); - - u32 b = (button - 0x110) + 1; - - /* flip right and middle button codes */ - if (b == 2) b = 3; - else if (b == 3) b = 2; - - RGFW_mouseButtons[b].prev = RGFW_mouseButtons[b].current; - RGFW_mouseButtons[b].current = state; - - RGFW_event ev; - ev.type = RGFW_mouseButtonPressed + state; - ev.button = b; - RGFW_eventPipe_push(RGFW_mouse_win, ev); - - RGFW_mouseButtonCallback(RGFW_mouse_win, b, 0, state); -} -static void pointer_axis(void *data, struct wl_pointer *pointer, uint32_t time, uint32_t axis, wl_fixed_t value) { - RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(axis); - RGFW_ASSERT(RGFW_mouse_win != NULL); - - double scroll = wl_fixed_to_double(value); - - RGFW_event ev; - ev.type = RGFW_mouseButtonPressed; - ev.button = RGFW_mouseScrollUp + (scroll < 0); - RGFW_eventPipe_push(RGFW_mouse_win, ev); - - RGFW_mouseButtonCallback(RGFW_mouse_win, RGFW_mouseScrollUp + (scroll < 0), scroll, 1); -} - -void RGFW_doNothing(void) { } -static struct wl_pointer_listener pointer_listener = (struct wl_pointer_listener){&pointer_enter, &pointer_leave, &pointer_motion, &pointer_button, &pointer_axis, (void*)&RGFW_doNothing, (void*)&RGFW_doNothing, (void*)&RGFW_doNothing, (void*)&RGFW_doNothing, (void*)&RGFW_doNothing, (void*)&RGFW_doNothing}; - -static void keyboard_keymap (void *data, struct wl_keyboard *keyboard, uint32_t format, int32_t fd, uint32_t size) { - RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(format); - - char *keymap_string = mmap (NULL, size, PROT_READ, MAP_SHARED, fd, 0); - xkb_keymap_unref (keymap); - keymap = xkb_keymap_new_from_string (xkb_context, keymap_string, XKB_KEYMAP_FORMAT_TEXT_V1, XKB_KEYMAP_COMPILE_NO_FLAGS); - - munmap (keymap_string, size); - close (fd); - xkb_state_unref (xkb_state); - xkb_state = xkb_state_new (keymap); -} -static void keyboard_enter (void *data, struct wl_keyboard *keyboard, uint32_t serial, struct wl_surface *surface, struct wl_array *keys) { - RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(keys); - - RGFW_key_win = (RGFW_window*)wl_surface_get_user_data(surface); - - RGFW_event ev; - ev.type = RGFW_focusIn; - ev.inFocus = RGFW_TRUE; - RGFW_key_win->event.inFocus = RGFW_TRUE; - - RGFW_eventPipe_push((RGFW_window*)RGFW_mouse_win, ev); - - RGFW_focusCallback(RGFW_key_win, RGFW_TRUE); -} -static void keyboard_leave (void *data, struct wl_keyboard *keyboard, uint32_t serial, struct wl_surface *surface) { - RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); - - RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); - if (RGFW_key_win == win) - RGFW_key_win = NULL; - - RGFW_event ev; - ev.type = RGFW_focusOut; - ev.inFocus = RGFW_FALSE; - win->event.inFocus = RGFW_FALSE; - RGFW_eventPipe_push(win, ev); - - RGFW_focusCallback(win, RGFW_FALSE); -} -static void keyboard_key (void *data, struct wl_keyboard *keyboard, uint32_t serial, uint32_t time, uint32_t key, uint32_t state) { - RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(time); - - RGFW_ASSERT(RGFW_key_win != NULL); - - xkb_keysym_t keysym = xkb_state_key_get_one_sym(xkb_state, key + 8); - - u32 RGFW_key = RGFW_apiKeyToRGFW(key + 8); - RGFW_keyboard[RGFW_key].prev = RGFW_keyboard[RGFW_key].current; - RGFW_keyboard[RGFW_key].current = state; - RGFW_event ev; - ev.type = RGFW_keyPressed + state; - ev.key = RGFW_key; - ev.keyChar = (u8)keysym; - - ev.repeat = RGFW_isHeld(RGFW_key_win, RGFW_key); - RGFW_eventPipe_push(RGFW_key_win, ev); - - RGFW_updateKeyMods(RGFW_key_win, xkb_keymap_mod_get_index(keymap, "Lock"), xkb_keymap_mod_get_index(keymap, "Mod2"), , xkb_keymap_mod_get_index(keymap, "ScrollLock")); - - RGFW_keyCallback(RGFW_key_win, RGFW_key, (u8)keysym, RGFW_key_win->event.keyMod, state); -} -static void keyboard_modifiers (void *data, struct wl_keyboard *keyboard, uint32_t serial, uint32_t mods_depressed, uint32_t mods_latched, uint32_t mods_locked, uint32_t group) { - RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(time); - xkb_state_update_mask (xkb_state, mods_depressed, mods_latched, mods_locked, 0, 0, group); -} -static struct wl_keyboard_listener keyboard_listener = {&keyboard_keymap, &keyboard_enter, &keyboard_leave, &keyboard_key, &keyboard_modifiers, (void*)&RGFW_doNothing}; - -static void seat_capabilities (void *data, struct wl_seat *seat, uint32_t capabilities) { - RGFW_UNUSED(data); - - if (capabilities & WL_SEAT_CAPABILITY_POINTER) { - struct wl_pointer *pointer = wl_seat_get_pointer (seat); - wl_pointer_add_listener (pointer, &pointer_listener, NULL); - } - if (capabilities & WL_SEAT_CAPABILITY_KEYBOARD) { - struct wl_keyboard *keyboard = wl_seat_get_keyboard (seat); - wl_keyboard_add_listener (keyboard, &keyboard_listener, NULL); - } -} -static struct wl_seat_listener seat_listener = {&seat_capabilities, (void*)&RGFW_doNothing}; - -static void wl_global_registry_handler(void *data, - struct wl_registry *registry, uint32_t id, const char *interface, - uint32_t version) -{ - RGFW_window* win = (RGFW_window*)data; - RGFW_UNUSED(version); - if (RGFW_STRNCMP(interface, "wl_compositor", 16) == 0) { - win->src.compositor = wl_registry_bind(registry, - id, &wl_compositor_interface, 4); - } else if (RGFW_STRNCMP(interface, "xdg_wm_base", 12) == 0) { - win->src.xdg_wm_base = wl_registry_bind(registry, - id, &xdg_wm_base_interface, 1); - } else if (RGFW_STRNCMP(interface, zxdg_decoration_manager_v1_interface.name, 255) == 0) { - decoration_manager = wl_registry_bind(registry, id, &zxdg_decoration_manager_v1_interface, 1); - } else if (RGFW_STRNCMP(interface, "wl_shm", 7) == 0) { - win->src.shm = wl_registry_bind(registry, - id, &wl_shm_interface, 1); - wl_shm_add_listener(win->src.shm, &shm_listener, NULL); - } else if (RGFW_STRNCMP(interface,"wl_seat", 8) == 0) { - win->src.seat = wl_registry_bind(registry, id, &wl_seat_interface, 1); - wl_seat_add_listener(win->src.seat, &seat_listener, NULL); - } - - else { - #ifdef RGFW_DEBUG - printf("did not register %s\n", interface); - return; - #endif - } - - #ifdef RGFW_DEBUG - printf("registered %s\n", interface); - #endif -} - -static void wl_global_registry_remove(void *data, struct wl_registry *registry, uint32_t name) { RGFW_UNUSED(data); RGFW_UNUSED(registry); RGFW_UNUSED(name); } -static const struct wl_registry_listener registry_listener = { - .global = wl_global_registry_handler, - .global_remove = wl_global_registry_remove, -}; - -static const char *get_mode_name(enum zxdg_toplevel_decoration_v1_mode mode) { - switch (mode) { - case ZXDG_TOPLEVEL_DECORATION_V1_MODE_CLIENT_SIDE: - return "client-side decorations"; - case ZXDG_TOPLEVEL_DECORATION_V1_MODE_SERVER_SIDE: - return "server-side decorations"; - } - abort(); -} - - -static void decoration_handle_configure(void *data, - struct zxdg_toplevel_decoration_v1 *decoration, - enum zxdg_toplevel_decoration_v1_mode mode) { - RGFW_UNUSED(data); RGFW_UNUSED(decoration); - #ifdef RGFW_DEBUG - printf("Using %s\n", get_mode_name(mode)); - #endif - RGFW_current_mode = mode; -} - -static const struct zxdg_toplevel_decoration_v1_listener decoration_listener = { - .configure = decoration_handle_configure, -}; - -static void randname(char *buf) { - struct timespec ts; - clock_gettime(CLOCK_REALTIME, &ts); - long r = ts.tv_nsec; - for (int i = 0; i < 6; ++i) { - buf[i] = 'A'+(r&15)+(r&16)*2; - r >>= 5; - } -} - -size_t wl_stringlen(char* name) { - size_t i = 0; - for (i; name[i]; i++); - return i; -} - -static int anonymous_shm_open(void) { - char name[] = "/RGFW-wayland-XXXXXX"; - int retries = 100; - - do { - randname(name + wl_stringlen(name) - 6); - - --retries; - // shm_open guarantees that O_CLOEXEC is set - int fd = shm_open(name, O_RDWR | O_CREAT | O_EXCL, 0600); - if (fd >= 0) { - shm_unlink(name); - return fd; - } - } while (retries > 0 && errno == EEXIST); - - return -1; -} - -int create_shm_file(off_t size) { - int fd = anonymous_shm_open(); - if (fd < 0) { - return fd; - } - - if (ftruncate(fd, size) < 0) { - close(fd); - return -1; - } - - return fd; -} - -static void wl_surface_frame_done(void *data, struct wl_callback *cb, uint32_t time) { - RGFW_UNUSED(data); RGFW_UNUSED(cb); RGFW_UNUSED(time); - - #ifdef RGFW_BUFFER - RGFW_window* win = (RGFW_window*)data; - if ((win->_flags & RGFW_NO_CPU_RENDER)) - return; - - wl_surface_attach(win->src.surface, win->src.wl_buffer, 0, 0); - wl_surface_damage_buffer(win->src.surface, 0, 0, win->r.w, win->r.h); - wl_surface_commit(win->src.surface); - #endif -} - -static const struct wl_callback_listener wl_surface_frame_listener = { - .done = wl_surface_frame_done, -}; -#endif /* RGFW_WAYLAND */ -#if !defined(RGFW_NO_X11) && defined(RGFW_WAYLAND) -void RGFW_useWayland(RGFW_bool wayland) { RGFW_useWaylandBool = wayland; } -#define RGFW_GOTO_WAYLAND(fallback) if (RGFW_useWaylandBool && fallback == 0) goto wayland -#else -#define RGFW_GOTO_WAYLAND(fallback) -void RGFW_useWayland(RGFW_bool wayland) { RGFW_UNUSED(wayland); } -#endif - -/* - End of Wayland defines -*/ - -/* - - -Start of Linux / Unix defines - - -*/ - -#ifdef RGFW_UNIX -#if !defined(RGFW_NO_X11_CURSOR) && defined(RGFW_X11) -#include -#endif - -#include - -#ifndef RGFW_NO_DPI -#include -#include -#endif - -#include -#include -#include -#include - -#include /* for converting keycode to string */ -#include /* for hiding */ -#include -#include -#include - -#include /* for data limits (mainly used in drag and drop functions) */ -#include - - -#if defined(__linux__) && !defined(RGFW_NO_LINUX) -#include -#endif - -/*atoms needed for drag and drop*/ -Atom XdndAware, XtextPlain, XtextUriList; -Atom RGFW_XUTF8_STRING = 0; - -Atom wm_delete_window = 0, RGFW_XCLIPBOARD = 0; - -#if !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) - typedef XcursorImage* (*PFN_XcursorImageCreate)(int, int); - typedef void (*PFN_XcursorImageDestroy)(XcursorImage*); - typedef Cursor(*PFN_XcursorImageLoadCursor)(Display*, const XcursorImage*); -#endif -#ifdef RGFW_OPENGL - typedef GLXContext(*glXCreateContextAttribsARBProc)(Display*, GLXFBConfig, GLXContext, Bool, const int*); -#endif - -#if !defined(RGFW_NO_X11_XI_PRELOAD) - typedef int (* PFN_XISelectEvents)(Display*,Window,XIEventMask*,int); - PFN_XISelectEvents XISelectEventsSRC = NULL; - #define XISelectEvents XISelectEventsSRC - - void* X11Xihandle = NULL; -#endif - -#if !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) - PFN_XcursorImageLoadCursor XcursorImageLoadCursorSRC = NULL; - PFN_XcursorImageCreate XcursorImageCreateSRC = NULL; - PFN_XcursorImageDestroy XcursorImageDestroySRC = NULL; - - #define XcursorImageLoadCursor XcursorImageLoadCursorSRC - #define XcursorImageCreate XcursorImageCreateSRC - #define XcursorImageDestroy XcursorImageDestroySRC - - void* X11Cursorhandle = NULL; -#endif - -const char* RGFW_instName = NULL; -void RGFW_setXInstName(const char* name) { - RGFW_instName = name; -} - -#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) - void* RGFW_getProcAddress(const char* procname) { return (void*) glXGetProcAddress((GLubyte*) procname); } -#endif - -void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area) { - RGFW_GOTO_WAYLAND(0); - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - win->buffer = (u8*)buffer; - win->bufferSize = area; - - #ifdef RGFW_DEBUG - printf("RGFW INFO: createing a 4 channel %i by %i buffer\n", area.w, area.h); - #endif - #ifdef RGFW_X11 - #ifdef RGFW_OSMESA - win->src.ctx = OSMesaCreateContext(OSMESA_BGRA, NULL); - OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); - #endif - - win->src.bitmap = XCreateImage( - win->src.display, XDefaultVisual(win->src.display, XDefaultScreen(win->src.display)), - 32, ZPixmap, 0, NULL, area.w, area.h, - 32, 0 - ); - #endif - #ifdef RGFW_WAYLAND - wayland: - size_t size = win->r.w * win->r.h * 4; - int fd = create_shm_file(size); - if (fd < 0) { - fprintf(stderr, "Failed to create a buffer. size: %ld\n", size); - exit(1); - - win->src.buffer = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); - if (win->src.buffer == MAP_FAILED) { - fprintf(stderr, "mmap failed!\n"); - close(fd); - exit(1); - } - - win->_flags |= RGFW_BUFFER_ALLOC; - - struct wl_shm_pool* pool = wl_shm_create_pool(win->src.shm, fd, size); - win->src.wl_buffer = wl_shm_pool_create_buffer(pool, 0, win->r.w, win->r.h, win->r.w * 4, - WL_SHM_FORMAT_ARGRGFW_bool888); - wl_shm_pool_destroy(pool); - - close(fd); - - wl_surface_attach(win->src.surface, win->src.wl_buffer, 0, 0); - wl_surface_commit(win->src.surface); - - u8 color[] = {0x00, 0x00, 0x00, 0xFF}; - - size_t i; - for (i = 0; i < area.w * area.h * 4; i += 4) { - RGFW_MEMCPY(&win->buffer[i], color, 4); - } - - RGFW_MEMCPY(win->src.buffer, win->buffer, win->r.w * win->r.h * 4); - - #if defined(RGFW_OSMESA) - win->src.ctx = OSMesaCreateContext(OSMESA_BGRA, NULL); - OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); - #endif - #endif - #else - wayland: - RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); - #endif -} - -#define RGFW_LOAD_ATOM(name) \ - static Atom name = 0; \ - if (name == 0) name = XInternAtom(RGFW_root->src.display, #name, False); - -void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { - RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); - - RGFW_GOTO_WAYLAND(0); - #ifdef RGFW_X11 - RGFW_LOAD_ATOM(_MOTIF_WM_HINTS); - - struct __x11WindowHints { - unsigned long flags, functions, decorations, status; - long input_mode; - } hints; - hints.flags = 2; - hints.decorations = border; - - XChangeProperty(win->src.display, win->src.window, _MOTIF_WM_HINTS, _MOTIF_WM_HINTS, 32, - PropModeReplace, (u8*)&hints, 5 - ); - - if (RGFW_window_isHidden(win) == 0) { - RGFW_window_hide(win); - RGFW_window_show(win); - } - - #endif - #ifdef RGFW_WAYLAND - wayland: - #endif -} - -void RGFW_releaseCursor(RGFW_window* win) { -RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - XUngrabPointer(win->src.display, CurrentTime); - - /* disable raw input */ - unsigned char mask[] = { 0 }; - XIEventMask em; - em.deviceid = XIAllMasterDevices; - em.mask_len = sizeof(mask); - em.mask = mask; - - XISelectEvents(win->src.display, XDefaultRootWindow(win->src.display), &em, 1); -#endif -#ifdef RGFW_WAYLAND - wayland: -#endif -} - -void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { -RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - /* enable raw input */ - unsigned char mask[XIMaskLen(XI_RawMotion)] = { 0 }; - XISetMask(mask, XI_RawMotion); - - XIEventMask em; - em.deviceid = XIAllMasterDevices; - em.mask_len = sizeof(mask); - em.mask = mask; - - XISelectEvents(win->src.display, XDefaultRootWindow(win->src.display), &em, 1); - - XGrabPointer(win->src.display, win->src.window, True, PointerMotionMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime); - RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (i32)(r.w / 2), win->r.y + (i32)(r.h / 2))); -#endif -#ifdef RGFW_WAYLAND - wayland: -#endif -} - -#define RGFW_LOAD_LIBRARY(x, lib) if (x == NULL) x = dlopen(lib, RTLD_LAZY | RTLD_LOCAL) -#define RGFW_PROC_DEF(proc, name) if (name##SRC == NULL && proc != NULL) name##SRC = (PFN_##name)(void*)dlsym(proc, #name) - -RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { - #ifdef RGFW_USE_XDL - XDL_init(); - #endif - - #if !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) - #if defined(__CYGWIN__) - RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor-1.so"); - #elif defined(__OpenBSD__) || defined(__NetBSD__) - RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor.so"); - #else - RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor.so.1"); - #endif - RGFW_PROC_DEF(X11Cursorhandle, XcursorImageCreate); - RGFW_PROC_DEF(X11Cursorhandle, XcursorImageDestroy); - RGFW_PROC_DEF(X11Cursorhandle, XcursorImageLoadCursor); - #endif - - #if !defined(RGFW_NO_X11_XI_PRELOAD) - #if defined(__CYGWIN__) - RGFW_LOAD_LIBRARY(X11Xihandle, "libXi-6.so"); - #elif defined(__OpenBSD__) || defined(__NetBSD__) - RGFW_LOAD_LIBRARY(X11Xihandle, "libXi.so"); - #else - RGFW_LOAD_LIBRARY(X11Xihandle, "libXi.so.6"); - #endif - RGFW_PROC_DEF(X11Xihandle, XISelectEvents); - #endif - - XInitThreads(); /*!< init X11 threading*/ - - if (flags & RGFW_windowOpenglSoftware) - setenv("LIBGL_ALWAYS_SOFTWARE", "1", 1); - - RGFW_window_basic_init(win, rect, flags); - -#ifdef RGFW_WAYLAND - win->src.compositor = NULL; -#endif - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - u64 event_mask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | StructureNotifyMask | FocusChangeMask | LeaveWindowMask | EnterWindowMask | ExposureMask; /*!< X11 events accepted*/ - - #if defined(RGFW_OPENGL) && !defined(RGFW_EGL) - u32* visual_attribs = (u32*)RGFW_initFormatAttribs(flags & RGFW_windowOpenglSoftware); - i32 fbcount; - GLXFBConfig* fbc = glXChooseFBConfig(win->src.display, DefaultScreen(win->src.display), (i32*) visual_attribs, &fbcount); - - i32 best_fbc = -1; - - if (fbcount == 0) { - #ifdef RGFW_DEBUG - fprintf(stderr, "Failed to find any valid GLX visual configs\n"); - #endif - return NULL; - } - - u32 i; - for (i = 0; i < (u32)fbcount; i++) { - XVisualInfo* vi = glXGetVisualFromFBConfig(win->src.display, fbc[i]); - if (vi == NULL) - continue; - - XFree(vi); - - i32 samp_buf, samples; - glXGetFBConfigAttrib(win->src.display, fbc[i], GLX_SAMPLE_BUFFERS, &samp_buf); - glXGetFBConfigAttrib(win->src.display, fbc[i], GLX_SAMPLES, &samples); - - if ((!(flags & RGFW_windowTransparent) || vi->depth == 32) && - (best_fbc < 0 || samp_buf) && (samples == RGFW_GL_HINTS[RGFW_glSamples] || best_fbc == -1)) { - best_fbc = i; - } - } - - if (best_fbc == -1) { - #ifdef RGFW_DEBUG - fprintf(stderr, "Failed to get a valid GLX visual\n"); - #endif - return NULL; - } - - GLXFBConfig bestFbc = fbc[best_fbc]; - - /* Get a visual */ - XVisualInfo* vi = glXGetVisualFromFBConfig(win->src.display, bestFbc); - - XFree(fbc); - #else - XVisualInfo viNorm; - - viNorm.visual = DefaultVisual(win->src.display, DefaultScreen(win->src.display)); - - viNorm.depth = 0; - XVisualInfo* vi = &viNorm; - - XMatchVisualInfo(win->src.display, DefaultScreen(win->src.display), 32, TrueColor, vi); /*!< for RGBA backgrounds*/ - #endif - /* make X window attrubutes*/ - XSetWindowAttributes swa; - Colormap cmap; - - swa.colormap = cmap = XCreateColormap(win->src.display, - DefaultRootWindow(win->src.display), - vi->visual, AllocNone); - - swa.background_pixmap = None; - swa.border_pixel = 0; - swa.event_mask = event_mask; - - swa.background_pixel = 0; - - /* create the window*/ - win->src.window = XCreateWindow(win->src.display, DefaultRootWindow(win->src.display), win->r.x, win->r.y, win->r.w, win->r.h, - 0, vi->depth, InputOutput, vi->visual, - CWColormap | CWBorderPixel | CWBackPixel | CWEventMask, &swa); - - XFreeColors(win->src.display, cmap, NULL, 0, 0); - - win->src.gc = XCreateGC(win->src.display, win->src.window, 0, NULL); - - #if defined(RGFW_OPENGL) && !defined(RGFW_EGL) - XFree(vi); - #endif - - // In your .desktop app, if you set the property - // StartupWMClass=RGFW that will assoicate the launcher icon - // with your application - robrohan - - if (RGFW_className == NULL) - RGFW_className = (char*)name; - - XClassHint hint; - hint.res_class = (char*)RGFW_className; - if (RGFW_instName == NULL) hint.res_name = (char*)name; - else hint.res_name = (char*)RGFW_instName; - XSetClassHint(win->src.display, win->src.window, &hint); - - if ((flags & RGFW_windowNoInitAPI) == 0) { - #if defined(RGFW_OPENGL) && !defined(RGFW_EGL) /* This is the second part of setting up opengl. This is where we ask OpenGL for a specific version. */ - i32 context_attribs[7] = { 0, 0, 0, 0, 0, 0, 0 }; - context_attribs[0] = GLX_CONTEXT_PROFILE_MASK_ARB; - if (RGFW_GL_HINTS[RGFW_glProfile] == RGFW_glCore) - context_attribs[1] = GLX_CONTEXT_CORE_PROFILE_BIT_ARB; - else - context_attribs[1] = GLX_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB; - - if (RGFW_GL_HINTS[RGFW_glMinor] || RGFW_GL_HINTS[RGFW_glMajor]) { - context_attribs[2] = GLX_CONTEXT_MAJOR_VERSION_ARB; - context_attribs[3] = RGFW_GL_HINTS[RGFW_glMinor]; - context_attribs[4] = GLX_CONTEXT_MINOR_VERSION_ARB; - context_attribs[5] = RGFW_GL_HINTS[RGFW_glMajor]; - } - - glXCreateContextAttribsARBProc glXCreateContextAttribsARB = 0; - glXCreateContextAttribsARB = (glXCreateContextAttribsARBProc) - glXGetProcAddressARB((GLubyte*) "glXCreateContextAttribsARB"); - - GLXContext ctx = NULL; - - if (RGFW_root != NULL && RGFW_root != win) - ctx = RGFW_root->src.ctx; - - win->src.ctx = glXCreateContextAttribsARB(win->src.display, bestFbc, ctx, True, context_attribs); - #endif - } - - #ifndef RGFW_NO_MONITOR - if (flags & RGFW_windowScaleToMonitor) - RGFW_window_scaleToMonitor(win); - #endif - - if (flags & RGFW_windowNoResize) { /* make it so the user can't resize the window*/ - XSizeHints sh; - sh.flags = (1L << 4) | (1L << 5); - sh.min_width = sh.max_width = win->r.w; - sh.min_height = sh.max_height = win->r.h; - - XSetWMSizeHints(win->src.display, (Drawable) win->src.window, &sh, XA_WM_NORMAL_HINTS); - - win->_flags |= RGFW_windowNoResize; - } - - XSelectInput(win->src.display, (Drawable) win->src.window, event_mask); /*!< tell X11 what events we want*/ - - /* make it so the user can't close the window until the program does*/ - if (wm_delete_window == 0) { - wm_delete_window = XInternAtom(win->src.display, "WM_DELETE_WINDOW", False); - RGFW_XUTF8_STRING = XInternAtom(win->src.display, "UTF8_STRING", False); - RGFW_XCLIPBOARD = XInternAtom(win->src.display, "CLIPBOARD", False); - } - - XSetWMProtocols(win->src.display, (Drawable) win->src.window, &wm_delete_window, 1); - - /* connect the context to the window*/ - #if defined(RGFW_OPENGL) && !defined(RGFW_EGL) - if ((flags & RGFW_windowNoInitAPI) == 0) - glXMakeCurrent(win->src.display, (Drawable) win->src.window, (GLXContext) win->src.ctx); - #endif - - /* set the background*/ - RGFW_window_setName(win, name); - - XMapWindow(win->src.display, (Drawable) win->src.window); /* draw the window*/ - XMoveWindow(win->src.display, (Drawable) win->src.window, win->r.x, win->r.y); /*!< move the window to it's proper cords*/ - - if (flags & RGFW_windowAllowDND) { /* init drag and drop atoms and turn on drag and drop for this window */ - win->_flags |= RGFW_windowAllowDND; - - /* actions */ - XtextUriList = XInternAtom(win->src.display, "text/uri-list", False); - XtextPlain = XInternAtom(win->src.display, "text/plain", False); - XdndAware = XInternAtom(win->src.display, "XdndAware", False); - const u8 version = 5; - - XChangeProperty(win->src.display, win->src.window, - XdndAware, 4, 32, - PropModeReplace, &version, 1); /*!< turns on drag and drop */ - } - - #ifdef RGFW_EGL - if ((flags & RGFW_windowNoInitAPI) == 0) - RGFW_createOpenGLContext(win); - #endif - #ifdef RGFW_DEBUG - printf("RGFW INFO: a window with a rect of {%i, %i, %i, %i} \n", win->r.x, win->r.y, win->r.w, win->r.h); - #endif - RGFW_window_setMouseDefault(win); - RGFW_window_setFlags(win, flags); - - return win; /*return newly created window*/ -#endif -#ifdef RGFW_WAYLAND - wayland: - fprintf(stderr, "Warning: RGFW Wayland support is experimental\n"); - - win->src.wl_display = wl_display_connect(NULL); - if (win->src.wl_display == NULL) { - #ifdef RGFW_DEBUG - fprintf(stderr, "Failed to load Wayland display\n"); - #endif - #ifdef RGFW_X11 - fprintf(stderr, "Falling back to X11\n"); - RGFW_useWayland(0); - return RGFW_createWindowPtr(name, rect, flags, win); - #endif - return NULL; - } - - - #ifdef RGFW_X11 - XSetWindowAttributes attributes; - attributes.background_pixel = 0; - attributes.override_redirect = True; - - win->src.window = XCreateWindow(win->src.display, DefaultRootWindow(win->src.display), 0, 0, 1, 1, 0, CopyFromParent, InputOutput, CopyFromParent, - CWBackPixel | CWOverrideRedirect, &attributes); - - XMapWindow(win->src.display, win->src.window); - XFlush(win->src.display); - if (wm_delete_window == 0) { - wm_delete_window = XInternAtom(win->src.display, "WM_DELETE_WINDOW", False); - RGFW_XUTF8_STRING = XInternAtom(win->src.display, "UTF8_STRING", False); - RGFW_XCLIPBOARD = XInternAtom(win->src.display, "CLIPBOARD", False); - } - #endif - - struct wl_registry *registry = wl_display_get_registry(win->src.wl_display); - wl_registry_add_listener(registry, ®istry_listener, win); - - wl_display_roundtrip(win->src.wl_display); - wl_display_dispatch(win->src.wl_display); - - if (win->src.compositor == NULL) { - #ifdef RGFW_DEBUG - fprintf(stderr, "Can't find compositor.\n"); - #endif - - return NULL; - } - - if (RGFW_wl_cursor_theme == NULL) { - RGFW_wl_cursor_theme = wl_cursor_theme_load(NULL, 24, win->src.shm); - RGFW_cursor_surface = wl_compositor_create_surface(win->src.compositor); - - struct wl_cursor* cursor = wl_cursor_theme_get_cursor(RGFW_wl_cursor_theme, "left_ptr"); - RGFW_cursor_image = cursor->images[0]; - struct wl_buffer* cursor_buffer = wl_cursor_image_get_buffer(RGFW_cursor_image); - - wl_surface_attach(RGFW_cursor_surface, cursor_buffer, 0, 0); - wl_surface_commit(RGFW_cursor_surface); - } - - xdg_wm_base_add_listener(win->src.xdg_wm_base, &xdg_wm_base_listener, NULL); - - xkb_context = xkb_context_new(XKB_CONTEXT_NO_FLAGS); - - win->src.surface = wl_compositor_create_surface(win->src.compositor); - wl_surface_set_user_data(win->src.surface, win); - - win->src.xdg_surface = xdg_wm_base_get_xdg_surface(win->src.xdg_wm_base, win->src.surface); - xdg_surface_add_listener(win->src.xdg_surface, &xdg_surface_listener, NULL); - - xdg_wm_base_set_user_data(win->src.xdg_wm_base, win); - - win->src.xdg_toplevel = xdg_surface_get_toplevel(win->src.xdg_surface); - xdg_toplevel_set_user_data(win->src.xdg_toplevel, win); - xdg_toplevel_set_title(win->src.xdg_toplevel, name); - xdg_toplevel_add_listener(win->src.xdg_toplevel, &xdg_toplevel_listener, NULL); - - xdg_surface_set_window_geometry(win->src.xdg_surface, 0, 0, win->r.w, win->r.h); - - if (!(flags & RGFW_windowNoBorder)) { - win->src.decoration = zxdg_decoration_manager_v1_get_toplevel_decoration( - decoration_manager, win->src.xdg_toplevel); - } - - if (flags & RGFW_windowOpenglSoftware) - setenv("LIBGL_ALWAYS_SOFTWARE", "1", 1); - - wl_display_roundtrip(win->src.wl_display); - - wl_surface_commit(win->src.surface); - - /* wait for the surface to be configured */ - while (wl_display_dispatch(win->src.wl_display) != -1 && !RGFW_wl_configured) { } - - #ifdef RGFW_OPENGL - if ((flags & RGFW_windowNoInitAPI) == 0) { - win->src.eglWindow = wl_egl_window_create(win->src.surface, win->r.w, win->r.h); - RGFW_createOpenGLContext(win); - } - #endif - struct wl_callback* callback = wl_surface_frame(win->src.surface); - wl_callback_add_listener(callback, &wl_surface_frame_listener, win); - wl_surface_commit(win->src.surface); - - win->src.eventIndex = 0; - win->src.eventLen = 0; - - #ifdef RGFW_DEBUG - printf("RGFW INFO: a window with a rect of {%i, %i, %i, %i} \n", win->r.x, win->r.y, win->r.w, win->r.h); - #endif - - #ifndef RGFW_NO_MONITOR - if (flags & RGFW_windowScaleToMonitor) - RGFW_window_scaleToMonitor(win); - #endif - - RGFW_window_setMouseDefault(win); - RGFW_window_setFlags(win, flags); - return win; /*return newly created window*/ -#endif -} - -RGFW_area RGFW_getScreenSize(void) { - RGFW_GOTO_WAYLAND(1); - RGFW_ASSERT(RGFW_root != NULL); - - #ifdef RGFW_X11 - Screen* scrn = DefaultScreenOfDisplay(RGFW_root->src.display); - return RGFW_AREA(scrn->width, scrn->height); - #endif - #ifdef RGFW_WAYLAND - wayland: return RGFW_AREA(RGFW_root->r.w, RGFW_root->r.h); // TODO - #endif -} - -RGFW_point RGFW_getGlobalMousePoint(void) { - RGFW_ASSERT(RGFW_root != NULL); - - RGFW_point RGFWMouse; - - i32 x, y; - u32 z; - Window window1, window2; - XQueryPointer(RGFW_root->src.display, XDefaultRootWindow(RGFW_root->src.display), &window1, &window2, &RGFWMouse.x, &RGFWMouse.y, &x, &y, &z); - - return RGFWMouse; -} - -RGFWDEF void RGFW_XHandleClipboardSelection(RGFW_window* win, XEvent* event); - -void RGFW_XHandleClipboardSelection(RGFW_window* win, XEvent* event) { - RGFW_LOAD_ATOM(ATOM_PAIR); - RGFW_LOAD_ATOM(MULTIPLE); - RGFW_LOAD_ATOM(TARGETS); - RGFW_LOAD_ATOM(SAVE_TARGETS); - - const XSelectionRequestEvent* request = &event->xselectionrequest; - const Atom formats[] = { RGFW_XUTF8_STRING, XA_STRING }; - const int formatCount = sizeof(formats) / sizeof(formats[0]); - - if (request->target == TARGETS) { - const Atom targets[] = { TARGETS, MULTIPLE, RGFW_XUTF8_STRING, XA_STRING }; - - XChangeProperty(win->src.display, request->requestor, request->property, - XA_ATOM, 32, PropModeReplace, (u8*) targets, sizeof(targets) / sizeof(Atom)); - } else if (request->target == MULTIPLE) { - Atom* targets = NULL; - - Atom actualType = 0; - int actualFormat = 0; - unsigned long count = 0, bytesAfter = 0; - - XGetWindowProperty(RGFW_root->src.display, request->requestor, request->property, 0, LONG_MAX, - False, ATOM_PAIR, &actualType, &actualFormat, &count, &bytesAfter, (u8**) &targets); - - unsigned long i; - for (i = 0; i < (u32)count; i += 2) { - if (targets[i] == RGFW_XUTF8_STRING || targets[i] == XA_STRING) - XChangeProperty(RGFW_root->src.display, request->requestor, targets[i + 1], targets[i], - 8, PropModeReplace, win->src.clipboard, win->src.clipboard_len); - else - targets[i + 1] = None; - } - - XChangeProperty(RGFW_root->src.display, - request->requestor, request->property, ATOM_PAIR, 32, - PropModeReplace, (u8*) targets, count); - - XFlush(RGFW_root->src.display); - XFree(targets); - } else if (request->target == SAVE_TARGETS) - XChangeProperty(win->src.display, request->requestor, request->property, 0, 32, PropModeReplace, NULL, 0); - else { - for (int i = 0; i < formatCount; i++) { - if (request->target != formats[i]) - continue; - XChangeProperty(win->src.display, request->requestor, request->property, request->target, - 8, PropModeReplace, (u8*) win->src.clipboard, win->src.clipboard_len); - } - } - - XEvent reply = { SelectionNotify }; - reply.xselection.property = request->property; - reply.xselection.display = request->display; - reply.xselection.requestor = request->requestor; - reply.xselection.selection = request->selection; - reply.xselection.target = request->target; - reply.xselection.time = request->time; - - XSendEvent(win->src.display, request->requestor, False, 0, &reply); -} - -char* RGFW_strtok(char* str, const char* delimStr) { - static char* static_str = NULL; - - if (str != NULL) - static_str = str; - - if (static_str == NULL) { - return NULL; - } - - while (*static_str != '\0') { - RGFW_bool delim = 0; - for (const char* d = delimStr; *d != '\0'; d++) { - if (*static_str == *d) { - delim = 1; - break; - } - } - if (!delim) - break; - static_str++; - } - - if (*static_str == '\0') - return NULL; - - char* token_start = static_str; - while (*static_str != '\0') { - int delim = 0; - for (const char* d = delimStr; *d != '\0'; d++) { - if (*static_str == *d) { - delim = 1; - break; - } - } - - if (delim) { - *static_str = '\0'; - static_str++; - break; - } - static_str++; - } - - return token_start; -} - -RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - if (win->event.type == 0) - RGFW_resetKey(); - - if (win->event.type == RGFW_quit) { - return &win->event; - } - - win->event.type = 0; - - #if defined(__linux__) && !defined(RGFW_NO_LINUX) - if (RGFW_linux_updateGamepad(win)) return &win->event; - #endif - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - RGFW_LOAD_ATOM(XdndTypeList); - RGFW_LOAD_ATOM(XdndSelection); - RGFW_LOAD_ATOM(XdndEnter); - RGFW_LOAD_ATOM(XdndPosition); - RGFW_LOAD_ATOM(XdndStatus); - RGFW_LOAD_ATOM(XdndLeave); - RGFW_LOAD_ATOM(XdndDrop); - RGFW_LOAD_ATOM(XdndFinished); - RGFW_LOAD_ATOM(XdndActionCopy); - - XPending(win->src.display); - - XEvent E; /*!< raw X11 event */ - - /* if there is no unread qued events, get a new one */ - if ((QLength(win->src.display) || XEventsQueued(win->src.display, QueuedAlready) + XEventsQueued(win->src.display, QueuedAfterReading)) - && win->event.type != RGFW_quit - ) - XNextEvent(win->src.display, &E); - else { - return NULL; - } - - win->event.type = 0; - - /* xdnd data */ - static Window source = 0; - static long version = 0; - static i32 format = 0; - - XEvent reply = { ClientMessage }; - - switch (E.type) { - case KeyPress: - case KeyRelease: { - win->event.repeat = RGFW_FALSE; - /* check if it's a real key release */ - if (E.type == KeyRelease && XEventsQueued(win->src.display, QueuedAfterReading)) { /* get next event if there is one*/ - XEvent NE; - XPeekEvent(win->src.display, &NE); - - if (E.xkey.time == NE.xkey.time && E.xkey.keycode == NE.xkey.keycode) /* check if the current and next are both the same*/ - win->event.repeat = RGFW_TRUE; - } - - /* set event key data */ - win->event.key = RGFW_apiKeyToRGFW(E.xkey.keycode); - KeySym sym = (KeySym)XkbKeycodeToKeysym(win->src.display, E.xkey.keycode, 0, E.xkey.state & ShiftMask ? 1 : 0); - - if ((E.xkey.state & LockMask) && sym >= XK_a && sym <= XK_z) - sym = (E.xkey.state & ShiftMask) ? sym + 32 : sym - 32; - if ((u8)sym != (u32)sym) - sym = 0; - - win->event.keyChar = (u8)sym; - - RGFW_keyboard[win->event.key].prev = RGFW_isPressed(win, win->event.key); - - /* get keystate data */ - win->event.type = (E.type == KeyPress) ? RGFW_keyPressed : RGFW_keyReleased; - - XKeyboardState keystate; - XGetKeyboardControl(win->src.display, &keystate); - - RGFW_keyboard[win->event.key].current = (E.type == KeyPress); - - XkbStateRec state; - XkbGetState(win->src.display, XkbUseCoreKbd, &state); - RGFW_updateKeyMods(win, (state.locked_mods & LockMask), (state.locked_mods & Mod2Mask), (state.locked_mods & Mod3Mask)); - - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, (E.type == KeyPress)); - break; - } - case ButtonPress: - case ButtonRelease: - if (E.xbutton.button > RGFW_mouseFinal) { /* skip this event */ - XFlush(win->src.display); - return RGFW_window_checkEvent(win); - } - - win->event.type = RGFW_mouseButtonPressed + (E.type == ButtonRelease); // the events match - win->event.button = E.xbutton.button - 1; - switch(win->event.button) { - case RGFW_mouseScrollUp: - win->event.scroll = 1; - break; - case RGFW_mouseScrollDown: - win->event.scroll = -1; - break; - default: break; - } - - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - - if (win->event.repeat == RGFW_FALSE) - win->event.repeat = RGFW_isPressed(win, win->event.key); - - RGFW_mouseButtons[win->event.button].current = (E.type == ButtonPress); - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, (E.type == ButtonPress)); - break; - - case MotionNotify: - win->event.point.x = E.xmotion.x; - win->event.point.y = E.xmotion.y; - - win->event.vector.x = win->event.point.x - win->_lastMousePoint.x; - win->event.vector.y = win->event.point.y - win->_lastMousePoint.y; - win->_lastMousePoint = win->event.point; - - win->event.type = RGFW_mousePosChanged; - RGFW_mousePosCallback(win, win->event.point, win->event.vector); - break; - - case GenericEvent: { - /* MotionNotify is used for mouse events if the mouse isn't held */ - if (!(win->_flags & RGFW_HOLD_MOUSE)) { - XFreeEventData(win->src.display, &E.xcookie); - break; - } - - XGetEventData(win->src.display, &E.xcookie); - if (E.xcookie.evtype == XI_RawMotion) { - XIRawEvent *raw = (XIRawEvent *)E.xcookie.data; - if (raw->valuators.mask_len == 0) { - XFreeEventData(win->src.display, &E.xcookie); - break; - } - - double deltaX = 0.0f; - double deltaY = 0.0f; - - /* check if relative motion data exists where we think it does */ - if (XIMaskIsSet(raw->valuators.mask, 0) != 0) - deltaX += raw->raw_values[0]; - if (XIMaskIsSet(raw->valuators.mask, 1) != 0) - deltaY += raw->raw_values[1]; - - win->event.vector = RGFW_POINT((i32)deltaX, (i32)deltaY); - win->event.point.x = win->_lastMousePoint.x + win->event.vector.x; - win->event.point.y = win->_lastMousePoint.y + win->event.vector.y; - win->_lastMousePoint = win->event.point; - - RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); - - win->event.type = RGFW_mousePosChanged; - RGFW_mousePosCallback(win, win->event.point, win->event.vector); - } - - XFreeEventData(win->src.display, &E.xcookie); - break; - } - - case Expose: - win->event.type = RGFW_windowRefresh; - RGFW_windowRefreshCallback(win); - break; - - case ClientMessage: { - /* if the client closed the window*/ - if (E.xclient.data.l[0] == (long)wm_delete_window) { - win->event.type = RGFW_quit; - RGFW_windowQuitCallback(win); - break; - } - - for (size_t i = 0; i < win->event.droppedFilesCount; i++) { - win->event.droppedFiles[i][0] = '\0'; - } - win->event.droppedFilesCount = 0; - - if ((win->_flags & RGFW_windowAllowDND) == 0) - break; - - reply.xclient.window = source; - reply.xclient.format = 32; - reply.xclient.data.l[0] = (long)win->src.window; - reply.xclient.data.l[1] = 0; - reply.xclient.data.l[2] = None; - - if (E.xclient.message_type == XdndEnter) { - if (version > 5) - break; - - unsigned long count; - Atom* formats; - Atom real_formats[6]; - Bool list = E.xclient.data.l[1] & 1; - - source = E.xclient.data.l[0]; - version = E.xclient.data.l[1] >> 24; - format = None; - if (list) { - Atom actualType; - i32 actualFormat; - unsigned long bytesAfter; - - XGetWindowProperty( - win->src.display, source, XdndTypeList, - 0, LONG_MAX, False, 4, - &actualType, &actualFormat, &count, &bytesAfter, (u8**)&formats - ); - } else { - count = 0; - - for (size_t i = 2; i < 5; i++) { - Window format = E.xclient.data.l[i]; - if (format != None) { - real_formats[count] = format; - count += 1; - } - } - - formats = real_formats; - } - - for (size_t i = 0; i < count; i++) { - if (formats[i] == XtextUriList || formats[i] == XtextPlain) { - format = (int)formats[i]; - break; - } - } - - if (list) { - XFree(formats); - } - - break; - } - - if (E.xclient.message_type == XdndPosition) { - const i32 xabs = (E.xclient.data.l[2] >> 16) & 0xffff; - const i32 yabs = (E.xclient.data.l[2]) & 0xffff; - Window dummy; - i32 xpos, ypos; - - if (version > 5) - break; - - XTranslateCoordinates( - win->src.display, XDefaultRootWindow(win->src.display), win->src.window, - xabs, yabs, &xpos, &ypos, &dummy - ); - - win->event.point.x = xpos; - win->event.point.y = ypos; - - reply.xclient.window = source; - reply.xclient.message_type = XdndStatus; - - if (format) { - reply.xclient.data.l[1] = 1; - if (version >= 2) - reply.xclient.data.l[4] = (long)XdndActionCopy; - } - - XSendEvent(win->src.display, source, False, NoEventMask, &reply); - XFlush(win->src.display); - break; - } - if (E.xclient.message_type != XdndDrop) - break; - - if (version > 5) - break; - - win->event.type = RGFW_DNDInit; - - if (format) { - Time time = (version >= 1) - ? (Time)E.xclient.data.l[2] - : CurrentTime; - - XConvertSelection( - win->src.display, XdndSelection, (Atom)format, - XdndSelection, win->src.window, time - ); - } else if (version >= 2) { - XEvent reply = { ClientMessage }; - - XSendEvent(win->src.display, source, False, NoEventMask, &reply); - XFlush(win->src.display); - } - - RGFW_dndInitCallback(win, win->event.point); - } break; - case SelectionRequest: - RGFW_XHandleClipboardSelection(win, &E); - XFlush(win->src.display); - return RGFW_window_checkEvent(win); - case SelectionNotify: { - /* this is only for checking for xdnd drops */ - if (E.xselection.property != XdndSelection || !(win->_flags & RGFW_windowAllowDND)) - break; - char* data; - unsigned long result; - - Atom actualType; - i32 actualFormat; - unsigned long bytesAfter; - - XGetWindowProperty(win->src.display, E.xselection.requestor, E.xselection.property, 0, LONG_MAX, False, E.xselection.target, &actualType, &actualFormat, &result, &bytesAfter, (u8**) &data); - - if (result == 0) - break; - - const char* prefix = (const char*)"file://"; - - char* line; - - win->event.droppedFilesCount = 0; - - win->event.type = RGFW_DND; - - while ((line = (char*)RGFW_strtok(data, "\r\n"))) { - char path[RGFW_MAX_PATH]; - - data = NULL; - - if (line[0] == '#') - continue; - - char* l; - for (l = line; 1; l++) { - if ((l - line) > 7) - break; - else if (*l != prefix[(l - line)]) - break; - else if (*l == '\0' && prefix[(l - line)] == '\0') { - line += 7; - while (*line != '/') - line++; - break; - } else if (*l == '\0') - break; - } - - win->event.droppedFilesCount++; - - size_t index = 0; - while (*line) { - if (line[0] == '%' && line[1] && line[2]) { - const char digits[3] = { line[1], line[2], '\0' }; - path[index] = (char) RGFW_STRTOL(digits, NULL, 16); - line += 2; - } else - path[index] = *line; - - index++; - line++; - } - path[index] = '\0'; - RGFW_MEMCPY(win->event.droppedFiles[win->event.droppedFilesCount - 1], path, index + 1); - } - - if (data) - XFree(data); - - if (version >= 2) { - XEvent reply = { ClientMessage }; - reply.xclient.format = 32; - reply.xclient.message_type = XdndFinished; - reply.xclient.data.l[1] = result; - reply.xclient.data.l[2] = XdndActionCopy; - - XSendEvent(win->src.display, source, False, NoEventMask, &reply); - XFlush(win->src.display); - } - - RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); - break; - } - case FocusIn: - if ((win->_flags & RGFW_windowFullscreen)) - XMapRaised(win->src.display, win->src.window); - - win->event.inFocus = 1; - win->event.type = RGFW_focusIn; - RGFW_focusCallback(win, 1); - break; - case FocusOut: - if ((win->_flags & RGFW_windowFullscreen)) - RGFW_window_minimize(win); - - win->event.inFocus = 0; - win->event.type = RGFW_focusOut; - RGFW_focusCallback(win, 0); - break; - case EnterNotify: { - win->event.type = RGFW_mouseEnter; - win->event.point.x = E.xcrossing.x; - win->event.point.y = E.xcrossing.y; - RGFW_mouseNotifyCallBack(win, win->event.point, 1); - break; - } - - case LeaveNotify: { - win->event.type = RGFW_mouseLeave; - RGFW_mouseNotifyCallBack(win, win->event.point, 0); - break; - } - - case ConfigureNotify: { - /* detect resize */ - if (E.xconfigure.width != win->r.w || E.xconfigure.height != win->r.h) { - win->event.type = RGFW_windowResized; - win->r = RGFW_RECT(win->r.x, win->r.y, E.xconfigure.width, E.xconfigure.height); - RGFW_windowResizeCallback(win, win->r); - break; - } - - /* detect move */ - if (E.xconfigure.x != win->r.x || E.xconfigure.y != win->r.y) { - win->event.type = RGFW_windowMoved; - win->r = RGFW_RECT(E.xconfigure.x, E.xconfigure.y, win->r.w, win->r.h); - RGFW_windowMoveCallback(win, win->r); - break; - } - - break; - } - default: - XFlush(win->src.display); - return RGFW_window_checkEvent(win); - } - - XFlush(win->src.display); - if (win->event.type) return &win->event; - else return NULL; -#endif -#ifdef RGFW_WAYLAND - wayland: - if (win->_flags & RGFW_windowHide) - return NULL; - - if (win->src.eventIndex == 0) { - if (wl_display_roundtrip(win->src.wl_display) == -1) { - return NULL; - } - } - - if (win->src.eventLen == 0) { - return NULL; - } - - RGFW_event ev = RGFW_eventPipe_pop(win); - - if (ev.type == 0) return NULL; - if (win->event.type == RGFW_quit) return &win->event; - - ev.frameTime = win->event.frameTime; - ev.frameTime2 = win->event.frameTime2; - ev.inFocus = win->event.inFocus; - win->event = ev; - if (win->event.type) return &win->event; - else return NULL; -#endif -} - -void RGFW_window_move(RGFW_window* win, RGFW_point v) { - RGFW_ASSERT(win != NULL); - win->r.x = v.x; - win->r.y = v.y; - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - XMoveWindow(win->src.display, win->src.window, v.x, v.y); -#endif -#ifdef RGFW_WAYLAND - wayland: - RGFW_ASSERT(win != NULL); - - if (win->src.compositor) { - struct wl_pointer *pointer = wl_seat_get_pointer(win->src.seat); - if (!pointer) { - return; - } - - wl_display_flush(win->src.wl_display); - } -#endif -} - - -void RGFW_window_resize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - win->r.w = a.w; - win->r.h = a.h; - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - XResizeWindow(win->src.display, win->src.window, a.w, a.h); - - if (!(win->_flags & RGFW_windowNoResize)) - return; - - XSizeHints sh; - sh.flags = (1L << 4) | (1L << 5); - sh.min_width = sh.max_width = a.w; - sh.min_height = sh.max_height = a.h; - - XSetWMSizeHints(win->src.display, (Drawable) win->src.window, &sh, XA_WM_NORMAL_HINTS); -#endif -#ifdef RGFW_WAYLAND - wayland: - if (win->src.compositor) { - xdg_surface_set_window_geometry(win->src.xdg_surface, 0, 0, win->r.w, win->r.h); - #ifdef RGFW_OPENGL - wl_egl_window_resize(win->src.eglWindow, a.w, a.h, 0, 0); - #endif - } -#endif -} - -void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - - if (a.w == 0 && a.h == 0) - return; - - XSizeHints hints; - long flags; - - XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); - - hints.flags |= PAspect; - - hints.min_aspect.x = hints.max_aspect.x = a.w; - hints.min_aspect.y = hints.max_aspect.y = a.h; - - XSetWMNormalHints(win->src.display, win->src.window, &hints); -} - -void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - - if (a.w == 0 && a.h == 0) - return; - - XSizeHints hints; - long flags; - - XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); - - hints.flags |= PMinSize; - - hints.min_width = a.w; - hints.min_height = a.h; - - XSetWMNormalHints(win->src.display, win->src.window, &hints); -} - -void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - - if (a.w == 0 && a.h == 0) - return; - - XSizeHints hints; - long flags; - - XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); - - hints.flags |= PMaxSize; - - hints.max_width = a.w; - hints.max_height = a.h; - - XSetWMNormalHints(win->src.display, win->src.window, &hints); -} - -void RGFW_toggleXMaximized(RGFW_window* win, RGFW_bool maximized) { - RGFW_ASSERT(win != NULL); - RGFW_LOAD_ATOM(_NET_WM_STATE); - RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_VERT); - RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_HORZ); - - XEvent xev = {0}; - xev.type = ClientMessage; - xev.xclient.window = win->src.window; - xev.xclient.message_type = _NET_WM_STATE; - xev.xclient.format = 32; - xev.xclient.data.l[0] = maximized; - xev.xclient.data.l[1] = _NET_WM_STATE_MAXIMIZED_HORZ; - xev.xclient.data.l[2] = _NET_WM_STATE_MAXIMIZED_VERT; - xev.xclient.data.l[3] = 0; - xev.xclient.data.l[4] = 0; - - XSendEvent(win->src.display, DefaultRootWindow(win->src.display), False, SubstructureRedirectMask | SubstructureNotifyMask, &xev); -} - -void RGFW_window_maximize(RGFW_window* win) { - win->_oldRect = win->r; - RGFW_toggleXMaximized(win, 1); -} - -void RGFW_window_focus(RGFW_window* win) { - RGFW_ASSERT(win); - - XWindowAttributes attr; - XGetWindowAttributes(win->src.display, win->src.window, &attr); - if (attr.map_state != IsViewable) return; - - XSetInputFocus(win->src.display, win->src.window, RevertToPointerRoot, CurrentTime); - XFlush(win->src.display); -} - -void RGFW_window_raise(RGFW_window* win) { - RGFW_ASSERT(win); - XRaiseWindow(win->src.display, win->src.window); - XMapRaised(win->src.display, win->src.window); -} - -void RGFW_window_setXAtom(RGFW_window* win, Atom netAtom, RGFW_bool fullscreen) { - RGFW_ASSERT(win != NULL); - RGFW_LOAD_ATOM(_NET_WM_STATE); - - XEvent xev = {0}; - xev.xclient.type = ClientMessage; - xev.xclient.serial = 0; - xev.xclient.send_event = True; - xev.xclient.message_type = _NET_WM_STATE; - xev.xclient.window = win->src.window; - xev.xclient.format = 32; - xev.xclient.data.l[0] = fullscreen; - xev.xclient.data.l[1] = netAtom; - xev.xclient.data.l[2] = 0; - - XSendEvent(win->src.display, DefaultRootWindow(win->src.display), False, SubstructureNotifyMask | SubstructureRedirectMask, &xev); -} - -void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { - RGFW_ASSERT(win != NULL); - if (fullscreen) { - win->_flags |= RGFW_windowFullscreen; - win->_oldRect = win->r; - } - else win->_flags &= ~RGFW_windowFullscreen; - - RGFW_LOAD_ATOM(_NET_WM_STATE_FULLSCREEN); - - RGFW_window_setXAtom(win, _NET_WM_STATE_FULLSCREEN, fullscreen); - - XRaiseWindow(win->src.display, win->src.window); - XMapRaised(win->src.display, win->src.window); -} - -void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { - RGFW_ASSERT(win != NULL); - - RGFW_LOAD_ATOM(_NET_WM_STATE_ABOVE); - RGFW_window_setXAtom(win, _NET_WM_STATE_ABOVE, floating); -} - -void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { - RGFW_ASSERT(win != NULL); - const u32 value = (u32) (0xffffffffu * (double) opacity); - RGFW_LOAD_ATOM(NET_WM_WINDOW_OPACITY); - XChangeProperty(win->src.display, win->src.window, - NET_WM_WINDOW_OPACITY, XA_CARDINAL, 32, PropModeReplace, (unsigned char*) &value, 1); -} - -void RGFW_window_minimize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - if (RGFW_window_isMaximized(win)) return; - - win->_oldRect = win->r; - XIconifyWindow(win->src.display, win->src.window, DefaultScreen(win->src.display)); - XFlush(win->src.display); -} - -void RGFW_window_restore(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_toggleXMaximized(win, 0); - - win->r = win->_oldRect; - RGFW_window_move(win, RGFW_POINT(win->r.x, win->r.y)); - RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h)); - - XMapWindow(win->src.display, win->src.window); - XFlush(win->src.display); -} - -RGFW_bool RGFW_window_isFloating(RGFW_window* win) { - RGFW_LOAD_ATOM(_NET_WM_STATE); - RGFW_LOAD_ATOM(_NET_WM_STATE_ABOVE); - - Atom actual_type; - int actual_format; - unsigned long nitems, bytes_after; - Atom* prop_return = NULL; - - int status = XGetWindowProperty(win->src.display, win->src.window, _NET_WM_STATE, 0, (~0L), False, XA_ATOM, - &actual_type, &actual_format, &nitems, &bytes_after, - (unsigned char **)&prop_return); - - if (status != Success || actual_type != XA_ATOM) - return RGFW_FALSE; - - for (unsigned long i = 0; i < nitems; i++) - if (prop_return[i] == _NET_WM_STATE_ABOVE) return RGFW_TRUE; - - if (prop_return) - XFree(prop_return); - - return RGFW_FALSE; -} - -void RGFW_window_setName(RGFW_window* win, const char* name) { - RGFW_ASSERT(win != NULL); - RGFW_GOTO_WAYLAND(0); - #ifdef RGFW_X11 - XStoreName(win->src.display, win->src.window, name); - - RGFW_LOAD_ATOM(_NET_WM_NAME); - XChangeProperty( - win->src.display, win->src.window, _NET_WM_NAME, RGFW_XUTF8_STRING, - 8, PropModeReplace, (u8*)name, 256 - ); - #endif - #ifdef RGFW_WAYLAND - wayland: - if (win->src.compositor) - xdg_toplevel_set_title(win->src.xdg_toplevel, name); - #endif -} - -void* RGFW_libxshape = NULL; - -#ifndef RGFW_NO_PASSTHROUGH - -void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { - RGFW_ASSERT(win != NULL); - - #if defined(__CYGWIN__) - RGFW_LOAD_LIBRARY(RGFW_libxshape, "libXext-6.so"); - #elif defined(__OpenBSD__) || defined(__NetBSD__) - RGFW_LOAD_LIBRARY(RGFW_libxshape, "libXext.so"); - #else - RGFW_LOAD_LIBRARY(RGFW_libxshape, "libXext.so.6"); - #endif - - typedef void (* PFN_XShapeCombineMask)(Display*,Window,int,int,int,Pixmap,int); - static PFN_XShapeCombineMask XShapeCombineMaskSRC; - - typedef void (* PFN_XShapeCombineRegion)(Display*,Window,int,int,int,Region,int); - static PFN_XShapeCombineRegion XShapeCombineRegionSRC; - - RGFW_PROC_DEF(RGFW_libxshape, XShapeCombineRegion); - RGFW_PROC_DEF(RGFW_libxshape, XShapeCombineMask); - - if (passthrough) { - Region region = XCreateRegion(); - XShapeCombineRegionSRC(win->src.display, win->src.window, ShapeInput, 0, 0, region, ShapeSet); - XDestroyRegion(region); - - return; - } - - XShapeCombineMaskSRC(win->src.display, win->src.window, ShapeInput, 0, 0, None, ShapeSet); -} - -#endif /* RGFW_NO_PASSTHROUGH */ - -RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type) { - RGFW_ASSERT(win != NULL); - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - RGFW_LOAD_ATOM(_NET_WM_ICON); - if (icon == NULL || (channels != 3 && channels != 4)) { - RGFW_bool res = (RGFW_bool)XChangeProperty( - win->src.display, win->src.window, _NET_WM_ICON, XA_CARDINAL, 32, - PropModeReplace, (u8*)NULL, 0 - ); - return res; - } - - i32 count = 2 + (a.w * a.h); - - unsigned long* data = (unsigned long*) RGFW_ALLOC(count * sizeof(unsigned long)); - data[0] = (unsigned long)a.w; - data[1] = (unsigned long)a.h; - - unsigned long* target = &data[2]; - u32 x, y; - - for (x = 0; x < a.w; x++) { - for (y = 0; y < a.h; y++) { - size_t i = y * a.w + x; - u32 alpha = (channels == 4) ? icon[i * 4 + 3] : 0xFF; - - target[i] = (unsigned long)((icon[i * 4 + 0]) << 16) | - (unsigned long)((icon[i * 4 + 1]) << 8) | - (unsigned long)((icon[i * 4 + 2]) << 0) | - (unsigned long)(alpha << 24); - } - } - - RGFW_bool res = RGFW_TRUE; - if (type & RGFW_iconTaskbar) { - res = (RGFW_bool)XChangeProperty( - win->src.display, win->src.window, _NET_WM_ICON, XA_CARDINAL, 32, - PropModeReplace, (u8*)data, count - ); - } - - if (type & RGFW_iconWindow) { - XWMHints wm_hints; - wm_hints.flags = IconPixmapHint; - - int depth = DefaultDepth(win->src.display, DefaultScreen(win->src.display)); - XImage *image = XCreateImage(win->src.display, DefaultVisual(win->src.display, DefaultScreen(win->src.display)), - depth, ZPixmap, 0, (char *)target, a.w, a.h, 32, 0); - - wm_hints.icon_pixmap = XCreatePixmap(win->src.display, win->src.window, a.w, a.h, depth); - XPutImage(win->src.display, wm_hints.icon_pixmap, win->src.gc, image, 0, 0, 0, 0, a.w, a.h); - image->data = NULL; - XDestroyImage(image); - - XSetWMHints(win->src.display, win->src.window, &wm_hints); - } - - RGFW_FREE(data); - XFlush(win->src.display); - return RGFW_BOOL(res); -#endif -#ifdef RGFW_WAYLAND - wayland: - return RGFW_FALSE; -#endif -} - -RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { - RGFW_ASSERT(icon); - RGFW_ASSERT(channels == 3 || channels == 4); - RGFW_GOTO_WAYLAND(0); - -#ifdef RGFW_X11 -#ifndef RGFW_NO_X11_CURSOR - XcursorImage* native = XcursorImageCreate(a.w, a.h); - native->xhot = 0; - native->yhot = 0; - - XcursorPixel* target = native->pixels; - for (size_t x = 0; x < a.w; x++) { - for (size_t y = 0; y < a.h; y++) { - size_t i = y * a.w + x; - u32 alpha = (channels == 4) ? icon[i * 4 + 3] : 0xFF; - - target[i] = (u32)((icon[i * 4 + 0]) << 16) - | (u32)((icon[i * 4 + 1]) << 8) - | (u32)((icon[i * 4 + 2]) << 0) - | (u32)(alpha << 24); - } - } - - Cursor cursor = XcursorImageLoadCursor(RGFW_root->src.display, native); - XcursorImageDestroy(native); - - return (void*)cursor; -#else - RGFW_UNUSED(image); RGFW_UNUSED(a.w); RGFW_UNUSED(channels); - return NULL; -#endif -#endif -#ifdef RGFW_WAYLAND - wayland: - RGFW_UNUSED(icon); RGFW_UNUSED(a); RGFW_UNUSED(channels); - return NULL; // TODO -#endif -} - -void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { -RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - RGFW_ASSERT(win && mouse); - XDefineCursor(win->src.display, win->src.window, (Cursor)mouse); -#endif -#ifdef RGFW_WAYLAND - wayland: -#endif -} - -void RGFW_freeMouse(RGFW_mouse* mouse) { -RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - RGFW_ASSERT(mouse); - XFreeCursor(RGFW_root->src.display, (Cursor)mouse); -#endif -#ifdef RGFW_WAYLAND - wayland: -#endif -} - -void RGFW_window_moveMouse(RGFW_window* win, RGFW_point p) { -RGFW_GOTO_WAYLAND(1); -#ifdef RGFW_X11 - RGFW_ASSERT(win != NULL); - - XEvent event; - XQueryPointer(win->src.display, DefaultRootWindow(win->src.display), - &event.xbutton.root, &event.xbutton.window, - &event.xbutton.x_root, &event.xbutton.y_root, - &event.xbutton.x, &event.xbutton.y, - &event.xbutton.state); - - win->_lastMousePoint = RGFW_POINT(p.x - win->r.x, p.y - win->r.y); - if (event.xbutton.x == p.x && event.xbutton.y == p.y) - return; - - XWarpPointer(win->src.display, None, win->src.window, 0, 0, 0, 0, (int) p.x - win->r.x, (int) p.y - win->r.y); -#endif -#ifdef RGFW_WAYLAND - wayland: -#endif -} - -RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { - return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); -} - -RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { - RGFW_ASSERT(win != NULL); - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - static const u8 mouseIconSrc[] = { XC_arrow, XC_left_ptr, XC_xterm, XC_crosshair, XC_hand2, XC_sb_h_double_arrow, XC_sb_v_double_arrow, XC_bottom_left_corner, XC_bottom_right_corner, XC_fleur, XC_X_cursor}; - - if (mouse > (sizeof(mouseIconSrc) / sizeof(u8))) - return RGFW_FALSE; - - mouse = mouseIconSrc[mouse]; - - Cursor cursor = XCreateFontCursor(win->src.display, mouse); - XDefineCursor(win->src.display, win->src.window, (Cursor) cursor); - - XFreeCursor(win->src.display, (Cursor) cursor); - return RGFW_TRUE; -#endif -#ifdef RGFW_WAYLAND - wayland: - static const char* iconStrings[] = { "left_ptr", "left_ptr", "text", "cross", "pointer", "e-resize", "n-resize", "nw-resize", "ne-resize", "all-resize", "not-allowed" }; - - struct wl_cursor* wlcursor = wl_cursor_theme_get_cursor(RGFW_wl_cursor_theme, iconStrings[mouse]); - RGFW_cursor_image = wlcursor->images[0]; - struct wl_buffer* cursor_buffer = wl_cursor_image_get_buffer(RGFW_cursor_image); - - wl_surface_attach(RGFW_cursor_surface, cursor_buffer, 0, 0); - wl_surface_commit(RGFW_cursor_surface); - return RGFW_TRUE; -#endif -} - -void RGFW_window_hide(RGFW_window* win) { - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - XUnmapWindow(win->src.display, win->src.window); -#endif -#ifdef RGFW_WAYLAND - wayland: - wl_surface_attach(win->src.surface, NULL, 0, 0); - wl_surface_commit(win->src.surface); - win->_flags |= RGFW_windowHide; -#endif -} - -void RGFW_window_show(RGFW_window* win) { - win->_flags &= ~RGFW_windowHide; - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - XMapWindow(win->src.display, win->src.window); -#endif -#ifdef RGFW_WAYLAND - wayland: - //wl_surface_attach(win->src.surface, win->rc., 0, 0); - wl_surface_commit(win->src.surface); -#endif -} - -RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { - RGFW_GOTO_WAYLAND(1); - #ifdef RGFW_X11 - - if (XGetSelectionOwner(RGFW_root->src.display, RGFW_XCLIPBOARD) == RGFW_root->src.window) { - if (str != NULL) - strncpy(str, RGFW_root->src.clipboard, RGFW_root->src.clipboard_len); - return (RGFW_ssize_t)RGFW_root->src.clipboard_len; - } - - XEvent event; - int format; - unsigned long N, sizeN; - char* data; - Atom target; - - RGFW_LOAD_ATOM(XSEL_DATA); - - XConvertSelection(RGFW_root->src.display, RGFW_XCLIPBOARD, RGFW_XUTF8_STRING, XSEL_DATA, RGFW_root->src.window, CurrentTime); - XSync(RGFW_root->src.display, 0); - XNextEvent(RGFW_root->src.display, &event); - - if (event.type != SelectionNotify || event.xselection.selection != RGFW_XCLIPBOARD || event.xselection.property == 0) - return -1; - - XGetWindowProperty(event.xselection.display, event.xselection.requestor, - event.xselection.property, 0L, (~0L), 0, AnyPropertyType, &target, - &format, &sizeN, &N, (u8**) &data); - - RGFW_ssize_t size; - if (sizeN > strCapacity && str != NULL) - size = -1; - - if ((target == RGFW_XUTF8_STRING || target == XA_STRING) && str != NULL) { - RGFW_MEMCPY(str, data, sizeN); - str[sizeN] = '\0'; - XFree(data); - } else if (str != NULL) size = -1; - - XDeleteProperty(event.xselection.display, event.xselection.requestor, event.xselection.property); - size = sizeN; - return size; - #endif - #if defined(RGFW_WAYLAND) - wayland: return 0; - #endif -} - -void RGFW_XHandleClipboardSelectionLoop(RGFW_window* win) { - RGFW_LOAD_ATOM(SAVE_TARGETS); - - for (;;) { - XEvent event; - XNextEvent(win->src.display, &event); - switch (event.type) { - case SelectionRequest: - return RGFW_XHandleClipboardSelection(win, &event); - case SelectionNotify: - if (event.xselection.target == SAVE_TARGETS) - return; - break; - default: break; - } - } -} - -void RGFW_writeClipboard(const char* text, u32 textLen) { - RGFW_GOTO_WAYLAND(1); - #ifdef RGFW_X11 - RGFW_LOAD_ATOM(SAVE_TARGETS); - - /* request ownership of the clipboard section and request to convert it, this means its our job to convert it */ - XSetSelectionOwner(RGFW_root->src.display, RGFW_XCLIPBOARD, RGFW_root->src.window, CurrentTime); - if (XGetSelectionOwner(RGFW_root->src.display, RGFW_XCLIPBOARD) != RGFW_root->src.window) { - #ifdef RGFW_DEBUG - fprintf(stderr, "RGFW: X11 failed to become owner of clipboard selection\n"); - #endif - return; - } - - if (RGFW_root->src.clipboard) - RGFW_FREE(RGFW_root->src.clipboard); - - RGFW_root->src.clipboard = RGFW_ALLOC(textLen); - strncpy(RGFW_root->src.clipboard, text, textLen); - RGFW_root->src.clipboard_len = textLen; -#ifdef RGFW_WAYLAND - if (RGFW_useWaylandBool) - RGFW_XHandleClipboardSelectionLoop(RGFW_root); -#endif - - #endif - #if defined(RGFW_WAYLAND) - wayland: - #endif -} - -RGFW_bool RGFW_window_isHidden(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - XWindowAttributes windowAttributes; - XGetWindowAttributes(win->src.display, win->src.window, &windowAttributes); - - return (windowAttributes.map_state == IsUnmapped && !RGFW_window_isMinimized(win)); -} - -RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - RGFW_LOAD_ATOM(WM_STATE); - - Atom actual_type; - i32 actual_format; - unsigned long nitems, bytes_after; - unsigned char* prop_data; - - i16 status = XGetWindowProperty(win->src.display, win->src.window, WM_STATE, 0, 2, False, - AnyPropertyType, &actual_type, &actual_format, - &nitems, &bytes_after, &prop_data); - - if (status == Success && nitems >= 1 && *((int*) prop_data) == IconicState) { - XFree(prop_data); - return RGFW_TRUE; - } - - if (prop_data != NULL) - XFree(prop_data); - - return RGFW_FALSE; -} - -RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_LOAD_ATOM(_NET_WM_STATE); - RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_VERT); - RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_HORZ); - - Atom actual_type; - i32 actual_format; - unsigned long nitems, bytes_after; - unsigned char* prop_data; - - i16 status = XGetWindowProperty(win->src.display, win->src.window, _NET_WM_STATE, 0, 1024, False, - XA_ATOM, &actual_type, &actual_format, - &nitems, &bytes_after, &prop_data); - - if (status != Success) { - if (prop_data != NULL) - XFree(prop_data); - - return RGFW_FALSE; - } - - Atom* atoms = (Atom*) prop_data; - u64 i; - for (i = 0; i < nitems; ++i) { - if (atoms[i] == _NET_WM_STATE_MAXIMIZED_VERT || - atoms[i] == _NET_WM_STATE_MAXIMIZED_HORZ) { - XFree(prop_data); - return RGFW_TRUE; - } - } - - return RGFW_FALSE; -} - -#ifndef RGFW_NO_DPI -static u32 RGFW_XCalculateRefreshRate(XRRModeInfo mi) { - if (mi.hTotal == 0 || mi.vTotal == 0) return 0; - - return (u32) RGFW_ROUND((double) mi.dotClock / ((double) mi.hTotal * (double) mi.vTotal)); -} -#endif - - -static float XGetSystemContentDPI(Display* display, i32 screen) { - float dpi = 96.0f; - - #ifndef RGFW_NO_DPI - RGFW_UNUSED(screen); - char* rms = XResourceManagerString(display); - XrmDatabase db = NULL; - if (rms) db = XrmGetStringDatabase(rms); - - if (rms && db) { - XrmValue value; - char* type = NULL; - - if (XrmGetResource(db, "Xft.dpi", "Xft.Dpi", &type, &value) && type && RGFW_STRNCMP(type, "String", 7) == 0) - dpi = (float)atof(value.addr); - XrmDestroyDatabase(db); - } - #else - dpi = RGFW_ROUND(DisplayWidth(display, screen) / (DisplayWidthMM(display, screen) / 25.4)); - #endif - - return dpi; -} - -RGFW_monitor RGFW_XCreateMonitor(i32 screen) { - RGFW_monitor monitor; - - Display* display; - if (RGFW_root == NULL) - display = XOpenDisplay(NULL); - else - display = RGFW_root->src.display; - - if (screen == -1) screen = DefaultScreen(display); - - Screen* scrn = DefaultScreenOfDisplay(display); - RGFW_area size = RGFW_AREA(scrn->width, scrn->height); - - monitor.x = 0; - monitor.y = 0; - monitor.mode.area = RGFW_AREA(size.w, size.h); - monitor.physW = DisplayWidthMM(display, screen) / 25.4; - monitor.physH = DisplayHeightMM(display, screen) / 25.4; - - RGFW_splitBPP(DefaultDepth(display, DefaultScreen(display)), &monitor.mode); - - char* name = XDisplayName((const char*)display); - RGFW_MEMCPY(monitor.name, name, 128); - - float dpi = XGetSystemContentDPI(display, screen); - monitor.pixelRatio = dpi >= 192.0f ? 2 : 1; - monitor.scaleX = (float) (dpi) / 96.0f; - monitor.scaleY = (float) (dpi) / 96.0f; - - #ifndef RGFW_NO_DPI - XRRScreenResources* sr = XRRGetScreenResourcesCurrent(display, RootWindow(display, screen)); - monitor.mode.refreshRate = RGFW_XCalculateRefreshRate(sr->modes[screen]); - - XRRCrtcInfo* ci = NULL; - int crtc = screen; - - if (sr->ncrtc > crtc) { - ci = XRRGetCrtcInfo(display, sr, sr->crtcs[crtc]); - } - #endif - - #ifndef RGFW_NO_DPI - XRROutputInfo* info = XRRGetOutputInfo (display, sr, sr->outputs[screen]); - - if (info == NULL || ci == NULL) { - XRRFreeScreenResources(sr); - XCloseDisplay(display); - - #ifdef RGFW_DEBUG - printf("RGFW INFO: monitor found: scale (%s):\n rect: {%i, %i, %i, %i}\n physical size:%f %f\n scale: %f %f\n pixelRatio: %f\n refreshRate: %i\n depth: %i\n", monitor.name, monitor.x, monitor.y, monitor.mode.area.w, monitor.mode.area.h, monitor.physW, monitor.physH, monitor.scaleX, monitor.scaleY, monitor.pixelRatio, monitor.mode.refreshRate, monitor.mode.red + monitor.mode.green + monitor.mode.blue); - #endif - return monitor; - } - - - float physW = info->mm_width / 25.4; - float physH = info->mm_height / 25.4; - - RGFW_MEMCPY(monitor.name, info->name, 128); - - if (physW && physH) { - monitor.physW = physW; - monitor.physH = physH; - } - - monitor.x = ci->x; - monitor.y = ci->y; - - float w = ci->width; - float h = ci->height; - - if (w && h) { - monitor.mode.area.w = w; - monitor.mode.area.h = h; - } - #endif - - #ifndef RGFW_NO_DPI - XRRFreeCrtcInfo(ci); - XRRFreeScreenResources(sr); - #endif - - if (RGFW_root == NULL) XCloseDisplay(display); - - #ifdef RGFW_DEBUG - printf("RGFW INFO: monitor found: scale (%s):\n rect: {%i, %i, %i, %i}\n physical size:%f %f\n scale: %f %f\n pixelRatio: %f\n refreshRate: %i\n depth: %i\n", monitor.name, monitor.x, monitor.y, monitor.mode.area.w, monitor.mode.area.h, monitor.physW, monitor.physH, monitor.scaleX, monitor.scaleY, monitor.pixelRatio, monitor.mode.refreshRate, monitor.mode.red + monitor.mode.green + monitor.mode.blue); - #endif - - return monitor; -} - -RGFW_monitor* RGFW_getMonitors(void) { - static RGFW_monitor monitors[7]; - - RGFW_GOTO_WAYLAND(1); - #ifdef RGFW_X11 - - Display* display; - if (RGFW_root == NULL) display = XOpenDisplay(NULL); - else display = RGFW_root->src.display; - - size_t i; - for (i = 0; i < (size_t)ScreenCount(display) && i < 6; i++) - monitors[i] = RGFW_XCreateMonitor(i); - - if (RGFW_root == NULL) XCloseDisplay(display); - - return monitors; - #endif - #ifdef RGFW_WAYLAND - wayland: return monitors; // TODO WAYLAND - #endif -} - -RGFW_monitor RGFW_getPrimaryMonitor(void) { - RGFW_GOTO_WAYLAND(1); - #ifdef RGFW_X11 - return RGFW_XCreateMonitor(-1); - #endif - #ifdef RGFW_WAYLAND - wayland: return (RGFW_monitor){ }; // TODO WAYLAND - #endif -} - -RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { - RGFW_GOTO_WAYLAND(1); -#ifdef RGFW_X11 - #ifndef RGFW_NO_DPI - XRRScreenResources* screenRes = XRRGetScreenResources(RGFW_root->src.display, DefaultRootWindow(RGFW_root->src.display)); - if (screenRes == NULL) return RGFW_FALSE; - for (int i = 0; i < screenRes->ncrtc; i++) { - XRRCrtcInfo* crtcInfo = XRRGetCrtcInfo(RGFW_root->src.display, screenRes, screenRes->crtcs[i]); - if (!crtcInfo) continue; - - if (mon.x == crtcInfo->x && mon.y == crtcInfo->y && (u32)mon.mode.area.w == crtcInfo->width && (u32)mon.mode.area.h == crtcInfo->height) { - RRMode rmode = None; - for (int index = 0; index < screenRes->nmode; index++) { - RGFW_monitorMode foundMode; - foundMode.area = RGFW_AREA(screenRes->modes[index].width, screenRes->modes[index].height); - foundMode.refreshRate = RGFW_XCalculateRefreshRate(screenRes->modes[index]); - RGFW_splitBPP(DefaultDepth(RGFW_root->src.display, DefaultScreen(RGFW_root->src.display)), &foundMode); - - if (RGFW_monitorModeCompare(mode, foundMode, request)) { - rmode = screenRes->modes[index].id; - - RROutput output = screenRes->outputs[i]; - XRROutputInfo* info = XRRGetOutputInfo(RGFW_root->src.display, screenRes, output); - if (info) { - XRRSetCrtcConfig(RGFW_root->src.display, screenRes, screenRes->crtcs[i], - CurrentTime, 0, 0, rmode, RR_Rotate_0, &output, 1); - XRRFreeOutputInfo(info); - XRRFreeCrtcInfo(crtcInfo); - XRRFreeScreenResources(screenRes); - return RGFW_TRUE; - } - } - } - - XRRFreeCrtcInfo(crtcInfo); - XRRFreeScreenResources(screenRes); - return RGFW_FALSE; - } - - XRRFreeCrtcInfo(crtcInfo); - } - - XRRFreeScreenResources(screenRes); - return RGFW_FALSE; - #endif -#endif -wayland: - return RGFW_FALSE; -} - -RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_GOTO_WAYLAND(1); -#ifdef RGFW_X11 - XWindowAttributes attrs; - if (!XGetWindowAttributes(win->src.display, win->src.window, &attrs)) { - return (RGFW_monitor){}; - } - - size_t i; - for (i = 0; i < (size_t)ScreenCount(win->src.display) && i < 6; i++) { - Screen* screen = ScreenOfDisplay(win->src.display, i); - if (attrs.x >= 0 && attrs.x < XWidthOfScreen(screen) && - attrs.y >= 0 && attrs.y < XHeightOfScreen(screen)) - return RGFW_XCreateMonitor(i); - } -#endif -wayland: - return (RGFW_monitor){}; - -} - -#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) -void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { - if (win == NULL) - glXMakeCurrent(NULL, (Drawable)NULL, (GLXContext) NULL); - else - glXMakeCurrent(win->src.display, (Drawable) win->src.window, (GLXContext) win->src.ctx); -} -void* RGFW_getCurrent_OpenGL(void) { return glXGetCurrentContext(); } -#endif - - -void RGFW_window_swapBuffers(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_GOTO_WAYLAND(0); -#ifdef RGFW_X11 - /* clear the window*/ - if (!(win->_flags & RGFW_NO_CPU_RENDER)) { - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - RGFW_area area = win->bufferSize; - win->src.bitmap->data = (char*) win->buffer; - #if !defined(RGFW_X11_DONT_CONVERT_BGR) && !defined(RGFW_OSMESA) - u32 x, y; - for (y = 0; y < (u32)win->r.h; y++) { - for (x = 0; x < (u32)win->r.w; x++) { - u32 index = (y * 4 * area.w) + x * 4; - - u8 red = win->src.bitmap->data[index]; - win->src.bitmap->data[index] = win->buffer[index + 2]; - win->src.bitmap->data[index + 2] = red; - - } - } - #endif - XPutImage(win->src.display, win->src.window, win->src.gc, win->src.bitmap, 0, 0, 0, 0, win->bufferSize.w, win->bufferSize.h); - win->src.bitmap->data = NULL; - #endif - } - - if (!(win->_flags & RGFW_NO_GPU_RENDER)) { - #ifdef RGFW_EGL - eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); - #elif defined(RGFW_OPENGL) - glXSwapBuffers(win->src.display, win->src.window); - #endif - } - return; -#endif -#ifdef RGFW_WAYLAND - wayland: - #if defined(RGFW_BUFFER) || defined(RGFW_OSMESA) - #if !defined(RGFW_X11_DONT_CONVERT_BGR) && !defined(RGFW_OSMESA) - for (u32 y = 0; y < (u32)win->r.h; y++) { - for (u32 x = 0; x < (u32)win->r.w; x++) { - u32 index = (y * 4 * win->r.w) + x * 4; - u32 index2 = (y * 4 * win->bufferSize.w) + x * 4; - - u8 red = win->buffer[index2]; - win->src.buffer[index] = win->buffer[index2 + 2]; - win->src.buffer[index + 1] = win->buffer[index2 + 1]; - win->src.buffer[index + 2] = red; - } - } - #else - for (size_t y = 0; y < win->r.h; y++) { - u32 index = (y * 4 * win->r.w); - u32 index2 = (y * 4 * win->bufferSize.w); - RGFW_MEMCPY(&win->src.buffer[index], &win->buffer[index2], win->r.w * 4); - } - #endif - - wl_surface_frame_done(win, NULL, 0); - if (!(win->_flags & RGFW_NO_GPU_RENDER)) - #endif - { - #ifdef RGFW_OPENGL - eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); - #endif - } - - wl_surface_commit(win->src.surface); -#endif -} - -#if !defined(RGFW_EGL) - -void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { - RGFW_ASSERT(win != NULL); - - #if defined(RGFW_OPENGL) - ((PFNGLXSWAPINTERVALEXTPROC) glXGetProcAddress((GLubyte*) "glXSwapIntervalEXT"))(win->src.display, win->src.window, swapInterval); - #else - RGFW_UNUSED(swapInterval); - #endif -} -#endif - - -void RGFW_window_close(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - #ifdef RGFW_X11 - /* to save the clipboard on the x server after the window is closed */ - RGFW_LOAD_ATOM(CLIPBOARD_MANAGER); - RGFW_LOAD_ATOM(SAVE_TARGETS); - if (XGetSelectionOwner(win->src.display, RGFW_XCLIPBOARD) == win->src.window) { - XConvertSelection(win->src.display, CLIPBOARD_MANAGER, SAVE_TARGETS, None, win->src.window, CurrentTime); - RGFW_XHandleClipboardSelectionLoop(win); - } - if (win->src.clipboard) { - RGFW_FREE(win->src.clipboard); - win->src.clipboard = NULL; - } - - RGFW_GOTO_WAYLAND(0); - - /* ungrab pointer if it was grabbed */ - if (win->_flags & RGFW_HOLD_MOUSE) - XUngrabPointer(win->src.display, CurrentTime); - - #ifdef RGFW_EGL - RGFW_closeEGL(win); - #endif - - if (RGFW_hiddenMouse != NULL && win == RGFW_root) { - RGFW_freeMouse(RGFW_hiddenMouse); - RGFW_hiddenMouse = 0; - } - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - if (win->buffer != NULL) { - if ((win->_flags & RGFW_BUFFER_ALLOC)) - RGFW_FREE(win->buffer); - XDestroyImage((XImage*) win->src.bitmap); - } - #endif - - if (win->src.display) { - XFreeGC(win->src.display, win->src.gc); - #if defined(RGFW_OPENGL) && !defined(RGFW_EGL) - glXDestroyContext(win->src.display, win->src.ctx); - #endif - if ((Drawable) win->src.window) - XDestroyWindow(win->src.display, (Drawable) win->src.window); /*!< close the window*/ - - if (win == RGFW_root) { - XCloseDisplay(win->src.display); /*!< kill the x server connection */ - RGFW_root = NULL; - } - } - - /* set cleared display / window to NULL for error checking */ - win->src.display = 0; - win->src.window = 0; - - #define RGFW_FREE_LIBRARY(x) if (x != NULL) dlclose(x); x = NULL; - if (win == RGFW_root) { - #if !defined(RGFW_NO_X11_CURSOR_PRELOAD) && !defined(RGFW_NO_X11_CURSOR) - RGFW_FREE_LIBRARY(X11Cursorhandle); - #endif - #if !defined(RGFW_NO_X11_XI_PRELOAD) - RGFW_FREE_LIBRARY(X11Xihandle); - #endif - - #ifdef RGFW_USE_XDL - XDL_close(); - #endif - - #ifndef RGFW_NO_PASSTHROUGH - RGFW_FREE_LIBRARY(RGFW_libxshape); - #endif - - #ifndef RGFW_NO_LINUX - if (RGFW_eventWait_forceStop[0] || RGFW_eventWait_forceStop[1]){ - close(RGFW_eventWait_forceStop[0]); - close(RGFW_eventWait_forceStop[1]); - } - - u8 i; - for (i = 0; i < RGFW_gamepadCount; i++) { - if(RGFW_gamepads[i]) - close(RGFW_gamepads[i]); - } - #endif - } - RGFW_clipboard_switch(NULL); - if ((win->_flags & RGFW_WINDOW_ALLOC)) - RGFW_FREE(win); - return; - #endif - - #ifdef RGFW_WAYLAND - wayland: - - #ifdef RGFW_X11 - XDestroyWindow(win->src.display, (Drawable) win->src.window); - #endif - - #ifdef RGFW_EGL - RGFW_closeEGL(win); - #endif - - if (RGFW_root == win) { - #ifdef RGFW_X11 - XCloseDisplay(win->src.display); /*!< kill connection to the x server */ - #endif - RGFW_root = NULL; - } - - xdg_toplevel_destroy(win->src.xdg_toplevel); - xdg_surface_destroy(win->src.xdg_surface); - wl_surface_destroy(win->src.surface); - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - wl_buffer_destroy(win->src.wl_buffer); - if ((win->_flags & RGFW_BUFFER_ALLOC)) - RGFW_FREE(win->buffer); - - munmap(win->src.buffer, win->r.w * win->r.h * 4); - #endif - - wl_display_disconnect(win->src.wl_display); - RGFW_clipboard_switch(NULL); - if ((win->_flags & RGFW_WINDOW_ALLOC)) - RGFW_FREE(win); - #endif -} - - -/* - End of X11 linux / wayland / unix defines -*/ - -#include -#include -#include - -void RGFW_stopCheckEvents(void) { - - RGFW_eventWait_forceStop[2] = 1; - while (1) { - const char byte = 0; - const ssize_t result = write(RGFW_eventWait_forceStop[1], &byte, 1); - if (result == 1 || result == -1) - break; - } -} - -void RGFW_window_eventWait(RGFW_window* win, u32 waitMS) { - if (waitMS == 0) return; - - u8 i; - if (RGFW_eventWait_forceStop[0] == 0 || RGFW_eventWait_forceStop[1] == 0) { - if (pipe(RGFW_eventWait_forceStop) != -1) { - fcntl(RGFW_eventWait_forceStop[0], F_GETFL, 0); - fcntl(RGFW_eventWait_forceStop[0], F_GETFD, 0); - fcntl(RGFW_eventWait_forceStop[1], F_GETFL, 0); - fcntl(RGFW_eventWait_forceStop[1], F_GETFD, 0); - } - } - - struct pollfd fds[] = { - #ifdef RGFW_WAYLAND - { wl_display_get_fd(win->src.wl_display), POLLIN, 0 }, - #else - { ConnectionNumber(win->src.display), POLLIN, 0 }, - #endif - { RGFW_eventWait_forceStop[0], POLLIN, 0 }, - #if defined(__linux__) - { -1, POLLIN, 0 }, {-1, POLLIN, 0 }, {-1, POLLIN, 0 }, {-1, POLLIN, 0} - #endif - }; - - u8 index = 2; - - #if defined(__linux__) - for (i = 0; i < RGFW_gamepadCount; i++) { - if (RGFW_gamepads[i] == 0) - continue; - - fds[index].fd = RGFW_gamepads[i]; - index++; - } - #endif - - - u64 start = RGFW_getTimeNS(); - - - #ifdef RGFW_WAYLAND - while (wl_display_dispatch(win->src.wl_display) <= 0 && waitMS != RGFW_eventWaitNext) { - #else - while (XPending(win->src.display) == 0 && waitMS != RGFW_eventWaitNext) { - #endif - if (poll(fds, index, (int)waitMS) <= 0) - break; - - if (waitMS != RGFW_eventWaitNext) { - waitMS -= (RGFW_getTimeNS() - start) / 1e+6; - } - } - - /* drain any data in the stop request */ - if (RGFW_eventWait_forceStop[2]) { - char data[64]; - (void)!read(RGFW_eventWait_forceStop[0], data, sizeof(data)); - - RGFW_eventWait_forceStop[2] = 0; - } -} - -u64 RGFW_getTimeNS(void) { - struct timespec ts = { 0, 0 }; - #ifndef RGFW_NO_UNIX_CLOCK - clock_gettime(1, &ts); - #endif - unsigned long long int nanoSeconds = (unsigned long long int)ts.tv_sec*1000000000LLU + (unsigned long long int)ts.tv_nsec; - - return nanoSeconds; -} - -u64 RGFW_getTime(void) { - struct timespec ts = { 0, 0 }; - #ifndef RGFW_NO_UNIX_CLOCK - clock_gettime(CLOCK_REALTIME, &ts); - #endif - unsigned long long int nanoSeconds = (u64)ts.tv_sec * 1000000000LLU + (u64)ts.tv_nsec; - - return (double)(nanoSeconds) * 1e-9; -} - -u64 RGFW_getTimerFreq(void) { - return 1000000000LLU; -} - -u64 RGFW_getTimerValue(void) { - struct timespec ts; - clock_gettime(CLOCK_REALTIME, &ts); - return (u64)ts.tv_sec * 1000000000LLU + (u64)ts.tv_nsec; -} -#endif /* end of wayland or X11 defines*/ - - -/* - - Start of Windows defines - - -*/ - -#ifdef RGFW_WINDOWS -#define WIN32_LEAN_AND_MEAN -#define OEMRESOURCE -#include - -#include -#include -#include -#include -#include -#include -#include - -__declspec(dllimport) int __stdcall WideCharToMultiByte( UINT CodePage, DWORD dwFlags, const WCHAR* lpWideCharStr, int cchWideChar, LPSTR lpMultiByteStr, int cbMultiByte, LPCCH lpDefaultChar, LPBOOL lpUsedDefaultChar); - -#ifndef RGFW_NO_XINPUT - typedef DWORD (WINAPI * PFN_XInputGetState)(DWORD,XINPUT_STATE*); - PFN_XInputGetState XInputGetStateSRC = NULL; - #define XInputGetState XInputGetStateSRC - - typedef DWORD (WINAPI * PFN_XInputGetKeystroke)(DWORD, DWORD, PXINPUT_KEYSTROKE); - PFN_XInputGetKeystroke XInputGetKeystrokeSRC = NULL; - #define XInputGetKeystroke XInputGetKeystrokeSRC - - static HMODULE RGFW_XInput_dll = NULL; -#endif - -char* RGFW_createUTF8FromWideStringWin32(const WCHAR* source); - -#define GL_FRONT 0x0404 -#define GL_BACK 0x0405 -#define GL_LEFT 0x0406 -#define GL_RIGHT 0x0407 - -typedef int (*PFN_wglGetSwapIntervalEXT)(void); -PFN_wglGetSwapIntervalEXT wglGetSwapIntervalEXTSrc = NULL; -#define wglGetSwapIntervalEXT wglGetSwapIntervalEXTSrc - - -void* RGFWgamepadApi = NULL; - -/* these two wgl functions need to be preloaded */ -typedef HGLRC (WINAPI *PFNWGLCREATECONTEXTATTRIBSARBPROC)(HDC hdc, HGLRC hglrc, const int *attribList); -PFNWGLCREATECONTEXTATTRIBSARBPROC wglCreateContextAttribsARB = NULL; - -#ifndef RGFW_EGL - static HMODULE RGFW_wgl_dll = NULL; -#endif - -#ifndef RGFW_NO_LOAD_WGL - typedef HGLRC(WINAPI* PFN_wglCreateContext)(HDC); - typedef BOOL(WINAPI* PFN_wglDeleteContext)(HGLRC); - typedef PROC(WINAPI* PFN_wglGetProcAddress)(LPCSTR); - typedef BOOL(WINAPI* PFN_wglMakeCurrent)(HDC, HGLRC); - typedef HDC(WINAPI* PFN_wglGetCurrentDC)(void); - typedef HGLRC(WINAPI* PFN_wglGetCurrentContext)(void); - typedef BOOL(WINAPI* PFN_wglShareLists)(HGLRC, HGLRC); - - PFN_wglCreateContext wglCreateContextSRC; - PFN_wglDeleteContext wglDeleteContextSRC; - PFN_wglGetProcAddress wglGetProcAddressSRC; - PFN_wglMakeCurrent wglMakeCurrentSRC; - PFN_wglGetCurrentDC wglGetCurrentDCSRC; - PFN_wglGetCurrentContext wglGetCurrentContextSRC; - PFN_wglShareLists wglShareListsSRC; - - #define wglCreateContext wglCreateContextSRC - #define wglDeleteContext wglDeleteContextSRC - #define wglGetProcAddress wglGetProcAddressSRC - #define wglMakeCurrent wglMakeCurrentSRC - #define wglGetCurrentDC wglGetCurrentDCSRC - #define wglGetCurrentContext wglGetCurrentContextSRC - #define wglShareLists wglShareListsSRC -#endif - -#ifdef RGFW_OPENGL - void* RGFW_getProcAddress(const char* procname) { - void* proc = (void*) wglGetProcAddress(procname); - if (proc) - return proc; - - return (void*) GetProcAddress(RGFW_wgl_dll, procname); - } - - typedef HRESULT (APIENTRY* PFNWGLCHOOSEPIXELFORMATARBPROC)(HDC hdc, const int* piAttribIList, const FLOAT* pfAttribFList, UINT nMaxFormats, int* piFormats, UINT* nNumFormats); - static PFNWGLCHOOSEPIXELFORMATARBPROC wglChoosePixelFormatARB = NULL; -#endif - -LRESULT CALLBACK WndProcW(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { - RGFW_window* win = GetPropA(hWnd, "RGFW"); - - RECT windowRect; - GetWindowRect(hWnd, &windowRect); - - switch (message) { - case WM_CLOSE: - RGFW_windowQuitCallback(win); - win->event.type = RGFW_quit; - return 0; - case WM_ACTIVATE: - win->event.type = RGFW_focusIn + RGFW_BOOL(LOWORD(wParam) == WA_INACTIVE); - RGFW_focusCallback(win, RGFW_BOOL(LOWORD(wParam) != WA_INACTIVE)); - - if ((win->_flags & RGFW_windowFullscreen) == 0) - break; - - if (LOWORD(wParam) == WA_INACTIVE) - RGFW_window_minimize(win); - else RGFW_window_setFullscreen(win, 1); - break; - case WM_MOVE: - win->r.x = windowRect.left; - win->r.y = windowRect.top; - win->_flags &= ~RGFW_EVENT_PASSED; - win->event.type = RGFW_windowMoved; - RGFW_windowMoveCallback(win, win->r); - return DefWindowProcW(hWnd, message, wParam, lParam); - case WM_SIZE: { - if (win->src.aspectRatio.w != 0 && win->src.aspectRatio.h != 0) { - double aspectRatio = (double)win->src.aspectRatio.w / win->src.aspectRatio.h; - - int width = windowRect.right - windowRect.left; - int height = windowRect.bottom - windowRect.top; - int newHeight = (int)(width / aspectRatio); - int newWidth = (int)(height * aspectRatio); - - if (win->r.w > windowRect.right - windowRect.left || - win->r.h > (i32)((windowRect.bottom - windowRect.top) - win->src.hOffset)) - { - if (newHeight > height) windowRect.right = windowRect.left + newWidth; - else windowRect.bottom = windowRect.top + newHeight; - } else { - if (newHeight < height) windowRect.right = windowRect.left + newWidth; - else windowRect.bottom = windowRect.top + newHeight; - } - - RGFW_window_resize(win, RGFW_AREA((windowRect.right - windowRect.left), - (windowRect.bottom - windowRect.top) - win->src.hOffset)); - } - - win->r.w = windowRect.right - windowRect.left; - win->r.h = (windowRect.bottom - windowRect.top) - win->src.hOffset; - win->_flags &= ~RGFW_EVENT_PASSED; - win->event.type = RGFW_windowResized; - RGFW_windowResizeCallback(win, win->r); - return DefWindowProcW(hWnd, message, wParam, lParam); - } - case WM_GETMINMAXINFO: - if (win == NULL) - return DefWindowProcW(hWnd, message, wParam, lParam); - - MINMAXINFO* mmi = (MINMAXINFO*) lParam; - mmi->ptMinTrackSize.x = win->src.minSize.w; - mmi->ptMinTrackSize.y = win->src.minSize.h; - if (win->src.maxSize.w == 0 && win->src.maxSize.h == 0) - return DefWindowProcW(hWnd, message, wParam, lParam); - - mmi->ptMaxTrackSize.x = win->src.maxSize.w; - mmi->ptMaxTrackSize.y = win->src.maxSize.h; - return DefWindowProcW(hWnd, message, wParam, lParam); - case WM_PAINT: { - win->event.type = RGFW_windowRefresh; - RGFW_windowRefreshCallback(win); - return DefWindowProcW(hWnd, message, wParam, lParam); - } - default: break; - } - return DefWindowProcW(hWnd, message, wParam, lParam); -} - -#ifndef RGFW_NO_DPI - static HMODULE RGFW_Shcore_dll = NULL; - typedef HRESULT (WINAPI * PFN_GetDpiForMonitor)(HMONITOR,MONITOR_DPI_TYPE,UINT*,UINT*); - PFN_GetDpiForMonitor GetDpiForMonitorSRC = NULL; - #define GetDpiForMonitor GetDpiForMonitorSRC -#endif - -#ifndef RGFW_NO_DWM -static HMODULE RGFW_dwm_dll = NULL; -typedef struct { DWORD dwFlags; int fEnable; HRGN hRgnBlur; int fTransitionOnMaximized;} DWM_BLURBEHIND; -typedef HRESULT (WINAPI * PFN_DwmEnableBlurBehindWindow)(HWND, const DWM_BLURBEHIND*); -PFN_DwmEnableBlurBehindWindow DwmEnableBlurBehindWindowSRC = NULL; -#endif - -#if !defined(RGFW_NO_LOAD_WINMM) && !defined(RGFW_NO_WINMM) - static HMODULE RGFW_winmm_dll = NULL; - typedef u32 (WINAPI * PFN_timeBeginPeriod)(u32); - PFN_timeBeginPeriod timeBeginPeriodSRC = NULL; - #define timeBeginPeriod timeBeginPeriodSRC -#elif !defined(RGFW_NO_WINMM) - __declspec(dllimport) u32 __stdcall timeBeginPeriod(u32 uPeriod); -#endif - -#define RGFW_PROC_DEF(proc, name) if (name##SRC == NULL && proc != NULL) name##SRC = (PFN_##name)(void*)GetProcAddress(proc, #name) - -#ifndef RGFW_NO_XINPUT -void RGFW_loadXInput(void) { - u32 i; - static const char* names[] = {"xinput1_4.dll", "xinput9_1_0.dll", "xinput1_2.dll", "xinput1_1.dll"}; - - for (i = 0; i < sizeof(names) / sizeof(const char*) && (XInputGetStateSRC == NULL || XInputGetStateSRC != NULL); i++) { - RGFW_XInput_dll = LoadLibraryA(names[i]); - RGFW_PROC_DEF(RGFW_XInput_dll, XInputGetState); - RGFW_PROC_DEF(RGFW_XInput_dll, XInputGetKeystroke); - } - - #ifdef RGFW_DEBUG - if (XInputGetStateSRC == NULL) - printf("RGFW ERR: Failed to load XInputGetState\n"); - if (XInputGetKeystrokeSRC == NULL) - printf("RGFW ERR: Failed to load XInputGetKeystroke\n"); - #endif -} -#endif - -void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area){ -#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - win->buffer = buffer; - win->bufferSize = area; - - BITMAPV5HEADER bi = { 0 }; - ZeroMemory(&bi, sizeof(bi)); - bi.bV5Size = sizeof(bi); - bi.bV5Width = area.w; - bi.bV5Height = -((LONG) area.h); - bi.bV5Planes = 1; - bi.bV5BitCount = 32; - bi.bV5Compression = BI_BITFIELDS; - bi.bV5BlueMask = 0x00ff0000; - bi.bV5GreenMask = 0x0000ff00; - bi.bV5RedMask = 0x000000ff; - bi.bV5AlphaMask = 0xff000000; - - win->src.bitmap = CreateDIBSection(win->src.hdc, - (BITMAPINFO*) &bi, DIB_RGB_COLORS, - (void**) &win->src.bitmapBits, - NULL, (DWORD) 0); - - if (win->buffer == NULL) - win->buffer = win->src.bitmapBits; - - win->src.hdcMem = CreateCompatibleDC(win->src.hdc); - - #if defined(RGFW_OSMESA) - win->src.ctx = OSMesaCreateContext(OSMESA_RGBA, NULL); - OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, win->r.w, win->r.h); - #endif - #else - RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ - #endif -} - -void RGFW_releaseCursor(RGFW_window* win) { - RGFW_UNUSED(win); - ClipCursor(NULL); - const RAWINPUTDEVICE id = { 0x01, 0x02, RIDEV_REMOVE, NULL }; - RegisterRawInputDevices(&id, 1, sizeof(id)); -} - -void RGFW_captureCursor(RGFW_window* win, RGFW_rect rect) { - RGFW_UNUSED(win); RGFW_UNUSED(rect); - - RECT clipRect; - GetClientRect(win->src.window, &clipRect); - ClientToScreen(win->src.window, (POINT*) &clipRect.left); - ClientToScreen(win->src.window, (POINT*) &clipRect.right); - ClipCursor(&clipRect); - - const RAWINPUTDEVICE id = { 0x01, 0x02, 0, win->src.window }; - RegisterRawInputDevices(&id, 1, sizeof(id)); -} - -#define RGFW_LOAD_LIBRARY(x, lib) if (x == NULL) x = LoadLibraryA(lib) - -#ifdef RGFW_DIRECTX - -#define OEMRESOURCE -#include - -#ifndef __cplusplus - #define __uuidof(T) IID_##T -#endif - -int RGFW_window_createDXSwapChain(RGFW_window* win, IDXGIFactory* pFactory, IUnknown* pDevice, IDXGISwapChain** swapchain) { - if (!win || !pFactory || !pDevice || !swapchain) { - printf("Error: Null argument passed to RGFW_window_createDXSwapChain\n"); - return -1; - } - - static DXGI_SWAP_CHAIN_DESC swapChainDesc = { 0 }; - swapChainDesc.BufferCount = 2; - swapChainDesc.BufferDesc.Width = win->r.w; - swapChainDesc.BufferDesc.Height = win->r.h; - swapChainDesc.BufferDesc.Format = DXGI_FORMAT_R8G8B8A8_UNORM; - swapChainDesc.BufferUsage = DXGI_USAGE_RENDER_TARGET_OUTPUT; - swapChainDesc.OutputWindow = (HWND)win->src.window; - swapChainDesc.SampleDesc.Count = 1; - swapChainDesc.SampleDesc.Quality = 0; - swapChainDesc.Windowed = TRUE; - swapChainDesc.Flags = DXGI_SWAP_CHAIN_FLAG_ALLOW_MODE_SWITCH; - - HRESULT hr = pFactory->lpVtbl->CreateSwapChain(pFactory, (IUnknown*)pDevice, &swapChainDesc, swapchain); - if (FAILED(hr)) { - printf("Error: Failed to create DirectX swap chain! HRESULT: 0x%X\n", hr); - return -2; - } - - return 0; -} -#endif - -void RGFW_win32_makeWindowTransparent(RGFW_window* win) { - if (!(win->_flags & RGFW_windowTransparent)) return; - - #ifndef RGFW_NO_DWM - if (DwmEnableBlurBehindWindowSRC != NULL) { - DWM_BLURBEHIND bb = {0, 0, 0, 0}; - bb.dwFlags = 0x1; - bb.fEnable = TRUE; - bb.hRgnBlur = NULL; - DwmEnableBlurBehindWindowSRC(win->src.window, &bb); - - } else - #endif - { - SetWindowLong(win->src.window, GWL_EXSTYLE, WS_EX_LAYERED); - SetLayeredWindowAttributes(win->src.window, 0, 128, LWA_ALPHA); - } -} - -RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { - #ifndef RGFW_NO_XINPUT - if (RGFW_XInput_dll == NULL) - RGFW_loadXInput(); - #endif - - #ifndef RGFW_NO_DPI - #if (_WIN32_WINNT >= 0x0600) - SetProcessDPIAware(); - #endif - #endif - - #if !defined(RGFW_NO_LOAD_WINMM) && !defined(RGFW_NO_WINMM) - RGFW_LOAD_LIBRARY(RGFW_winmm_dll, "winmm.dll"); - RGFW_PROC_DEF(RGFW_winmm_dll, timeBeginPeriod); - #endif - - #ifndef RGFW_NO_DWM - RGFW_LOAD_LIBRARY(RGFW_dwm_dll, "dwmapi.dll"); - RGFW_PROC_DEF(RGFW_dwm_dll, DwmEnableBlurBehindWindow); - #endif - - RGFW_LOAD_LIBRARY(RGFW_wgl_dll, "opengl32.dll"); - #ifndef RGFW_NO_LOAD_WGL - RGFW_PROC_DEF(RGFW_wgl_dll, wglCreateContext); - RGFW_PROC_DEF(RGFW_wgl_dll, wglDeleteContext); - RGFW_PROC_DEF(RGFW_wgl_dll, wglDeleteContext); - RGFW_PROC_DEF(RGFW_wgl_dll, wglGetProcAddress); - RGFW_PROC_DEF(RGFW_wgl_dll, wglMakeCurrent); - RGFW_PROC_DEF(RGFW_wgl_dll, wglGetCurrentDC); - RGFW_PROC_DEF(RGFW_wgl_dll, wglGetCurrentContext); - RGFW_PROC_DEF(RGFW_wgl_dll, wglShareLists); - #endif - - if (name[0] == 0) name = (char*) " "; - - RGFW_window_basic_init(win, rect, flags); - - win->src.hIconSmall = win->src.hIconBig = NULL; - win->src.maxSize = RGFW_AREA(0, 0); - win->src.minSize = RGFW_AREA(0, 0); - win->src.aspectRatio = RGFW_AREA(0, 0); - - HINSTANCE inh = GetModuleHandleA(NULL); - - #ifndef __cplusplus - WNDCLASSW Class = { 0 }; /*!< Setup the Window class. */ - #else - WNDCLASSW Class = { }; - #endif - - if (RGFW_className == NULL) - RGFW_className = (char*)name; - - wchar_t wide_class[255]; - MultiByteToWideChar(CP_UTF8, 0, RGFW_className, -1, wide_class, 255); - - Class.lpszClassName = wide_class; - Class.hInstance = inh; - Class.hCursor = LoadCursor(NULL, IDC_ARROW); - Class.lpfnWndProc = WndProcW; - Class.cbClsExtra = sizeof(RGFW_window*); - - Class.hIcon = (HICON)LoadImageA(GetModuleHandleW(NULL), "RGFW_ICON", IMAGE_ICON, 0, 0, LR_DEFAULTSIZE | LR_SHARED); - if (Class.hIcon == NULL) - Class.hIcon = (HICON)LoadImageA(NULL, (LPCSTR)IDI_APPLICATION, IMAGE_ICON, 0, 0, LR_DEFAULTSIZE | LR_SHARED); - - RegisterClassW(&Class); - - DWORD window_style = WS_CLIPSIBLINGS | WS_CLIPCHILDREN; - - RECT windowRect, clientRect; - - if (!(flags & RGFW_windowNoBorder)) { - window_style |= WS_CAPTION | WS_SYSMENU | WS_BORDER | WS_MINIMIZEBOX; - - if (!(flags & RGFW_windowNoResize)) - window_style |= WS_SIZEBOX | WS_MAXIMIZEBOX | WS_THICKFRAME; - } else - window_style |= WS_POPUP | WS_VISIBLE | WS_SYSMENU | WS_MINIMIZEBOX; - - wchar_t wide_name[255]; - MultiByteToWideChar(CP_UTF8, 0, name, -1, wide_name, 255); - - HWND dummyWin = CreateWindowW(Class.lpszClassName, (wchar_t*)wide_name, window_style, win->r.x, win->r.y, win->r.w, win->r.h, 0, 0, inh, 0); - - GetWindowRect(dummyWin, &windowRect); - GetClientRect(dummyWin, &clientRect); - - win->src.hOffset = (windowRect.bottom - windowRect.top) - (clientRect.bottom - clientRect.top); - win->src.window = CreateWindowW(Class.lpszClassName, (wchar_t*)wide_name, window_style, win->r.x, win->r.y, win->r.w, win->r.h + win->src.hOffset, 0, 0, inh, 0); - - SetPropA(win->src.window, "RGFW", win); - - if (flags & RGFW_windowAllowDND) { - win->_flags |= RGFW_windowAllowDND; - RGFW_window_setDND(win, 1); - } - win->src.hdc = GetDC(win->src.window); - - if ((flags & RGFW_windowNoInitAPI) == 0) { - #ifdef RGFW_OPENGL - HDC dummy_dc = GetDC(dummyWin); - - u32 pfd_flags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL; - - //if (RGFW_DOUBLE_BUFFER) - pfd_flags |= PFD_DOUBLEBUFFER; - - PIXELFORMATDESCRIPTOR pfd = { - sizeof(PIXELFORMATDESCRIPTOR), // Size of the descriptor - 1, // Version - pfd_flags, // Flags to specify what the pixel format supports (e.g., PFD_SUPPORT_OPENGL) - PFD_TYPE_RGBA, // Pixel type is RGBA - 32, // Color bits (red, green, blue channels) - 0, 0, 0, 0, 0, 0, // No color bits for unused channels - 8, // Alpha bits (important for transparency) - 0, // No accumulation buffer bits needed - 0, 0, 0, 0, // No accumulation bits - 32, // Depth buffer bits - 8, // Stencil buffer bits - 0, // Auxiliary buffer bits (unused) - PFD_MAIN_PLANE, // Use the main plane for rendering - 0, 0, 0, 0, 0 // Reserved fields - }; - - - int pixel_format = ChoosePixelFormat(dummy_dc, &pfd); - SetPixelFormat(dummy_dc, pixel_format, &pfd); - - HGLRC dummy_context = wglCreateContext(dummy_dc); - wglMakeCurrent(dummy_dc, dummy_context); - - if (wglChoosePixelFormatARB == NULL) { - wglCreateContextAttribsARB = (PFNWGLCREATECONTEXTATTRIBSARBPROC) (void*) wglGetProcAddress("wglCreateContextAttribsARB"); - wglChoosePixelFormatARB = (PFNWGLCHOOSEPIXELFORMATARBPROC) (void*)wglGetProcAddress("wglChoosePixelFormatARB"); - } - - wglMakeCurrent(dummy_dc, 0); - wglDeleteContext(dummy_context); - ReleaseDC(dummyWin, dummy_dc); - - /* try to create the pixel format we want for opengl and then try to create an opengl context for the specified version */ - if (wglCreateContextAttribsARB != NULL) { - PIXELFORMATDESCRIPTOR pfd = {sizeof(pfd), 1, pfd_flags, PFD_TYPE_RGBA, 32, 8, PFD_MAIN_PLANE, 24, 8, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; - - if (flags & RGFW_windowOpenglSoftware) - pfd.dwFlags |= PFD_GENERIC_FORMAT | PFD_GENERIC_ACCELERATED; - - if (wglChoosePixelFormatARB != NULL) { - i32* pixel_format_attribs = (i32*)RGFW_initFormatAttribs(flags & RGFW_windowOpenglSoftware); - - int pixel_format; - UINT num_formats; - wglChoosePixelFormatARB(win->src.hdc, pixel_format_attribs, 0, 1, &pixel_format, &num_formats); - if (!num_formats) { - #ifdef RGFW_DEBUG - printf("Failed to create a pixel format for WGL.\n"); - #endif - } - - DescribePixelFormat(win->src.hdc, pixel_format, sizeof(pfd), &pfd); - if (!SetPixelFormat(win->src.hdc, pixel_format, &pfd)) { - #ifdef RGFW_DEBUG - printf("Failed to set the WGL pixel format.\n"); - #endif - } - } - - /* create opengl/WGL context for the specified version */ - u32 index = 0; - i32 attribs[40]; - - if (RGFW_GL_HINTS[RGFW_glProfile]== RGFW_glCore) { - SET_ATTRIB(WGL_CONTEXT_PROFILE_MASK_ARB, WGL_CONTEXT_CORE_PROFILE_BIT_ARB); - } - else { - SET_ATTRIB(WGL_CONTEXT_PROFILE_MASK_ARB, WGL_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB); - } - - if (RGFW_GL_HINTS[RGFW_glMinor] || RGFW_GL_HINTS[RGFW_glMajor]) { - SET_ATTRIB(WGL_CONTEXT_MAJOR_VERSION_ARB, RGFW_GL_HINTS[RGFW_glMinor]); - SET_ATTRIB(WGL_CONTEXT_MINOR_VERSION_ARB, RGFW_GL_HINTS[RGFW_glMajor]); - } - - SET_ATTRIB(0, 0); - - win->src.ctx = (HGLRC)wglCreateContextAttribsARB(win->src.hdc, NULL, attribs); - } else { /* fall back to a default context (probably opengl 2 or something) */ - #ifdef RGFW_DEBUG - fprintf(stderr, "Failed to create an accelerated OpenGL Context\n"); - #endif - - int pixel_format = ChoosePixelFormat(win->src.hdc, &pfd); - SetPixelFormat(win->src.hdc, pixel_format, &pfd); - - win->src.ctx = wglCreateContext(win->src.hdc); - } - - wglMakeCurrent(win->src.hdc, win->src.ctx); - #endif - } - - #ifdef RGFW_OPENGL - if ((flags & RGFW_windowNoInitAPI) == 0) { - ReleaseDC(win->src.window, win->src.hdc); - win->src.hdc = GetDC(win->src.window); - wglMakeCurrent(win->src.hdc, win->src.ctx); - } - #endif - - DestroyWindow(dummyWin); - - #ifdef RGFW_EGL - if ((flags & RGFW_windowNoInitAPI) == 0) - RGFW_createOpenGLContext(win); - #endif - - ShowWindow(win->src.window, SW_SHOWNORMAL); - RGFW_window_setFlags(win, flags); - - RGFW_win32_makeWindowTransparent(win); - - #ifdef RGFW_OPENGL - if (RGFW_root != win) - wglShareLists(RGFW_root->src.ctx, win->src.ctx); - #endif - - #ifdef RGFW_DEBUG - printf("RGFW INFO: a window with a rect of {%i, %i, %i, %i} \n", win->r.x, win->r.y, win->r.w, win->r.h); - #endif - - return win; -} - -void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { - RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); - DWORD style = GetWindowLong(win->src.window, GWL_STYLE); - - if (border == 0) { - SetWindowLong(win->src.window, GWL_STYLE, style & ~WS_OVERLAPPEDWINDOW); - SetWindowPos( - win->src.window, HWND_TOP, 0, 0, 0, 0, - SWP_NOZORDER | SWP_FRAMECHANGED | SWP_SHOWWINDOW | SWP_NOMOVE | SWP_NOSIZE - ); - } - else { - SetWindowLong(win->src.window, GWL_STYLE, style | WS_OVERLAPPEDWINDOW); - SetWindowPos( - win->src.window, HWND_TOP, 0, 0, 0, 0, - SWP_NOZORDER | SWP_FRAMECHANGED | SWP_SHOWWINDOW | SWP_NOMOVE | SWP_NOSIZE - ); - } -} - -void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow) { - RGFW_setBit(&win->_flags, RGFW_windowAllowDND, allow); - DragAcceptFiles(win->src.window, allow); -} - -RGFW_area RGFW_getScreenSize(void) { - HDC dc = GetDC(NULL); - RGFW_area area = RGFW_AREA(GetDeviceCaps(dc, HORZRES), GetDeviceCaps(dc, VERTRES)); - ReleaseDC(NULL, dc); - return area; -} - -RGFW_point RGFW_getGlobalMousePoint(void) { - POINT p; - GetCursorPos(&p); - - return RGFW_POINT(p.x, p.y); -} - -void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - win->src.aspectRatio = a; -} - -void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - win->src.minSize = a; -} - -void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - win->src.maxSize = a; -} - -void RGFW_window_focus(RGFW_window* win) { - RGFW_ASSERT(win); - SetForegroundWindow(win->src.window); - SetFocus(win->src.window); -} - -void RGFW_window_raise(RGFW_window* win) { - RGFW_ASSERT(win); - BringWindowToTop(win->src.window); - SetWindowPos(win->src.window, HWND_TOP, win->r.x, win->r.y, win->r.w, win->r.h, SWP_NOSIZE | SWP_NOMOVE | SWP_NOOWNERZORDER | SWP_FRAMECHANGED); -} - -void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { - RGFW_ASSERT(win != NULL); - - if (fullscreen == RGFW_FALSE) { - RGFW_window_setBorder(win, 1); - SetWindowPos(win->src.window, HWND_NOTOPMOST, win->_oldRect.x, win->_oldRect.y, win->_oldRect.w, win->_oldRect.h + win->src.hOffset, - SWP_NOOWNERZORDER | SWP_FRAMECHANGED); - - win->_flags &= ~RGFW_windowFullscreen; - win->r = win->_oldRect; - return; - } - - win->_flags |= RGFW_windowFullscreen; - - RGFW_monitor mon = RGFW_window_getMonitor(win); - RGFW_window_setBorder(win, 0); - SetWindowPos(win->src.window, HWND_TOPMOST, 0, 0, mon.mode.area.w, mon.mode.area.h, SWP_NOOWNERZORDER | SWP_FRAMECHANGED); - - win->_oldRect = win->r; - win->r = RGFW_RECT(0, 0, mon.mode.area.w, mon.mode.area.h); -} - -void RGFW_window_maximize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_window_hide(win); - ShowWindow(win->src.window, SW_MAXIMIZE); -} - -void RGFW_window_minimize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - ShowWindow(win->src.window, SW_MINIMIZE); -} - -void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { - RGFW_ASSERT(win != NULL); - if (floating) SetWindowPos(win->src.window, HWND_TOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW); - else SetWindowPos(win->src.window, HWND_NOTOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW); -} - -void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { - SetWindowLong(win->src.window, GWL_EXSTYLE, WS_EX_LAYERED); - SetLayeredWindowAttributes(win->src.window, 0, opacity, LWA_ALPHA); -} - -void RGFW_window_restore(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - ShowWindow(win->src.window, SW_RESTORE); -} - -RGFW_bool RGFW_window_isFloating(RGFW_window* win) { - return (GetWindowLongPtr(win->src.window, GWL_EXSTYLE) & WS_EX_TOPMOST) != 0; -} - -u8 RGFW_xinput2RGFW[] = { - RGFW_gamepadA, /* or PS X button */ - RGFW_gamepadB, /* or PS circle button */ - RGFW_gamepadX, /* or PS square button */ - RGFW_gamepadY, /* or PS triangle button */ - RGFW_gamepadR1, /* right bumper */ - RGFW_gamepadL1, /* left bump */ - RGFW_gamepadL2, /* left trigger*/ - RGFW_gamepadR2, /* right trigger */ - 0, 0, 0, 0, 0, 0, 0, 0, - RGFW_gamepadUp, /* dpad up */ - RGFW_gamepadDown, /* dpad down*/ - RGFW_gamepadLeft, /* dpad left */ - RGFW_gamepadRight, /* dpad right */ - RGFW_gamepadStart, /* start button */ - RGFW_gamepadSelect,/* select button */ - RGFW_gamepadL3, - RGFW_gamepadR3, -}; - -static i32 RGFW_checkXInput(RGFW_window* win, RGFW_event* e) { - #ifndef RGFW_NO_XINPUT - - RGFW_UNUSED(win); - size_t i; - for (i = 0; i < 4; i++) { - XINPUT_KEYSTROKE keystroke; - - if (XInputGetKeystroke == NULL) - return 0; - - DWORD result = XInputGetKeystroke((DWORD)i, 0, &keystroke); - - if ((keystroke.Flags & XINPUT_KEYSTROKE_REPEAT) == 0 && result != ERROR_EMPTY) { - if (result != ERROR_SUCCESS) - return 0; - - if (keystroke.VirtualKey > VK_PAD_RTHUMB_PRESS) - continue; - - //gamepad + 1 = RGFW_gamepadButtonReleased - e->type = RGFW_gamepadButtonPressed + !(keystroke.Flags & XINPUT_KEYSTROKE_KEYDOWN); - e->button = RGFW_xinput2RGFW[keystroke.VirtualKey - 0x5800]; - RGFW_gamepadPressed[i][e->button].prev = RGFW_gamepadPressed[i][e->button].current; - RGFW_gamepadPressed[i][e->button].current = (keystroke.Flags & XINPUT_KEYSTROKE_KEYDOWN); - - RGFW_gamepadButtonCallback(win, i, e->button, e->type == RGFW_gamepadButtonPressed); - return 1; - } - - XINPUT_STATE state; - if (XInputGetState == NULL || - XInputGetState((DWORD) i, &state) == ERROR_DEVICE_NOT_CONNECTED - ) { - if (RGFW_gamepads[i] == 0) - continue; - - RGFW_gamepads[i] = 0; - RGFW_gamepadCount--; - - win->event.type = RGFW_gamepadDisconnected; - win->event.gamepad = i; - RGFW_gamepadCallback(win, i, 0); - return 1; - } - - if (RGFW_gamepads[i] == 0) { - RGFW_gamepads[i] = 1; - RGFW_gamepadCount++; - - char str[] = "Microsoft X-Box (XInput device)"; - RGFW_MEMCPY(RGFW_gamepads_name[i], str, sizeof(str)); - RGFW_gamepads_name[i][sizeof(RGFW_gamepads_name[i]) - 1] = '\0'; - win->event.type = RGFW_gamepadConnected; - win->event.gamepad = i; - RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; - - RGFW_gamepadCallback(win, i, 1); - return 1; - } - -#define INPUT_DEADZONE ( 0.24f * (float)(0x7FFF) ) // Default to 24% of the +/- 32767 range. This is a reasonable default value but can be altered if needed. - - if ((state.Gamepad.sThumbLX < INPUT_DEADZONE && - state.Gamepad.sThumbLX > -INPUT_DEADZONE) && - (state.Gamepad.sThumbLY < INPUT_DEADZONE && - state.Gamepad.sThumbLY > -INPUT_DEADZONE)) - { - state.Gamepad.sThumbLX = 0; - state.Gamepad.sThumbLY = 0; - } - - if ((state.Gamepad.sThumbRX < INPUT_DEADZONE && - state.Gamepad.sThumbRX > -INPUT_DEADZONE) && - (state.Gamepad.sThumbRY < INPUT_DEADZONE && - state.Gamepad.sThumbRY > -INPUT_DEADZONE)) - { - state.Gamepad.sThumbRX = 0; - state.Gamepad.sThumbRY = 0; - } - - e->axisesCount = 2; - RGFW_point axis1 = RGFW_POINT(((float)state.Gamepad.sThumbLX / 32768.0f) * 100, ((float)state.Gamepad.sThumbLY / -32768.0f) * 100); - RGFW_point axis2 = RGFW_POINT(((float)state.Gamepad.sThumbRX / 32768.0f) * 100, ((float)state.Gamepad.sThumbRY / -32768.0f) * 100); - - if (axis1.x != e->axis[0].x || axis1.y != e->axis[0].y){ - win->event.whichAxis = 0; - - e->type = RGFW_gamepadAxisMove; - e->axis[0] = axis1; - RGFW_gamepadAxes[i][0] = e->axis[0]; - - RGFW_gamepadAxisCallback(win, e->gamepad, e->axis, e->axisesCount, e->whichAxis); - return 1; - } - - if (axis2.x != e->axis[1].x || axis2.y != e->axis[1].y) { - win->event.whichAxis = 1; - e->type = RGFW_gamepadAxisMove; - e->axis[1] = axis2; - RGFW_gamepadAxes[i][1] = e->axis[1]; - - RGFW_gamepadAxisCallback(win, e->gamepad, e->axis, e->axisesCount, e->whichAxis); - return 1; - } - } - - #endif - - return 0; -} - -void RGFW_stopCheckEvents(void) { - PostMessageW(RGFW_root->src.window, WM_NULL, 0, 0); -} - -void RGFW_window_eventWait(RGFW_window* win, u32 waitMS) { - RGFW_UNUSED(win); - MsgWaitForMultipleObjects(0, NULL, FALSE, (DWORD)waitMS, QS_ALLINPUT); -} - -RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - if (win->event.type == RGFW_quit) return &win->event; - - if ((win->event.type == RGFW_windowMoved || win->event.type == RGFW_windowResized || win->event.type == RGFW_windowRefresh) - && !(win->_flags & RGFW_EVENT_PASSED)) - { - win->_flags |= RGFW_EVENT_PASSED; - return &win->event; - } - - - static HDROP drop; - - if (win->event.type == RGFW_DNDInit) { - if (win->event.droppedFilesCount) { - u32 i; - for (i = 0; i < win->event.droppedFilesCount; i++) - win->event.droppedFiles[i][0] = '\0'; - } - - win->event.droppedFilesCount = 0; - win->event.droppedFilesCount = DragQueryFileW(drop, 0xffffffff, NULL, 0); - - u32 i; - for (i = 0; i < win->event.droppedFilesCount; i++) { - UINT length = DragQueryFileW(drop, i, NULL, 0); - if (length == 0) - continue; - - WCHAR buffer[RGFW_MAX_PATH * 2]; - if (length > (RGFW_MAX_PATH * 2) - 1) - length = RGFW_MAX_PATH * 2; - - DragQueryFileW(drop, i, buffer, length + 1); - - char* str = RGFW_createUTF8FromWideStringWin32(buffer); - if (str != NULL) - RGFW_MEMCPY(win->event.droppedFiles[i], str, length + 1); - - win->event.droppedFiles[i][RGFW_MAX_PATH - 1] = '\0'; - } - - DragFinish(drop); - RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); - - win->event.type = RGFW_DND; - return &win->event; - } - - win->event.inFocus = (GetForegroundWindow() == win->src.window); - - if (RGFW_checkXInput(win, &win->event)) - return &win->event; - - static BYTE keyboardState[256]; - GetKeyboardState(keyboardState); - - - if (!IsWindow(win->src.window)) { - win->event.type = RGFW_quit; - RGFW_windowQuitCallback(win); - return &win->event; - } - - MSG msg; - if (PeekMessageA(&msg, win->src.window, 0u, 0u, PM_REMOVE) == 0) - return NULL; - - switch (msg.message) { - case WM_CLOSE: - case WM_QUIT: - RGFW_windowQuitCallback(win); - win->event.type = RGFW_quit; - break; - - case WM_ACTIVATE: - win->event.inFocus = (LOWORD(msg.wParam) == WA_INACTIVE); - - if (win->event.inFocus) { - win->event.type = RGFW_focusIn; - RGFW_focusCallback(win, 1); - } - else { - win->event.type = RGFW_focusOut; - RGFW_focusCallback(win, 0); - } - - break; - #if(_WIN32_WINNT >= 0x0600) - case WM_DWMCOMPOSITIONCHANGED: - case WM_DWMCOLORIZATIONCOLORCHANGED: - RGFW_win32_makeWindowTransparent(win); - break; - #endif - - case WM_MOUSELEAVE: - win->event.type = RGFW_mouseLeave; - win->_flags |= RGFW_MOUSE_LEFT; - RGFW_mouseNotifyCallBack(win, win->event.point, 0); - break; - case WM_SYSKEYUP: case WM_KEYUP: { - i32 scancode = (HIWORD(msg.lParam) & (KF_EXTENDED | 0xff)); - if (scancode == 0) - scancode = MapVirtualKeyW((u32)msg.wParam, MAPVK_VK_TO_VSC); - - switch (scancode) { - case 0x54: scancode = 0x137; break; /* Alt+PrtS */ - case 0x146: scancode = 0x45; break; /* Ctrl+Pause */ - case 0x136: scancode = 0x36; break; /* CJK IME sets the extended bit for right Shift */ - default: break; - } - - win->event.key = RGFW_apiKeyToRGFW((u32) scancode); - - if (msg.wParam == VK_CONTROL) { - if (HIWORD(msg.lParam) & KF_EXTENDED) - win->event.key = RGFW_controlR; - else win->event.key = RGFW_controlL; - } - - wchar_t charBuffer; - ToUnicodeEx(msg.wParam, scancode, keyboardState, (wchar_t*)&charBuffer, 1, 0, NULL); - - win->event.keyChar = (u8)charBuffer; - - RGFW_keyboard[win->event.key].prev = RGFW_isPressed(win, win->event.key); - win->event.type = RGFW_keyReleased; - RGFW_keyboard[win->event.key].current = 0; - - RGFW_updateKeyMods(win, (GetKeyState(VK_CAPITAL) & 0x0001), (GetKeyState(VK_NUMLOCK) & 0x0001), (GetKeyState(VK_SCROLL) & 0x0001)); - - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 0); - break; - } - case WM_SYSKEYDOWN: case WM_KEYDOWN: { - i32 scancode = (HIWORD(msg.lParam) & (KF_EXTENDED | 0xff)); - if (scancode == 0) - scancode = MapVirtualKeyW((u32)msg.wParam, MAPVK_VK_TO_VSC); - - switch (scancode) { - case 0x54: scancode = 0x137; break; /* Alt+PrtS */ - case 0x146: scancode = 0x45; break; /* Ctrl+Pause */ - case 0x136: scancode = 0x36; break; /* CJK IME sets the extended bit for right Shift */ - default: break; - } - - win->event.key = RGFW_apiKeyToRGFW((u32) scancode); - - if (msg.wParam == VK_CONTROL) { - if (HIWORD(msg.lParam) & KF_EXTENDED) - win->event.key = RGFW_controlR; - else win->event.key = RGFW_controlL; - } - - wchar_t charBuffer; - ToUnicodeEx(msg.wParam, scancode, keyboardState, &charBuffer, 1, 0, NULL); - win->event.keyChar = (u8)charBuffer; - - RGFW_keyboard[win->event.key].prev = RGFW_isPressed(win, win->event.key); - - win->event.type = RGFW_keyPressed; - win->event.repeat = RGFW_isPressed(win, win->event.key); - RGFW_keyboard[win->event.key].current = 1; - RGFW_updateKeyMods(win, (GetKeyState(VK_CAPITAL) & 0x0001), (GetKeyState(VK_NUMLOCK) & 0x0001), (GetKeyState(VK_SCROLL) & 0x0001)); - - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 1); - break; - } - - case WM_MOUSEMOVE: { - if ((win->_flags & RGFW_HOLD_MOUSE)) - break; - - win->event.type = RGFW_mousePosChanged; - - i32 x = GET_X_LPARAM(msg.lParam); - i32 y = GET_Y_LPARAM(msg.lParam); - - RGFW_mousePosCallback(win, win->event.point, win->event.vector); - - if (win->_flags & RGFW_MOUSE_LEFT) { - win->_flags &= ~RGFW_MOUSE_LEFT; - win->event.type = RGFW_mouseEnter; - RGFW_mouseNotifyCallBack(win, win->event.point, 1); - } - - win->event.point.x = x; - win->event.point.y = y; - win->_lastMousePoint = RGFW_POINT(x, y); - - break; - } - case WM_INPUT: { - if (!(win->_flags & RGFW_HOLD_MOUSE)) - break; - - unsigned size = sizeof(RAWINPUT); - static RAWINPUT raw = {}; - - GetRawInputData((HRAWINPUT)msg.lParam, RID_INPUT, &raw, &size, sizeof(RAWINPUTHEADER)); - - if (raw.header.dwType != RIM_TYPEMOUSE || (raw.data.mouse.lLastX == 0 && raw.data.mouse.lLastY == 0) ) - break; - - if (raw.data.mouse.usFlags & MOUSE_MOVE_ABSOLUTE) { - POINT pos = {0, 0}; - int width, height; - - if (raw.data.mouse.usFlags & MOUSE_VIRTUAL_DESKTOP) { - pos.x += GetSystemMetrics(SM_XVIRTUALSCREEN); - pos.y += GetSystemMetrics(SM_YVIRTUALSCREEN); - width = GetSystemMetrics(SM_CXVIRTUALSCREEN); - height = GetSystemMetrics(SM_CYVIRTUALSCREEN); - } - else { - width = GetSystemMetrics(SM_CXSCREEN); - height = GetSystemMetrics(SM_CYSCREEN); - } - - pos.x += (int) ((raw.data.mouse.lLastX / 65535.f) * width); - pos.y += (int) ((raw.data.mouse.lLastY / 65535.f) * height); - ScreenToClient(win->src.window, &pos); - - win->event.vector.x = pos.x - win->_lastMousePoint.x; - win->event.vector.y = pos.y - win->_lastMousePoint.y; - } else { - win->event.vector.x = raw.data.mouse.lLastX; - win->event.vector.y = raw.data.mouse.lLastY; - } - - win->event.type = RGFW_mousePosChanged; - win->_lastMousePoint.x += win->event.vector.x; - win->_lastMousePoint.y += win->event.vector.y; - win->event.point = win->_lastMousePoint; - RGFW_mousePosCallback(win, win->event.point, win->event.vector); - break; - } - case WM_LBUTTONDOWN: case WM_RBUTTONDOWN: case WM_MBUTTONDOWN: case WM_XBUTTONDOWN: - if (msg.message == WM_XBUTTONDOWN) - win->event.button = RGFW_mouseMisc1 + (GET_XBUTTON_WPARAM(msg.wParam) == XBUTTON2); - else win->event.button = (msg.message == WM_LBUTTONDOWN) ? RGFW_mouseLeft : - (msg.message == WM_RBUTTONDOWN) ? RGFW_mouseRight : RGFW_mouseMiddle; - - win->event.type = RGFW_mouseButtonPressed; - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 1; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); - break; - case WM_LBUTTONUP: case WM_RBUTTONUP: case WM_MBUTTONUP: case WM_XBUTTONUP: - if (msg.message == WM_XBUTTONUP) - win->event.button = RGFW_mouseMisc1 + (GET_XBUTTON_WPARAM(msg.wParam) == XBUTTON2); - else win->event.button = (msg.message == WM_LBUTTONUP) ? RGFW_mouseLeft : - (msg.message == WM_RBUTTONUP) ? RGFW_mouseRight : RGFW_mouseMiddle; - win->event.type = RGFW_mouseButtonReleased; - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 0; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 0); - break; - case WM_MOUSEWHEEL: - if (msg.wParam > 0) - win->event.button = RGFW_mouseScrollUp; - else - win->event.button = RGFW_mouseScrollDown; - - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 1; - - win->event.scroll = (SHORT) HIWORD(msg.wParam) / (double) WHEEL_DELTA; - - win->event.type = RGFW_mouseButtonPressed; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); - break; - case WM_DROPFILES: { - win->event.type = RGFW_DNDInit; - - drop = (HDROP) msg.wParam; - POINT pt; - - /* Move the mouse to the position of the drop */ - DragQueryPoint(drop, &pt); - - win->event.point.x = pt.x; - win->event.point.y = pt.y; - - RGFW_dndInitCallback(win, win->event.point); - } - break; - default: - TranslateMessage(&msg); - DispatchMessageA(&msg); - return RGFW_window_checkEvent(win); - } - - TranslateMessage(&msg); - DispatchMessageA(&msg); - - return &win->event; -} - -RGFW_bool RGFW_window_isHidden(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - return IsWindowVisible(win->src.window) == 0 && !RGFW_window_isMinimized(win); -} - -RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - #ifndef __cplusplus - WINDOWPLACEMENT placement = { 0 }; - #else - WINDOWPLACEMENT placement = { }; - #endif - GetWindowPlacement(win->src.window, &placement); - return placement.showCmd == SW_SHOWMINIMIZED; -} - -RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - #ifndef __cplusplus - WINDOWPLACEMENT placement = { 0 }; - #else - WINDOWPLACEMENT placement = { }; - #endif - GetWindowPlacement(win->src.window, &placement); - return placement.showCmd == SW_SHOWMAXIMIZED; -} - -typedef struct { int iIndex; HMONITOR hMonitor; } RGFW_mInfo; -BOOL CALLBACK GetMonitorByHandle(HMONITOR hMonitor, HDC hdcMonitor, LPRECT lprcMonitor, LPARAM dwData) { - RGFW_UNUSED(hdcMonitor); - RGFW_UNUSED(lprcMonitor); - - RGFW_mInfo* info = (RGFW_mInfo*) dwData; - if (info->hMonitor == hMonitor) - return RGFW_FALSE; - - info->iIndex++; - return RGFW_TRUE; -} - -#ifndef RGFW_NO_MONITOR - -RGFW_monitor win32CreateMonitor(HMONITOR src) { - RGFW_monitor monitor; - MONITORINFOEX monitorInfo; - - monitorInfo.cbSize = sizeof(MONITORINFOEX); - GetMonitorInfoA(src, (LPMONITORINFO)&monitorInfo); - - RGFW_mInfo info; - info.iIndex = 0; - info.hMonitor = src; - - /* get the monitor's index */ - DISPLAY_DEVICEA dd; - dd.cb = sizeof(dd); - - for (DWORD deviceNum = 0; EnumDisplayDevicesA(NULL, deviceNum, &dd, 0); deviceNum++) { - if (!(dd.StateFlags & DISPLAY_DEVICE_ACTIVE)) - continue; - - DEVMODE dm; - ZeroMemory(&dm, sizeof(dm)); - dm.dmSize = sizeof(dm); - - if (EnumDisplaySettingsA(dd.DeviceName, ENUM_CURRENT_SETTINGS, &dm)) { - monitor.mode.refreshRate = dm.dmDisplayFrequency; - RGFW_splitBPP(dm.dmBitsPerPel, &monitor.mode); - } - - DISPLAY_DEVICEA mdd; - mdd.cb = sizeof(mdd); - - if (EnumDisplayDevicesA(dd.DeviceName, info.iIndex, &mdd, 0)) { - RGFW_MEMCPY(monitor.name, mdd.DeviceString, 128); - break; - } - } - - - monitor.x = monitorInfo.rcWork.left; - monitor.y = monitorInfo.rcWork.top; - monitor.mode.area.w = monitorInfo.rcWork.right - monitorInfo.rcWork.left; - monitor.mode.area.h = monitorInfo.rcWork.bottom - monitorInfo.rcWork.top; - - HDC hdc = CreateDC(monitorInfo.szDevice, NULL, NULL, NULL); - /* get pixels per inch */ - float dpiX = (float)GetDeviceCaps(hdc, LOGPIXELSX); - float dpiY = (float)GetDeviceCaps(hdc, LOGPIXELSX); - - monitor.scaleX = dpiX / 96.0f; - monitor.scaleY = dpiY / 96.0f; - monitor.pixelRatio = dpiX >= 192.0f ? 2 : 1; - - monitor.physW = GetDeviceCaps(hdc, HORZSIZE) / 25.4; - monitor.physH = GetDeviceCaps(hdc, VERTSIZE) / 25.4; - DeleteDC(hdc); - - #ifndef RGFW_NO_DPI - RGFW_LOAD_LIBRARY(RGFW_Shcore_dll, "shcore.dll"); - RGFW_PROC_DEF(RGFW_Shcore_dll, GetDpiForMonitor); - - if (GetDpiForMonitor != NULL) { - u32 x, y; - GetDpiForMonitor(src, MDT_EFFECTIVE_DPI, &x, &y); - monitor.scaleX = (float) (x) / (float) 96.0f; - monitor.scaleY = (float) (y) / (float) 96.0f; - monitor.pixelRatio = dpiX >= 192.0f ? 2 : 1; - } - #endif - - #ifdef RGFW_DEBUG - printf("RGFW INFO: monitor found: scale (%s):\n rect: {%i, %i, %i, %i}\n physical size:%f %f\n scale: %f %f\n pixelRatio: %f\n refreshRate: %i\n depth: %i\n", monitor.name, monitor.x, monitor.y, monitor.mode.area.w, monitor.mode.area.h, monitor.physW, monitor.physH, monitor.scaleX, monitor.scaleY, monitor.pixelRatio, monitor.mode.refreshRate, monitor.mode.red + monitor.mode.green + monitor.mode.blue); - #endif - - return monitor; -} -#endif /* RGFW_NO_MONITOR */ - -#ifndef RGFW_NO_MONITOR - -RGFW_monitor RGFW_monitors[6]; -BOOL CALLBACK GetMonitorHandle(HMONITOR hMonitor, HDC hdcMonitor, LPRECT lprcMonitor, LPARAM dwData) { - RGFW_UNUSED(hdcMonitor); - RGFW_UNUSED(lprcMonitor); - - RGFW_mInfo* info = (RGFW_mInfo*) dwData; - - if (info->iIndex >= 6) - return FALSE; - - RGFW_monitors[info->iIndex] = win32CreateMonitor(hMonitor); - info->iIndex++; - - return TRUE; -} - -RGFW_monitor RGFW_getPrimaryMonitor(void) { - #ifdef __cplusplus - return win32CreateMonitor(MonitorFromPoint({ 0, 0 }, MONITOR_DEFAULTTOPRIMARY)); - #else - return win32CreateMonitor(MonitorFromPoint((POINT) { 0, 0 }, MONITOR_DEFAULTTOPRIMARY)); - #endif -} - -RGFW_monitor* RGFW_getMonitors(void) { - RGFW_mInfo info; - info.iIndex = 0; - while (EnumDisplayMonitors(NULL, NULL, GetMonitorHandle, (LPARAM) &info)); - - return RGFW_monitors; -} - -RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { - HMONITOR src = MonitorFromWindow(win->src.window, MONITOR_DEFAULTTOPRIMARY); - return win32CreateMonitor(src); -} - -RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { - HMONITOR src = MonitorFromPoint((POINT) { mon.x, mon.y }, MONITOR_DEFAULTTOPRIMARY); - - MONITORINFOEX monitorInfo; - monitorInfo.cbSize = sizeof(MONITORINFOEX); - GetMonitorInfoA(src, (LPMONITORINFO)&monitorInfo); - - DISPLAY_DEVICE dd; - dd.cb = sizeof(dd); - - // Enumerate display devices - for (DWORD deviceNum = 0; EnumDisplayDevicesA(NULL, deviceNum, &dd, 0); deviceNum++) { - if (!(dd.StateFlags & DISPLAY_DEVICE_ACTIVE)) - continue; - - DEVMODE dm; - ZeroMemory(&dm, sizeof(dm)); - dm.dmSize = sizeof(dm); - - if (EnumDisplaySettingsA(dd.DeviceName, ENUM_CURRENT_SETTINGS, &dm)) { - if (request & RGFW_monitorScale) { - dm.dmFields |= DM_PELSWIDTH | DM_PELSHEIGHT; - dm.dmPelsWidth = mode.area.w; - dm.dmPelsHeight = mode.area.h; - } - - if (request & RGFW_monitorRefresh) { - dm.dmFields |= DM_DISPLAYFREQUENCY; - dm.dmDisplayFrequency = mode.refreshRate; - } - - if (request & RGFW_monitorRGB) { - dm.dmFields |= DM_BITSPERPEL; - dm.dmBitsPerPel = mode.red + mode.green + mode.blue; - } - - if (ChangeDisplaySettingsEx(dd.DeviceName, &dm, NULL, CDS_TEST, NULL) == DISP_CHANGE_SUCCESSFUL) { - if (ChangeDisplaySettingsEx(dd.DeviceName, &dm, NULL, CDS_UPDATEREGISTRY, NULL) == DISP_CHANGE_SUCCESSFUL) - return RGFW_TRUE; - return RGFW_FALSE; - } else return RGFW_FALSE; - } - } - - return RGFW_FALSE; -} - -#endif -HICON RGFW_loadHandleImage(u8* src, RGFW_area a, BOOL icon) { - BITMAPV5HEADER bi; - ZeroMemory(&bi, sizeof(bi)); - bi.bV5Size = sizeof(bi); - bi.bV5Width = a.w; - bi.bV5Height = -((LONG) a.h); - bi.bV5Planes = 1; - bi.bV5BitCount = 32; - bi.bV5Compression = BI_BITFIELDS; - bi.bV5RedMask = 0x000000ff; - bi.bV5GreenMask = 0x0000ff00; - bi.bV5BlueMask = 0x00ff0000; - bi.bV5AlphaMask = 0xff000000; - - HDC dc = GetDC(NULL); - u8* target = NULL; - - HBITMAP color = CreateDIBSection(dc, - (BITMAPINFO*) &bi, DIB_RGB_COLORS, (void**) &target, - NULL, (DWORD) 0); - - memcpy(target, src, a.w * a.h * 4); - ReleaseDC(NULL, dc); - - HBITMAP mask = CreateBitmap(a.w, a.h, 1, 1, NULL); - - ICONINFO ii; - ZeroMemory(&ii, sizeof(ii)); - ii.fIcon = icon; - ii.xHotspot = a.w / 2; - ii.yHotspot = a.h / 2; - ii.hbmMask = mask; - ii.hbmColor = color; - - HICON handle = CreateIconIndirect(&ii); - - DeleteObject(color); - DeleteObject(mask); - - return handle; -} - -void* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { - RGFW_UNUSED(channels); - - HCURSOR cursor = (HCURSOR) RGFW_loadHandleImage(icon, a, FALSE); - return cursor; -} - -void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { - RGFW_ASSERT(win && mouse); - SetClassLongPtrA(win->src.window, GCLP_HCURSOR, (LPARAM) mouse); - SetCursor((HCURSOR)mouse); -} - -void RGFW_freeMouse(RGFW_mouse* mouse) { - RGFW_ASSERT(mouse); - DestroyCursor((HCURSOR)mouse); -} - -RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { - return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); -} - -RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { - RGFW_ASSERT(win != NULL); - - static const u32 mouseIconSrc[] = {OCR_NORMAL, OCR_NORMAL, OCR_IBEAM, OCR_CROSS, OCR_HAND, OCR_SIZEWE, OCR_SIZENS, OCR_SIZENWSE, OCR_SIZENESW, OCR_SIZEALL, OCR_NO}; - if (mouse > (sizeof(mouseIconSrc) / sizeof(u32))) - return RGFW_FALSE; - - char* icon = MAKEINTRESOURCEA(mouseIconSrc[mouse]); - - SetClassLongPtrA(win->src.window, GCLP_HCURSOR, (LPARAM) LoadCursorA(NULL, icon)); - SetCursor(LoadCursorA(NULL, icon)); - return RGFW_TRUE; -} - -void RGFW_window_hide(RGFW_window* win) { - ShowWindow(win->src.window, SW_HIDE); -} - -void RGFW_window_show(RGFW_window* win) { - ShowWindow(win->src.window, SW_RESTORE); -} - -#define RGFW_FREE_LIBRARY(x) if (x != NULL) FreeLibrary(x); x = NULL; - -void RGFW_window_close(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - #ifdef RGFW_EGL - RGFW_closeEGL(win); - #endif - - #ifdef RGFW_BUFFER - DeleteDC(win->src.hdcMem); - DeleteObject(win->src.bitmap); - #endif - - #ifdef RGFW_OPENGL - wglDeleteContext((HGLRC) win->src.ctx); /*!< delete opengl context */ - #endif - ReleaseDC(win->src.window, win->src.hdc); /*!< delete device context */ - DestroyWindow(win->src.window); /*!< delete window */ - - if (win->src.hIconSmall) DestroyIcon(win->src.hIconSmall); - if (win->src.hIconBig) DestroyIcon(win->src.hIconBig); - - if (win == RGFW_root) { - #ifndef RGFW_NO_XINPUT - RGFW_FREE_LIBRARY(RGFW_XInput_dll); - #endif - - #ifndef RGFW_NO_DPI - RGFW_FREE_LIBRARY(RGFW_Shcore_dll); - #endif - - #if !defined(RGFW_NO_LOAD_WINMM) && !defined(RGFW_NO_WINMM) - RGFW_FREE_LIBRARY(RGFW_winmm_dll); - #endif - - RGFW_FREE_LIBRARY(RGFW_wgl_dll); - RGFW_root = NULL; - - if (RGFW_hiddenMouse != NULL) { - RGFW_freeMouse(RGFW_hiddenMouse); - RGFW_hiddenMouse = 0; - } - } - - RGFW_clipboard_switch(NULL); - - if ((win->_flags & RGFW_WINDOW_ALLOC)) - RGFW_FREE(win); -} - -void RGFW_window_move(RGFW_window* win, RGFW_point v) { - RGFW_ASSERT(win != NULL); - - win->r.x = v.x; - win->r.y = v.y; - SetWindowPos(win->src.window, HWND_TOP, win->r.x, win->r.y, 0, 0, SWP_NOSIZE); -} - -void RGFW_window_resize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - - win->r.w = a.w; - win->r.h = a.h; - SetWindowPos(win->src.window, HWND_TOP, 0, 0, win->r.w, win->r.h + win->src.hOffset, SWP_NOMOVE); -} - - -void RGFW_window_setName(RGFW_window* win, const char* name) { - RGFW_ASSERT(win != NULL); - - wchar_t wide_name[255]; - MultiByteToWideChar(CP_UTF8, 0, name, -1, wide_name, 255); - SetWindowTextW(win->src.window, wide_name); -} - -#ifndef RGFW_NO_PASSTHROUGH - -void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { - RGFW_ASSERT(win != NULL); - - COLORREF key = 0; - BYTE alpha = 0; - DWORD flags = 0; - DWORD exStyle = GetWindowLongW(win->src.window, GWL_EXSTYLE); - - if (exStyle & WS_EX_LAYERED) - GetLayeredWindowAttributes(win->src.window, &key, &alpha, &flags); - - if (passthrough) - exStyle |= (WS_EX_TRANSPARENT | WS_EX_LAYERED); - else { - exStyle &= ~WS_EX_TRANSPARENT; - if (exStyle & WS_EX_LAYERED && !(flags & LWA_ALPHA)) - exStyle &= ~WS_EX_LAYERED; - } - - SetWindowLongW(win->src.window, GWL_EXSTYLE, exStyle); - - if (passthrough) - SetLayeredWindowAttributes(win->src.window, key, alpha, flags); -} -#endif - -RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* src, RGFW_area a, i32 channels, u8 type) { - RGFW_ASSERT(win != NULL); - #ifndef RGFW_WIN95 - RGFW_UNUSED(channels); - - if (win->src.hIconSmall && (type & RGFW_iconWindow)) DestroyIcon(win->src.hIconSmall); - if (win->src.hIconBig && (type & RGFW_iconTaskbar)) DestroyIcon(win->src.hIconBig); - - if (src == NULL) { - HICON defaultIcon = LoadIcon(NULL, IDI_APPLICATION); - if (type & RGFW_iconWindow) - SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_SMALL, (LPARAM)defaultIcon); - if (type & RGFW_iconTaskbar) - SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_BIG, (LPARAM)defaultIcon); - return RGFW_TRUE; - } - - if (type & RGFW_iconWindow) { - win->src.hIconSmall = RGFW_loadHandleImage(src, a, TRUE); - SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_SMALL, (LPARAM)win->src.hIconSmall); - } - if (type & RGFW_iconTaskbar) { - win->src.hIconBig = RGFW_loadHandleImage(src, a, TRUE); - SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_BIG, (LPARAM)win->src.hIconBig); - } - return RGFW_TRUE; - #else - RGFW_UNUSED(src); - RGFW_UNUSED(a); - RGFW_UNUSED(channels); - return RGFW_FALSE; - #endif -} - -RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { - /* Open the clipboard */ - if (OpenClipboard(NULL) == 0) - return -1; - - /* Get the clipboard data as a Unicode string */ - HANDLE hData = GetClipboardData(CF_UNICODETEXT); - if (hData == NULL) { - CloseClipboard(); - return -1; - } - - wchar_t* wstr = (wchar_t*) GlobalLock(hData); - - RGFW_ssize_t textLen = 0; - - { - setlocale(LC_ALL, "en_US.UTF-8"); - - textLen = wcstombs(NULL, wstr, 0) + 1; - if (str != NULL && (RGFW_ssize_t)strCapacity <= textLen - 1) - textLen = 0; - - if (str != NULL && textLen) { - if (textLen > 1) - wcstombs(str, wstr, (textLen) ); - - str[textLen] = '\0'; - } - } - - /* Release the clipboard data */ - GlobalUnlock(hData); - CloseClipboard(); - - return textLen; -} - -void RGFW_writeClipboard(const char* text, u32 textLen) { - HANDLE object; - WCHAR* buffer; - - object = GlobalAlloc(GMEM_MOVEABLE, (1 + textLen) * sizeof(WCHAR)); - if (!object) - return; - - buffer = (WCHAR*) GlobalLock(object); - if (!buffer) { - GlobalFree(object); - return; - } - - MultiByteToWideChar(CP_UTF8, 0, text, -1, buffer, textLen); - GlobalUnlock(object); - - if (!OpenClipboard(RGFW_root->src.window)) { - GlobalFree(object); - return; - } - - EmptyClipboard(); - SetClipboardData(CF_UNICODETEXT, object); - CloseClipboard(); -} - -void RGFW_window_moveMouse(RGFW_window* win, RGFW_point p) { - RGFW_ASSERT(win != NULL); - win->_lastMousePoint = RGFW_POINT(p.x - win->r.x, p.y - win->r.y); - SetCursorPos(p.x, p.y); -} - -#ifdef RGFW_OPENGL -void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { - if (win == NULL) - wglMakeCurrent(NULL, NULL); - else - wglMakeCurrent(win->src.hdc, (HGLRC) win->src.ctx); -} -void* RGFW_getCurrent_OpenGL(void) { return wglGetCurrentContext(); } -#endif - -#ifndef RGFW_EGL - -void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { - RGFW_ASSERT(win != NULL); - - #if defined(RGFW_OPENGL) - typedef BOOL(APIENTRY* PFNWGLSWAPINTERVALEXTPROC)(int interval); - static PFNWGLSWAPINTERVALEXTPROC wglSwapIntervalEXT = NULL; - static void* loadSwapFunc = (void*) 1; - - if (loadSwapFunc == NULL) { - #ifdef RGFW_DEBUG - fprintf(stderr, "wglSwapIntervalEXT not supported\n"); - #endif - return; - } - - if (wglSwapIntervalEXT == NULL) { - loadSwapFunc = (void*) wglGetProcAddress("wglSwapIntervalEXT"); - wglSwapIntervalEXT = (PFNWGLSWAPINTERVALEXTPROC) loadSwapFunc; - } - - if (wglSwapIntervalEXT(swapInterval) == FALSE) { - #ifdef RGFW_DEBUG - fprintf(stderr, "Failed to set swap interval\n"); - #endif - } - #else - RGFW_UNUSED(swapInterval); - #endif -} - -#endif - -void RGFW_window_swapBuffers(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - /* clear the window*/ - - if (!(win->_flags & RGFW_NO_CPU_RENDER)) { - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - if (win->buffer != win->src.bitmapBits) - memcpy(win->src.bitmapBits, win->buffer, win->bufferSize.w * win->bufferSize.h * 4); - - HGDIOBJ oldbmp = SelectObject(win->src.hdcMem, win->src.bitmap); - BitBlt(win->src.hdc, 0, 0, win->r.w, win->r.h, win->src.hdcMem, 0, 0, SRCCOPY); - SelectObject(win->src.hdcMem, oldbmp); - #endif - } - - if (!(win->_flags & RGFW_NO_GPU_RENDER)) { - #ifdef RGFW_EGL - eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); - #elif defined(RGFW_OPENGL) - SwapBuffers(win->src.hdc); - #endif - } -} - -char* RGFW_createUTF8FromWideStringWin32(const WCHAR* source) { - if (source == NULL) { - return NULL; - } - i32 size = WideCharToMultiByte(CP_UTF8, 0, source, -1, NULL, 0, NULL, NULL); - if (!size) { - return NULL; - } - - static char target[RGFW_MAX_PATH * 2]; - if (size > RGFW_MAX_PATH * 2) - size = RGFW_MAX_PATH * 2; - - target[size] = 0; - - if (!WideCharToMultiByte(CP_UTF8, 0, source, -1, target, size, NULL, NULL)) { - return NULL; - } - - return target; -} - -static inline LARGE_INTEGER RGFW_win32_initTimer(void) { - static LARGE_INTEGER frequency = {{0, 0}}; - if (frequency.QuadPart == 0) { - #if !defined(RGFW_NO_WINMM) - timeBeginPeriod(1); - #endif - QueryPerformanceFrequency(&frequency); - } - - return frequency; -} - -u64 RGFW_getTimeNS(void) { - LARGE_INTEGER frequency = RGFW_win32_initTimer(); - - LARGE_INTEGER counter; - QueryPerformanceCounter(&counter); - - return (u64) ((counter.QuadPart * 1e9) / frequency.QuadPart); -} - -u64 RGFW_getTime(void) { - LARGE_INTEGER frequency = RGFW_win32_initTimer(); - - LARGE_INTEGER counter; - QueryPerformanceCounter(&counter); - return (u64) (counter.QuadPart / (double) frequency.QuadPart); -} - -u64 RGFW_getTimerFreq(void) { - return (u64)RGFW_win32_initTimer().QuadPart; -} - -u64 RGFW_getTimerValue(void) { - LARGE_INTEGER counter; - QueryPerformanceCounter(&counter); - return counter.QuadPart; -} - -void RGFW_sleep(u64 ms) { - Sleep(ms); -} - -#ifndef RGFW_NO_THREADS - -RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args) { return CreateThread(NULL, 0, ptr, args, 0, NULL); } -void RGFW_cancelThread(RGFW_thread thread) { CloseHandle((HANDLE) thread); } -void RGFW_joinThread(RGFW_thread thread) { WaitForSingleObject((HANDLE) thread, INFINITE); } -void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { SetThreadPriority((HANDLE) thread, priority); } - -#endif -#endif /* RGFW_WINDOWS */ - -/* - End of Windows defines -*/ - - - -/* - - Start of MacOS defines - - -*/ - -#if defined(RGFW_MACOS) -/* - based on silicon.h - start of cocoa wrapper -*/ - -#include -#include -#include -#include -#include -#include - -typedef CGRect NSRect; -typedef CGPoint NSPoint; -typedef CGSize NSSize; - -typedef const char* NSPasteboardType; -typedef unsigned long NSUInteger; -typedef long NSInteger; -typedef NSInteger NSModalResponse; - -#ifdef __arm64__ - /* ARM just uses objc_msgSend */ -#define abi_objc_msgSend_stret objc_msgSend -#define abi_objc_msgSend_fpret objc_msgSend -#else /* __i386__ */ - /* x86 just uses abi_objc_msgSend_fpret and (NSColor *)objc_msgSend_id respectively */ -#define abi_objc_msgSend_stret objc_msgSend_stret -#define abi_objc_msgSend_fpret objc_msgSend_fpret -#endif - -#define NSAlloc(nsclass) objc_msgSend_id((id)nsclass, sel_registerName("alloc")) -#define objc_msgSend_bool(x, y) ((BOOL (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) -#define objc_msgSend_void(x, y) ((void (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) -#define objc_msgSend_void_id(x, y, z) ((void (*)(id, SEL, id))objc_msgSend) ((id)x, (SEL)y, (id)z) -#define objc_msgSend_uint(x, y) ((NSUInteger (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) -#define objc_msgSend_void_bool(x, y, z) ((void (*)(id, SEL, BOOL))objc_msgSend) ((id)(x), (SEL)y, (BOOL)z) -#define objc_msgSend_bool_void(x, y) ((BOOL (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) -#define objc_msgSend_void_SEL(x, y, z) ((void (*)(id, SEL, SEL))objc_msgSend) ((id)(x), (SEL)y, (SEL)z) -#define objc_msgSend_id(x, y) ((id (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) -#define objc_msgSend_id_id(x, y, z) ((id (*)(id, SEL, id))objc_msgSend) ((id)(x), (SEL)y, (id)z) -#define objc_msgSend_id_bool(x, y, z) ((BOOL (*)(id, SEL, id))objc_msgSend) ((id)(x), (SEL)y, (id)z) -#define objc_msgSend_int(x, y, z) ((id (*)(id, SEL, int))objc_msgSend) ((id)(x), (SEL)y, (int)z) -#define objc_msgSend_arr(x, y, z) ((id (*)(id, SEL, int))objc_msgSend) ((id)(x), (SEL)y, (int)z) -#define objc_msgSend_ptr(x, y, z) ((id (*)(id, SEL, void*))objc_msgSend) ((id)(x), (SEL)y, (void*)z) -#define objc_msgSend_class(x, y) ((id (*)(Class, SEL))objc_msgSend) ((Class)(x), (SEL)y) -#define objc_msgSend_class_char(x, y, z) ((id (*)(Class, SEL, char*))objc_msgSend) ((Class)(x), (SEL)y, (char*)z) - -id NSApp = NULL; - -#define NSRelease(obj) objc_msgSend_void((id)obj, sel_registerName("release")) - -id NSString_stringWithUTF8String(const char* str) { - return ((id(*)(id, SEL, const char*))objc_msgSend) - ((id)objc_getClass("NSString"), sel_registerName("stringWithUTF8String:"), str); -} - -const char* NSString_to_char(id str) { - return ((const char* (*)(id, SEL)) objc_msgSend) ((id)(id)str, sel_registerName("UTF8String")); -} - -void si_impl_func_to_SEL_with_name(const char* class_name, const char* register_name, void* function) { - Class selected_class; - - if (RGFW_STRNCMP(class_name, "NSView", 6) == 0) { - selected_class = objc_getClass("ViewClass"); - } else if (RGFW_STRNCMP(class_name, "NSWindow", 8) == 0) { - selected_class = objc_getClass("WindowClass"); - } else { - selected_class = objc_getClass(class_name); - } - - class_addMethod(selected_class, sel_registerName(register_name), (IMP) function, 0); -} - -/* Header for the array. */ -typedef struct siArrayHeader { - size_t count; - /* TODO(EimaMei): Add a `type_width` later on. */ -} siArrayHeader; - -/* Gets the header of the siArray. */ -#define SI_ARRAY_HEADER(s) ((siArrayHeader*)s - 1) -#define si_array_len(array) (SI_ARRAY_HEADER(array)->count) -#define si_func_to_SEL(class_name, function) si_impl_func_to_SEL_with_name(class_name, #function":", (void*)function) -/* Creates an Objective-C method (SEL) from a regular C function with the option to set the register name.*/ -#define si_func_to_SEL_with_name(class_name, register_name, function) si_impl_func_to_SEL_with_name(class_name, register_name":", (void*)function) - -unsigned char* NSBitmapImageRep_bitmapData(id imageRep) { - return ((unsigned char* (*)(id, SEL))objc_msgSend) ((id)imageRep, sel_registerName("bitmapData")); -} - -typedef RGFW_ENUM(NSUInteger, NSBitmapFormat) { - NSBitmapFormatAlphaFirst = 1 << 0, // 0 means is alpha last (RGBA, CMYKA, etc.) - NSBitmapFormatAlphaNonpremultiplied = 1 << 1, // 0 means is premultiplied - NSBitmapFormatFloatingpointSamples = 1 << 2, // 0 is integer - - NSBitmapFormatSixteenBitLittleEndian API_AVAILABLE(macos(10.10)) = (1 << 8), - NSBitmapFormatThirtyTwoBitLittleEndian API_AVAILABLE(macos(10.10)) = (1 << 9), - NSBitmapFormatSixteenBitBigEndian API_AVAILABLE(macos(10.10)) = (1 << 10), - NSBitmapFormatThirtyTwoBitBigEndian API_AVAILABLE(macos(10.10)) = (1 << 11) -}; - -id NSBitmapImageRep_initWithBitmapData(unsigned char** planes, NSInteger width, NSInteger height, NSInteger bps, NSInteger spp, bool alpha, bool isPlanar, const char* colorSpaceName, NSBitmapFormat bitmapFormat, NSInteger rowBytes, NSInteger pixelBits) { - SEL func = sel_registerName("initWithBitmapDataPlanes:pixelsWide:pixelsHigh:bitsPerSample:samplesPerPixel:hasAlpha:isPlanar:colorSpaceName:bitmapFormat:bytesPerRow:bitsPerPixel:"); - - return (id) ((id(*)(id, SEL, unsigned char**, NSInteger, NSInteger, NSInteger, NSInteger, bool, bool, id, NSBitmapFormat, NSInteger, NSInteger))objc_msgSend) - (NSAlloc((id)objc_getClass("NSBitmapImageRep")), func, planes, width, height, bps, spp, alpha, isPlanar, NSString_stringWithUTF8String(colorSpaceName), bitmapFormat, rowBytes, pixelBits); -} - -id NSColor_colorWithSRGB(CGFloat red, CGFloat green, CGFloat blue, CGFloat alpha) { - void* nsclass = objc_getClass("NSColor"); - SEL func = sel_registerName("colorWithSRGBRed:green:blue:alpha:"); - return ((id(*)(id, SEL, CGFloat, CGFloat, CGFloat, CGFloat))objc_msgSend) - ((id)nsclass, func, red, green, blue, alpha); -} - -id NSCursor_initWithImage(id newImage, NSPoint aPoint) { - SEL func = sel_registerName("initWithImage:hotSpot:"); - void* nsclass = objc_getClass("NSCursor"); - - return (id) ((id(*)(id, SEL, id, NSPoint))objc_msgSend) - (NSAlloc(nsclass), func, newImage, aPoint); -} - -void NSImage_addRepresentation(id image, id imageRep) { - SEL func = sel_registerName("addRepresentation:"); - objc_msgSend_void_id(image, func, (id)imageRep); -} - -id NSImage_initWithSize(NSSize size) { - SEL func = sel_registerName("initWithSize:"); - return ((id(*)(id, SEL, NSSize))objc_msgSend) - (NSAlloc((id)objc_getClass("NSImage")), func, size); -} -#define NS_OPENGL_ENUM_DEPRECATED(minVers, maxVers) API_AVAILABLE(macos(minVers)) -typedef RGFW_ENUM(NSInteger, NSOpenGLContextParameter) { - NSOpenGLContextParameterSwapInterval NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 222, /* 1 param. 0 -> Don't sync, 1 -> Sync to vertical retrace */ - NSOpenGLContextParametectxaceOrder NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 235, /* 1 param. 1 -> Above Window (default), -1 -> Below Window */ - NSOpenGLContextParametectxaceOpacity NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 236, /* 1 param. 1-> Surface is opaque (default), 0 -> non-opaque */ - NSOpenGLContextParametectxaceBackingSize NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 304, /* 2 params. Width/height of surface backing size */ - NSOpenGLContextParameterReclaimResources NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 308, /* 0 params. */ - NSOpenGLContextParameterCurrentRendererID NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 309, /* 1 param. Retrieves the current renderer ID */ - NSOpenGLContextParameterGPUVertexProcessing NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 310, /* 1 param. Currently processing vertices with GPU (get) */ - NSOpenGLContextParameterGPUFragmentProcessing NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 311, /* 1 param. Currently processing fragments with GPU (get) */ - NSOpenGLContextParameterHasDrawable NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 314, /* 1 param. Boolean returned if drawable is attached */ - NSOpenGLContextParameterMPSwapsInFlight NS_OPENGL_ENUM_DEPRECATED(10.0, 10.14) = 315, /* 1 param. Max number of swaps queued by the MP GL engine */ - - NSOpenGLContextParameterSwapRectangle API_DEPRECATED("", macos(10.0, 10.14)) = 200, /* 4 params. Set or get the swap rectangle {x, y, w, h} */ - NSOpenGLContextParameterSwapRectangleEnable API_DEPRECATED("", macos(10.0, 10.14)) = 201, /* Enable or disable the swap rectangle */ - NSOpenGLContextParameterRasterizationEnable API_DEPRECATED("", macos(10.0, 10.14)) = 221, /* Enable or disable all rasterization */ - NSOpenGLContextParameterStateValidation API_DEPRECATED("", macos(10.0, 10.14)) = 301, /* Validate state for multi-screen functionality */ - NSOpenGLContextParametectxaceSurfaceVolatile API_DEPRECATED("", macos(10.0, 10.14)) = 306, /* 1 param. Surface volatile state */ -}; - -typedef RGFW_ENUM(NSInteger, NSWindowButton) { - NSWindowCloseButton = 0, - NSWindowMiniaturizeButton = 1, - NSWindowZoomButton = 2, - NSWindowToolbarButton = 3, - NSWindowDocumentIconButton = 4, - NSWindowDocumentVersionsButton = 6, - NSWindowFullScreenButton = 7, -}; - - -void NSOpenGLContext_setValues(id context, const int* vals, NSOpenGLContextParameter param) { - SEL func = sel_registerName("setValues:forParameter:"); - ((void (*)(id, SEL, const int*, NSOpenGLContextParameter))objc_msgSend) - (context, func, vals, param); -} - -void* NSOpenGLPixelFormat_initWithAttributes(const uint32_t* attribs) { - SEL func = sel_registerName("initWithAttributes:"); - return (void*) ((id(*)(id, SEL, const uint32_t*))objc_msgSend) - (NSAlloc((id)objc_getClass("NSOpenGLPixelFormat")), func, attribs); -} - -id NSOpenGLView_initWithFrame(NSRect frameRect, uint32_t* format) { - SEL func = sel_registerName("initWithFrame:pixelFormat:"); - return (id) ((id(*)(id, SEL, NSRect, uint32_t*))objc_msgSend) - (NSAlloc((id)objc_getClass("NSOpenGLView")), func, frameRect, format); -} - -void NSCursor_performSelector(id cursor, SEL selector) { - SEL func = sel_registerName("performSelector:"); - objc_msgSend_void_SEL(cursor, func, selector); -} - -id NSPasteboard_generalPasteboard(void) { - return (id) objc_msgSend_id((id)objc_getClass("NSPasteboard"), sel_registerName("generalPasteboard")); -} - -id* cstrToNSStringArray(char** strs, size_t len) { - static id nstrs[6]; - size_t i; - for (i = 0; i < len; i++) - nstrs[i] = NSString_stringWithUTF8String(strs[i]); - - return nstrs; -} - -const char* NSPasteboard_stringForType(id pasteboard, NSPasteboardType dataType, size_t* len) { - SEL func = sel_registerName("stringForType:"); - id nsstr = NSString_stringWithUTF8String(dataType); - id nsString = ((id(*)(id, SEL, id))objc_msgSend)(pasteboard, func, nsstr); - const char* str = NSString_to_char(nsString); - if (len != NULL) - *len = (size_t)((NSUInteger(*)(id, SEL, int))objc_msgSend)(nsString, sel_registerName("maximumLengthOfBytesUsingEncoding:"), 4); - return str; -} - -id c_array_to_NSArray(void* array, size_t len) { - SEL func = sel_registerName("initWithObjects:count:"); - void* nsclass = objc_getClass("NSArray"); - return ((id (*)(id, SEL, void*, NSUInteger))objc_msgSend) - (NSAlloc(nsclass), func, array, len); -} - -void NSregisterForDraggedTypes(id view, NSPasteboardType* newTypes, size_t len) { - id* ntypes = cstrToNSStringArray((char**)newTypes, len); - - id array = c_array_to_NSArray(ntypes, len); - objc_msgSend_void_id(view, sel_registerName("registerForDraggedTypes:"), array); - NSRelease(array); -} - -NSInteger NSPasteBoard_declareTypes(id pasteboard, NSPasteboardType* newTypes, size_t len, void* owner) { - id* ntypes = cstrToNSStringArray((char**)newTypes, len); - - SEL func = sel_registerName("declareTypes:owner:"); - - id array = c_array_to_NSArray(ntypes, len); - - NSInteger output = ((NSInteger(*)(id, SEL, id, void*))objc_msgSend) - (pasteboard, func, array, owner); - NSRelease(array); - - return output; -} - -bool NSPasteBoard_setString(id pasteboard, const char* stringToWrite, NSPasteboardType dataType) { - SEL func = sel_registerName("setString:forType:"); - return ((bool (*)(id, SEL, id, id))objc_msgSend) - (pasteboard, func, NSString_stringWithUTF8String(stringToWrite), NSString_stringWithUTF8String(dataType)); -} - -#define NSRetain(obj) objc_msgSend_void((id)obj, sel_registerName("retain")) - -typedef enum NSApplicationActivationPolicy { - NSApplicationActivationPolicyRegular, - NSApplicationActivationPolicyAccessory, - NSApplicationActivationPolicyProhibited -} NSApplicationActivationPolicy; - -typedef RGFW_ENUM(u32, NSBackingStoreType) { - NSBackingStoreRetained = 0, - NSBackingStoreNonretained = 1, - NSBackingStoreBuffered = 2 -}; - -typedef RGFW_ENUM(u32, NSWindowStyleMask) { - NSWindowStyleMaskBorderless = 0, - NSWindowStyleMaskTitled = 1 << 0, - NSWindowStyleMaskClosable = 1 << 1, - NSWindowStyleMaskMiniaturizable = 1 << 2, - NSWindowStyleMaskResizable = 1 << 3, - NSWindowStyleMaskTexturedBackground = 1 << 8, /* deprecated */ - NSWindowStyleMaskUnifiedTitleAndToolbar = 1 << 12, - NSWindowStyleMaskFullScreen = 1 << 14, - NSWindowStyleMaskFullSizeContentView = 1 << 15, - NSWindowStyleMaskUtilityWindow = 1 << 4, - NSWindowStyleMaskDocModalWindow = 1 << 6, - NSWindowStyleMaskNonactivatingpanel = 1 << 7, - NSWindowStyleMaskHUDWindow = 1 << 13 -}; - -NSPasteboardType const NSPasteboardTypeString = "public.utf8-plain-text"; // Replaces NSStringPasteboardType - - -typedef RGFW_ENUM(i32, NSDragOperation) { - NSDragOperationNone = 0, - NSDragOperationCopy = 1, - NSDragOperationLink = 2, - NSDragOperationGeneric = 4, - NSDragOperationPrivate = 8, - NSDragOperationMove = 16, - NSDragOperationDelete = 32, - NSDragOperationEvery = ULONG_MAX, - - //NSDragOperationAll_Obsolete API_DEPRECATED("", macos(10.0,10.10)) = 15, // Use NSDragOperationEvery - //NSDragOperationAll API_DEPRECATED("", macos(10.0,10.10)) = NSDragOperationAll_Obsolete, // Use NSDragOperationEvery -}; - -void* NSArray_objectAtIndex(id array, NSUInteger index) { - SEL func = sel_registerName("objectAtIndex:"); - return ((id(*)(id, SEL, NSUInteger))objc_msgSend)(array, func, index); -} - -id NSWindow_contentView(id window) { - SEL func = sel_registerName("contentView"); - return objc_msgSend_id(window, func); -} - -/* - End of cocoa wrapper -*/ - -#ifdef RGFW_OPENGL -CFBundleRef RGFWnsglFramework = NULL; - -void* RGFW_getProcAddress(const char* procname) { - if (RGFWnsglFramework == NULL) - RGFWnsglFramework = CFBundleGetBundleWithIdentifier(CFSTR("com.apple.opengl")); - - CFStringRef symbolName = CFStringCreateWithCString(kCFAllocatorDefault, procname, kCFStringEncodingASCII); - - void* symbol = (void*)CFBundleGetFunctionPointerForName(RGFWnsglFramework, symbolName); - - CFRelease(symbolName); - - return symbol; -} -#endif - -id NSWindow_delegate(RGFW_window* win) { - return (id) objc_msgSend_id((id)win->src.window, sel_registerName("delegate")); -} - -u32 RGFW_OnClose(id self) { - RGFW_window* win = NULL; - object_getInstanceVariable(self, (const char*)"RGFW_window", (void**)&win); - if (win == NULL) - return true; - - win->event.type = RGFW_quit; - RGFW_windowQuitCallback(win); - - return false; -} - -/* NOTE(EimaMei): Fixes the constant clicking when the app is running under a terminal. */ -bool acceptsFirstResponder(void) { return true; } -bool performKeyEquivalent(id event) { RGFW_UNUSED(event); return true; } - -NSDragOperation draggingEntered(id self, SEL sel, id sender) { - RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); - - return NSDragOperationCopy; -} -NSDragOperation draggingUpdated(id self, SEL sel, id sender) { - RGFW_UNUSED(sel); - - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - if (win == NULL) - return 0; - - if (!(win->_flags & RGFW_windowAllowDND)) { - return 0; - } - - win->event.type = RGFW_DNDInit; - win->_flags &= ~RGFW_EVENT_PASSED; - - NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(sender, sel_registerName("draggingLocation")); - - win->event.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); - RGFW_dndInitCallback(win, win->event.point); - - return NSDragOperationCopy; -} -bool prepareForDragOperation(id self) { - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - if (win == NULL) - return true; - - if (!(win->_flags & RGFW_windowAllowDND)) { - return false; - } - - return true; -} - -void RGFW__osxDraggingEnded(id self, SEL sel, id sender) { RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); return; } - -/* NOTE(EimaMei): Usually, you never need 'id self, SEL cmd' for C -> Obj-C methods. This isn't the case. */ -bool performDragOperation(id self, SEL sel, id sender) { - RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); - - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - - if (win == NULL) - return false; - - // id pasteBoard = objc_msgSend_id(sender, sel_registerName("draggingPasteboard")); - - ///////////////////////////// - id pasteBoard = objc_msgSend_id(sender, sel_registerName("draggingPasteboard")); - - // Get the types of data available on the pasteboard - id types = objc_msgSend_id(pasteBoard, sel_registerName("types")); - - // Get the string type for file URLs - id fileURLsType = objc_msgSend_class_char(objc_getClass("NSString"), sel_registerName("stringWithUTF8String:"), "NSFilenamesPboardType"); - - // Check if the pasteboard contains file URLs - if (objc_msgSend_id_bool(types, sel_registerName("containsObject:"), fileURLsType) == 0) { - #ifdef RGFW_DEBUG - printf("No files found on the pasteboard.\n"); - #endif - - return 0; - } - - id fileURLs = objc_msgSend_id_id(pasteBoard, sel_registerName("propertyListForType:"), fileURLsType); - int count = ((int (*)(id, SEL))objc_msgSend)(fileURLs, sel_registerName("count")); - - if (count == 0) - return 0; - - for (int i = 0; i < count; i++) { - id fileURL = objc_msgSend_arr(fileURLs, sel_registerName("objectAtIndex:"), i); - const char *filePath = ((const char* (*)(id, SEL))objc_msgSend)(fileURL, sel_registerName("UTF8String")); - RGFW_MEMCPY(win->event.droppedFiles[i], filePath, RGFW_MAX_PATH); - win->event.droppedFiles[i][RGFW_MAX_PATH - 1] = '\0'; - } - win->event.droppedFilesCount = count; - - win->event.type = RGFW_DND; - win->_flags &= ~RGFW_EVENT_PASSED; - - NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(sender, sel_registerName("draggingLocation")); - win->event.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); - - RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); - - return false; -} - -#ifndef RGFW_NO_IOKIT -#include -#include - -IOHIDDeviceRef RGFW_osxControllers[4] = {NULL}; - -int findControllerIndex(IOHIDDeviceRef device) { - for (int i = 0; i < 4; i++) - if (RGFW_osxControllers[i] == device) - return i; - return -1; -} - -#define RGFW_gamepadEventQueueMAX 11 -RGFW_event RGFW_gamepadEventQueue[RGFW_gamepadEventQueueMAX]; -size_t RGFW_gamepadEventQueueCount = 0; - -void RGFW__osxInputValueChangedCallback(void *context, IOReturn result, void *sender, IOHIDValueRef value) { - RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); - - if (RGFW_gamepadEventQueueCount >= RGFW_gamepadEventQueueMAX - 1) - return; - - IOHIDElementRef element = IOHIDValueGetElement(value); - - IOHIDDeviceRef device = IOHIDElementGetDevice(element); - size_t index = findControllerIndex(device); - - uint32_t usagePage = IOHIDElementGetUsagePage(element); - uint32_t usage = IOHIDElementGetUsage(element); - - CFIndex intValue = IOHIDValueGetIntegerValue(value); - - u8 RGFW_osx2RGFWSrc[2][RGFW_gamepadFinal] = {{ - 0, RGFW_gamepadSelect, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadStart, - RGFW_gamepadUp, RGFW_gamepadRight, RGFW_gamepadDown, RGFW_gamepadLeft, - RGFW_gamepadL2, RGFW_gamepadR2, RGFW_gamepadL1, RGFW_gamepadR1, - RGFW_gamepadY, RGFW_gamepadB, RGFW_gamepadA, RGFW_gamepadX, RGFW_gamepadHome}, - {0, RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadR3, RGFW_gamepadX, - RGFW_gamepadY, RGFW_gamepadRight, RGFW_gamepadL1, RGFW_gamepadR1, - RGFW_gamepadL2, RGFW_gamepadR2, RGFW_gamepadDown, RGFW_gamepadStart, - RGFW_gamepadUp, RGFW_gamepadL3, RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome} - }; - - u8* RGFW_osx2RGFW = RGFW_osx2RGFWSrc[0]; - if (RGFW_gamepads_type[index] == RGFW_gamepadMicrosoft) - RGFW_osx2RGFW = RGFW_osx2RGFWSrc[1]; - - RGFW_event event; - - switch (usagePage) { - case kHIDPage_Button: { - u8 button = 0; - if (usage < sizeof(RGFW_osx2RGFW)) - button = RGFW_osx2RGFW[usage]; - - RGFW_gamepadButtonCallback(RGFW_root, index, button, intValue); - RGFW_gamepadPressed[index][button].prev = RGFW_gamepadPressed[index][button].current; - RGFW_gamepadPressed[index][button].current = intValue; - event.type = intValue ? RGFW_gamepadButtonPressed: RGFW_gamepadButtonReleased; - event.button = button; - event.gamepad = index; - - RGFW_gamepadEventQueue[RGFW_gamepadEventQueueCount] = event; - RGFW_gamepadEventQueueCount++; - break; - } - case kHIDPage_GenericDesktop: { - CFIndex logicalMin = IOHIDElementGetLogicalMin(element); - CFIndex logicalMax = IOHIDElementGetLogicalMax(element); - - if (logicalMax <= logicalMin) return; - if (intValue < logicalMin) intValue = logicalMin; - if (intValue > logicalMax) intValue = logicalMax; - - i8 value = (i8)(-100.0 + ((intValue - logicalMin) * 200.0) / (logicalMax - logicalMin)); - - switch (usage) { - case kHIDUsage_GD_X: RGFW_gamepadAxes[index][0].x = value; event.whichAxis = 0; break; - case kHIDUsage_GD_Y: RGFW_gamepadAxes[index][0].y = value; event.whichAxis = 0; break; - case kHIDUsage_GD_Z: RGFW_gamepadAxes[index][1].x = value; event.whichAxis = 1; break; - case kHIDUsage_GD_Rz: RGFW_gamepadAxes[index][1].y = value; event.whichAxis = 1; break; - default: return; - } - - event.type = RGFW_gamepadAxisMove; - event.gamepad = index; - - event.axis[0] = RGFW_gamepadAxes[index][0]; - event.axis[1] = RGFW_gamepadAxes[index][1]; - - RGFW_gamepadEventQueue[RGFW_gamepadEventQueueCount] = event; - RGFW_gamepadEventQueueCount++; - - RGFW_gamepadAxisCallback(RGFW_root, index, event.axis, 2, event.whichAxis); - } - } -} - -void RGFW__osxDeviceAddedCallback(void* context, IOReturn result, void *sender, IOHIDDeviceRef device) { - RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); - CFTypeRef usageRef = (CFTypeRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDPrimaryUsageKey)); - int usage = 0; - if (usageRef) - CFNumberGetValue((CFNumberRef)usageRef, kCFNumberIntType, (void*)&usage); - - if (usage != kHIDUsage_GD_Joystick && usage != kHIDUsage_GD_GamePad && usage != kHIDUsage_GD_MultiAxisController) { - return; - } - - for (size_t i = 0; i < 4; i++) { - if (RGFW_osxControllers[i] != NULL) - continue; - - RGFW_osxControllers[i] = device; - - IOHIDDeviceRegisterInputValueCallback(device, RGFW__osxInputValueChangedCallback, NULL); - - CFStringRef deviceName = (CFStringRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDProductKey)); - if (deviceName) - CFStringGetCString(deviceName, RGFW_gamepads_name[i], sizeof(RGFW_gamepads_name[i]), kCFStringEncodingUTF8); - - RGFW_gamepads_type[i] = RGFW_gamepadUnknown; - if (strstr(RGFW_gamepads_name[i], "Microsoft") || strstr(RGFW_gamepads_name[i], "X-Box") || strstr(RGFW_gamepads_name[i], "Xbox")) - RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; - else if (strstr(RGFW_gamepads_name[i], "PlayStation") || strstr(RGFW_gamepads_name[i], "PS3") || strstr(RGFW_gamepads_name[i], "PS4") || strstr(RGFW_gamepads_name[i], "PS5")) - RGFW_gamepads_type[i] = RGFW_gamepadSony; - else if (strstr(RGFW_gamepads_name[i], "Nintendo")) - RGFW_gamepads_type[i] = RGFW_gamepadNintendo; - else if (strstr(RGFW_gamepads_name[i], "Logitech")) - RGFW_gamepads_type[i] = RGFW_gamepadLogitech; - - RGFW_gamepads[i] = i; - RGFW_gamepadCount++; - - RGFW_event ev; - ev.type = RGFW_gamepadConnected; - ev.gamepad = i; - RGFW_gamepadEventQueue[RGFW_gamepadEventQueueCount] = ev; - RGFW_gamepadEventQueueCount++; - RGFW_gamepadCallback(RGFW_root, i, 1); - break; - } -} - -void RGFW__osxDeviceRemovedCallback(void *context, IOReturn result, void *sender, IOHIDDeviceRef device) { - RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); RGFW_UNUSED(device); - CFNumberRef usageRef = (CFNumberRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDPrimaryUsageKey)); - int usage = 0; - if (usageRef) - CFNumberGetValue(usageRef, kCFNumberIntType, &usage); - - if (usage != kHIDUsage_GD_Joystick && usage != kHIDUsage_GD_GamePad && usage != kHIDUsage_GD_MultiAxisController) { - return; - } - - i32 index = findControllerIndex(device); - if (index != -1) - RGFW_osxControllers[index] = NULL; - - RGFW_event ev; - ev.type = RGFW_gamepadDisconnected; - ev.gamepad = index; - RGFW_gamepadEventQueue[RGFW_gamepadEventQueueCount] = ev; - RGFW_gamepadEventQueueCount++; - RGFW_gamepadCallback(RGFW_root, index, 0); - - RGFW_gamepadCount--; -} - -RGFWDEF void RGFW_osxInitIOKit(void); -void RGFW_osxInitIOKit(void) { - IOHIDManagerRef hidManager = IOHIDManagerCreate(kCFAllocatorDefault, kIOHIDOptionsTypeNone); - if (!hidManager) { - fprintf(stderr, "Failed to create IOHIDManager.\n"); - return; - } - - CFMutableDictionaryRef matchingDictionary = CFDictionaryCreateMutable( - kCFAllocatorDefault, - 0, - &kCFTypeDictionaryKeyCallBacks, - &kCFTypeDictionaryValueCallBacks - ); - if (!matchingDictionary) { - fprintf(stderr, "Failed to create matching dictionary.\n"); - CFRelease(hidManager); - return; - } - - CFDictionarySetValue( - matchingDictionary, - CFSTR(kIOHIDDeviceUsagePageKey), - CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, (int[]){kHIDPage_GenericDesktop}) - ); - - IOHIDManagerSetDeviceMatching(hidManager, matchingDictionary); - - IOHIDManagerRegisterDeviceMatchingCallback(hidManager, RGFW__osxDeviceAddedCallback, NULL); - IOHIDManagerRegisterDeviceRemovalCallback(hidManager, RGFW__osxDeviceRemovedCallback, NULL); - - IOHIDManagerScheduleWithRunLoop(hidManager, CFRunLoopGetCurrent(), kCFRunLoopDefaultMode); - - IOHIDManagerOpen(hidManager, kIOHIDOptionsTypeNone); - - // Execute the run loop once in order to register any initially-attached joysticks - CFRunLoopRunInMode(kCFRunLoopDefaultMode, 0, false); -} -#endif - -void RGFW_moveToMacOSResourceDir(void) { - char resourcesPath[255]; - - CFBundleRef bundle = CFBundleGetMainBundle(); - if (!bundle) - return; - - CFURLRef resourcesURL = CFBundleCopyResourcesDirectoryURL(bundle); - CFStringRef last = CFURLCopyLastPathComponent(resourcesURL); - - if ( - CFStringCompare(CFSTR("Resources"), last, 0) != kCFCompareEqualTo || - CFURLGetFileSystemRepresentation(resourcesURL, true, (u8*) resourcesPath, 255) == 0 - ) { - CFRelease(last); - CFRelease(resourcesURL); - return; - } - - CFRelease(last); - CFRelease(resourcesURL); - - chdir(resourcesPath); -} - - -NSSize RGFW__osxWindowResize(id self, SEL sel, NSSize frameSize) { - RGFW_UNUSED(sel); - - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - if (win == NULL) - return frameSize; - - win->r.w = frameSize.width; - win->r.h = frameSize.height; - win->event.type = RGFW_windowResized; - RGFW_windowResizeCallback(win, win->r); - return frameSize; -} - -void RGFW__osxWindowMove(id self, SEL sel) { - RGFW_UNUSED(sel); - - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - if (win == NULL) - return; - - NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); - win->r.x = (i32) frame.origin.x; - win->r.y = (i32) frame.origin.y; - - win->event.type = RGFW_windowMoved; - RGFW_windowMoveCallback(win, win->r); -} - -void RGFW__osxUpdateLayer(id self, SEL sel) { - RGFW_UNUSED(sel); - - RGFW_window* win = NULL; - object_getInstanceVariable(self, "RGFW_window", (void**)&win); - if (win == NULL) - return; - - win->event.type = RGFW_windowRefresh; - RGFW_windowRefreshCallback(win); -} - -void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area) { - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - win->buffer = buffer; - win->bufferSize = area; - win->_flags |= RGFW_BUFFER_ALLOC; - #ifdef RGFW_OSMESA - win->src.ctx = OSMesaCreateContext(OSMESA_RGBA, NULL); - OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, win->r.w, win->r.h); - #endif - #else - RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ - #endif -} - -void RGFW_window_cocoaSetLayer(RGFW_window* win, void* layer) { - objc_msgSend_void_id((id)win->src.view, sel_registerName("setLayer"), (id)layer); -} - -void* RGFW_cocoaGetLayer(void) { - return objc_msgSend_class((id)objc_getClass("CAMetalLayer"), (SEL)sel_registerName("layer")); -} - - -NSPasteboardType const NSPasteboardTypeURL = "public.url"; -NSPasteboardType const NSPasteboardTypeFileURL = "public.file-url"; - -RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { - static u8 RGFW_loaded = 0; - - /* NOTE(EimaMei): Why does Apple hate good code? Like wtf, who thought of methods being a great idea??? - Imagine a universe, where MacOS had a proper system API (we would probably have like 20% better performance). - */ - si_func_to_SEL_with_name("NSObject", "windowShouldClose", (void*)RGFW_OnClose); - - /* NOTE(EimaMei): Fixes the 'Boop' sfx from constantly playing each time you click a key. Only a problem when running in the terminal. */ - si_func_to_SEL("NSWindow", acceptsFirstResponder); - si_func_to_SEL("NSWindow", performKeyEquivalent); - - // RR Create an autorelease pool - id pool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); - pool = objc_msgSend_id(pool, sel_registerName("init")); - - if (NSApp == NULL) { - NSApp = objc_msgSend_id((id)objc_getClass("NSApplication"), sel_registerName("sharedApplication")); - - ((void (*)(id, SEL, NSUInteger))objc_msgSend) - (NSApp, sel_registerName("setActivationPolicy:"), NSApplicationActivationPolicyRegular); - - #ifndef RGFW_NO_IOKIT - RGFW_osxInitIOKit(); - #endif - } - - RGFW_window_basic_init(win, rect, flags); - - RGFW_window_setMouseDefault(win); - - NSRect windowRect; - windowRect.origin.x = win->r.x; - windowRect.origin.y = win->r.y; - windowRect.size.width = win->r.w; - windowRect.size.height = win->r.h; - - NSBackingStoreType macArgs = NSWindowStyleMaskClosable | NSWindowStyleMaskMiniaturizable | NSBackingStoreBuffered | NSWindowStyleMaskTitled; - - if (!(flags & RGFW_windowNoResize)) - macArgs |= NSWindowStyleMaskResizable; - if (!(flags & RGFW_windowNoBorder)) - macArgs |= NSWindowStyleMaskTitled; - { - void* nsclass = objc_getClass("NSWindow"); - SEL func = sel_registerName("initWithContentRect:styleMask:backing:defer:"); - - win->src.window = ((id(*)(id, SEL, NSRect, NSWindowStyleMask, NSBackingStoreType, bool))objc_msgSend) - (NSAlloc(nsclass), func, windowRect, macArgs, macArgs, false); - } - - id str = NSString_stringWithUTF8String(name); - objc_msgSend_void_id((id)win->src.window, sel_registerName("setTitle:"), str); - - #ifdef RGFW_EGL - if ((flags & RGFW_windowNoInitAPI) == 0) - RGFW_createOpenGLContext(win); - #endif - - #ifdef RGFW_OPENGL - - if ((flags & RGFW_windowNoInitAPI) == 0) { - void* attrs = RGFW_initFormatAttribs(flags & RGFW_windowOpenglSoftware); - void* format = NSOpenGLPixelFormat_initWithAttributes((uint32_t*)attrs); - - if (format == NULL) { - #ifdef RGFW_DEBUG - printf("Failed to load pixel format for OpenGL\n"); - #endif - - void* attrs = RGFW_initFormatAttribs(1); - format = NSOpenGLPixelFormat_initWithAttributes((uint32_t*)attrs); - - #ifdef RGFW_DEBUG - if (format == NULL) - printf("and loading software rendering OpenGL failed\n"); - else - printf("Switching to software rendering\n"); - #endif - } - - /* the pixel format can be passed directly to opengl context creation to create a context - this is because the format also includes information about the opengl version (which may be a bad thing) */ - win->src.view = NSOpenGLView_initWithFrame((NSRect){{0, 0}, {win->r.w, win->r.h}}, (uint32_t*)format); - objc_msgSend_void(win->src.view, sel_registerName("prepareOpenGL")); - win->src.ctx = objc_msgSend_id(win->src.view, sel_registerName("openGLContext")); - } else - #endif - { - NSRect contentRect = (NSRect){{0, 0}, {win->r.w, win->r.h}}; - win->src.view = ((id(*)(id, SEL, NSRect))objc_msgSend) - (NSAlloc((id)objc_getClass("NSView")), sel_registerName("initWithFrame:"), - contentRect); - } - - void* contentView = NSWindow_contentView((id)win->src.window); - objc_msgSend_void_bool(contentView, sel_registerName("setWantsLayer:"), true); - - objc_msgSend_void_id((id)win->src.window, sel_registerName("setContentView:"), win->src.view); - - #ifdef RGFW_OPENGL - if ((flags & RGFW_windowNoInitAPI) == 0) - objc_msgSend_void(win->src.ctx, sel_registerName("makeCurrentContext")); - #endif - - if (flags & RGFW_windowTransparent) { - #ifdef RGFW_OPENGL - if ((flags & RGFW_windowNoInitAPI) == 0) { - i32 opacity = 0; - #define NSOpenGLCPSurfaceOpacity 236 - NSOpenGLContext_setValues((id)win->src.ctx, &opacity, NSOpenGLCPSurfaceOpacity); - } - #endif - - objc_msgSend_void_bool(win->src.window, sel_registerName("setOpaque:"), false); - - objc_msgSend_void_id((id)win->src.window, sel_registerName("setBackgroundColor:"), - NSColor_colorWithSRGB(0, 0, 0, 0)); - } - - Class delegateClass = objc_allocateClassPair(objc_getClass("NSObject"), "WindowDelegate", 0); - - class_addIvar( - delegateClass, "RGFW_window", - sizeof(RGFW_window*), rint(log2(sizeof(RGFW_window*))), - "L" - ); - - class_addMethod(delegateClass, sel_registerName("windowWillResize:toSize:"), (IMP) RGFW__osxWindowResize, "{NSSize=ff}@:{NSSize=ff}"); - class_addMethod(delegateClass, sel_registerName("updateLayer:"), (IMP) RGFW__osxUpdateLayer, ""); - class_addMethod(delegateClass, sel_registerName("windowWillMove:"), (IMP) RGFW__osxWindowMove, ""); - class_addMethod(delegateClass, sel_registerName("windowDidMove:"), (IMP) RGFW__osxWindowMove, ""); - class_addMethod(delegateClass, sel_registerName("draggingEntered:"), (IMP)draggingEntered, "l@:@"); - class_addMethod(delegateClass, sel_registerName("draggingUpdated:"), (IMP)draggingUpdated, "l@:@"); - class_addMethod(delegateClass, sel_registerName("draggingExited:"), (IMP)RGFW__osxDraggingEnded, "v@:@"); - class_addMethod(delegateClass, sel_registerName("draggingEnded:"), (IMP)RGFW__osxDraggingEnded, "v@:@"); - class_addMethod(delegateClass, sel_registerName("prepareForDragOperation:"), (IMP)prepareForDragOperation, "B@:@"); - class_addMethod(delegateClass, sel_registerName("performDragOperation:"), (IMP)performDragOperation, "B@:@"); - - id delegate = objc_msgSend_id(NSAlloc(delegateClass), sel_registerName("init")); - - if (RGFW_COCOA_FRAME_NAME) - objc_msgSend_ptr(win->src.view, sel_registerName("setFrameAutosaveName:"), RGFW_COCOA_FRAME_NAME); - - object_setInstanceVariable(delegate, "RGFW_window", win); - - objc_msgSend_void_id((id)win->src.window, sel_registerName("setDelegate:"), delegate); - - if (flags & RGFW_windowAllowDND) { - win->_flags |= RGFW_windowAllowDND; - - NSPasteboardType types[] = {NSPasteboardTypeURL, NSPasteboardTypeFileURL, NSPasteboardTypeString}; - NSregisterForDraggedTypes((id)win->src.window, types, 3); - } - - // Show the window - objc_msgSend_void_bool(NSApp, sel_registerName("activateIgnoringOtherApps:"), true); - ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyAndOrderFront:"), (SEL)NULL); - objc_msgSend_void_bool(win->src.window, sel_registerName("setIsVisible:"), true); - - if (!RGFW_loaded) { - objc_msgSend_void(win->src.window, sel_registerName("makeMainWindow")); - - RGFW_loaded = 1; - } - - objc_msgSend_void(win->src.window, sel_registerName("makeKeyWindow")); - - objc_msgSend_void(NSApp, sel_registerName("finishLaunching")); - - RGFW_window_setFlags(win, flags); - - NSRetain(win->src.window); - NSRetain(NSApp); - - #ifdef RGFW_DEBUG - printf("RGFW INFO: a window with a rect of {%i, %i, %i, %i} \n", win->r.x, win->r.y, win->r.w, win->r.h); - #endif - return win; -} - - void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { - NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); - NSRect content = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.view, sel_registerName("frame")); - float offset = 0; - - RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); - NSBackingStoreType storeType = NSWindowStyleMaskBorderless | NSWindowStyleMaskFullSizeContentView; - if (border) - storeType = NSWindowStyleMaskTitled | NSWindowStyleMaskClosable | NSWindowStyleMaskMiniaturizable; - if (!(win->_flags & RGFW_windowNoResize)) { - storeType |= NSWindowStyleMaskResizable; - } - - ((void (*)(id, SEL, NSBackingStoreType))objc_msgSend)((id)win->src.window, sel_registerName("setStyleMask:"), storeType); - - if (!border) { - id miniaturizeButton = objc_msgSend_int((id)win->src.window, sel_registerName("standardWindowButton:"), NSWindowMiniaturizeButton); - id titleBarView = objc_msgSend_id(miniaturizeButton, sel_registerName("superview")); - objc_msgSend_void_bool(titleBarView, sel_registerName("setHidden:"), true); - - offset = frame.size.height - content.size.height; - } - - RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h + offset)); - win->r.h -= offset; - } - - RGFW_area RGFW_getScreenSize(void) { - static CGDirectDisplayID display = 0; - - if (display == 0) - display = CGMainDisplayID(); - - return RGFW_AREA(CGDisplayPixelsWide(display), CGDisplayPixelsHigh(display)); - } - - RGFW_point RGFW_getGlobalMousePoint(void) { - RGFW_ASSERT(RGFW_root != NULL); - - CGEventRef e = CGEventCreate(NULL); - CGPoint point = CGEventGetLocation(e); - CFRelease(e); - - return RGFW_POINT((u32) point.x, (u32) point.y); /*!< the point is loaded during event checks */ - } - - typedef RGFW_ENUM(u32, NSEventType) { /* various types of events */ - NSEventTypeLeftMouseDown = 1, - NSEventTypeLeftMouseUp = 2, - NSEventTypeRightMouseDown = 3, - NSEventTypeRightMouseUp = 4, - NSEventTypeMouseMoved = 5, - NSEventTypeLeftMouseDragged = 6, - NSEventTypeRightMouseDragged = 7, - NSEventTypeMouseEntered = 8, - NSEventTypeMouseExited = 9, - NSEventTypeKeyDown = 10, - NSEventTypeKeyUp = 11, - NSEventTypeFlagsChanged = 12, - NSEventTypeAppKitDefined = 13, - NSEventTypeSystemDefined = 14, - NSEventTypeApplicationDefined = 15, - NSEventTypePeriodic = 16, - NSEventTypeCursorUpdate = 17, - NSEventTypeScrollWheel = 22, - NSEventTypeTabletPoint = 23, - NSEventTypeTabletProximity = 24, - NSEventTypeOtherMouseDown = 25, - NSEventTypeOtherMouseUp = 26, - NSEventTypeOtherMouseDragged = 27, - /* The following event types are available on some hardware on 10.5.2 and later */ - NSEventTypeGesture API_AVAILABLE(macos(10.5)) = 29, - NSEventTypeMagnify API_AVAILABLE(macos(10.5)) = 30, - NSEventTypeSwipe API_AVAILABLE(macos(10.5)) = 31, - NSEventTypeRotate API_AVAILABLE(macos(10.5)) = 18, - NSEventTypeBeginGesture API_AVAILABLE(macos(10.5)) = 19, - NSEventTypeEndGesture API_AVAILABLE(macos(10.5)) = 20, - - NSEventTypeSmartMagnify API_AVAILABLE(macos(10.8)) = 32, - NSEventTypeQuickLook API_AVAILABLE(macos(10.8)) = 33, - - NSEventTypePressure API_AVAILABLE(macos(10.10.3)) = 34, - NSEventTypeDirectTouch API_AVAILABLE(macos(10.10)) = 37, - - NSEventTypeChangeMode API_AVAILABLE(macos(10.15)) = 38, - }; - - typedef RGFW_ENUM(unsigned long long, NSEventMask) { /* masks for the types of events */ - NSEventMaskLeftMouseDown = 1ULL << NSEventTypeLeftMouseDown, - NSEventMaskLeftMouseUp = 1ULL << NSEventTypeLeftMouseUp, - NSEventMaskRightMouseDown = 1ULL << NSEventTypeRightMouseDown, - NSEventMaskRightMouseUp = 1ULL << NSEventTypeRightMouseUp, - NSEventMaskMouseMoved = 1ULL << NSEventTypeMouseMoved, - NSEventMaskLeftMouseDragged = 1ULL << NSEventTypeLeftMouseDragged, - NSEventMaskRightMouseDragged = 1ULL << NSEventTypeRightMouseDragged, - NSEventMaskMouseEntered = 1ULL << NSEventTypeMouseEntered, - NSEventMaskMouseExited = 1ULL << NSEventTypeMouseExited, - NSEventMaskKeyDown = 1ULL << NSEventTypeKeyDown, - NSEventMaskKeyUp = 1ULL << NSEventTypeKeyUp, - NSEventMaskFlagsChanged = 1ULL << NSEventTypeFlagsChanged, - NSEventMaskAppKitDefined = 1ULL << NSEventTypeAppKitDefined, - NSEventMaskSystemDefined = 1ULL << NSEventTypeSystemDefined, - NSEventMaskApplicationDefined = 1ULL << NSEventTypeApplicationDefined, - NSEventMaskPeriodic = 1ULL << NSEventTypePeriodic, - NSEventMaskCursorUpdate = 1ULL << NSEventTypeCursorUpdate, - NSEventMaskScrollWheel = 1ULL << NSEventTypeScrollWheel, - NSEventMaskTabletPoint = 1ULL << NSEventTypeTabletPoint, - NSEventMaskTabletProximity = 1ULL << NSEventTypeTabletProximity, - NSEventMaskOtherMouseDown = 1ULL << NSEventTypeOtherMouseDown, - NSEventMaskOtherMouseUp = 1ULL << NSEventTypeOtherMouseUp, - NSEventMaskOtherMouseDragged = 1ULL << NSEventTypeOtherMouseDragged, - /* The following event masks are available on some hardware on 10.5.2 and later */ - NSEventMaskGesture API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeGesture, - NSEventMaskMagnify API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeMagnify, - NSEventMaskSwipe API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeSwipe, - NSEventMaskRotate API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeRotate, - NSEventMaskBeginGesture API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeBeginGesture, - NSEventMaskEndGesture API_AVAILABLE(macos(10.5)) = 1ULL << NSEventTypeEndGesture, - - /* Note: You can only use these event masks on 64 bit. In other words, you cannot setup a local, nor global, event monitor for these event types on 32 bit. Also, you cannot search the event queue for them (nextEventMatchingMask:...) on 32 bit. - */ - NSEventMaskSmartMagnify API_AVAILABLE(macos(10.8)) = 1ULL << NSEventTypeSmartMagnify, - NSEventMaskPressure API_AVAILABLE(macos(10.10.3)) = 1ULL << NSEventTypePressure, - NSEventMaskDirectTouch API_AVAILABLE(macos(10.12.2)) = 1ULL << NSEventTypeDirectTouch, - - NSEventMaskChangeMode API_AVAILABLE(macos(10.15)) = 1ULL << NSEventTypeChangeMode, - - NSEventMaskAny = ULONG_MAX, - - }; - - typedef enum NSEventModifierFlags { - NSEventModifierFlagCapsLock = 1 << 16, - NSEventModifierFlagShift = 1 << 17, - NSEventModifierFlagControl = 1 << 18, - NSEventModifierFlagOption = 1 << 19, - NSEventModifierFlagCommand = 1 << 20, - NSEventModifierFlagNumericPad = 1 << 21 - } NSEventModifierFlags; - - void RGFW_stopCheckEvents(void) { - id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); - eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); - - id e = (id) ((id(*)(id, SEL, NSEventType, NSPoint, NSEventModifierFlags, void*, NSInteger, void**, short, NSInteger, NSInteger))objc_msgSend) - (NSApp, sel_registerName("otherEventWithType:location:modifierFlags:timestamp:windowNumber:context:subtype:data1:data2:"), - NSEventTypeApplicationDefined, (NSPoint){0, 0}, (NSEventModifierFlags)0, NULL, (NSInteger)0, NULL, 0, 0, 0); - - ((void (*)(id, SEL, id, bool))objc_msgSend) - (NSApp, sel_registerName("postEvent:atStart:"), e, 1); - - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - } - - void RGFW_window_eventWait(RGFW_window* win, u32 waitMS) { - RGFW_UNUSED(win); - - id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); - eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); - - void* date = (void*) ((id(*)(Class, SEL, double))objc_msgSend) - (objc_getClass("NSDate"), sel_registerName("dateWithTimeIntervalSinceNow:"), waitMS); - - id e = (id) ((id(*)(id, SEL, NSEventMask, void*, id, bool))objc_msgSend) - (NSApp, sel_registerName("nextEventMatchingMask:untilDate:inMode:dequeue:"), - ULONG_MAX, date, NSString_stringWithUTF8String("kCFRunLoopDefaultMode"), true); - - - if (e) { - ((void (*)(id, SEL, id, bool))objc_msgSend) - (NSApp, sel_registerName("postEvent:atStart:"), e, 1); - } - - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - } - - RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - if (win->event.type == RGFW_quit) return &win->event; - - if ((win->event.type == RGFW_DND || win->event.type == RGFW_DNDInit) && !(win->_flags & RGFW_EVENT_PASSED)) { - win->_flags |= RGFW_EVENT_PASSED; - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return &win->event; - } - - #ifndef RGFW_NO_IOKIT - if (RGFW_gamepadEventQueueCount && win == RGFW_root) { - static u8 index = 0; - - /* check queued events */ - RGFW_gamepadEventQueueCount--; - - RGFW_event ev = RGFW_gamepadEventQueue[index]; - win->event.type = ev.type; - win->event.gamepad = ev.gamepad; - win->event.button = ev.button; - win->event.whichAxis = ev.whichAxis; - for (size_t i = 0; i < 4; i++) - win->event.axis[i] = ev.axis[i]; - - if (RGFW_gamepadEventQueueCount) index++; - else index = 0; - - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return &win->event; - } - #endif - - id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); - eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); - - static SEL eventFunc = (SEL)NULL; - if (eventFunc == NULL) - eventFunc = sel_registerName("nextEventMatchingMask:untilDate:inMode:dequeue:"); - - if ((win->event.type == RGFW_windowMoved || win->event.type == RGFW_windowResized || win->event.type == RGFW_windowRefresh) && win->event.key != 120) { - win->event.key = 120; - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return &win->event; - } - - void* date = NULL; - - id e = (id) ((id(*)(id, SEL, NSEventMask, void*, id, bool))objc_msgSend) - (NSApp, eventFunc, ULONG_MAX, date, NSString_stringWithUTF8String("kCFRunLoopDefaultMode"), true); - - if (e == NULL) { - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return NULL; - } - - if (objc_msgSend_id(e, sel_registerName("window")) != win->src.window) { - ((void (*)(id, SEL, id, bool))objc_msgSend) - (NSApp, sel_registerName("postEvent:atStart:"), e, 0); - - objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return NULL; - } - - if (win->event.droppedFilesCount) { - u32 i; - for (i = 0; i < win->event.droppedFilesCount; i++) - win->event.droppedFiles[i][0] = '\0'; - } - - win->event.droppedFilesCount = 0; - win->event.type = 0; - - u32 type = objc_msgSend_uint(e, sel_registerName("type")); - switch (type) { - case NSEventTypeMouseEntered: { - win->event.type = RGFW_mouseEnter; - NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(e, sel_registerName("locationInWindow")); - - win->event.point = RGFW_POINT((i32) p.x, (i32) (win->r.h - p.y)); - RGFW_mouseNotifyCallBack(win, win->event.point, 1); - break; - } - - case NSEventTypeMouseExited: - win->event.type = RGFW_mouseLeave; - RGFW_mouseNotifyCallBack(win, win->event.point, 0); - break; - - case NSEventTypeKeyDown: { - u32 key = (u16) objc_msgSend_uint(e, sel_registerName("keyCode")); - - u32 mappedKey = *((u32*)((char*)(const char*) NSString_to_char(objc_msgSend_id(e, sel_registerName("charactersIgnoringModifiers"))))); - if (((u8)mappedKey) == 239) - mappedKey = 0; - - win->event.keyChar = (u8)mappedKey; - - win->event.key = RGFW_apiKeyToRGFW(key); - RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; - - win->event.type = RGFW_keyPressed; - win->event.repeat = RGFW_isPressed(win, win->event.key); - RGFW_keyboard[win->event.key].current = 1; - - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 1); - break; - } - - case NSEventTypeKeyUp: { - u32 key = (u16) objc_msgSend_uint(e, sel_registerName("keyCode")); - - u32 mappedKey = *((u32*)((char*)(const char*) NSString_to_char(objc_msgSend_id(e, sel_registerName("charactersIgnoringModifiers"))))); - if (((u8)mappedKey) == 239) - mappedKey = 0; - - win->event.keyChar = (u8)mappedKey; - - win->event.key = RGFW_apiKeyToRGFW(key); - - RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; - - win->event.type = RGFW_keyReleased; - - RGFW_keyboard[win->event.key].current = 0; - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 0); - break; - } - - case NSEventTypeFlagsChanged: { - u32 flags = objc_msgSend_uint(e, sel_registerName("modifierFlags")); - RGFW_updateKeyModsPro(win, ((u32)(flags & NSEventModifierFlagCapsLock) % 255), ((flags & NSEventModifierFlagNumericPad) % 255), - ((flags & NSEventModifierFlagControl) % 255), ((flags & NSEventModifierFlagOption) % 255), - ((flags & NSEventModifierFlagShift) % 255), ((flags & NSEventModifierFlagCommand) % 255), 0); - u8 i; - for (i = 0; i < 9; i++) - RGFW_keyboard[i + RGFW_capsLock].prev = 0; - - for (i = 0; i < 5; i++) { - u32 shift = (1 << (i + 16)); - u32 key = i + RGFW_capsLock; - - if ((flags & shift) && !RGFW_wasPressed(win, key)) { - RGFW_keyboard[key].current = 1; - - if (key != RGFW_capsLock) - RGFW_keyboard[key+ 4].current = 1; - - win->event.type = RGFW_keyPressed; - win->event.key = key; - break; - } - - if (!(flags & shift) && RGFW_wasPressed(win, key)) { - RGFW_keyboard[key].current = 0; - - if (key != RGFW_capsLock) - RGFW_keyboard[key + 4].current = 0; - - win->event.type = RGFW_keyReleased; - win->event.key = key; - break; - } - } - - RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, win->event.type == RGFW_keyPressed); - - break; - } - case NSEventTypeLeftMouseDragged: - case NSEventTypeOtherMouseDragged: - case NSEventTypeRightMouseDragged: - case NSEventTypeMouseMoved: { - win->event.type = RGFW_mousePosChanged; - NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(e, sel_registerName("locationInWindow")); - win->event.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); - - p.x = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaX")); - p.y = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaY")); - win->event.vector = RGFW_POINT((i32)p.x, (i32)p.y); - - win->_lastMousePoint = win->event.point; - RGFW_mousePosCallback(win, win->event.point, win->event.vector); - break; - } - case NSEventTypeLeftMouseDown: case NSEventTypeRightMouseDown: case NSEventTypeOtherMouseDown: { - u32 buttonNumber = objc_msgSend_uint(e, sel_registerName("buttonNumber")); - switch (buttonNumber) { - case 0: win->event.button = RGFW_mouseLeft; break; - case 1: win->event.button = RGFW_mouseRight; break; - case 2: win->event.button = RGFW_mouseMiddle; break; - default: win->event.button = buttonNumber; - } - - win->event.type = RGFW_mouseButtonPressed; - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 1; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); - break; - } - case NSEventTypeLeftMouseUp: case NSEventTypeRightMouseUp: case NSEventTypeOtherMouseUp: { - u32 buttonNumber = objc_msgSend_uint(e, sel_registerName("buttonNumber")); - switch (buttonNumber) { - case 0: win->event.button = RGFW_mouseLeft; break; - case 1: win->event.button = RGFW_mouseRight; break; - case 2: win->event.button = RGFW_mouseMiddle; break; - default: win->event.button = buttonNumber; - } - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 0; - win->event.type = RGFW_mouseButtonReleased; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 0); - break; - } - case NSEventTypeScrollWheel: { - double deltaY = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaY")); - - if (deltaY > 0) { - win->event.button = RGFW_mouseScrollUp; - } - else if (deltaY < 0) { - win->event.button = RGFW_mouseScrollDown; - } - - RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; - RGFW_mouseButtons[win->event.button].current = 1; - - win->event.scroll = deltaY; - - win->event.type = RGFW_mouseButtonPressed; - RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); - break; - } - - default: - objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - return RGFW_window_checkEvent(win); - } - - objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); - ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); - - objc_msgSend_bool_void(eventPool, sel_registerName("drain")); - return &win->event; - } - - - void RGFW_window_move(RGFW_window* win, RGFW_point v) { - RGFW_ASSERT(win != NULL); - - win->r.x = v.x; - win->r.y = v.y; - ((void(*)(id, SEL, NSRect, bool, bool))objc_msgSend) - ((id)win->src.window, sel_registerName("setFrame:display:animate:"), (NSRect){{win->r.x, win->r.y}, {win->r.w, win->r.h}}, true, true); - } - - void RGFW_window_resize(RGFW_window* win, RGFW_area a) { - RGFW_ASSERT(win != NULL); - - NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); - NSRect content = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.view, sel_registerName("frame")); - float offset = frame.size.height - content.size.height; - - win->r.w = a.w; - win->r.h = a.h; - - ((void(*)(id, SEL, NSRect, bool, bool))objc_msgSend) - ((id)win->src.window, sel_registerName("setFrame:display:animate:"), (NSRect){{win->r.x, win->r.y}, {win->r.w, win->r.h + offset}}, true, true); -} - -void RGFW_window_focus(RGFW_window* win) { - RGFW_ASSERT(win); - objc_msgSend_void_bool(NSApp, sel_registerName("activateIgnoringOtherApps:"), true); - ((void (*)(id, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyWindow")); -} - -void RGFW_window_raise(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("orderFront:"), (SEL)NULL); - objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGNormalWindowLevelKey); -} - -void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { - RGFW_ASSERT(win != NULL); - if (fullscreen && (win->_flags & RGFW_windowFullscreen)) return; - if (!fullscreen && !(win->_flags & RGFW_windowFullscreen)) return; - - if (fullscreen) { - win->_oldRect = win->r; - RGFW_monitor mon = RGFW_window_getMonitor(win); - win->r = RGFW_RECT(0, 0, mon.x, mon.y); - win->_flags |= RGFW_windowFullscreen; - RGFW_window_resize(win, RGFW_AREA(mon.mode.area.w, mon.mode.area.h)); - RGFW_window_move(win, RGFW_POINT(0, 0)); - } - objc_msgSend_void_SEL(win->src.window, sel_registerName("toggleFullScreen:"), NULL); - - if (!fullscreen) { - win->r = win->_oldRect; - win->_flags &= ~RGFW_windowFullscreen; - - RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h)); - RGFW_window_move(win, RGFW_POINT(win->r.x, win->r.y)); - } -} - -void RGFW_window_maximize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - if (RGFW_window_isMaximized(win)) return; - - win->_flags |= RGFW_windowMaximize; - objc_msgSend_void_SEL(win->src.window, sel_registerName("zoom:"), NULL); -} - -void RGFW_window_minimize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - objc_msgSend_void_SEL(win->src.window, sel_registerName("performMiniaturize:"), NULL); -} - -void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { - RGFW_ASSERT(win != NULL); - if (floating) objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGFloatingWindowLevelKey); - else objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGNormalWindowLevelKey); -} - -void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { - objc_msgSend_int(win->src.window, sel_registerName("setAlphaValue:"), opacity); - objc_msgSend_void_bool(win->src.window, sel_registerName("setOpaque:"), (opacity < (u8)255)); - - if (opacity) - objc_msgSend_void_id((id)win->src.window, sel_registerName("setBackgroundColor:"), NSColor_colorWithSRGB(0, 0, 0, opacity)); - -} - -void RGFW_window_restore(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - if (RGFW_window_isMaximized(win)) - objc_msgSend_void_SEL(win->src.window, sel_registerName("zoom:"), NULL); - - objc_msgSend_void_SEL(win->src.window, sel_registerName("deminiaturize:"), NULL); -} - -RGFW_bool RGFW_window_isFloating(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - int level = ((int (*)(id, SEL))objc_msgSend) ((id)(win->src.window), (SEL)sel_registerName("level")); - return level > kCGNormalWindowLevelKey; -} - -void RGFW_window_setName(RGFW_window* win, const char* name) { - RGFW_ASSERT(win != NULL); - - id str = NSString_stringWithUTF8String(name); - objc_msgSend_void_id((id)win->src.window, sel_registerName("setTitle:"), str); -} - -#ifndef RGFW_NO_PASSTHROUGH -void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { - objc_msgSend_void_bool(win->src.window, sel_registerName("setIgnoresMouseEvents:"), passthrough); -} -#endif - -void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { - if (a.w == 0 && a.h == 0) a = RGFW_AREA(1, 1); - - ((void (*)(id, SEL, NSSize))objc_msgSend) - ((id)win->src.window, sel_registerName("setContentAspectRatio:"), (NSSize){a.w, a.h}); -} - -void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { - ((void (*)(id, SEL, NSSize))objc_msgSend) - ((id)win->src.window, sel_registerName("setMinSize:"), (NSSize){a.w, a.h}); -} - -void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { - if (a.w == 0 && a.h == 0) { - a = RGFW_getScreenSize(); - } - - ((void (*)(id, SEL, NSSize))objc_msgSend) - ((id)win->src.window, sel_registerName("setMaxSize:"), (NSSize){a.w, a.h}); -} - -RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* data, RGFW_area area, i32 channels, u8 type) { - RGFW_ASSERT(win != NULL); - RGFW_UNUSED(type); - - if (data == NULL) { - objc_msgSend_void_id(NSApp, sel_registerName("setApplicationIconImage:"), NULL); - return RGFW_TRUE; - } - - /* code by EimaMei */ - // Make a bitmap representation, then copy the loaded image into it. - id representation = NSBitmapImageRep_initWithBitmapData(NULL, area.w, area.h, 8, channels, (channels == 4), false, "NSCalibratedRGBColorSpace", 1 << 1, area.w * channels, 8 * channels); - RGFW_MEMCPY(NSBitmapImageRep_bitmapData(representation), data, area.w * area.h * channels); - - // Add ze representation. - id dock_image = NSImage_initWithSize((NSSize){area.w, area.h}); - NSImage_addRepresentation(dock_image, representation); - - // Finally, set the dock image to it. - objc_msgSend_void_id(NSApp, sel_registerName("setApplicationIconImage:"), dock_image); - // Free the garbage. - NSRelease(dock_image); - NSRelease(representation); - - return RGFW_TRUE; -} - -id NSCursor_arrowStr(const char* str) { - void* nclass = objc_getClass("NSCursor"); - SEL func = sel_registerName(str); - return (id) objc_msgSend_id(nclass, func); -} - -RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { - if (icon == NULL) { - objc_msgSend_void(NSCursor_arrowStr("arrowCursor"), sel_registerName("set")); - return NULL; - } - - /* NOTE(EimaMei): Code by yours truly. */ - // Make a bitmap representation, then copy the loaded image into it. - id representation = NSBitmapImageRep_initWithBitmapData(NULL, a.w, a.h, 8, channels, (channels == 4), false, "NSCalibratedRGBColorSpace", 1 << 1, a.w * channels, 8 * channels); - RGFW_MEMCPY(NSBitmapImageRep_bitmapData(representation), icon, a.w * a.h * channels); - - // Add ze representation. - id cursor_image = NSImage_initWithSize((NSSize){a.w, a.h}); - NSImage_addRepresentation(cursor_image, representation); - - // Finally, set the cursor image. - id cursor = NSCursor_initWithImage(cursor_image, (NSPoint){0.0, 0.0}); - - // Free the garbage. - NSRelease(cursor_image); - NSRelease(representation); - - return (void*)cursor; -} - -void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { - RGFW_ASSERT(win != NULL); RGFW_ASSERT(mouse); - objc_msgSend_void((id)mouse, sel_registerName("set")); -} - -void RGFW_freeMouse(RGFW_mouse* mouse) { - RGFW_ASSERT(mouse); - NSRelease((id)mouse); -} - -RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { - return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); -} - -void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { - RGFW_window_showMouseFlags(win, show); - if (show) CGDisplayShowCursor(kCGDirectMainDisplay); - else CGDisplayHideCursor(kCGDirectMainDisplay); -} - -RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 stdMouses) { - static const char* mouseIconSrc[] = {"arrowCursor", "arrowCursor", "IBeamCursor", "crosshairCursor", "pointingHandCursor", "resizeLeftRightCursor", "resizeUpDownCursor", "_windowResizeNorthWestSouthEastCursor", "_windowResizeNorthEastSouthWestCursor", "closedHandCursor", "operationNotAllowedCursor"}; - if (stdMouses > ((sizeof(mouseIconSrc)) / (sizeof(char*)))) - return RGFW_FALSE; - - const char* mouseStr = mouseIconSrc[stdMouses]; - id mouse = NSCursor_arrowStr(mouseStr); - - if (mouse == NULL) - return RGFW_FALSE; - - RGFW_UNUSED(win); - CGDisplayShowCursor(kCGDirectMainDisplay); - objc_msgSend_void(mouse, sel_registerName("set")); - - return RGFW_TRUE; -} - -void RGFW_releaseCursor(RGFW_window* win) { - RGFW_UNUSED(win); - CGAssociateMouseAndMouseCursorPosition(1); -} - -void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { - RGFW_UNUSED(win); - - CGWarpMouseCursorPosition(CGPointMake(r.x + (r.w / 2), r.y + (r.h / 2))); - CGAssociateMouseAndMouseCursorPosition(0); -} - -void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v) { - RGFW_UNUSED(win); - - win->_lastMousePoint = RGFW_POINT(v.x - win->r.x, v.y - win->r.y); - CGWarpMouseCursorPosition(CGPointMake(v.x, v.y)); -} - - -void RGFW_window_hide(RGFW_window* win) { - objc_msgSend_void_bool(win->src.window, sel_registerName("setIsVisible:"), false); -} - -void RGFW_window_show(RGFW_window* win) { - ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyAndOrderFront:"), NULL); - objc_msgSend_void_bool(win->src.window, sel_registerName("setIsVisible:"), true); -} - -RGFW_bool RGFW_window_isHidden(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - bool visible = objc_msgSend_bool(win->src.window, sel_registerName("isVisible")); - return visible == NO && !RGFW_window_isMinimized(win); -} - -RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - return objc_msgSend_bool(win->src.window, sel_registerName("isMiniaturized")) == YES; -} - -RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - RGFW_bool b = objc_msgSend_bool(win->src.window, sel_registerName("isZoomed")); - return b; -} - -id RGFW_getNSScreenForDisplayID(CGDirectDisplayID display) { - Class NSScreenClass = objc_getClass("NSScreen"); - - id screens = objc_msgSend_id(NSScreenClass, sel_registerName("screens")); - - NSUInteger count = (NSUInteger)objc_msgSend_uint(screens, sel_registerName("count")); - - for (NSUInteger i = 0; i < count; i++) { - id screen = ((id (*)(id, SEL, int))objc_msgSend) (screens, sel_registerName("objectAtIndex:"), (int)i); - id description = objc_msgSend_id(screen, sel_registerName("deviceDescription")); - id screenNumberKey = NSString_stringWithUTF8String("NSScreenNumber"); - id screenNumber = objc_msgSend_id_id(description, sel_registerName("objectForKey:"), screenNumberKey); - - if ((CGDirectDisplayID)objc_msgSend_uint(screenNumber, sel_registerName("unsignedIntValue")) == display) { - return screen; - } - } - - return NULL; -} - - -u32 RGFW_osx_getRefreshRate(CGDirectDisplayID display, CGDisplayModeRef mode) { - if (mode) { - u32 refreshRate = (int)CGDisplayModeGetRefreshRate(mode); - if (refreshRate != 0) return refreshRate; - } - - CVDisplayLinkRef link; - CVDisplayLinkCreateWithCGDisplay(display, &link); - const CVTime time = CVDisplayLinkGetNominalOutputVideoRefreshPeriod(link); - if (!(time.flags & kCVTimeIsIndefinite)) - return (int) (time.timeScale / (double) time.timeValue); - - return 0; -} - -RGFW_monitor RGFW_NSCreateMonitor(CGDirectDisplayID display, id screen) { - RGFW_monitor monitor; - - const char name[] = "MacOS\0"; - RGFW_MEMCPY(monitor.name, name, 6); - - CGRect bounds = CGDisplayBounds(display); - monitor.x = bounds.origin.x; - monitor.y = bounds.origin.y; - monitor.mode.area = RGFW_AREA((int) bounds.size.width, (int) bounds.size.height); - - monitor.mode.red = 8; monitor.mode.green = 8; monitor.mode.blue = 8; - - CGDisplayModeRef mode = CGDisplayCopyDisplayMode(display); - monitor.mode.refreshRate = RGFW_osx_getRefreshRate(display, mode); - CFRelease(mode); - - CGSize screenSizeMM = CGDisplayScreenSize(display); - monitor.physW = (float)screenSizeMM.width / 25.4f; - monitor.physH = (float)screenSizeMM.height / 25.4f; - - float ppi_width = (monitor.mode.area.w/monitor.physW); - float ppi_height = (monitor.mode.area.h/monitor.physH); - - monitor.pixelRatio = ((CGFloat (*)(id, SEL))abi_objc_msgSend_fpret) (screen, sel_registerName("backingScaleFactor")); - float dpi = 96.0f * monitor.pixelRatio; - - monitor.scaleX = ((i32)(((float) (ppi_width) / dpi) * 10.0f)) / 10.0f; - monitor.scaleY = ((i32)(((float) (ppi_height) / dpi) * 10.0f)) / 10.0f; - - #ifdef RGFW_DEBUG - printf("RGFW INFO: monitor found: scale (%s):\n rect: {%i, %i, %i, %i}\n physical size:%f %f\n scale: %f %f\n pixelRatio: %f\n refreshRate: %i\n depth: %i\n", monitor.name, monitor.x, monitor.y, monitor.mode.area.w, monitor.mode.area.h, monitor.physW, monitor.physH, monitor.scaleX, monitor.scaleY, monitor.pixelRatio, monitor.mode.refreshRate, monitor.mode.red + monitor.mode.green + monitor.mode.blue); - #endif - - return monitor; -} - - -RGFW_monitor* RGFW_getMonitors(void) { - static CGDirectDisplayID displays[7]; - u32 count; - - if (CGGetActiveDisplayList(6, displays, &count) != kCGErrorSuccess) - return NULL; - - static RGFW_monitor monitors[7]; - - for (u32 i = 0; i < count; i++) - monitors[i] = RGFW_NSCreateMonitor(displays[i], RGFW_getNSScreenForDisplayID(displays[i])); - - return monitors; -} - -RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { - CGPoint point = { mon.x, mon.y }; - - CGDirectDisplayID display; - uint32_t displayCount = 0; - CGError err = CGGetDisplaysWithPoint(point, 1, &display, &displayCount); - if (err != kCGErrorSuccess || displayCount != 1) - return RGFW_FALSE; - - CFArrayRef allModes = CGDisplayCopyAllDisplayModes(display, NULL); - - if (allModes == NULL) - return RGFW_FALSE; - - for (CFIndex i = 0; i < CFArrayGetCount(allModes); i++) { - CGDisplayModeRef cmode = (CGDisplayModeRef)CFArrayGetValueAtIndex(allModes, i); - - RGFW_monitorMode foundMode; - foundMode.area = RGFW_AREA(CGDisplayModeGetWidth(cmode), CGDisplayModeGetHeight(cmode)); - foundMode.refreshRate = RGFW_osx_getRefreshRate(display, cmode); - foundMode.red = 8; foundMode.green = 8; foundMode.blue = 8; - - if (RGFW_monitorModeCompare(mode, foundMode, request)) { - CGError err = CGDisplaySetDisplayMode(display, cmode, NULL); - if (err == kCGErrorSuccess) { - CFRelease(allModes); - return RGFW_TRUE; - } - break; - } - } - - CFRelease(allModes); - - return RGFW_FALSE; -} - -RGFW_monitor RGFW_getPrimaryMonitor(void) { - CGDirectDisplayID primary = CGMainDisplayID(); - return RGFW_NSCreateMonitor(primary, RGFW_getNSScreenForDisplayID(primary)); -} - -RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { - id screen = objc_msgSend_id(win->src.window, sel_registerName("screen")); - id description = objc_msgSend_id(screen, sel_registerName("deviceDescription")); - id screenNumberKey = NSString_stringWithUTF8String("NSScreenNumber"); - id screenNumber = objc_msgSend_id_id(description, sel_registerName("objectForKey:"), screenNumberKey); - - CGDirectDisplayID display = (CGDirectDisplayID)objc_msgSend_uint(screenNumber, sel_registerName("unsignedIntValue")); - - return RGFW_NSCreateMonitor(display, screen); -} - -RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { - size_t clip_len; - char* clip = (char*)NSPasteboard_stringForType(NSPasteboard_generalPasteboard(), NSPasteboardTypeString, &clip_len); - if (clip == NULL) return -1; - - if (str != NULL) { - if (strCapacity < clip_len) - return 0; - - RGFW_MEMCPY(str, clip, clip_len); - - str[clip_len] = '\0'; - } - - return (RGFW_ssize_t)clip_len; -} - -void RGFW_writeClipboard(const char* text, u32 textLen) { - RGFW_UNUSED(textLen); - - NSPasteboardType array[] = { NSPasteboardTypeString, NULL }; - NSPasteBoard_declareTypes(NSPasteboard_generalPasteboard(), array, 1, NULL); - - NSPasteBoard_setString(NSPasteboard_generalPasteboard(), text, NSPasteboardTypeString); -} - - #ifdef RGFW_OPENGL - void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - objc_msgSend_void(win->src.ctx, sel_registerName("makeCurrentContext")); - } - void* RGFW_getCurrent_OpenGL(void) { - return objc_msgSend_id(objc_getClass("NSOpenGLContext"), sel_registerName("currentContext")); - } - #endif - - #if !defined(RGFW_EGL) - - void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { - RGFW_ASSERT(win != NULL); - #if defined(RGFW_OPENGL) - - NSOpenGLContext_setValues((id)win->src.ctx, &swapInterval, 222); - #else - RGFW_UNUSED(swapInterval); - #endif - } - - #endif - -// Function to create a CGImageRef from an array of bytes -CGImageRef createImageFromBytes(unsigned char *buffer, int width, int height) -{ - // Define color space - CGColorSpaceRef colorSpace = CGColorSpaceCreateDeviceRGB(); - // Create bitmap context - CGContextRef context = CGBitmapContextCreate( - buffer, - width, height, - 8, - width * 4, - colorSpace, - kCGImageAlphaPremultipliedLast); - // Create image from bitmap context - CGImageRef image = CGBitmapContextCreateImage(context); - // Release the color space and context - CGColorSpaceRelease(colorSpace); - CGContextRelease(context); - - return image; -} - -void RGFW_window_swapBuffers(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - /* clear the window*/ - - if (!(win->_flags & RGFW_NO_CPU_RENDER)) { -#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - id view = NSWindow_contentView((id)win->src.window); - id layer = objc_msgSend_id(view, sel_registerName("layer")); - - ((void(*)(id, SEL, NSRect))objc_msgSend)(layer, - sel_registerName("setFrame:"), - (NSRect){{0, 0}, {win->r.w, win->r.h}}); - - CGImageRef image = createImageFromBytes(win->buffer, win->r.w, win->r.h); - // Get the current graphics context - id graphicsContext = objc_msgSend_class(objc_getClass("NSGraphicsContext"), sel_registerName("currentContext")); - // Get the CGContext from the current NSGraphicsContext - id cgContext = objc_msgSend_id(graphicsContext, sel_registerName("graphicsPort")); - // Draw the image in the context - NSRect bounds = (NSRect){{0,0}, {win->r.w, win->r.h}}; - CGContextDrawImage((void*)cgContext, *(CGRect*)&bounds, image); - // Flush the graphics context to ensure the drawing is displayed - objc_msgSend_id(graphicsContext, sel_registerName("flushGraphics")); - - objc_msgSend_void_id(layer, sel_registerName("setContents:"), (id)image); - objc_msgSend_id(layer, sel_registerName("setNeedsDisplay")); - - CGImageRelease(image); -#endif - } - - if (!(win->_flags & RGFW_NO_GPU_RENDER)) { - #ifdef RGFW_EGL - eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); - #elif defined(RGFW_OPENGL) - objc_msgSend_void(win->src.ctx, sel_registerName("flushBuffer")); - #endif - } -} - -void RGFW_window_close(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - NSRelease(win->src.view); - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - NSRelease(win->src.bitmap); - NSRelease(win->src.image); - if ((win->_flags & RGFW_BUFFER_ALLOC)) - RGFW_FREE(win->buffer); - #endif - - RGFW_clipboard_switch(NULL); - - if ((win->_flags & RGFW_WINDOW_ALLOC)) - RGFW_FREE(win); -} - -u64 RGFW_getTimeNS(void) { - static mach_timebase_info_data_t timebase_info; - if (timebase_info.denom == 0) { - mach_timebase_info(&timebase_info); - } - return mach_absolute_time() * timebase_info.numer / timebase_info.denom; -} - -u64 RGFW_osx_initTimer(void) { - static u64 freq = 0; - if (freq == 0) { - mach_timebase_info_data_t info; - mach_timebase_info(&info); - freq = (info.denom * 1e9) / info.numer; - } - - return freq; -} - -u64 RGFW_getTime(void) { return (double)RGFW_getTimerValue() * RGFW_getTimerFreq(); } -u64 RGFW_getTimerFreq(void) { return (u64)RGFW_osx_initTimer(); } -u64 RGFW_getTimerValue(void) { return (u64)mach_absolute_time(); } - -#endif /* RGFW_MACOS */ - -/* - End of MaOS defines -*/ - -/* - WASM defines -*/ - -#ifdef RGFW_WASM -RGFW_event RGFW_events[20]; -size_t RGFW_eventLen = 0; - -EM_BOOL Emscripten_on_resize(int eventType, const EmscriptenUiEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_windowResized; - RGFW_eventLen++; - - RGFW_windowResizeCallback(RGFW_root, RGFW_RECT(0, 0, e->windowInnerWidth, e->windowInnerHeight)); - return EM_TRUE; -} - -EM_BOOL Emscripten_on_fullscreenchange(int eventType, const EmscriptenFullscreenChangeEvent* e, void* userData) { - static u8 fullscreen = RGFW_FALSE; - static RGFW_rect ogRect; - - if (fullscreen == RGFW_FALSE) { - ogRect = RGFW_root->r; - } - - fullscreen = !fullscreen; - - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_windowResized; - RGFW_eventLen++; - - RGFW_root->r = RGFW_RECT(0, 0, e->screenWidth, e->screenHeight); - - EM_ASM("Module.canvas.focus();"); - - if (fullscreen == RGFW_FALSE) { - RGFW_root->r = RGFW_RECT(0, 0, ogRect.w, ogRect.h); - // emscripten_request_fullscreen("#canvas", 0); - } else { - #if __EMSCRIPTEN_major__ >= 1 && __EMSCRIPTEN_minor__ >= 29 && __EMSCRIPTEN_tiny__ >= 0 - EmscriptenFullscreenStrategy FSStrat = {0}; - FSStrat.scaleMode = EMSCRIPTEN_FULLSCREEN_SCALE_STRETCH;//EMSCRIPTEN_FULLSCREEN_SCALE_ASPECT;// : EMSCRIPTEN_FULLSCREEN_SCALE_STRETCH; - FSStrat.canvasResolutionScaleMode = EMSCRIPTEN_FULLSCREEN_CANVAS_SCALE_HIDEF; - FSStrat.filteringMode = EMSCRIPTEN_FULLSCREEN_FILTERING_DEFAULT; - emscripten_request_fullscreen_strategy("#canvas", 1, &FSStrat); - #else - emscripten_request_fullscreen("#canvas", 1); - #endif - } - - emscripten_set_canvas_element_size("#canvas", RGFW_root->r.w, RGFW_root->r.h); - - RGFW_windowResizeCallback(RGFW_root, RGFW_root->r); - return EM_TRUE; -} - - - -EM_BOOL Emscripten_on_focusin(int eventType, const EmscriptenFocusEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); RGFW_UNUSED(e); - - RGFW_events[RGFW_eventLen].type = RGFW_focusIn; - RGFW_eventLen++; - - RGFW_root->event.inFocus = 1; - RGFW_focusCallback(RGFW_root, 1); - return EM_TRUE; -} - -EM_BOOL Emscripten_on_focusout(int eventType, const EmscriptenFocusEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); RGFW_UNUSED(e); - - RGFW_events[RGFW_eventLen].type = RGFW_focusOut; - RGFW_eventLen++; - - RGFW_root->event.inFocus = 0; - RGFW_focusCallback(RGFW_root, 0); - return EM_TRUE; -} - -EM_BOOL Emscripten_on_mousemove(int eventType, const EmscriptenMouseEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_mousePosChanged; - - RGFW_point p = RGFW_POINT(e->movementX, e->movementY); - RGFW_events[RGFW_eventLen].vector = p; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->targetX, e->targetY); - RGFW_eventLen++; - - RGFW_root->_lastMousePoint = RGFW_events[RGFW_eventLen].point; - RGFW_mousePosCallback(RGFW_root, RGFW_events[RGFW_eventLen].point, RGFW_events[RGFW_eventLen].vector); - return EM_TRUE; -} - -EM_BOOL Emscripten_on_mousedown(int eventType, const EmscriptenMouseEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_mouseButtonPressed; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->targetX, e->targetY); - RGFW_events[RGFW_eventLen].button = e->button; - RGFW_events[RGFW_eventLen].scroll = 0; - if (RGFW_events[RGFW_eventLen].button > 2) - RGFW_events[RGFW_eventLen].button += 2; - - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].prev = RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current; - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current = 1; - - RGFW_mouseButtonCallback(RGFW_root, RGFW_events[RGFW_eventLen].button, RGFW_events[RGFW_eventLen].scroll, 1); - RGFW_eventLen++; - - return EM_TRUE; -} - -EM_BOOL Emscripten_on_mouseup(int eventType, const EmscriptenMouseEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_mouseButtonReleased; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->targetX, e->targetY); - RGFW_events[RGFW_eventLen].button = e->button; - RGFW_events[RGFW_eventLen].scroll = 0; - if (RGFW_events[RGFW_eventLen].button > 2) - RGFW_events[RGFW_eventLen].button += 2; - - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].prev = RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current; - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current = 0; - - RGFW_mouseButtonCallback(RGFW_root, RGFW_events[RGFW_eventLen].button, RGFW_events[RGFW_eventLen].scroll, 0); - RGFW_eventLen++; - return EM_TRUE; -} - -EM_BOOL Emscripten_on_wheel(int eventType, const EmscriptenWheelEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - RGFW_events[RGFW_eventLen].type = RGFW_mouseButtonPressed; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->mouse.targetX, e->mouse.targetY); - RGFW_events[RGFW_eventLen].button = RGFW_mouseScrollUp + (e->deltaY < 0); - RGFW_events[RGFW_eventLen].scroll = e->deltaY < 0 ? 1 : -1; - - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].prev = RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current; - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current = 1; - - RGFW_mouseButtonCallback(RGFW_root, RGFW_events[RGFW_eventLen].button, RGFW_events[RGFW_eventLen].scroll, 1); - RGFW_eventLen++; - - return EM_TRUE; -} - -EM_BOOL Emscripten_on_touchstart(int eventType, const EmscriptenTouchEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - size_t i; - for (i = 0; i < (size_t)e->numTouches; i++) { - RGFW_events[RGFW_eventLen].type = RGFW_mouseButtonPressed; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->touches[i].targetX, e->touches[i].targetY); - RGFW_events[RGFW_eventLen].button = 1; - RGFW_events[RGFW_eventLen].scroll = 0; - - - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].prev = RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current; - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current = 1; - - RGFW_root->_lastMousePoint = RGFW_events[RGFW_eventLen].point; - RGFW_mousePosCallback(RGFW_root, RGFW_events[RGFW_eventLen].point, RGFW_events[RGFW_eventLen].vector); - - RGFW_mouseButtonCallback(RGFW_root, RGFW_events[RGFW_eventLen].button, RGFW_events[RGFW_eventLen].scroll, 1); - RGFW_eventLen++; - } - - return EM_TRUE; -} -EM_BOOL Emscripten_on_touchmove(int eventType, const EmscriptenTouchEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - size_t i; - for (i = 0; i < (size_t)e->numTouches; i++) { - RGFW_events[RGFW_eventLen].type = RGFW_mousePosChanged; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->touches[i].targetX, e->touches[i].targetY); - - RGFW_root->_lastMousePoint = RGFW_events[RGFW_eventLen].point; - RGFW_mousePosCallback(RGFW_root, RGFW_events[RGFW_eventLen].point, RGFW_events[RGFW_eventLen].vector); - RGFW_eventLen++; - } - return EM_TRUE; -} - -EM_BOOL Emscripten_on_touchend(int eventType, const EmscriptenTouchEvent* e, void* userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - size_t i; - for (i = 0; i < (size_t)e->numTouches; i++) { - RGFW_events[RGFW_eventLen].type = RGFW_mouseButtonReleased; - RGFW_events[RGFW_eventLen].point = RGFW_POINT(e->touches[i].targetX, e->touches[i].targetY); - RGFW_events[RGFW_eventLen].button = 1; - RGFW_events[RGFW_eventLen].scroll = 0; - - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].prev = RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current; - RGFW_mouseButtons[RGFW_events[RGFW_eventLen].button].current = 0; - - RGFW_mouseButtonCallback(RGFW_root, RGFW_events[RGFW_eventLen].button, RGFW_events[RGFW_eventLen].scroll, 0); - RGFW_eventLen++; - } - return EM_TRUE; -} - -EM_BOOL Emscripten_on_touchcancel(int eventType, const EmscriptenTouchEvent* e, void* userData) { RGFW_UNUSED(eventType); RGFW_UNUSED(userData); RGFW_UNUSED(e); return EM_TRUE; } - -EM_BOOL Emscripten_on_gamepad(int eventType, const EmscriptenGamepadEvent *gamepadEvent, void *userData) { - RGFW_UNUSED(eventType); RGFW_UNUSED(userData); - - if (gamepadEvent->index >= 4) - return 0; - - size_t i = gamepadEvent->index; - if (gamepadEvent->connected) { - RGFW_MEMCPY(RGFW_gamepads_name[gamepadEvent->index], gamepadEvent->id, sizeof(RGFW_gamepads_name[gamepadEvent->index])); - RGFW_gamepads_type[i] = RGFW_gamepadUnknown; - if (strstr(RGFW_gamepads_name[i], "Microsoft") || strstr(RGFW_gamepads_name[i], "X-Box")) - RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; - else if (strstr(RGFW_gamepads_name[i], "PlayStation") || strstr(RGFW_gamepads_name[i], "PS3") || strstr(RGFW_gamepads_name[i], "PS4") || strstr(RGFW_gamepads_name[i], "PS5")) - RGFW_gamepads_type[i] = RGFW_gamepadSony; - else if (strstr(RGFW_gamepads_name[i], "Nintendo")) - RGFW_gamepads_type[i] = RGFW_gamepadNintendo; - else if (strstr(RGFW_gamepads_name[i], "Logitech")) - RGFW_gamepads_type[i] = RGFW_gamepadLogitech; - - RGFW_gamepadCount++; - RGFW_events[RGFW_eventLen].type = RGFW_gamepadConnected; - } else { - RGFW_gamepadCount--; - RGFW_events[RGFW_eventLen].type = RGFW_gamepadDisconnected; - } - - RGFW_events[RGFW_eventLen].gamepad = gamepadEvent->index; - RGFW_eventLen++; - - RGFW_gamepadCallback(RGFW_root, gamepadEvent->index, gamepadEvent->connected); - - RGFW_gamepads[gamepadEvent->index] = gamepadEvent->connected; - - return 1; // The event was consumed by the callback handler -} - -u32 RGFW_wASMPhysicalToRGFW(u32 hash) { - switch(hash) { /* 0x0000 */ - case 0x67243A2DU /* Escape */: return RGFW_escape; /* 0x0001 */ - case 0x67251058U /* Digit0 */: return RGFW_0; /* 0x0002 */ - case 0x67251059U /* Digit1 */: return RGFW_1; /* 0x0003 */ - case 0x6725105AU /* Digit2 */: return RGFW_2; /* 0x0004 */ - case 0x6725105BU /* Digit3 */: return RGFW_3; /* 0x0005 */ - case 0x6725105CU /* Digit4 */: return RGFW_4; /* 0x0006 */ - case 0x6725105DU /* Digit5 */: return RGFW_5; /* 0x0007 */ - case 0x6725105EU /* Digit6 */: return RGFW_6; /* 0x0008 */ - case 0x6725105FU /* Digit7 */: return RGFW_7; /* 0x0009 */ - case 0x67251050U /* Digit8 */: return RGFW_8; /* 0x000A */ - case 0x67251051U /* Digit9 */: return RGFW_9; /* 0x000B */ - case 0x92E14DD3U /* Minus */: return RGFW_minus; /* 0x000C */ - case 0x92E1FBACU /* Equal */: return RGFW_equals; /* 0x000D */ - case 0x36BF1CB5U /* Backspace */: return RGFW_backSpace; /* 0x000E */ - case 0x7B8E51E2U /* Tab */: return RGFW_tab; /* 0x000F */ - case 0x2C595B51U /* KeyQ */: return RGFW_q; /* 0x0010 */ - case 0x2C595B57U /* KeyW */: return RGFW_w; /* 0x0011 */ - case 0x2C595B45U /* KeyE */: return RGFW_e; /* 0x0012 */ - case 0x2C595B52U /* KeyR */: return RGFW_r; /* 0x0013 */ - case 0x2C595B54U /* KeyT */: return RGFW_t; /* 0x0014 */ - case 0x2C595B59U /* KeyY */: return RGFW_y; /* 0x0015 */ - case 0x2C595B55U /* KeyU */: return RGFW_u; /* 0x0016 */ - case 0x2C595B4FU /* KeyO */: return RGFW_o; /* 0x0018 */ - case 0x2C595B50U /* KeyP */: return RGFW_p; /* 0x0019 */ - case 0x45D8158CU /* BracketLeft */: return RGFW_closeBracket; /* 0x001A */ - case 0xDEEABF7CU /* BracketRight */: return RGFW_bracket; /* 0x001B */ - case 0x92E1C5D2U /* Enter */: return RGFW_return; /* 0x001C */ - case 0xE058958CU /* ControlLeft */: return RGFW_controlL; /* 0x001D */ - case 0x2C595B41U /* KeyA */: return RGFW_a; /* 0x001E */ - case 0x2C595B53U /* KeyS */: return RGFW_s; /* 0x001F */ - case 0x2C595B44U /* KeyD */: return RGFW_d; /* 0x0020 */ - case 0x2C595B46U /* KeyF */: return RGFW_f; /* 0x0021 */ - case 0x2C595B47U /* KeyG */: return RGFW_g; /* 0x0022 */ - case 0x2C595B48U /* KeyH */: return RGFW_h; /* 0x0023 */ - case 0x2C595B4AU /* KeyJ */: return RGFW_j; /* 0x0024 */ - case 0x2C595B4BU /* KeyK */: return RGFW_k; /* 0x0025 */ - case 0x2C595B4CU /* KeyL */: return RGFW_l; /* 0x0026 */ - case 0x2707219EU /* Semicolon */: return RGFW_semicolon; /* 0x0027 */ - case 0x92E0B58DU /* Quote */: return RGFW_apostrophe; /* 0x0028 */ - case 0x36BF358DU /* Backquote */: return RGFW_backtick; /* 0x0029 */ - case 0x26B1958CU /* ShiftLeft */: return RGFW_shiftL; /* 0x002A */ - case 0x36BF2438U /* Backslash */: return RGFW_backSlash; /* 0x002B */ - case 0x2C595B5AU /* KeyZ */: return RGFW_z; /* 0x002C */ - case 0x2C595B58U /* KeyX */: return RGFW_x; /* 0x002D */ - case 0x2C595B43U /* KeyC */: return RGFW_c; /* 0x002E */ - case 0x2C595B56U /* KeyV */: return RGFW_v; /* 0x002F */ - case 0x2C595B42U /* KeyB */: return RGFW_b; /* 0x0030 */ - case 0x2C595B4EU /* KeyN */: return RGFW_n; /* 0x0031 */ - case 0x2C595B4DU /* KeyM */: return RGFW_m; /* 0x0032 */ - case 0x92E1A1C1U /* Comma */: return RGFW_comma; /* 0x0033 */ - case 0x672FFAD4U /* Period */: return RGFW_period; /* 0x0034 */ - case 0x92E0A438U /* Slash */: return RGFW_slash; /* 0x0035 */ - case 0xC5A6BF7CU /* ShiftRight */: return RGFW_shiftR; - case 0x5D64DA91U /* NumpadMultiply */: return RGFW_multiply; - case 0xC914958CU /* AltLeft */: return RGFW_altL; /* 0x0038 */ - case 0x92E09CB5U /* Space */: return RGFW_space; /* 0x0039 */ - case 0xB8FAE73BU /* CapsLock */: return RGFW_capsLock; /* 0x003A */ - case 0x7174B789U /* F1 */: return RGFW_F1; /* 0x003B */ - case 0x7174B78AU /* F2 */: return RGFW_F2; /* 0x003C */ - case 0x7174B78BU /* F3 */: return RGFW_F3; /* 0x003D */ - case 0x7174B78CU /* F4 */: return RGFW_F4; /* 0x003E */ - case 0x7174B78DU /* F5 */: return RGFW_F5; /* 0x003F */ - case 0x7174B78EU /* F6 */: return RGFW_F6; /* 0x0040 */ - case 0x7174B78FU /* F7 */: return RGFW_F7; /* 0x0041 */ - case 0x7174B780U /* F8 */: return RGFW_F8; /* 0x0042 */ - case 0x7174B781U /* F9 */: return RGFW_F9; /* 0x0043 */ - case 0x7B8E57B0U /* F10 */: return RGFW_F10; /* 0x0044 */ - case 0xC925FCDFU /* Numpad7 */: return RGFW_multiply; /* 0x0047 */ - case 0xC925FCD0U /* Numpad8 */: return RGFW_KP_8; /* 0x0048 */ - case 0xC925FCD1U /* Numpad9 */: return RGFW_KP_9; /* 0x0049 */ - case 0x5EA3E8A4U /* NumpadSubtract */: return RGFW_minus; /* 0x004A */ - case 0xC925FCDCU /* Numpad4 */: return RGFW_KP_4; /* 0x004B */ - case 0xC925FCDDU /* Numpad5 */: return RGFW_KP_5; /* 0x004C */ - case 0xC925FCDEU /* Numpad6 */: return RGFW_KP_6; /* 0x004D */ - case 0xC925FCD9U /* Numpad1 */: return RGFW_KP_1; /* 0x004F */ - case 0xC925FCDAU /* Numpad2 */: return RGFW_KP_2; /* 0x0050 */ - case 0xC925FCDBU /* Numpad3 */: return RGFW_KP_3; /* 0x0051 */ - case 0xC925FCD8U /* Numpad0 */: return RGFW_KP_0; /* 0x0052 */ - case 0x95852DACU /* NumpadDecimal */: return RGFW_period; /* 0x0053 */ - case 0x7B8E57B1U /* F11 */: return RGFW_F11; /* 0x0057 */ - case 0x7B8E57B2U /* F12 */: return RGFW_F12; /* 0x0058 */ - case 0x7393FBACU /* NumpadEqual */: return RGFW_KP_Return; - case 0xB88EBF7CU /* AltRight */: return RGFW_altR; /* 0xE038 */ - case 0xC925873BU /* NumLock */: return RGFW_numLock; /* 0xE045 */ - case 0x2C595F45U /* Home */: return RGFW_home; /* 0xE047 */ - case 0xC91BB690U /* ArrowUp */: return RGFW_up; /* 0xE048 */ - case 0x672F9210U /* PageUp */: return RGFW_pageUp; /* 0xE049 */ - case 0x3799258CU /* ArrowLeft */: return RGFW_left; /* 0xE04B */ - case 0x4CE33F7CU /* ArrowRight */: return RGFW_right; /* 0xE04D */ - case 0x7B8E55DCU /* End */: return RGFW_end; /* 0xE04F */ - case 0x3799379EU /* ArrowDown */: return RGFW_down; /* 0xE050 */ - case 0xBA90179EU /* PageDown */: return RGFW_pageDown; /* 0xE051 */ - case 0x6723CB2CU /* Insert */: return RGFW_insert; /* 0xE052 */ - case 0x6725C50DU /* Delete */: return RGFW_delete; /* 0xE053 */ - case 0x6723658CU /* OSLeft */: return RGFW_superL; /* 0xE05B */ - case 0x39643F7CU /* MetaRight */: return RGFW_superR; /* 0xE05C */ - } - - return 0; -} - -void EMSCRIPTEN_KEEPALIVE RGFW_handleKeyEvent(char* key, char* code, RGFW_bool press) { - const char* iCode = code; - - u32 hash = 0; - while(*iCode) hash = ((hash ^ 0x7E057D79U) << 3) ^ (unsigned int)*iCode++; - - u32 physicalKey = RGFW_wASMPhysicalToRGFW(hash); - - u8 mappedKey = (u8)(*((u32*)key)); - - if (*((u16*)key) != mappedKey) { - mappedKey = 0; - if (*((u32*)key) == *((u32*)"Tab")) mappedKey = RGFW_tab; - } - - RGFW_events[RGFW_eventLen].type = press ? RGFW_keyPressed : RGFW_keyReleased; - RGFW_events[RGFW_eventLen].key = physicalKey; - RGFW_events[RGFW_eventLen].keyChar = mappedKey; - RGFW_events[RGFW_eventLen].keyMod = RGFW_root->event.keyMod; - RGFW_eventLen++; - - RGFW_keyboard[physicalKey].prev = RGFW_keyboard[physicalKey].current; - RGFW_keyboard[physicalKey].current = press; - - RGFW_keyCallback(RGFW_root, physicalKey, mappedKey, RGFW_root->event.keyMod, press); -} - -void EMSCRIPTEN_KEEPALIVE RGFW_handleKeyMods(RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll) { - RGFW_updateKeyModsPro(RGFW_root, capital, numlock, control, alt, shift, super, scroll); -} - -void EMSCRIPTEN_KEEPALIVE Emscripten_onDrop(size_t count) { - if (!(RGFW_root->_flags & RGFW_windowAllowDND)) - return; - - RGFW_events[RGFW_eventLen].droppedFilesCount = count; - RGFW_dndCallback(RGFW_root, RGFW_events[RGFW_eventLen].droppedFiles, count); - RGFW_eventLen++; -} - -RGFW_bool RGFW_stopCheckEvents_bool = RGFW_FALSE; -void RGFW_stopCheckEvents(void) { - RGFW_stopCheckEvents_bool = RGFW_TRUE; -} - -void RGFW_window_eventWait(RGFW_window* win, u32 waitMS) { - RGFW_UNUSED(win); - if (waitMS == 0) return; - - u32 start = (u32)(((u64)RGFW_getTimeNS()) / 1e+6); - - while ((RGFW_eventLen == 0) && RGFW_stopCheckEvents_bool == RGFW_FALSE && - (waitMS != RGFW_eventWaitNext || (RGFW_getTimeNS() / 1e+6) - start < waitMS) - ) { - emscripten_sleep(0); - } - - RGFW_stopCheckEvents_bool = RGFW_FALSE; -} - -void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area){ - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - win->buffer = buffer; - win->bufferSize = area; - #ifdef RGFW_OSMESA - win->src.ctx = OSMesaCreateContext(OSMESA_RGBA, NULL); - OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, win->r.w, win->r.h); - #endif - #else - RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ - #endif -} - -void EMSCRIPTEN_KEEPALIVE RGFW_makeSetValue(size_t index, char* file) { - /* This seems like a terrible idea, don't replicate this unless you hate yourself or the OS */ - /* TODO: find a better way to do this - */ - - RGFW_events[RGFW_eventLen].type = RGFW_DND; - RGFW_MEMCPY((char*)RGFW_events[RGFW_eventLen].droppedFiles[index], file, RGFW_MAX_PATH); -} - -#include -#include -#include -#include - -void EMSCRIPTEN_KEEPALIVE RGFW_mkdir(char* name) { mkdir(name, 0755); } - -void EMSCRIPTEN_KEEPALIVE RGFW_writeFile(const char *path, const char *data, size_t len) { - FILE* file = fopen(path, "w+"); - if (file == NULL) - return; - - fwrite(data, sizeof(char), len, file); - fclose(file); -} - -RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { - RGFW_UNUSED(name); - - RGFW_window_basic_init(win, rect, flags); - - #ifndef RGFW_WEBGPU - EmscriptenWebGLContextAttributes attrs; - attrs.alpha = RGFW_GL_HINTS[RGFW_glDepth]; - attrs.depth = RGFW_GL_HINTS[RGFW_glAlpha]; - attrs.stencil = RGFW_GL_HINTS[RGFW_glStencil]; - attrs.antialias = RGFW_GL_HINTS[RGFW_glSamples]; - attrs.premultipliedAlpha = EM_TRUE; - attrs.preserveDrawingBuffer = EM_FALSE; - - if (RGFW_GL_HINTS[RGFW_glDoubleBuffer] == 0) - attrs.renderViaOffscreenBackBuffer = 0; - else - attrs.renderViaOffscreenBackBuffer = RGFW_GL_HINTS[RGFW_glAuxBuffers]; - - attrs.failIfMajorPerformanceCaveat = EM_FALSE; - attrs.majorVersion = (RGFW_GL_HINTS[RGFW_glMinor] == 0) ? 1 : RGFW_GL_HINTS[RGFW_glMinor]; - attrs.minorVersion = RGFW_GL_HINTS[RGFW_glMajor]; - - attrs.enableExtensionsByDefault = EM_TRUE; - attrs.explicitSwapControl = EM_TRUE; - - emscripten_webgl_init_context_attributes(&attrs); - win->src.ctx = emscripten_webgl_create_context("#canvas", &attrs); - emscripten_webgl_make_context_current(win->src.ctx); - - #ifdef LEGACY_GL_EMULATION - EM_ASM("Module.useWebGL = true; GLImmediate.init();"); - #endif - #else - win->src.ctx = wgpuCreateInstance(NULL); - win->src.device = emscripten_webgpu_get_device(); - win->src.queue = wgpuDeviceGetQueue(win->src.device); - #endif - - emscripten_set_canvas_element_size("#canvas", rect.w, rect.h); - emscripten_set_window_title(name); - - /* load callbacks */ - emscripten_set_resize_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_resize); - emscripten_set_fullscreenchange_callback(EMSCRIPTEN_EVENT_TARGET_DOCUMENT, NULL, EM_FALSE, Emscripten_on_fullscreenchange); - emscripten_set_mousemove_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mousemove); - emscripten_set_touchstart_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchstart); - emscripten_set_touchend_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchend); - emscripten_set_touchmove_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchmove); - emscripten_set_touchcancel_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchcancel); - emscripten_set_mousedown_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mousedown); - emscripten_set_mouseup_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mouseup); - emscripten_set_wheel_callback("#canvas", NULL, EM_FALSE, Emscripten_on_wheel); - emscripten_set_focusin_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_focusin); - emscripten_set_focusout_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_focusout); - emscripten_set_gamepadconnected_callback(NULL, 1, Emscripten_on_gamepad); - emscripten_set_gamepaddisconnected_callback(NULL, 1, Emscripten_on_gamepad); - - if (flags & RGFW_windowAllowDND) { - win->_flags |= RGFW_windowAllowDND; - } - - EM_ASM({ - window.addEventListener("keydown", - (event) => { - var key = stringToNewUTF8(event.key); var code = stringToNewUTF8(event.code); - Module._RGFW_handleKeyMods(event.getModifierState("CapsLock"), event.getModifierState("NumLock"), event.getModifierState("Control"), event.getModifierState("Alt"), event.getModifierState("Shift"), event.getModifierState("Meta"), event.getModifierState("ScrollLock")); - Module._RGFW_handleKeyEvent(key, code, 1); - _free(key); _free(code); - }, - true); - window.addEventListener("keyup", - (event) => { - var key = stringToNewUTF8(event.key); var code = stringToNewUTF8(event.code); - Module._RGFW_handleKeyMods(event.getModifierState("CapsLock"), event.getModifierState("NumLock"), event.getModifierState("Control"), event.getModifierState("Alt"), event.getModifierState("Shift"), event.getModifierState("Meta"), event.getModifierState("ScrollLock")); - Module._RGFW_handleKeyEvent(key, code, 0); - _free(key); _free(code); - }, - true); - }); - - EM_ASM({ - var canvas = document.getElementById('canvas'); - canvas.addEventListener('drop', function(e) { - e.preventDefault(); - if (e.dataTransfer.file < 0) - return; - - var filenamesArray = []; - var count = e.dataTransfer.files.length; - - /* Read and save the files to emscripten's files */ - var drop_dir = '.rgfw_dropped_files'; - Module._RGFW_mkdir(drop_dir); - - for (var i = 0; i < count; i++) { - var file = e.dataTransfer.files[i]; - - var path = '/' + drop_dir + '/' + file.name.replace("//", '_'); - var reader = new FileReader(); - - reader.onloadend = (e) => { - if (reader.readyState != 2) { - out('failed to read dropped file: '+file.name+': '+reader.error); - } - else { - var data = e.target.result; - - _RGFW_writeFile(path, new Uint8Array(data), file.size); - } - }; - - reader.readAsArrayBuffer(file); - // This works weird on modern opengl - var filename = stringToNewUTF8(path); - - filenamesArray.push(filename); - - Module._RGFW_makeSetValue(i, filename); - } - - Module._Emscripten_onDrop(count); - - for (var i = 0; i < count; ++i) { - _free(filenamesArray[i]); - } - }, true); - - canvas.addEventListener('dragover', function(e) { e.preventDefault(); return false; }, true); - }); - - glViewport(0, 0, rect.w, rect.h); - - RGFW_window_setFlags(win, flags); - - #ifdef RGFW_DEBUG - printf("RGFW INFO: a window with a rect of {%i, %i, %i, %i} \n", win->r.x, win->r.y, win->r.w, win->r.h); - #endif - - return win; -} - -RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { - static u8 index = 0; - - if (index == 0) { - RGFW_resetKey(); - } - - emscripten_sample_gamepad_data(); - /* check gamepads */ - for (int i = 0; (i < emscripten_get_num_gamepads()) && (i < 4); i++) { - if (RGFW_gamepads[i] == 0) - continue; - EmscriptenGamepadEvent gamepadState; - - if (emscripten_get_gamepad_status(i, &gamepadState) != EMSCRIPTEN_RESULT_SUCCESS) - break; - - // Register buttons data for every connected gamepad - for (int j = 0; (j < gamepadState.numButtons) && (j < 16); j++) { - u32 map[] = { - RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, - RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, - RGFW_gamepadSelect, RGFW_gamepadStart, - RGFW_gamepadL3, RGFW_gamepadR3, - RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight, RGFW_gamepadHome - }; - - - u32 button = map[j]; - if (button == 404) - continue; - - if (RGFW_gamepadPressed[i][button].current != gamepadState.digitalButton[j]) { - if (gamepadState.digitalButton[j]) - win->event.type = RGFW_gamepadButtonPressed; - else - win->event.type = RGFW_gamepadButtonReleased; - - win->event.gamepad = i; - win->event.button = map[j]; - - RGFW_gamepadPressed[i][button].prev = RGFW_gamepadPressed[i][button].current; - RGFW_gamepadPressed[i][button].current = gamepadState.digitalButton[j]; - - RGFW_gamepadButtonCallback(win, win->event.gamepad, win->event.button, gamepadState.digitalButton[j]); - return &win->event; - } - } - - for (int j = 0; (j < gamepadState.numAxes) && (j < 4); j += 2) { - win->event.axisesCount = gamepadState.numAxes / 2; - if (RGFW_gamepadAxes[i][(size_t)(j / 2)].x != (i8)(gamepadState.axis[j] * 100.0f) || - RGFW_gamepadAxes[i][(size_t)(j / 2)].y != (i8)(gamepadState.axis[j + 1] * 100.0f) - ) { - - RGFW_gamepadAxes[i][(size_t)(j / 2)].x = (i8)(gamepadState.axis[j] * 100.0f); - RGFW_gamepadAxes[i][(size_t)(j / 2)].y = (i8)(gamepadState.axis[j + 1] * 100.0f); - win->event.axis[(size_t)(j / 2)] = RGFW_gamepadAxes[i][(size_t)(j / 2)]; - - win->event.type = RGFW_gamepadAxisMove; - win->event.gamepad = i; - win->event.whichAxis = j / 2; - - RGFW_gamepadAxisCallback(win, win->event.gamepad, win->event.axis, win->event.axisesCount, win->event.whichAxis); - return &win->event; - } - } - } - - /* check queued events */ - if (RGFW_eventLen == 0) - return NULL; - - RGFW_events[index].frameTime = win->event.frameTime; - RGFW_events[index].frameTime2 = win->event.frameTime2; - RGFW_events[index].inFocus = win->event.inFocus; - - win->event = RGFW_events[index]; - - RGFW_eventLen--; - - if (RGFW_eventLen) - index++; - else - index = 0; - - return &win->event; -} - -void RGFW_window_resize(RGFW_window* win, RGFW_area a) { - RGFW_UNUSED(win); - emscripten_set_canvas_element_size("#canvas", a.w, a.h); -} - -/* NOTE: I don't know if this is possible */ -void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v) { RGFW_UNUSED(win); RGFW_UNUSED(v); } -/* this one might be possible but it looks iffy */ -RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { RGFW_UNUSED(channels); RGFW_UNUSED(a); RGFW_UNUSED(icon); return NULL; } - -void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { RGFW_UNUSED(win); RGFW_UNUSED(mouse); } -void RGFW_freeMouse(RGFW_mouse* mouse) { RGFW_UNUSED(mouse); } - -RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { - static const char cursors[11][12] = { - "default", "default", "text", "crosshair", - "pointer", "ew-resize", "ns-resize", "nwse-resize", "nesw-resize", - "move", "not-allowed" - }; - - RGFW_UNUSED(win); - EM_ASM( { document.getElementById("canvas").style.cursor = UTF8ToString($0); }, cursors[mouse]); - return RGFW_TRUE; -} - -RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { - return RGFW_window_setMouseStandard(win, RGFW_mouseNormal); -} - -void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { - RGFW_window_showMouseFlags(win, show); - if (show) - RGFW_window_setMouseDefault(win); - else - EM_ASM(document.getElementById('canvas').style.cursor = 'none';); -} - -RGFW_point RGFW_getGlobalMousePoint(void) { - RGFW_point point; - point.x = EM_ASM_INT({ - return window.mouseX || 0; - }); - point.y = EM_ASM_INT({ - return window.mouseY || 0; - }); - return point; -} - -void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { - RGFW_UNUSED(win); - - EM_ASM_({ - var canvas = document.getElementById('canvas'); - if ($0) { - canvas.style.pointerEvents = 'none'; - } else { - canvas.style.pointerEvents = 'auto'; - } - }, passthrough); -} - -void RGFW_writeClipboard(const char* text, u32 textLen) { - RGFW_UNUSED(textLen); - EM_ASM({ navigator.clipboard.writeText(UTF8ToString($0)); }, text); -} - - -RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { - RGFW_UNUSED(str); RGFW_UNUSED(strCapacity); - /* - placeholder code for later - I'm not sure if this is possible do the the async stuff - */ - return 0; -} - -void RGFW_window_swapBuffers(RGFW_window* win) { - RGFW_UNUSED(win); - - #ifdef RGFW_BUFFER - if (!(win->_flags & RGFW_NO_CPU_RENDER)) { - glEnable(GL_TEXTURE_2D); - - GLuint texture; - glGenTextures(1,&texture); - - glBindTexture(GL_TEXTURE_2D,texture); - - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); - - glTexImage2D(GL_TEXTURE_2D, 0, GL_RGBA, win->bufferSize.w, win->bufferSize.h, 0, GL_RGBA, GL_UNSIGNED_BYTE, win->buffer); - - float ratioX = ((float)win->r.w / (float)win->bufferSize.w); - float ratioY = ((float)win->r.h / (float)win->bufferSize.h); - - // Set up the viewport - glClear(GL_COLOR_BUFFER_BIT); - - glBegin(GL_TRIANGLES); - glTexCoord2f(0, ratioY); glColor3f(1, 1, 1); glVertex2f(-1, -1); - glTexCoord2f(0, 0); glColor3f(1, 1, 1); glVertex2f(-1, 1); - glTexCoord2f(ratioX, ratioY); glColor3f(1, 1, 1); glVertex2f(1, -1); - - glTexCoord2f(ratioX, 0); glColor3f(1, 1, 1); glVertex2f(1, 1); - glTexCoord2f(ratioX, ratioY); glColor3f(1, 1, 1); glVertex2f(1, -1); - glTexCoord2f(0, 0); glColor3f(1, 1, 1); glVertex2f(-1, 1); - glEnd(); - - glDeleteTextures(1, &texture); - } - #endif - -#ifndef RGFW_WEBGPU - emscripten_webgl_commit_frame(); -#endif - emscripten_sleep(0); -} - - -void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { -#ifndef RGFW_WEBGPU - if (win == NULL) - emscripten_webgl_make_context_current(0); - else - emscripten_webgl_make_context_current(win->src.ctx); -#endif -} - -#ifndef RGFW_WEBGPU -void* RGFW_getCurrent_OpenGL(void) { return (void*)emscripten_webgl_get_current_context(); } -#endif - -#ifndef RGFW_EGL -void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { RGFW_UNUSED(win); RGFW_UNUSED(swapInterval); } -#endif - -void RGFW_window_close(RGFW_window* win) { -#ifndef RGFW_WEBGPU - emscripten_webgl_destroy_context(win->src.ctx); -#endif - - #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) - if ((win->_flags & RGFW_BUFFER_ALLOC)) - RGFW_FREE(win->buffer); - #endif - - RGFW_clipboard_switch(NULL); - - if ((win->_flags & RGFW_WINDOW_ALLOC)) - RGFW_FREE(win); -} - -int RGFW_innerWidth(void) { return EM_ASM_INT({ return window.innerWidth; }); } -int RGFW_innerHeight(void) { return EM_ASM_INT({ return window.innerHeight; }); } - -RGFW_area RGFW_getScreenSize(void) { - return RGFW_AREA(RGFW_innerWidth(), RGFW_innerHeight()); -} - -void* RGFW_getProcAddress(const char* procname) { - return emscripten_webgl_get_proc_address(procname); -} - -void RGFW_sleep(u64 milisecond) { - emscripten_sleep(milisecond); -} - -u64 RGFW_getTimeNS(void) { return RGFW_getTimerValue(); } - -u64 RGFW_getTime(void) { - return emscripten_get_now() * 1000; -} - -u64 RGFW_getTimerFreq(void) { return (u64)1000000000LLU; } -u64 RGFW_getTimerValue(void) { return emscripten_get_now() * 1e+6; } - -void RGFW_releaseCursor(RGFW_window* win) { - RGFW_UNUSED(win); - emscripten_exit_pointerlock(); -} - -void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { - RGFW_UNUSED(win); RGFW_UNUSED(r); - - emscripten_request_pointerlock("#canvas", 1); -} - - -void RGFW_window_setName(RGFW_window* win, const char* name) { - RGFW_UNUSED(win); - emscripten_set_window_title(name); -} - -void RGFW_window_maximize(RGFW_window* win) { - RGFW_ASSERT(win != NULL); - - RGFW_area screen = RGFW_getScreenSize(); - RGFW_window_move(win, RGFW_POINT(0, 0)); - RGFW_window_resize(win, screen); -} - -void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { - RGFW_ASSERT(win != NULL); - if (fullscreen) { - win->_flags |= RGFW_windowFullscreen; - EM_ASM( Module.requestFullscreen(false, true); ); - return; - } - win->_flags &= ~RGFW_windowFullscreen; - EM_ASM( Module.exitFullscreen(false, true); ); -} - -void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { - RGFW_UNUSED(win); - EM_ASM({ - var element = document.getElementById("canvas"); - if (element) - element.style.opacity = $1; - }, "elementId", opacity); -} - -/* unsupported functions */ -void RGFW_window_focus(RGFW_window* win) { RGFW_UNUSED(win); } -void RGFW_window_raise(RGFW_window* win) { RGFW_UNUSED(win); } -RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { RGFW_UNUSED(mon); RGFW_UNUSED(mode); RGFW_UNUSED(request); return RGFW_FALSE; } -RGFW_monitor* RGFW_getMonitors(void) { return NULL; } -RGFW_monitor RGFW_getPrimaryMonitor(void) { return (RGFW_monitor){}; } -void RGFW_window_move(RGFW_window* win, RGFW_point v) { RGFW_UNUSED(win); RGFW_UNUSED(v); } -void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } -void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } -void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } -void RGFW_window_minimize(RGFW_window* win) { RGFW_UNUSED(win); } -void RGFW_window_restore(RGFW_window* win) { RGFW_UNUSED(win); } -void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { RGFW_UNUSED(win); RGFW_UNUSED(floating); } -void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { RGFW_UNUSED(win); RGFW_UNUSED(border); } -RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type) { RGFW_UNUSED(win); RGFW_UNUSED(icon); RGFW_UNUSED(a); RGFW_UNUSED(channels); RGFW_UNUSED(type); return RGFW_FALSE; } -void RGFW_window_hide(RGFW_window* win) { RGFW_UNUSED(win); } -void RGFW_window_show(RGFW_window* win) {RGFW_UNUSED(win); } -RGFW_bool RGFW_window_isHidden(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } -RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } -RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } -RGFW_bool RGFW_window_isFloating(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } -RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { RGFW_UNUSED(win); return (RGFW_monitor){}; } -#endif - -/* end of web asm defines */ - -/* unix (macOS, linux, web asm) only stuff */ -#if defined(RGFW_X11) || defined(RGFW_MACOS) || defined(RGFW_WASM) || defined(RGFW_WAYLAND) -#ifndef RGFW_NO_THREADS -#include - -RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args) { - RGFW_UNUSED(args); - - RGFW_thread t; - pthread_create((pthread_t*) &t, NULL, *ptr, NULL); - return t; -} -void RGFW_cancelThread(RGFW_thread thread) { pthread_cancel((pthread_t) thread); } -void RGFW_joinThread(RGFW_thread thread) { pthread_join((pthread_t) thread, NULL); } - -#if defined(__linux__) -void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { pthread_setschedprio((pthread_t)thread, priority); } -#else -void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { RGFW_UNUSED(thread); RGFW_UNUSED(priority); } -#endif -#endif - -#ifndef RGFW_WASM -void RGFW_sleep(u64 ms) { - struct timespec time; - time.tv_sec = 0; - time.tv_nsec = ms * 1e+6; - - #ifndef RGFW_NO_UNIX_CLOCK - nanosleep(&time, NULL); - #endif -} -#endif - -#endif /* end of unix / mac stuff*/ -#endif /*RGFW_IMPLEMENTATION*/ - -#if defined(__cplusplus) && !defined(__EMSCRIPTEN__) -} - #ifdef __clang__ - #pragma clang diagnostic pop - #endif -#endif +/* +* +* RGFW 1.7.5-dev + +* Copyright (C) 2022-25 ColleagueRiley +* +* libpng license +* +* This software is provided 'as-is', without any express or implied +* warranty. In no event will the authors be held liable for any damages +* arising from the use of this software. + +* Permission is granted to anyone to use this software for any purpose, +* including commercial applications, and to alter it and redistribute it +* freely, subject to the following restrictions: +* +* 1. The origin of this software must not be misrepresented; you must not +* claim that you wrote the original software. If you use this software +* in a product, an acknowledgment in the product documentation would be +* appreciated but is not required. +* 2. Altered source versions must be plainly marked as such, and must not be +* misrepresented as being the original software. +* 3. This notice may not be removed or altered from any source distribution. +* +* +*/ + +/* + (MAKE SURE RGFW_IMPLEMENTATION is in exactly one header or you use -D RGFW_IMPLEMENTATION) + #define RGFW_IMPLEMENTATION - makes it so source code is included with header +*/ + +/* + #define RGFW_IMPLEMENTATION - (required) makes it so the source code is included + #define RGFW_DEBUG - (optional) makes it so RGFW prints debug messages and errors when they're found + #define RGFW_OSMESA - (optional) use OSmesa as backend (instead of system's opengl api + regular opengl) + #define RGFW_BUFFER - (optional) draw directly to (RGFW) window pixel buffer that is drawn to screen (the buffer is in the RGBA format) + #define RGFW_EGL - (optional) use EGL for loading an OpenGL context (instead of the system's opengl api) + #define RGFW_OPENGL_ES1 - (optional) use EGL to load and use Opengl ES (version 1) for backend rendering (instead of the system's opengl api) + This version doesn't work for desktops (I'm pretty sure) + #define RGFW_OPENGL_ES2 - (optional) use OpenGL ES (version 2) + #define RGFW_OPENGL_ES3 - (optional) use OpenGL ES (version 3) + #define RGFW_DIRECTX - (optional) include integration directX functions (windows only) + #define RGFW_VULKAN - (optional) include helpful vulkan integration functions and macros + #define RGFW_WEBGPU - (optional) use webGPU for rendering (Web ONLY) + #define RGFW_NO_API - (optional) don't use any rendering API (no opengl, no vulkan, no directX) + + #define RGFW_LINK_EGL (optional) (windows only) if EGL is being used, if EGL functions should be defined dymanically (using GetProcAddress) + #define RGFW_X11 (optional) (unix only) if X11 should be used. This option is turned on by default by unix systems except for MacOS + #define RGFW_WAYLAND (optional) (unix only) use Wayland. (This can be used with X11) + #define RGFW_NO_X11 (optional) (unix only) don't fallback to X11 when using Wayland + #define RGFW_NO_LOAD_WGL (optional) (windows only) if WGL should be loaded dynamically during runtime + #define RGFW_NO_X11_CURSOR (optional) (unix only) don't use XCursor + #define RGFW_NO_X11_CURSOR_PRELOAD (optional) (unix only) use XCursor, but don't link it in code, (you'll have to link it with -lXcursor) + #define RGFW_NO_X11_EXT_PRELOAD (optional) (unix only) use Xext, but don't link it in code, (you'll have to link it with -lXext) + #define RGFW_NO_LOAD_WINMM (optional) (windows only) use winmm (timeBeginPeriod), but don't link it in code, (you'll have to link it with -lwinmm) + #define RGFW_NO_WINMM (optional) (windows only) don't use winmm + #define RGFW_NO_IOKIT (optional) (macOS) don't use IOKit + #define RGFW_NO_UNIX_CLOCK (optional) (unix) don't link unix clock functions + #define RGFW_NO_DWM (windows only) - do not use or link dwmapi + #define RGFW_USE_XDL (optional) (X11) if XDL (XLib Dynamic Loader) should be used to load X11 dynamically during runtime (must include XDL.h along with RGFW) + #define RGFW_COCOA_GRAPHICS_SWITCHING - (optional) (cocoa) use automatic graphics switching (allow the system to choose to use GPU or iGPU) + #define RGFW_COCOA_FRAME_NAME (optional) (cocoa) set frame name + #define RGFW_NO_DPI - do not calculate DPI (no XRM nor libShcore included) + #define RGFW_BUFFER_BGR - use the BGR format for bufffers instead of RGB, saves processing time + #define RGFW_ADVANCED_SMOOTH_RESIZE - use advanced methods for smooth resizing (may result in a spike in memory usage or worse performance) (eg. WM_TIMER and XSyncValue) + + #define RGFW_ALLOC x - choose the default allocation function (defaults to standard malloc) + #define RGFW_FREE x - choose the default deallocation function (defaults to standard free) + #define RGFW_USERPTR x - choose the default userptr sent to the malloc call, (NULL by default) + + #define RGFW_EXPORT - use when building RGFW + #define RGFW_IMPORT - use when linking with RGFW (not as a single-header) + + #define RGFW_USE_INT - force the use c-types rather than stdint.h (for systems that might not have stdint.h (msvc)) + #define RGFW_bool x - choose what type to use for bool, by default u32 is used +*/ + +/* +Example to get you started : + +linux : gcc main.c -lX11 -lXrandr -lGL +windows : gcc main.c -lopengl32 -lgdi32 +macos : gcc main.c -framework Cocoa -framework CoreVideo -framework OpenGL -framework IOKit + +#define RGFW_IMPLEMENTATION +#include "RGFW.h" + +u8 icon[4 * 3 * 3] = {0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0xFF, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF, 0xFF, 0x00, 0x00, 0xFF}; + +int main() { + RGFW_window* win = RGFW_createWindow("name", RGFW_RECT(100, 100, 500, 500), (u64)0); + + RGFW_window_setIcon(win, icon, RGFW_AREA(3, 3), 4); + + while (RGFW_window_shouldClose(win) == RGFW_FALSE) { + while (RGFW_window_checkEvent(win)) { + if (win->event.type == RGFW_quit || RGFW_isPressed(win, RGFW_escape)) + break; + } + + RGFW_window_swapBuffers(win); + + glClearColor(1.0f, 1.0f, 1.0f, 1.0f); + glClear(GL_COLOR_BUFFER_BIT); + } + + RGFW_window_close(win); +} + + compiling : + + if you wish to compile the library all you have to do is create a new file with this in it + + rgfw.c + #define RGFW_IMPLEMENTATION + #include "RGFW.h" + + You may also want to add + `#define RGFW_EXPORT` when compiling and + `#define RGFW_IMPORT`when linking RGFW on it's own: + this reduces inline functions and prevents bloat in the object file + + then you can use gcc (or whatever compile you wish to use) to compile the library into object file + + ex. gcc -c RGFW.c -fPIC + + after you compile the library into an object file, you can also turn the object file into an static or shared library + + (commands ar and gcc can be replaced with whatever equivalent your system uses) + + static : ar rcs RGFW.a RGFW.o + shared : + windows: + gcc -shared RGFW.o -lopengl32 -lgdi32 -o RGFW.dll + linux: + gcc -shared RGFW.o -lX11 -lGL -lXrandr -o RGFW.so + macos: + gcc -shared RGFW.o -framework CoreVideo -framework Cocoa -framework OpenGL -framework IOKit +*/ + + + +/* + Credits : + EimaMei/Sacode : Much of the code for creating windows using winapi, Wrote the Silicon library, helped with MacOS Support, siliapp.h -> referencing + + stb - This project is heavily inspired by the stb single header files + + GLFW: + certain parts of winapi and X11 are very poorly documented, + GLFW's source code was referenced and used throughout the project. + + contributors : (feel free to put yourself here if you contribute) + krisvers -> code review + EimaMei (SaCode) -> code review + Code-Nycticebus -> bug fixes + Rob Rohan -> X11 bugs and missing features, MacOS/Cocoa fixing memory issues/bugs + AICDG (@THISISAGOODNAME) -> vulkan support (example) + @Easymode -> support, testing/debugging, bug fixes and reviews + Joshua Rowe (omnisci3nce) - bug fix, review (macOS) + @lesleyrs -> bug fix, review (OpenGL) + Nick Porcino (meshula) - testing, organization, review (MacOS, examples) + @DarekParodia -> code review (X11) (C++) +*/ + +#if _MSC_VER + #pragma comment(lib, "gdi32") + #pragma comment(lib, "shell32") + #pragma comment(lib, "User32") + #pragma warning( push ) + #pragma warning( disable : 4996 4191 4127) + #if _MSC_VER < 600 + #define RGFW_C89 + #endif +#else + #if defined(__STDC__) && !defined(__STDC_VERSION__) + #define RGFW_C89 + #endif +#endif + +#ifndef RGFW_USERPTR + #define RGFW_USERPTR NULL +#endif + +#ifndef RGFW_UNUSED + #define RGFW_UNUSED(x) (void)(x) +#endif + +#ifndef RGFW_ROUND + #define RGFW_ROUND(x) (i32)((x) >= 0 ? (x) + 0.5f : (x) - 0.5f) +#endif + +#ifndef RGFW_ALLOC + #include + #define RGFW_ALLOC malloc + #define RGFW_FREE free +#endif + +#ifndef RGFW_ASSERT + #include + #define RGFW_ASSERT assert +#endif + +#if !defined(RGFW_MEMCPY) || !defined(RGFW_STRNCMP) || !defined(RGFW_STRNCPY) || !defined(RGFW_MEMSET) + #include +#endif + +#ifndef RGFW_MEMSET + #define RGFW_MEMSET(ptr, value, num) memset(ptr, value, num) +#endif + +#ifndef RGFW_MEMCPY + #define RGFW_MEMCPY(dist, src, len) memcpy(dist, src, len) +#endif + +#ifndef RGFW_STRNCMP + #define RGFW_STRNCMP(s1, s2, max) strncmp(s1, s2, max) +#endif + +#ifndef RGFW_STRNCPY + #define RGFW_STRNCPY(dist, src, len) strncpy(dist, src, len) +#endif + +#ifndef RGFW_STRSTR + #define RGFW_STRSTR(str, substr) strstr(str, substr) +#endif + +#ifndef RGFW_STRTOL + /* required for X11 XDnD and X11 Monitor DPI */ + #include + #define RGFW_STRTOL(str, endptr, base) strtol(str, endptr, base) + #define RGFW_ATOF(num) atof(num) +#endif + +#ifdef RGFW_WIN95 /* for windows 95 testing (not that it really works) */ + #define RGFW_NO_MONITOR + #define RGFW_NO_PASSTHROUGH +#endif + +#if defined(RGFW_EXPORT) || defined(RGFW_IMPORT) + #if defined(_WIN32) + #if defined(__TINYC__) && (defined(RGFW_EXPORT) || defined(RGFW_IMPORT)) + #define __declspec(x) __attribute__((x)) + #endif + + #if defined(RGFW_EXPORT) + #define RGFWDEF __declspec(dllexport) + #else + #define RGFWDEF __declspec(dllimport) + #endif + #else + #if defined(RGFW_EXPORT) + #define RGFWDEF __attribute__((visibility("default"))) + #endif + #endif + #ifndef RGFWDEF + #define RGFWDEF + #endif +#endif + +#ifndef RGFWDEF + #ifdef RGFW_C89 + #define RGFWDEF __inline + #else + #define RGFWDEF inline + #endif +#endif + +#ifndef RGFW_ENUM + #define RGFW_ENUM(type, name) type name; enum +#endif + + +#if defined(__cplusplus) && !defined(__EMSCRIPTEN__) + extern "C" { +#endif + + /* makes sure the header file part is only defined once by default */ +#ifndef RGFW_HEADER + +#define RGFW_HEADER + +#include +#ifndef RGFW_INT_DEFINED + #ifdef RGFW_USE_INT /* optional for any system that might not have stdint.h */ + typedef unsigned char u8; + typedef signed char i8; + typedef unsigned short u16; + typedef signed short i16; + typedef unsigned long int u32; + typedef signed long int i32; + typedef unsigned long long u64; + typedef signed long long i64; + #else /* use stdint standard types instead of c "standard" types */ + #include + + typedef uint8_t u8; + typedef int8_t i8; + typedef uint16_t u16; + typedef int16_t i16; + typedef uint32_t u32; + typedef int32_t i32; + typedef uint64_t u64; + typedef int64_t i64; + #endif + #define RGFW_INT_DEFINED +#endif + +#ifndef RGFW_BOOL_DEFINED + #define RGFW_BOOL_DEFINED + typedef u8 RGFW_bool; +#endif + +#define RGFW_BOOL(x) (RGFW_bool)((x) ? RGFW_TRUE : RGFW_FALSE) /* force an value to be 0 or 1 */ +#define RGFW_TRUE (RGFW_bool)1 +#define RGFW_FALSE (RGFW_bool)0 + +/* these OS macros look better & are standardized */ +/* plus it helps with cross-compiling */ + +#ifdef __EMSCRIPTEN__ + #define RGFW_WASM + + #if !defined(RGFW_NO_API) && !defined(RGFW_WEBGPU) + #define RGFW_OPENGL + #endif + + #ifdef RGFW_EGL + #undef RGFW_EGL + #endif + + #include + #include + + #ifdef RGFW_WEBGPU + #include + #endif +#endif + +#if defined(RGFW_X11) && defined(__APPLE__) && !defined(RGFW_CUSTOM_BACKEND) + #define RGFW_MACOS_X11 + #define RGFW_UNIX + #undef __APPLE__ +#endif + +#if defined(_WIN32) && !defined(RGFW_X11) && !defined(RGFW_UNIX) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) /* (if you're using X11 on windows some how) */ + #define RGFW_WINDOWS + /* make sure the correct architecture is defined */ + #if defined(_WIN64) + #define _AMD64_ + #undef _X86_ + #else + #undef _AMD64_ + #ifndef _X86_ + #define _X86_ + #endif + #endif + + #ifndef RGFW_NO_XINPUT + #ifdef __MINGW32__ /* try to find the right header */ + #include + #else + #include + #endif + #endif +#endif +#if defined(RGFW_WAYLAND) + #define RGFW_DEBUG /* wayland will be in debug mode by default for now */ + #if !defined(RGFW_NO_API) && (!defined(RGFW_BUFFER) || defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) + #define RGFW_EGL + #define RGFW_OPENGL + #include + #endif + + #define RGFW_UNIX + #include +#endif +#if !defined(RGFW_NO_X11) && (defined(__unix__) || defined(RGFW_MACOS_X11) || defined(RGFW_X11)) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) + #define RGFW_MACOS_X11 + #define RGFW_X11 + #define RGFW_UNIX + #include + #include +#elif defined(__APPLE__) && !defined(RGFW_MACOS_X11) && !defined(RGFW_X11) && !defined(RGFW_WASM) && !defined(RGFW_CUSTOM_BACKEND) + #define RGFW_MACOS + #if !defined(RGFW_BUFFER_BGR) + #define RGFW_BUFFER_BGR + #else + #undef RGFW_BUFFER_BGR + #endif +#endif + +#if (defined(RGFW_OPENGL_ES1) || defined(RGFW_OPENGL_ES2) || defined(RGFW_OPENGL_ES3)) && !defined(RGFW_EGL) + #define RGFW_EGL +#endif + +#if !defined(RGFW_OSMESA) && !defined(RGFW_EGL) && !defined(RGFW_OPENGL) && !defined(RGFW_DIRECTX) && !defined(RGFW_BUFFER) && !defined(RGFW_NO_API) + #define RGFW_OPENGL +#endif + +#ifdef RGFW_EGL + #include +#elif defined(RGFW_OSMESA) + #ifdef RGFW_WINDOWS + #define OEMRESOURCE + #include + #ifndef GLAPIENTRY + #define GLAPIENTRY APIENTRY + #endif + #ifndef GLAPI + #define GLAPI WINGDIAPI + #endif + #endif + + #ifndef __APPLE__ + #include + #else + #include + #endif +#endif + +#if (defined(RGFW_OPENGL) || defined(RGFW_WEGL)) && defined(_MSC_VER) + #pragma comment(lib, "opengl32") +#endif + +#if defined(RGFW_OPENGL) && defined(RGFW_X11) + #ifndef GLX_MESA_swap_control + #define GLX_MESA_swap_control + #endif + #include /* GLX defs, xlib.h, gl.h */ +#endif + +#define RGFW_COCOA_FRAME_NAME NULL + +/*! (unix) Toggle use of wayland. This will be on by default if you use `RGFW_WAYLAND` (if you don't use RGFW_WAYLAND, you don't expose WAYLAND functions) + this is mostly used to allow you to force the use of XWayland +*/ +RGFWDEF void RGFW_useWayland(RGFW_bool wayland); +RGFWDEF RGFW_bool RGFW_usingWayland(void); +/* + regular RGFW stuff +*/ + +#define RGFW_key u8 + +typedef RGFW_ENUM(u8, RGFW_eventType) { + /*! event codes */ + RGFW_eventNone = 0, /*!< no event has been sent */ + RGFW_keyPressed, /* a key has been pressed */ + RGFW_keyReleased, /*!< a key has been released */ + /*! key event note + the code of the key pressed is stored in + RGFW_event.key + !!Keycodes defined at the bottom of the RGFW_HEADER part of this file!! + + while a string version is stored in + RGFW_event.KeyString + + RGFW_event.keyMod holds the current keyMod + this means if CapsLock, NumLock are active or not + */ + RGFW_mouseButtonPressed, /*!< a mouse button has been pressed (left,middle,right) */ + RGFW_mouseButtonReleased, /*!< a mouse button has been released (left,middle,right) */ + RGFW_mousePosChanged, /*!< the position of the mouse has been changed */ + /*! mouse event note + the x and y of the mouse can be found in the vector, RGFW_event.point + + RGFW_event.button holds which mouse button was pressed + */ + RGFW_gamepadConnected, /*!< a gamepad was connected */ + RGFW_gamepadDisconnected, /*!< a gamepad was disconnected */ + RGFW_gamepadButtonPressed, /*!< a gamepad button was pressed */ + RGFW_gamepadButtonReleased, /*!< a gamepad button was released */ + RGFW_gamepadAxisMove, /*!< an axis of a gamepad was moved */ + /*! gamepad event note + RGFW_event.gamepad holds which gamepad was altered, if any + RGFW_event.button holds which gamepad button was pressed + + RGFW_event.axis holds the data of all the axises + RGFW_event.axisesCount says how many axises there are + */ + RGFW_windowMoved, /*!< the window was moved (by the user) */ + RGFW_windowResized, /*!< the window was resized (by the user), [on WASM this means the browser was resized] */ + RGFW_focusIn, /*!< window is in focus now */ + RGFW_focusOut, /*!< window is out of focus now */ + RGFW_mouseEnter, /* mouse entered the window */ + RGFW_mouseLeave, /* mouse left the window */ + RGFW_windowRefresh, /* The window content needs to be refreshed */ + + /* attribs change event note + The event data is sent straight to the window structure + with win->r.x, win->r.y, win->r.w and win->r.h + */ + RGFW_quit, /*!< the user clicked the quit button */ + RGFW_DND, /*!< a file has been dropped into the window */ + RGFW_DNDInit, /*!< the start of a dnd event, when the place where the file drop is known */ + /* dnd data note + The x and y coords of the drop are stored in the vector RGFW_event.point + + RGFW_event.droppedFilesCount holds how many files were dropped + + This is also the size of the array which stores all the dropped file string, + RGFW_event.droppedFiles + */ + RGFW_windowMaximized, /*!< the window was maximized */ + RGFW_windowMinimized, /*!< the window was minimized */ + RGFW_windowRestored, /*!< the window was restored */ + RGFW_scaleUpdated /*!< content scale factor changed */ +}; + +/*! mouse button codes (RGFW_event.button) */ +typedef RGFW_ENUM(u8, RGFW_mouseButton) { + RGFW_mouseLeft = 0, /*!< left mouse button is pressed */ + RGFW_mouseMiddle, /*!< mouse-wheel-button is pressed */ + RGFW_mouseRight, /*!< right mouse button is pressed */ + RGFW_mouseScrollUp, /*!< mouse wheel is scrolling up */ + RGFW_mouseScrollDown, /*!< mouse wheel is scrolling down */ + RGFW_mouseMisc1, RGFW_mouseMisc2, RGFW_mouseMisc3, RGFW_mouseMisc4, RGFW_mouseMisc5, + RGFW_mouseFinal +}; + +#ifndef RGFW_MAX_PATH +#define RGFW_MAX_PATH 260 /* max length of a path (for dnd) */ +#endif +#ifndef RGFW_MAX_DROPS +#define RGFW_MAX_DROPS 260 /* max items you can drop at once */ +#endif + +#define RGFW_BIT(x) (1 << x) + +/* for RGFW_event.lockstate */ +typedef RGFW_ENUM(u8, RGFW_keymod) { + RGFW_modCapsLock = RGFW_BIT(0), + RGFW_modNumLock = RGFW_BIT(1), + RGFW_modControl = RGFW_BIT(2), + RGFW_modAlt = RGFW_BIT(3), + RGFW_modShift = RGFW_BIT(4), + RGFW_modSuper = RGFW_BIT(5), + RGFW_modScrollLock = RGFW_BIT(6) +}; + +/*! gamepad button codes (based on xbox/playstation), you may need to change these values per controller */ +typedef RGFW_ENUM(u8, RGFW_gamepadCodes) { + RGFW_gamepadNone = 0, /*!< or PS X button */ + RGFW_gamepadA, /*!< or PS X button */ + RGFW_gamepadB, /*!< or PS circle button */ + RGFW_gamepadY, /*!< or PS triangle button */ + RGFW_gamepadX, /*!< or PS square button */ + RGFW_gamepadStart, /*!< start button */ + RGFW_gamepadSelect, /*!< select button */ + RGFW_gamepadHome, /*!< home button */ + RGFW_gamepadUp, /*!< dpad up */ + RGFW_gamepadDown, /*!< dpad down */ + RGFW_gamepadLeft, /*!< dpad left */ + RGFW_gamepadRight, /*!< dpad right */ + RGFW_gamepadL1, /*!< left bump */ + RGFW_gamepadL2, /*!< left trigger */ + RGFW_gamepadR1, /*!< right bumper */ + RGFW_gamepadR2, /*!< right trigger */ + RGFW_gamepadL3, /* left thumb stick */ + RGFW_gamepadR3, /*!< right thumb stick */ + RGFW_gamepadFinal +}; + +/*! basic vector type, if there's not already a point/vector type of choice */ +#ifndef RGFW_point + typedef struct RGFW_point { i32 x, y; } RGFW_point; +#endif + +/*! basic rect type, if there's not already a rect type of choice */ +#ifndef RGFW_rect + typedef struct RGFW_rect { i32 x, y, w, h; } RGFW_rect; +#endif + +/*! basic area type, if there's not already a area type of choice */ +#ifndef RGFW_area + typedef struct RGFW_area { u32 w, h; } RGFW_area; +#endif + +#if defined(__cplusplus) && !defined(__APPLE__) +#define RGFW_POINT(x, y) {(i32)x, (i32)y} +#define RGFW_RECT(x, y, w, h) {(i32)x, (i32)y, (i32)w, (i32)h} +#define RGFW_AREA(w, h) {(u32)w, (u32)h} +#else +#define RGFW_POINT(x, y) (RGFW_point){(i32)(x), (i32)(y)} +#define RGFW_RECT(x, y, w, h) (RGFW_rect){(i32)(x), (i32)(y), (i32)(w), (i32)(h)} +#define RGFW_AREA(w, h) (RGFW_area){(u32)(w), (u32)(h)} +#endif + +#ifndef RGFW_NO_MONITOR + /* monitor mode data | can be changed by the user (with functions)*/ + typedef struct RGFW_monitorMode { + RGFW_area area; /*!< monitor workarea size */ + u32 refreshRate; /*!< monitor refresh rate */ + u8 red, blue, green; + } RGFW_monitorMode; + + /*! structure for monitor data */ + typedef struct RGFW_monitor { + i32 x, y; /*!< x - y of the monitor workarea */ + char name[128]; /*!< monitor name */ + float scaleX, scaleY; /*!< monitor content scale */ + float pixelRatio; /*!< pixel ratio for monitor (1.0 for regular, 2.0 for hiDPI) */ + float physW, physH; /*!< monitor physical size in inches */ + + RGFW_monitorMode mode; + } RGFW_monitor; + + /*! get an array of all the monitors (max 6) */ + RGFWDEF RGFW_monitor* RGFW_getMonitors(size_t* len); + /*! get the primary monitor */ + RGFWDEF RGFW_monitor RGFW_getPrimaryMonitor(void); + + typedef RGFW_ENUM(u8, RGFW_modeRequest) { + RGFW_monitorScale = RGFW_BIT(0), /*!< scale the monitor size */ + RGFW_monitorRefresh = RGFW_BIT(1), /*!< change the refresh rate */ + RGFW_monitorRGB = RGFW_BIT(2), /*!< change the monitor RGB bits size */ + RGFW_monitorAll = RGFW_monitorScale | RGFW_monitorRefresh | RGFW_monitorRGB + }; + + /*! request a specific mode */ + RGFWDEF RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request); + /*! check if 2 monitor modes are the same */ + RGFWDEF RGFW_bool RGFW_monitorModeCompare(RGFW_monitorMode mon, RGFW_monitorMode mon2, RGFW_modeRequest request); +#endif + +/* RGFW mouse loading */ +typedef void RGFW_mouse; + +/*!< loads mouse icon from bitmap (similar to RGFW_window_setIcon). Icon NOT resized by default */ +RGFWDEF RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels); +/*!< frees RGFW_mouse data */ +RGFWDEF void RGFW_freeMouse(RGFW_mouse* mouse); + +/* NOTE: some parts of the data can represent different things based on the event (read comments in RGFW_event struct) */ +/*! Event structure for checking/getting events */ +typedef struct RGFW_event { + RGFW_eventType type; /*!< which event has been sent?*/ + RGFW_point point; /*!< mouse x, y of event (or drop point) */ + RGFW_point vector; /*!< raw mouse movement */ + float scaleX, scaleY; /*!< DPI scaling */ + + RGFW_key key; /*!< the physical key of the event, refers to where key is physically !!Keycodes defined at the bottom of the RGFW_HEADER part of this file!! */ + u8 keyChar; /*!< mapped key char of the event */ + + RGFW_bool repeat; /*!< key press event repeated (the key is being held) */ + RGFW_keymod keyMod; + + u8 button; /* !< which mouse (or gamepad) button was pressed */ + double scroll; /*!< the raw mouse scroll value */ + + u16 gamepad; /*! which gamepad this event applies to (if applicable to any) */ + u8 axisesCount; /*!< number of axises */ + + u8 whichAxis; /* which axis was effected */ + RGFW_point axis[4]; /*!< x, y of axises (-100 to 100) */ + + /*! drag and drop data */ + /* 260 max paths with a max length of 260 */ + char** droppedFiles; /*!< dropped files */ + size_t droppedFilesCount; /*!< house many files were dropped */ + + void* _win; /*!< the window this event applies too (for event queue events) */ +} RGFW_event; + +/*! source data for the window (used by the APIs) */ +#ifdef RGFW_WINDOWS +typedef struct RGFW_window_src { + HWND window; /*!< source window */ + HDC hdc; /*!< source HDC */ + u32 hOffset; /*!< height offset for window */ + HICON hIconSmall, hIconBig; /*!< source window icons */ + #if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) + HGLRC ctx; /*!< source graphics context */ + #elif defined(RGFW_OSMESA) + OSMesaContext ctx; + #elif defined(RGFW_EGL) + EGLSurface EGL_surface; + EGLDisplay EGL_display; + EGLContext EGL_context; + #endif + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + HDC hdcMem; + HBITMAP bitmap; + u8* bitmapBits; + #endif + RGFW_area maxSize, minSize, aspectRatio; /*!< for setting max/min resize (RGFW_WINDOWS) */ +} RGFW_window_src; +#elif defined(RGFW_UNIX) +typedef struct RGFW_window_src { +#if defined(RGFW_X11) + Display* display; /*!< source display */ + Window window; /*!< source window */ + #if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) + GLXContext ctx; /*!< source graphics context */ + GLXFBConfig bestFbc; + #elif defined(RGFW_OSMESA) + OSMesaContext ctx; + #elif defined(RGFW_EGL) + EGLSurface EGL_surface; + EGLDisplay EGL_display; + EGLContext EGL_context; + #endif + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + XImage* bitmap; + #endif + GC gc; + XVisualInfo visual; + #ifdef RGFW_ADVANCED_SMOOTH_RESIZE + i64 counter_value; + XID counter; + #endif + RGFW_rect r; +#endif /* RGFW_X11 */ +#if defined(RGFW_WAYLAND) + struct wl_display* wl_display; + struct wl_surface* surface; + struct wl_buffer* wl_buffer; + struct wl_keyboard* keyboard; + + struct wl_compositor* compositor; + struct xdg_surface* xdg_surface; + struct xdg_toplevel* xdg_toplevel; + struct zxdg_toplevel_decoration_v1* decoration; + struct xdg_wm_base* xdg_wm_base; + struct wl_shm* shm; + struct wl_seat *seat; + u8* buffer; + #if defined(RGFW_EGL) + struct wl_egl_window* eglWindow; + #endif + #if defined(RGFW_EGL) && !defined(RGFW_X11) + EGLSurface EGL_surface; + EGLDisplay EGL_display; + EGLContext EGL_context; + #elif defined(RGFW_OSMESA) && !defined(RGFW_X11) + OSMesaContext ctx; + #endif +#endif /* RGFW_WAYLAND */ +} RGFW_window_src; +#endif /* RGFW_UNIX */ +#if defined(RGFW_MACOS) +typedef struct RGFW_window_src { + void* window; +#if (defined(RGFW_OPENGL)) && !defined(RGFW_OSMESA) && !defined(RGFW_EGL) + void* ctx; /*!< source graphics context */ +#elif defined(RGFW_OSMESA) + OSMesaContext ctx; +#elif defined(RGFW_EGL) + EGLSurface EGL_surface; + EGLDisplay EGL_display; + EGLContext EGL_context; +#endif + + void* view; /* apple viewpoint thingy */ + void* mouse; +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) +#endif +} RGFW_window_src; +#elif defined(RGFW_WASM) +typedef struct RGFW_window_src { + #if defined(RGFW_WEBGPU) + WGPUInstance ctx; + WGPUDevice device; + WGPUQueue queue; + #elif defined(RGFW_OSMESA) + OSMesaContext ctx; + #else + EMSCRIPTEN_WEBGL_CONTEXT_HANDLE ctx; + #endif +} RGFW_window_src; +#endif + +/*! Optional arguments for making a windows */ +typedef RGFW_ENUM(u32, RGFW_windowFlags) { + RGFW_windowNoInitAPI = RGFW_BIT(0), /* do NOT init an API (including the software rendering buffer) (mostly for bindings. you can also use `#define RGFW_NO_API`) */ + RGFW_windowNoBorder = RGFW_BIT(1), /*!< the window doesn't have a border */ + RGFW_windowNoResize = RGFW_BIT(2), /*!< the window cannot be resized by the user */ + RGFW_windowAllowDND = RGFW_BIT(3), /*!< the window supports drag and drop */ + RGFW_windowHideMouse = RGFW_BIT(4), /*! the window should hide the mouse (can be toggled later on using `RGFW_window_mouseShow`) */ + RGFW_windowFullscreen = RGFW_BIT(5), /*!< the window is fullscreen by default */ + RGFW_windowTransparent = RGFW_BIT(6), /*!< the window is transparent (only properly works on X11 and MacOS, although it's meant for for windows) */ + RGFW_windowCenter = RGFW_BIT(7), /*! center the window on the screen */ + RGFW_windowOpenglSoftware = RGFW_BIT(8), /*! use OpenGL software rendering */ + RGFW_windowCocoaCHDirToRes = RGFW_BIT(9), /*! (cocoa only), change directory to resource folder */ + RGFW_windowScaleToMonitor = RGFW_BIT(10), /*! scale the window to the screen */ + RGFW_windowHide = RGFW_BIT(11), /*! the window is hidden */ + RGFW_windowMaximize = RGFW_BIT(12), + RGFW_windowCenterCursor = RGFW_BIT(13), + RGFW_windowFloating = RGFW_BIT(14), /*!< create a floating window */ + RGFW_windowFreeOnClose = RGFW_BIT(15), /*!< free (RGFW_window_close) the RGFW_window struct when the window is closed (by the end user) */ + RGFW_windowFocusOnShow = RGFW_BIT(16), /*!< focus the window when it's shown */ + RGFW_windowMinimize = RGFW_BIT(17), /*!< focus the window when it's shown */ + RGFW_windowFocus = RGFW_BIT(18), /*!< if the window is in focus */ + RGFW_windowedFullscreen = RGFW_windowNoBorder | RGFW_windowMaximize +}; + +typedef struct RGFW_window { + RGFW_window_src src; /*!< src window data */ + +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + u8* buffer; /*!< buffer for non-GPU systems (OSMesa, basic software rendering) */ + /* when rendering using RGFW_BUFFER, the buffer is in the RGBA format */ + RGFW_area bufferSize; +#endif + void* userPtr; /* ptr for usr data */ + + RGFW_event event; /*!< current event */ + + RGFW_rect r; /*!< the x, y, w and h of the struct */ + + /*! which key RGFW_window_shouldClose checks. Settting this to RGFW_keyNULL disables the feature. */ + RGFW_key exitKey; + RGFW_point _lastMousePoint; /*!< last cusor point (for raw mouse data) */ + + u32 _flags; /*!< windows flags (for RGFW to check) */ + RGFW_rect _oldRect; /*!< rect before fullscreen */ +} RGFW_window; /*!< window structure for managing the window */ + +#if defined(RGFW_X11) || defined(RGFW_MACOS) + typedef u64 RGFW_thread; /*!< thread type unix */ +#else + typedef void* RGFW_thread; /*!< thread type for windows */ +#endif + +/*! scale monitor to window size */ +RGFWDEF RGFW_bool RGFW_monitor_scaleToWindow(RGFW_monitor mon, RGFW_window* win); + +/** * @defgroup Window_management +* @{ */ + + +/*! + * the class name for X11 and WinAPI. apps with the same class will be grouped by the WM + * by default the class name will == the root window's name +*/ +RGFWDEF void RGFW_setClassName(const char* name); +RGFWDEF void RGFW_setXInstName(const char* name); /*!< X11 instance name (window name will by used by default) */ + +/*! (cocoa only) change directory to resource folder */ +RGFWDEF void RGFW_moveToMacOSResourceDir(void); + +/* NOTE: (windows) if the executable has an icon resource named RGFW_ICON, it will be set as the initial icon for the window */ + +RGFWDEF RGFW_window* RGFW_createWindow( + const char* name, /* name of the window */ + RGFW_rect rect, /* rect of window */ + RGFW_windowFlags flags /* extra arguments ((u32)0 means no flags used)*/ +); /*!< function to create a window and struct */ + +RGFWDEF RGFW_window* RGFW_createWindowPtr( + const char* name, /* name of the window */ + RGFW_rect rect, /* rect of window */ + RGFW_windowFlags flags, /* extra arguments (NULL / (u32)0 means no flags used) */ + RGFW_window* win /* ptr to the window struct you want to use */ +); /*!< function to create a window (without allocating a window struct) */ + +RGFWDEF void RGFW_window_initBuffer(RGFW_window* win); +RGFWDEF void RGFW_window_initBufferSize(RGFW_window* win, RGFW_area area); +RGFWDEF void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area); + +/*! set the window flags (will undo flags if they don't match the old ones) */ +RGFWDEF void RGFW_window_setFlags(RGFW_window* win, RGFW_windowFlags); + +/*! get the size of the screen to an area struct */ +RGFWDEF RGFW_area RGFW_getScreenSize(void); + + +/*! + this function checks an *individual* event (and updates window structure attributes) + this means, using this function without a while loop may cause event lag + + ex. + + while (RGFW_window_checkEvent(win) != NULL) [this keeps checking events until it reaches the last one] + + this function is optional if you choose to use event callbacks, + although you still need some way to tell RGFW to process events eg. `RGFW_window_checkEvents` +*/ + +RGFWDEF RGFW_event* RGFW_window_checkEvent(RGFW_window* win); /*!< check current event (returns a pointer to win->event or NULL if there is no event)*/ + +/*! + for RGFW_window_eventWait and RGFW_window_checkEvents + waitMS -> Allows the function to keep checking for events even after `RGFW_window_checkEvent == NULL` + if waitMS == 0, the loop will not wait for events + if waitMS > 0, the loop will wait that many miliseconds after there are no more events until it returns + if waitMS == -1 or waitMS == the max size of an unsigned 32-bit int, the loop will not return until it gets another event +*/ +typedef RGFW_ENUM(i32, RGFW_eventWait) { + RGFW_eventNoWait = 0, + RGFW_eventWaitNext = -1 +}; + +/*! sleep until RGFW gets an event or the timer ends (defined by OS) */ +RGFWDEF void RGFW_window_eventWait(RGFW_window* win, i32 waitMS); + +/*! + check all the events until there are none left. + This should only be used if you're using callbacks only +*/ +RGFWDEF void RGFW_window_checkEvents(RGFW_window* win, i32 waitMS); + +/*! + tell RGFW_window_eventWait to stop waiting (to be ran from another thread) +*/ +RGFWDEF void RGFW_stopCheckEvents(void); + +/*! window managment functions */ +RGFWDEF void RGFW_window_close(RGFW_window* win); /*!< close the window and free leftover data */ + +/*! move a window to a given point */ +RGFWDEF void RGFW_window_move(RGFW_window* win, + RGFW_point v /*!< new pos */ +); + +#ifndef RGFW_NO_MONITOR + /*! move window to a specific monitor */ + RGFWDEF void RGFW_window_moveToMonitor(RGFW_window* win, RGFW_monitor m /* monitor */); +#endif + +/*! resize window to a current size/area */ +RGFWDEF void RGFW_window_resize(RGFW_window* win, /*!< source window */ + RGFW_area a /*!< new size */ +); + +/*! set window aspect ratio */ +RGFWDEF void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a); +/*! set the minimum dimensions of a window */ +RGFWDEF void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a); +/*! set the maximum dimensions of a window */ +RGFWDEF void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a); + +RGFWDEF void RGFW_window_focus(RGFW_window* win); /*!< sets the focus to this window */ +RGFWDEF RGFW_bool RGFW_window_isInFocus(RGFW_window* win); /*!< checks the focus to this window */ +RGFWDEF void RGFW_window_raise(RGFW_window* win); /*!< raise the window (to the top) */ +RGFWDEF void RGFW_window_maximize(RGFW_window* win); /*!< maximize the window */ +RGFWDEF void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen); /*!< turn fullscreen on / off for a window */ +RGFWDEF void RGFW_window_center(RGFW_window* win); /*!< center the window */ +RGFWDEF void RGFW_window_minimize(RGFW_window* win); /*!< minimize the window (in taskbar (per OS))*/ +RGFWDEF void RGFW_window_restore(RGFW_window* win); /*!< restore the window from minimized (per OS)*/ +RGFWDEF void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating); /*!< make the window a floating window */ +RGFWDEF void RGFW_window_setOpacity(RGFW_window* win, u8 opacity); /*!< sets the opacity of a window */ + +RGFWDEF RGFW_bool RGFW_window_opengl_isSoftware(RGFW_window* win); + +/*! if the window should have a border or not (borderless) based on bool value of `border` */ +RGFWDEF void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border); +RGFWDEF RGFW_bool RGFW_window_borderless(RGFW_window* win); + +/*! turn on / off dnd (RGFW_windowAllowDND stil must be passed to the window)*/ +RGFWDEF void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow); +/*! check if DND is allowed */ +RGFWDEF RGFW_bool RGFW_window_allowsDND(RGFW_window* win); + + +#ifndef RGFW_NO_PASSTHROUGH + /*! turn on / off mouse passthrough */ + RGFWDEF void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough); +#endif + +/*! rename window to a given string */ +RGFWDEF void RGFW_window_setName(RGFW_window* win, + const char* name +); + +RGFWDEF RGFW_bool RGFW_window_setIcon(RGFW_window* win, /*!< source window */ + u8* icon /*!< icon bitmap */, + RGFW_area a /*!< width and height of the bitmap */, + i32 channels /*!< how many channels the bitmap has (rgb : 3, rgba : 4) */ +); /*!< image MAY be resized by default, set both the taskbar and window icon */ + +typedef RGFW_ENUM(u8, RGFW_icon) { + RGFW_iconTaskbar = RGFW_BIT(0), + RGFW_iconWindow = RGFW_BIT(1), + RGFW_iconBoth = RGFW_iconTaskbar | RGFW_iconWindow +}; +RGFWDEF RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type); + +/*!< sets mouse to RGFW_mouse icon (loaded from a bitmap struct) */ +RGFWDEF void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse); + +/*!< sets the mouse to a standard API cursor (based on RGFW_MOUSE, as seen at the end of the RGFW_HEADER part of this file) */ +RGFWDEF RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse); + +RGFWDEF RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win); /*!< sets the mouse to the default mouse icon */ +/* + Locks cursor at the center of the window + win->event.point becomes raw mouse movement data + + this is useful for a 3D camera +*/ +RGFWDEF void RGFW_window_mouseHold(RGFW_window* win, RGFW_area area); +/*! if the mouse is held by RGFW */ +RGFWDEF RGFW_bool RGFW_window_mouseHeld(RGFW_window* win); +/*! stop holding the mouse and let it move freely */ +RGFWDEF void RGFW_window_mouseUnhold(RGFW_window* win); + +/*! hide the window */ +RGFWDEF void RGFW_window_hide(RGFW_window* win); +/*! show the window */ +RGFWDEF void RGFW_window_show(RGFW_window* win); + +/* + makes it so `RGFW_window_shouldClose` returns true or overrides a window close + by modifying window flags +*/ +RGFWDEF void RGFW_window_setShouldClose(RGFW_window* win, RGFW_bool shouldClose); + +/*! where the mouse is on the screen */ +RGFWDEF RGFW_point RGFW_getGlobalMousePoint(void); + +/*! where the mouse is on the window */ +RGFWDEF RGFW_point RGFW_window_getMousePoint(RGFW_window* win); + +/*! show the mouse or hide the mouse */ +RGFWDEF void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show); +/*! if the mouse is hidden */ +RGFWDEF RGFW_bool RGFW_window_mouseHidden(RGFW_window* win); +/*! move the mouse to a given point */ +RGFWDEF void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v); + +/*! if the window should close (RGFW_close was sent or escape was pressed) */ +RGFWDEF RGFW_bool RGFW_window_shouldClose(RGFW_window* win); +/*! if the window is fullscreen */ +RGFWDEF RGFW_bool RGFW_window_isFullscreen(RGFW_window* win); +/*! if the window is hidden */ +RGFWDEF RGFW_bool RGFW_window_isHidden(RGFW_window* win); +/*! if the window is minimized */ +RGFWDEF RGFW_bool RGFW_window_isMinimized(RGFW_window* win); +/*! if the window is maximized */ +RGFWDEF RGFW_bool RGFW_window_isMaximized(RGFW_window* win); +/*! if the window is floating */ +RGFWDEF RGFW_bool RGFW_window_isFloating(RGFW_window* win); +/** @} */ + +/** * @defgroup Monitor +* @{ */ + +#ifndef RGFW_NO_MONITOR +/* + scale the window to the monitor. + This is run by default if the user uses the arg `RGFW_scaleToMonitor` during window creation +*/ +RGFWDEF void RGFW_window_scaleToMonitor(RGFW_window* win); +/*! get the struct of the window's monitor */ +RGFWDEF RGFW_monitor RGFW_window_getMonitor(RGFW_window* win); +#endif + +/** @} */ + +/** * @defgroup Input +* @{ */ + +/*! if window == NULL, it checks if the key is pressed globally. Otherwise, it checks only if the key is pressed while the window in focus. */ +RGFWDEF RGFW_bool RGFW_isPressed(RGFW_window* win, RGFW_key key); /*!< if key is pressed (key code)*/ + +RGFWDEF RGFW_bool RGFW_wasPressed(RGFW_window* win, RGFW_key key); /*!< if key was pressed (checks previous state only) (key code) */ + +RGFWDEF RGFW_bool RGFW_isHeld(RGFW_window* win, RGFW_key key); /*!< if key is held (key code) */ +RGFWDEF RGFW_bool RGFW_isReleased(RGFW_window* win, RGFW_key key); /*!< if key is released (key code) */ + +/* if a key is pressed and then released, pretty much the same as RGFW_isReleased */ +RGFWDEF RGFW_bool RGFW_isClicked(RGFW_window* win, RGFW_key key /*!< key code */); + +/*! if a mouse button is pressed */ +RGFWDEF RGFW_bool RGFW_isMousePressed(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); +/*! if a mouse button is held */ +RGFWDEF RGFW_bool RGFW_isMouseHeld(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); +/*! if a mouse button was released */ +RGFWDEF RGFW_bool RGFW_isMouseReleased(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); +/*! if a mouse button was pressed (checks previous state only) */ +RGFWDEF RGFW_bool RGFW_wasMousePressed(RGFW_window* win, RGFW_mouseButton button /*!< mouse button code */ ); +/** @} */ + +/** * @defgroup Clipboard +* @{ */ +typedef ptrdiff_t RGFW_ssize_t; + +RGFWDEF const char* RGFW_readClipboard(size_t* size); /*!< read clipboard data */ +/*! read clipboard data or send a NULL str to just get the length of the clipboard data */ +RGFWDEF RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity); +RGFWDEF void RGFW_writeClipboard(const char* text, u32 textLen); /*!< write text to the clipboard */ +/** @} */ + + + +/** * @defgroup error handling +* @{ */ +typedef RGFW_ENUM(u8, RGFW_debugType) { + RGFW_typeError = 0, RGFW_typeWarning, RGFW_typeInfo +}; + +typedef RGFW_ENUM(u8, RGFW_errorCode) { + RGFW_noError = 0, /*!< no error */ + RGFW_errOpenglContext, RGFW_errEGLContext, /*!< error with the OpenGL context */ + RGFW_errWayland, + RGFW_errDirectXContext, + RGFW_errIOKit, + RGFW_errClipboard, + RGFW_errFailedFuncLoad, + RGFW_errBuffer, + RGFW_infoMonitor, RGFW_infoWindow, RGFW_infoBuffer, RGFW_infoGlobal, RGFW_infoOpenGL, + RGFW_warningWayland, RGFW_warningOpenGL +}; + +typedef struct RGFW_debugContext { RGFW_window* win; RGFW_monitor* monitor; u32 srcError; } RGFW_debugContext; + +#if defined(__cplusplus) && !defined(__APPLE__) +#define RGFW_DEBUG_CTX(win, err) {win, NULL, err} +#define RGFW_DEBUG_CTX_MON(monitor) {_RGFW.root, &monitor, 0} +#else +#define RGFW_DEBUG_CTX(win, err) (RGFW_debugContext){win, NULL, err} +#define RGFW_DEBUG_CTX_MON(monitor) (RGFW_debugContext){_RGFW.root, &monitor, 0} +#endif + +typedef void (* RGFW_debugfunc)(RGFW_debugType type, RGFW_errorCode err, RGFW_debugContext ctx, const char* msg); +RGFWDEF RGFW_debugfunc RGFW_setDebugCallback(RGFW_debugfunc func); +RGFWDEF void RGFW_sendDebugInfo(RGFW_debugType type, RGFW_errorCode err, RGFW_debugContext ctx, const char* msg); +/** @} */ + +/** + + + event callbacks. + These are completely optional, so you can use the normal + RGFW_checkEvent() method if you prefer that + +* @defgroup Callbacks +* @{ +*/ + +/*! RGFW_windowMoved, the window and its new rect value */ +typedef void (* RGFW_windowMovedfunc)(RGFW_window* win, RGFW_rect r); +/*! RGFW_windowResized, the window and its new rect value */ +typedef void (* RGFW_windowResizedfunc)(RGFW_window* win, RGFW_rect r); +/*! RGFW_windowRestored, the window and its new rect value */ +typedef void (* RGFW_windowRestoredfunc)(RGFW_window* win, RGFW_rect r); +/*! RGFW_windowMaximized, the window and its new rect value */ +typedef void (* RGFW_windowMaximizedfunc)(RGFW_window* win, RGFW_rect r); +/*! RGFW_windowMinimized, the window and its new rect value */ +typedef void (* RGFW_windowMinimizedfunc)(RGFW_window* win, RGFW_rect r); +/*! RGFW_quit, the window that was closed */ +typedef void (* RGFW_windowQuitfunc)(RGFW_window* win); +/*! RGFW_focusIn / RGFW_focusOut, the window who's focus has changed and if its in focus */ +typedef void (* RGFW_focusfunc)(RGFW_window* win, RGFW_bool inFocus); +/*! RGFW_mouseEnter / RGFW_mouseLeave, the window that changed, the point of the mouse (enter only) and if the mouse has entered */ +typedef void (* RGFW_mouseNotifyfunc)(RGFW_window* win, RGFW_point point, RGFW_bool status); +/*! RGFW_mousePosChanged, the window that the move happened on, and the new point of the mouse */ +typedef void (* RGFW_mousePosfunc)(RGFW_window* win, RGFW_point point, RGFW_point vector); +/*! RGFW_DNDInit, the window, the point of the drop on the windows */ +typedef void (* RGFW_dndInitfunc)(RGFW_window* win, RGFW_point point); +/*! RGFW_windowRefresh, the window that needs to be refreshed */ +typedef void (* RGFW_windowRefreshfunc)(RGFW_window* win); +/*! RGFW_keyPressed / RGFW_keyReleased, the window that got the event, the mapped key, the physical key, the string version, the state of the mod keys, if it was a press (else it's a release) */ +typedef void (* RGFW_keyfunc)(RGFW_window* win, u8 key, u8 keyChar, RGFW_keymod keyMod, RGFW_bool pressed); +/*! RGFW_mouseButtonPressed / RGFW_mouseButtonReleased, the window that got the event, the button that was pressed, the scroll value, if it was a press (else it's a release) */ +typedef void (* RGFW_mouseButtonfunc)(RGFW_window* win, RGFW_mouseButton button, double scroll, RGFW_bool pressed); +/*! RGFW_gamepadButtonPressed, the window that got the event, the button that was pressed, the scroll value, if it was a press (else it's a release) */ +typedef void (* RGFW_gamepadButtonfunc)(RGFW_window* win, u16 gamepad, u8 button, RGFW_bool pressed); +/*! RGFW_gamepadAxisMove, the window that got the event, the gamepad in question, the axis values and the axis count */ +typedef void (* RGFW_gamepadAxisfunc)(RGFW_window* win, u16 gamepad, RGFW_point axis[2], u8 axisesCount, u8 whichAxis); +/*! RGFW_gamepadConnected / RGFW_gamepadDisconnected, the window that got the event, the gamepad in question, if the controller was connected (else it was disconnected) */ +typedef void (* RGFW_gamepadfunc)(RGFW_window* win, u16 gamepad, RGFW_bool connected); +/*! RGFW_dnd, the window that had the drop, the drop data and the number of files dropped */ +typedef void (* RGFW_dndfunc)(RGFW_window* win, char** droppedFiles, size_t droppedFilesCount); +/*! RGFW_scaleUpdated, the window the event was sent to, content scaleX, content scaleY */ +typedef void (* RGFW_scaleUpdatedfunc)(RGFW_window* win, float scaleX, float scaleY); + +/*! set callback for a window move event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_windowMovedfunc RGFW_setWindowMovedCallback(RGFW_windowMovedfunc func); +/*! set callback for a window resize event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_windowResizedfunc RGFW_setWindowResizedCallback(RGFW_windowResizedfunc func); +/*! set callback for a window quit event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_windowQuitfunc RGFW_setWindowQuitCallback(RGFW_windowQuitfunc func); +/*! set callback for a mouse move event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_mousePosfunc RGFW_setMousePosCallback(RGFW_mousePosfunc func); +/*! set callback for a window refresh event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_windowRefreshfunc RGFW_setWindowRefreshCallback(RGFW_windowRefreshfunc func); +/*! set callback for a window focus change event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_focusfunc RGFW_setFocusCallback(RGFW_focusfunc func); +/*! set callback for a mouse notify event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_mouseNotifyfunc RGFW_setMouseNotifyCallback(RGFW_mouseNotifyfunc func); +/*! set callback for a drop event event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_dndfunc RGFW_setDndCallback(RGFW_dndfunc func); +/*! set callback for a start of a drop event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_dndInitfunc RGFW_setDndInitCallback(RGFW_dndInitfunc func); +/*! set callback for a key (press / release) event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_keyfunc RGFW_setKeyCallback(RGFW_keyfunc func); +/*! set callback for a mouse button (press / release) event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_mouseButtonfunc RGFW_setMouseButtonCallback(RGFW_mouseButtonfunc func); +/*! set callback for a controller button (press / release) event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_gamepadButtonfunc RGFW_setGamepadButtonCallback(RGFW_gamepadButtonfunc func); +/*! set callback for a gamepad axis move event. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_gamepadAxisfunc RGFW_setGamepadAxisCallback(RGFW_gamepadAxisfunc func); +/*! set callback for when a controller is connected or disconnected. Returns the previous callback function (if it was set) */ +RGFWDEF RGFW_gamepadfunc RGFW_setGamepadCallback(RGFW_gamepadfunc func); +/*! set call back for when window is maximized. Returns the previous callback function (if it was set) */ +RGFWDEF RGFW_windowResizedfunc RGFW_setWindowMaximizedCallback(RGFW_windowResizedfunc func); +/*! set call back for when window is minimized. Returns the previous callback function (if it was set) */ +RGFWDEF RGFW_windowResizedfunc RGFW_setWindowMinimizedCallback(RGFW_windowResizedfunc func); +/*! set call back for when window is restored. Returns the previous callback function (if it was set) */ +RGFWDEF RGFW_windowResizedfunc RGFW_setWindowRestoredCallback(RGFW_windowResizedfunc func); +/*! set callback for when the DPI changes. Returns previous callback function (if it was set) */ +RGFWDEF RGFW_scaleUpdatedfunc RGFW_setScaleUpdatedCallback(RGFW_scaleUpdatedfunc func); +/** @} */ + +/** * @defgroup Threads +* @{ */ + +#ifndef RGFW_NO_THREADS +/*! threading functions */ + +/*! NOTE! (for X11/linux) : if you define a window in a thread, it must be run after the original thread's window is created or else there will be a memory error */ +/* + I'd suggest you use sili's threading functions instead + if you're going to use sili + which is a good idea generally +*/ + +#if defined(__unix__) || defined(__APPLE__) || defined(RGFW_WASM) || defined(RGFW_CUSTOM_BACKEND) + typedef void* (* RGFW_threadFunc_ptr)(void*); +#else + typedef DWORD (__stdcall *RGFW_threadFunc_ptr) (LPVOID lpThreadParameter); +#endif + +RGFWDEF RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args); /*!< create a thread */ +RGFWDEF void RGFW_cancelThread(RGFW_thread thread); /*!< cancels a thread */ +RGFWDEF void RGFW_joinThread(RGFW_thread thread); /*!< join thread to current thread */ +RGFWDEF void RGFW_setThreadPriority(RGFW_thread thread, u8 priority); /*!< sets the priority priority */ +#endif + +/** @} */ + +/** * @defgroup gamepad +* @{ */ + +typedef RGFW_ENUM(u8, RGFW_gamepadType) { + RGFW_gamepadMicrosoft = 0, RGFW_gamepadSony, RGFW_gamepadNintendo, RGFW_gamepadLogitech, RGFW_gamepadUnknown +}; + +/*! gamepad count starts at 0*/ +RGFWDEF u32 RGFW_isPressedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); +RGFWDEF u32 RGFW_isReleasedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); +RGFWDEF u32 RGFW_isHeldGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); +RGFWDEF u32 RGFW_wasPressedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button); +RGFWDEF RGFW_point RGFW_getGamepadAxis(RGFW_window* win, u16 controller, u16 whichAxis); +RGFWDEF const char* RGFW_getGamepadName(RGFW_window* win, u16 controller); +RGFWDEF size_t RGFW_getGamepadCount(RGFW_window* win); +RGFWDEF RGFW_gamepadType RGFW_getGamepadType(RGFW_window* win, u16 controller); + +/** @} */ + +/** * @defgroup graphics_API +* @{ */ + +/*!< make the window the current opengl drawing context + + NOTE: + if you want to switch the graphics context's thread, + you have to run RGFW_window_makeCurrent(NULL); on the old thread + then RGFW_window_makeCurrent(valid_window) on the new thread +*/ +RGFWDEF void RGFW_window_makeCurrent(RGFW_window* win); + +/*! get current RGFW window graphics context */ +RGFWDEF RGFW_window* RGFW_getCurrent(void); + +/* supports openGL, directX, OSMesa, EGL and software rendering */ +RGFWDEF void RGFW_window_swapBuffers(RGFW_window* win); /*!< swap the rendering buffer */ +RGFWDEF void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval); +/*!< render the software rendering buffer (this is called by RGFW_window_swapInterval) */ +RGFWDEF void RGFW_window_swapBuffers_software(RGFW_window* win); + +typedef void (*RGFW_proc)(void); /* function pointer equivalent of void* */ + +/*! native API functions */ +#if defined(RGFW_OPENGL) || defined(RGFW_EGL) +/*!< create an opengl context for the RGFW window, run by createWindow by default (unless the RGFW_windowNoInitAPI is included) */ +RGFWDEF void RGFW_window_initOpenGL(RGFW_window* win); +/*!< called by `RGFW_window_close` by default (unless the RGFW_windowNoInitAPI is set) */ +RGFWDEF void RGFW_window_freeOpenGL(RGFW_window* win); + +/*! OpenGL init hints */ +typedef RGFW_ENUM(u8, RGFW_glHints) { + RGFW_glStencil = 0, /*!< set stencil buffer bit size (8 by default) */ + RGFW_glSamples, /*!< set number of sampiling buffers (4 by default) */ + RGFW_glStereo, /*!< use GL_STEREO (GL_FALSE by default) */ + RGFW_glAuxBuffers, /*!< number of aux buffers (0 by default) */ + RGFW_glDoubleBuffer, /*!< request double buffering */ + RGFW_glRed, RGFW_glGreen, RGFW_glBlue, RGFW_glAlpha, /*!< set RGBA bit sizes */ + RGFW_glDepth, + RGFW_glAccumRed, RGFW_glAccumGreen, RGFW_glAccumBlue,RGFW_glAccumAlpha, /*!< set accumulated RGBA bit sizes */ + RGFW_glSRGB, /*!< request sRGA */ + RGFW_glRobustness, /*!< request a robust context */ + RGFW_glDebug, /*!< request opengl debugging */ + RGFW_glNoError, /*!< request no opengl errors */ + RGFW_glReleaseBehavior, + RGFW_glProfile, + RGFW_glMajor, RGFW_glMinor, + RGFW_glFinalHint = 32, /*!< the final hint (not for setting) */ + RGFW_releaseFlush = 0, RGFW_glReleaseNone, /* RGFW_glReleaseBehavior options */ + RGFW_glCore = 0, RGFW_glCompatibility /*!< RGFW_glProfile options */ +}; +RGFWDEF void RGFW_setGLHint(RGFW_glHints hint, i32 value); +RGFWDEF RGFW_bool RGFW_extensionSupported(const char* extension, size_t len); /*!< check if whether the specified API extension is supported by the current OpenGL or OpenGL ES context */ +RGFWDEF RGFW_proc RGFW_getProcAddress(const char* procname); /*!< get native opengl proc address */ +RGFWDEF void RGFW_window_makeCurrent_OpenGL(RGFW_window* win); /*!< to be called by RGFW_window_makeCurrent */ +RGFWDEF void RGFW_window_swapBuffers_OpenGL(RGFW_window* win); /*!< swap opengl buffer (only) called by RGFW_window_swapInterval */ +void* RGFW_getCurrent_OpenGL(void); /*!< get the current context (OpenGL backend (GLX) (WGL) (EGL) (cocoa) (webgl))*/ + +RGFWDEF RGFW_bool RGFW_extensionSupportedPlatform(const char* extension, size_t len); /*!< check if whether the specified platform-specific API extension is supported by the current OpenGL or OpenGL ES context */ +#endif +#ifdef RGFW_VULKAN + #if defined(RGFW_WAYLAND) && defined(RGFW_X11) + #define VK_USE_PLATFORM_WAYLAND_KHR + #define VK_USE_PLATFORM_XLIB_KHR + #define RGFW_VK_SURFACE ((RGFW_usingWayland()) ? ("VK_KHR_wayland_surface") : ("VK_KHR_xlib_surface")) + #elif defined(RGFW_WAYLAND) + #define VK_USE_PLATFORM_WAYLAND_KHR + #define VK_USE_PLATFORM_XLIB_KHR + #define RGFW_VK_SURFACE "VK_KHR_wayland_surface" + #elif defined(RGFW_X11) + #define VK_USE_PLATFORM_XLIB_KHR + #define RGFW_VK_SURFACE "VK_KHR_xlib_surface" + #elif defined(RGFW_WINDOWS) + #define VK_USE_PLATFORM_WIN32_KHR + #define OEMRESOURCE + #define RGFW_VK_SURFACE "VK_KHR_win32_surface" + #elif defined(RGFW_MACOS) && !defined(RGFW_MACOS_X11) + #define VK_USE_PLATFORM_MACOS_MVK + #define RGFW_VK_SURFACE "VK_MVK_macos_surface" + #else + #define RGFW_VK_SURFACE NULL + #endif + +/* if you don't want to use the above macros */ +RGFWDEF const char** RGFW_getVKRequiredInstanceExtensions(size_t* count); /*!< gets (static) extension array (and size (which will be 2)) */ + +#include + +RGFWDEF VkResult RGFW_window_createVKSurface(RGFW_window* win, VkInstance instance, VkSurfaceKHR* surface); +RGFWDEF RGFW_bool RGFW_getVKPresentationSupport(VkInstance instance, VkPhysicalDevice physicalDevice, u32 queueFamilyIndex); +#endif +#ifdef RGFW_DIRECTX +#ifndef RGFW_WINDOWS + #undef RGFW_DIRECTX +#else + #define OEMRESOURCE + #include + + #ifndef __cplusplus + #define __uuidof(T) IID_##T + #endif +RGFWDEF int RGFW_window_createDXSwapChain(RGFW_window* win, IDXGIFactory* pFactory, IUnknown* pDevice, IDXGISwapChain** swapchain); +#endif +#endif + +/** @} */ + +/** * @defgroup Supporting +* @{ */ + +/*! optional init/deinit function */ +RGFWDEF i32 RGFW_init(void); /*!< is called by default when the first window is created by default */ +RGFWDEF void RGFW_deinit(void); /*!< is called by default when the last open window is closed */ + +RGFWDEF double RGFW_getTime(void); /*!< get time in seconds since RGFW_setTime, which ran when the first window is open */ +RGFWDEF u64 RGFW_getTimeNS(void); /*!< get time in nanoseconds RGFW_setTime, which ran when the first window is open */ +RGFWDEF void RGFW_sleep(u64 milisecond); /*!< sleep for a set time */ +RGFWDEF void RGFW_setTime(double time); /*!< set timer in seconds */ +RGFWDEF u64 RGFW_getTimerValue(void); /*!< get API timer value */ +RGFWDEF u64 RGFW_getTimerFreq(void); /*!< get API time freq */ + +/*< updates fps / sets fps to cap (must by ran manually by the user at the end of a frame), returns current fps */ +RGFWDEF u32 RGFW_checkFPS(double startTime, u32 frameCount, u32 fpsCap); + +/*!< change which window is the root window */ +RGFWDEF void RGFW_setRootWindow(RGFW_window* win); +RGFWDEF RGFW_window* RGFW_getRootWindow(void); + +/*! standard event queue, used for injecting events and returning source API callback events like any other queue check */ +/* these are all used internally by RGFW */ +void RGFW_eventQueuePush(RGFW_event event); +RGFW_event* RGFW_eventQueuePop(RGFW_window* win); + +/* for C++ / C89 */ +#define RGFW_eventQueuePushEx(eventInit) { RGFW_event e; eventInit; RGFW_eventQueuePush(e); } + +/*! + key codes and mouse icon enums +*/ +#undef RGFW_key +typedef RGFW_ENUM(u8, RGFW_key) { + RGFW_keyNULL = 0, + RGFW_escape = '\033', + RGFW_backtick = '`', + RGFW_0 = '0', + RGFW_1 = '1', + RGFW_2 = '2', + RGFW_3 = '3', + RGFW_4 = '4', + RGFW_5 = '5', + RGFW_6 = '6', + RGFW_7 = '7', + RGFW_8 = '8', + RGFW_9 = '9', + + RGFW_minus = '-', + RGFW_equals = '=', + RGFW_backSpace = '\b', + RGFW_tab = '\t', + RGFW_space = ' ', + + RGFW_a = 'a', + RGFW_b = 'b', + RGFW_c = 'c', + RGFW_d = 'd', + RGFW_e = 'e', + RGFW_f = 'f', + RGFW_g = 'g', + RGFW_h = 'h', + RGFW_i = 'i', + RGFW_j = 'j', + RGFW_k = 'k', + RGFW_l = 'l', + RGFW_m = 'm', + RGFW_n = 'n', + RGFW_o = 'o', + RGFW_p = 'p', + RGFW_q = 'q', + RGFW_r = 'r', + RGFW_s = 's', + RGFW_t = 't', + RGFW_u = 'u', + RGFW_v = 'v', + RGFW_w = 'w', + RGFW_x = 'x', + RGFW_y = 'y', + RGFW_z = 'z', + + RGFW_period = '.', + RGFW_comma = ',', + RGFW_slash = '/', + RGFW_bracket = '[', + RGFW_closeBracket = ']', + RGFW_semicolon = ';', + RGFW_apostrophe = '\'', + RGFW_backSlash = '\\', + RGFW_return = '\n', + RGFW_enter = RGFW_return, + + RGFW_delete = '\177', /* 127 */ + + RGFW_F1, + RGFW_F2, + RGFW_F3, + RGFW_F4, + RGFW_F5, + RGFW_F6, + RGFW_F7, + RGFW_F8, + RGFW_F9, + RGFW_F10, + RGFW_F11, + RGFW_F12, + + RGFW_capsLock, + RGFW_shiftL, + RGFW_controlL, + RGFW_altL, + RGFW_superL, + RGFW_shiftR, + RGFW_controlR, + RGFW_altR, + RGFW_superR, + RGFW_up, + RGFW_down, + RGFW_left, + RGFW_right, + RGFW_insert, + RGFW_end, + RGFW_home, + RGFW_pageUp, + RGFW_pageDown, + + RGFW_numLock, + RGFW_KP_Slash, + RGFW_multiply, + RGFW_KP_Minus, + RGFW_KP_1, + RGFW_KP_2, + RGFW_KP_3, + RGFW_KP_4, + RGFW_KP_5, + RGFW_KP_6, + RGFW_KP_7, + RGFW_KP_8, + RGFW_KP_9, + RGFW_KP_0, + RGFW_KP_Period, + RGFW_KP_Return, + RGFW_scrollLock, + RGFW_printScreen, + RGFW_pause, + RGFW_keyLast = 256 /* padding for alignment ~(175 by default) */ + }; + + +/*! converts api keycode to the RGFW unmapped/physical key */ +RGFWDEF u32 RGFW_apiKeyToRGFW(u32 keycode); +/*! converts RGFW keycode to the unmapped/physical api key */ +RGFWDEF u32 RGFW_rgfwToApiKey(u32 keycode); +/*! converts RGFW keycode to the mapped keychar */ +RGFWDEF u8 RGFW_rgfwToKeyChar(u32 keycode); + +typedef RGFW_ENUM(u8, RGFW_mouseIcons) { + RGFW_mouseNormal = 0, + RGFW_mouseArrow, + RGFW_mouseIbeam, + RGFW_mouseCrosshair, + RGFW_mousePointingHand, + RGFW_mouseResizeEW, + RGFW_mouseResizeNS, + RGFW_mouseResizeNWSE, + RGFW_mouseResizeNESW, + RGFW_mouseResizeAll, + RGFW_mouseNotAllowed, + RGFW_mouseIconFinal = 16 /* padding for alignment */ +}; +/** @} */ + +#endif /* RGFW_HEADER */ +#if defined(RGFW_X11) || defined(RGFW_WAYLAND) + #define RGFW_OS_BASED_VALUE(l, w, m, h) l +#elif defined(RGFW_WINDOWS) + #define RGFW_OS_BASED_VALUE(l, w, m, h) w +#elif defined(RGFW_MACOS) + #define RGFW_OS_BASED_VALUE(l, w, m, h) m +#elif defined(RGFW_WASM) + #define RGFW_OS_BASED_VALUE(l, w, m, h) h +#endif + + +#ifdef RGFW_IMPLEMENTATION +RGFW_bool RGFW_useWaylandBool = 1; +void RGFW_useWayland(RGFW_bool wayland) { RGFW_useWaylandBool = wayland; } +RGFW_bool RGFW_usingWayland(void) { return RGFW_useWaylandBool; } + +#if !defined(RGFW_NO_X11) && defined(RGFW_WAYLAND) +#define RGFW_GOTO_WAYLAND(fallback) if (RGFW_useWaylandBool && fallback == 0) goto wayland +#define RGFW_WAYLAND_LABEL wayland:; +#else +#define RGFW_GOTO_WAYLAND(fallback) +#define RGFW_WAYLAND_LABEL +#endif + +char* RGFW_clipboard_data; +void RGFW_clipboard_switch(char* newstr); +void RGFW_clipboard_switch(char* newstr) { + if (RGFW_clipboard_data != NULL) + RGFW_FREE(RGFW_clipboard_data); + RGFW_clipboard_data = newstr; +} + +#define RGFW_CHECK_CLIPBOARD() \ + if (size <= 0 && RGFW_clipboard_data != NULL) \ + return (const char*)RGFW_clipboard_data; \ + else if (size <= 0) \ + return "\0"; + +const char* RGFW_readClipboard(size_t* len) { + RGFW_ssize_t size = RGFW_readClipboardPtr(NULL, 0); + RGFW_CHECK_CLIPBOARD(); + char* str = (char*)RGFW_ALLOC((size_t)size); + RGFW_ASSERT(str != NULL); + str[0] = '\0'; + + size = RGFW_readClipboardPtr(str, (size_t)size); + + RGFW_CHECK_CLIPBOARD(); + + if (len != NULL) *len = (size_t)size; + + RGFW_clipboard_switch(str); + return (const char*)str; +} + +RGFW_debugfunc RGFW_debugCallback = NULL; +RGFW_debugfunc RGFW_setDebugCallback(RGFW_debugfunc func) { + RGFW_debugfunc RGFW_debugCallbackPrev = RGFW_debugCallback; + RGFW_debugCallback = func; + return RGFW_debugCallbackPrev; +} + +#ifdef RGFW_DEBUG +#include +#endif + +void RGFW_sendDebugInfo(RGFW_debugType type, RGFW_errorCode err, RGFW_debugContext ctx, const char* msg) { + if (RGFW_debugCallback) RGFW_debugCallback(type, err, ctx, msg); + #ifdef RGFW_DEBUG + switch (type) { + case RGFW_typeInfo: printf("RGFW INFO (%i %i): %s", type, err, msg); break; + case RGFW_typeError: printf("RGFW DEBUG (%i %i): %s", type, err, msg); break; + case RGFW_typeWarning: printf("RGFW WARNING (%i %i): %s", type, err, msg); break; + default: break; + } + + switch (err) { + #ifdef RGFW_BUFFER + case RGFW_errBuffer: case RGFW_infoBuffer: printf(" buffer size: %i %i\n", ctx.win->bufferSize.w, ctx.win->bufferSize.h); break; + #endif + case RGFW_infoMonitor: printf(": scale (%s):\n rect: {%i, %i, %i, %i}\n physical size:%f %f\n scale: %f %f\n pixelRatio: %f\n refreshRate: %i\n depth: %i\n", ctx.monitor->name, ctx.monitor->x, ctx.monitor->y, ctx.monitor->mode.area.w, ctx.monitor->mode.area.h, ctx.monitor->physW, ctx.monitor->physH, ctx.monitor->scaleX, ctx.monitor->scaleY, ctx.monitor->pixelRatio, ctx.monitor->mode.refreshRate, ctx.monitor->mode.red + ctx.monitor->mode.green + ctx.monitor->mode.blue); break; + case RGFW_infoWindow: printf(" with rect of {%i, %i, %i, %i} \n", ctx.win->r.x, ctx.win->r.y,ctx. win->r.w, ctx.win->r.h); break; + case RGFW_errDirectXContext: printf(" srcError %i\n", ctx.srcError); break; + default: printf("\n"); + } + #endif +} + +u64 RGFW_timerOffset = 0; +void RGFW_setTime(double time) { + RGFW_timerOffset = RGFW_getTimerValue() - (u64)(time * (double)RGFW_getTimerFreq()); +} + +double RGFW_getTime(void) { + return (double) ((double)(RGFW_getTimerValue() - RGFW_timerOffset) / (double)RGFW_getTimerFreq()); +} + +u64 RGFW_getTimeNS(void) { + return (u64)(((double)((RGFW_getTimerValue() - RGFW_timerOffset)) * 1e9) / (double)RGFW_getTimerFreq()); +} + +/* +RGFW_IMPLEMENTATION starts with generic RGFW defines + +This is the start of keycode data +*/ + + + +/* + the c++ compiler doesn't support setting up an array like, + we'll have to do it during runtime using a function & this messy setup +*/ + +#ifndef RGFW_CUSTOM_BACKEND + +#if !defined(__cplusplus) && !defined(RGFW_C89) +#define RGFW_NEXT , +#define RGFW_MAP +#else +#define RGFW_NEXT ; +#define RGFW_MAP RGFW_keycodes +#endif + +u32 RGFW_apiKeycodes[RGFW_keyLast] = { 0 }; + +u8 RGFW_keycodes [RGFW_OS_BASED_VALUE(256, 512, 128, 256)] = { +#if defined(__cplusplus) || defined(RGFW_C89) + 0 +}; +void RGFW_init_keys(void); +void RGFW_init_keys(void) { +#endif + RGFW_MAP [RGFW_OS_BASED_VALUE(49, 0x029, 50, DOM_VK_BACK_QUOTE)] = RGFW_backtick RGFW_NEXT + + RGFW_MAP [RGFW_OS_BASED_VALUE(19, 0x00B, 29, DOM_VK_0)] = RGFW_0 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(10, 0x002, 18, DOM_VK_1)] = RGFW_1 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(11, 0x003, 19, DOM_VK_2)] = RGFW_2 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(12, 0x004, 20, DOM_VK_3)] = RGFW_3 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(13, 0x005, 21, DOM_VK_4)] = RGFW_4 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(14, 0x006, 23, DOM_VK_5)] = RGFW_5 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(15, 0x007, 22, DOM_VK_6)] = RGFW_6 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(16, 0x008, 26, DOM_VK_7)] = RGFW_7 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(17, 0x009, 28, DOM_VK_8)] = RGFW_8 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(18, 0x00A, 25, DOM_VK_9)] = RGFW_9, + RGFW_MAP [RGFW_OS_BASED_VALUE(65, 0x039, 49, DOM_VK_SPACE)] = RGFW_space, + RGFW_MAP [RGFW_OS_BASED_VALUE(38, 0x01E, 0, DOM_VK_A)] = RGFW_a RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(56, 0x030, 11, DOM_VK_B)] = RGFW_b RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(54, 0x02E, 8, DOM_VK_C)] = RGFW_c RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(40, 0x020, 2, DOM_VK_D)] = RGFW_d RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(26, 0x012, 14, DOM_VK_E)] = RGFW_e RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(41, 0x021, 3, DOM_VK_F)] = RGFW_f RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(42, 0x022, 5, DOM_VK_G)] = RGFW_g RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(43, 0x023, 4, DOM_VK_H)] = RGFW_h RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(31, 0x017, 34, DOM_VK_I)] = RGFW_i RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(44, 0x024, 38, DOM_VK_J)] = RGFW_j RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(45, 0x025, 40, DOM_VK_K)] = RGFW_k RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(46, 0x026, 37, DOM_VK_L)] = RGFW_l RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(58, 0x032, 46, DOM_VK_M)] = RGFW_m RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(57, 0x031, 45, DOM_VK_N)] = RGFW_n RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(32, 0x018, 31, DOM_VK_O)] = RGFW_o RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(33, 0x019, 35, DOM_VK_P)] = RGFW_p RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(24, 0x010, 12, DOM_VK_Q)] = RGFW_q RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(27, 0x013, 15, DOM_VK_R)] = RGFW_r RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(39, 0x01F, 1, DOM_VK_S)] = RGFW_s RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(28, 0x014, 17, DOM_VK_T)] = RGFW_t RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(30, 0x016, 32, DOM_VK_U)] = RGFW_u RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(55, 0x02F, 9, DOM_VK_V)] = RGFW_v RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(25, 0x011, 13, DOM_VK_W)] = RGFW_w RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(53, 0x02D, 7, DOM_VK_X)] = RGFW_x RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(29, 0x015, 16, DOM_VK_Y)] = RGFW_y RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(52, 0x02C, 6, DOM_VK_Z)] = RGFW_z, + RGFW_MAP [RGFW_OS_BASED_VALUE(60, 0x034, 47, DOM_VK_PERIOD)] = RGFW_period RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(59, 0x033, 43, DOM_VK_COMMA)] = RGFW_comma RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(61, 0x035, 44, DOM_VK_SLASH)] = RGFW_slash RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(34, 0x01A, 33, DOM_VK_OPEN_BRACKET)] = RGFW_bracket RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(35, 0x01B, 30, DOM_VK_CLOSE_BRACKET)] = RGFW_closeBracket RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(47, 0x027, 41, DOM_VK_SEMICOLON)] = RGFW_semicolon RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(48, 0x028, 39, DOM_VK_QUOTE)] = RGFW_apostrophe RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(51, 0x02B, 42, DOM_VK_BACK_SLASH)] = RGFW_backSlash, + RGFW_MAP [RGFW_OS_BASED_VALUE(36, 0x01C, 36, DOM_VK_RETURN)] = RGFW_return RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(119, 0x153, 118, DOM_VK_DELETE)] = RGFW_delete RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(77, 0x145, 72, DOM_VK_NUM_LOCK)] = RGFW_numLock RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(106, 0x135, 82, DOM_VK_DIVIDE)] = RGFW_KP_Slash RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(63, 0x037, 76, DOM_VK_MULTIPLY)] = RGFW_multiply RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(82, 0x04A, 67, DOM_VK_SUBTRACT)] = RGFW_KP_Minus RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(87, 0x04F, 84, DOM_VK_NUMPAD1)] = RGFW_KP_1 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(88, 0x050, 85, DOM_VK_NUMPAD2)] = RGFW_KP_2 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(89, 0x051, 86, DOM_VK_NUMPAD3)] = RGFW_KP_3 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(83, 0x04B, 87, DOM_VK_NUMPAD4)] = RGFW_KP_4 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(84, 0x04C, 88, DOM_VK_NUMPAD5)] = RGFW_KP_5 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(85, 0x04D, 89, DOM_VK_NUMPAD6)] = RGFW_KP_6 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(79, 0x047, 90, DOM_VK_NUMPAD7)] = RGFW_KP_7 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(80, 0x048, 92, DOM_VK_NUMPAD8)] = RGFW_KP_8 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(81, 0x049, 93, DOM_VK_NUMPAD9)] = RGFW_KP_9 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(90, 0x052, 83, DOM_VK_NUMPAD0)] = RGFW_KP_0 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(91, 0x053, 65, DOM_VK_DECIMAL)] = RGFW_KP_Period RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(104, 0x11C, 77, 0)] = RGFW_KP_Return, + RGFW_MAP [RGFW_OS_BASED_VALUE(20, 0x00C, 27, DOM_VK_HYPHEN_MINUS)] = RGFW_minus RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(21, 0x00D, 24, DOM_VK_EQUALS)] = RGFW_equals RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(22, 0x00E, 51, DOM_VK_BACK_SPACE)] = RGFW_backSpace RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(23, 0x00F, 48, DOM_VK_TAB)] = RGFW_tab RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(66, 0x03A, 57, DOM_VK_CAPS_LOCK)] = RGFW_capsLock RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(50, 0x02A, 56, DOM_VK_SHIFT)] = RGFW_shiftL RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(37, 0x01D, 59, DOM_VK_CONTROL)] = RGFW_controlL RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(64, 0x038, 58, DOM_VK_ALT)] = RGFW_altL RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(133, 0x15B, 55, DOM_VK_WIN)] = RGFW_superL, + #if !defined(RGFW_MACOS) && !defined(RGFW_WASM) + RGFW_MAP [RGFW_OS_BASED_VALUE(105, 0x11D, 59, 0)] = RGFW_controlR RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(134, 0x15C, 55, 0)] = RGFW_superR, + RGFW_MAP [RGFW_OS_BASED_VALUE(62, 0x036, 56, 0)] = RGFW_shiftR RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(108, 0x138, 58, 0)] = RGFW_altR, + #endif + RGFW_MAP [RGFW_OS_BASED_VALUE(67, 0x03B, 127, DOM_VK_F1)] = RGFW_F1 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(68, 0x03C, 121, DOM_VK_F2)] = RGFW_F2 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(69, 0x03D, 100, DOM_VK_F3)] = RGFW_F3 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(70, 0x03E, 119, DOM_VK_F4)] = RGFW_F4 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(71, 0x03F, 97, DOM_VK_F5)] = RGFW_F5 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(72, 0x040, 98, DOM_VK_F6)] = RGFW_F6 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(73, 0x041, 99, DOM_VK_F7)] = RGFW_F7 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(74, 0x042, 101, DOM_VK_F8)] = RGFW_F8 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(75, 0x043, 102, DOM_VK_F9)] = RGFW_F9 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(76, 0x044, 110, DOM_VK_F10)] = RGFW_F10 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(95, 0x057, 104, DOM_VK_F11)] = RGFW_F11 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(96, 0x058, 111, DOM_VK_F12)] = RGFW_F12 RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(111, 0x148, 126, DOM_VK_UP)] = RGFW_up RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(116, 0x150, 125, DOM_VK_DOWN)] = RGFW_down RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(113, 0x14B, 123, DOM_VK_LEFT)] = RGFW_left RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(114, 0x14D, 124, DOM_VK_RIGHT)] = RGFW_right RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(118, 0x152, 115, DOM_VK_INSERT)] = RGFW_insert RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(115, 0x14F, 120, DOM_VK_END)] = RGFW_end RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(112, 0x149, 117, DOM_VK_PAGE_UP)] = RGFW_pageUp RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(117, 0x151, 122, DOM_VK_PAGE_DOWN)] = RGFW_pageDown RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(9, 0x001, 53, DOM_VK_ESCAPE)] = RGFW_escape RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(110, 0x147, 116, DOM_VK_HOME)] = RGFW_home RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(78, 0x046, 107, DOM_VK_SCROLL_LOCK)] = RGFW_scrollLock RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(107, 0x137, 105, DOM_VK_PRINTSCREEN)] = RGFW_printScreen RGFW_NEXT + RGFW_MAP [RGFW_OS_BASED_VALUE(128, 0x045, 113, DOM_VK_PAUSE)] = RGFW_pause RGFW_NEXT +#if defined(__cplusplus) || defined(RGFW_C89) +} +#else +}; +#endif + +#undef RGFW_NEXT +#undef RGFW_MAP + +u32 RGFW_apiKeyToRGFW(u32 keycode) { + #if defined(__cplusplus) || defined(RGFW_C89) + if (RGFW_keycodes[RGFW_OS_BASED_VALUE(49, 0x029, 50, DOM_VK_BACK_QUOTE)] != RGFW_backtick) { + RGFW_init_keys(); + } + #endif + + /* make sure the key isn't out of bounds */ + if (keycode > sizeof(RGFW_keycodes) / sizeof(u8)) + return 0; + + return RGFW_keycodes[keycode]; +} + +u32 RGFW_rgfwToApiKey(u32 keycode) { + if (RGFW_apiKeycodes[RGFW_backtick] != RGFW_OS_BASED_VALUE(49, 0x029, 50, DOM_VK_BACK_QUOTE)) { + for (u32 i = 0; i < RGFW_keyLast; i++) { + for (u32 y = 0; y < sizeof(RGFW_keycodes); y++) { + if (RGFW_keycodes[y] == i) { + RGFW_apiKeycodes[i] = y; + break; + } + } + } + } + + /* make sure the key isn't out of bounds */ + if (keycode > sizeof(RGFW_apiKeycodes) / sizeof(u32)) + return 0; + + return RGFW_apiKeycodes[keycode]; +} +#endif /* RGFW_CUSTOM_BACKEND */ + +typedef struct { + RGFW_bool current : 1; + RGFW_bool prev : 1; +} RGFW_keyState; + +RGFW_keyState RGFW_keyboard[RGFW_keyLast] = { {0, 0} }; + +RGFWDEF void RGFW_resetKeyPrev(void); +void RGFW_resetKeyPrev(void) { + size_t i; /*!< reset each previous state */ + for (i = 0; i < RGFW_keyLast; i++) RGFW_keyboard[i].prev = 0; +} +RGFWDEF void RGFW_resetKey(void); +void RGFW_resetKey(void) { RGFW_MEMSET(RGFW_keyboard, 0, sizeof(RGFW_keyboard)); } +/* + this is the end of keycode data +*/ + +/* gamepad data */ +RGFW_keyState RGFW_gamepadPressed[4][32]; /*!< if a key is currently pressed or not (per gamepad) */ +RGFW_point RGFW_gamepadAxes[4][4]; /*!< if a key is currently pressed or not (per gamepad) */ + +RGFW_gamepadType RGFW_gamepads_type[4]; /*!< if a key is currently pressed or not (per gamepad) */ +i32 RGFW_gamepads[4] = {0, 0, 0, 0}; /*!< limit of 4 gamepads at a time */ +char RGFW_gamepads_name[4][128]; /*!< gamepad names */ +u16 RGFW_gamepadCount = 0; /*!< the actual amount of gamepads */ + +/* + event callback defines start here +*/ + + +/* + These exist to avoid the + if (func == NULL) check + for (allegedly) better performance + + RGFW_EMPTY_DEF exists to prevent the missing-prototypes warning +*/ +static void RGFW_windowMovedfuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } +static void RGFW_windowResizedfuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } +static void RGFW_windowRestoredfuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } +static void RGFW_windowMinimizedfuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } +static void RGFW_windowMaximizedfuncEMPTY(RGFW_window* win, RGFW_rect r) { RGFW_UNUSED(win); RGFW_UNUSED(r); } +static void RGFW_windowQuitfuncEMPTY(RGFW_window* win) { RGFW_UNUSED(win); } +static void RGFW_focusfuncEMPTY(RGFW_window* win, RGFW_bool inFocus) {RGFW_UNUSED(win); RGFW_UNUSED(inFocus);} +static void RGFW_mouseNotifyfuncEMPTY(RGFW_window* win, RGFW_point point, RGFW_bool status) {RGFW_UNUSED(win); RGFW_UNUSED(point); RGFW_UNUSED(status);} +static void RGFW_mousePosfuncEMPTY(RGFW_window* win, RGFW_point point, RGFW_point vector) {RGFW_UNUSED(win); RGFW_UNUSED(point); RGFW_UNUSED(vector);} +static void RGFW_dndInitfuncEMPTY(RGFW_window* win, RGFW_point point) {RGFW_UNUSED(win); RGFW_UNUSED(point);} +static void RGFW_windowRefreshfuncEMPTY(RGFW_window* win) {RGFW_UNUSED(win); } +static void RGFW_keyfuncEMPTY(RGFW_window* win, RGFW_key key, u8 keyChar, RGFW_keymod keyMod, RGFW_bool pressed) {RGFW_UNUSED(win); RGFW_UNUSED(key); RGFW_UNUSED(keyChar); RGFW_UNUSED(keyMod); RGFW_UNUSED(pressed);} +static void RGFW_mouseButtonfuncEMPTY(RGFW_window* win, RGFW_mouseButton button, double scroll, RGFW_bool pressed) {RGFW_UNUSED(win); RGFW_UNUSED(button); RGFW_UNUSED(scroll); RGFW_UNUSED(pressed);} +static void RGFW_gamepadButtonfuncEMPTY(RGFW_window* win, u16 gamepad, u8 button, RGFW_bool pressed) {RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(button); RGFW_UNUSED(pressed); } +static void RGFW_gamepadAxisfuncEMPTY(RGFW_window* win, u16 gamepad, RGFW_point axis[2], u8 axisesCount, u8 whichAxis) {RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(axis); RGFW_UNUSED(axisesCount); RGFW_UNUSED(whichAxis); } +static void RGFW_gamepadfuncEMPTY(RGFW_window* win, u16 gamepad, RGFW_bool connected) {RGFW_UNUSED(win); RGFW_UNUSED(gamepad); RGFW_UNUSED(connected);} +static void RGFW_dndfuncEMPTY(RGFW_window* win, char** droppedFiles, size_t droppedFilesCount) {RGFW_UNUSED(win); RGFW_UNUSED(droppedFiles); RGFW_UNUSED(droppedFilesCount);} +static void RGFW_scaleUpdatedfuncEMPTY(RGFW_window* win, float scaleX, float scaleY) {RGFW_UNUSED(win); RGFW_UNUSED(scaleX); RGFW_UNUSED(scaleY); } + +#define RGFW_CALLBACK_DEFINE(x, x2) \ +RGFW_##x##func RGFW_##x##Callback = RGFW_##x##funcEMPTY; \ +RGFW_##x##func RGFW_set##x2##Callback(RGFW_##x##func func) { \ + RGFW_##x##func prev = RGFW_##x##Callback; \ + RGFW_##x##Callback = func; \ + return prev; \ +} +RGFW_CALLBACK_DEFINE(windowMaximized, WindowMaximized) +RGFW_CALLBACK_DEFINE(windowMinimized, WindowMinimized) +RGFW_CALLBACK_DEFINE(windowRestored, WindowRestored) +RGFW_CALLBACK_DEFINE(windowMoved, WindowMoved) +RGFW_CALLBACK_DEFINE(windowResized, WindowResized) +RGFW_CALLBACK_DEFINE(windowQuit, WindowQuit) +RGFW_CALLBACK_DEFINE(mousePos, MousePos) +RGFW_CALLBACK_DEFINE(windowRefresh, WindowRefresh) +RGFW_CALLBACK_DEFINE(focus, Focus) +RGFW_CALLBACK_DEFINE(mouseNotify, MouseNotify) +RGFW_CALLBACK_DEFINE(dnd, Dnd) +RGFW_CALLBACK_DEFINE(dndInit, DndInit) +RGFW_CALLBACK_DEFINE(key, Key) +RGFW_CALLBACK_DEFINE(mouseButton, MouseButton) +RGFW_CALLBACK_DEFINE(gamepadButton, GamepadButton) +RGFW_CALLBACK_DEFINE(gamepadAxis, GamepadAxis) +RGFW_CALLBACK_DEFINE(gamepad, Gamepad) +RGFW_CALLBACK_DEFINE(scaleUpdated, ScaleUpdated) +#undef RGFW_CALLBACK_DEFINE + +void RGFW_window_checkEvents(RGFW_window* win, i32 waitMS) { + RGFW_window_eventWait(win, waitMS); + + while (RGFW_window_checkEvent(win) != NULL && RGFW_window_shouldClose(win) == 0) { + if (win->event.type == RGFW_quit) return; + } + + #ifdef RGFW_WASM /* WASM needs to run the sleep function for asyncify */ + RGFW_sleep(0); + #endif +} + +void RGFW_window_checkMode(RGFW_window* win); +void RGFW_window_checkMode(RGFW_window* win) { + if (RGFW_window_isMinimized(win)) { + win->_flags |= RGFW_windowMinimize; + RGFW_windowMinimizedCallback(win, win->r); + } else if (RGFW_window_isMaximized(win)) { + win->_flags |= RGFW_windowMaximize; + RGFW_eventQueuePushEx(e.type = RGFW_windowMaximized; e._win = win); + RGFW_windowMaximizedCallback(win, win->r); + } else if (((win->_flags & RGFW_windowMinimize) && !RGFW_window_isMaximized(win)) || + (win->_flags & RGFW_windowMaximize && !RGFW_window_isMaximized(win))) { + win->_flags &= ~(u32)RGFW_windowMinimize; + if (RGFW_window_isMaximized(win) == RGFW_FALSE) win->_flags &= ~(u32)RGFW_windowMaximize; + RGFW_eventQueuePushEx(e.type = RGFW_windowRestored; e._win = win); + RGFW_windowRestoredCallback(win, win->r); + } +} + +/* +no more event call back defines +*/ + +#define SET_ATTRIB(a, v) { \ + RGFW_ASSERT(((size_t) index + 1) < sizeof(attribs) / sizeof(attribs[0])); \ + attribs[index++] = a; \ + attribs[index++] = v; \ +} + +#define RGFW_EVENT_PASSED RGFW_BIT(24) /* if a queued event was passed */ +#define RGFW_EVENT_QUIT RGFW_BIT(25) /* the window close button was pressed */ +#define RGFW_HOLD_MOUSE RGFW_BIT(26) /*!< hold the moues still */ +#define RGFW_MOUSE_LEFT RGFW_BIT(27) /* if mouse left the window */ +#define RGFW_WINDOW_ALLOC RGFW_BIT(28) /* if window was allocated by RGFW */ +#define RGFW_BUFFER_ALLOC RGFW_BIT(29) /* if window.buffer was allocated by RGFW */ +#define RGFW_WINDOW_INIT RGFW_BIT(30) /* if window.buffer was allocated by RGFW */ +#define RGFW_INTERNAL_FLAGS (RGFW_EVENT_QUIT | RGFW_EVENT_PASSED | RGFW_HOLD_MOUSE | RGFW_MOUSE_LEFT | RGFW_WINDOW_ALLOC | RGFW_BUFFER_ALLOC | RGFW_windowFocus) + +RGFW_window* RGFW_createWindow(const char* name, RGFW_rect rect, RGFW_windowFlags flags) { + RGFW_window* win = (RGFW_window*)RGFW_ALLOC(sizeof(RGFW_window)); + RGFW_ASSERT(win != NULL); + win->_flags = RGFW_WINDOW_ALLOC; + return RGFW_createWindowPtr(name, rect, flags, win); +} + +#if defined(RGFW_USE_XDL) && defined(RGFW_X11) + #define XDL_IMPLEMENTATION + #include "XDL.h" +#endif + +#define RGFW_MAX_EVENTS 32 +typedef struct RGFW_globalStruct { + RGFW_window* root; + RGFW_window* current; + i32 windowCount; + i32 eventLen; + i32 eventIndex; + + #ifdef RGFW_X11 + Display* display; + Window helperWindow; + char* clipboard; /* for writing to the clipboard selection */ + size_t clipboard_len; + #endif + #ifdef RGFW_WAYLAND + struct wl_display* wl_display; + #endif + #if defined(RGFW_X11) || defined(RGFW_WINDOWS) || defined(RGFW_WAYLAND) + RGFW_mouse* hiddenMouse; + #endif + RGFW_event events[RGFW_MAX_EVENTS]; + +} RGFW_globalStruct; +#if !defined(RGFW_C89) && !defined(__cplusplus) +RGFW_globalStruct _RGFW = {.root = NULL, .current = NULL, .windowCount = -1, .eventLen = 0, .eventIndex = 0}; +#define _RGFW_init RGFW_TRUE +#else +RGFW_bool _RGFW_init = RGFW_FALSE; +RGFW_globalStruct _RGFW; +#endif + +void RGFW_eventQueuePush(RGFW_event event) { + if (_RGFW.eventLen >= RGFW_MAX_EVENTS) return; + _RGFW.events[_RGFW.eventLen] = event; + _RGFW.eventLen++; +} + +RGFW_event* RGFW_eventQueuePop(RGFW_window* win) { + RGFW_event* ev; + if (_RGFW.eventLen == 0) return NULL; + + ev = (RGFW_event*)&_RGFW.events[_RGFW.eventIndex]; + + _RGFW.eventLen--; + if (_RGFW.eventLen >= 0 && _RGFW.eventIndex < _RGFW.eventLen) { + _RGFW.eventIndex++; + } else if (_RGFW.eventLen == 0) { + _RGFW.eventIndex = 0; + } + + if (ev->_win != win && ev->_win != NULL) { + RGFW_eventQueuePush(*ev); + return NULL; + } + + ev->droppedFilesCount = win->event.droppedFilesCount; + ev->droppedFiles = win->event.droppedFiles; + return ev; +} + +RGFW_event* RGFW_window_checkEventCore(RGFW_window* win); +RGFW_event* RGFW_window_checkEventCore(RGFW_window* win) { + RGFW_event* ev; + RGFW_ASSERT(win != NULL); + if (win->event.type == 0 && _RGFW.eventLen == 0) + RGFW_resetKeyPrev(); + + if (win->event.type == RGFW_quit && win->_flags & RGFW_windowFreeOnClose) { + static RGFW_event event; + event = win->event; + RGFW_window_close(win); + return &event; + } + + if (win->event.type != RGFW_DNDInit) win->event.type = 0; + + /* check queued events */ + ev = RGFW_eventQueuePop(win); + if (ev != NULL) { + if (ev->type == RGFW_quit) RGFW_window_setShouldClose(win, RGFW_TRUE); + win->event = *ev; + } + else return NULL; + + return &win->event; +} + + +RGFWDEF void RGFW_window_basic_init(RGFW_window* win, RGFW_rect rect, RGFW_windowFlags flags); +void RGFW_setRootWindow(RGFW_window* win) { _RGFW.root = win; } +RGFW_window* RGFW_getRootWindow(void) { return _RGFW.root; } + +/* do a basic initialization for RGFW_window, this is to standard it for each OS */ +void RGFW_window_basic_init(RGFW_window* win, RGFW_rect rect, RGFW_windowFlags flags) { + RGFW_UNUSED(flags); + if (_RGFW.windowCount == -1 || _RGFW_init == RGFW_FALSE) RGFW_init(); + _RGFW.windowCount++; + + /* rect based the requested flags */ + if (_RGFW.root == NULL) { + RGFW_setRootWindow(win); + RGFW_setTime(0); + } + + if (!(win->_flags & RGFW_WINDOW_ALLOC)) win->_flags = 0; + + /* set and init the new window's data */ + win->r = rect; + win->exitKey = RGFW_escape; + win->event.droppedFilesCount = 0; + + win->_flags = 0 | (win->_flags & RGFW_WINDOW_ALLOC); + win->_flags |= flags; + win->event.keyMod = 0; + win->_lastMousePoint.x = 0; + win->_lastMousePoint.y = 0; + + win->event.droppedFiles = (char**)RGFW_ALLOC(RGFW_MAX_PATH * RGFW_MAX_DROPS); + RGFW_ASSERT(win->event.droppedFiles != NULL); + + { + u32 i; + for (i = 0; i < RGFW_MAX_DROPS; i++) + win->event.droppedFiles[i] = (char*)(win->event.droppedFiles + RGFW_MAX_DROPS + (i * RGFW_MAX_PATH)); + } +} + +void RGFW_window_setFlags(RGFW_window* win, RGFW_windowFlags flags) { + RGFW_windowFlags cmpFlags = win->_flags; + if (win->_flags & RGFW_WINDOW_INIT) cmpFlags = 0; + + #ifndef RGFW_NO_MONITOR + if (flags & RGFW_windowScaleToMonitor) RGFW_window_scaleToMonitor(win); + #endif + + if (flags & RGFW_windowCenter) RGFW_window_center(win); + if (flags & RGFW_windowCenterCursor) + RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); + if (flags & RGFW_windowNoBorder) RGFW_window_setBorder(win, 0); + else RGFW_window_setBorder(win, 1); + if (flags & RGFW_windowFullscreen) RGFW_window_setFullscreen(win, RGFW_TRUE); + else if (cmpFlags & RGFW_windowFullscreen) RGFW_window_setFullscreen(win, 0); + if (flags & RGFW_windowMaximize) RGFW_window_maximize(win); + else if (cmpFlags & RGFW_windowMaximize) RGFW_window_restore(win); + if (flags & RGFW_windowMinimize) RGFW_window_minimize(win); + else if (cmpFlags & RGFW_windowMinimize) RGFW_window_restore(win); + if (flags & RGFW_windowHideMouse) RGFW_window_showMouse(win, 0); + else if (cmpFlags & RGFW_windowHideMouse) RGFW_window_showMouse(win, 1); + if (flags & RGFW_windowHide) RGFW_window_hide(win); + else if (cmpFlags & RGFW_windowHide) RGFW_window_show(win); + if (flags & RGFW_windowCocoaCHDirToRes) RGFW_moveToMacOSResourceDir(); + if (flags & RGFW_windowFloating) RGFW_window_setFloating(win, 1); + else if (cmpFlags & RGFW_windowFloating) RGFW_window_setFloating(win, 0); + if (flags & RGFW_windowFocus) RGFW_window_focus(win); + + if (flags & RGFW_windowNoResize) { + RGFW_window_setMaxSize(win, RGFW_AREA(win->r.w, win->r.h)); + RGFW_window_setMinSize(win, RGFW_AREA(win->r.w, win->r.h)); + } else if (cmpFlags & RGFW_windowNoResize) { + RGFW_window_setMaxSize(win, RGFW_AREA(0, 0)); + RGFW_window_setMinSize(win, RGFW_AREA(0, 0)); + } + + win->_flags = flags | (win->_flags & RGFW_INTERNAL_FLAGS); +} + +RGFW_bool RGFW_window_opengl_isSoftware(RGFW_window* win) { + return RGFW_BOOL(win->_flags |= RGFW_windowOpenglSoftware); +} + +RGFW_bool RGFW_window_isInFocus(RGFW_window* win) { +#ifdef RGFW_WASM + return RGFW_TRUE; +#else + return RGFW_BOOL(win->_flags & RGFW_windowFocus); +#endif +} + +void RGFW_window_initBuffer(RGFW_window* win) { + RGFW_area area = RGFW_getScreenSize(); + if ((win->_flags & RGFW_windowNoResize)) + area = RGFW_AREA(win->r.w, win->r.h); + + RGFW_window_initBufferSize(win, area); +} + +void RGFW_window_initBufferSize(RGFW_window* win, RGFW_area area) { +#if defined(RGFW_BUFFER) || defined(RGFW_OSMESA) + win->_flags |= RGFW_BUFFER_ALLOC; + #ifndef RGFW_WINDOWS + u8* buffer = (u8*)RGFW_ALLOC(area.w * area.h * 4); + RGFW_ASSERT(buffer != NULL); + + RGFW_window_initBufferPtr(win, buffer, area); + #else /* windows's bitmap allocs memory for us */ + RGFW_window_initBufferPtr(win, (u8*)NULL, area); + #endif +#else + RGFW_UNUSED(win); RGFW_UNUSED(area); +#endif +} + +#ifdef RGFW_MACOS +RGFWDEF void RGFW_window_cocoaSetLayer(RGFW_window* win, void* layer); +RGFWDEF void* RGFW_cocoaGetLayer(void); +#endif + +const char* RGFW_className = NULL; +void RGFW_setClassName(const char* name) { RGFW_className = name; } + +#ifndef RGFW_X11 +void RGFW_setXInstName(const char* name) { RGFW_UNUSED(name); } +#endif + +RGFW_keyState RGFW_mouseButtons[RGFW_mouseFinal] = { {0, 0}, {0, 0}, {0, 0}, {0, 0}, {0, 0} }; + +RGFW_bool RGFW_isMousePressed(RGFW_window* win, RGFW_mouseButton button) { + return RGFW_mouseButtons[button].current && (win == NULL || RGFW_window_isInFocus(win)); +} +RGFW_bool RGFW_wasMousePressed(RGFW_window* win, RGFW_mouseButton button) { + return RGFW_mouseButtons[button].prev && (win != NULL || RGFW_window_isInFocus(win)); +} +RGFW_bool RGFW_isMouseHeld(RGFW_window* win, RGFW_mouseButton button) { + return (RGFW_isMousePressed(win, button) && RGFW_wasMousePressed(win, button)); +} +RGFW_bool RGFW_isMouseReleased(RGFW_window* win, RGFW_mouseButton button) { + return (!RGFW_isMousePressed(win, button) && RGFW_wasMousePressed(win, button)); +} + +RGFW_point RGFW_window_getMousePoint(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + return win->_lastMousePoint; +} + +RGFW_bool RGFW_isPressed(RGFW_window* win, RGFW_key key) { + return RGFW_keyboard[key].current && (win == NULL || RGFW_window_isInFocus(win)); +} + +RGFW_bool RGFW_wasPressed(RGFW_window* win, RGFW_key key) { + return RGFW_keyboard[key].prev && (win == NULL || RGFW_window_isInFocus(win)); +} + +RGFW_bool RGFW_isHeld(RGFW_window* win, RGFW_key key) { + return (RGFW_isPressed(win, key) && RGFW_wasPressed(win, key)); +} + +RGFW_bool RGFW_isClicked(RGFW_window* win, RGFW_key key) { + return (RGFW_wasPressed(win, key) && !RGFW_isPressed(win, key)); +} + +RGFW_bool RGFW_isReleased(RGFW_window* win, RGFW_key key) { + return (!RGFW_isPressed(win, key) && RGFW_wasPressed(win, key)); +} + +void RGFW_window_makeCurrent(RGFW_window* win) { + _RGFW.current = win; +#if defined(RGFW_OPENGL) || defined(RGFW_EGL) + RGFW_window_makeCurrent_OpenGL(win); +#endif +} + +RGFW_window* RGFW_getCurrent(void) { + return _RGFW.current; +} + +void RGFW_window_swapBuffers(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_window_swapBuffers_software(win); +#if defined(RGFW_OPENGL) || defined(RGFW_EGL) + RGFW_window_swapBuffers_OpenGL(win); +#endif +} + +RGFWDEF void RGFW_setBit(u32* data, u32 bit, RGFW_bool value); +void RGFW_setBit(u32* data, u32 bit, RGFW_bool value) { + if (value) + *data |= bit; + else if (!value && (*(data) & bit)) + *data ^= bit; +} + +void RGFW_window_center(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_area screenR = RGFW_getScreenSize(); + RGFW_window_move(win, RGFW_POINT((i32)(screenR.w - (u32)win->r.w) / 2, (screenR.h - (u32)win->r.h) / 2)); +} + +RGFW_bool RGFW_monitor_scaleToWindow(RGFW_monitor mon, RGFW_window* win) { + RGFW_monitorMode mode; + RGFW_ASSERT(win != NULL); + + mode.area.w = (u32)win->r.w; + mode.area.h = (u32)win->r.h; + return RGFW_monitor_requestMode(mon, mode, RGFW_monitorScale); +} + +void RGFW_splitBPP(u32 bpp, RGFW_monitorMode* mode); +void RGFW_splitBPP(u32 bpp, RGFW_monitorMode* mode) { + if (bpp == 32) bpp = 24; + mode->red = mode->green = mode->blue = (u8)(bpp / 3); + + u32 delta = bpp - (mode->red * 3); /* handle leftovers */ + if (delta >= 1) mode->green = mode->green + 1; + if (delta == 2) mode->red = mode->red + 1; +} + +RGFW_bool RGFW_monitorModeCompare(RGFW_monitorMode mon, RGFW_monitorMode mon2, RGFW_modeRequest request) { + return (((mon.area.w == mon2.area.w && mon.area.h == mon2.area.h) || !(request & RGFW_monitorScale)) && + ((mon.refreshRate == mon2.refreshRate) || !(request & RGFW_monitorRefresh)) && + ((mon.red == mon2.red && mon.green == mon2.green && mon.blue == mon2.blue) || !(request & RGFW_monitorRGB))); +} + +RGFW_bool RGFW_window_shouldClose(RGFW_window* win) { + return (win == NULL || (win->_flags & RGFW_EVENT_QUIT)|| (win->exitKey && RGFW_isPressed(win, win->exitKey))); +} + +void RGFW_window_setShouldClose(RGFW_window* win, RGFW_bool shouldClose) { + if (shouldClose) { + win->_flags |= RGFW_EVENT_QUIT; + RGFW_windowQuitCallback(win); + } else { + win->_flags &= ~(u32)RGFW_EVENT_QUIT; + } +} + +#ifndef RGFW_NO_MONITOR +void RGFW_window_scaleToMonitor(RGFW_window* win) { + RGFW_monitor monitor = RGFW_window_getMonitor(win); + if (monitor.scaleX == 0 && monitor.scaleY == 0) + return; + + RGFW_window_resize(win, RGFW_AREA((u32)(monitor.scaleX * (float)win->r.w), (u32)(monitor.scaleY * (float)win->r.h))); +} + +void RGFW_window_moveToMonitor(RGFW_window* win, RGFW_monitor m) { + RGFW_window_move(win, RGFW_POINT(m.x + win->r.x, m.y + win->r.y)); +} +#endif + +RGFW_bool RGFW_window_setIcon(RGFW_window* win, u8* icon, RGFW_area a, i32 channels) { + return RGFW_window_setIconEx(win, icon, a, channels, RGFW_iconBoth); +} + +RGFWDEF void RGFW_captureCursor(RGFW_window* win, RGFW_rect); +RGFWDEF void RGFW_releaseCursor(RGFW_window* win); + + +RGFW_bool RGFW_window_mouseHeld(RGFW_window* win) { return RGFW_BOOL(win->_flags & RGFW_HOLD_MOUSE); } + +void RGFW_window_mouseHold(RGFW_window* win, RGFW_area area) { + if (!area.w && !area.h) + area = RGFW_AREA(win->r.w / 2, win->r.h / 2); + + win->_flags |= RGFW_HOLD_MOUSE; + RGFW_captureCursor(win, win->r); + RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); +} + +void RGFW_window_mouseUnhold(RGFW_window* win) { + win->_flags &= ~(u32)RGFW_HOLD_MOUSE; + RGFW_releaseCursor(win); +} + +u32 RGFW_checkFPS(double startTime, u32 frameCount, u32 fpsCap) { + double deltaTime = RGFW_getTime() - startTime; + if (deltaTime == 0) return 0; + + double fps = (frameCount / deltaTime); /* the numer of frames over the time it took for them to render */ + if (fpsCap && fps > fpsCap) { + double frameTime = (double)frameCount / (double)fpsCap; /* how long it should take to finish the frames */ + double sleepTime = frameTime - deltaTime; /* subtract how long it should have taken with how long it did take */ + + if (sleepTime > 0) RGFW_sleep((u32)(sleepTime * 1000)); + } + + return (u32) fps; +} + +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) +void RGFW_RGB_to_BGR(RGFW_window* win, u8* data) { + #if !defined(RGFW_BUFFER_BGR) && !defined(RGFW_OSMESA) + u32 x, y; + for (y = 0; y < (u32)win->r.h; y++) { + for (x = 0; x < (u32)win->r.w; x++) { + u32 index = (y * 4 * win->bufferSize.w) + x * 4; + + u8 red = data[index]; + data[index] = win->buffer[index + 2]; + data[index + 2] = red; + } + } + #elif defined(RGFW_OSMESA) + u32 y; + for(y = 0; y < (u32)win->r.h; y++){ + u32 index_from = (y + (win->bufferSize.h - win->r.h)) * 4 * win->bufferSize.w; + u32 index_to = y * 4 * win->bufferSize.w; + memcpy(&data[index_to], &data[index_from], 4 * win->bufferSize.w); + } + #else + RGFW_UNUSED(win); RGFW_UNUSED(data); + #endif +} +#endif + +u32 RGFW_isPressedGamepad(RGFW_window* win, u8 c, RGFW_gamepadCodes button) { + RGFW_UNUSED(win); + return RGFW_gamepadPressed[c][button].current; +} +u32 RGFW_wasPressedGamepad(RGFW_window* win, u8 c, RGFW_gamepadCodes button) { + RGFW_UNUSED(win); + return RGFW_gamepadPressed[c][button].prev; +} +u32 RGFW_isReleasedGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button) { + RGFW_UNUSED(win); + return !RGFW_isPressedGamepad(win, controller, button) && RGFW_wasPressedGamepad(win, controller, button); +} +u32 RGFW_isHeldGamepad(RGFW_window* win, u8 controller, RGFW_gamepadCodes button) { + RGFW_UNUSED(win); + return RGFW_isPressedGamepad(win, controller, button) && RGFW_wasPressedGamepad(win, controller, button); +} + +RGFW_point RGFW_getGamepadAxis(RGFW_window* win, u16 controller, u16 whichAxis) { + RGFW_UNUSED(win); + return RGFW_gamepadAxes[controller][whichAxis]; +} +const char* RGFW_getGamepadName(RGFW_window* win, u16 controller) { + RGFW_UNUSED(win); + return (const char*)RGFW_gamepads_name[controller]; +} + +size_t RGFW_getGamepadCount(RGFW_window* win) { + RGFW_UNUSED(win); + return RGFW_gamepadCount; +} + +RGFW_gamepadType RGFW_getGamepadType(RGFW_window* win, u16 controller) { + RGFW_UNUSED(win); + return RGFW_gamepads_type[controller]; +} + +RGFWDEF void RGFW_updateKeyMod(RGFW_window* win, RGFW_keymod mod, RGFW_bool value); +void RGFW_updateKeyMod(RGFW_window* win, RGFW_keymod mod, RGFW_bool value) { + if (value) win->event.keyMod |= mod; + else win->event.keyMod &= ~mod; +} + +RGFWDEF void RGFW_updateKeyModsPro(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll); +void RGFW_updateKeyModsPro(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll) { + RGFW_updateKeyMod(win, RGFW_modCapsLock, capital); + RGFW_updateKeyMod(win, RGFW_modNumLock, numlock); + RGFW_updateKeyMod(win, RGFW_modControl, control); + RGFW_updateKeyMod(win, RGFW_modAlt, alt); + RGFW_updateKeyMod(win, RGFW_modShift, shift); + RGFW_updateKeyMod(win, RGFW_modSuper, super); + RGFW_updateKeyMod(win, RGFW_modScrollLock, scroll); +} + +RGFWDEF void RGFW_updateKeyMods(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool scroll); +void RGFW_updateKeyMods(RGFW_window* win, RGFW_bool capital, RGFW_bool numlock, RGFW_bool scroll) { + RGFW_updateKeyModsPro(win, capital, numlock, + RGFW_isPressed(win, RGFW_controlL) || RGFW_isPressed(win, RGFW_controlR), + RGFW_isPressed(win, RGFW_altL) || RGFW_isPressed(win, RGFW_altR), + RGFW_isPressed(win, RGFW_shiftL) || RGFW_isPressed(win, RGFW_shiftR), + RGFW_isPressed(win, RGFW_superL) || RGFW_isPressed(win, RGFW_superR), + scroll); +} + +RGFWDEF void RGFW_window_showMouseFlags(RGFW_window* win, RGFW_bool show); +void RGFW_window_showMouseFlags(RGFW_window* win, RGFW_bool show) { + if (show && (win->_flags & RGFW_windowHideMouse)) + win->_flags ^= RGFW_windowHideMouse; + else if (!show && !(win->_flags & RGFW_windowHideMouse)) + win->_flags |= RGFW_windowHideMouse; +} + +RGFW_bool RGFW_window_mouseHidden(RGFW_window* win) { + return (RGFW_bool)RGFW_BOOL(win->_flags & RGFW_windowHideMouse); +} + +RGFW_bool RGFW_window_borderless(RGFW_window* win) { + return (RGFW_bool)RGFW_BOOL(win->_flags & RGFW_windowNoBorder); +} + +RGFW_bool RGFW_window_isFullscreen(RGFW_window* win){ return RGFW_BOOL(win->_flags & RGFW_windowFullscreen); } +RGFW_bool RGFW_window_allowsDND(RGFW_window* win) { return RGFW_BOOL(win->_flags & RGFW_windowAllowDND); } + +void RGFW_window_focusLost(RGFW_window* win) { + /* standard routines for when a window looses focus */ + _RGFW.root->_flags &= ~(u32)RGFW_windowFocus; + if ((win->_flags & RGFW_windowFullscreen)) + RGFW_window_minimize(win); + + for (size_t key = 0; key < RGFW_keyLast; key++) { + if (RGFW_isPressed(NULL, (u8)key) == RGFW_FALSE) continue; + RGFW_keyboard[key].current = RGFW_FALSE; + u8 keyChar = RGFW_rgfwToKeyChar((u32)key); + RGFW_keyCallback(win, (u8)key, keyChar, win->event.keyMod, RGFW_FALSE); + RGFW_eventQueuePushEx(e.type = RGFW_keyReleased; + e.key = (u8)key; + e.keyChar = keyChar; + e.repeat = RGFW_FALSE; + e.keyMod = win->event.keyMod; + e._win = win); + } + + RGFW_resetKey(); +} + +#ifndef RGFW_WINDOWS +void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow) { + RGFW_setBit(&win->_flags, RGFW_windowAllowDND, allow); +} +#endif + +#if defined(RGFW_X11) || defined(RGFW_MACOS) || defined(RGFW_WASM) || defined(RGFW_WAYLAND) +#ifndef __USE_POSIX199309 + #define __USE_POSIX199309 +#endif +#include +struct timespec; +#endif + +#if defined(RGFW_WAYLAND) || defined(RGFW_X11) || defined(RGFW_WINDOWS) +void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { + RGFW_window_showMouseFlags(win, show); + if (show == 0) + RGFW_window_setMouse(win, _RGFW.hiddenMouse); + else + RGFW_window_setMouseDefault(win); +} +#endif + +#ifndef RGFW_MACOS +void RGFW_moveToMacOSResourceDir(void) { } +#endif + +/* + graphics API specific code (end of generic code) + starts here +*/ + + +/* + OpenGL defines start here (Normal, EGL, OSMesa) +*/ + +#if defined(RGFW_OPENGL) || defined(RGFW_EGL) + +#ifdef RGFW_WINDOWS + #define WIN32_LEAN_AND_MEAN + #define OEMRESOURCE + #include +#endif + +#if !defined(__APPLE__) && !defined(RGFW_NO_GL_HEADER) + #include +#elif defined(__APPLE__) + #ifndef GL_SILENCE_DEPRECATION + #define GL_SILENCE_DEPRECATION + #endif + #include + #include +#endif + +/* EGL, normal OpenGL only */ +#ifndef RGFW_EGL +i32 RGFW_GL_HINTS[RGFW_glFinalHint] = {8, +#else +i32 RGFW_GL_HINTS[RGFW_glFinalHint] = {0, +#endif + 0, 0, 0, 1, 8, 8, 8, 8, 24, 0, 0, 0, 0, 0, 0, 0, 0, RGFW_glReleaseNone, RGFW_glCore, 0, 0}; + +void RGFW_setGLHint(RGFW_glHints hint, i32 value) { + if (hint < RGFW_glFinalHint && hint) RGFW_GL_HINTS[hint] = value; +} + +RGFW_bool RGFW_extensionSupportedStr(const char* extensions, const char* ext, size_t len) { + const char *start = extensions; + const char *where; + const char* terminator; + + if (extensions == NULL || ext == NULL) + return RGFW_FALSE; + + where = strstr(extensions, ext); + while (where) { + terminator = where + len; + if ((where == start || *(where - 1) == ' ') && + (*terminator == ' ' || *terminator == '\0')) { + return RGFW_TRUE; + } + where = RGFW_STRSTR(terminator, ext); + } + + return RGFW_FALSE; +} + +RGFW_bool RGFW_extensionSupported(const char* extension, size_t len) { + #ifdef GL_NUM_EXTENSIONS + if (RGFW_GL_HINTS[RGFW_glMajor] >= 3) { + i32 i; + GLint count = 0; + + RGFW_proc RGFW_glGetStringi = RGFW_getProcAddress("glGetStringi"); + RGFW_proc RGFW_glGetIntegerv = RGFW_getProcAddress("RGFW_glGetIntegerv"); + if (RGFW_glGetIntegerv) + ((void(*)(GLenum, GLint*))RGFW_glGetIntegerv)(GL_NUM_EXTENSIONS, &count); + + for (i = 0; RGFW_glGetStringi && i < count; i++) { + const char* en = ((const char* (*)(u32, u32))RGFW_glGetStringi)(GL_EXTENSIONS, (u32)i); + if (en && RGFW_STRNCMP(en, extension, len) == 0) + return RGFW_TRUE; + } + } else +#endif + { + RGFW_proc RGFW_glGetString = RGFW_getProcAddress("glGetString"); + + if (RGFW_glGetString) { + const char* extensions = ((const char*(*)(u32))RGFW_glGetString)(GL_EXTENSIONS); + if ((extensions != NULL) && RGFW_extensionSupportedStr(extensions, extension, len)) + return RGFW_TRUE; + } + } + + return RGFW_extensionSupportedPlatform(extension, len); +} + +/* OPENGL normal only (no EGL / OSMesa) */ +#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) && !defined(RGFW_CUSTOM_BACKEND) && !defined(RGFW_WASM) + +#define RGFW_GL_RENDER_TYPE RGFW_OS_BASED_VALUE(GLX_X_VISUAL_TYPE, 0x2003, 73, 0) + #define RGFW_GL_ALPHA_SIZE RGFW_OS_BASED_VALUE(GLX_ALPHA_SIZE, 0x201b, 11, 0) + #define RGFW_GL_DEPTH_SIZE RGFW_OS_BASED_VALUE(GLX_DEPTH_SIZE, 0x2022, 12, 0) + #define RGFW_GL_DOUBLEBUFFER RGFW_OS_BASED_VALUE(GLX_DOUBLEBUFFER, 0x2011, 5, 0) + #define RGFW_GL_STENCIL_SIZE RGFW_OS_BASED_VALUE(GLX_STENCIL_SIZE, 0x2023, 13, 0) + #define RGFW_GL_SAMPLES RGFW_OS_BASED_VALUE(GLX_SAMPLES, 0x2042, 55, 0) + #define RGFW_GL_STEREO RGFW_OS_BASED_VALUE(GLX_STEREO, 0x2012, 6, 0) + #define RGFW_GL_AUX_BUFFERS RGFW_OS_BASED_VALUE(GLX_AUX_BUFFERS, 0x2024, 7, 0) + +#if defined(RGFW_X11) || defined(RGFW_WINDOWS) + #define RGFW_GL_DRAW RGFW_OS_BASED_VALUE(GLX_X_RENDERABLE, 0x2001, 0, 0) + #define RGFW_GL_DRAW_TYPE RGFW_OS_BASED_VALUE(GLX_RENDER_TYPE, 0x2013, 0, 0) + #define RGFW_GL_FULL_FORMAT RGFW_OS_BASED_VALUE(GLX_TRUE_COLOR, 0x2027, 0, 0) + #define RGFW_GL_RED_SIZE RGFW_OS_BASED_VALUE(GLX_RED_SIZE, 0x2015, 0, 0) + #define RGFW_GL_GREEN_SIZE RGFW_OS_BASED_VALUE(GLX_GREEN_SIZE, 0x2017, 0, 0) + #define RGFW_GL_BLUE_SIZE RGFW_OS_BASED_VALUE(GLX_BLUE_SIZE, 0x2019, 0, 0) + #define RGFW_GL_USE_RGBA RGFW_OS_BASED_VALUE(GLX_RGBA_BIT, 0x202B, 0, 0) + #define RGFW_GL_ACCUM_RED_SIZE RGFW_OS_BASED_VALUE(14, 0x201E, 0, 0) + #define RGFW_GL_ACCUM_GREEN_SIZE RGFW_OS_BASED_VALUE(15, 0x201F, 0, 0) + #define RGFW_GL_ACCUM_BLUE_SIZE RGFW_OS_BASED_VALUE(16, 0x2020, 0, 0) + #define RGFW_GL_ACCUM_ALPHA_SIZE RGFW_OS_BASED_VALUE(17, 0x2021, 0, 0) + #define RGFW_GL_SRGB RGFW_OS_BASED_VALUE(0x20b2, 0x3089, 0, 0) + #define RGFW_GL_NOERROR RGFW_OS_BASED_VALUE(0x31b3, 0x31b3, 0, 0) + #define RGFW_GL_FLAGS RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) + #define RGFW_GL_RELEASE_BEHAVIOR RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_ARB, 0x2097 , 0, 0) + #define RGFW_GL_CONTEXT_RELEASE RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_FLUSH_ARB, 0x2098, 0, 0) + #define RGFW_GL_CONTEXT_NONE RGFW_OS_BASED_VALUE(GLX_CONTEXT_RELEASE_BEHAVIOR_NONE_ARB, 0x0000, 0, 0) + #define RGFW_GL_FLAGS RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) + #define RGFW_GL_DEBUG_BIT RGFW_OS_BASED_VALUE(GLX_CONTEXT_FLAGS_ARB, 0x2094, 0, 0) + #define RGFW_GL_ROBUST_BIT RGFW_OS_BASED_VALUE(GLX_CONTEXT_ROBUST_ACCESS_BIT_ARB, 0x00000004, 0, 0) +#endif + +#ifdef RGFW_WINDOWS + #define WGL_SUPPORT_OPENGL_ARB 0x2010 + #define WGL_COLOR_BITS_ARB 0x2014 + #define WGL_NUMBER_PIXEL_FORMATS_ARB 0x2000 + #define WGL_CONTEXT_MAJOR_VERSION_ARB 0x2091 + #define WGL_CONTEXT_MINOR_VERSION_ARB 0x2092 + #define WGL_CONTEXT_PROFILE_MASK_ARB 0x9126 + #define WGL_CONTEXT_CORE_PROFILE_BIT_ARB 0x00000001 + #define WGL_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB 0x00000002 + #define WGL_SAMPLE_BUFFERS_ARB 0x2041 + #define WGL_FRAMEBUFFER_SRGB_CAPABLE_ARB 0x20a9 + #define WGL_PIXEL_TYPE_ARB 0x2013 + #define WGL_TYPE_RGBA_ARB 0x202B + + #define WGL_TRANSPARENT_ARB 0x200A +#endif + +/* The window'ing api needs to know how to render the data we (or opengl) give it + MacOS and Windows do this using a structure called a "pixel format" + X11 calls it a "Visual" + This function returns the attributes for the format we want */ +i32* RGFW_initFormatAttribs(void); +i32* RGFW_initFormatAttribs(void) { + static i32 attribs[] = { + #if defined(RGFW_X11) || defined(RGFW_WINDOWS) + RGFW_GL_RENDER_TYPE, + RGFW_GL_FULL_FORMAT, + RGFW_GL_DRAW, 1, + RGFW_GL_DRAW_TYPE , RGFW_GL_USE_RGBA, + #endif + + #ifdef RGFW_X11 + GLX_DRAWABLE_TYPE , GLX_WINDOW_BIT, + #endif + + #ifdef RGFW_MACOS + 72, + 8, 24, + #endif + + #ifdef RGFW_WINDOWS + WGL_SUPPORT_OPENGL_ARB, 1, + WGL_PIXEL_TYPE_ARB, WGL_TYPE_RGBA_ARB, + WGL_COLOR_BITS_ARB, 32, + #endif + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 + }; + + size_t index = (sizeof(attribs) / sizeof(attribs[0])) - 27; + + #define RGFW_GL_ADD_ATTRIB(attrib, attVal) \ + if (attVal) { \ + attribs[index] = attrib;\ + attribs[index + 1] = attVal;\ + index += 2;\ + } + + #if defined(RGFW_MACOS) && defined(RGFW_COCOA_GRAPHICS_SWITCHING) + RGFW_GL_ADD_ATTRIB(96, kCGLPFASupportsAutomaticGraphicsSwitching); + #endif + + RGFW_GL_ADD_ATTRIB(RGFW_GL_DOUBLEBUFFER, 1); + + RGFW_GL_ADD_ATTRIB(RGFW_GL_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAlpha]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_DEPTH_SIZE, RGFW_GL_HINTS[RGFW_glDepth]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_STENCIL_SIZE, RGFW_GL_HINTS[RGFW_glStencil]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_STEREO, RGFW_GL_HINTS[RGFW_glStereo]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_AUX_BUFFERS, RGFW_GL_HINTS[RGFW_glAuxBuffers]); + + #if defined(RGFW_X11) || defined(RGFW_WINDOWS) + RGFW_GL_ADD_ATTRIB(RGFW_GL_RED_SIZE, RGFW_GL_HINTS[RGFW_glRed]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glBlue]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glGreen]); + #endif + + #if defined(RGFW_X11) || defined(RGFW_WINDOWS) + RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_RED_SIZE, RGFW_GL_HINTS[RGFW_glAccumRed]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glAccumBlue]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glAccumGreen]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_ACCUM_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAccumAlpha]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_SRGB, RGFW_GL_HINTS[RGFW_glSRGB]); + RGFW_GL_ADD_ATTRIB(RGFW_GL_NOERROR, RGFW_GL_HINTS[RGFW_glNoError]); + + if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_releaseFlush) { + RGFW_GL_ADD_ATTRIB(RGFW_GL_RELEASE_BEHAVIOR, RGFW_GL_CONTEXT_RELEASE); + } else if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_glReleaseNone) { + RGFW_GL_ADD_ATTRIB(RGFW_GL_RELEASE_BEHAVIOR, RGFW_GL_CONTEXT_NONE); + } + + i32 flags = 0; + if (RGFW_GL_HINTS[RGFW_glDebug]) flags |= RGFW_GL_DEBUG_BIT; + if (RGFW_GL_HINTS[RGFW_glRobustness]) flags |= RGFW_GL_ROBUST_BIT; + RGFW_GL_ADD_ATTRIB(RGFW_GL_FLAGS, flags); + #else + i32 accumSize = (i32)(RGFW_GL_HINTS[RGFW_glAccumRed] + RGFW_GL_HINTS[RGFW_glAccumGreen] + RGFW_GL_HINTS[RGFW_glAccumBlue] + RGFW_GL_HINTS[RGFW_glAccumAlpha]) / 4; + RGFW_GL_ADD_ATTRIB(14, accumSize); + #endif + + #ifndef RGFW_X11 + RGFW_GL_ADD_ATTRIB(RGFW_GL_SAMPLES, RGFW_GL_HINTS[RGFW_glSamples]); + #endif + + #ifdef RGFW_MACOS + if (_RGFW.root->_flags & RGFW_windowOpenglSoftware) { + RGFW_GL_ADD_ATTRIB(70, kCGLRendererGenericFloatID); + } else { + attribs[index] = RGFW_GL_RENDER_TYPE; + index += 1; + } + #endif + + #ifdef RGFW_MACOS + /* macOS has the surface attribs and the opengl attribs connected for some reason + maybe this is to give macOS more control to limit openGL/the opengl version? */ + + attribs[index] = 99; + attribs[index + 1] = 0x1000; + + + if (RGFW_GL_HINTS[RGFW_glMajor] >= 4 || RGFW_GL_HINTS[RGFW_glMajor] >= 3) { + attribs[index + 1] = (i32) ((RGFW_GL_HINTS[RGFW_glMajor] >= 4) ? 0x4100 : 0x3200); + } + #endif + + RGFW_GL_ADD_ATTRIB(0, 0); + + return attribs; +} + +/* EGL only (no OSMesa nor normal OPENGL) */ +#elif defined(RGFW_EGL) + +#include + +#if defined(RGFW_LINK_EGL) + typedef EGLBoolean(EGLAPIENTRY* PFN_eglInitialize)(EGLDisplay, EGLint*, EGLint*); + + PFNEGLINITIALIZEPROC eglInitializeSource; + PFNEGLGETCONFIGSPROC eglGetConfigsSource; + PFNEGLCHOOSECONFIgamepadROC eglChooseConfigSource; + PFNEGLCREATEWINDOWSURFACEPROC eglCreateWindowSurfaceSource; + PFNEGLCREATECONTEXTPROC eglCreateContextSource; + PFNEGLMAKECURRENTPROC eglMakeCurrentSource; + PFNEGLGETDISPLAYPROC eglGetDisplaySource; + PFNEGLSWAPBUFFERSPROC eglSwapBuffersSource; + PFNEGLSWAPINTERVALPROC eglSwapIntervalSource; + PFNEGLBINDAPIPROC eglBindAPISource; + PFNEGLDESTROYCONTEXTPROC eglDestroyContextSource; + PFNEGLTERMINATEPROC eglTerminateSource; + PFNEGLDESTROYSURFACEPROC eglDestroySurfaceSource; + + #define eglInitialize eglInitializeSource + #define eglGetConfigs eglGetConfigsSource + #define eglChooseConfig eglChooseConfigSource + #define eglCreateWindowSurface eglCreateWindowSurfaceSource + #define eglCreateContext eglCreateContextSource + #define eglMakeCurrent eglMakeCurrentSource + #define eglGetDisplay eglGetDisplaySource + #define eglSwapBuffers eglSwapBuffersSource + #define eglSwapInterval eglSwapIntervalSource + #define eglBindAPI eglBindAPISource + #define eglDestroyContext eglDestroyContextSource + #define eglTerminate eglTerminateSource + #define eglDestroySurface eglDestroySurfaceSource; +#endif + + +#define EGL_SURFACE_MAJOR_VERSION_KHR 0x3098 +#define EGL_SURFACE_MINOR_VERSION_KHR 0x30fb + +#ifndef RGFW_GL_ADD_ATTRIB +#define RGFW_GL_ADD_ATTRIB(attrib, attVal) \ + if (attVal) { \ + attribs[index] = attrib;\ + attribs[index + 1] = attVal;\ + index += 2;\ + } +#endif + + +void RGFW_window_initOpenGL(RGFW_window* win) { +#if defined(RGFW_LINK_EGL) + eglInitializeSource = (PFNEGLINITIALIZEPROC) eglGetProcAddress("eglInitialize"); + eglGetConfigsSource = (PFNEGLGETCONFIGSPROC) eglGetProcAddress("eglGetConfigs"); + eglChooseConfigSource = (PFNEGLCHOOSECONFIgamepadROC) eglGetProcAddress("eglChooseConfig"); + eglCreateWindowSurfaceSource = (PFNEGLCREATEWINDOWSURFACEPROC) eglGetProcAddress("eglCreateWindowSurface"); + eglCreateContextSource = (PFNEGLCREATECONTEXTPROC) eglGetProcAddress("eglCreateContext"); + eglMakeCurrentSource = (PFNEGLMAKECURRENTPROC) eglGetProcAddress("eglMakeCurrent"); + eglGetDisplaySource = (PFNEGLGETDISPLAYPROC) eglGetProcAddress("eglGetDisplay"); + eglSwapBuffersSource = (PFNEGLSWAPBUFFERSPROC) eglGetProcAddress("eglSwapBuffers"); + eglSwapIntervalSource = (PFNEGLSWAPINTERVALPROC) eglGetProcAddress("eglSwapInterval"); + eglBindAPISource = (PFNEGLBINDAPIPROC) eglGetProcAddress("eglBindAPI"); + eglDestroyContextSource = (PFNEGLDESTROYCONTEXTPROC) eglGetProcAddress("eglDestroyContext"); + eglTerminateSource = (PFNEGLTERMINATEPROC) eglGetProcAddress("eglTerminate"); + eglDestroySurfaceSource = (PFNEGLDESTROYSURFACEPROC) eglGetProcAddress("eglDestroySurface"); + + RGFW_ASSERT(eglInitializeSource != NULL && + eglGetConfigsSource != NULL && + eglChooseConfigSource != NULL && + eglCreateWindowSurfaceSource != NULL && + eglCreateContextSource != NULL && + eglMakeCurrentSource != NULL && + eglGetDisplaySource != NULL && + eglSwapBuffersSource != NULL && + eglSwapIntervalsSource != NULL && + eglBindAPISource != NULL && + eglDestroyContextSource != NULL && + eglTerminateSource != NULL && + eglDestroySurfaceSource != NULL); +#endif /* RGFW_LINK_EGL */ + +#ifdef RGFW_WAYLAND + if (RGFW_useWaylandBool) + win->src.eglWindow = wl_egl_window_create(win->src.surface, win->r.w, win->r.h); +#endif + + #ifdef RGFW_WINDOWS + win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.hdc); + #elif defined(RGFW_MACOS) + win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType)0); + #elif defined(RGFW_WAYLAND) + if (RGFW_useWaylandBool) + win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.wl_display); + else + #endif + #ifdef RGFW_X11 + win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.display); + #else + {} + #endif + #if !defined(RGFW_WAYLAND) && !defined(RGFW_WINDOWS) && !defined(RGFW_X11) + win->src.EGL_display = eglGetDisplay((EGLNativeDisplayType) win->src.display); + #endif + + EGLint major, minor; + + eglInitialize(win->src.EGL_display, &major, &minor); + + #ifndef EGL_OPENGL_ES1_BIT + #define EGL_OPENGL_ES1_BIT 0x1 + #endif + + EGLint egl_config[24] = { + EGL_SURFACE_TYPE, EGL_WINDOW_BIT, + EGL_RENDERABLE_TYPE, + #ifdef RGFW_OPENGL_ES1 + EGL_OPENGL_ES1_BIT, + #elif defined(RGFW_OPENGL_ES3) + EGL_OPENGL_ES3_BIT, + #elif defined(RGFW_OPENGL_ES2) + EGL_OPENGL_ES2_BIT, + #else + EGL_OPENGL_BIT, + #endif + EGL_NONE, EGL_NONE + }; + + { + size_t index = 7; + EGLint* attribs = egl_config; + + RGFW_GL_ADD_ATTRIB(EGL_RED_SIZE, RGFW_GL_HINTS[RGFW_glRed]); + RGFW_GL_ADD_ATTRIB(EGL_GREEN_SIZE, RGFW_GL_HINTS[RGFW_glBlue]); + RGFW_GL_ADD_ATTRIB(EGL_BLUE_SIZE, RGFW_GL_HINTS[RGFW_glGreen]); + RGFW_GL_ADD_ATTRIB(EGL_ALPHA_SIZE, RGFW_GL_HINTS[RGFW_glAlpha]); + RGFW_GL_ADD_ATTRIB(EGL_DEPTH_SIZE, RGFW_GL_HINTS[RGFW_glDepth]); + + if (RGFW_GL_HINTS[RGFW_glSRGB]) + RGFW_GL_ADD_ATTRIB(0x3089, RGFW_GL_HINTS[RGFW_glSRGB]); + + RGFW_GL_ADD_ATTRIB(EGL_NONE, EGL_NONE); + } + + EGLConfig config; + EGLint numConfigs; + eglChooseConfig(win->src.EGL_display, egl_config, &config, 1, &numConfigs); + + #if defined(RGFW_MACOS) + void* layer = RGFW_cocoaGetLayer(); + + RGFW_window_cocoaSetLayer(win, layer); + + win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) layer, NULL); + #elif defined(RGFW_WINDOWS) + win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); + #elif defined(RGFW_WAYLAND) + if (RGFW_useWaylandBool) + win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.eglWindow, NULL); + else + #endif + #ifdef RGFW_X11 + win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); + #else + {} + #endif + #if !defined(RGFW_X11) && !defined(RGFW_WAYLAND) && !defined(RGFW_MACOS) + win->src.EGL_surface = eglCreateWindowSurface(win->src.EGL_display, config, (EGLNativeWindowType) win->src.window, NULL); + #endif + + EGLint attribs[12]; + size_t index = 0; + +#ifdef RGFW_OPENGL_ES1 + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_CLIENT_VERSION, 1); +#elif defined(RGFW_OPENGL_ES2) + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_CLIENT_VERSION, 2); +#elif defined(RGFW_OPENGL_ES3) + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_CLIENT_VERSION, 3); +#endif + + RGFW_GL_ADD_ATTRIB(EGL_STENCIL_SIZE, RGFW_GL_HINTS[RGFW_glStencil]); + RGFW_GL_ADD_ATTRIB(EGL_SAMPLES, RGFW_GL_HINTS[RGFW_glSamples]); + + if (RGFW_GL_HINTS[RGFW_glDoubleBuffer] == 0) + RGFW_GL_ADD_ATTRIB(EGL_RENDER_BUFFER, EGL_SINGLE_BUFFER); + + if (RGFW_GL_HINTS[RGFW_glMajor]) { + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_MAJOR_VERSION, RGFW_GL_HINTS[RGFW_glMajor]); + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_MINOR_VERSION, RGFW_GL_HINTS[RGFW_glMinor]); + + if (RGFW_GL_HINTS[RGFW_glProfile] == RGFW_glCore) { + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_PROFILE_MASK, EGL_CONTEXT_OPENGL_CORE_PROFILE_BIT); + } + else { + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_PROFILE_MASK, EGL_CONTEXT_OPENGL_COMPATIBILITY_PROFILE_BIT); + } + } + + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_ROBUST_ACCESS, RGFW_GL_HINTS[RGFW_glRobustness]); + RGFW_GL_ADD_ATTRIB(EGL_CONTEXT_OPENGL_DEBUG, RGFW_GL_HINTS[RGFW_glDebug]); + if (RGFW_GL_HINTS[RGFW_glReleaseBehavior] == RGFW_releaseFlush) { + RGFW_GL_ADD_ATTRIB(0x2097, 0x2098); + } else { + RGFW_GL_ADD_ATTRIB(0x2096, 0x0000); + } + + RGFW_GL_ADD_ATTRIB(EGL_NONE, EGL_NONE); + + #if defined(RGFW_OPENGL_ES1) || defined(RGFW_OPENGL_ES2) || defined(RGFW_OPENGL_ES3) + eglBindAPI(EGL_OPENGL_ES_API); + #else + eglBindAPI(EGL_OPENGL_API); + #endif + + win->src.EGL_context = eglCreateContext(win->src.EGL_display, config, EGL_NO_CONTEXT, attribs); + + if (win->src.EGL_context == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errEGLContext, RGFW_DEBUG_CTX(win, 0), "failed to create an EGL opengl context"); + return; + } + + eglMakeCurrent(win->src.EGL_display, win->src.EGL_surface, win->src.EGL_surface, win->src.EGL_context); + eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "EGL opengl context initalized"); +} + +void RGFW_window_freeOpenGL(RGFW_window* win) { + if (win->src.EGL_display == NULL) return; + + eglDestroySurface(win->src.EGL_display, win->src.EGL_surface); + eglDestroyContext(win->src.EGL_display, win->src.EGL_context); + eglTerminate(win->src.EGL_display); + win->src.EGL_display = NULL; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "EGL opengl context freed"); +} + +void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { + if (win == NULL) + eglMakeCurrent(_RGFW.root->src.EGL_display, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT); + else { + eglMakeCurrent(win->src.EGL_display, win->src.EGL_surface, win->src.EGL_surface, win->src.EGL_context); + } +} + +void RGFW_window_swapBuffers_OpenGL(RGFW_window* win) { eglSwapBuffers(win->src.EGL_display, win->src.EGL_surface); } + +void* RGFW_getCurrent_OpenGL(void) { return eglGetCurrentContext(); } + +#ifdef RGFW_APPLE +void* RGFWnsglFramework = NULL; +#elif defined(RGFW_WINDOWS) +HMODULE RGFW_wgl_dll = NULL; +#endif + +RGFW_proc RGFW_getProcAddress(const char* procname) { + #if defined(RGFW_WINDOWS) + RGFW_proc proc = (RGFW_proc) GetProcAddress(RGFW_wgl_dll, procname); + + if (proc) + return proc; + #endif + + return (RGFW_proc) eglGetProcAddress(procname); +} + +RGFW_bool RGFW_extensionSupportedPlatform(const char* extension, size_t len) { + const char* extensions = eglQueryString(_RGFW.root->src.EGL_display, EGL_EXTENSIONS); + return extensions != NULL && RGFW_extensionSupportedStr(extensions, extension, len); +} + +void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { + RGFW_ASSERT(win != NULL); + + eglSwapInterval(win->src.EGL_display, swapInterval); + +} + +#endif /* RGFW_EGL */ + +/* + end of RGFW_EGL defines +*/ +#endif /* end of RGFW_GL (OpenGL, EGL, OSMesa )*/ + +/* + RGFW_VULKAN defines +*/ +#ifdef RGFW_VULKAN +#ifdef RGFW_MACOS +#include +#endif + +const char** RGFW_getVKRequiredInstanceExtensions(size_t* count) { + static const char* arr[2] = {VK_KHR_SURFACE_EXTENSION_NAME}; + arr[1] = RGFW_VK_SURFACE; + if (count != NULL) *count = 2; + + return (const char**)arr; +} + +VkResult RGFW_window_createVKSurface(RGFW_window* win, VkInstance instance, VkSurfaceKHR* surface) { + RGFW_ASSERT(win != NULL); RGFW_ASSERT(instance); + RGFW_ASSERT(surface != NULL); + + *surface = VK_NULL_HANDLE; + +#ifdef RGFW_X11 + RGFW_GOTO_WAYLAND(0); + VkXlibSurfaceCreateInfoKHR x11 = { VK_STRUCTURE_TYPE_XLIB_SURFACE_CREATE_INFO_KHR, 0, 0, (Display*) win->src.display, (Window) win->src.window }; + return vkCreateXlibSurfaceKHR(instance, &x11, NULL, surface); +#endif +#if defined(RGFW_WAYLAND) +RGFW_WAYLAND_LABEL + VkWaylandSurfaceCreateInfoKHR wayland = { VK_STRUCTURE_TYPE_WAYLAND_SURFACE_CREATE_INFO_KHR, 0, 0, (struct wl_display*) win->src.wl_display, (struct wl_surface*) win->src.surface }; + return vkCreateWaylandSurfaceKHR(instance, &wayland, NULL, surface); +#elif defined(RGFW_WINDOWS) + VkWin32SurfaceCreateInfoKHR win32 = { VK_STRUCTURE_TYPE_WIN32_SURFACE_CREATE_INFO_KHR, 0, 0, GetModuleHandle(NULL), (HWND)win->src.window }; + + return vkCreateWin32SurfaceKHR(instance, &win32, NULL, surface); +#elif defined(RGFW_MACOS) && !defined(RGFW_MACOS_X11) + void* contentView = ((void* (*)(id, SEL))objc_msgSend)((id)win->src.window, sel_getUid("contentView")); + VkMacOSSurfaceCreateFlagsMVK macos = { VK_STRUCTURE_TYPE_MACOS_SURFACE_CREATE_INFO_MVK, 0, 0, win->src.display, (void*)contentView }; + + return vkCreateMacOSSurfaceMVK(instance, &macos, NULL, surface); +#endif +} + + +RGFW_bool RGFW_getVKPresentationSupport(VkInstance instance, VkPhysicalDevice physicalDevice, u32 queueFamilyIndex) { + RGFW_ASSERT(instance); + if (_RGFW.windowCount == -1 || _RGFW_init == RGFW_FALSE) RGFW_init(); +#ifdef RGFW_X11 + RGFW_GOTO_WAYLAND(0); + Visual* visual = DefaultVisual(_RGFW.display, DefaultScreen(_RGFW.display)); + if (_RGFW.root) + visual = _RGFW.root->src.visual.visual; + + RGFW_bool out = vkGetPhysicalDeviceXlibPresentationSupportKHR(physicalDevice, queueFamilyIndex, _RGFW.display, XVisualIDFromVisual(visual)); + return out; +#endif +#if defined(RGFW_WAYLAND) +RGFW_WAYLAND_LABEL + RGFW_bool wlout = vkGetPhysicalDeviceWaylandPresentationSupportKHR(physicalDevice, queueFamilyIndex, _RGFW.wl_display); + return wlout; +#elif defined(RGFW_WINDOWS) +#elif defined(RGFW_MACOS) && !defined(RGFW_MACOS_X11) + return RGFW_FALSE; /* TODO */ +#endif +} +#endif /* end of RGFW_vulkan */ + +/* +This is where OS specific stuff starts +*/ + + +#if (defined(RGFW_WAYLAND) || defined(RGFW_X11)) && !defined(RGFW_NO_LINUX) + int RGFW_eventWait_forceStop[] = {0, 0, 0}; /* for wait events */ + + #if defined(__linux__) + #include + #include + #include + #include + + u32 RGFW_linux_updateGamepad(RGFW_window* win); + u32 RGFW_linux_updateGamepad(RGFW_window* win) { + /* check for new gamepads */ + static const char* str[] = {"/dev/input/js0", "/dev/input/js1", "/dev/input/js2", "/dev/input/js3", "/dev/input/js4", "/dev/input/js5"}; + static u8 RGFW_rawGamepads[6]; + { + u16 i; + for (i = 0; i < 6; i++) { + u16 index = RGFW_gamepadCount; + if (RGFW_rawGamepads[i]) { + struct input_id device_info; + if (ioctl(RGFW_rawGamepads[i], EVIOCGID, &device_info) == -2) { + if (errno == ENODEV) { + RGFW_rawGamepads[i] = 0; + } + } + continue; + } + + i32 js = open(str[i], O_RDONLY); + + if (js <= 0) + break; + + if (RGFW_gamepadCount >= 4) { + close(js); + break; + } + + RGFW_rawGamepads[i] = 1; + + int axes, buttons; + if (ioctl(js, JSIOCGAXES, &axes) < 0 || ioctl(js, JSIOCGBUTTONS, &buttons) < 0) { + close(js); + continue; + } + + if (buttons <= 5 || buttons >= 30) { + close(js); + continue; + } + + RGFW_gamepadCount++; + + RGFW_gamepads[index] = js; + + ioctl(js, JSIOCGNAME(sizeof(RGFW_gamepads_name[index])), RGFW_gamepads_name[index]); + RGFW_gamepads_name[index][sizeof(RGFW_gamepads_name[index]) - 1] = 0; + + u8 j; + for (j = 0; j < 16; j++) { + RGFW_gamepadPressed[index][j].prev = 0; + RGFW_gamepadPressed[index][j].current = 0; + } + + win->event.type = RGFW_gamepadConnected; + + RGFW_gamepads_type[index] = RGFW_gamepadUnknown; + if (RGFW_STRSTR(RGFW_gamepads_name[index], "Microsoft") || RGFW_STRSTR(RGFW_gamepads_name[index], "X-Box")) + RGFW_gamepads_type[index] = RGFW_gamepadMicrosoft; + else if (RGFW_STRSTR(RGFW_gamepads_name[index], "PlayStation") || RGFW_STRSTR(RGFW_gamepads_name[index], "PS3") || RGFW_STRSTR(RGFW_gamepads_name[index], "PS4") || RGFW_STRSTR(RGFW_gamepads_name[index], "PS5")) + RGFW_gamepads_type[index] = RGFW_gamepadSony; + else if (RGFW_STRSTR(RGFW_gamepads_name[index], "Nintendo")) + RGFW_gamepads_type[index] = RGFW_gamepadNintendo; + else if (RGFW_STRSTR(RGFW_gamepads_name[index], "Logitech")) + RGFW_gamepads_type[index] = RGFW_gamepadLogitech; + + win->event.gamepad = index; + RGFW_gamepadCallback(win, index, 1); + return 1; + } + } + /* check gamepad events */ + u8 i; + + for (i = 0; i < RGFW_gamepadCount; i++) { + struct js_event e; + if (RGFW_gamepads[i] == 0) + continue; + + i32 flags = fcntl(RGFW_gamepads[i], F_GETFL, 0); + fcntl(RGFW_gamepads[i], F_SETFL, flags | O_NONBLOCK); + + ssize_t bytes; + while ((bytes = read(RGFW_gamepads[i], &e, sizeof(e))) > 0) { + switch (e.type) { + case JS_EVENT_BUTTON: { + size_t typeIndex = 0; + if (RGFW_gamepads_type[i] == RGFW_gamepadMicrosoft) typeIndex = 1; + else if (RGFW_gamepads_type[i] == RGFW_gamepadLogitech) typeIndex = 2; + + win->event.type = e.value ? RGFW_gamepadButtonPressed : RGFW_gamepadButtonReleased; + u8 RGFW_linux2RGFW[3][RGFW_gamepadR3 + 8] = {{ /* ps */ + RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadY, RGFW_gamepadX, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, + RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight, + },{ /* xbox */ + RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadSelect, RGFW_gamepadStart, + RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, 255, 255, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight + },{ /* Logitech */ + RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, + RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight + } + }; + + win->event.button = RGFW_linux2RGFW[typeIndex][e.number]; + win->event.gamepad = i; + if (win->event.button == 255) break; + + RGFW_gamepadPressed[i][win->event.button].prev = RGFW_gamepadPressed[i][win->event.button].current; + RGFW_gamepadPressed[i][win->event.button].current = RGFW_BOOL(e.value); + RGFW_gamepadButtonCallback(win, i, win->event.button, RGFW_BOOL(e.value)); + + return 1; + } + case JS_EVENT_AXIS: { + size_t axis = e.number / 2; + if (axis == 2) axis = 1; + + ioctl(RGFW_gamepads[i], JSIOCGAXES, &win->event.axisesCount); + win->event.axisesCount = 2; + + if (axis < 3) { + if (e.number == 0 || e.number == 3) + RGFW_gamepadAxes[i][axis].x = (i32)((e.value / 32767.0f) * 100); + else if (e.number == 1 || e.number == 4) { + RGFW_gamepadAxes[i][axis].y = (i32)((e.value / 32767.0f) * 100); + } + } + + win->event.axis[axis] = RGFW_gamepadAxes[i][axis]; + win->event.type = RGFW_gamepadAxisMove; + win->event.gamepad = i; + win->event.whichAxis = (u8)axis; + RGFW_gamepadAxisCallback(win, i, win->event.axis, win->event.axisesCount, win->event.whichAxis); + return 1; + } + default: break; + } + } + if (bytes == -1 && errno == ENODEV) { + RGFW_gamepadCount--; + close(RGFW_gamepads[i]); + RGFW_gamepads[i] = 0; + + win->event.type = RGFW_gamepadDisconnected; + win->event.gamepad = i; + RGFW_gamepadCallback(win, i, 0); + return 1; + } + } + return 0; + } + + #endif +#endif + + + +/* + + Start of Wayland defines + + +*/ + +#ifdef RGFW_WAYLAND +/* +Wayland TODO: (out of date) +- fix RGFW_keyPressed lock state + + RGFW_windowMoved, the window was moved (by the user) + RGFW_windowResized the window was resized (by the user), [on WASM this means the browser was resized] + RGFW_windowRefresh The window content needs to be refreshed + + RGFW_DND a file has been dropped into the window + RGFW_DNDInit + +- window args: + #define RGFW_windowNoResize the window cannot be resized by the user + #define RGFW_windowAllowDND the window supports drag and drop + #define RGFW_scaleToMonitor scale the window to the screen + +- other missing functions functions ("TODO wayland") (~30 functions) +- fix buffer rendering weird behavior +*/ +#include +#include +#include +#include +#include +#include +#include +#include + +RGFW_window* RGFW_key_win = NULL; + +/* wayland global garbage (wayland bad, X11 is fine (ish) (not really)) */ +#include "xdg-shell.h" +#include "xdg-decoration-unstable-v1.h" + +struct xkb_context *xkb_context; +struct xkb_keymap *keymap = NULL; +struct xkb_state *xkb_state = NULL; +enum zxdg_toplevel_decoration_v1_mode client_preferred_mode, RGFW_current_mode; +struct zxdg_decoration_manager_v1 *decoration_manager = NULL; + +struct wl_cursor_theme* RGFW_wl_cursor_theme = NULL; +struct wl_surface* RGFW_cursor_surface = NULL; +struct wl_cursor_image* RGFW_cursor_image = NULL; + +void xdg_wm_base_ping_handler(void *data, + struct xdg_wm_base *wm_base, uint32_t serial) +{ + RGFW_UNUSED(data); + xdg_wm_base_pong(wm_base, serial); +} + +const struct xdg_wm_base_listener xdg_wm_base_listener = { + .ping = xdg_wm_base_ping_handler, +}; + +RGFW_bool RGFW_wl_configured = 0; + +void xdg_surface_configure_handler(void *data, + struct xdg_surface *xdg_surface, uint32_t serial) +{ + RGFW_UNUSED(data); + xdg_surface_ack_configure(xdg_surface, serial); + RGFW_wl_configured = 1; +} + +const struct xdg_surface_listener xdg_surface_listener = { + .configure = xdg_surface_configure_handler, +}; + +void xdg_toplevel_configure_handler(void *data, + struct xdg_toplevel *toplevel, int32_t width, int32_t height, + struct wl_array *states) +{ + RGFW_UNUSED(data); RGFW_UNUSED(toplevel); RGFW_UNUSED(states); + RGFW_UNUSED(width); RGFW_UNUSED(height); +} + +void xdg_toplevel_close_handler(void *data, + struct xdg_toplevel *toplevel) +{ + RGFW_UNUSED(data); + RGFW_window* win = (RGFW_window*)xdg_toplevel_get_user_data(toplevel); + if (win == NULL) + win = RGFW_key_win; + + RGFW_eventQueuePushEx(e.type = RGFW_quit; e._win = win); + RGFW_windowQuitCallback(win); +} + +void shm_format_handler(void *data, + struct wl_shm *shm, uint32_t format) +{ + RGFW_UNUSED(data); RGFW_UNUSED(shm); RGFW_UNUSED(format); +} + +const struct wl_shm_listener shm_listener = { + .format = shm_format_handler, +}; + +const struct xdg_toplevel_listener xdg_toplevel_listener = { + .configure = xdg_toplevel_configure_handler, + .close = xdg_toplevel_close_handler, +}; + +RGFW_window* RGFW_mouse_win = NULL; + +void pointer_enter(void *data, struct wl_pointer *pointer, uint32_t serial, struct wl_surface *surface, wl_fixed_t surface_x, wl_fixed_t surface_y) { + RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(serial); RGFW_UNUSED(surface_x); RGFW_UNUSED(surface_y); + RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); + RGFW_mouse_win = win; + + RGFW_eventQueuePushEx(e.type = RGFW_mouseEnter; + e.point = RGFW_POINT(wl_fixed_to_double(surface_x), wl_fixed_to_double(surface_y)); + e._win = win); + + RGFW_mouseNotifyCallback(win, win->event.point, RGFW_TRUE); +} +void pointer_leave(void *data, struct wl_pointer *pointer, uint32_t serial, struct wl_surface *surface) { + RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(serial); RGFW_UNUSED(surface); + RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); + if (RGFW_mouse_win == win) + RGFW_mouse_win = NULL; + + RGFW_eventQueuePushEx(e.type = RGFW_mouseLeave; + e.point = win->event.point; + e._win = win); + + RGFW_mouseNotifyCallback(win, win->event.point, RGFW_FALSE); +} +void pointer_motion(void *data, struct wl_pointer *pointer, uint32_t time, wl_fixed_t x, wl_fixed_t y) { + RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(x); RGFW_UNUSED(y); + + RGFW_ASSERT(RGFW_mouse_win != NULL); + RGFW_eventQueuePushEx(e.type = RGFW_mousePosChanged; + e.point = RGFW_POINT(wl_fixed_to_double(x), wl_fixed_to_double(y)); + e._win = RGFW_mouse_win); + + RGFW_mousePosCallback(RGFW_mouse_win, RGFW_POINT(wl_fixed_to_double(x), wl_fixed_to_double(y)), RGFW_mouse_win->event.vector); +} +void pointer_button(void *data, struct wl_pointer *pointer, uint32_t serial, uint32_t time, uint32_t button, uint32_t state) { + RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(serial); + RGFW_ASSERT(RGFW_mouse_win != NULL); + + u32 b = (button - 0x110); + + /* flip right and middle button codes */ + if (b == 1) b = 2; + else if (b == 2) b = 1; + + RGFW_mouseButtons[b].prev = RGFW_mouseButtons[b].current; + RGFW_mouseButtons[b].current = RGFW_BOOL(state); + + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonReleased - RGFW_BOOL(state); + e.point = RGFW_mouse_win->event.point; + e.button = (u8)b; + e._win = RGFW_mouse_win); + RGFW_mouseButtonCallback(RGFW_mouse_win, (u8)b, 0, RGFW_BOOL(state)); +} +void pointer_axis(void *data, struct wl_pointer *pointer, uint32_t time, uint32_t axis, wl_fixed_t value) { + RGFW_UNUSED(data); RGFW_UNUSED(pointer); RGFW_UNUSED(time); RGFW_UNUSED(axis); + RGFW_ASSERT(RGFW_mouse_win != NULL); + + double scroll = - wl_fixed_to_double(value); + + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonPressed; + e.point = RGFW_mouse_win->event.point; + e.button = RGFW_mouseScrollUp + (scroll < 0); + e.scroll = scroll; + e._win = RGFW_mouse_win); + + RGFW_mouseButtonCallback(RGFW_mouse_win, RGFW_mouseScrollUp + (scroll < 0), scroll, 1); +} + +void RGFW_doNothing(void) { } + +void keyboard_keymap (void *data, struct wl_keyboard *keyboard, uint32_t format, int32_t fd, uint32_t size) { + RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(format); + + char *keymap_string = mmap (NULL, size, PROT_READ, MAP_SHARED, fd, 0); + xkb_keymap_unref (keymap); + keymap = xkb_keymap_new_from_string (xkb_context, keymap_string, XKB_KEYMAP_FORMAT_TEXT_V1, XKB_KEYMAP_COMPILE_NO_FLAGS); + + munmap (keymap_string, size); + close (fd); + xkb_state_unref (xkb_state); + xkb_state = xkb_state_new (keymap); +} +void keyboard_enter (void *data, struct wl_keyboard *keyboard, uint32_t serial, struct wl_surface *surface, struct wl_array *keys) { + RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(keys); + + RGFW_key_win = (RGFW_window*)wl_surface_get_user_data(surface); + + RGFW_key_win->_flags |= RGFW_windowFocus; + RGFW_eventQueuePushEx(e.type = RGFW_focusIn; e._win = RGFW_key_win); + RGFW_focusCallback(RGFW_key_win, RGFW_TRUE); + + if ((RGFW_key_win->_flags & RGFW_HOLD_MOUSE)) RGFW_window_mouseHold(RGFW_key_win, RGFW_AREA(RGFW_key_win->r.w, RGFW_key_win->r.h)); +} +void keyboard_leave (void *data, struct wl_keyboard *keyboard, uint32_t serial, struct wl_surface *surface) { + RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); + + RGFW_window* win = (RGFW_window*)wl_surface_get_user_data(surface); + if (RGFW_key_win == win) + RGFW_key_win = NULL; + + RGFW_eventQueuePushEx(e.type = RGFW_focusOut; e._win = win); + RGFW_focusCallback(win, RGFW_FALSE); + RGFW_window_focusLost(win); +} +void keyboard_key (void *data, struct wl_keyboard *keyboard, uint32_t serial, uint32_t time, uint32_t key, uint32_t state) { + RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(time); + + if (RGFW_key_win == NULL) return; + + xkb_keysym_t keysym = xkb_state_key_get_one_sym(xkb_state, key + 8); + + u32 RGFWkey = RGFW_apiKeyToRGFW(key + 8); + RGFW_keyboard[RGFWkey].prev = RGFW_keyboard[RGFWkey].current; + RGFW_keyboard[RGFWkey].current = RGFW_BOOL(state); + + RGFW_eventQueuePushEx(e.type = (u8)(RGFW_keyPressed + state); + e.key = (u8)RGFWkey; + e.keyChar = (u8)keysym; + e.repeat = RGFW_isHeld(RGFW_key_win, (u8)RGFWkey); + e._win = RGFW_key_win); + + RGFW_updateKeyMods(RGFW_key_win, RGFW_BOOL(xkb_keymap_mod_get_index(keymap, "Lock")), RGFW_BOOL(xkb_keymap_mod_get_index(keymap, "Mod2")), RGFW_BOOL(xkb_keymap_mod_get_index(keymap, "ScrollLock"))); + RGFW_keyCallback(RGFW_key_win, (u8)RGFWkey, (u8)keysym, RGFW_key_win->event.keyMod, RGFW_BOOL(state)); +} +void keyboard_modifiers (void *data, struct wl_keyboard *keyboard, uint32_t serial, uint32_t mods_depressed, uint32_t mods_latched, uint32_t mods_locked, uint32_t group) { + RGFW_UNUSED(data); RGFW_UNUSED(keyboard); RGFW_UNUSED(serial); RGFW_UNUSED(time); + xkb_state_update_mask (xkb_state, mods_depressed, mods_latched, mods_locked, 0, 0, group); +} +struct wl_keyboard_listener keyboard_listener = {&keyboard_keymap, &keyboard_enter, &keyboard_leave, &keyboard_key, &keyboard_modifiers, (void (*)(void *, struct wl_keyboard *, +int, int))&RGFW_doNothing}; + +void seat_capabilities (void *data, struct wl_seat *seat, uint32_t capabilities) { + RGFW_UNUSED(data); + static struct wl_pointer_listener pointer_listener = {&pointer_enter, &pointer_leave, &pointer_motion, &pointer_button, &pointer_axis, (void (*)(void *, struct wl_pointer *))&RGFW_doNothing, (void (*)(void *, struct wl_pointer *, uint32_t))&RGFW_doNothing, (void (*)(void *, struct wl_pointer *, uint32_t, uint32_t))&RGFW_doNothing, (void (*)(void *, struct wl_pointer *, uint32_t, int32_t))&RGFW_doNothing, (void (*)(void *, struct wl_pointer *, uint32_t, int32_t))&RGFW_doNothing, (void (*)(void*, struct wl_pointer*, uint32_t, uint32_t))&RGFW_doNothing}; + + if (capabilities & WL_SEAT_CAPABILITY_POINTER) { + struct wl_pointer *pointer = wl_seat_get_pointer (seat); + wl_pointer_add_listener (pointer, &pointer_listener, NULL); + } + if (capabilities & WL_SEAT_CAPABILITY_KEYBOARD) { + struct wl_keyboard *keyboard = wl_seat_get_keyboard (seat); + wl_keyboard_add_listener (keyboard, &keyboard_listener, NULL); + } +} +struct wl_seat_listener seat_listener = {&seat_capabilities, (void (*)(void *, struct wl_seat *, const char *))&RGFW_doNothing}; + +void wl_global_registry_handler(void *data, + struct wl_registry *registry, uint32_t id, const char *interface, + uint32_t version) +{ + RGFW_window* win = (RGFW_window*)data; + RGFW_UNUSED(version); + if (RGFW_STRNCMP(interface, "wl_compositor", 16) == 0) { + win->src.compositor = wl_registry_bind(registry, + id, &wl_compositor_interface, 4); + } else if (RGFW_STRNCMP(interface, "xdg_wm_base", 12) == 0) { + win->src.xdg_wm_base = wl_registry_bind(registry, + id, &xdg_wm_base_interface, 1); + } else if (RGFW_STRNCMP(interface, zxdg_decoration_manager_v1_interface.name, 255) == 0) { + decoration_manager = wl_registry_bind(registry, id, &zxdg_decoration_manager_v1_interface, 1); + } else if (RGFW_STRNCMP(interface, "wl_shm", 7) == 0) { + win->src.shm = wl_registry_bind(registry, + id, &wl_shm_interface, 1); + wl_shm_add_listener(win->src.shm, &shm_listener, NULL); + } else if (RGFW_STRNCMP(interface,"wl_seat", 8) == 0) { + win->src.seat = wl_registry_bind(registry, id, &wl_seat_interface, 1); + wl_seat_add_listener(win->src.seat, &seat_listener, NULL); + } +} + +void wl_global_registry_remove(void *data, struct wl_registry *registry, uint32_t name) { RGFW_UNUSED(data); RGFW_UNUSED(registry); RGFW_UNUSED(name); } +const struct wl_registry_listener registry_listener = { + .global = wl_global_registry_handler, + .global_remove = wl_global_registry_remove, +}; + +void decoration_handle_configure(void *data, + struct zxdg_toplevel_decoration_v1 *decoration, + enum zxdg_toplevel_decoration_v1_mode mode) { + RGFW_UNUSED(data); RGFW_UNUSED(decoration); + RGFW_current_mode = mode; +} + +const struct zxdg_toplevel_decoration_v1_listener decoration_listener = { + .configure = decoration_handle_configure, +}; + +void randname(char *buf) { + struct timespec ts; + clock_gettime(CLOCK_REALTIME, &ts); + long r = ts.tv_nsec; + + int i; + for (i = 0; i < 6; ++i) { + buf[i] = (char)('A'+(r&15)+(r&16)*2); + r >>= 5; + } +} + +size_t wl_stringlen(char* name) { + size_t i = 0; + while (name[i]) { i++; } + return i; +} + +int anonymous_shm_open(void) { + char name[] = "/RGFW-wayland-XXXXXX"; + int retries = 100; + + do { + randname(name + wl_stringlen(name) - 6); + + --retries; + /* shm_open guarantees that O_CLOEXEC is set */ + int fd = shm_open(name, O_RDWR | O_CREAT | O_EXCL, 0600); + if (fd >= 0) { + shm_unlink(name); + return fd; + } + } while (retries > 0 && errno == EEXIST); + + return -1; +} + +int create_shm_file(off_t size) { + int fd = anonymous_shm_open(); + if (fd < 0) { + return fd; + } + + if (ftruncate(fd, size) < 0) { + close(fd); + return -1; + } + + return fd; +} + +void wl_surface_frame_done(void *data, struct wl_callback *cb, uint32_t time) { + RGFW_UNUSED(data); RGFW_UNUSED(cb); RGFW_UNUSED(time); + + #ifdef RGFW_BUFFER + RGFW_window* win = (RGFW_window*)data; + wl_surface_attach(win->src.surface, win->src.wl_buffer, 0, 0); + wl_surface_damage_buffer(win->src.surface, 0, 0, win->r.w, win->r.h); + wl_surface_commit(win->src.surface); + #endif +} + +const struct wl_callback_listener wl_surface_frame_listener = { + .done = wl_surface_frame_done, +}; +#endif /* RGFW_WAYLAND */ +/* + End of Wayland defines +*/ + +/* + + +Start of Linux / Unix defines + + +*/ + +#ifdef RGFW_UNIX +#if !defined(RGFW_NO_X11_CURSOR) && defined(RGFW_X11) +#include +#endif + +#include + +#ifndef RGFW_NO_DPI +#include +#include +#endif + +#include +#include +#include +#include + +#include /* for converting keycode to string */ +#include /* for hiding */ +#include +#include +#include + +#include /* for data limits (mainly used in drag and drop functions) */ +#include + +/* atoms needed for drag and drop */ +Atom XdndAware, XtextPlain, XtextUriList; +Atom RGFW_XUTF8_STRING = 0; + +Atom wm_delete_window = 0, RGFW_XCLIPBOARD = 0; + +#if defined(RGFW_X11) && !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) + typedef XcursorImage* (*PFN_XcursorImageCreate)(int, int); + typedef void (*PFN_XcursorImageDestroy)(XcursorImage*); + typedef Cursor(*PFN_XcursorImageLoadCursor)(Display*, const XcursorImage*); +#endif +#if defined(RGFW_OPENGL) && defined(RGFW_X11) + typedef GLXContext(*glXCreateContextAttribsARBProc)(Display*, GLXFBConfig, GLXContext, Bool, const int*); +#endif + +#if !defined(RGFW_NO_X11_XI_PRELOAD) && defined(RGFW_X11) + typedef int (* PFN_XISelectEvents)(Display*,Window,XIEventMask*,int); + PFN_XISelectEvents XISelectEventsSRC = NULL; + #define XISelectEvents XISelectEventsSRC + + void* X11Xihandle = NULL; +#endif + +#if !defined(RGFW_NO_X11_EXT_PRELOAD) && defined(RGFW_X11) + typedef void (* PFN_XSyncIntToValue)(XSyncValue*, int); + PFN_XSyncIntToValue XSyncIntToValueSRC = NULL; + #define XSyncIntToValue XSyncIntToValueSRC + + typedef Status (* PFN_XSyncSetCounter)(Display*, XSyncCounter, XSyncValue); + PFN_XSyncSetCounter XSyncSetCounterSRC = NULL; + #define XSyncSetCounter XSyncSetCounterSRC + + typedef XSyncCounter (* PFN_XSyncCreateCounter)(Display*, XSyncValue); + PFN_XSyncCreateCounter XSyncCreateCounterSRC = NULL; + #define XSyncCreateCounter XSyncCreateCounterSRC + + typedef void (* PFN_XShapeCombineMask)(Display*,Window,int,int,int,Pixmap,int); + PFN_XShapeCombineMask XShapeCombineMaskSRC; + #define XShapeCombineMask XShapeCombineMaskSRC + + typedef void (* PFN_XShapeCombineRegion)(Display*,Window,int,int,int,Region,int); + PFN_XShapeCombineRegion XShapeCombineRegionSRC; + #define XShapeCombineRegion XShapeCombineRegionSRC + void* X11XEXThandle = NULL; +#endif + +#if !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) && defined(RGFW_X11) + PFN_XcursorImageLoadCursor XcursorImageLoadCursorSRC = NULL; + PFN_XcursorImageCreate XcursorImageCreateSRC = NULL; + PFN_XcursorImageDestroy XcursorImageDestroySRC = NULL; + + #define XcursorImageLoadCursor XcursorImageLoadCursorSRC + #define XcursorImageCreate XcursorImageCreateSRC + #define XcursorImageDestroy XcursorImageDestroySRC + + void* X11Cursorhandle = NULL; +#endif + +#ifdef RGFW_X11 +const char* RGFW_instName = NULL; +void RGFW_setXInstName(const char* name) { RGFW_instName = name; } +#endif + +#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) +RGFW_bool RGFW_extensionSupportedPlatform(const char * extension, size_t len) { + const char* extensions = glXQueryExtensionsString(_RGFW.display, XDefaultScreen(_RGFW.display)); + return (extensions != NULL) && RGFW_extensionSupportedStr(extensions, extension, len); +} +RGFW_proc RGFW_getProcAddress(const char* procname) { return (RGFW_proc) glXGetProcAddress((GLubyte*) procname); } +#endif + +void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area) { + RGFW_GOTO_WAYLAND(0); + +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + win->buffer = (u8*)buffer; + win->bufferSize = area; + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoBuffer, RGFW_DEBUG_CTX(win, 0), "createing a 4 channel buffer"); + #ifdef RGFW_X11 + #ifdef RGFW_OSMESA + win->src.ctx = OSMesaCreateContext(OSMESA_BGRA, NULL); + OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); + OSMesaPixelStore(OSMESA_Y_UP, 0); + #endif + + win->src.bitmap = XCreateImage( + win->src.display, win->src.visual.visual, (u32)win->src.visual.depth, + ZPixmap, 0, NULL, area.w, area.h, 32, 0 + ); + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL {} + u32 size = (u32)(win->r.w * win->r.h * 4); + int fd = create_shm_file(size); + if (fd < 0) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errBuffer, RGFW_DEBUG_CTX(win, (u32)fd),"Failed to create a buffer."); + exit(1); + } + + win->src.buffer = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); + if (win->src.buffer == MAP_FAILED) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errBuffer, RGFW_DEBUG_CTX(win, 0), "mmap failed!"); + close(fd); + exit(1); + } + + win->_flags |= RGFW_BUFFER_ALLOC; + + struct wl_shm_pool* pool = wl_shm_create_pool(win->src.shm, fd, (i32)size); + win->src.wl_buffer = wl_shm_pool_create_buffer(pool, 0, win->r.w, win->r.h, win->r.w * 4, + WL_SHM_FORMAT_ARGB8888); + wl_shm_pool_destroy(pool); + + close(fd); + + wl_surface_attach(win->src.surface, win->src.wl_buffer, 0, 0); + wl_surface_commit(win->src.surface); + + u8 color[] = {0x00, 0x00, 0x00, 0xFF}; + + size_t i; + for (i = 0; i < area.w * area.h * 4; i += 4) { + RGFW_MEMCPY(&win->buffer[i], color, 4); + } + + RGFW_MEMCPY(win->src.buffer, win->buffer, (size_t)(win->r.w * win->r.h * 4)); + + #if defined(RGFW_OSMESA) + win->src.ctx = OSMesaCreateContext(OSMESA_BGRA, NULL); + OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); + OSMesaPixelStore(OSMESA_Y_UP, 0); + #endif + #endif +#else + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL{} + #endif + + RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); +#endif +} + +#define RGFW_LOAD_ATOM(name) \ + static Atom name = 0; \ + if (name == 0) name = XInternAtom(_RGFW.display, #name, False); + +void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { + RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); + + RGFW_GOTO_WAYLAND(0); + #ifdef RGFW_X11 + RGFW_LOAD_ATOM(_MOTIF_WM_HINTS); + + struct __x11WindowHints { + unsigned long flags, functions, decorations, status; + long input_mode; + } hints; + hints.flags = 2; + hints.decorations = border; + + XChangeProperty(win->src.display, win->src.window, _MOTIF_WM_HINTS, _MOTIF_WM_HINTS, 32, + PropModeReplace, (u8*)&hints, 5 + ); + + if (RGFW_window_isHidden(win) == 0) { + RGFW_window_hide(win); + RGFW_window_show(win); + } + + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(win); RGFW_UNUSED(border); + #endif +} + +void RGFW_releaseCursor(RGFW_window* win) { +RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XUngrabPointer(win->src.display, CurrentTime); + + /* disable raw input */ + unsigned char mask[] = { 0 }; + XIEventMask em; + em.deviceid = XIAllMasterDevices; + em.mask_len = sizeof(mask); + em.mask = mask; + + XISelectEvents(win->src.display, XDefaultRootWindow(win->src.display), &em, 1); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(win); +#endif +} + +void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { +RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + /* enable raw input */ + unsigned char mask[XIMaskLen(XI_RawMotion)] = { 0 }; + XISetMask(mask, XI_RawMotion); + + XIEventMask em; + em.deviceid = XIAllMasterDevices; + em.mask_len = sizeof(mask); + em.mask = mask; + + XISelectEvents(win->src.display, XDefaultRootWindow(win->src.display), &em, 1); + + XGrabPointer(win->src.display, win->src.window, True, PointerMotionMask, GrabModeAsync, GrabModeAsync, None, None, CurrentTime); + RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (i32)(r.w / 2), win->r.y + (i32)(r.h / 2))); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(win); RGFW_UNUSED(r); +#endif +} + +#define RGFW_LOAD_LIBRARY(x, lib) if (x == NULL) x = dlopen(lib, RTLD_LAZY | RTLD_LOCAL) +#define RGFW_PROC_DEF(proc, name) if (name##SRC == NULL && proc != NULL) { \ + void* ptr = dlsym(proc, #name); \ + if (ptr != NULL) memcpy(&name##SRC, &ptr, sizeof(PFN_##name)); \ +} + +#ifdef RGFW_X11 +void RGFW_window_getVisual(RGFW_window* win) { +#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) + i32* visual_attribs = RGFW_initFormatAttribs(); + i32 fbcount; + GLXFBConfig* fbc = glXChooseFBConfig(win->src.display, DefaultScreen(win->src.display), visual_attribs, &fbcount); + + i32 best_fbc = -1; + i32 best_depth = 0; + i32 best_samples = 0; + + if (fbcount == 0) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to find any valid GLX visual configs"); + return; + } + + i32 i; + for (i = 0; i < fbcount; i++) { + XVisualInfo* vi = glXGetVisualFromFBConfig(win->src.display, fbc[i]); + if (vi == NULL) + continue; + + i32 samp_buf, samples; + glXGetFBConfigAttrib(win->src.display, fbc[i], GLX_SAMPLE_BUFFERS, &samp_buf); + glXGetFBConfigAttrib(win->src.display, fbc[i], GLX_SAMPLES, &samples); + + if (best_fbc == -1) best_fbc = i; + if ((!(win->_flags & RGFW_windowTransparent) || vi->depth == 32) && best_depth == 0) { + best_fbc = i; + best_depth = vi->depth; + } + if ((!(win->_flags & RGFW_windowTransparent) || vi->depth == 32) && samples <= RGFW_GL_HINTS[RGFW_glSamples] && samples > best_samples) { + best_fbc = i; + best_depth = vi->depth; + best_samples = samples; + } + XFree(vi); + } + + if (best_fbc == -1) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to get a valid GLX visual"); + return; + } + + win->src.bestFbc = fbc[best_fbc]; + XVisualInfo* vi = glXGetVisualFromFBConfig(win->src.display, win->src.bestFbc); + if (vi->depth != 32 && (win->_flags & RGFW_windowTransparent)) + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningOpenGL, RGFW_DEBUG_CTX(win, 0), "Failed to to find a matching visual with a 32-bit depth"); + + if (best_samples < RGFW_GL_HINTS[RGFW_glSamples]) + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningOpenGL, RGFW_DEBUG_CTX(win, 0), "Failed to load matching sampiling"); + + int configCaveat; + if (glXGetFBConfigAttrib(win->src.display, win->src.bestFbc, GLX_CONFIG_CAVEAT, &configCaveat) == Success && + configCaveat == GLX_SLOW_CONFIG) { + win->_flags |= RGFW_windowOpenglSoftware; + } + + XFree(fbc); + win->src.visual = *vi; + XFree(vi); +#else + win->src.visual.visual = DefaultVisual(win->src.display, DefaultScreen(win->src.display)); + win->src.visual.depth = DefaultDepth(win->src.display, DefaultScreen(win->src.display)); + if (win->_flags & RGFW_windowTransparent) { + XMatchVisualInfo(win->src.display, DefaultScreen(win->src.display), 32, TrueColor, &win->src.visual); /*!< for RGBA backgrounds */ + if (win->src.visual.depth != 32) + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningOpenGL, RGFW_DEBUG_CTX(win, 0), "Failed to load a 32-bit depth"); + } +#endif +} +#endif +#ifndef RGFW_EGL +void RGFW_window_initOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + i32 context_attribs[7] = { 0, 0, 0, 0, 0, 0, 0 }; + context_attribs[0] = GLX_CONTEXT_PROFILE_MASK_ARB; + if (RGFW_GL_HINTS[RGFW_glProfile] == RGFW_glCore) + context_attribs[1] = GLX_CONTEXT_CORE_PROFILE_BIT_ARB; + else + context_attribs[1] = GLX_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB; + + if (RGFW_GL_HINTS[RGFW_glMinor] || RGFW_GL_HINTS[RGFW_glMajor]) { + context_attribs[2] = GLX_CONTEXT_MAJOR_VERSION_ARB; + context_attribs[3] = RGFW_GL_HINTS[RGFW_glMajor]; + context_attribs[4] = GLX_CONTEXT_MINOR_VERSION_ARB; + context_attribs[5] = RGFW_GL_HINTS[RGFW_glMinor]; + } + + glXCreateContextAttribsARBProc glXCreateContextAttribsARB = 0; + glXCreateContextAttribsARB = (glXCreateContextAttribsARBProc) + glXGetProcAddressARB((GLubyte*) "glXCreateContextAttribsARB"); + + GLXContext ctx = NULL; + if (_RGFW.root != NULL && _RGFW.root != win) { + ctx = _RGFW.root->src.ctx; + RGFW_window_makeCurrent_OpenGL(_RGFW.root); + } + + if (glXCreateContextAttribsARB == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "failed to load proc address 'glXCreateContextAttribsARB', loading a generic opengl context"); + win->src.ctx = glXCreateContext(win->src.display, &win->src.visual, ctx, True); + } + else { + win->src.ctx = glXCreateContextAttribsARB(win->src.display, win->src.bestFbc, ctx, True, context_attribs); + XSync(win->src.display, False); + if (win->src.ctx == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "failed to create an opengl context with AttribsARB, loading a generic opengl context"); + win->src.ctx = glXCreateContext(win->src.display, &win->src.visual, ctx, True); + } + } + + glXMakeCurrent(win->src.display, (Drawable) win->src.window, (GLXContext) win->src.ctx); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context initalized"); +#else + RGFW_UNUSED(win); +#endif +} + +void RGFW_window_freeOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + if (win->src.ctx == NULL) return; + glXDestroyContext(win->src.display, win->src.ctx); + win->src.ctx = NULL; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context freed"); +#else +RGFW_UNUSED(win); +#endif +} +#endif + + +i32 RGFW_init(void) { + RGFW_GOTO_WAYLAND(1); +#if defined(RGFW_C89) || defined(__cplusplus) + if (_RGFW_init) return 0; + _RGFW_init = RGFW_TRUE; + _RGFW.root = NULL; _RGFW.current = NULL; _RGFW.windowCount = -1; _RGFW.eventLen = 0; _RGFW.eventIndex = 0; +#endif + +#ifdef RGFW_X11 + if (_RGFW.windowCount != -1) return 0; + #ifdef RGFW_USE_XDL + XDL_init(); + #endif + + #if !defined(RGFW_NO_X11_CURSOR) && !defined(RGFW_NO_X11_CURSOR_PRELOAD) + #if defined(__CYGWIN__) + RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor-1.so"); + #elif defined(__OpenBSD__) || defined(__NetBSD__) + RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor.so"); + #else + RGFW_LOAD_LIBRARY(X11Cursorhandle, "libXcursor.so.1"); + #endif + RGFW_PROC_DEF(X11Cursorhandle, XcursorImageCreate); + RGFW_PROC_DEF(X11Cursorhandle, XcursorImageDestroy); + RGFW_PROC_DEF(X11Cursorhandle, XcursorImageLoadCursor); + #endif + + #if !defined(RGFW_NO_X11_XI_PRELOAD) + #if defined(__CYGWIN__) + RGFW_LOAD_LIBRARY(X11Xihandle, "libXi-6.so"); + #elif defined(__OpenBSD__) || defined(__NetBSD__) + RGFW_LOAD_LIBRARY(X11Xihandle, "libXi.so"); + #else + RGFW_LOAD_LIBRARY(X11Xihandle, "libXi.so.6"); + #endif + RGFW_PROC_DEF(X11Xihandle, XISelectEvents); + #endif + + #if !defined(RGFW_NO_X11_EXT_PRELOAD) + #if defined(__CYGWIN__) + RGFW_LOAD_LIBRARY(X11XEXThandle, "libXext-6.so"); + #elif defined(__OpenBSD__) || defined(__NetBSD__) + RGFW_LOAD_LIBRARY(X11XEXThandle, "libXext.so"); + #else + RGFW_LOAD_LIBRARY(X11XEXThandle, "libXext.so.6"); + #endif + RGFW_PROC_DEF(X11XEXThandle, XSyncCreateCounter); + RGFW_PROC_DEF(X11XEXThandle, XSyncIntToValue); + RGFW_PROC_DEF(X11XEXThandle, XSyncSetCounter); + RGFW_PROC_DEF(X11XEXThandle, XShapeCombineRegion); + RGFW_PROC_DEF(X11XEXThandle, XShapeCombineMask); + #endif + + XInitThreads(); /*!< init X11 threading */ + _RGFW.display = XOpenDisplay(0); + XSetWindowAttributes wa; + RGFW_MEMSET(&wa, 0, sizeof(wa)); + wa.event_mask = PropertyChangeMask; + _RGFW.helperWindow = XCreateWindow(_RGFW.display, XDefaultRootWindow(_RGFW.display), 0, 0, 1, 1, 0, 0, + InputOnly, DefaultVisual(_RGFW.display, DefaultScreen(_RGFW.display)), CWEventMask, &wa); + + _RGFW.windowCount = 0; + u8 RGFW_blk[] = { 0, 0, 0, 0 }; + _RGFW.hiddenMouse = RGFW_loadMouse(RGFW_blk, RGFW_AREA(1, 1), 4); + _RGFW.clipboard = NULL; + + XkbComponentNamesRec rec; + XkbDescPtr desc = XkbGetMap(_RGFW.display, 0, XkbUseCoreKbd); + XkbDescPtr evdesc; + u8 old[sizeof(RGFW_keycodes) / sizeof(RGFW_keycodes[0])]; + + XkbGetNames(_RGFW.display, XkbKeyNamesMask, desc); + + RGFW_MEMSET(&rec, 0, sizeof(rec)); + rec.keycodes = (char*)"evdev"; + evdesc = XkbGetKeyboardByName(_RGFW.display, XkbUseCoreKbd, &rec, XkbGBN_KeyNamesMask, XkbGBN_KeyNamesMask, False); + /* memo: RGFW_keycodes[x11 keycode] = rgfw keycode */ + if(evdesc != NULL && desc != NULL){ + for(int i = 0; i < (int)sizeof(RGFW_keycodes) / (int)sizeof(RGFW_keycodes[0]); i++){ + old[i] = RGFW_keycodes[i]; + RGFW_keycodes[i] = 0; + } + for(int i = evdesc->min_key_code; i <= evdesc->max_key_code; i++){ + for(int j = desc->min_key_code; j <= desc->max_key_code; j++){ + if(strncmp(evdesc->names->keys[i].name, desc->names->keys[j].name, XkbKeyNameLength) == 0){ + RGFW_keycodes[j] = old[i]; + break; + } + } + } + XkbFreeKeyboard(desc, 0, True); + XkbFreeKeyboard(evdesc, 0, True); + } +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL + _RGFW.wl_display = wl_display_connect(NULL); +#endif + _RGFW.windowCount = 0; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context initialized"); + return 0; +} + + +RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { + RGFW_window_basic_init(win, rect, flags); + +#ifdef RGFW_WAYLAND + win->src.compositor = NULL; +#endif + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + i64 event_mask = KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | PointerMotionMask | StructureNotifyMask | FocusChangeMask | LeaveWindowMask | EnterWindowMask | ExposureMask; /*!< X11 events accepted */ + + win->src.display = XOpenDisplay(NULL); + RGFW_window_getVisual(win); + + /* make X window attrubutes */ + XSetWindowAttributes swa; + RGFW_MEMSET(&swa, 0, sizeof(swa)); + + Colormap cmap; + swa.colormap = cmap = XCreateColormap(win->src.display, + DefaultRootWindow(win->src.display), + win->src.visual.visual, AllocNone); + swa.event_mask = event_mask; + + /* create the window */ + win->src.window = XCreateWindow(win->src.display, DefaultRootWindow(win->src.display), win->r.x, win->r.y, (u32)win->r.w, (u32)win->r.h, + 0, win->src.visual.depth, InputOutput, win->src.visual.visual, + CWColormap | CWBorderPixel | CWEventMask, &swa); + + XFreeColors(win->src.display, cmap, NULL, 0, 0); + + win->src.gc = XCreateGC(win->src.display, win->src.window, 0, NULL); + + /* In your .desktop app, if you set the property + StartupWMClass=RGFW that will assoicate the launcher icon + with your application - robrohan */ + if (RGFW_className == NULL) + RGFW_className = (char*)name; + + XClassHint hint; + hint.res_class = (char*)RGFW_className; + if (RGFW_instName == NULL) hint.res_name = (char*)name; + else hint.res_name = (char*)RGFW_instName; + XSetClassHint(win->src.display, win->src.window, &hint); + + #ifndef RGFW_NO_MONITOR + if (flags & RGFW_windowScaleToMonitor) + RGFW_window_scaleToMonitor(win); + #endif + XSelectInput(win->src.display, (Drawable) win->src.window, event_mask); /*!< tell X11 what events we want */ + + /* make it so the user can't close the window until the program does */ + if (wm_delete_window == 0) { + wm_delete_window = XInternAtom(win->src.display, "WM_DELETE_WINDOW", False); + RGFW_XUTF8_STRING = XInternAtom(win->src.display, "UTF8_STRING", False); + RGFW_XCLIPBOARD = XInternAtom(win->src.display, "CLIPBOARD", False); + } + + XSetWMProtocols(win->src.display, (Drawable) win->src.window, &wm_delete_window, 1); + /* set the background */ + RGFW_window_setName(win, name); + + XMoveWindow(win->src.display, (Drawable) win->src.window, win->r.x, win->r.y); /*!< move the window to it's proper cords */ + + if (flags & RGFW_windowAllowDND) { /* init drag and drop atoms and turn on drag and drop for this window */ + win->_flags |= RGFW_windowAllowDND; + + /* actions */ + XtextUriList = XInternAtom(win->src.display, "text/uri-list", False); + XtextPlain = XInternAtom(win->src.display, "text/plain", False); + XdndAware = XInternAtom(win->src.display, "XdndAware", False); + const u8 version = 5; + + XChangeProperty(win->src.display, win->src.window, + XdndAware, 4, 32, + PropModeReplace, &version, 1); /*!< turns on drag and drop */ + } + +#ifdef RGFW_ADVANCED_SMOOTH_RESIZE + RGFW_LOAD_ATOM(_NET_WM_SYNC_REQUEST_COUNTER) + RGFW_LOAD_ATOM(_NET_WM_SYNC_REQUEST) + Atom protcols[2] = {_NET_WM_SYNC_REQUEST, wm_delete_window}; + XSetWMProtocols(win->src.display, win->src.window, protcols, 2); + + XSyncValue initial_value; + XSyncIntToValue(&initial_value, 0); + win->src.counter = XSyncCreateCounter(win->src.display, initial_value); + + XChangeProperty(win->src.display, win->src.window, _NET_WM_SYNC_REQUEST_COUNTER, XA_CARDINAL, 32, PropModeReplace, (uint8_t*)&win->src.counter, 1); +#endif + + if ((flags & RGFW_windowNoInitAPI) == 0) { + RGFW_window_initOpenGL(win); + RGFW_window_initBuffer(win); + } + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a new window was created"); + RGFW_window_setMouseDefault(win); + RGFW_window_setFlags(win, flags); + + win->src.r = win->r; + + RGFW_window_show(win); + return win; /*return newly created window */ +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningWayland, RGFW_DEBUG_CTX(win, 0), "RGFW Wayland support is experimental"); + + win->src.wl_display = _RGFW.wl_display; + if (win->src.wl_display == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errWayland, RGFW_DEBUG_CTX(win, 0), "Failed to load Wayland display"); + #ifdef RGFW_X11 + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningWayland, RGFW_DEBUG_CTX(win, 0), "Falling back to X11"); + RGFW_useWayland(0); + return RGFW_createWindowPtr(name, rect, flags, win); + #endif + return NULL; + } + + + #ifdef RGFW_X11 + win->src.display = _RGFW.display; + win->src.window = _RGFW.helperWindow; + XMapWindow(_RGFW.display, win->src.window); + XFlush(win->src.display); + if (wm_delete_window == 0) { + wm_delete_window = XInternAtom(win->src.display, "WM_DELETE_WINDOW", False); + RGFW_XUTF8_STRING = XInternAtom(win->src.display, "UTF8_STRING", False); + RGFW_XCLIPBOARD = XInternAtom(win->src.display, "CLIPBOARD", False); + } + #endif + + struct wl_registry *registry = wl_display_get_registry(win->src.wl_display); + wl_registry_add_listener(registry, ®istry_listener, win); + + wl_display_roundtrip(win->src.wl_display); + wl_display_dispatch(win->src.wl_display); + + if (win->src.compositor == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errWayland, RGFW_DEBUG_CTX(win, 0), "Can't find compositor."); + return NULL; + } + + if (RGFW_wl_cursor_theme == NULL) { + RGFW_wl_cursor_theme = wl_cursor_theme_load(NULL, 24, win->src.shm); + RGFW_cursor_surface = wl_compositor_create_surface(win->src.compositor); + + struct wl_cursor* cursor = wl_cursor_theme_get_cursor(RGFW_wl_cursor_theme, "left_ptr"); + RGFW_cursor_image = cursor->images[0]; + struct wl_buffer* cursor_buffer = wl_cursor_image_get_buffer(RGFW_cursor_image); + + wl_surface_attach(RGFW_cursor_surface, cursor_buffer, 0, 0); + wl_surface_commit(RGFW_cursor_surface); + } + + xdg_wm_base_add_listener(win->src.xdg_wm_base, &xdg_wm_base_listener, NULL); + + xkb_context = xkb_context_new(XKB_CONTEXT_NO_FLAGS); + + win->src.surface = wl_compositor_create_surface(win->src.compositor); + wl_surface_set_user_data(win->src.surface, win); + + win->src.xdg_surface = xdg_wm_base_get_xdg_surface(win->src.xdg_wm_base, win->src.surface); + xdg_surface_add_listener(win->src.xdg_surface, &xdg_surface_listener, NULL); + + xdg_wm_base_set_user_data(win->src.xdg_wm_base, win); + + win->src.xdg_toplevel = xdg_surface_get_toplevel(win->src.xdg_surface); + xdg_toplevel_set_user_data(win->src.xdg_toplevel, win); + xdg_toplevel_add_listener(win->src.xdg_toplevel, &xdg_toplevel_listener, NULL); + + xdg_surface_set_window_geometry(win->src.xdg_surface, 0, 0, win->r.w, win->r.h); + + if (!(flags & RGFW_windowNoBorder)) { + win->src.decoration = zxdg_decoration_manager_v1_get_toplevel_decoration( + decoration_manager, win->src.xdg_toplevel); + } + + wl_display_roundtrip(win->src.wl_display); + + wl_surface_commit(win->src.surface); + RGFW_window_show(win); + + /* wait for the surface to be configured */ + while (wl_display_dispatch(win->src.wl_display) != -1 && !RGFW_wl_configured) { } + + if ((flags & RGFW_windowNoInitAPI) == 0) { + RGFW_window_initOpenGL(win); + RGFW_window_initBuffer(win); + } + struct wl_callback* callback = wl_surface_frame(win->src.surface); + wl_callback_add_listener(callback, &wl_surface_frame_listener, win); + wl_surface_commit(win->src.surface); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a new window was created"); + + #ifndef RGFW_NO_MONITOR + if (flags & RGFW_windowScaleToMonitor) + RGFW_window_scaleToMonitor(win); + #endif + + RGFW_window_setName(win, name); + RGFW_window_setMouseDefault(win); + RGFW_window_setFlags(win, flags); + return win; /* return newly created window */ +#endif +} + +RGFW_area RGFW_getScreenSize(void) { + RGFW_GOTO_WAYLAND(1); + RGFW_init(); + + #ifdef RGFW_X11 + Screen* scrn = DefaultScreenOfDisplay(_RGFW.display); + return RGFW_AREA(scrn->width, scrn->height); + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL return RGFW_AREA(_RGFW.root->r.w, _RGFW.root->r.h); /* TODO */ + #endif +} + +RGFW_point RGFW_getGlobalMousePoint(void) { + RGFW_init(); + RGFW_point RGFWMouse = RGFW_POINT(0, 0); + RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + i32 x, y; + u32 z; + Window window1, window2; + XQueryPointer(_RGFW.display, XDefaultRootWindow(_RGFW.display), &window1, &window2, &RGFWMouse.x, &RGFWMouse.y, &x, &y, &z); + return RGFWMouse; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + return RGFWMouse; +#endif +} + +RGFWDEF void RGFW_XHandleClipboardSelection(XEvent* event); +void RGFW_XHandleClipboardSelection(XEvent* event) { RGFW_UNUSED(event); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(ATOM_PAIR); + RGFW_LOAD_ATOM(MULTIPLE); + RGFW_LOAD_ATOM(TARGETS); + RGFW_LOAD_ATOM(SAVE_TARGETS); + + const XSelectionRequestEvent* request = &event->xselectionrequest; + const Atom formats[] = { RGFW_XUTF8_STRING, XA_STRING }; + const int formatCount = sizeof(formats) / sizeof(formats[0]); + + if (request->target == TARGETS) { + const Atom targets[] = { TARGETS, MULTIPLE, RGFW_XUTF8_STRING, XA_STRING }; + + XChangeProperty(_RGFW.display, request->requestor, request->property, + XA_ATOM, 32, PropModeReplace, (u8*) targets, sizeof(targets) / sizeof(Atom)); + } else if (request->target == MULTIPLE) { + Atom* targets = NULL; + + Atom actualType = 0; + int actualFormat = 0; + unsigned long count = 0, bytesAfter = 0; + + XGetWindowProperty(_RGFW.display, request->requestor, request->property, 0, LONG_MAX, + False, ATOM_PAIR, &actualType, &actualFormat, &count, &bytesAfter, (u8**) &targets); + + unsigned long i; + for (i = 0; i < (u32)count; i += 2) { + if (targets[i] == RGFW_XUTF8_STRING || targets[i] == XA_STRING) + XChangeProperty(_RGFW.display, request->requestor, targets[i + 1], targets[i], + 8, PropModeReplace, (const unsigned char *)_RGFW.clipboard, (i32)_RGFW.clipboard_len); + else + targets[i + 1] = None; + } + + XChangeProperty(_RGFW.display, + request->requestor, request->property, ATOM_PAIR, 32, + PropModeReplace, (u8*) targets, (i32)count); + + XFlush(_RGFW.display); + XFree(targets); + } else if (request->target == SAVE_TARGETS) + XChangeProperty(_RGFW.display, request->requestor, request->property, 0, 32, PropModeReplace, NULL, 0); + else { + int i; + for (i = 0; i < formatCount; i++) { + if (request->target != formats[i]) + continue; + XChangeProperty(_RGFW.display, request->requestor, request->property, request->target, + 8, PropModeReplace, (u8*) _RGFW.clipboard, (i32)_RGFW.clipboard_len); + } + } + + XEvent reply = { SelectionNotify }; + reply.xselection.property = request->property; + reply.xselection.display = request->display; + reply.xselection.requestor = request->requestor; + reply.xselection.selection = request->selection; + reply.xselection.target = request->target; + reply.xselection.time = request->time; + + XSendEvent(_RGFW.display, request->requestor, False, 0, &reply); +#endif +} + +char* RGFW_strtok(char* str, const char* delimStr); +char* RGFW_strtok(char* str, const char* delimStr) { + static char* static_str = NULL; + + if (str != NULL) + static_str = str; + + if (static_str == NULL) { + return NULL; + } + + while (*static_str != '\0') { + RGFW_bool delim = 0; + const char* d; + for (d = delimStr; *d != '\0'; d++) { + if (*static_str == *d) { + delim = 1; + break; + } + } + if (!delim) + break; + static_str++; + } + + if (*static_str == '\0') + return NULL; + + char* token_start = static_str; + while (*static_str != '\0') { + int delim = 0; + const char* d; + for (d = delimStr; *d != '\0'; d++) { + if (*static_str == *d) { + delim = 1; + break; + } + } + + if (delim) { + *static_str = '\0'; + static_str++; + break; + } + static_str++; + } + + return token_start; +} + +i32 RGFW_XHandleClipboardSelectionHelper(void); + + +u8 RGFW_rgfwToKeyChar(u32 key) { + u32 keycode = RGFW_rgfwToApiKey(key); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + Window root = DefaultRootWindow(_RGFW.display); + Window ret_root, ret_child; + int root_x, root_y, win_x, win_y; + unsigned int mask; + XQueryPointer(_RGFW.display, root, &ret_root, &ret_child, &root_x, &root_y, &win_x, &win_y, &mask); + KeySym sym = (KeySym)XkbKeycodeToKeysym(_RGFW.display, (KeyCode)keycode, 0, (KeyCode)mask & ShiftMask ? 1 : 0); + + if ((mask & LockMask) && sym >= XK_a && sym <= XK_z) + sym = (mask & ShiftMask) ? sym + 32 : sym - 32; + if ((u8)sym != (u32)sym) + sym = 0; + + return (u8)sym; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(keycode); + return (u8)key; +#endif +} + +RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { + RGFW_XHandleClipboardSelectionHelper(); + + if (win == NULL || ((win->_flags & RGFW_windowFreeOnClose) && (win->_flags & RGFW_EVENT_QUIT))) return NULL; + RGFW_event* ev = RGFW_window_checkEventCore(win); + if (ev) return ev; + + #if defined(__linux__) && !defined(RGFW_NO_LINUX) + if (RGFW_linux_updateGamepad(win)) return &win->event; + #endif + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(XdndTypeList); + RGFW_LOAD_ATOM(XdndSelection); + RGFW_LOAD_ATOM(XdndEnter); + RGFW_LOAD_ATOM(XdndPosition); + RGFW_LOAD_ATOM(XdndStatus); + RGFW_LOAD_ATOM(XdndLeave); + RGFW_LOAD_ATOM(XdndDrop); + RGFW_LOAD_ATOM(XdndFinished); + RGFW_LOAD_ATOM(XdndActionCopy); + RGFW_LOAD_ATOM(_NET_WM_SYNC_REQUEST); + RGFW_LOAD_ATOM(WM_PROTOCOLS); + XPending(win->src.display); + + XEvent E; /*!< raw X11 event */ + + /* if there is no unread qued events, get a new one */ + if ((QLength(win->src.display) || XEventsQueued(win->src.display, QueuedAlready) + XEventsQueued(win->src.display, QueuedAfterReading)) + && win->event.type != RGFW_quit + ) + XNextEvent(win->src.display, &E); + else { + return NULL; + } + + win->event.type = 0; + + /* xdnd data */ + static Window source = 0; + static long version = 0; + static i32 format = 0; + + XEvent reply = { ClientMessage }; + + switch (E.type) { + case KeyPress: + case KeyRelease: { + win->event.repeat = RGFW_FALSE; + /* check if it's a real key release */ + if (E.type == KeyRelease && XEventsQueued(win->src.display, QueuedAfterReading)) { /* get next event if there is one */ + XEvent NE; + XPeekEvent(win->src.display, &NE); + + if (E.xkey.time == NE.xkey.time && E.xkey.keycode == NE.xkey.keycode) /* check if the current and next are both the same */ + win->event.repeat = RGFW_TRUE; + } + + /* set event key data */ + win->event.key = (u8)RGFW_apiKeyToRGFW(E.xkey.keycode); + win->event.keyChar = (u8)RGFW_rgfwToKeyChar(win->event.key); + + RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; + + /* get keystate data */ + win->event.type = (E.type == KeyPress) ? RGFW_keyPressed : RGFW_keyReleased; + + XKeyboardState keystate; + XGetKeyboardControl(win->src.display, &keystate); + + RGFW_keyboard[win->event.key].current = (E.type == KeyPress); + + XkbStateRec state; + XkbGetState(win->src.display, XkbUseCoreKbd, &state); + RGFW_updateKeyMods(win, (state.locked_mods & LockMask), (state.locked_mods & Mod2Mask), (state.locked_mods & Mod3Mask)); + + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, (E.type == KeyPress)); + break; + } + case ButtonPress: + case ButtonRelease: + if (E.xbutton.button > RGFW_mouseFinal) { /* skip this event */ + XFlush(win->src.display); + return RGFW_window_checkEvent(win); + } + + win->event.type = RGFW_mouseButtonPressed + (E.type == ButtonRelease); /* the events match */ + win->event.button = (u8)(E.xbutton.button - 1); + switch(win->event.button) { + case RGFW_mouseScrollUp: + win->event.scroll = 1; + break; + case RGFW_mouseScrollDown: + win->event.scroll = -1; + break; + default: break; + } + + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + + if (win->event.repeat == RGFW_FALSE) + win->event.repeat = RGFW_isPressed(win, win->event.key); + + RGFW_mouseButtons[win->event.button].current = (E.type == ButtonPress); + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, (E.type == ButtonPress)); + break; + + case MotionNotify: + win->event.point.x = E.xmotion.x; + win->event.point.y = E.xmotion.y; + + win->event.vector.x = win->event.point.x - win->_lastMousePoint.x; + win->event.vector.y = win->event.point.y - win->_lastMousePoint.y; + win->_lastMousePoint = win->event.point; + + win->event.type = RGFW_mousePosChanged; + RGFW_mousePosCallback(win, win->event.point, win->event.vector); + break; + + case GenericEvent: { + /* MotionNotify is used for mouse events if the mouse isn't held */ + if (!(win->_flags & RGFW_HOLD_MOUSE)) { + XFreeEventData(win->src.display, &E.xcookie); + break; + } + + XGetEventData(win->src.display, &E.xcookie); + if (E.xcookie.evtype == XI_RawMotion) { + XIRawEvent *raw = (XIRawEvent *)E.xcookie.data; + if (raw->valuators.mask_len == 0) { + XFreeEventData(win->src.display, &E.xcookie); + break; + } + + double deltaX = 0.0f; + double deltaY = 0.0f; + + /* check if relative motion data exists where we think it does */ + if (XIMaskIsSet(raw->valuators.mask, 0) != 0) + deltaX += raw->raw_values[0]; + if (XIMaskIsSet(raw->valuators.mask, 1) != 0) + deltaY += raw->raw_values[1]; + + win->event.vector = RGFW_POINT((i32)deltaX, (i32)deltaY); + win->event.point.x = win->_lastMousePoint.x + win->event.vector.x; + win->event.point.y = win->_lastMousePoint.y + win->event.vector.y; + win->_lastMousePoint = win->event.point; + + RGFW_window_moveMouse(win, RGFW_POINT(win->r.x + (win->r.w / 2), win->r.y + (win->r.h / 2))); + + win->event.type = RGFW_mousePosChanged; + RGFW_mousePosCallback(win, win->event.point, win->event.vector); + } + + XFreeEventData(win->src.display, &E.xcookie); + break; + } + + case Expose: { + win->event.type = RGFW_windowRefresh; + RGFW_windowRefreshCallback(win); + +#ifdef RGFW_ADVANCED_SMOOTH_RESIZE + XSyncValue value; + XSyncIntToValue(&value, (i32)win->src.counter_value); + XSyncSetCounter(win->src.display, win->src.counter, value); +#endif + break; + } + case MapNotify: case UnmapNotify: RGFW_window_checkMode(win); break; + case ClientMessage: { + /* if the client closed the window */ + if (E.xclient.data.l[0] == (long)wm_delete_window) { + win->event.type = RGFW_quit; + RGFW_window_setShouldClose(win, RGFW_TRUE); + RGFW_windowQuitCallback(win); + break; + } +#ifdef RGFW_ADVANCED_SMOOTH_RESIZE + if (E.xclient.message_type == WM_PROTOCOLS && (Atom)E.xclient.data.l[0] == _NET_WM_SYNC_REQUEST) { + RGFW_windowRefreshCallback(win); + win->src.counter_value = 0; + win->src.counter_value |= E.xclient.data.l[2]; + win->src.counter_value |= (E.xclient.data.l[3] << 32); + + XSyncValue value; + XSyncIntToValue(&value, (i32)win->src.counter_value); + XSyncSetCounter(win->src.display, win->src.counter, value); + break; + } +#endif + if ((win->_flags & RGFW_windowAllowDND) == 0) + break; + + reply.xclient.window = source; + reply.xclient.format = 32; + reply.xclient.data.l[0] = (long)win->src.window; + reply.xclient.data.l[1] = 0; + reply.xclient.data.l[2] = None; + + if (E.xclient.message_type == XdndEnter) { + if (version > 5) + break; + + unsigned long count; + Atom* formats; + Atom real_formats[6]; + Bool list = E.xclient.data.l[1] & 1; + + source = (unsigned long int)E.xclient.data.l[0]; + version = E.xclient.data.l[1] >> 24; + format = None; + if (list) { + Atom actualType; + i32 actualFormat; + unsigned long bytesAfter; + + XGetWindowProperty( + win->src.display, source, XdndTypeList, + 0, LONG_MAX, False, 4, + &actualType, &actualFormat, &count, &bytesAfter, (u8**)&formats + ); + } else { + count = 0; + + size_t i; + for (i = 2; i < 5; i++) { + if (E.xclient.data.l[i] != None) { + real_formats[count] = (unsigned long int)E.xclient.data.l[i]; + count += 1; + } + } + + formats = real_formats; + } + + size_t i; + for (i = 0; i < count; i++) { + if (formats[i] == XtextUriList || formats[i] == XtextPlain) { + format = (int)formats[i]; + break; + } + } + + if (list) { + XFree(formats); + } + + break; + } + + if (E.xclient.message_type == XdndPosition) { + const i32 xabs = (E.xclient.data.l[2] >> 16) & 0xffff; + const i32 yabs = (E.xclient.data.l[2]) & 0xffff; + Window dummy; + i32 xpos, ypos; + + if (version > 5) + break; + + XTranslateCoordinates( + win->src.display, XDefaultRootWindow(win->src.display), win->src.window, + xabs, yabs, &xpos, &ypos, &dummy + ); + + win->event.point.x = xpos; + win->event.point.y = ypos; + + reply.xclient.window = source; + reply.xclient.message_type = XdndStatus; + + if (format) { + reply.xclient.data.l[1] = 1; + if (version >= 2) + reply.xclient.data.l[4] = (long)XdndActionCopy; + } + + XSendEvent(win->src.display, source, False, NoEventMask, &reply); + XFlush(win->src.display); + break; + } + if (E.xclient.message_type != XdndDrop) + break; + + if (version > 5) + break; + + size_t i; + for (i = 0; i < win->event.droppedFilesCount; i++) + win->event.droppedFiles[i][0] = '\0'; + + win->event.droppedFilesCount = 0; + + + win->event.type = RGFW_DNDInit; + + if (format) { + Time time = (version >= 1) + ? (Time)E.xclient.data.l[2] + : CurrentTime; + + XConvertSelection( + win->src.display, XdndSelection, (Atom)format, + XdndSelection, win->src.window, time + ); + } else if (version >= 2) { + XEvent new_reply = { ClientMessage }; + + XSendEvent(win->src.display, source, False, NoEventMask, &new_reply); + XFlush(win->src.display); + } + + RGFW_dndInitCallback(win, win->event.point); + } break; + case SelectionRequest: + RGFW_XHandleClipboardSelection(&E); + XFlush(win->src.display); + return RGFW_window_checkEvent(win); + case SelectionNotify: { + /* this is only for checking for xdnd drops */ + if (E.xselection.property != XdndSelection || !(win->_flags & RGFW_windowAllowDND)) + break; + char* data; + unsigned long result; + + Atom actualType; + i32 actualFormat; + unsigned long bytesAfter; + + XGetWindowProperty(win->src.display, E.xselection.requestor, E.xselection.property, 0, LONG_MAX, False, E.xselection.target, &actualType, &actualFormat, &result, &bytesAfter, (u8**) &data); + + if (result == 0) + break; + + const char* prefix = (const char*)"file://"; + + char* line; + + win->event.droppedFilesCount = 0; + win->event.type = RGFW_DND; + + while ((line = (char*)RGFW_strtok(data, "\r\n"))) { + char path[RGFW_MAX_PATH]; + + data = NULL; + + if (line[0] == '#') + continue; + + char* l; + for (l = line; 1; l++) { + if ((l - line) > 7) + break; + else if (*l != prefix[(l - line)]) + break; + else if (*l == '\0' && prefix[(l - line)] == '\0') { + line += 7; + while (*line != '/') + line++; + break; + } else if (*l == '\0') + break; + } + + win->event.droppedFilesCount++; + + size_t index = 0; + while (*line) { + if (line[0] == '%' && line[1] && line[2]) { + const char digits[3] = { line[1], line[2], '\0' }; + path[index] = (char) RGFW_STRTOL(digits, NULL, 16); + line += 2; + } else + path[index] = *line; + + index++; + line++; + } + path[index] = '\0'; + RGFW_MEMCPY(win->event.droppedFiles[win->event.droppedFilesCount - 1], path, index + 1); + } + + RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); + if (data) + XFree(data); + + if (version >= 2) { + XEvent new_reply = { ClientMessage }; + new_reply.xclient.window = source; + new_reply.xclient.message_type = XdndFinished; + new_reply.xclient.format = 32; + new_reply.xclient.data.l[1] = (long int)result; + new_reply.xclient.data.l[2] = (long int)XdndActionCopy; + XSendEvent(win->src.display, source, False, NoEventMask, &new_reply); + XFlush(win->src.display); + } + break; + } + case FocusIn: + if ((win->_flags & RGFW_windowFullscreen)) + XMapRaised(win->src.display, win->src.window); + + win->_flags |= RGFW_windowFocus; + win->event.type = RGFW_focusIn; + RGFW_focusCallback(win, 1); + + + if ((win->_flags & RGFW_HOLD_MOUSE)) RGFW_window_mouseHold(win, RGFW_AREA(win->r.w, win->r.h)); + break; + case FocusOut: + win->event.type = RGFW_focusOut; + RGFW_focusCallback(win, 0); + RGFW_window_focusLost(win); + break; + case PropertyNotify: RGFW_window_checkMode(win); break; + case EnterNotify: { + win->event.type = RGFW_mouseEnter; + win->event.point.x = E.xcrossing.x; + win->event.point.y = E.xcrossing.y; + RGFW_mouseNotifyCallback(win, win->event.point, 1); + break; + } + + case LeaveNotify: { + win->event.type = RGFW_mouseLeave; + RGFW_mouseNotifyCallback(win, win->event.point, 0); + break; + } + + case ConfigureNotify: { + /* detect resize */ + RGFW_window_checkMode(win); + if (E.xconfigure.width != win->src.r.w || E.xconfigure.height != win->src.r.h) { + win->event.type = RGFW_windowResized; + win->src.r = win->r = RGFW_RECT(win->src.r.x, win->src.r.y, E.xconfigure.width, E.xconfigure.height); + RGFW_windowResizedCallback(win, win->r); + break; + } + + /* detect move */ + if (E.xconfigure.x != win->src.r.x || E.xconfigure.y != win->src.r.y) { + win->event.type = RGFW_windowMoved; + win->src.r = win->r = RGFW_RECT(E.xconfigure.x, E.xconfigure.y, win->src.r.w, win->src.r.h); + RGFW_windowMovedCallback(win, win->r); + break; + } + + break; + } + default: + XFlush(win->src.display); + return RGFW_window_checkEvent(win); + } + XFlush(win->src.display); + if (win->event.type) return &win->event; + else return NULL; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + if ((win->_flags & RGFW_windowHide) == 0) + wl_display_roundtrip(win->src.wl_display); + return NULL; +#endif +} + +void RGFW_window_move(RGFW_window* win, RGFW_point v) { + RGFW_ASSERT(win != NULL); + win->r.x = v.x; + win->r.y = v.y; + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XMoveWindow(win->src.display, win->src.window, v.x, v.y); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_ASSERT(win != NULL); + + if (win->src.compositor) { + struct wl_pointer *pointer = wl_seat_get_pointer(win->src.seat); + if (!pointer) { + return; + } + + wl_display_flush(win->src.wl_display); + } +#endif +} + + +void RGFW_window_resize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + win->r.w = (i32)a.w; + win->r.h = (i32)a.h; + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XResizeWindow(win->src.display, win->src.window, a.w, a.h); + + if ((win->_flags & RGFW_windowNoResize)) { + XSizeHints sh; + sh.flags = (1L << 4) | (1L << 5); + sh.min_width = sh.max_width = (i32)a.w; + sh.min_height = sh.max_height = (i32)a.h; + + XSetWMSizeHints(win->src.display, (Drawable) win->src.window, &sh, XA_WM_NORMAL_HINTS); + } +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + if (win->src.compositor) { + xdg_surface_set_window_geometry(win->src.xdg_surface, 0, 0, win->r.w, win->r.h); + #ifdef RGFW_OPENGL + wl_egl_window_resize(win->src.eglWindow, (i32)a.w, (i32)a.h, 0, 0); + #endif + } +#endif +} + +void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); + + if (a.w == 0 && a.h == 0) + return; +#ifdef RGFW_X11 + XSizeHints hints; + long flags; + + XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); + + hints.flags |= PAspect; + + hints.min_aspect.x = hints.max_aspect.x = (i32)a.w; + hints.min_aspect.y = hints.max_aspect.y = (i32)a.h; + + XSetWMNormalHints(win->src.display, win->src.window, &hints); + return; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL +#endif +} + +void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + long flags; + XSizeHints hints; + RGFW_MEMSET(&hints, 0, sizeof(XSizeHints)); + + XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); + + hints.flags |= PMinSize; + + hints.min_width = (i32)a.w; + hints.min_height = (i32)a.h; + + XSetWMNormalHints(win->src.display, win->src.window, &hints); + return; +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL RGFW_UNUSED(a); +#endif +} + +void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + long flags; + XSizeHints hints; + RGFW_MEMSET(&hints, 0, sizeof(XSizeHints)); + + XGetWMNormalHints(win->src.display, win->src.window, &hints, &flags); + + hints.flags |= PMaxSize; + + hints.max_width = (i32)a.w; + hints.max_height = (i32)a.h; + + XSetWMNormalHints(win->src.display, win->src.window, &hints); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(a); +#endif +} + +#ifdef RGFW_X11 +void RGFW_toggleXMaximized(RGFW_window* win, RGFW_bool maximized); +void RGFW_toggleXMaximized(RGFW_window* win, RGFW_bool maximized) { + RGFW_ASSERT(win != NULL); + RGFW_LOAD_ATOM(_NET_WM_STATE); + RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_VERT); + RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_HORZ); + + XEvent xev = {0}; + xev.type = ClientMessage; + xev.xclient.window = win->src.window; + xev.xclient.message_type = _NET_WM_STATE; + xev.xclient.format = 32; + xev.xclient.data.l[0] = maximized; + xev.xclient.data.l[1] = (long int)_NET_WM_STATE_MAXIMIZED_HORZ; + xev.xclient.data.l[2] = (long int)_NET_WM_STATE_MAXIMIZED_VERT; + xev.xclient.data.l[3] = 0; + xev.xclient.data.l[4] = 0; + + XSendEvent(win->src.display, DefaultRootWindow(win->src.display), False, SubstructureRedirectMask | SubstructureNotifyMask, &xev); +} +#endif + +void RGFW_window_maximize(RGFW_window* win) { + win->_oldRect = win->r; + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_toggleXMaximized(win, 1); + return; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + return; +#endif +} + +void RGFW_window_focus(RGFW_window* win) { + RGFW_ASSERT(win); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XWindowAttributes attr; + XGetWindowAttributes(win->src.display, win->src.window, &attr); + if (attr.map_state != IsViewable) return; + + XSetInputFocus(win->src.display, win->src.window, RevertToPointerRoot, CurrentTime); + XFlush(win->src.display); +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL; +#endif +} + +void RGFW_window_raise(RGFW_window* win) { + RGFW_ASSERT(win); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XRaiseWindow(win->src.display, win->src.window); + XMapRaised(win->src.display, win->src.window); +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL; +#endif +} + +#ifdef RGFW_X11 +void RGFW_window_setXAtom(RGFW_window* win, Atom netAtom, RGFW_bool fullscreen); +void RGFW_window_setXAtom(RGFW_window* win, Atom netAtom, RGFW_bool fullscreen) { + RGFW_ASSERT(win != NULL); + RGFW_LOAD_ATOM(_NET_WM_STATE); + + XEvent xev = {0}; + xev.xclient.type = ClientMessage; + xev.xclient.serial = 0; + xev.xclient.send_event = True; + xev.xclient.message_type = _NET_WM_STATE; + xev.xclient.window = win->src.window; + xev.xclient.format = 32; + xev.xclient.data.l[0] = fullscreen; + xev.xclient.data.l[1] = (long int)netAtom; + xev.xclient.data.l[2] = 0; + + XSendEvent(win->src.display, DefaultRootWindow(win->src.display), False, SubstructureNotifyMask | SubstructureRedirectMask, &xev); +} +#endif + +void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); + if (fullscreen) { + win->_flags |= RGFW_windowFullscreen; + win->_oldRect = win->r; + } + else win->_flags &= ~(u32)RGFW_windowFullscreen; +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(_NET_WM_STATE_FULLSCREEN); + + RGFW_window_setXAtom(win, _NET_WM_STATE_FULLSCREEN, fullscreen); + + XRaiseWindow(win->src.display, win->src.window); + XMapRaised(win->src.display, win->src.window); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL; +#endif +} + +void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(_NET_WM_STATE_ABOVE); + RGFW_window_setXAtom(win, _NET_WM_STATE_ABOVE, floating); +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL RGFW_UNUSED(floating); +#endif +} + +void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + const u32 value = (u32) (0xffffffffu * (double) opacity); + RGFW_LOAD_ATOM(NET_WM_WINDOW_OPACITY); + XChangeProperty(win->src.display, win->src.window, + NET_WM_WINDOW_OPACITY, XA_CARDINAL, 32, PropModeReplace, (unsigned char*) &value, 1); +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL RGFW_UNUSED(opacity); +#endif +} + +void RGFW_window_minimize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); + if (RGFW_window_isMaximized(win)) return; + + win->_oldRect = win->r; +#ifdef RGFW_X11 + XIconifyWindow(win->src.display, win->src.window, DefaultScreen(win->src.display)); + XFlush(win->src.display); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL; +#endif +} + +void RGFW_window_restore(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_toggleXMaximized(win, 0); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL +#endif + win->r = win->_oldRect; + RGFW_window_move(win, RGFW_POINT(win->r.x, win->r.y)); + RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h)); + + RGFW_window_show(win); +#ifdef RGFW_X11 + XFlush(win->src.display); +#endif +} + +RGFW_bool RGFW_window_isFloating(RGFW_window* win) { + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(_NET_WM_STATE); + RGFW_LOAD_ATOM(_NET_WM_STATE_ABOVE); + + Atom actual_type; + int actual_format; + unsigned long nitems, bytes_after; + Atom* prop_return = NULL; + + int status = XGetWindowProperty(win->src.display, win->src.window, _NET_WM_STATE, 0, (~0L), False, XA_ATOM, + &actual_type, &actual_format, &nitems, &bytes_after, + (unsigned char **)&prop_return); + + if (status != Success || actual_type != XA_ATOM) + return RGFW_FALSE; + + unsigned long i; + for (i = 0; i < nitems; i++) + if (prop_return[i] == _NET_WM_STATE_ABOVE) return RGFW_TRUE; + + if (prop_return) + XFree(prop_return); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(win); +#endif + return RGFW_FALSE; +} + +void RGFW_window_setName(RGFW_window* win, const char* name) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); + #ifdef RGFW_X11 + XStoreName(win->src.display, win->src.window, name); + + RGFW_LOAD_ATOM(_NET_WM_NAME); + + char buf[256]; + RGFW_MEMSET(buf, 0, sizeof(buf)); + RGFW_STRNCPY(buf, name, sizeof(buf) - 1); + + XChangeProperty( + win->src.display, win->src.window, _NET_WM_NAME, RGFW_XUTF8_STRING, + 8, PropModeReplace, (u8*)buf, sizeof(buf) + ); + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + if (win->src.compositor) + xdg_toplevel_set_title(win->src.xdg_toplevel, name); + #endif +} + +#ifndef RGFW_NO_PASSTHROUGH +void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + if (passthrough) { + Region region = XCreateRegion(); + XShapeCombineRegion(win->src.display, win->src.window, ShapeInput, 0, 0, region, ShapeSet); + XDestroyRegion(region); + + return; + } + + XShapeCombineMask(win->src.display, win->src.window, ShapeInput, 0, 0, None, ShapeSet); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(passthrough); +#endif +} +#endif /* RGFW_NO_PASSTHROUGH */ + +RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(_NET_WM_ICON); + if (icon == NULL || (channels != 3 && channels != 4)) { + RGFW_bool res = (RGFW_bool)XChangeProperty( + win->src.display, win->src.window, _NET_WM_ICON, XA_CARDINAL, 32, + PropModeReplace, (u8*)NULL, 0 + ); + return res; + } + + i32 count = (i32)(2 + (a.w * a.h)); + + unsigned long* data = (unsigned long*) RGFW_ALLOC((u32)count * sizeof(unsigned long)); + RGFW_ASSERT(data != NULL); + + data[0] = (unsigned long)a.w; + data[1] = (unsigned long)a.h; + + unsigned long* target = &data[2]; + u32 x, y; + + for (x = 0; x < a.w; x++) { + for (y = 0; y < a.h; y++) { + size_t i = y * a.w + x; + u32 alpha = (channels == 4) ? icon[i * 4 + 3] : 0xFF; + + target[i] = (unsigned long)((icon[i * 4 + 0]) << 16) | + (unsigned long)((icon[i * 4 + 1]) << 8) | + (unsigned long)((icon[i * 4 + 2]) << 0) | + (unsigned long)(alpha << 24); + } + } + + RGFW_bool res = RGFW_TRUE; + if (type & RGFW_iconTaskbar) { + res = (RGFW_bool)XChangeProperty( + win->src.display, win->src.window, _NET_WM_ICON, XA_CARDINAL, 32, + PropModeReplace, (u8*)data, count + ); + } + + if (type & RGFW_iconWindow) { + XWMHints wm_hints; + wm_hints.flags = IconPixmapHint; + + i32 depth = DefaultDepth(win->src.display, DefaultScreen(win->src.display)); + XImage *image = XCreateImage(win->src.display, DefaultVisual(win->src.display, DefaultScreen(win->src.display)), + (u32)depth, ZPixmap, 0, (char *)target, a.w, a.h, 32, 0); + + wm_hints.icon_pixmap = XCreatePixmap(win->src.display, win->src.window, a.w, a.h, (u32)depth); + XPutImage(win->src.display, wm_hints.icon_pixmap, DefaultGC(win->src.display, DefaultScreen(win->src.display)), image, 0, 0, 0, 0, a.w, a.h); + image->data = NULL; + XDestroyImage(image); + + XSetWMHints(win->src.display, win->src.window, &wm_hints); + } + + RGFW_FREE(data); + XFlush(win->src.display); + return RGFW_BOOL(res); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(icon); RGFW_UNUSED(a); RGFW_UNUSED(channels); RGFW_UNUSED(type); + return RGFW_FALSE; +#endif +} + +RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { + RGFW_ASSERT(icon); + RGFW_ASSERT(channels == 3 || channels == 4); + RGFW_GOTO_WAYLAND(0); + +#ifdef RGFW_X11 +#ifndef RGFW_NO_X11_CURSOR + RGFW_init(); + XcursorImage* native = XcursorImageCreate((i32)a.w, (i32)a.h); + native->xhot = 0; + native->yhot = 0; + + XcursorPixel* target = native->pixels; + size_t x, y; + for (x = 0; x < a.w; x++) { + for (y = 0; y < a.h; y++) { + size_t i = y * a.w + x; + u32 alpha = (channels == 4) ? icon[i * 4 + 3] : 0xFF; + + target[i] = (u32)((icon[i * 4 + 0]) << 16) + | (u32)((icon[i * 4 + 1]) << 8) + | (u32)((icon[i * 4 + 2]) << 0) + | (u32)(alpha << 24); + } + } + + Cursor cursor = XcursorImageLoadCursor(_RGFW.display, native); + XcursorImageDestroy(native); + + return (void*)cursor; +#else + RGFW_UNUSED(image); RGFW_UNUSED(a.w); RGFW_UNUSED(channels); + return NULL; +#endif +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(icon); RGFW_UNUSED(a); RGFW_UNUSED(channels); + return NULL; /* TODO */ +#endif +} + +void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { +RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_ASSERT(win && mouse); + XDefineCursor(win->src.display, win->src.window, (Cursor)mouse); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(win); RGFW_UNUSED(mouse); +#endif +} + +void RGFW_freeMouse(RGFW_mouse* mouse) { +RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_ASSERT(mouse); + XFreeCursor(_RGFW.display, (Cursor)mouse); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(mouse); +#endif +} + +void RGFW_window_moveMouse(RGFW_window* win, RGFW_point p) { +RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + RGFW_ASSERT(win != NULL); + + XEvent event; + XQueryPointer(win->src.display, DefaultRootWindow(win->src.display), + &event.xbutton.root, &event.xbutton.window, + &event.xbutton.x_root, &event.xbutton.y_root, + &event.xbutton.x, &event.xbutton.y, + &event.xbutton.state); + + win->_lastMousePoint = RGFW_POINT(p.x - win->r.x, p.y - win->r.y); + if (event.xbutton.x == p.x && event.xbutton.y == p.y) + return; + + XWarpPointer(win->src.display, None, win->src.window, 0, 0, 0, 0, (int) p.x - win->r.x, (int) p.y - win->r.y); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(win); RGFW_UNUSED(p); +#endif +} + +RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { + return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); +} + +RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + static const u8 mouseIconSrc[16] = { XC_arrow, XC_left_ptr, XC_xterm, XC_crosshair, XC_hand2, XC_sb_h_double_arrow, XC_sb_v_double_arrow, XC_bottom_left_corner, XC_bottom_right_corner, XC_fleur, XC_X_cursor}; + + if (mouse > (sizeof(mouseIconSrc) / sizeof(u8))) + return RGFW_FALSE; + + mouse = mouseIconSrc[mouse]; + + Cursor cursor = XCreateFontCursor(win->src.display, mouse); + XDefineCursor(win->src.display, win->src.window, (Cursor) cursor); + + XFreeCursor(win->src.display, (Cursor) cursor); + return RGFW_TRUE; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL { } + static const char* iconStrings[16] = { "left_ptr", "left_ptr", "text", "cross", "pointer", "e-resize", "n-resize", "nw-resize", "ne-resize", "all-resize", "not-allowed" }; + + struct wl_cursor* wlcursor = wl_cursor_theme_get_cursor(RGFW_wl_cursor_theme, iconStrings[mouse]); + RGFW_cursor_image = wlcursor->images[0]; + struct wl_buffer* cursor_buffer = wl_cursor_image_get_buffer(RGFW_cursor_image); + + wl_surface_attach(RGFW_cursor_surface, cursor_buffer, 0, 0); + wl_surface_commit(RGFW_cursor_surface); + return RGFW_TRUE; + +#endif +} + +void RGFW_window_hide(RGFW_window* win) { + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XUnmapWindow(win->src.display, win->src.window); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + wl_surface_attach(win->src.surface, NULL, 0, 0); + wl_surface_commit(win->src.surface); + win->_flags |= RGFW_windowHide; +#endif +} + +void RGFW_window_show(RGFW_window* win) { + win->_flags &= ~(u32)RGFW_windowHide; + if (win->_flags & RGFW_windowFocusOnShow) RGFW_window_focus(win); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + XMapWindow(win->src.display, win->src.window); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + /* wl_surface_attach(win->src.surface, win->rc., 0, 0); */ + wl_surface_commit(win->src.surface); +#endif +} + +RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { + RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + RGFW_init(); + if (XGetSelectionOwner(_RGFW.display, RGFW_XCLIPBOARD) == _RGFW.helperWindow) { + if (str != NULL) + RGFW_STRNCPY(str, _RGFW.clipboard, _RGFW.clipboard_len - 1); + _RGFW.clipboard[_RGFW.clipboard_len - 1] = '\0'; + return (RGFW_ssize_t)_RGFW.clipboard_len - 1; + } + + XEvent event; + int format; + unsigned long N, sizeN; + char* data; + Atom target; + + RGFW_LOAD_ATOM(XSEL_DATA); + + XConvertSelection(_RGFW.display, RGFW_XCLIPBOARD, RGFW_XUTF8_STRING, XSEL_DATA, _RGFW.helperWindow, CurrentTime); + XSync(_RGFW.display, 0); + while (1) { + XNextEvent(_RGFW.display, &event); + if (event.type != SelectionNotify) continue; + + if (event.xselection.selection != RGFW_XCLIPBOARD || event.xselection.property == 0) + return -1; + break; + } + + XGetWindowProperty(event.xselection.display, event.xselection.requestor, + event.xselection.property, 0L, (~0L), 0, AnyPropertyType, &target, + &format, &sizeN, &N, (u8**) &data); + + RGFW_ssize_t size; + if (sizeN > strCapacity && str != NULL) + size = -1; + + if ((target == RGFW_XUTF8_STRING || target == XA_STRING) && str != NULL) { + RGFW_MEMCPY(str, data, sizeN); + str[sizeN] = '\0'; + XFree(data); + } else if (str != NULL) size = -1; + + XDeleteProperty(event.xselection.display, event.xselection.requestor, event.xselection.property); + size = (RGFW_ssize_t)sizeN; + + return size; + #endif + #if defined(RGFW_WAYLAND) + RGFW_WAYLAND_LABEL RGFW_UNUSED(str); RGFW_UNUSED(strCapacity); + return 0; + #endif +} + +i32 RGFW_XHandleClipboardSelectionHelper(void) { +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(SAVE_TARGETS); + + XEvent event; + XPending(_RGFW.display); + + if (QLength(_RGFW.display) || XEventsQueued(_RGFW.display, QueuedAlready) + XEventsQueued(_RGFW.display, QueuedAfterReading)) + XNextEvent(_RGFW.display, &event); + else + return 0; + + switch (event.type) { + case SelectionRequest: + RGFW_XHandleClipboardSelection(&event); + return 0; + case SelectionNotify: + if (event.xselection.target == SAVE_TARGETS) + return 0; + break; + default: break; + } + + return 0; +#else + return 1; +#endif +} + +void RGFW_writeClipboard(const char* text, u32 textLen) { + RGFW_GOTO_WAYLAND(1); + #ifdef RGFW_X11 + RGFW_LOAD_ATOM(SAVE_TARGETS); + RGFW_init(); + + /* request ownership of the clipboard section and request to convert it, this means its our job to convert it */ + XSetSelectionOwner(_RGFW.display, RGFW_XCLIPBOARD, _RGFW.helperWindow, CurrentTime); + if (XGetSelectionOwner(_RGFW.display, RGFW_XCLIPBOARD) != _RGFW.helperWindow) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errClipboard, RGFW_DEBUG_CTX(_RGFW.root, 0), "X11 failed to become owner of clipboard selection"); + return; + } + + if (_RGFW.clipboard) + RGFW_FREE(_RGFW.clipboard); + + _RGFW.clipboard = (char*)RGFW_ALLOC(textLen); + RGFW_ASSERT(_RGFW.clipboard != NULL); + + RGFW_STRNCPY(_RGFW.clipboard, text, textLen - 1); + _RGFW.clipboard[textLen - 1] = '\0'; + _RGFW.clipboard_len = textLen; + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + RGFW_UNUSED(text); RGFW_UNUSED(textLen); + #endif +} + +RGFW_bool RGFW_window_isHidden(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + + XWindowAttributes windowAttributes; + XGetWindowAttributes(win->src.display, win->src.window, &windowAttributes); + + return (windowAttributes.map_state == IsUnmapped && !RGFW_window_isMinimized(win)); +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + return RGFW_FALSE; +#endif +} + +RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(WM_STATE); + + Atom actual_type; + i32 actual_format; + unsigned long nitems, bytes_after; + unsigned char* prop_data; + + i32 status = XGetWindowProperty(win->src.display, win->src.window, WM_STATE, 0, 2, False, + AnyPropertyType, &actual_type, &actual_format, + &nitems, &bytes_after, &prop_data); + + if (status == Success && nitems >= 1 && prop_data == (unsigned char*)IconicState) { + XFree(prop_data); + return RGFW_TRUE; + } + + if (prop_data != NULL) + XFree(prop_data); + + XWindowAttributes windowAttributes; + XGetWindowAttributes(win->src.display, win->src.window, &windowAttributes); + return windowAttributes.map_state != IsViewable; +#endif +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + return RGFW_FALSE; +#endif +} + +RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#ifdef RGFW_X11 + RGFW_LOAD_ATOM(_NET_WM_STATE); + RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_VERT); + RGFW_LOAD_ATOM(_NET_WM_STATE_MAXIMIZED_HORZ); + + Atom actual_type; + i32 actual_format; + unsigned long nitems, bytes_after; + unsigned char* prop_data; + + i32 status = XGetWindowProperty(win->src.display, win->src.window, _NET_WM_STATE, 0, 1024, False, + XA_ATOM, &actual_type, &actual_format, + &nitems, &bytes_after, &prop_data); + + if (status != Success) { + if (prop_data != NULL) + XFree(prop_data); + + return RGFW_FALSE; + } + + u64 i; + for (i = 0; i < nitems; ++i) { + if (prop_data[i] == _NET_WM_STATE_MAXIMIZED_VERT || + prop_data[i] == _NET_WM_STATE_MAXIMIZED_HORZ) { + XFree(prop_data); + return RGFW_TRUE; + } + } + + if (prop_data != NULL) + XFree(prop_data); +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL; +#endif + return RGFW_FALSE; +} + +#ifndef RGFW_NO_DPI +u32 RGFW_XCalculateRefreshRate(XRRModeInfo mi); +u32 RGFW_XCalculateRefreshRate(XRRModeInfo mi) { + if (mi.hTotal == 0 || mi.vTotal == 0) return 0; + return (u32) RGFW_ROUND((double) mi.dotClock / ((double) mi.hTotal * (double) mi.vTotal)); +} +#endif + + +#ifdef RGFW_X11 +static float XGetSystemContentDPI(Display* display, i32 screen) { + float dpi = 96.0f; + + #ifndef RGFW_NO_DPI + RGFW_UNUSED(screen); + char* rms = XResourceManagerString(display); + XrmDatabase db = NULL; + if (rms) db = XrmGetStringDatabase(rms); + + if (rms && db) { + XrmValue value; + char* type = NULL; + + if (XrmGetResource(db, "Xft.dpi", "Xft.Dpi", &type, &value) && type && RGFW_STRNCMP(type, "String", 7) == 0) + dpi = (float)RGFW_ATOF(value.addr); + XrmDestroyDatabase(db); + } + #else + dpi = RGFW_ROUND(DisplayWidth(display, screen) / (DisplayWidthMM(display, screen) / 25.4)); + #endif + + return dpi; +} +#endif + +RGFW_monitor RGFW_XCreateMonitor(i32 screen); +RGFW_monitor RGFW_XCreateMonitor(i32 screen) { + RGFW_monitor monitor; + RGFW_init(); + + RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + Display* display = _RGFW.display; + + if (screen == -1) screen = DefaultScreen(display); + + Screen* scrn = DefaultScreenOfDisplay(display); + RGFW_area size = RGFW_AREA(scrn->width, scrn->height); + + monitor.x = 0; + monitor.y = 0; + monitor.mode.area = RGFW_AREA(size.w, size.h); + monitor.physW = (float)DisplayWidthMM(display, screen) / 25.4f; + monitor.physH = (float)DisplayHeightMM(display, screen) / 25.4f; + + RGFW_splitBPP((u32)DefaultDepth(display, DefaultScreen(display)), &monitor.mode); + + char* name = XDisplayName((const char*)display); + RGFW_STRNCPY(monitor.name, name, sizeof(monitor.name) - 1); + monitor.name[sizeof(monitor.name) - 1] = '\0'; + + float dpi = XGetSystemContentDPI(display, screen); + monitor.pixelRatio = dpi >= 192.0f ? 2 : 1; + monitor.scaleX = (float) (dpi) / 96.0f; + monitor.scaleY = (float) (dpi) / 96.0f; + + #ifndef RGFW_NO_DPI + XRRScreenResources* sr = XRRGetScreenResourcesCurrent(display, RootWindow(display, screen)); + monitor.mode.refreshRate = RGFW_XCalculateRefreshRate(sr->modes[screen]); + + XRRCrtcInfo* ci = NULL; + int crtc = screen; + + if (sr->ncrtc > crtc) { + ci = XRRGetCrtcInfo(display, sr, sr->crtcs[crtc]); + } + #endif + + #ifndef RGFW_NO_DPI + XRROutputInfo* info = XRRGetOutputInfo (display, sr, sr->outputs[screen]); + + if (info == NULL || ci == NULL) { + XRRFreeScreenResources(sr); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoMonitor, RGFW_DEBUG_CTX_MON(monitor), "monitor found"); + return monitor; + } + + + float physW = (float)info->mm_width / 25.4f; + float physH = (float)info->mm_height / 25.4f; + + RGFW_STRNCPY(monitor.name, info->name, sizeof(monitor.name) - 1); + monitor.name[sizeof(monitor.name) - 1] = '\0'; + + if ((u8)physW && (u8)physH) { + monitor.physW = physW; + monitor.physH = physH; + } + + monitor.x = ci->x; + monitor.y = ci->y; + + if (ci->width && ci->height) { + monitor.mode.area.w = (u32)ci->width; + monitor.mode.area.h = (u32)ci->height; + } + #endif + + #ifndef RGFW_NO_DPI + XRRFreeCrtcInfo(ci); + XRRFreeScreenResources(sr); + #endif + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoMonitor, RGFW_DEBUG_CTX_MON(monitor), "monitor found"); + return monitor; +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL RGFW_UNUSED(screen); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoMonitor, RGFW_DEBUG_CTX_MON(monitor), "monitor found"); + return monitor; +#endif +} + +RGFW_monitor* RGFW_getMonitors(size_t* len) { + static RGFW_monitor monitors[7]; + + RGFW_GOTO_WAYLAND(1); + #ifdef RGFW_X11 + RGFW_init(); + + Display* display = _RGFW.display; + i32 max = ScreenCount(display); + + i32 i; + for (i = 0; i < max && i < 6; i++) + monitors[i] = RGFW_XCreateMonitor(i); + + if (len != NULL) *len = (size_t)((max <= 6) ? (max) : (6)); + + return monitors; + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL RGFW_UNUSED(len); + return monitors; /* TODO WAYLAND */ + #endif +} + +RGFW_monitor RGFW_getPrimaryMonitor(void) { + RGFW_GOTO_WAYLAND(1); + #ifdef RGFW_X11 + return RGFW_XCreateMonitor(-1); + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL return (RGFW_monitor){ 0 }; /* TODO WAYLAND */ + #endif +} + +RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { + RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + #ifndef RGFW_NO_DPI + RGFW_init(); + XRRScreenResources* screenRes = XRRGetScreenResources(_RGFW.display, DefaultRootWindow(_RGFW.display)); + if (screenRes == NULL) return RGFW_FALSE; + + int i; + for (i = 0; i < screenRes->ncrtc; i++) { + XRRCrtcInfo* crtcInfo = XRRGetCrtcInfo(_RGFW.display, screenRes, screenRes->crtcs[i]); + if (!crtcInfo) continue; + + if (mon.x == crtcInfo->x && mon.y == crtcInfo->y && (u32)mon.mode.area.w == crtcInfo->width && (u32)mon.mode.area.h == crtcInfo->height) { + RRMode rmode = None; + int index; + for (index = 0; index < screenRes->nmode; index++) { + RGFW_monitorMode foundMode; + foundMode.area = RGFW_AREA(screenRes->modes[index].width, screenRes->modes[index].height); + foundMode.refreshRate = RGFW_XCalculateRefreshRate(screenRes->modes[index]); + RGFW_splitBPP((u32)DefaultDepth(_RGFW.display, DefaultScreen(_RGFW.display)), &foundMode); + + if (RGFW_monitorModeCompare(mode, foundMode, request)) { + rmode = screenRes->modes[index].id; + + RROutput output = screenRes->outputs[i]; + XRROutputInfo* info = XRRGetOutputInfo(_RGFW.display, screenRes, output); + if (info) { + XRRSetCrtcConfig(_RGFW.display, screenRes, screenRes->crtcs[i], + CurrentTime, 0, 0, rmode, RR_Rotate_0, &output, 1); + XRRFreeOutputInfo(info); + XRRFreeCrtcInfo(crtcInfo); + XRRFreeScreenResources(screenRes); + return RGFW_TRUE; + } + } + } + + XRRFreeCrtcInfo(crtcInfo); + XRRFreeScreenResources(screenRes); + return RGFW_FALSE; + } + + XRRFreeCrtcInfo(crtcInfo); + } + + XRRFreeScreenResources(screenRes); + return RGFW_FALSE; + #endif +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL RGFW_UNUSED(mon); RGFW_UNUSED(mode); RGFW_UNUSED(request); +#endif + return RGFW_FALSE; +} + +RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { + RGFW_monitor mon; + RGFW_MEMSET(&mon, 0, sizeof(mon)); + + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(1); +#ifdef RGFW_X11 + XWindowAttributes attrs; + if (!XGetWindowAttributes(win->src.display, win->src.window, &attrs)) { + return mon; + } + + i32 i; + for (i = 0; i < ScreenCount(win->src.display) && i < 6; i++) { + Screen* screen = ScreenOfDisplay(win->src.display, i); + if (attrs.x >= 0 && attrs.x < XWidthOfScreen(screen) && + attrs.y >= 0 && attrs.y < XHeightOfScreen(screen)) + return RGFW_XCreateMonitor(i); + } +#endif +#ifdef RGFW_WAYLAND +RGFW_WAYLAND_LABEL +#endif + return mon; + +} + +#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) +void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { + if (win == NULL) + glXMakeCurrent(NULL, (Drawable)NULL, (GLXContext) NULL); + else + glXMakeCurrent(win->src.display, (Drawable) win->src.window, (GLXContext) win->src.ctx); +} +void* RGFW_getCurrent_OpenGL(void) { return glXGetCurrentContext(); } +void RGFW_window_swapBuffers_OpenGL(RGFW_window* win) { glXSwapBuffers(win->src.display, win->src.window); } +#endif + +void RGFW_window_swapBuffers_software(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_GOTO_WAYLAND(0); +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + #ifdef RGFW_X11 + win->src.bitmap->data = (char*) win->buffer; + RGFW_RGB_to_BGR(win, (u8*)win->src.bitmap->data); + XPutImage(win->src.display, win->src.window, win->src.gc, win->src.bitmap, 0, 0, 0, 0, win->bufferSize.w, win->bufferSize.h); + win->src.bitmap->data = NULL; + return; + #endif + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + #if !defined(RGFW_BUFFER_BGR) && !defined(RGFW_OSMESA) + RGFW_RGB_to_BGR(win, win->src.buffer); + #else + size_t y; + for (y = 0; y < win->r.h; y++) { + u32 index = (y * 4 * win->r.w); + u32 index2 = (y * 4 * win->bufferSize.w); + RGFW_MEMCPY(&win->src.buffer[index], &win->buffer[index2], win->r.w * 4); + } + #endif + + wl_surface_frame_done(win, NULL, 0); + wl_surface_commit(win->src.surface); + #endif +#else +#ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL +#endif + RGFW_UNUSED(win); +#endif +} + +#if !defined(RGFW_EGL) + +void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { + RGFW_ASSERT(win != NULL); + + #if defined(RGFW_OPENGL) + // cached pfn to avoid calling glXGetProcAddress more than once + static PFNGLXSWAPINTERVALEXTPROC pfn = (PFNGLXSWAPINTERVALEXTPROC)123; + static int (*pfn2)(int) = NULL; + + if (pfn == (PFNGLXSWAPINTERVALEXTPROC)123) { + pfn = ((PFNGLXSWAPINTERVALEXTPROC)glXGetProcAddress((GLubyte*) "glXSwapIntervalEXT")); + if (pfn == NULL) { + const char* array[] = {"GLX_MESA_swap_control", "GLX_SGI_swap_control"}; + u32 i; + for (i = 0; i < sizeof(array) / sizeof(char*) && pfn2 == NULL; i++) + pfn2 = ((int(*)(int))glXGetProcAddress((GLubyte*) array[i])); + + if (pfn2 != NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to load swap interval function, fallingback to the native swapinterval function"); + } else { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to load swap interval function"); + } + } + } + if (pfn != NULL) + pfn(win->src.display, win->src.window, swapInterval); + else if (pfn2 != NULL) { + pfn2(swapInterval); + } + #else + RGFW_UNUSED(swapInterval); + #endif +} +#endif + +void RGFW_deinit(void) { + if (_RGFW.windowCount == -1 || _RGFW_init == RGFW_FALSE) return; + #define RGFW_FREE_LIBRARY(x) if (x != NULL) dlclose(x); x = NULL; +#ifdef RGFW_X11 + /* to save the clipboard on the x server after the window is closed */ + RGFW_LOAD_ATOM(CLIPBOARD_MANAGER); + RGFW_LOAD_ATOM(SAVE_TARGETS); + if (XGetSelectionOwner(_RGFW.display, RGFW_XCLIPBOARD) == _RGFW.helperWindow) { + XConvertSelection(_RGFW.display, CLIPBOARD_MANAGER, SAVE_TARGETS, None, _RGFW.helperWindow, CurrentTime); + while (RGFW_XHandleClipboardSelectionHelper()); + } + if (_RGFW.clipboard) { + RGFW_FREE(_RGFW.clipboard); + _RGFW.clipboard = NULL; + } + + RGFW_freeMouse(_RGFW.hiddenMouse); + + XDestroyWindow(_RGFW.display, (Drawable) _RGFW.helperWindow); /*!< close the window */ + XCloseDisplay(_RGFW.display); /*!< kill connection to the x server */ + + #if !defined(RGFW_NO_X11_CURSOR_PRELOAD) && !defined(RGFW_NO_X11_CURSOR) + RGFW_FREE_LIBRARY(X11Cursorhandle); + #endif + #if !defined(RGFW_NO_X11_XI_PRELOAD) + RGFW_FREE_LIBRARY(X11Xihandle); + #endif + + #ifdef RGFW_USE_XDL + XDL_close(); + #endif + + #if !defined(RGFW_NO_X11_EXT_PRELOAD) + RGFW_FREE_LIBRARY(X11XEXThandle); + #endif +#endif +#ifdef RGFW_WAYLAND + wl_display_disconnect(_RGFW.wl_display); +#endif + #ifndef RGFW_NO_LINUX + if (RGFW_eventWait_forceStop[0] || RGFW_eventWait_forceStop[1]){ + close(RGFW_eventWait_forceStop[0]); + close(RGFW_eventWait_forceStop[1]); + } + + u8 i; + for (i = 0; i < RGFW_gamepadCount; i++) { + if(RGFW_gamepads[i]) + close(RGFW_gamepads[i]); + } + #endif + + _RGFW.root = NULL; + _RGFW.windowCount = -1; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context deinitialized"); +} + +void RGFW_window_close(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + if ((win->_flags & RGFW_windowNoInitAPI) == 0) RGFW_window_freeOpenGL(win); + + RGFW_GOTO_WAYLAND(0); + #ifdef RGFW_X11 + /* ungrab pointer if it was grabbed */ + if (win->_flags & RGFW_HOLD_MOUSE) + XUngrabPointer(win->src.display, CurrentTime); + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + if (win->buffer != NULL) { + if ((win->_flags & RGFW_BUFFER_ALLOC)) + RGFW_FREE(win->buffer); + XDestroyImage((XImage*) win->src.bitmap); + } + #endif + + XFreeGC(win->src.display, win->src.gc); + XDestroyWindow(win->src.display, (Drawable) win->src.window); /*!< close the window */ + win->src.window = 0; + XCloseDisplay(win->src.display); + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a window was freed"); + _RGFW.windowCount--; + if (_RGFW.windowCount == 0) RGFW_deinit(); + + RGFW_clipboard_switch(NULL); + RGFW_FREE(win->event.droppedFiles); + if ((win->_flags & RGFW_WINDOW_ALLOC)) { + RGFW_FREE(win); + win = NULL; + } + return; + #endif + + #ifdef RGFW_WAYLAND + RGFW_WAYLAND_LABEL + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a window was freed"); + + xdg_toplevel_destroy(win->src.xdg_toplevel); + xdg_surface_destroy(win->src.xdg_surface); + wl_surface_destroy(win->src.surface); + + _RGFW.windowCount--; + if (_RGFW.windowCount == 0) RGFW_deinit(); + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + wl_buffer_destroy(win->src.wl_buffer); + if ((win->_flags & RGFW_BUFFER_ALLOC)) + RGFW_FREE(win->buffer); + + munmap(win->src.buffer, (size_t)(win->r.w * win->r.h * 4)); + #endif + + RGFW_clipboard_switch(NULL); + RGFW_FREE(win->event.droppedFiles); + if ((win->_flags & RGFW_WINDOW_ALLOC)) { + RGFW_FREE(win); + win = NULL; + } + #endif +} + + +/* + End of X11 linux / wayland / unix defines +*/ + +#include +#include +#include + +void RGFW_stopCheckEvents(void) { + + RGFW_eventWait_forceStop[2] = 1; + while (1) { + const char byte = 0; + const ssize_t result = write(RGFW_eventWait_forceStop[1], &byte, 1); + if (result == 1 || result == -1) + break; + } +} + +void RGFW_window_eventWait(RGFW_window* win, i32 waitMS) { + if (waitMS == 0) return; + + u8 i; + if (RGFW_eventWait_forceStop[0] == 0 || RGFW_eventWait_forceStop[1] == 0) { + if (pipe(RGFW_eventWait_forceStop) != -1) { + fcntl(RGFW_eventWait_forceStop[0], F_GETFL, 0); + fcntl(RGFW_eventWait_forceStop[0], F_GETFD, 0); + fcntl(RGFW_eventWait_forceStop[1], F_GETFL, 0); + fcntl(RGFW_eventWait_forceStop[1], F_GETFD, 0); + } + } + + struct pollfd fds[] = { + #ifdef RGFW_WAYLAND + { wl_display_get_fd(win->src.wl_display), POLLIN, 0 }, + #else + { ConnectionNumber(win->src.display), POLLIN, 0 }, + #endif + #ifdef RGFW_X11 + { ConnectionNumber(_RGFW.display), POLLIN, 0 }, + #endif + { RGFW_eventWait_forceStop[0], POLLIN, 0 }, + #if defined(__linux__) + { -1, POLLIN, 0 }, {-1, POLLIN, 0 }, {-1, POLLIN, 0 }, {-1, POLLIN, 0} + #endif + }; + + u8 index = 2; +#ifdef RGFW_X11 + index++; +#endif + + #if defined(__linux__) || defined(__NetBSD__) + for (i = 0; i < RGFW_gamepadCount; i++) { + if (RGFW_gamepads[i] == 0) + continue; + + fds[index].fd = RGFW_gamepads[i]; + index++; + } + #endif + + + u64 start = RGFW_getTimeNS(); + + + #ifdef RGFW_WAYLAND + while (wl_display_dispatch(win->src.wl_display) <= 0 + #else + while (XPending(win->src.display) == 0 + #endif + #ifdef RGFW_X11 + && XPending(_RGFW.display) == 0 + #endif + ) { + if (poll(fds, index, waitMS) <= 0) + break; + + if (waitMS != RGFW_eventWaitNext) + waitMS -= (i32)(RGFW_getTimeNS() - start) / (i32)1e+6; + } + + /* drain any data in the stop request */ + if (RGFW_eventWait_forceStop[2]) { + char data[64]; + (void)!read(RGFW_eventWait_forceStop[0], data, sizeof(data)); + + RGFW_eventWait_forceStop[2] = 0; + } +} + +i32 RGFW_getClock(void); +i32 RGFW_getClock(void) { + static i32 clock = -1; + if (clock != -1) return clock; + + #if defined(_POSIX_MONOTONIC_CLOCK) + struct timespec ts; + if (clock_gettime(CLOCK_MONOTONIC, &ts) == 0) + clock = CLOCK_MONOTONIC; + #else + clock = CLOCK_REALTIME; + #endif + + return clock; +} + +u64 RGFW_getTimerFreq(void) { return 1000000000LLU; } +u64 RGFW_getTimerValue(void) { + struct timespec ts; + clock_gettime(CLOCK_REALTIME, &ts); + return (u64)ts.tv_sec * RGFW_getTimerFreq() + (u64)ts.tv_nsec; +} +#endif /* end of wayland or X11 defines */ + + + +/* + + Start of Windows defines + + +*/ + +#ifdef RGFW_WINDOWS +#define WIN32_LEAN_AND_MEAN +#define OEMRESOURCE +#include + +#include +#include +#include +#include +#include +#include +#include + +#ifndef WM_DPICHANGED +#define WM_DPICHANGED 0x02E0 +#endif + +#ifndef RGFW_NO_XINPUT + typedef DWORD (WINAPI * PFN_XInputGetState)(DWORD,XINPUT_STATE*); + PFN_XInputGetState XInputGetStateSRC = NULL; + #define XInputGetState XInputGetStateSRC + + typedef DWORD (WINAPI * PFN_XInputGetKeystroke)(DWORD, DWORD, PXINPUT_KEYSTROKE); + PFN_XInputGetKeystroke XInputGetKeystrokeSRC = NULL; + #define XInputGetKeystroke XInputGetKeystrokeSRC + + HMODULE RGFW_XInput_dll = NULL; +#endif + +char* RGFW_createUTF8FromWideStringWin32(const WCHAR* source); + +#define GL_FRONT 0x0404 +#define GL_BACK 0x0405 +#define GL_LEFT 0x0406 +#define GL_RIGHT 0x0407 + +typedef int (*PFN_wglGetSwapIntervalEXT)(void); +PFN_wglGetSwapIntervalEXT wglGetSwapIntervalEXTSrc = NULL; +#define wglGetSwapIntervalEXT wglGetSwapIntervalEXTSrc + + +void* RGFWgamepadApi = NULL; + +/* these two wgl functions need to be preloaded */ +typedef HGLRC (WINAPI *PFNWGLCREATECONTEXTATTRIBSARBPROC)(HDC hdc, HGLRC hglrc, const int *attribList); +PFNWGLCREATECONTEXTATTRIBSARBPROC wglCreateContextAttribsARB = NULL; + +#ifndef RGFW_EGL + HMODULE RGFW_wgl_dll = NULL; +#endif + +#ifndef RGFW_NO_LOAD_WGL + typedef HGLRC(WINAPI* PFN_wglCreateContext)(HDC); + typedef BOOL(WINAPI* PFN_wglDeleteContext)(HGLRC); + typedef PROC(WINAPI* PFN_wglGetProcAddress)(LPCSTR); + typedef BOOL(WINAPI* PFN_wglMakeCurrent)(HDC, HGLRC); + typedef HDC(WINAPI* PFN_wglGetCurrentDC)(void); + typedef HGLRC(WINAPI* PFN_wglGetCurrentContext)(void); + typedef BOOL(WINAPI* PFN_wglShareLists)(HGLRC, HGLRC); + + PFN_wglCreateContext wglCreateContextSRC; + PFN_wglDeleteContext wglDeleteContextSRC; + PFN_wglGetProcAddress wglGetProcAddressSRC; + PFN_wglMakeCurrent wglMakeCurrentSRC; + PFN_wglGetCurrentDC wglGetCurrentDCSRC; + PFN_wglGetCurrentContext wglGetCurrentContextSRC; + PFN_wglShareLists wglShareListsSRC; + + #define wglCreateContext wglCreateContextSRC + #define wglDeleteContext wglDeleteContextSRC + #define wglGetProcAddress wglGetProcAddressSRC + #define wglMakeCurrent wglMakeCurrentSRC + #define wglGetCurrentDC wglGetCurrentDCSRC + #define wglGetCurrentContext wglGetCurrentContextSRC + #define wglShareLists wglShareListsSRC +#endif + +#if defined(RGFW_OPENGL) && !defined(RGFW_EGL) +RGFW_bool RGFW_extensionSupportedPlatform(const char * extension, size_t len) { + const char* extensions = NULL; + + RGFW_proc proc = RGFW_getProcAddress("wglGetExtensionsStringARB"); + RGFW_proc proc2 = RGFW_getProcAddress("wglGetExtensionsStringEXT"); + + if (proc) + extensions = ((const char* (*)(HDC))proc)(wglGetCurrentDC()); + else if (proc2) + extensions = ((const char*(*)(void))proc2)(); + + return extensions != NULL && RGFW_extensionSupportedStr(extensions, extension, len); +} + +RGFW_proc RGFW_getProcAddress(const char* procname) { + RGFW_proc proc = (RGFW_proc)wglGetProcAddress(procname); + if (proc) + return proc; + + return (RGFW_proc) GetProcAddress(RGFW_wgl_dll, procname); +} + +typedef HRESULT (APIENTRY* PFNWGLCHOOSEPIXELFORMATARBPROC)(HDC hdc, const int* piAttribIList, const FLOAT* pfAttribFList, UINT nMaxFormats, int* piFormats, UINT* nNumFormats); +PFNWGLCHOOSEPIXELFORMATARBPROC wglChoosePixelFormatARB = NULL; + +typedef BOOL(APIENTRY* PFNWGLSWAPINTERVALEXTPROC)(int interval); +PFNWGLSWAPINTERVALEXTPROC wglSwapIntervalEXT = NULL; +#endif + +#ifndef RGFW_NO_DWM +HMODULE RGFW_dwm_dll = NULL; +typedef struct { DWORD dwFlags; int fEnable; HRGN hRgnBlur; int fTransitionOnMaximized;} DWM_BLURBEHIND; +typedef HRESULT (WINAPI * PFN_DwmEnableBlurBehindWindow)(HWND, const DWM_BLURBEHIND*); +PFN_DwmEnableBlurBehindWindow DwmEnableBlurBehindWindowSRC = NULL; +#endif +void RGFW_win32_makeWindowTransparent(RGFW_window* win); +void RGFW_win32_makeWindowTransparent(RGFW_window* win) { + if (!(win->_flags & RGFW_windowTransparent)) return; + + #ifndef RGFW_NO_DWM + if (DwmEnableBlurBehindWindowSRC != NULL) { + DWM_BLURBEHIND bb = {0, 0, 0, 0}; + bb.dwFlags = 0x1; + bb.fEnable = TRUE; + bb.hRgnBlur = NULL; + DwmEnableBlurBehindWindowSRC(win->src.window, &bb); + + } else + #endif + { + SetWindowLong(win->src.window, GWL_EXSTYLE, WS_EX_LAYERED); + SetLayeredWindowAttributes(win->src.window, 0, 128, LWA_ALPHA); + } +} + +LRESULT CALLBACK WndProcW(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam); +LRESULT CALLBACK WndProcW(HWND hWnd, UINT message, WPARAM wParam, LPARAM lParam) { + RGFW_window* win = (RGFW_window*)GetPropW(hWnd, L"RGFW"); + if (win == NULL) return DefWindowProcW(hWnd, message, wParam, lParam); + + RECT windowRect; + GetWindowRect(hWnd, &windowRect); + + switch (message) { + case WM_CLOSE: + case WM_QUIT: + RGFW_eventQueuePushEx(e.type = RGFW_quit; e._win = win); + RGFW_windowQuitCallback(win); + return 0; + case WM_ACTIVATE: { + RGFW_bool inFocus = RGFW_BOOL(LOWORD(wParam) != WA_INACTIVE); + if (inFocus) win->_flags |= RGFW_windowFocus; + else win->_flags &= ~ (u32)RGFW_windowFocus; + RGFW_eventQueuePushEx(e.type = (RGFW_eventType)((u8)RGFW_focusOut - inFocus); e._win = win); + + RGFW_focusCallback(win, inFocus); + RGFW_window_focusLost(win); + + if ((win->_flags & RGFW_windowFullscreen) == 0) + return DefWindowProcW(hWnd, message, wParam, lParam); + + win->_flags &= ~(u32)RGFW_EVENT_PASSED; + if (inFocus == RGFW_FALSE) RGFW_window_minimize(win); + else RGFW_window_setFullscreen(win, 1); + return DefWindowProcW(hWnd, message, wParam, lParam); + } + case WM_MOVE: + win->r.x = windowRect.left; + win->r.y = windowRect.top; + RGFW_eventQueuePushEx(e.type = RGFW_windowMoved; e._win = win); + RGFW_windowMovedCallback(win, win->r); + return DefWindowProcW(hWnd, message, wParam, lParam); + case WM_SIZE: { + if (win->src.aspectRatio.w != 0 && win->src.aspectRatio.h != 0) { + double aspectRatio = (double)win->src.aspectRatio.w / win->src.aspectRatio.h; + + int width = windowRect.right - windowRect.left; + int height = windowRect.bottom - windowRect.top; + int newHeight = (int)(width / aspectRatio); + int newWidth = (int)(height * aspectRatio); + + if (win->r.w > windowRect.right - windowRect.left || + win->r.h > (i32)((u32)(windowRect.bottom - windowRect.top) - win->src.hOffset)) + { + if (newHeight > height) windowRect.right = windowRect.left + newWidth; + else windowRect.bottom = windowRect.top + newHeight; + } else { + if (newHeight < height) windowRect.right = windowRect.left + newWidth; + else windowRect.bottom = windowRect.top + newHeight; + } + + RGFW_window_resize(win, RGFW_AREA((windowRect.right - windowRect.left), + (u32)(windowRect.bottom - windowRect.top) - (u32)win->src.hOffset)); + } + + win->r.w = windowRect.right - windowRect.left; + win->r.h = (windowRect.bottom - windowRect.top) - (i32)win->src.hOffset; + RGFW_eventQueuePushEx(e.type = RGFW_windowResized; e._win = win); + RGFW_windowResizedCallback(win, win->r); + RGFW_window_checkMode(win); + return DefWindowProcW(hWnd, message, wParam, lParam); + } + #ifndef RGFW_NO_MONITOR + case WM_DPICHANGED: { + if (win->_flags & RGFW_windowScaleToMonitor) RGFW_window_scaleToMonitor(win); + + const float scaleX = HIWORD(wParam) / (float) 96; + const float scaleY = LOWORD(wParam) / (float) 96; + RGFW_scaleUpdatedCallback(win, scaleX, scaleY); + RGFW_eventQueuePushEx(e.type = RGFW_scaleUpdated; e.scaleX = scaleX; e.scaleY = scaleY; e._win = win); + return DefWindowProcW(hWnd, message, wParam, lParam); + } + #endif + case WM_GETMINMAXINFO: { + MINMAXINFO* mmi = (MINMAXINFO*) lParam; + mmi->ptMinTrackSize.x = (LONG)win->src.minSize.w; + mmi->ptMinTrackSize.y = (LONG)(win->src.minSize.h + win->src.hOffset); + if (win->src.maxSize.w == 0 && win->src.maxSize.h == 0) + return DefWindowProcW(hWnd, message, wParam, lParam); + + mmi->ptMaxTrackSize.x = (LONG)win->src.maxSize.w; + mmi->ptMaxTrackSize.y = (LONG)(win->src.maxSize.h + win->src.hOffset); + return DefWindowProcW(hWnd, message, wParam, lParam); + } + case WM_PAINT: { + PAINTSTRUCT ps; + BeginPaint(hWnd, &ps); + RGFW_eventQueuePushEx(e.type = RGFW_windowRefresh; e._win = win); + RGFW_windowRefreshCallback(win); + EndPaint(hWnd, &ps); + + return DefWindowProcW(hWnd, message, wParam, lParam); + } + #if(_WIN32_WINNT >= 0x0600) + case WM_DWMCOMPOSITIONCHANGED: + case WM_DWMCOLORIZATIONCOLORCHANGED: + RGFW_win32_makeWindowTransparent(win); + break; + #endif +/* based on sokol_app.h */ +#ifdef RGFW_ADVANCED_SMOOTH_RESIZE + case WM_ENTERSIZEMOVE: SetTimer(win->src.window, 1, USER_TIMER_MINIMUM, NULL); break; + case WM_EXITSIZEMOVE: KillTimer(win->src.window, 1); break; + case WM_TIMER: RGFW_windowRefreshCallback(win); break; +#endif + case WM_NCLBUTTONDOWN: { + /* workaround for half-second pause when starting to move window + see: https://gamedev.net/forums/topic/672094-keeping-things-moving-during-win32-moveresize-events/5254386/ + */ + POINT point = { 0, 0 }; + if (SendMessage(win->src.window, WM_NCHITTEST, wParam, lParam) != HTCAPTION || GetCursorPos(&point) == FALSE) + break; + + ScreenToClient(win->src.window, &point); + PostMessage(win->src.window, WM_MOUSEMOVE, 0, ((uint32_t)point.x)|(((uint32_t)point.y) << 16)); + break; + } + default: break; + } + return DefWindowProcW(hWnd, message, wParam, lParam); +} + +#ifndef RGFW_NO_DPI + HMODULE RGFW_Shcore_dll = NULL; + typedef HRESULT (WINAPI *PFN_GetDpiForMonitor)(HMONITOR,MONITOR_DPI_TYPE,UINT*,UINT*); + PFN_GetDpiForMonitor GetDpiForMonitorSRC = NULL; + #define GetDpiForMonitor GetDpiForMonitorSRC +#endif + +#if !defined(RGFW_NO_LOAD_WINMM) && !defined(RGFW_NO_WINMM) + HMODULE RGFW_winmm_dll = NULL; + typedef u32 (WINAPI * PFN_timeBeginPeriod)(u32); + typedef PFN_timeBeginPeriod PFN_timeEndPeriod; + PFN_timeBeginPeriod timeBeginPeriodSRC, timeEndPeriodSRC; + #define timeBeginPeriod timeBeginPeriodSRC + #define timeEndPeriod timeEndPeriodSRC +#elif !defined(RGFW_NO_WINMM) + __declspec(dllimport) u32 __stdcall timeBeginPeriod(u32 uPeriod); + __declspec(dllimport) u32 __stdcall timeEndPeriod(u32 uPeriod); +#endif +#define RGFW_PROC_DEF(proc, name) if (name##SRC == NULL && proc != NULL) { \ + name##SRC = (PFN_##name)(RGFW_proc)GetProcAddress((proc), (#name)); \ + RGFW_ASSERT(name##SRC != NULL); \ + } + +#ifndef RGFW_NO_XINPUT +void RGFW_loadXInput(void); +void RGFW_loadXInput(void) { + u32 i; + static const char* names[] = {"xinput1_4.dll", "xinput9_1_0.dll", "xinput1_2.dll", "xinput1_1.dll"}; + + for (i = 0; i < sizeof(names) / sizeof(const char*) && (XInputGetStateSRC == NULL || XInputGetKeystrokeSRC != NULL); i++) { + RGFW_XInput_dll = LoadLibraryA(names[i]); + RGFW_PROC_DEF(RGFW_XInput_dll, XInputGetState); + RGFW_PROC_DEF(RGFW_XInput_dll, XInputGetKeystroke); + } + + if (XInputGetStateSRC == NULL) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errFailedFuncLoad, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to load XInputGetState"); + if (XInputGetKeystrokeSRC == NULL) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errFailedFuncLoad, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to load XInputGetKeystroke"); +} +#endif + +void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area){ +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + win->buffer = buffer; + win->bufferSize = area; + + BITMAPV5HEADER bi; + ZeroMemory(&bi, sizeof(bi)); + bi.bV5Size = sizeof(bi); + bi.bV5Width = (i32)area.w; + bi.bV5Height = -((LONG) area.h); + bi.bV5Planes = 1; + bi.bV5BitCount = 32; + bi.bV5Compression = BI_RGB; + + win->src.bitmap = CreateDIBSection(win->src.hdc, + (BITMAPINFO*) &bi, DIB_RGB_COLORS, + (void**) &win->src.bitmapBits, + NULL, (DWORD) 0); + + if (win->buffer == NULL) + win->buffer = win->src.bitmapBits; + + win->src.hdcMem = CreateCompatibleDC(win->src.hdc); + SelectObject(win->src.hdcMem, win->src.bitmap); + + #if defined(RGFW_OSMESA) + win->src.ctx = OSMesaCreateContext(OSMESA_BGRA, NULL); + OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); + OSMesaPixelStore(OSMESA_Y_UP, 0); + #endif + #else + RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ + #endif +} + +void RGFW_releaseCursor(RGFW_window* win) { + RGFW_UNUSED(win); + ClipCursor(NULL); + const RAWINPUTDEVICE id = { 0x01, 0x02, RIDEV_REMOVE, NULL }; + RegisterRawInputDevices(&id, 1, sizeof(id)); +} + +void RGFW_captureCursor(RGFW_window* win, RGFW_rect rect) { + RGFW_UNUSED(win); RGFW_UNUSED(rect); + + RECT clipRect; + GetClientRect(win->src.window, &clipRect); + ClientToScreen(win->src.window, (POINT*) &clipRect.left); + ClientToScreen(win->src.window, (POINT*) &clipRect.right); + ClipCursor(&clipRect); + + const RAWINPUTDEVICE id = { 0x01, 0x02, 0, win->src.window }; + RegisterRawInputDevices(&id, 1, sizeof(id)); +} + +#define RGFW_LOAD_LIBRARY(x, lib) if (x == NULL) { x = LoadLibraryA(lib); RGFW_ASSERT(x != NULL); } + +#ifdef RGFW_DIRECTX +int RGFW_window_createDXSwapChain(RGFW_window* win, IDXGIFactory* pFactory, IUnknown* pDevice, IDXGISwapChain** swapchain) { + RGFW_ASSERT(win && pFactory && pDevice && swapchain); + + static DXGI_SWAP_CHAIN_DESC swapChainDesc = { 0 }; + swapChainDesc.BufferCount = 2; + swapChainDesc.BufferDesc.Width = win->r.w; + swapChainDesc.BufferDesc.Height = win->r.h; + swapChainDesc.BufferDesc.Format = DXGI_FORMAT_R8G8B8A8_UNORM; + swapChainDesc.BufferUsage = DXGI_USAGE_RENDER_TARGET_OUTPUT; + swapChainDesc.OutputWindow = (HWND)win->src.window; + swapChainDesc.SampleDesc.Count = 1; + swapChainDesc.SampleDesc.Quality = 0; + swapChainDesc.Windowed = TRUE; + swapChainDesc.Flags = DXGI_SWAP_CHAIN_FLAG_ALLOW_MODE_SWITCH; + + HRESULT hr = pFactory->lpVtbl->CreateSwapChain(pFactory, (IUnknown*)pDevice, &swapChainDesc, swapchain); + if (FAILED(hr)) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errDirectXContext, RGFW_DEBUG_CTX(win, hr), "Failed to create DirectX swap chain!"); + return -2; + } + + return 0; +} +#endif + +void RGFW_win32_loadOpenGLFuncs(HWND dummyWin); +void RGFW_win32_loadOpenGLFuncs(HWND dummyWin) { +#ifdef RGFW_OPENGL + if (wglSwapIntervalEXT != NULL && wglChoosePixelFormatARB != NULL && wglChoosePixelFormatARB != NULL) + return; + + HDC dummy_dc = GetDC(dummyWin); + u32 pfd_flags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER; + + PIXELFORMATDESCRIPTOR pfd = {sizeof(pfd), 1, pfd_flags, PFD_TYPE_RGBA, 32, 8, PFD_MAIN_PLANE, 32, 8, 8, 8, 8, 8, 0, 0, 0, 0, 0, 32, 8, 0, PFD_MAIN_PLANE, 0, 0, 0, 0}; + + int dummy_pixel_format = ChoosePixelFormat(dummy_dc, &pfd); + SetPixelFormat(dummy_dc, dummy_pixel_format, &pfd); + + HGLRC dummy_context = wglCreateContext(dummy_dc); + wglMakeCurrent(dummy_dc, dummy_context); + + wglCreateContextAttribsARB = ((PFNWGLCREATECONTEXTATTRIBSARBPROC(WINAPI *)(const char*)) wglGetProcAddress)("wglCreateContextAttribsARB"); + wglChoosePixelFormatARB = ((PFNWGLCHOOSEPIXELFORMATARBPROC(WINAPI *)(const char*)) wglGetProcAddress)("wglChoosePixelFormatARB"); + + wglSwapIntervalEXT = (PFNWGLSWAPINTERVALEXTPROC)(RGFW_proc)wglGetProcAddress("wglSwapIntervalEXT"); + if (wglSwapIntervalEXT == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to load swap interval function"); + } + + wglMakeCurrent(dummy_dc, 0); + wglDeleteContext(dummy_context); + ReleaseDC(dummyWin, dummy_dc); +#else + RGFW_UNUSED(dummyWin); +#endif +} + +#ifndef RGFW_EGL +void RGFW_window_initOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + PIXELFORMATDESCRIPTOR pfd; + pfd.nSize = sizeof(PIXELFORMATDESCRIPTOR); + pfd.nVersion = 1; + pfd.dwFlags = PFD_DRAW_TO_WINDOW | PFD_SUPPORT_OPENGL | PFD_DOUBLEBUFFER; + pfd.iPixelType = PFD_TYPE_RGBA; + pfd.iLayerType = PFD_MAIN_PLANE; + pfd.cColorBits = 32; + pfd.cAlphaBits = 8; + pfd.cDepthBits = 24; + pfd.cStencilBits = (BYTE)RGFW_GL_HINTS[RGFW_glStencil]; + pfd.cAuxBuffers = (BYTE)RGFW_GL_HINTS[RGFW_glAuxBuffers]; + if (RGFW_GL_HINTS[RGFW_glStereo]) pfd.dwFlags |= PFD_STEREO; + + /* try to create the pixel format we want for opengl and then try to create an opengl context for the specified version */ + if (win->_flags & RGFW_windowOpenglSoftware) + pfd.dwFlags |= PFD_GENERIC_FORMAT | PFD_GENERIC_ACCELERATED; + + /* get pixel format, default to a basic pixel format */ + int pixel_format = ChoosePixelFormat(win->src.hdc, &pfd); + if (wglChoosePixelFormatARB != NULL) { + i32* pixel_format_attribs = (i32*)RGFW_initFormatAttribs(); + + int new_pixel_format; + UINT num_formats; + wglChoosePixelFormatARB(win->src.hdc, pixel_format_attribs, 0, 1, &new_pixel_format, &num_formats); + if (!num_formats) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to create a pixel format for WGL"); + else pixel_format = new_pixel_format; + } + + PIXELFORMATDESCRIPTOR suggested; + if (!DescribePixelFormat(win->src.hdc, pixel_format, sizeof(suggested), &suggested) || + !SetPixelFormat(win->src.hdc, pixel_format, &pfd)) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to set the WGL pixel format"); + + if (!(pfd.dwFlags & PFD_GENERIC_ACCELERATED)) { + win->_flags |= RGFW_windowOpenglSoftware; + } + + if (wglCreateContextAttribsARB != NULL) { + /* create opengl/WGL context for the specified version */ + u32 index = 0; + i32 attribs[40]; + + if (RGFW_GL_HINTS[RGFW_glProfile]== RGFW_glCore) { + SET_ATTRIB(WGL_CONTEXT_PROFILE_MASK_ARB, WGL_CONTEXT_CORE_PROFILE_BIT_ARB); + } + else { + SET_ATTRIB(WGL_CONTEXT_PROFILE_MASK_ARB, WGL_CONTEXT_COMPATIBILITY_PROFILE_BIT_ARB); + } + + if (RGFW_GL_HINTS[RGFW_glMinor] || RGFW_GL_HINTS[RGFW_glMajor]) { + SET_ATTRIB(WGL_CONTEXT_MAJOR_VERSION_ARB, RGFW_GL_HINTS[RGFW_glMajor]); + SET_ATTRIB(WGL_CONTEXT_MINOR_VERSION_ARB, RGFW_GL_HINTS[RGFW_glMinor]); + } + + SET_ATTRIB(0, 0); + + win->src.ctx = (HGLRC)wglCreateContextAttribsARB(win->src.hdc, NULL, attribs); + } else { /* fall back to a default context (probably opengl 2 or something) */ + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to create an accelerated OpenGL Context"); + win->src.ctx = wglCreateContext(win->src.hdc); + } + + ReleaseDC(win->src.window, win->src.hdc); + win->src.hdc = GetDC(win->src.window); + wglMakeCurrent(win->src.hdc, win->src.ctx); + + if (_RGFW.root != win) + wglShareLists(_RGFW.root->src.ctx, win->src.ctx); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context initalized"); +#else + RGFW_UNUSED(win); +#endif +} + +void RGFW_window_freeOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + if (win->src.ctx == NULL) return; + wglDeleteContext((HGLRC) win->src.ctx); /*!< delete opengl context */ + win->src.ctx = NULL; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context freed"); +#else + RGFW_UNUSED(win); +#endif +} +#endif + + +i32 RGFW_init(void) { +#if defined(RGFW_C89) || defined(__cplusplus) + if (_RGFW_init) return 0; + _RGFW_init = RGFW_TRUE; + _RGFW.root = NULL; _RGFW.current = NULL; _RGFW.windowCount = -1; _RGFW.eventLen = 0; _RGFW.eventIndex = 0; +#endif + + #ifndef RGFW_NO_XINPUT + if (RGFW_XInput_dll == NULL) + RGFW_loadXInput(); + #endif + +#ifndef RGFW_NO_DPI + #if (_WIN32_WINNT >= 0x0600) + SetProcessDPIAware(); + #endif +#endif + + #ifndef RGFW_NO_WINMM + #ifndef RGFW_NO_LOAD_WINMM + RGFW_LOAD_LIBRARY(RGFW_winmm_dll, "winmm.dll"); + RGFW_PROC_DEF(RGFW_winmm_dll, timeBeginPeriod); + RGFW_PROC_DEF(RGFW_winmm_dll, timeEndPeriod); + #endif + timeBeginPeriod(1); + #endif + + #ifndef RGFW_NO_DWM + RGFW_LOAD_LIBRARY(RGFW_dwm_dll, "dwmapi.dll"); + RGFW_PROC_DEF(RGFW_dwm_dll, DwmEnableBlurBehindWindow); + #endif + + RGFW_LOAD_LIBRARY(RGFW_wgl_dll, "opengl32.dll"); + #ifndef RGFW_NO_LOAD_WGL + RGFW_PROC_DEF(RGFW_wgl_dll, wglCreateContext); + RGFW_PROC_DEF(RGFW_wgl_dll, wglDeleteContext); + RGFW_PROC_DEF(RGFW_wgl_dll, wglGetProcAddress); + RGFW_PROC_DEF(RGFW_wgl_dll, wglMakeCurrent); + RGFW_PROC_DEF(RGFW_wgl_dll, wglGetCurrentDC); + RGFW_PROC_DEF(RGFW_wgl_dll, wglGetCurrentContext); + RGFW_PROC_DEF(RGFW_wgl_dll, wglShareLists); + #endif + + u8 RGFW_blk[] = { 0, 0, 0, 0 }; + _RGFW.hiddenMouse = RGFW_loadMouse(RGFW_blk, RGFW_AREA(1, 1), 4); + + _RGFW.windowCount = 0; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context initialized"); + return 1; +} + +RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { + if (name[0] == 0) name = (char*) " "; + + RGFW_window_basic_init(win, rect, flags); + + win->src.hIconSmall = win->src.hIconBig = NULL; + win->src.maxSize = RGFW_AREA(0, 0); + win->src.minSize = RGFW_AREA(0, 0); + win->src.aspectRatio = RGFW_AREA(0, 0); + + HINSTANCE inh = GetModuleHandleA(NULL); + + #ifndef __cplusplus + WNDCLASSW Class = { 0 }; /*!< Setup the Window class. */ + #else + WNDCLASSW Class = { }; + #endif + + if (RGFW_className == NULL) + RGFW_className = (char*)name; + + wchar_t wide_class[256]; + MultiByteToWideChar(CP_UTF8, 0, RGFW_className, -1, wide_class, 255); + + Class.lpszClassName = wide_class; + Class.hInstance = inh; + Class.hCursor = LoadCursor(NULL, IDC_ARROW); + Class.lpfnWndProc = WndProcW; + Class.cbClsExtra = sizeof(RGFW_window*); + + Class.hIcon = (HICON)LoadImageA(GetModuleHandleW(NULL), "RGFW_ICON", IMAGE_ICON, 0, 0, LR_DEFAULTSIZE | LR_SHARED); + if (Class.hIcon == NULL) + Class.hIcon = (HICON)LoadImageA(NULL, (LPCSTR)IDI_APPLICATION, IMAGE_ICON, 0, 0, LR_DEFAULTSIZE | LR_SHARED); + + RegisterClassW(&Class); + + DWORD window_style = WS_CLIPSIBLINGS | WS_CLIPCHILDREN; + + RECT windowRect, clientRect; + + if (!(flags & RGFW_windowNoBorder)) { + window_style |= WS_CAPTION | WS_SYSMENU | WS_BORDER | WS_MINIMIZEBOX | WS_THICKFRAME; + + if (!(flags & RGFW_windowNoResize)) + window_style |= WS_SIZEBOX | WS_MAXIMIZEBOX; + } else + window_style |= WS_POPUP | WS_VISIBLE | WS_SYSMENU; + + wchar_t wide_name[256]; + MultiByteToWideChar(CP_UTF8, 0, name, -1, wide_name, 255); + HWND dummyWin = CreateWindowW(Class.lpszClassName, (wchar_t*)wide_name, window_style, win->r.x, win->r.y, win->r.w, win->r.h, 0, 0, inh, 0); + + GetWindowRect(dummyWin, &windowRect); + GetClientRect(dummyWin, &clientRect); + + RGFW_win32_loadOpenGLFuncs(dummyWin); + DestroyWindow(dummyWin); + + win->src.hOffset = (u32)(windowRect.bottom - windowRect.top) - (u32)(clientRect.bottom - clientRect.top); + win->src.window = CreateWindowW(Class.lpszClassName, (wchar_t*)wide_name, window_style, win->r.x, win->r.y, win->r.w, win->r.h + (i32)win->src.hOffset, 0, 0, inh, 0); + SetPropW(win->src.window, L"RGFW", win); + RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h)); /* so WM_GETMINMAXINFO gets called again */ + + if (flags & RGFW_windowAllowDND) { + win->_flags |= RGFW_windowAllowDND; + RGFW_window_setDND(win, 1); + } + win->src.hdc = GetDC(win->src.window); + + if ((flags & RGFW_windowNoInitAPI) == 0) { + RGFW_window_initOpenGL(win); + RGFW_window_initBuffer(win); + } + + RGFW_window_setFlags(win, flags); + RGFW_win32_makeWindowTransparent(win); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a new window was created"); + RGFW_window_show(win); + + return win; +} + +void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { + RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); + LONG style = GetWindowLong(win->src.window, GWL_STYLE); + + + if (border == 0) { + SetWindowLong(win->src.window, GWL_STYLE, style & ~WS_OVERLAPPEDWINDOW); + SetWindowPos( + win->src.window, HWND_TOP, 0, 0, 0, 0, + SWP_NOZORDER | SWP_FRAMECHANGED | SWP_SHOWWINDOW | SWP_NOMOVE | SWP_NOSIZE + ); + } + else { + style |= WS_OVERLAPPEDWINDOW; + if (win->_flags & RGFW_windowNoResize) style &= ~WS_MAXIMIZEBOX; + SetWindowPos( + win->src.window, HWND_TOP, 0, 0, 0, 0, + SWP_NOZORDER | SWP_FRAMECHANGED | SWP_SHOWWINDOW | SWP_NOMOVE | SWP_NOSIZE + ); + } +} + +void RGFW_window_setDND(RGFW_window* win, RGFW_bool allow) { + RGFW_setBit(&win->_flags, RGFW_windowAllowDND, allow); + DragAcceptFiles(win->src.window, allow); +} + +RGFW_area RGFW_getScreenSize(void) { + HDC dc = GetDC(NULL); + RGFW_area area = RGFW_AREA(GetDeviceCaps(dc, HORZRES), GetDeviceCaps(dc, VERTRES)); + ReleaseDC(NULL, dc); + return area; +} + +RGFW_point RGFW_getGlobalMousePoint(void) { + POINT p; + GetCursorPos(&p); + + return RGFW_POINT(p.x, p.y); +} + +void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + win->src.aspectRatio = a; +} + +void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + win->src.minSize = a; +} + +void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + win->src.maxSize = a; +} + +void RGFW_window_focus(RGFW_window* win) { + RGFW_ASSERT(win); + SetForegroundWindow(win->src.window); + SetFocus(win->src.window); +} + +void RGFW_window_raise(RGFW_window* win) { + RGFW_ASSERT(win); + BringWindowToTop(win->src.window); + SetWindowPos(win->src.window, HWND_TOP, win->r.x, win->r.y, win->r.w, win->r.h, SWP_NOSIZE | SWP_NOMOVE | SWP_NOOWNERZORDER | SWP_FRAMECHANGED); +} + +void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { + RGFW_ASSERT(win != NULL); + + if (fullscreen == RGFW_FALSE) { + RGFW_window_setBorder(win, 1); + SetWindowPos(win->src.window, HWND_NOTOPMOST, win->_oldRect.x, win->_oldRect.y, win->_oldRect.w, win->_oldRect.h + (i32)win->src.hOffset, + SWP_NOOWNERZORDER | SWP_FRAMECHANGED); + + win->_flags &= ~(u32)RGFW_windowFullscreen; + win->r = win->_oldRect; + return; + } + + win->_oldRect = win->r; + win->_flags |= RGFW_windowFullscreen; + + RGFW_monitor mon = RGFW_window_getMonitor(win); + RGFW_window_setBorder(win, 0); + + SetWindowPos(win->src.window, HWND_TOPMOST, 0, 0, (i32)mon.mode.area.w, (i32)mon.mode.area.h, SWP_NOOWNERZORDER | SWP_FRAMECHANGED | SWP_SHOWWINDOW); + RGFW_monitor_scaleToWindow(mon, win); + + win->r = RGFW_RECT(0, 0, mon.mode.area.w, mon.mode.area.h); +} + +void RGFW_window_maximize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_window_hide(win); + ShowWindow(win->src.window, SW_MAXIMIZE); +} + +void RGFW_window_minimize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + ShowWindow(win->src.window, SW_MINIMIZE); +} + +void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { + RGFW_ASSERT(win != NULL); + if (floating) SetWindowPos(win->src.window, HWND_TOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW); + else SetWindowPos(win->src.window, HWND_NOTOPMOST, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_SHOWWINDOW); +} + +void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { + SetWindowLong(win->src.window, GWL_EXSTYLE, WS_EX_LAYERED); + SetLayeredWindowAttributes(win->src.window, 0, opacity, LWA_ALPHA); +} + +void RGFW_window_restore(RGFW_window* win) { RGFW_window_show(win); } + +RGFW_bool RGFW_window_isFloating(RGFW_window* win) { + return (GetWindowLongPtr(win->src.window, GWL_EXSTYLE) & WS_EX_TOPMOST) != 0; +} + +u8 RGFW_xinput2RGFW[] = { + RGFW_gamepadA, /* or PS X button */ + RGFW_gamepadB, /* or PS circle button */ + RGFW_gamepadX, /* or PS square button */ + RGFW_gamepadY, /* or PS triangle button */ + RGFW_gamepadR1, /* right bumper */ + RGFW_gamepadL1, /* left bump */ + RGFW_gamepadL2, /* left trigger */ + RGFW_gamepadR2, /* right trigger */ + 0, 0, 0, 0, 0, 0, 0, 0, + RGFW_gamepadUp, /* dpad up */ + RGFW_gamepadDown, /* dpad down */ + RGFW_gamepadLeft, /* dpad left */ + RGFW_gamepadRight, /* dpad right */ + RGFW_gamepadStart, /* start button */ + RGFW_gamepadSelect,/* select button */ + RGFW_gamepadL3, + RGFW_gamepadR3, +}; +i32 RGFW_checkXInput(RGFW_window* win, RGFW_event* e); +i32 RGFW_checkXInput(RGFW_window* win, RGFW_event* e) { + #ifndef RGFW_NO_XINPUT + + RGFW_UNUSED(win); + u16 i; + for (i = 0; i < 4; i++) { + XINPUT_KEYSTROKE keystroke; + + if (XInputGetKeystroke == NULL) + return 0; + + DWORD result = XInputGetKeystroke((DWORD)i, 0, &keystroke); + + if ((keystroke.Flags & XINPUT_KEYSTROKE_REPEAT) == 0 && result != ERROR_EMPTY) { + if (result != ERROR_SUCCESS) + return 0; + + if (keystroke.VirtualKey > VK_PAD_RTHUMB_PRESS) + continue; + + /* gamepad + 1 = RGFW_gamepadButtonReleased */ + e->type = RGFW_gamepadButtonPressed + !(keystroke.Flags & XINPUT_KEYSTROKE_KEYDOWN); + e->button = RGFW_xinput2RGFW[keystroke.VirtualKey - 0x5800]; + RGFW_gamepadPressed[i][e->button].prev = RGFW_gamepadPressed[i][e->button].current; + RGFW_gamepadPressed[i][e->button].current = RGFW_BOOL(keystroke.Flags & XINPUT_KEYSTROKE_KEYDOWN); + + RGFW_gamepadButtonCallback(win, i, e->button, e->type == RGFW_gamepadButtonPressed); + return 1; + } + + XINPUT_STATE state; + if (XInputGetState == NULL || + XInputGetState((DWORD) i, &state) == ERROR_DEVICE_NOT_CONNECTED + ) { + if (RGFW_gamepads[i] == 0) + continue; + + RGFW_gamepads[i] = 0; + RGFW_gamepadCount--; + + win->event.type = RGFW_gamepadDisconnected; + win->event.gamepad = (u16)i; + RGFW_gamepadCallback(win, i, 0); + return 1; + } + + if (RGFW_gamepads[i] == 0) { + RGFW_gamepads[i] = 1; + RGFW_gamepadCount++; + + char str[] = "Microsoft X-Box (XInput device)"; + RGFW_MEMCPY(RGFW_gamepads_name[i], str, sizeof(str)); + RGFW_gamepads_name[i][sizeof(RGFW_gamepads_name[i]) - 1] = '\0'; + win->event.type = RGFW_gamepadConnected; + win->event.gamepad = i; + RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; + + RGFW_gamepadCallback(win, i, 1); + return 1; + } + +#define INPUT_DEADZONE ( 0.24f * (float)(0x7FFF) ) /* Default to 24% of the +/- 32767 range. This is a reasonable default value but can be altered if needed. */ + + if ((state.Gamepad.sThumbLX < INPUT_DEADZONE && + state.Gamepad.sThumbLX > -INPUT_DEADZONE) && + (state.Gamepad.sThumbLY < INPUT_DEADZONE && + state.Gamepad.sThumbLY > -INPUT_DEADZONE)) + { + state.Gamepad.sThumbLX = 0; + state.Gamepad.sThumbLY = 0; + } + + if ((state.Gamepad.sThumbRX < INPUT_DEADZONE && + state.Gamepad.sThumbRX > -INPUT_DEADZONE) && + (state.Gamepad.sThumbRY < INPUT_DEADZONE && + state.Gamepad.sThumbRY > -INPUT_DEADZONE)) + { + state.Gamepad.sThumbRX = 0; + state.Gamepad.sThumbRY = 0; + } + + e->axisesCount = 2; + RGFW_point axis1 = RGFW_POINT(((float)state.Gamepad.sThumbLX / 32768.0f) * 100, ((float)state.Gamepad.sThumbLY / -32768.0f) * 100); + RGFW_point axis2 = RGFW_POINT(((float)state.Gamepad.sThumbRX / 32768.0f) * 100, ((float)state.Gamepad.sThumbRY / -32768.0f) * 100); + + if (axis1.x != e->axis[0].x || axis1.y != e->axis[0].y){ + win->event.whichAxis = 0; + + e->type = RGFW_gamepadAxisMove; + e->axis[0] = axis1; + RGFW_gamepadAxes[i][0] = e->axis[0]; + + RGFW_gamepadAxisCallback(win, e->gamepad, e->axis, e->axisesCount, e->whichAxis); + return 1; + } + + if (axis2.x != e->axis[1].x || axis2.y != e->axis[1].y) { + win->event.whichAxis = 1; + e->type = RGFW_gamepadAxisMove; + e->axis[1] = axis2; + RGFW_gamepadAxes[i][1] = e->axis[1]; + + RGFW_gamepadAxisCallback(win, e->gamepad, e->axis, e->axisesCount, e->whichAxis); + return 1; + } + } + + #endif + + return 0; +} + +void RGFW_stopCheckEvents(void) { + PostMessageW(_RGFW.root->src.window, WM_NULL, 0, 0); +} + +void RGFW_window_eventWait(RGFW_window* win, i32 waitMS) { + RGFW_UNUSED(win); + MsgWaitForMultipleObjects(0, NULL, FALSE, (DWORD)waitMS, QS_ALLINPUT); +} + +u8 RGFW_rgfwToKeyChar(u32 rgfw_keycode) { + UINT vsc = RGFW_rgfwToApiKey(rgfw_keycode); // Should return a Windows VK_* code + BYTE keyboardState[256] = {0}; + + if (!GetKeyboardState(keyboardState)) + return (u8)rgfw_keycode; + + UINT vk = MapVirtualKeyW(vsc, MAPVK_VSC_TO_VK); + HKL layout = GetKeyboardLayout(0); + + wchar_t charBuffer[2] = {0}; + int result = ToUnicodeEx(vk, vsc, keyboardState, charBuffer, 1, 0, layout); + + if (result <= 0) + return (u8)rgfw_keycode; + + return (u8)charBuffer[0]; +} + +RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { + if (win == NULL || ((win->_flags & RGFW_windowFreeOnClose) && (win->_flags & RGFW_EVENT_QUIT))) return NULL; + RGFW_event* ev = RGFW_window_checkEventCore(win); + if (ev) { + return ev; + } + + static HDROP drop; + if (win->event.type == RGFW_DNDInit) { + if (win->event.droppedFilesCount) { + u32 i; + for (i = 0; i < win->event.droppedFilesCount; i++) + win->event.droppedFiles[i][0] = '\0'; + } + + win->event.droppedFilesCount = 0; + win->event.droppedFilesCount = DragQueryFileW(drop, 0xffffffff, NULL, 0); + + u32 i; + for (i = 0; i < win->event.droppedFilesCount; i++) { + UINT length = DragQueryFileW(drop, i, NULL, 0); + if (length == 0) + continue; + + WCHAR buffer[RGFW_MAX_PATH * 2]; + if (length > (RGFW_MAX_PATH * 2) - 1) + length = RGFW_MAX_PATH * 2; + + DragQueryFileW(drop, i, buffer, length + 1); + + char* str = RGFW_createUTF8FromWideStringWin32(buffer); + if (str != NULL) + RGFW_MEMCPY(win->event.droppedFiles[i], str, length + 1); + + win->event.droppedFiles[i][RGFW_MAX_PATH - 1] = '\0'; + } + + DragFinish(drop); + RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); + + win->event.type = RGFW_DND; + return &win->event; + } + + if (RGFW_checkXInput(win, &win->event)) + return &win->event; + + static BYTE keyboardState[256]; + GetKeyboardState(keyboardState); + + MSG msg; + if (PeekMessageA(&msg, NULL, 0u, 0u, PM_REMOVE)) { + if (msg.hwnd != win->src.window && msg.hwnd != NULL) { + TranslateMessage(&msg); + DispatchMessageA(&msg); + return RGFW_window_checkEvent(win); + } + } else { + return NULL; + } + + switch (msg.message) { + case WM_MOUSELEAVE: + win->event.type = RGFW_mouseLeave; + win->_flags |= RGFW_MOUSE_LEFT; + RGFW_mouseNotifyCallback(win, win->event.point, 0); + break; + case WM_SYSKEYUP: case WM_KEYUP: { + i32 scancode = (HIWORD(msg.lParam) & (KF_EXTENDED | 0xff)); + if (scancode == 0) + scancode = (i32)MapVirtualKeyW((UINT)msg.wParam, MAPVK_VK_TO_VSC); + + switch (scancode) { + case 0x54: scancode = 0x137; break; /* Alt+PrtS */ + case 0x146: scancode = 0x45; break; /* Ctrl+Pause */ + case 0x136: scancode = 0x36; break; /* CJK IME sets the extended bit for right Shift */ + default: break; + } + + win->event.key = (u8)RGFW_apiKeyToRGFW((u32) scancode); + + if (msg.wParam == VK_CONTROL) { + if (HIWORD(msg.lParam) & KF_EXTENDED) + win->event.key = RGFW_controlR; + else win->event.key = RGFW_controlL; + } + + wchar_t charBuffer; + ToUnicodeEx((UINT)msg.wParam, (UINT)scancode, keyboardState, (wchar_t*)&charBuffer, 1, 0, NULL); + + win->event.keyChar = (u8)charBuffer; + + RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; + win->event.type = RGFW_keyReleased; + RGFW_keyboard[win->event.key].current = 0; + + RGFW_updateKeyMods(win, (GetKeyState(VK_CAPITAL) & 0x0001), (GetKeyState(VK_NUMLOCK) & 0x0001), (GetKeyState(VK_SCROLL) & 0x0001)); + + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 0); + break; + } + case WM_SYSKEYDOWN: case WM_KEYDOWN: { + i32 scancode = (HIWORD(msg.lParam) & (KF_EXTENDED | 0xff)); + if (scancode == 0) + scancode = (i32)MapVirtualKeyW((u32)msg.wParam, MAPVK_VK_TO_VSC); + + switch (scancode) { + case 0x54: scancode = 0x137; break; /* Alt+PrtS */ + case 0x146: scancode = 0x45; break; /* Ctrl+Pause */ + case 0x136: scancode = 0x36; break; /* CJK IME sets the extended bit for right Shift */ + default: break; + } + + win->event.key = (u8)RGFW_apiKeyToRGFW((u32) scancode); + if (msg.wParam == VK_CONTROL) { + if (HIWORD(msg.lParam) & KF_EXTENDED) + win->event.key = RGFW_controlR; + else win->event.key = RGFW_controlL; + } + + wchar_t charBuffer; + ToUnicodeEx((UINT)msg.wParam, (UINT)scancode, keyboardState, &charBuffer, 1, 0, NULL); + win->event.keyChar = (u8)charBuffer; + + RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; + + win->event.type = RGFW_keyPressed; + win->event.repeat = RGFW_isPressed(win, win->event.key); + RGFW_keyboard[win->event.key].current = 1; + RGFW_updateKeyMods(win, (GetKeyState(VK_CAPITAL) & 0x0001), (GetKeyState(VK_NUMLOCK) & 0x0001), (GetKeyState(VK_SCROLL) & 0x0001)); + + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 1); + break; + } + case WM_MOUSEMOVE: { + if ((win->_flags & RGFW_HOLD_MOUSE)) + break; + + win->event.type = RGFW_mousePosChanged; + + i32 x = GET_X_LPARAM(msg.lParam); + i32 y = GET_Y_LPARAM(msg.lParam); + + RGFW_mousePosCallback(win, win->event.point, win->event.vector); + + if (win->_flags & RGFW_MOUSE_LEFT) { + win->_flags &= ~(u32)RGFW_MOUSE_LEFT; + win->event.type = RGFW_mouseEnter; + RGFW_mouseNotifyCallback(win, win->event.point, 1); + } + + win->event.point.x = x; + win->event.point.y = y; + win->_lastMousePoint = RGFW_POINT(x, y); + + break; + } + case WM_INPUT: { + if (!(win->_flags & RGFW_HOLD_MOUSE)) + break; + + unsigned size = sizeof(RAWINPUT); + static RAWINPUT raw; + + GetRawInputData((HRAWINPUT)msg.lParam, RID_INPUT, &raw, &size, sizeof(RAWINPUTHEADER)); + + if (raw.header.dwType != RIM_TYPEMOUSE || (raw.data.mouse.lLastX == 0 && raw.data.mouse.lLastY == 0) ) + break; + + if (raw.data.mouse.usFlags & MOUSE_MOVE_ABSOLUTE) { + POINT pos = {0, 0}; + int width, height; + + if (raw.data.mouse.usFlags & MOUSE_VIRTUAL_DESKTOP) { + pos.x += GetSystemMetrics(SM_XVIRTUALSCREEN); + pos.y += GetSystemMetrics(SM_YVIRTUALSCREEN); + width = GetSystemMetrics(SM_CXVIRTUALSCREEN); + height = GetSystemMetrics(SM_CYVIRTUALSCREEN); + } + else { + width = GetSystemMetrics(SM_CXSCREEN); + height = GetSystemMetrics(SM_CYSCREEN); + } + + pos.x += (int) (((float)raw.data.mouse.lLastX / 65535.f) * (float)width); + pos.y += (int) (((float)raw.data.mouse.lLastY / 65535.f) * (float)height); + ScreenToClient(win->src.window, &pos); + + win->event.vector.x = pos.x - win->_lastMousePoint.x; + win->event.vector.y = pos.y - win->_lastMousePoint.y; + } else { + win->event.vector.x = raw.data.mouse.lLastX; + win->event.vector.y = raw.data.mouse.lLastY; + } + + win->event.type = RGFW_mousePosChanged; + win->_lastMousePoint.x += win->event.vector.x; + win->_lastMousePoint.y += win->event.vector.y; + win->event.point = win->_lastMousePoint; + RGFW_mousePosCallback(win, win->event.point, win->event.vector); + break; + } + case WM_LBUTTONDOWN: case WM_RBUTTONDOWN: case WM_MBUTTONDOWN: case WM_XBUTTONDOWN: + if (msg.message == WM_XBUTTONDOWN) + win->event.button = RGFW_mouseMisc1 + (GET_XBUTTON_WPARAM(msg.wParam) == XBUTTON2); + else win->event.button = (msg.message == WM_LBUTTONDOWN) ? RGFW_mouseLeft : + (msg.message == WM_RBUTTONDOWN) ? RGFW_mouseRight : RGFW_mouseMiddle; + + win->event.type = RGFW_mouseButtonPressed; + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 1; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); + break; + case WM_LBUTTONUP: case WM_RBUTTONUP: case WM_MBUTTONUP: case WM_XBUTTONUP: + if (msg.message == WM_XBUTTONUP) + win->event.button = RGFW_mouseMisc1 + (GET_XBUTTON_WPARAM(msg.wParam) == XBUTTON2); + else win->event.button = (msg.message == WM_LBUTTONUP) ? RGFW_mouseLeft : + (msg.message == WM_RBUTTONUP) ? RGFW_mouseRight : RGFW_mouseMiddle; + win->event.type = RGFW_mouseButtonReleased; + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 0; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 0); + break; + case WM_MOUSEWHEEL: + if (msg.wParam > 0) + win->event.button = RGFW_mouseScrollUp; + else + win->event.button = RGFW_mouseScrollDown; + + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 1; + + win->event.scroll = (SHORT) HIWORD(msg.wParam) / (double) WHEEL_DELTA; + + win->event.type = RGFW_mouseButtonPressed; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); + break; + case WM_DROPFILES: { + win->event.type = RGFW_DNDInit; + + drop = (HDROP) msg.wParam; + POINT pt; + + /* Move the mouse to the position of the drop */ + DragQueryPoint(drop, &pt); + + win->event.point.x = pt.x; + win->event.point.y = pt.y; + + RGFW_dndInitCallback(win, win->event.point); + } + break; + default: + TranslateMessage(&msg); + DispatchMessageA(&msg); + return RGFW_window_checkEvent(win); + } + + TranslateMessage(&msg); + DispatchMessageA(&msg); + + return &win->event; +} + +RGFW_bool RGFW_window_isHidden(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + return IsWindowVisible(win->src.window) == 0 && !RGFW_window_isMinimized(win); +} + +RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + #ifndef __cplusplus + WINDOWPLACEMENT placement = { 0 }; + #else + WINDOWPLACEMENT placement = { }; + #endif + GetWindowPlacement(win->src.window, &placement); + return placement.showCmd == SW_SHOWMINIMIZED; +} + +RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + #ifndef __cplusplus + WINDOWPLACEMENT placement = { 0 }; + #else + WINDOWPLACEMENT placement = { }; + #endif + GetWindowPlacement(win->src.window, &placement); + return placement.showCmd == SW_SHOWMAXIMIZED || IsZoomed(win->src.window); +} + +typedef struct { int iIndex; HMONITOR hMonitor; RGFW_monitor* monitors; } RGFW_mInfo; +#ifndef RGFW_NO_MONITOR +RGFW_monitor win32CreateMonitor(HMONITOR src); +RGFW_monitor win32CreateMonitor(HMONITOR src) { + RGFW_monitor monitor; + MONITORINFOEX monitorInfo; + + monitorInfo.cbSize = sizeof(MONITORINFOEX); + GetMonitorInfoA(src, (LPMONITORINFO)&monitorInfo); + + /* get the monitor's index */ + DISPLAY_DEVICEA dd; + dd.cb = sizeof(dd); + + DWORD deviceNum; + for (deviceNum = 0; EnumDisplayDevicesA(NULL, deviceNum, &dd, 0); deviceNum++) { + if (!(dd.StateFlags & DISPLAY_DEVICE_ACTIVE)) + continue; + + DEVMODEA dm; + ZeroMemory(&dm, sizeof(dm)); + dm.dmSize = sizeof(dm); + + if (EnumDisplaySettingsA(dd.DeviceName, ENUM_CURRENT_SETTINGS, &dm)) { + monitor.mode.refreshRate = dm.dmDisplayFrequency; + RGFW_splitBPP(dm.dmBitsPerPel, &monitor.mode); + } + + DISPLAY_DEVICEA mdd; + mdd.cb = sizeof(mdd); + + if (EnumDisplayDevicesA(dd.DeviceName, (DWORD)deviceNum, &mdd, 0)) { + RGFW_STRNCPY(monitor.name, mdd.DeviceString, sizeof(monitor.name) - 1); + monitor.name[sizeof(monitor.name) - 1] = '\0'; + break; + } + } + + + + + monitor.x = monitorInfo.rcWork.left; + monitor.y = monitorInfo.rcWork.top; + monitor.mode.area.w = (u32)(monitorInfo.rcMonitor.right - monitorInfo.rcMonitor.left); + monitor.mode.area.h = (u32)(monitorInfo.rcMonitor.bottom - monitorInfo.rcMonitor.top); + + HDC hdc = CreateDC(monitorInfo.szDevice, NULL, NULL, NULL); + /* get pixels per inch */ + float dpiX = (float)GetDeviceCaps(hdc, LOGPIXELSX); + float dpiY = (float)GetDeviceCaps(hdc, LOGPIXELSX); + + monitor.scaleX = dpiX / 96.0f; + monitor.scaleY = dpiY / 96.0f; + monitor.pixelRatio = dpiX >= 192.0f ? 2.0f : 1.0f; + + monitor.physW = (float)GetDeviceCaps(hdc, HORZSIZE) / 25.4f; + monitor.physH = (float)GetDeviceCaps(hdc, VERTSIZE) / 25.4f; + DeleteDC(hdc); + + #ifndef RGFW_NO_DPI + RGFW_LOAD_LIBRARY(RGFW_Shcore_dll, "shcore.dll"); + RGFW_PROC_DEF(RGFW_Shcore_dll, GetDpiForMonitor); + + if (GetDpiForMonitor != NULL) { + u32 x, y; + GetDpiForMonitor(src, MDT_EFFECTIVE_DPI, &x, &y); + monitor.scaleX = (float) (x) / (float) 96.0f; + monitor.scaleY = (float) (y) / (float) 96.0f; + monitor.pixelRatio = dpiX >= 192.0f ? 2.0f : 1.0f; + } + #endif + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoMonitor, RGFW_DEBUG_CTX_MON(monitor), "monitor found"); + return monitor; +} +#endif /* RGFW_NO_MONITOR */ + +#ifndef RGFW_NO_MONITOR +BOOL CALLBACK GetMonitorHandle(HMONITOR hMonitor, HDC hdcMonitor, LPRECT lprcMonitor, LPARAM dwData); +BOOL CALLBACK GetMonitorHandle(HMONITOR hMonitor, HDC hdcMonitor, LPRECT lprcMonitor, LPARAM dwData) { + RGFW_UNUSED(hdcMonitor); + RGFW_UNUSED(lprcMonitor); + + RGFW_mInfo* info = (RGFW_mInfo*) dwData; + + + if (info->iIndex >= 6) + return FALSE; + + info->monitors[info->iIndex] = win32CreateMonitor(hMonitor); + info->iIndex++; + + return TRUE; +} + +RGFW_monitor RGFW_getPrimaryMonitor(void) { + #ifdef __cplusplus + return win32CreateMonitor(MonitorFromPoint({ 0, 0 }, MONITOR_DEFAULTTOPRIMARY)); + #else + return win32CreateMonitor(MonitorFromPoint((POINT) { 0, 0 }, MONITOR_DEFAULTTOPRIMARY)); + #endif +} + +RGFW_monitor* RGFW_getMonitors(size_t* len) { + static RGFW_monitor monitors[6]; + RGFW_mInfo info; + info.iIndex = 0; + info.monitors = monitors; + + EnumDisplayMonitors(NULL, NULL, GetMonitorHandle, (LPARAM) &info); + + if (len != NULL) *len = (size_t)info.iIndex; + return monitors; +} + +RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { + HMONITOR src = MonitorFromWindow(win->src.window, MONITOR_DEFAULTTOPRIMARY); + return win32CreateMonitor(src); +} + +RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { + POINT p = { mon.x, mon.y }; + HMONITOR src = MonitorFromPoint(p, MONITOR_DEFAULTTOPRIMARY); + + MONITORINFOEX monitorInfo; + monitorInfo.cbSize = sizeof(MONITORINFOEX); + GetMonitorInfoA(src, (LPMONITORINFO)&monitorInfo); + + DISPLAY_DEVICEA dd; + dd.cb = sizeof(dd); + + /* Enumerate display devices */ + DWORD deviceNum; + for (deviceNum = 0; EnumDisplayDevicesA(NULL, deviceNum, &dd, 0); deviceNum++) { + if (!(dd.StateFlags & DISPLAY_DEVICE_ACTIVE)) + continue; + + if (strcmp(dd.DeviceName, (const char*)monitorInfo.szDevice) != 0) + continue; + + DEVMODEA dm; + ZeroMemory(&dm, sizeof(dm)); + dm.dmSize = sizeof(dm); + + if (EnumDisplaySettingsA(dd.DeviceName, ENUM_CURRENT_SETTINGS, &dm)) { + if (request & RGFW_monitorScale) { + dm.dmFields |= DM_PELSWIDTH | DM_PELSHEIGHT; + dm.dmPelsWidth = mode.area.w; + dm.dmPelsHeight = mode.area.h; + } + + if (request & RGFW_monitorRefresh) { + dm.dmFields |= DM_DISPLAYFREQUENCY; + dm.dmDisplayFrequency = mode.refreshRate; + } + + if (request & RGFW_monitorRGB) { + dm.dmFields |= DM_BITSPERPEL; + dm.dmBitsPerPel = (DWORD)(mode.red + mode.green + mode.blue); + } + + if (ChangeDisplaySettingsEx(dd.DeviceName, &dm, NULL, CDS_TEST, NULL) == DISP_CHANGE_SUCCESSFUL) { + if (ChangeDisplaySettingsEx(dd.DeviceName, &dm, NULL, CDS_UPDATEREGISTRY, NULL) == DISP_CHANGE_SUCCESSFUL) + return RGFW_TRUE; + return RGFW_FALSE; + } else return RGFW_FALSE; + } + } + + return RGFW_FALSE; +} + +#endif +HICON RGFW_loadHandleImage(u8* src, i32 c, RGFW_area a, BOOL icon); +HICON RGFW_loadHandleImage(u8* src, i32 c, RGFW_area a, BOOL icon) { + size_t channels = (size_t)c; + + BITMAPV5HEADER bi; + ZeroMemory(&bi, sizeof(bi)); + bi.bV5Size = sizeof(bi); + bi.bV5Width = (i32)a.w; + bi.bV5Height = -((LONG) a.h); + bi.bV5Planes = 1; + bi.bV5BitCount = (WORD)(channels * 8); + bi.bV5Compression = BI_RGB; + HDC dc = GetDC(NULL); + u8* target = NULL; + + HBITMAP color = CreateDIBSection(dc, + (BITMAPINFO*) &bi, DIB_RGB_COLORS, (void**) &target, + NULL, (DWORD) 0); + + size_t x, y; + for (y = 0; y < a.h; y++) { + for (x = 0; x < a.w; x++) { + size_t index = (y * 4 * (size_t)a.w) + x * channels; + target[index] = src[index + 2]; + target[index + 1] = src[index + 1]; + target[index + 2] = src[index]; + target[index + 3] = src[index + 3]; + } + } + + ReleaseDC(NULL, dc); + + HBITMAP mask = CreateBitmap((i32)a.w, (i32)a.h, 1, 1, NULL); + + ICONINFO ii; + ZeroMemory(&ii, sizeof(ii)); + ii.fIcon = icon; + ii.xHotspot = a.w / 2; + ii.yHotspot = a.h / 2; + ii.hbmMask = mask; + ii.hbmColor = color; + + HICON handle = CreateIconIndirect(&ii); + + DeleteObject(color); + DeleteObject(mask); + + return handle; +} + +void* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { + HCURSOR cursor = (HCURSOR) RGFW_loadHandleImage(icon, channels, a, FALSE); + return cursor; +} + +void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { + RGFW_ASSERT(win && mouse); + SetClassLongPtrA(win->src.window, GCLP_HCURSOR, (LPARAM) mouse); + SetCursor((HCURSOR)mouse); +} + +void RGFW_freeMouse(RGFW_mouse* mouse) { + RGFW_ASSERT(mouse); + DestroyCursor((HCURSOR)mouse); +} + +RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { + return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); +} + +RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { + RGFW_ASSERT(win != NULL); + + static const u32 mouseIconSrc[16] = {OCR_NORMAL, OCR_NORMAL, OCR_IBEAM, OCR_CROSS, OCR_HAND, OCR_SIZEWE, OCR_SIZENS, OCR_SIZENWSE, OCR_SIZENESW, OCR_SIZEALL, OCR_NO}; + if (mouse > (sizeof(mouseIconSrc) / sizeof(u32))) + return RGFW_FALSE; + + char* icon = MAKEINTRESOURCEA(mouseIconSrc[mouse]); + + SetClassLongPtrA(win->src.window, GCLP_HCURSOR, (LPARAM) LoadCursorA(NULL, icon)); + SetCursor(LoadCursorA(NULL, icon)); + return RGFW_TRUE; +} + +void RGFW_window_hide(RGFW_window* win) { + ShowWindow(win->src.window, SW_HIDE); +} + +void RGFW_window_show(RGFW_window* win) { + if (win->_flags & RGFW_windowFocusOnShow) RGFW_window_focus(win); + ShowWindow(win->src.window, SW_RESTORE); +} + +#define RGFW_FREE_LIBRARY(x) if (x != NULL) FreeLibrary(x); x = NULL; +void RGFW_deinit(void) { + #ifndef RGFW_NO_XINPUT + RGFW_FREE_LIBRARY(RGFW_XInput_dll); + #endif + + #ifndef RGFW_NO_DPI + RGFW_FREE_LIBRARY(RGFW_Shcore_dll); + #endif + + #ifndef RGFW_NO_WINMM + timeEndPeriod(1); + #ifndef RGFW_NO_LOAD_WINMM + RGFW_FREE_LIBRARY(RGFW_winmm_dll); + #endif + #endif + + RGFW_FREE_LIBRARY(RGFW_wgl_dll); + _RGFW.root = NULL; + + RGFW_freeMouse(_RGFW.hiddenMouse); + _RGFW.windowCount = -1; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context deinitialized"); +} + + +void RGFW_window_close(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + #ifdef RGFW_BUFFER + DeleteDC(win->src.hdcMem); + DeleteObject(win->src.bitmap); + #endif + + if ((win->_flags & RGFW_windowNoInitAPI) == 0) RGFW_window_freeOpenGL(win); + RemovePropW(win->src.window, L"RGFW"); + ReleaseDC(win->src.window, win->src.hdc); /*!< delete device context */ + DestroyWindow(win->src.window); /*!< delete window */ + + if (win->src.hIconSmall) DestroyIcon(win->src.hIconSmall); + if (win->src.hIconBig) DestroyIcon(win->src.hIconBig); + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a window was freed"); + _RGFW.windowCount--; + if (_RGFW.windowCount == 0) RGFW_deinit(); + + RGFW_clipboard_switch(NULL); + RGFW_FREE(win->event.droppedFiles); + if ((win->_flags & RGFW_WINDOW_ALLOC)) { + RGFW_FREE(win); + win = NULL; + } +} + +void RGFW_window_move(RGFW_window* win, RGFW_point v) { + RGFW_ASSERT(win != NULL); + + win->r.x = v.x; + win->r.y = v.y; + SetWindowPos(win->src.window, HWND_TOP, win->r.x, win->r.y, 0, 0, SWP_NOSIZE); +} + +void RGFW_window_resize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + + win->r.w = (i32)a.w; + win->r.h = (i32)a.h; + SetWindowPos(win->src.window, HWND_TOP, 0, 0, win->r.w, win->r.h + (i32)win->src.hOffset, SWP_NOMOVE); +} + + +void RGFW_window_setName(RGFW_window* win, const char* name) { + RGFW_ASSERT(win != NULL); + + wchar_t wide_name[256]; + MultiByteToWideChar(CP_UTF8, 0, name, -1, wide_name, 256); + SetWindowTextW(win->src.window, wide_name); +} + +#ifndef RGFW_NO_PASSTHROUGH +void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { + RGFW_ASSERT(win != NULL); + COLORREF key = 0; + BYTE alpha = 0; + DWORD flags = 0; + i32 exStyle = GetWindowLongW(win->src.window, GWL_EXSTYLE); + + if (exStyle & WS_EX_LAYERED) + GetLayeredWindowAttributes(win->src.window, &key, &alpha, &flags); + + if (passthrough) + exStyle |= (WS_EX_TRANSPARENT | WS_EX_LAYERED); + else { + exStyle &= ~WS_EX_TRANSPARENT; + if (exStyle & WS_EX_LAYERED && !(flags & LWA_ALPHA)) + exStyle &= ~WS_EX_LAYERED; + } + + SetWindowLongW(win->src.window, GWL_EXSTYLE, exStyle); + + if (passthrough) + SetLayeredWindowAttributes(win->src.window, key, alpha, flags); +} +#endif + +RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* src, RGFW_area a, i32 channels, u8 type) { + RGFW_ASSERT(win != NULL); + #ifndef RGFW_WIN95 + RGFW_UNUSED(channels); + + if (win->src.hIconSmall && (type & RGFW_iconWindow)) DestroyIcon(win->src.hIconSmall); + if (win->src.hIconBig && (type & RGFW_iconTaskbar)) DestroyIcon(win->src.hIconBig); + + if (src == NULL) { + HICON defaultIcon = LoadIcon(NULL, IDI_APPLICATION); + if (type & RGFW_iconWindow) + SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_SMALL, (LPARAM)defaultIcon); + if (type & RGFW_iconTaskbar) + SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_BIG, (LPARAM)defaultIcon); + return RGFW_TRUE; + } + + if (type & RGFW_iconWindow) { + win->src.hIconSmall = RGFW_loadHandleImage(src, channels, a, TRUE); + SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_SMALL, (LPARAM)win->src.hIconSmall); + } + if (type & RGFW_iconTaskbar) { + win->src.hIconBig = RGFW_loadHandleImage(src, channels, a, TRUE); + SendMessage(win->src.window, WM_SETICON, (WPARAM)ICON_BIG, (LPARAM)win->src.hIconBig); + } + return RGFW_TRUE; + #else + RGFW_UNUSED(src); + RGFW_UNUSED(a); + RGFW_UNUSED(channels); + return RGFW_FALSE; + #endif +} + +RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { + /* Open the clipboard */ + if (OpenClipboard(NULL) == 0) + return -1; + + /* Get the clipboard data as a Unicode string */ + HANDLE hData = GetClipboardData(CF_UNICODETEXT); + if (hData == NULL) { + CloseClipboard(); + return -1; + } + + wchar_t* wstr = (wchar_t*) GlobalLock(hData); + + RGFW_ssize_t textLen = 0; + + { + setlocale(LC_ALL, "en_US.UTF-8"); + + textLen = (RGFW_ssize_t)wcstombs(NULL, wstr, 0) + 1; + if (str != NULL && (RGFW_ssize_t)strCapacity <= textLen - 1) + textLen = 0; + + if (str != NULL && textLen) { + if (textLen > 1) + wcstombs(str, wstr, (size_t)(textLen)); + + str[textLen] = '\0'; + } + } + + /* Release the clipboard data */ + GlobalUnlock(hData); + CloseClipboard(); + + return textLen; +} + +void RGFW_writeClipboard(const char* text, u32 textLen) { + HANDLE object; + WCHAR* buffer; + + object = GlobalAlloc(GMEM_MOVEABLE, (1 + textLen) * sizeof(WCHAR)); + if (!object) + return; + + buffer = (WCHAR*) GlobalLock(object); + if (!buffer) { + GlobalFree(object); + return; + } + + MultiByteToWideChar(CP_UTF8, 0, text, -1, buffer, (i32)textLen); + GlobalUnlock(object); + + if (!OpenClipboard(_RGFW.root->src.window)) { + GlobalFree(object); + return; + } + + EmptyClipboard(); + SetClipboardData(CF_UNICODETEXT, object); + CloseClipboard(); +} + +void RGFW_window_moveMouse(RGFW_window* win, RGFW_point p) { + RGFW_ASSERT(win != NULL); + win->_lastMousePoint = RGFW_POINT(p.x - win->r.x, p.y - win->r.y); + SetCursorPos(p.x, p.y); +} + +#ifdef RGFW_OPENGL +void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { + if (win == NULL) + wglMakeCurrent(NULL, NULL); + else + wglMakeCurrent(win->src.hdc, (HGLRC) win->src.ctx); +} +void* RGFW_getCurrent_OpenGL(void) { return wglGetCurrentContext(); } +void RGFW_window_swapBuffers_OpenGL(RGFW_window* win){ SwapBuffers(win->src.hdc); } +#endif + +#ifndef RGFW_EGL +void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { + RGFW_ASSERT(win != NULL); +#if defined(RGFW_OPENGL) + if (wglSwapIntervalEXT == NULL || wglSwapIntervalEXT(swapInterval) == FALSE) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to set swap interval"); +#else + RGFW_UNUSED(swapInterval); +#endif +} +#endif + +void RGFW_window_swapBuffers_software(RGFW_window* win) { +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + if (win->buffer != win->src.bitmapBits) + memcpy(win->src.bitmapBits, win->buffer, win->bufferSize.w * win->bufferSize.h * 4); + + RGFW_RGB_to_BGR(win, win->src.bitmapBits); + BitBlt(win->src.hdc, 0, 0, win->r.w, win->r.h, win->src.hdcMem, 0, 0, SRCCOPY); +#else + RGFW_UNUSED(win); +#endif +} + +char* RGFW_createUTF8FromWideStringWin32(const WCHAR* source) { + if (source == NULL) { + return NULL; + } + i32 size = WideCharToMultiByte(CP_UTF8, 0, source, -1, NULL, 0, NULL, NULL); + if (!size) { + return NULL; + } + + static char target[RGFW_MAX_PATH * 2]; + if (size > RGFW_MAX_PATH * 2) + size = RGFW_MAX_PATH * 2; + + target[size] = 0; + + if (!WideCharToMultiByte(CP_UTF8, 0, source, -1, target, size, NULL, NULL)) { + return NULL; + } + + return target; +} + +u64 RGFW_getTimerFreq(void) { + static u64 frequency = 0; + if (frequency == 0) QueryPerformanceFrequency((LARGE_INTEGER*)&frequency); + + return frequency; +} + +u64 RGFW_getTimerValue(void) { + u64 value; + QueryPerformanceCounter((LARGE_INTEGER*)&value); + return value; +} + +void RGFW_sleep(u64 ms) { + Sleep((u32)ms); +} + +#ifndef RGFW_NO_THREADS + +RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args) { return CreateThread(NULL, 0, ptr, args, 0, NULL); } +void RGFW_cancelThread(RGFW_thread thread) { CloseHandle((HANDLE) thread); } +void RGFW_joinThread(RGFW_thread thread) { WaitForSingleObject((HANDLE) thread, INFINITE); } +void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { SetThreadPriority((HANDLE) thread, priority); } + +#endif +#endif /* RGFW_WINDOWS */ + +/* + End of Windows defines +*/ + + + +/* + + Start of MacOS defines + + +*/ + +#if defined(RGFW_MACOS) +/* + based on silicon.h + start of cocoa wrapper +*/ + +#include +#include +#include +#include +#include +#include + +typedef CGRect NSRect; +typedef CGPoint NSPoint; +typedef CGSize NSSize; + +typedef const char* NSPasteboardType; +typedef unsigned long NSUInteger; +typedef long NSInteger; +typedef NSInteger NSModalResponse; + +#ifdef __arm64__ + /* ARM just uses objc_msgSend */ +#define abi_objc_msgSend_stret objc_msgSend +#define abi_objc_msgSend_fpret objc_msgSend +#else /* __i386__ */ + /* x86 just uses abi_objc_msgSend_fpret and (NSColor *)objc_msgSend_id respectively */ +#define abi_objc_msgSend_stret objc_msgSend_stret +#define abi_objc_msgSend_fpret objc_msgSend_fpret +#endif + +#define NSAlloc(nsclass) objc_msgSend_id((id)nsclass, sel_registerName("alloc")) +#define objc_msgSend_bool(x, y) ((BOOL (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) +#define objc_msgSend_void(x, y) ((void (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) +#define objc_msgSend_void_id(x, y, z) ((void (*)(id, SEL, id))objc_msgSend) ((id)x, (SEL)y, (id)z) +#define objc_msgSend_uint(x, y) ((NSUInteger (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) +#define objc_msgSend_void_bool(x, y, z) ((void (*)(id, SEL, BOOL))objc_msgSend) ((id)(x), (SEL)y, (BOOL)z) +#define objc_msgSend_bool_void(x, y) ((BOOL (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) +#define objc_msgSend_void_SEL(x, y, z) ((void (*)(id, SEL, SEL))objc_msgSend) ((id)(x), (SEL)y, (SEL)z) +#define objc_msgSend_id(x, y) ((id (*)(id, SEL))objc_msgSend) ((id)(x), (SEL)y) +#define objc_msgSend_id_id(x, y, z) ((id (*)(id, SEL, id))objc_msgSend) ((id)(x), (SEL)y, (id)z) +#define objc_msgSend_id_bool(x, y, z) ((BOOL (*)(id, SEL, id))objc_msgSend) ((id)(x), (SEL)y, (id)z) +#define objc_msgSend_int(x, y, z) ((id (*)(id, SEL, int))objc_msgSend) ((id)(x), (SEL)y, (int)z) +#define objc_msgSend_arr(x, y, z) ((id (*)(id, SEL, int))objc_msgSend) ((id)(x), (SEL)y, (int)z) +#define objc_msgSend_ptr(x, y, z) ((id (*)(id, SEL, void*))objc_msgSend) ((id)(x), (SEL)y, (void*)z) +#define objc_msgSend_class(x, y) ((id (*)(Class, SEL))objc_msgSend) ((Class)(x), (SEL)y) +#define objc_msgSend_class_char(x, y, z) ((id (*)(Class, SEL, char*))objc_msgSend) ((Class)(x), (SEL)y, (char*)z) + +id NSApp = NULL; + +#define NSRelease(obj) objc_msgSend_void((id)obj, sel_registerName("release")) +id NSString_stringWithUTF8String(const char* str); +id NSString_stringWithUTF8String(const char* str) { + return ((id(*)(id, SEL, const char*))objc_msgSend) + ((id)objc_getClass("NSString"), sel_registerName("stringWithUTF8String:"), str); +} + +const char* NSString_to_char(id str); +const char* NSString_to_char(id str) { + return ((const char* (*)(id, SEL)) objc_msgSend) ((id)(id)str, sel_registerName("UTF8String")); +} + +void si_impl_func_to_SEL_with_name(const char* class_name, const char* register_name, void* function); +void si_impl_func_to_SEL_with_name(const char* class_name, const char* register_name, void* function) { + Class selected_class; + + if (RGFW_STRNCMP(class_name, "NSView", 6) == 0) { + selected_class = objc_getClass("ViewClass"); + } else if (RGFW_STRNCMP(class_name, "NSWindow", 8) == 0) { + selected_class = objc_getClass("WindowClass"); + } else { + selected_class = objc_getClass(class_name); + } + + class_addMethod(selected_class, sel_registerName(register_name), (IMP) function, 0); +} + +/* Header for the array. */ +typedef struct siArrayHeader { + size_t count; + /* TODO(EimaMei): Add a `type_width` later on. */ +} siArrayHeader; + +/* Gets the header of the siArray. */ +#define SI_ARRAY_HEADER(s) ((siArrayHeader*)s - 1) +#define si_array_len(array) (SI_ARRAY_HEADER(array)->count) +#define si_func_to_SEL(class_name, function) si_impl_func_to_SEL_with_name(class_name, #function":", (void*)function) +/* Creates an Objective-C method (SEL) from a regular C function with the option to set the register name.*/ +#define si_func_to_SEL_with_name(class_name, register_name, function) si_impl_func_to_SEL_with_name(class_name, register_name":", (void*)function) + +unsigned char* NSBitmapImageRep_bitmapData(id imageRep); +unsigned char* NSBitmapImageRep_bitmapData(id imageRep) { + return ((unsigned char* (*)(id, SEL))objc_msgSend) ((id)imageRep, sel_registerName("bitmapData")); +} + +typedef RGFW_ENUM(NSUInteger, NSBitmapFormat) { + NSBitmapFormatAlphaFirst = 1 << 0, /* 0 means is alpha last (RGBA, CMYKA, etc.) */ + NSBitmapFormatAlphaNonpremultiplied = 1 << 1, /* 0 means is premultiplied */ + NSBitmapFormatFloatingpointSamples = 1 << 2, /* 0 is integer */ + + NSBitmapFormatSixteenBitLittleEndian = (1 << 8), + NSBitmapFormatThirtyTwoBitLittleEndian = (1 << 9), + NSBitmapFormatSixteenBitBigEndian = (1 << 10), + NSBitmapFormatThirtyTwoBitBigEndian = (1 << 11) +}; + +id NSBitmapImageRep_initWithBitmapData(unsigned char** planes, NSInteger width, NSInteger height, NSInteger bps, NSInteger spp, bool alpha, bool isPlanar, const char* colorSpaceName, NSBitmapFormat bitmapFormat, NSInteger rowBytes, NSInteger pixelBits); +id NSBitmapImageRep_initWithBitmapData(unsigned char** planes, NSInteger width, NSInteger height, NSInteger bps, NSInteger spp, bool alpha, bool isPlanar, const char* colorSpaceName, NSBitmapFormat bitmapFormat, NSInteger rowBytes, NSInteger pixelBits) { + SEL func = sel_registerName("initWithBitmapDataPlanes:pixelsWide:pixelsHigh:bitsPerSample:samplesPerPixel:hasAlpha:isPlanar:colorSpaceName:bitmapFormat:bytesPerRow:bitsPerPixel:"); + + return (id) ((id(*)(id, SEL, unsigned char**, NSInteger, NSInteger, NSInteger, NSInteger, bool, bool, id, NSBitmapFormat, NSInteger, NSInteger))objc_msgSend) + (NSAlloc((id)objc_getClass("NSBitmapImageRep")), func, planes, width, height, bps, spp, alpha, isPlanar, NSString_stringWithUTF8String(colorSpaceName), bitmapFormat, rowBytes, pixelBits); +} + +id NSColor_colorWithSRGB(CGFloat red, CGFloat green, CGFloat blue, CGFloat alpha); +id NSColor_colorWithSRGB(CGFloat red, CGFloat green, CGFloat blue, CGFloat alpha) { + void* nsclass = objc_getClass("NSColor"); + SEL func = sel_registerName("colorWithSRGBRed:green:blue:alpha:"); + return ((id(*)(id, SEL, CGFloat, CGFloat, CGFloat, CGFloat))objc_msgSend) + ((id)nsclass, func, red, green, blue, alpha); +} + +typedef RGFW_ENUM(NSInteger, NSOpenGLContextParameter) { + NSOpenGLContextParameterSwapInterval = 222, /* 1 param. 0 -> Don't sync, 1 -> Sync to vertical retrace */ + NSOpenGLContextParametectxaceOrder = 235, /* 1 param. 1 -> Above Window (default), -1 -> Below Window */ + NSOpenGLContextParametectxaceOpacity = 236, /* 1 param. 1-> Surface is opaque (default), 0 -> non-opaque */ + NSOpenGLContextParametectxaceBackingSize = 304, /* 2 params. Width/height of surface backing size */ + NSOpenGLContextParameterReclaimResources = 308, /* 0 params. */ + NSOpenGLContextParameterCurrentRendererID = 309, /* 1 param. Retrieves the current renderer ID */ + NSOpenGLContextParameterGPUVertexProcessing = 310, /* 1 param. Currently processing vertices with GPU (get) */ + NSOpenGLContextParameterGPUFragmentProcessing = 311, /* 1 param. Currently processing fragments with GPU (get) */ + NSOpenGLContextParameterHasDrawable = 314, /* 1 param. Boolean returned if drawable is attached */ + NSOpenGLContextParameterMPSwapsInFlight = 315, /* 1 param. Max number of swaps queued by the MP GL engine */ + + NSOpenGLContextParameterSwapRectangle API_DEPRECATED("", macos(10.0, 10.14)) = 200, /* 4 params. Set or get the swap rectangle {x, y, w, h} */ + NSOpenGLContextParameterSwapRectangleEnable API_DEPRECATED("", macos(10.0, 10.14)) = 201, /* Enable or disable the swap rectangle */ + NSOpenGLContextParameterRasterizationEnable API_DEPRECATED("", macos(10.0, 10.14)) = 221, /* Enable or disable all rasterization */ + NSOpenGLContextParameterStateValidation API_DEPRECATED("", macos(10.0, 10.14)) = 301, /* Validate state for multi-screen functionality */ + NSOpenGLContextParametectxaceSurfaceVolatile API_DEPRECATED("", macos(10.0, 10.14)) = 306, /* 1 param. Surface volatile state */ +}; + +typedef RGFW_ENUM(NSInteger, NSWindowButton) { + NSWindowCloseButton = 0, + NSWindowMiniaturizeButton = 1, + NSWindowZoomButton = 2, + NSWindowToolbarButton = 3, + NSWindowDocumentIconButton = 4, + NSWindowDocumentVersionsButton = 6, + NSWindowFullScreenButton = 7, +}; +void NSOpenGLContext_setValues(id context, const int* vals, NSOpenGLContextParameter param); +void NSOpenGLContext_setValues(id context, const int* vals, NSOpenGLContextParameter param) { + ((void (*)(id, SEL, const int*, NSOpenGLContextParameter))objc_msgSend) + (context, sel_registerName("setValues:forParameter:"), vals, param); +} +void* NSOpenGLPixelFormat_initWithAttributes(const uint32_t* attribs); +void* NSOpenGLPixelFormat_initWithAttributes(const uint32_t* attribs) { + return (void*) ((id(*)(id, SEL, const uint32_t*))objc_msgSend) + (NSAlloc((id)objc_getClass("NSOpenGLPixelFormat")), sel_registerName("initWithAttributes:"), attribs); +} + +id NSPasteboard_generalPasteboard(void); +id NSPasteboard_generalPasteboard(void) { + return (id) objc_msgSend_id((id)objc_getClass("NSPasteboard"), sel_registerName("generalPasteboard")); +} + +id* cstrToNSStringArray(char** strs, size_t len); +id* cstrToNSStringArray(char** strs, size_t len) { + static id nstrs[6]; + size_t i; + for (i = 0; i < len; i++) + nstrs[i] = NSString_stringWithUTF8String(strs[i]); + + return nstrs; +} + +const char* NSPasteboard_stringForType(id pasteboard, NSPasteboardType dataType, size_t* len); +const char* NSPasteboard_stringForType(id pasteboard, NSPasteboardType dataType, size_t* len) { + SEL func = sel_registerName("stringForType:"); + id nsstr = NSString_stringWithUTF8String(dataType); + id nsString = ((id(*)(id, SEL, id))objc_msgSend)(pasteboard, func, nsstr); + const char* str = NSString_to_char(nsString); + if (len != NULL) + *len = (size_t)((NSUInteger(*)(id, SEL, int))objc_msgSend)(nsString, sel_registerName("maximumLengthOfBytesUsingEncoding:"), 4); + return str; +} + +id c_array_to_NSArray(void* array, size_t len); +id c_array_to_NSArray(void* array, size_t len) { + SEL func = sel_registerName("initWithObjects:count:"); + void* nsclass = objc_getClass("NSArray"); + return ((id (*)(id, SEL, void*, NSUInteger))objc_msgSend) + (NSAlloc(nsclass), func, array, len); +} + + +void NSregisterForDraggedTypes(id view, NSPasteboardType* newTypes, size_t len); +void NSregisterForDraggedTypes(id view, NSPasteboardType* newTypes, size_t len) { + id* ntypes = cstrToNSStringArray((char**)newTypes, len); + + id array = c_array_to_NSArray(ntypes, len); + objc_msgSend_void_id(view, sel_registerName("registerForDraggedTypes:"), array); + NSRelease(array); +} + +NSInteger NSPasteBoard_declareTypes(id pasteboard, NSPasteboardType* newTypes, size_t len, void* owner); +NSInteger NSPasteBoard_declareTypes(id pasteboard, NSPasteboardType* newTypes, size_t len, void* owner) { + id* ntypes = cstrToNSStringArray((char**)newTypes, len); + + SEL func = sel_registerName("declareTypes:owner:"); + + id array = c_array_to_NSArray(ntypes, len); + + NSInteger output = ((NSInteger(*)(id, SEL, id, void*))objc_msgSend) + (pasteboard, func, array, owner); + NSRelease(array); + + return output; +} + +#define NSRetain(obj) objc_msgSend_void((id)obj, sel_registerName("retain")) + +typedef enum NSApplicationActivationPolicy { + NSApplicationActivationPolicyRegular, + NSApplicationActivationPolicyAccessory, + NSApplicationActivationPolicyProhibited +} NSApplicationActivationPolicy; + +typedef RGFW_ENUM(u32, NSBackingStoreType) { + NSBackingStoreRetained = 0, + NSBackingStoreNonretained = 1, + NSBackingStoreBuffered = 2 +}; + +typedef RGFW_ENUM(u32, NSWindowStyleMask) { + NSWindowStyleMaskBorderless = 0, + NSWindowStyleMaskTitled = 1 << 0, + NSWindowStyleMaskClosable = 1 << 1, + NSWindowStyleMaskMiniaturizable = 1 << 2, + NSWindowStyleMaskResizable = 1 << 3, + NSWindowStyleMaskTexturedBackground = 1 << 8, /* deprecated */ + NSWindowStyleMaskUnifiedTitleAndToolbar = 1 << 12, + NSWindowStyleMaskFullScreen = 1 << 14, + NSWindowStyleMaskFullSizeContentView = 1 << 15, + NSWindowStyleMaskUtilityWindow = 1 << 4, + NSWindowStyleMaskDocModalWindow = 1 << 6, + NSWindowStyleMaskNonactivatingpanel = 1 << 7, + NSWindowStyleMaskHUDWindow = 1 << 13 +}; + +NSPasteboardType const NSPasteboardTypeString = "public.utf8-plain-text"; /* Replaces NSStringPasteboardType */ + + +typedef RGFW_ENUM(i32, NSDragOperation) { + NSDragOperationNone = 0, + NSDragOperationCopy = 1, + NSDragOperationLink = 2, + NSDragOperationGeneric = 4, + NSDragOperationPrivate = 8, + NSDragOperationMove = 16, + NSDragOperationDelete = 32, + NSDragOperationEvery = (int)ULONG_MAX +}; + +void* NSArray_objectAtIndex(id array, NSUInteger index) { + SEL func = sel_registerName("objectAtIndex:"); + return ((id(*)(id, SEL, NSUInteger))objc_msgSend)(array, func, index); +} + +id NSWindow_contentView(id window) { + SEL func = sel_registerName("contentView"); + return objc_msgSend_id(window, func); +} + +/* + End of cocoa wrapper +*/ + +#ifdef RGFW_OPENGL +/* MacOS opengl API spares us yet again (there are no extensions) */ +RGFW_bool RGFW_extensionSupportedPlatform(const char * extension, size_t len) { RGFW_UNUSED(extension); RGFW_UNUSED(len); return RGFW_FALSE; } +CFBundleRef RGFWnsglFramework = NULL; + +RGFW_proc RGFW_getProcAddress(const char* procname) { + if (RGFWnsglFramework == NULL) + RGFWnsglFramework = CFBundleGetBundleWithIdentifier(CFSTR("com.apple.opengl")); + + CFStringRef symbolName = CFStringCreateWithCString(kCFAllocatorDefault, procname, kCFStringEncodingASCII); + + RGFW_proc symbol = (RGFW_proc)CFBundleGetFunctionPointerForName(RGFWnsglFramework, symbolName); + + CFRelease(symbolName); + + return symbol; +} +#endif + +id NSWindow_delegate(RGFW_window* win) { + return (id) objc_msgSend_id((id)win->src.window, sel_registerName("delegate")); +} + +u32 RGFW_OnClose(id self) { + RGFW_window* win = NULL; + object_getInstanceVariable(self, (const char*)"RGFW_window", (void**)&win); + if (win == NULL) + return true; + + RGFW_eventQueuePushEx(e.type = RGFW_quit; e._win = win); + RGFW_windowQuitCallback(win); + + return false; +} + +/* NOTE(EimaMei): Fixes the constant clicking when the app is running under a terminal. */ +bool acceptsFirstResponder(void) { return true; } +bool performKeyEquivalent(id event) { RGFW_UNUSED(event); return true; } + +NSDragOperation draggingEntered(id self, SEL sel, id sender) { + RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); + + return NSDragOperationCopy; +} +NSDragOperation draggingUpdated(id self, SEL sel, id sender) { + RGFW_UNUSED(sel); + + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL || (!(win->_flags & RGFW_windowAllowDND))) + return 0; + + NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(sender, sel_registerName("draggingLocation")); + RGFW_eventQueuePushEx(e.type = RGFW_DNDInit; + e.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); + e._win = win); + + RGFW_dndInitCallback(win, win->event.point); + return NSDragOperationCopy; +} +bool prepareForDragOperation(id self) { + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) + return true; + + if (!(win->_flags & RGFW_windowAllowDND)) { + return false; + } + + return true; +} + +void RGFW__osxDraggingEnded(id self, SEL sel, id sender); +void RGFW__osxDraggingEnded(id self, SEL sel, id sender) { RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); return; } + +/* NOTE(EimaMei): Usually, you never need 'id self, SEL cmd' for C -> Obj-C methods. This isn't the case. */ +bool performDragOperation(id self, SEL sel, id sender) { + RGFW_UNUSED(sender); RGFW_UNUSED(self); RGFW_UNUSED(sel); + + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + + if (win == NULL) + return false; + + /* id pasteBoard = objc_msgSend_id(sender, sel_registerName("draggingPasteboard")); */ + + id pasteBoard = objc_msgSend_id(sender, sel_registerName("draggingPasteboard")); + + /* Get the types of data available on the pasteboard */ + id types = objc_msgSend_id(pasteBoard, sel_registerName("types")); + + /* Get the string type for file URLs */ + id fileURLsType = objc_msgSend_class_char(objc_getClass("NSString"), sel_registerName("stringWithUTF8String:"), "NSFilenamesPboardType"); + + /* Check if the pasteboard contains file URLs */ + if (objc_msgSend_id_bool(types, sel_registerName("containsObject:"), fileURLsType) == 0) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errClipboard, RGFW_DEBUG_CTX(win, 0), "No files found on the pasteboard."); + return 0; + } + + id fileURLs = objc_msgSend_id_id(pasteBoard, sel_registerName("propertyListForType:"), fileURLsType); + int count = ((int (*)(id, SEL))objc_msgSend)(fileURLs, sel_registerName("count")); + + if (count == 0) + return 0; + + int i; + for (i = 0; i < count; i++) { + id fileURL = objc_msgSend_arr(fileURLs, sel_registerName("objectAtIndex:"), i); + const char *filePath = ((const char* (*)(id, SEL))objc_msgSend)(fileURL, sel_registerName("UTF8String")); + RGFW_STRNCPY(win->event.droppedFiles[i], filePath, RGFW_MAX_PATH - 1); + win->event.droppedFiles[i][RGFW_MAX_PATH - 1] = '\0'; + } + NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(sender, sel_registerName("draggingLocation")); + + win->event.droppedFilesCount = (size_t)count; + RGFW_eventQueuePushEx(e.type = RGFW_DND; + e.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); + e.droppedFilesCount = (size_t)count; + e._win = win); + + RGFW_dndCallback(win, win->event.droppedFiles, win->event.droppedFilesCount); + + return false; +} + +#ifndef RGFW_NO_IOKIT +#include +#include + +u32 RGFW_osx_getFallbackRefreshRate(CGDirectDisplayID displayID) { + u32 refreshRate = 0; + io_iterator_t it; + io_service_t service; + CFNumberRef indexRef, clockRef, countRef; + uint32_t clock, count; + +#ifdef kIOMainPortDefault + if (IOServiceGetMatchingServices(kIOMainPortDefault, IOServiceMatching("IOFramebuffer"), &it) != 0) +#elif defined(kIOMasterPortDefault) + if (IOServiceGetMatchingServices(kIOMainPortDefault, IOServiceMatching("IOFramebuffer"), &it) != 0) +#endif + return RGFW_FALSE; + + while ((service = IOIteratorNext(it)) != 0) { + uint32_t index; + indexRef = (CFNumberRef)IORegistryEntryCreateCFProperty(service, CFSTR("IOFramebufferOpenGLIndex"), kCFAllocatorDefault, kNilOptions); + if (indexRef == 0) continue; + + if (CFNumberGetValue(indexRef, kCFNumberIntType, &index) && CGOpenGLDisplayMaskToDisplayID(1 << index) == displayID) { + CFRelease(indexRef); + break; + } + + CFRelease(indexRef); + } + + if (service) { + clockRef = (CFNumberRef)IORegistryEntryCreateCFProperty(service, CFSTR("IOFBCurrentPixelClock"), kCFAllocatorDefault, kNilOptions); + if (clockRef) { + if (CFNumberGetValue(clockRef, kCFNumberIntType, &clock) && clock) { + countRef = (CFNumberRef)IORegistryEntryCreateCFProperty(service, CFSTR("IOFBCurrentPixelCount"), kCFAllocatorDefault, kNilOptions); + if (countRef && CFNumberGetValue(countRef, kCFNumberIntType, &count) && count) { + refreshRate = (u32)RGFW_ROUND(clock / (double) count); + CFRelease(countRef); + } + } + CFRelease(clockRef); + } + } + + IOObjectRelease(it); + return refreshRate; +} + +IOHIDDeviceRef RGFW_osxControllers[4] = {NULL}; + +size_t findControllerIndex(IOHIDDeviceRef device) { + size_t i; + for (i = 0; i < 4; i++) + if (RGFW_osxControllers[i] == device) + return i; + return (size_t)-1; +} + +void RGFW__osxInputValueChangedCallback(void *context, IOReturn result, void *sender, IOHIDValueRef value) { + RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); + IOHIDElementRef element = IOHIDValueGetElement(value); + + IOHIDDeviceRef device = IOHIDElementGetDevice(element); + size_t index = findControllerIndex(device); + if (index == (size_t)-1) return; + + uint32_t usagePage = IOHIDElementGetUsagePage(element); + uint32_t usage = IOHIDElementGetUsage(element); + + CFIndex intValue = IOHIDValueGetIntegerValue(value); + + u8 RGFW_osx2RGFWSrc[2][RGFW_gamepadFinal] = {{ + 0, RGFW_gamepadSelect, RGFW_gamepadL3, RGFW_gamepadR3, RGFW_gamepadStart, + RGFW_gamepadUp, RGFW_gamepadRight, RGFW_gamepadDown, RGFW_gamepadLeft, + RGFW_gamepadL2, RGFW_gamepadR2, RGFW_gamepadL1, RGFW_gamepadR1, + RGFW_gamepadY, RGFW_gamepadB, RGFW_gamepadA, RGFW_gamepadX, RGFW_gamepadHome}, + {0, RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadR3, RGFW_gamepadX, + RGFW_gamepadY, RGFW_gamepadRight, RGFW_gamepadL1, RGFW_gamepadR1, + RGFW_gamepadL2, RGFW_gamepadR2, RGFW_gamepadDown, RGFW_gamepadStart, + RGFW_gamepadUp, RGFW_gamepadL3, RGFW_gamepadSelect, RGFW_gamepadStart, RGFW_gamepadHome} + }; + + u8* RGFW_osx2RGFW = RGFW_osx2RGFWSrc[0]; + if (RGFW_gamepads_type[index] == RGFW_gamepadMicrosoft) + RGFW_osx2RGFW = RGFW_osx2RGFWSrc[1]; + + switch (usagePage) { + case kHIDPage_Button: { + u8 button = 0; + if (usage < sizeof(RGFW_osx2RGFW)) + button = RGFW_osx2RGFW[usage]; + + RGFW_gamepadButtonCallback(_RGFW.root, (u16)index, button, (u8)intValue); + RGFW_gamepadPressed[index][button].prev = RGFW_gamepadPressed[index][button].current; + RGFW_gamepadPressed[index][button].current = RGFW_BOOL(intValue); + RGFW_eventQueuePushEx(e.type = intValue ? RGFW_gamepadButtonPressed: RGFW_gamepadButtonReleased; + e.button = button; + e.gamepad = (u16)index; + e._win = _RGFW.root); + break; + } + case kHIDPage_GenericDesktop: { + CFIndex logicalMin = IOHIDElementGetLogicalMin(element); + CFIndex logicalMax = IOHIDElementGetLogicalMax(element); + + if (logicalMax <= logicalMin) return; + if (intValue < logicalMin) intValue = logicalMin; + if (intValue > logicalMax) intValue = logicalMax; + + i8 axisValue = (i8)(-100.0 + ((intValue - logicalMin) * 200.0) / (logicalMax - logicalMin)); + + u8 whichAxis = 0; + switch (usage) { + case kHIDUsage_GD_X: RGFW_gamepadAxes[index][0].x = axisValue; whichAxis = 0; break; + case kHIDUsage_GD_Y: RGFW_gamepadAxes[index][0].y = axisValue; whichAxis = 0; break; + case kHIDUsage_GD_Z: RGFW_gamepadAxes[index][1].x = axisValue; whichAxis = 1; break; + case kHIDUsage_GD_Rz: RGFW_gamepadAxes[index][1].y = axisValue; whichAxis = 1; break; + default: return; + } + + RGFW_event e; + e.type = RGFW_gamepadAxisMove; + e.gamepad = (u16)index; + e.whichAxis = whichAxis; + e._win = _RGFW.root; + for (size_t i = 0; i < 4; i++) + e.axis[i] = RGFW_gamepadAxes[index][i]; + + RGFW_eventQueuePush(e); + + RGFW_gamepadAxisCallback(_RGFW.root, (u16)index, RGFW_gamepadAxes[index], 2, whichAxis); + } + } +} + +void RGFW__osxDeviceAddedCallback(void* context, IOReturn result, void *sender, IOHIDDeviceRef device) { + RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); + CFTypeRef usageRef = (CFTypeRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDPrimaryUsageKey)); + int usage = 0; + if (usageRef) + CFNumberGetValue((CFNumberRef)usageRef, kCFNumberIntType, (void*)&usage); + + if (usage != kHIDUsage_GD_Joystick && usage != kHIDUsage_GD_GamePad && usage != kHIDUsage_GD_MultiAxisController) { + return; + } + + size_t i; + for (i = 0; i < 4; i++) { + if (RGFW_osxControllers[i] != NULL) + continue; + + RGFW_osxControllers[i] = device; + + IOHIDDeviceRegisterInputValueCallback(device, RGFW__osxInputValueChangedCallback, NULL); + + CFStringRef deviceName = (CFStringRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDProductKey)); + if (deviceName) + CFStringGetCString(deviceName, RGFW_gamepads_name[i], sizeof(RGFW_gamepads_name[i]), kCFStringEncodingUTF8); + + RGFW_gamepads_type[i] = RGFW_gamepadUnknown; + if (RGFW_STRSTR(RGFW_gamepads_name[i], "Microsoft") || RGFW_STRSTR(RGFW_gamepads_name[i], "X-Box") || RGFW_STRSTR(RGFW_gamepads_name[i], "Xbox")) + RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "PlayStation") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS3") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS4") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS5")) + RGFW_gamepads_type[i] = RGFW_gamepadSony; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "Nintendo")) + RGFW_gamepads_type[i] = RGFW_gamepadNintendo; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "Logitech")) + RGFW_gamepads_type[i] = RGFW_gamepadLogitech; + + RGFW_gamepads[i] = (u16)i; + RGFW_gamepadCount++; + + RGFW_eventQueuePushEx(e.type = RGFW_gamepadConnected; + e.gamepad = (u16)i; + e._win = _RGFW.root); + + RGFW_gamepadCallback(_RGFW.root, (u16)i, 1); + break; + } +} + +void RGFW__osxDeviceRemovedCallback(void *context, IOReturn result, void *sender, IOHIDDeviceRef device) { + RGFW_UNUSED(context); RGFW_UNUSED(result); RGFW_UNUSED(sender); RGFW_UNUSED(device); + CFNumberRef usageRef = (CFNumberRef)IOHIDDeviceGetProperty(device, CFSTR(kIOHIDPrimaryUsageKey)); + int usage = 0; + if (usageRef) + CFNumberGetValue(usageRef, kCFNumberIntType, &usage); + + if (usage != kHIDUsage_GD_Joystick && usage != kHIDUsage_GD_GamePad && usage != kHIDUsage_GD_MultiAxisController) { + return; + } + + size_t index = findControllerIndex(device); + if (index != (size_t)-1) + RGFW_osxControllers[index] = NULL; + + RGFW_eventQueuePushEx(e.type = RGFW_gamepadDisconnected; + e.gamepad = (u16)index; + e._win = _RGFW.root); + RGFW_gamepadCallback(_RGFW.root, (u16)index, 0); + + RGFW_gamepadCount--; +} + +RGFWDEF void RGFW_osxInitIOKit(void); +void RGFW_osxInitIOKit(void) { + IOHIDManagerRef hidManager = IOHIDManagerCreate(kCFAllocatorDefault, kIOHIDOptionsTypeNone); + if (!hidManager) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errIOKit, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to create IOHIDManager."); + return; + } + + CFMutableDictionaryRef matchingDictionary = CFDictionaryCreateMutable( + kCFAllocatorDefault, + 0, + &kCFTypeDictionaryKeyCallBacks, + &kCFTypeDictionaryValueCallBacks + ); + if (!matchingDictionary) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errIOKit, RGFW_DEBUG_CTX(_RGFW.root, 0), "Failed to create matching dictionary for IOKit."); + CFRelease(hidManager); + return; + } + + CFDictionarySetValue( + matchingDictionary, + CFSTR(kIOHIDDeviceUsagePageKey), + CFNumberCreate(kCFAllocatorDefault, kCFNumberIntType, (int[]){kHIDPage_GenericDesktop}) + ); + + IOHIDManagerSetDeviceMatching(hidManager, matchingDictionary); + + IOHIDManagerRegisterDeviceMatchingCallback(hidManager, RGFW__osxDeviceAddedCallback, NULL); + IOHIDManagerRegisterDeviceRemovalCallback(hidManager, RGFW__osxDeviceRemovedCallback, NULL); + + IOHIDManagerScheduleWithRunLoop(hidManager, CFRunLoopGetCurrent(), kCFRunLoopDefaultMode); + + IOHIDManagerOpen(hidManager, kIOHIDOptionsTypeNone); + + /* Execute the run loop once in order to register any initially-attached joysticks */ + CFRunLoopRunInMode(kCFRunLoopDefaultMode, 0, false); +} +#endif + +void RGFW_moveToMacOSResourceDir(void) { + char resourcesPath[256]; + + CFBundleRef bundle = CFBundleGetMainBundle(); + if (!bundle) + return; + + CFURLRef resourcesURL = CFBundleCopyResourcesDirectoryURL(bundle); + CFStringRef last = CFURLCopyLastPathComponent(resourcesURL); + + if ( + CFStringCompare(CFSTR("Resources"), last, 0) != kCFCompareEqualTo || + CFURLGetFileSystemRepresentation(resourcesURL, true, (u8*) resourcesPath, 255) == 0 + ) { + CFRelease(last); + CFRelease(resourcesURL); + return; + } + + CFRelease(last); + CFRelease(resourcesURL); + + chdir(resourcesPath); +} + + +void RGFW__osxWindowDeminiaturize(id self, SEL sel) { + RGFW_UNUSED(sel); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + win->_flags |= RGFW_windowMinimize; + RGFW_eventQueuePushEx(e.type = RGFW_windowRestored; e._win = win); + RGFW_windowRestoredCallback(win, win->r); + +} +void RGFW__osxWindowMiniaturize(id self, SEL sel) { + RGFW_UNUSED(sel); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + win->_flags &= ~(u32)RGFW_windowMinimize; + RGFW_eventQueuePushEx(e.type = RGFW_windowMinimized; e._win = win); + RGFW_windowMinimizedCallback(win, win->r); + +} + +void RGFW__osxWindowBecameKey(id self, SEL sel) { + RGFW_UNUSED(sel); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + win->_flags |= RGFW_windowFocus; + RGFW_eventQueuePushEx(e.type = RGFW_focusIn; e._win = win); + + RGFW_focusCallback(win, RGFW_TRUE); + + if ((win->_flags & RGFW_HOLD_MOUSE)) RGFW_window_mouseHold(win, RGFW_AREA(win->r.w, win->r.h)); +} + +void RGFW__osxWindowResignKey(id self, SEL sel) { + RGFW_UNUSED(sel); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + RGFW_window_focusLost(win); + RGFW_eventQueuePushEx(e.type = RGFW_focusOut; e._win = win); + RGFW_focusCallback(win, RGFW_FALSE); +} + +NSSize RGFW__osxWindowResize(id self, SEL sel, NSSize frameSize) { + RGFW_UNUSED(sel); + + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return frameSize; + + win->r.w = (i32)frameSize.width; + win->r.h = (i32)frameSize.height; + + RGFW_monitor mon = RGFW_window_getMonitor(win); + if ((i32)mon.mode.area.w == win->r.w && (i32)mon.mode.area.h - 102 <= win->r.h) { + win->_flags |= RGFW_windowMaximize; + RGFW_eventQueuePushEx(e.type = RGFW_windowMaximized; e._win = win); + RGFW_windowMaximizedCallback(win, win->r); + } else if (win->_flags & RGFW_windowMaximize) { + win->_flags &= ~(u32)RGFW_windowMaximize; + RGFW_eventQueuePushEx(e.type = RGFW_windowRestored; e._win = win); + RGFW_windowRestoredCallback(win, win->r); + + } + + + RGFW_eventQueuePushEx(e.type = RGFW_windowResized; e._win = win); + RGFW_windowResizedCallback(win, win->r); + return frameSize; +} + +void RGFW__osxWindowMove(id self, SEL sel) { + RGFW_UNUSED(sel); + + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); + win->r.x = (i32) frame.origin.x; + win->r.y = (i32) frame.origin.y; + + RGFW_eventQueuePushEx(e.type = RGFW_windowMoved; e._win = win); + RGFW_windowMovedCallback(win, win->r); +} + +void RGFW__osxViewDidChangeBackingProperties(id self, SEL _cmd) { + RGFW_UNUSED(_cmd); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + RGFW_monitor mon = RGFW_window_getMonitor(win); + RGFW_scaleUpdatedCallback(win, mon.scaleX, mon.scaleY); + RGFW_eventQueuePushEx(e.type = RGFW_scaleUpdated; e.scaleX = mon.scaleX; e.scaleY = mon.scaleY ; e._win = win); +} + +void RGFW__osxDrawRect(id self, SEL _cmd, CGRect rect) { + RGFW_UNUSED(rect); RGFW_UNUSED(_cmd); + RGFW_window* win = NULL; + object_getInstanceVariable(self, "RGFW_window", (void**)&win); + if (win == NULL) return; + + RGFW_eventQueuePushEx(e.type = RGFW_windowRefresh; e._win = win); + RGFW_windowRefreshCallback(win); +} + +void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area) { + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + win->buffer = buffer; + win->bufferSize = area; + win->_flags |= RGFW_BUFFER_ALLOC; + #ifdef RGFW_OSMESA + win->src.ctx = OSMesaCreateContext(OSMESA_RGBA, NULL); + OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); + OSMesaPixelStore(OSMESA_Y_UP, 0); + #endif + #else + RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ + #endif +} + +void RGFW_window_cocoaSetLayer(RGFW_window* win, void* layer) { + objc_msgSend_void_id((id)win->src.view, sel_registerName("setLayer"), (id)layer); +} + +void* RGFW_cocoaGetLayer(void) { + return objc_msgSend_class((id)objc_getClass("CAMetalLayer"), (SEL)sel_registerName("layer")); +} + +NSPasteboardType const NSPasteboardTypeURL = "public.url"; +NSPasteboardType const NSPasteboardTypeFileURL = "public.file-url"; + +id RGFW__osx_generateViewClass(const char* subclass, RGFW_window* win) { + Class customViewClass; + customViewClass = objc_allocateClassPair(objc_getClass(subclass), "RGFWCustomView", 0); + + class_addIvar( customViewClass, "RGFW_window", sizeof(RGFW_window*), (u8)rint(log2(sizeof(RGFW_window*))), "L"); + class_addMethod(customViewClass, sel_registerName("drawRect:"), (IMP)RGFW__osxDrawRect, "v@:{CGRect=ffff}"); + class_addMethod(customViewClass, sel_registerName("viewDidChangeBackingProperties"), (IMP)RGFW__osxViewDidChangeBackingProperties, ""); + + id customView = objc_msgSend_id(NSAlloc(customViewClass), sel_registerName("init")); + object_setInstanceVariable(customView, "RGFW_window", win); + + return customView; +} + +#ifndef RGFW_EGL +void RGFW_window_initOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + void* attrs = RGFW_initFormatAttribs(); + void* format = NSOpenGLPixelFormat_initWithAttributes((uint32_t*)attrs); + + if (format == NULL) { + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "Failed to load pixel format for OpenGL"); + win->_flags |= RGFW_windowOpenglSoftware; + void* subAttrs = RGFW_initFormatAttribs(); + format = NSOpenGLPixelFormat_initWithAttributes((uint32_t*)subAttrs); + + if (format == NULL) + RGFW_sendDebugInfo(RGFW_typeError, RGFW_errOpenglContext, RGFW_DEBUG_CTX(win, 0), "and loading software rendering OpenGL failed"); + else + RGFW_sendDebugInfo(RGFW_typeWarning, RGFW_warningOpenGL, RGFW_DEBUG_CTX(win, 0), "Switching to software rendering"); + } + + /* the pixel format can be passed directly to opengl context creation to create a context + this is because the format also includes information about the opengl version (which may be a bad thing) */ + + win->src.view = (id) ((id(*)(id, SEL, NSRect, uint32_t*))objc_msgSend) (RGFW__osx_generateViewClass("NSOpenGLView", win), + sel_registerName("initWithFrame:pixelFormat:"), (NSRect){{0, 0}, {win->r.w, win->r.h}}, (uint32_t*)format); + + objc_msgSend_void(win->src.view, sel_registerName("prepareOpenGL")); + win->src.ctx = objc_msgSend_id(win->src.view, sel_registerName("openGLContext")); + + if (win->_flags & RGFW_windowTransparent) { + i32 opacity = 0; + #define NSOpenGLCPSurfaceOpacity 236 + NSOpenGLContext_setValues((id)win->src.ctx, &opacity, NSOpenGLCPSurfaceOpacity); + } + + objc_msgSend_void(win->src.ctx, sel_registerName("makeCurrentContext")); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context initalized"); +#else + RGFW_UNUSED(win); +#endif +} + +void RGFW_window_freeOpenGL(RGFW_window* win) { +#ifdef RGFW_OPENGL + if (win->src.ctx == NULL) return; + objc_msgSend_void(win->src.ctx, sel_registerName("release")); + win->src.ctx = NULL; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context freed"); +#else + RGFW_UNUSED(win); +#endif +} +#endif + + +i32 RGFW_init(void) { +#if defined(RGFW_C89) || defined(__cplusplus) + if (_RGFW_init) return 0; + _RGFW_init = RGFW_TRUE; + _RGFW.root = NULL; _RGFW.current = NULL; _RGFW.windowCount = -1; _RGFW.eventLen = 0; _RGFW.eventIndex = 0; +#endif + + /* NOTE(EimaMei): Why does Apple hate good code? Like wtf, who thought of methods being a great idea??? + Imagine a universe, where MacOS had a proper system API (we would probably have like 20% better performance). + */ + si_func_to_SEL_with_name("NSObject", "windowShouldClose", (void*)RGFW_OnClose); + + /* NOTE(EimaMei): Fixes the 'Boop' sfx from constantly playing each time you click a key. Only a problem when running in the terminal. */ + si_func_to_SEL("NSWindow", acceptsFirstResponder); + si_func_to_SEL("NSWindow", performKeyEquivalent); + + if (NSApp == NULL) { + NSApp = objc_msgSend_id((id)objc_getClass("NSApplication"), sel_registerName("sharedApplication")); + + ((void (*)(id, SEL, NSUInteger))objc_msgSend) + (NSApp, sel_registerName("setActivationPolicy:"), NSApplicationActivationPolicyRegular); + + #ifndef RGFW_NO_IOKIT + RGFW_osxInitIOKit(); + #endif + } + + _RGFW.windowCount = 0; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context initialized"); + return 0; +} + +RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { + static u8 RGFW_loaded = 0; + RGFW_window_basic_init(win, rect, flags); + + /* RR Create an autorelease pool */ + id pool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); + pool = objc_msgSend_id(pool, sel_registerName("init")); + + RGFW_window_setMouseDefault(win); + + NSRect windowRect; + windowRect.origin.x = win->r.x; + windowRect.origin.y = win->r.y; + windowRect.size.width = win->r.w; + windowRect.size.height = win->r.h; + + NSBackingStoreType macArgs = NSWindowStyleMaskClosable | NSWindowStyleMaskMiniaturizable | NSBackingStoreBuffered | NSWindowStyleMaskTitled; + + if (!(flags & RGFW_windowNoResize)) + macArgs |= NSWindowStyleMaskResizable; + if (!(flags & RGFW_windowNoBorder)) + macArgs |= NSWindowStyleMaskTitled; + { + void* nsclass = objc_getClass("NSWindow"); + SEL func = sel_registerName("initWithContentRect:styleMask:backing:defer:"); + + win->src.window = ((id(*)(id, SEL, NSRect, NSWindowStyleMask, NSBackingStoreType, bool))objc_msgSend) + (NSAlloc(nsclass), func, windowRect, macArgs, macArgs, false); + } + + id str = NSString_stringWithUTF8String(name); + objc_msgSend_void_id((id)win->src.window, sel_registerName("setTitle:"), str); + + if ((flags & RGFW_windowNoInitAPI) == 0) { + RGFW_window_initOpenGL(win); + RGFW_window_initBuffer(win); + } + + #ifdef RGFW_OPENGL + else + #endif + { + NSRect contentRect = (NSRect){{0, 0}, {win->r.w, win->r.h}}; + win->src.view = ((id(*)(id, SEL, NSRect))objc_msgSend) (NSAlloc(objc_getClass("NSView")), sel_registerName("initWithFrame:"), contentRect); + } + + void* contentView = NSWindow_contentView((id)win->src.window); + objc_msgSend_void_bool(contentView, sel_registerName("setWantsLayer:"), true); + objc_msgSend_int((id)win->src.view, sel_registerName("setLayerContentsPlacement:"), 4); + objc_msgSend_void_id((id)win->src.window, sel_registerName("setContentView:"), win->src.view); + + if (flags & RGFW_windowTransparent) { + objc_msgSend_void_bool(win->src.window, sel_registerName("setOpaque:"), false); + + objc_msgSend_void_id((id)win->src.window, sel_registerName("setBackgroundColor:"), + NSColor_colorWithSRGB(0, 0, 0, 0)); + } + + Class delegateClass = objc_allocateClassPair(objc_getClass("NSObject"), "WindowDelegate", 0); + + class_addIvar( + delegateClass, "RGFW_window", + sizeof(RGFW_window*), (u8)rint(log2(sizeof(RGFW_window*))), + "L" + ); + + class_addMethod(delegateClass, sel_registerName("windowWillResize:toSize:"), (IMP) RGFW__osxWindowResize, "{NSSize=ff}@:{NSSize=ff}"); + class_addMethod(delegateClass, sel_registerName("windowWillMove:"), (IMP) RGFW__osxWindowMove, ""); + class_addMethod(delegateClass, sel_registerName("windowDidMove:"), (IMP) RGFW__osxWindowMove, ""); + class_addMethod(delegateClass, sel_registerName("windowDidMiniaturize:"), (IMP) RGFW__osxWindowMiniaturize, ""); + class_addMethod(delegateClass, sel_registerName("windowDidDeminiaturize:"), (IMP) RGFW__osxWindowDeminiaturize, ""); + class_addMethod(delegateClass, sel_registerName("windowDidBecomeKey:"), (IMP) RGFW__osxWindowBecameKey, ""); + class_addMethod(delegateClass, sel_registerName("windowDidResignKey:"), (IMP) RGFW__osxWindowResignKey, ""); + class_addMethod(delegateClass, sel_registerName("draggingEntered:"), (IMP)draggingEntered, "l@:@"); + class_addMethod(delegateClass, sel_registerName("draggingUpdated:"), (IMP)draggingUpdated, "l@:@"); + class_addMethod(delegateClass, sel_registerName("draggingExited:"), (IMP)RGFW__osxDraggingEnded, "v@:@"); + class_addMethod(delegateClass, sel_registerName("draggingEnded:"), (IMP)RGFW__osxDraggingEnded, "v@:@"); + class_addMethod(delegateClass, sel_registerName("prepareForDragOperation:"), (IMP)prepareForDragOperation, "B@:@"); + class_addMethod(delegateClass, sel_registerName("performDragOperation:"), (IMP)performDragOperation, "B@:@"); + + id delegate = objc_msgSend_id(NSAlloc(delegateClass), sel_registerName("init")); + + if (RGFW_COCOA_FRAME_NAME) + objc_msgSend_ptr(win->src.view, sel_registerName("setFrameAutosaveName:"), RGFW_COCOA_FRAME_NAME); + + object_setInstanceVariable(delegate, "RGFW_window", win); + + objc_msgSend_void_id((id)win->src.window, sel_registerName("setDelegate:"), delegate); + + if (flags & RGFW_windowAllowDND) { + win->_flags |= RGFW_windowAllowDND; + + NSPasteboardType types[] = {NSPasteboardTypeURL, NSPasteboardTypeFileURL, NSPasteboardTypeString}; + NSregisterForDraggedTypes((id)win->src.window, types, 3); + } + + RGFW_window_setFlags(win, flags); + + /* Show the window */ + objc_msgSend_void_bool(NSApp, sel_registerName("activateIgnoringOtherApps:"), true); + ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyAndOrderFront:"), NULL); + RGFW_window_show(win); + + if (!RGFW_loaded) { + objc_msgSend_void(win->src.window, sel_registerName("makeMainWindow")); + + RGFW_loaded = 1; + } + + objc_msgSend_void(win->src.window, sel_registerName("makeKeyWindow")); + + objc_msgSend_void(NSApp, sel_registerName("finishLaunching")); + NSRetain(win->src.window); + NSRetain(NSApp); + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a new window was created"); + return win; +} + +void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { + NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); + NSRect content = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.view, sel_registerName("frame")); + float offset = 0; + + RGFW_setBit(&win->_flags, RGFW_windowNoBorder, !border); + NSBackingStoreType storeType = NSWindowStyleMaskBorderless | NSWindowStyleMaskFullSizeContentView; + if (border) + storeType = NSWindowStyleMaskTitled | NSWindowStyleMaskClosable | NSWindowStyleMaskMiniaturizable; + if (!(win->_flags & RGFW_windowNoResize)) { + storeType |= NSWindowStyleMaskResizable; + } + + ((void (*)(id, SEL, NSBackingStoreType))objc_msgSend)((id)win->src.window, sel_registerName("setStyleMask:"), storeType); + + if (!border) { + id miniaturizeButton = objc_msgSend_int((id)win->src.window, sel_registerName("standardWindowButton:"), NSWindowMiniaturizeButton); + id titleBarView = objc_msgSend_id(miniaturizeButton, sel_registerName("superview")); + objc_msgSend_void_bool(titleBarView, sel_registerName("setHidden:"), true); + + offset = (float)(frame.size.height - content.size.height); + } + + RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h + offset)); + win->r.h -= (i32)offset; +} + +RGFW_area RGFW_getScreenSize(void) { + static CGDirectDisplayID display = 0; + + if (display == 0) + display = CGMainDisplayID(); + + return RGFW_AREA(CGDisplayPixelsWide(display), CGDisplayPixelsHigh(display)); +} + +RGFW_point RGFW_getGlobalMousePoint(void) { + RGFW_ASSERT(_RGFW.root != NULL); + + CGEventRef e = CGEventCreate(NULL); + CGPoint point = CGEventGetLocation(e); + CFRelease(e); + + return RGFW_POINT((u32) point.x, (u32) point.y); /*!< the point is loaded during event checks */ +} + +typedef RGFW_ENUM(u32, NSEventType) { /* various types of events */ + NSEventTypeLeftMouseDown = 1, + NSEventTypeLeftMouseUp = 2, + NSEventTypeRightMouseDown = 3, + NSEventTypeRightMouseUp = 4, + NSEventTypeMouseMoved = 5, + NSEventTypeLeftMouseDragged = 6, + NSEventTypeRightMouseDragged = 7, + NSEventTypeMouseEntered = 8, + NSEventTypeMouseExited = 9, + NSEventTypeKeyDown = 10, + NSEventTypeKeyUp = 11, + NSEventTypeFlagsChanged = 12, + NSEventTypeAppKitDefined = 13, + NSEventTypeSystemDefined = 14, + NSEventTypeApplicationDefined = 15, + NSEventTypePeriodic = 16, + NSEventTypeCursorUpdate = 17, + NSEventTypeScrollWheel = 22, + NSEventTypeTabletPoint = 23, + NSEventTypeTabletProximity = 24, + NSEventTypeOtherMouseDown = 25, + NSEventTypeOtherMouseUp = 26, + NSEventTypeOtherMouseDragged = 27, + /* The following event types are available on some hardware on 10.5.2 and later */ + NSEventTypeGesture = 29, + NSEventTypeMagnify = 30, + NSEventTypeSwipe = 31, + NSEventTypeRotate = 18, + NSEventTypeBeginGesture = 19, + NSEventTypeEndGesture = 20, + + NSEventTypeSmartMagnify = 32, + NSEventTypeQuickLook = 33, + + NSEventTypePressure = 34, + NSEventTypeDirectTouch = 37, + + NSEventTypeChangeMode = 38, +}; + +typedef unsigned long long NSEventMask; + +typedef enum NSEventModifierFlags { + NSEventModifierFlagCapsLock = 1 << 16, + NSEventModifierFlagShift = 1 << 17, + NSEventModifierFlagControl = 1 << 18, + NSEventModifierFlagOption = 1 << 19, + NSEventModifierFlagCommand = 1 << 20, + NSEventModifierFlagNumericPad = 1 << 21 +} NSEventModifierFlags; + +void RGFW_stopCheckEvents(void) { + id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); + eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); + + id e = (id) ((id(*)(Class, SEL, NSEventType, NSPoint, NSEventModifierFlags, void*, NSInteger, void**, short, NSInteger, NSInteger))objc_msgSend) + (objc_getClass("NSEvent"), sel_registerName("otherEventWithType:location:modifierFlags:timestamp:windowNumber:context:subtype:data1:data2:"), + NSEventTypeApplicationDefined, (NSPoint){0, 0}, (NSEventModifierFlags)0, NULL, (NSInteger)0, NULL, 0, 0, 0); + + ((void (*)(id, SEL, id, bool))objc_msgSend) + (NSApp, sel_registerName("postEvent:atStart:"), e, 1); + + objc_msgSend_bool_void(eventPool, sel_registerName("drain")); +} + +void RGFW_window_eventWait(RGFW_window* win, i32 waitMS) { + RGFW_UNUSED(win); + + id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); + eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); + + void* date = (void*) ((id(*)(Class, SEL, double))objc_msgSend) + (objc_getClass("NSDate"), sel_registerName("dateWithTimeIntervalSinceNow:"), waitMS); + + SEL eventFunc = sel_registerName("nextEventMatchingMask:untilDate:inMode:dequeue:"); + id e = (id) ((id(*)(id, SEL, NSEventMask, void*, id, bool))objc_msgSend) + (NSApp, eventFunc, + ULONG_MAX, date, NSString_stringWithUTF8String("kCFRunLoopDefaultMode"), true); + + if (e) { + ((void (*)(id, SEL, id, bool))objc_msgSend) + (NSApp, sel_registerName("postEvent:atStart:"), e, 1); + } + + objc_msgSend_bool_void(eventPool, sel_registerName("drain")); +} + +u8 RGFW_rgfwToKeyChar(u32 rgfw_keycode) { + return (u8)rgfw_keycode; /* TODO */ +} + +RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { + if (win == NULL || ((win->_flags & RGFW_windowFreeOnClose) && (win->_flags & RGFW_EVENT_QUIT))) return NULL; + + objc_msgSend_void((id)win->src.mouse, sel_registerName("set")); + RGFW_event* ev = RGFW_window_checkEventCore(win); + if (ev) { + ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); + return ev; + } + + id eventPool = objc_msgSend_class(objc_getClass("NSAutoreleasePool"), sel_registerName("alloc")); + eventPool = objc_msgSend_id(eventPool, sel_registerName("init")); + + SEL eventFunc = sel_registerName("nextEventMatchingMask:untilDate:inMode:dequeue:"); + + void* date = NULL; + + id e = (id) ((id(*)(id, SEL, NSEventMask, void*, id, bool))objc_msgSend) + (NSApp, eventFunc, ULONG_MAX, date, NSString_stringWithUTF8String("kCFRunLoopDefaultMode"), true); + + if (e == NULL) { + objc_msgSend_bool_void(eventPool, sel_registerName("drain")); + objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); + ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); + return NULL; + } + + if (objc_msgSend_id(e, sel_registerName("window")) != win->src.window) { + ((void (*)(id, SEL, id, bool))objc_msgSend) + (NSApp, sel_registerName("postEvent:atStart:"), e, 0); + + objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); + objc_msgSend_bool_void(eventPool, sel_registerName("drain")); + ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); + return NULL; + } + + if (win->event.droppedFilesCount) { + u32 i; + for (i = 0; i < win->event.droppedFilesCount; i++) + win->event.droppedFiles[i][0] = '\0'; + } + + win->event.droppedFilesCount = 0; + win->event.type = 0; + + u32 type = (u32)objc_msgSend_uint(e, sel_registerName("type")); + switch (type) { + case NSEventTypeMouseEntered: { + win->event.type = RGFW_mouseEnter; + NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(e, sel_registerName("locationInWindow")); + + win->event.point = RGFW_POINT((i32) p.x, (i32) (win->r.h - p.y)); + RGFW_mouseNotifyCallback(win, win->event.point, 1); + break; + } + + case NSEventTypeMouseExited: + win->event.type = RGFW_mouseLeave; + RGFW_mouseNotifyCallback(win, win->event.point, 0); + break; + + case NSEventTypeKeyDown: { + u32 key = (u16) objc_msgSend_uint(e, sel_registerName("keyCode")); + + u32 mappedKey = (u32)*(((char*)(const char*) NSString_to_char(objc_msgSend_id(e, sel_registerName("charactersIgnoringModifiers"))))); + if (((u8)mappedKey) == 239) + mappedKey = 0; + + win->event.keyChar = (u8)mappedKey; + + win->event.key = (u8)RGFW_apiKeyToRGFW(key); + RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; + + win->event.type = RGFW_keyPressed; + win->event.repeat = RGFW_isPressed(win, win->event.key); + RGFW_keyboard[win->event.key].current = 1; + + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 1); + break; + } + + case NSEventTypeKeyUp: { + u32 key = (u16) objc_msgSend_uint(e, sel_registerName("keyCode")); + u32 mappedKey = (u32)*(((char*)(const char*) NSString_to_char(objc_msgSend_id(e, sel_registerName("charactersIgnoringModifiers"))))); + if (((u8)mappedKey) == 239) + mappedKey = 0; + + win->event.keyChar = (u8)mappedKey; + + win->event.key = (u8)RGFW_apiKeyToRGFW(key); + + RGFW_keyboard[win->event.key].prev = RGFW_keyboard[win->event.key].current; + + win->event.type = RGFW_keyReleased; + + RGFW_keyboard[win->event.key].current = 0; + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, 0); + break; + } + + case NSEventTypeFlagsChanged: { + u32 flags = (u32)objc_msgSend_uint(e, sel_registerName("modifierFlags")); + RGFW_updateKeyModsPro(win, ((u32)(flags & NSEventModifierFlagCapsLock) % 255), ((flags & NSEventModifierFlagNumericPad) % 255), + ((flags & NSEventModifierFlagControl) % 255), ((flags & NSEventModifierFlagOption) % 255), + ((flags & NSEventModifierFlagShift) % 255), ((flags & NSEventModifierFlagCommand) % 255), 0); + u8 i; + for (i = 0; i < 9; i++) + RGFW_keyboard[i + RGFW_capsLock].prev = 0; + + for (i = 0; i < 5; i++) { + u32 shift = (1 << (i + 16)); + u32 key = i + RGFW_capsLock; + + if ((flags & shift) && !RGFW_wasPressed(win, (u8)key)) { + RGFW_keyboard[key].current = 1; + + if (key != RGFW_capsLock) + RGFW_keyboard[key+ 4].current = 1; + + win->event.type = RGFW_keyPressed; + win->event.key = (u8)key; + break; + } + + if (!(flags & shift) && RGFW_wasPressed(win, (u8)key)) { + RGFW_keyboard[key].current = 0; + + if (key != RGFW_capsLock) + RGFW_keyboard[key + 4].current = 0; + + win->event.type = RGFW_keyReleased; + win->event.key = (u8)key; + break; + } + } + + RGFW_keyCallback(win, win->event.key, win->event.keyChar, win->event.keyMod, win->event.type == RGFW_keyPressed); + + break; + } + case NSEventTypeLeftMouseDragged: + case NSEventTypeOtherMouseDragged: + case NSEventTypeRightMouseDragged: + case NSEventTypeMouseMoved: { + win->event.type = RGFW_mousePosChanged; + NSPoint p = ((NSPoint(*)(id, SEL)) objc_msgSend)(e, sel_registerName("locationInWindow")); + win->event.point = RGFW_POINT((u32) p.x, (u32) (win->r.h - p.y)); + + p.x = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaX")); + p.y = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaY")); + win->event.vector = RGFW_POINT((i32)p.x, (i32)p.y); + + win->_lastMousePoint = win->event.point; + RGFW_mousePosCallback(win, win->event.point, win->event.vector); + break; + } + case NSEventTypeLeftMouseDown: case NSEventTypeRightMouseDown: case NSEventTypeOtherMouseDown: { + u32 buttonNumber = (u32)objc_msgSend_uint(e, sel_registerName("buttonNumber")); + switch (buttonNumber) { + case 0: win->event.button = RGFW_mouseLeft; break; + case 1: win->event.button = RGFW_mouseRight; break; + case 2: win->event.button = RGFW_mouseMiddle; break; + default: win->event.button = (u8)buttonNumber; + } + + win->event.type = RGFW_mouseButtonPressed; + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 1; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); + break; + } + case NSEventTypeLeftMouseUp: case NSEventTypeRightMouseUp: case NSEventTypeOtherMouseUp: { + u32 buttonNumber = (u32)objc_msgSend_uint(e, sel_registerName("buttonNumber")); + switch (buttonNumber) { + case 0: win->event.button = RGFW_mouseLeft; break; + case 1: win->event.button = RGFW_mouseRight; break; + case 2: win->event.button = RGFW_mouseMiddle; break; + default: win->event.button = (u8)buttonNumber; + } + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 0; + win->event.type = RGFW_mouseButtonReleased; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 0); + break; + } + case NSEventTypeScrollWheel: { + double deltaY = ((CGFloat(*)(id, SEL))abi_objc_msgSend_fpret)(e, sel_registerName("deltaY")); + + if (deltaY > 0) { + win->event.button = RGFW_mouseScrollUp; + } + else if (deltaY < 0) { + win->event.button = RGFW_mouseScrollDown; + } + + RGFW_mouseButtons[win->event.button].prev = RGFW_mouseButtons[win->event.button].current; + RGFW_mouseButtons[win->event.button].current = 1; + + win->event.scroll = deltaY; + + win->event.type = RGFW_mouseButtonPressed; + RGFW_mouseButtonCallback(win, win->event.button, win->event.scroll, 1); + break; + } + + default: + objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); + ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); + return RGFW_window_checkEvent(win); + } + + objc_msgSend_void_id(NSApp, sel_registerName("sendEvent:"), e); + ((void(*)(id, SEL))objc_msgSend)(NSApp, sel_registerName("updateWindows")); + objc_msgSend_bool_void(eventPool, sel_registerName("drain")); + return &win->event; +} + + +void RGFW_window_move(RGFW_window* win, RGFW_point v) { + RGFW_ASSERT(win != NULL); + + win->r.x = v.x; + win->r.y = v.y; + ((void(*)(id, SEL, NSRect, bool, bool))objc_msgSend) + ((id)win->src.window, sel_registerName("setFrame:display:animate:"), (NSRect){{win->r.x, win->r.y}, {win->r.w, win->r.h}}, true, true); +} + +void RGFW_window_resize(RGFW_window* win, RGFW_area a) { + RGFW_ASSERT(win != NULL); + + NSRect frame = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.window, sel_registerName("frame")); + NSRect content = ((NSRect(*)(id, SEL))abi_objc_msgSend_stret)((id)win->src.view, sel_registerName("frame")); + float offset = (float)(frame.size.height - content.size.height); + + win->r.w = (i32)a.w; + win->r.h = (i32)a.h; + + ((void(*)(id, SEL, NSRect, bool, bool))objc_msgSend) + ((id)win->src.window, sel_registerName("setFrame:display:animate:"), (NSRect){{win->r.x, win->r.y}, {win->r.w, win->r.h + offset}}, true, true); +} + +void RGFW_window_focus(RGFW_window* win) { + RGFW_ASSERT(win); + objc_msgSend_void_bool(NSApp, sel_registerName("activateIgnoringOtherApps:"), true); + ((void (*)(id, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyWindow")); +} + +void RGFW_window_raise(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("orderFront:"), (SEL)NULL); + objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGNormalWindowLevelKey); +} + +void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { + RGFW_ASSERT(win != NULL); + if (fullscreen && (win->_flags & RGFW_windowFullscreen)) return; + if (!fullscreen && !(win->_flags & RGFW_windowFullscreen)) return; + + if (fullscreen) { + win->_oldRect = win->r; + RGFW_monitor mon = RGFW_window_getMonitor(win); + win->r = RGFW_RECT(0, 0, mon.x, mon.y); + win->_flags |= RGFW_windowFullscreen; + RGFW_window_resize(win, RGFW_AREA(mon.mode.area.w, mon.mode.area.h)); + RGFW_window_move(win, RGFW_POINT(0, 0)); + } + objc_msgSend_void_SEL(win->src.window, sel_registerName("toggleFullScreen:"), NULL); + + if (!fullscreen) { + win->r = win->_oldRect; + win->_flags &= ~(u32)RGFW_windowFullscreen; + + RGFW_window_resize(win, RGFW_AREA(win->r.w, win->r.h)); + RGFW_window_move(win, RGFW_POINT(win->r.x, win->r.y)); + } +} + +void RGFW_window_maximize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + if (RGFW_window_isMaximized(win)) return; + + win->_flags |= RGFW_windowMaximize; + objc_msgSend_void_SEL(win->src.window, sel_registerName("zoom:"), NULL); +} + +void RGFW_window_minimize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + objc_msgSend_void_SEL(win->src.window, sel_registerName("performMiniaturize:"), NULL); +} + +void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { + RGFW_ASSERT(win != NULL); + if (floating) objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGFloatingWindowLevelKey); + else objc_msgSend_void_id(win->src.window, sel_registerName("setLevel:"), kCGNormalWindowLevelKey); +} + +void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { + objc_msgSend_int(win->src.window, sel_registerName("setAlphaValue:"), opacity); + objc_msgSend_void_bool(win->src.window, sel_registerName("setOpaque:"), (opacity < (u8)255)); + + if (opacity) + objc_msgSend_void_id((id)win->src.window, sel_registerName("setBackgroundColor:"), NSColor_colorWithSRGB(0, 0, 0, opacity)); + +} + +void RGFW_window_restore(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + if (RGFW_window_isMaximized(win)) + objc_msgSend_void_SEL(win->src.window, sel_registerName("zoom:"), NULL); + + objc_msgSend_void_SEL(win->src.window, sel_registerName("deminiaturize:"), NULL); + RGFW_window_show(win); +} + +RGFW_bool RGFW_window_isFloating(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + int level = ((int (*)(id, SEL))objc_msgSend) ((id)(win->src.window), (SEL)sel_registerName("level")); + return level > kCGNormalWindowLevelKey; +} + +void RGFW_window_setName(RGFW_window* win, const char* name) { + RGFW_ASSERT(win != NULL); + + id str = NSString_stringWithUTF8String(name); + objc_msgSend_void_id((id)win->src.window, sel_registerName("setTitle:"), str); +} + +#ifndef RGFW_NO_PASSTHROUGH +void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { + objc_msgSend_void_bool(win->src.window, sel_registerName("setIgnoresMouseEvents:"), passthrough); +} +#endif + +void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { + if (a.w == 0 && a.h == 0) a = RGFW_AREA(1, 1); + + ((void (*)(id, SEL, NSSize))objc_msgSend) + ((id)win->src.window, sel_registerName("setContentAspectRatio:"), (NSSize){a.w, a.h}); +} + +void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { + ((void (*)(id, SEL, NSSize))objc_msgSend) + ((id)win->src.window, sel_registerName("setMinSize:"), (NSSize){a.w, a.h}); +} + +void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { + if (a.w == 0 && a.h == 0) { + a = RGFW_getScreenSize(); + } + + ((void (*)(id, SEL, NSSize))objc_msgSend) + ((id)win->src.window, sel_registerName("setMaxSize:"), (NSSize){a.w, a.h}); +} + +RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* data, RGFW_area area, i32 channels, u8 type) { + RGFW_ASSERT(win != NULL); + RGFW_UNUSED(type); + + if (data == NULL) { + objc_msgSend_void_id(NSApp, sel_registerName("setApplicationIconImage:"), NULL); + return RGFW_TRUE; + } + + /* code by EimaMei: Make a bitmap representation, then copy the loaded image into it. */ + id representation = NSBitmapImageRep_initWithBitmapData(NULL, area.w, area.h, 8, channels, (channels == 4), false, "NSCalibratedRGBColorSpace", 1 << 1, area.w * (u32)channels, 8 * (u32)channels); + RGFW_MEMCPY(NSBitmapImageRep_bitmapData(representation), data, area.w * area.h * (u32)channels); + + /* Add ze representation. */ + id dock_image = ((id(*)(id, SEL, NSSize))objc_msgSend) (NSAlloc((id)objc_getClass("NSImage")), sel_registerName("initWithSize:"), ((NSSize){area.w, area.h})); + + objc_msgSend_void_id(dock_image, sel_registerName("addRepresentation:"), representation); + + /* Finally, set the dock image to it. */ + objc_msgSend_void_id(NSApp, sel_registerName("setApplicationIconImage:"), dock_image); + /* Free the garbage. */ + NSRelease(dock_image); + NSRelease(representation); + + return RGFW_TRUE; +} + +id NSCursor_arrowStr(const char* str) { + void* nclass = objc_getClass("NSCursor"); + SEL func = sel_registerName(str); + return (id) objc_msgSend_id(nclass, func); +} + +RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { + if (icon == NULL) { + objc_msgSend_void(NSCursor_arrowStr("arrowCursor"), sel_registerName("set")); + return NULL; + } + + /* NOTE(EimaMei): Code by yours truly. */ + /* Make a bitmap representation, then copy the loaded image into it. */ + id representation = (id)NSBitmapImageRep_initWithBitmapData(NULL, a.w, a.h, 8, channels, (channels == 4), false, "NSCalibratedRGBColorSpace", 1 << 1, a.w * (u32)channels, 8 * (u32)channels); + RGFW_MEMCPY(NSBitmapImageRep_bitmapData(representation), icon, a.w * a.h * (u32)channels); + + /* Add ze representation. */ + id cursor_image = ((id(*)(id, SEL, NSSize))objc_msgSend) (NSAlloc((id)objc_getClass("NSImage")), sel_registerName("initWithSize:"), ((NSSize){a.w, a.h})); + + objc_msgSend_void_id(cursor_image, sel_registerName("addRepresentation:"), representation); + + /* Finally, set the cursor image. */ + id cursor = (id) ((id(*)(id, SEL, id, NSPoint))objc_msgSend) + (NSAlloc(objc_getClass("NSCursor")), sel_registerName("initWithImage:hotSpot:"), cursor_image, (NSPoint){0.0, 0.0}); + + /* Free the garbage. */ + NSRelease(cursor_image); + NSRelease(representation); + + return (void*)cursor; +} + +void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { + RGFW_ASSERT(win != NULL); RGFW_ASSERT(mouse); + CGDisplayShowCursor(kCGDirectMainDisplay); + objc_msgSend_void((id)mouse, sel_registerName("set")); + win->src.mouse = mouse; +} + +void RGFW_freeMouse(RGFW_mouse* mouse) { + RGFW_ASSERT(mouse); + NSRelease((id)mouse); +} + +RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { + return RGFW_window_setMouseStandard(win, RGFW_mouseArrow); +} + +void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { + RGFW_window_showMouseFlags(win, show); + if (show) CGDisplayShowCursor(kCGDirectMainDisplay); + else CGDisplayHideCursor(kCGDirectMainDisplay); +} + +RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 stdMouses) { + static const char* mouseIconSrc[16] = {"arrowCursor", "arrowCursor", "IBeamCursor", "crosshairCursor", "pointingHandCursor", "resizeLeftRightCursor", "resizeUpDownCursor", "_windowResizeNorthWestSouthEastCursor", "_windowResizeNorthEastSouthWestCursor", "closedHandCursor", "operationNotAllowedCursor"}; + if (stdMouses > ((sizeof(mouseIconSrc)) / (sizeof(char*)))) + return RGFW_FALSE; + + const char* mouseStr = mouseIconSrc[stdMouses]; + id mouse = NSCursor_arrowStr(mouseStr); + + if (mouse == NULL) + return RGFW_FALSE; + + RGFW_UNUSED(win); + CGDisplayShowCursor(kCGDirectMainDisplay); + objc_msgSend_void(mouse, sel_registerName("set")); + win->src.mouse = mouse; + + return RGFW_TRUE; +} + +void RGFW_releaseCursor(RGFW_window* win) { + RGFW_UNUSED(win); + CGAssociateMouseAndMouseCursorPosition(1); +} + +void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { + RGFW_UNUSED(win); + + CGWarpMouseCursorPosition((CGPoint){r.x + (r.w / 2), r.y + (r.h / 2)}); + CGAssociateMouseAndMouseCursorPosition(0); +} + +void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v) { + RGFW_UNUSED(win); + + win->_lastMousePoint = RGFW_POINT(v.x - win->r.x, v.y - win->r.y); + CGWarpMouseCursorPosition((CGPoint){v.x, v.y}); +} + + +void RGFW_window_hide(RGFW_window* win) { + objc_msgSend_void_bool(win->src.window, sel_registerName("setIsVisible:"), false); +} + +void RGFW_window_show(RGFW_window* win) { + if (win->_flags & RGFW_windowFocusOnShow) + ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("makeKeyAndOrderFront:"), NULL); + + ((id(*)(id, SEL, SEL))objc_msgSend)((id)win->src.window, sel_registerName("orderFront:"), NULL); + objc_msgSend_void_bool(win->src.window, sel_registerName("setIsVisible:"), true); +} + +RGFW_bool RGFW_window_isHidden(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + bool visible = objc_msgSend_bool(win->src.window, sel_registerName("isVisible")); + return visible == NO && !RGFW_window_isMinimized(win); +} + +RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + return objc_msgSend_bool(win->src.window, sel_registerName("isMiniaturized")) == YES; +} + +RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + RGFW_bool b = (RGFW_bool)objc_msgSend_bool(win->src.window, sel_registerName("isZoomed")); + return b; +} + +id RGFW_getNSScreenForDisplayID(CGDirectDisplayID display) { + Class NSScreenClass = objc_getClass("NSScreen"); + + id screens = objc_msgSend_id(NSScreenClass, sel_registerName("screens")); + + NSUInteger count = (NSUInteger)objc_msgSend_uint(screens, sel_registerName("count")); + NSUInteger i; + for (i = 0; i < count; i++) { + id screen = ((id (*)(id, SEL, int))objc_msgSend) (screens, sel_registerName("objectAtIndex:"), (int)i); + id description = objc_msgSend_id(screen, sel_registerName("deviceDescription")); + id screenNumberKey = NSString_stringWithUTF8String("NSScreenNumber"); + id screenNumber = objc_msgSend_id_id(description, sel_registerName("objectForKey:"), screenNumberKey); + + if ((CGDirectDisplayID)objc_msgSend_uint(screenNumber, sel_registerName("unsignedIntValue")) == display) { + return screen; + } + } + + return NULL; +} + +u32 RGFW_osx_getFallbackRefreshRate(CGDirectDisplayID displayID); + +u32 RGFW_osx_getRefreshRate(CGDirectDisplayID display, CGDisplayModeRef mode) { + if (mode) { + u32 refreshRate = (u32)CGDisplayModeGetRefreshRate(mode); + if (refreshRate != 0) return refreshRate; + } + +#ifndef RGFW_NO_IOKIT + u32 res = RGFW_osx_getFallbackRefreshRate(display); + if (res != 0) return res; +#else + RGFW_UNUSED(display); +#endif + return 60; +} + +RGFW_monitor RGFW_NSCreateMonitor(CGDirectDisplayID display, id screen) { + RGFW_monitor monitor; + + const char name[] = "MacOS\0"; + RGFW_MEMCPY(monitor.name, name, 6); + + CGRect bounds = CGDisplayBounds(display); + monitor.x = (i32)bounds.origin.x; + monitor.y = (i32)bounds.origin.y; + monitor.mode.area = RGFW_AREA((int) bounds.size.width, (int) bounds.size.height); + + monitor.mode.red = 8; monitor.mode.green = 8; monitor.mode.blue = 8; + + CGDisplayModeRef mode = CGDisplayCopyDisplayMode(display); + monitor.mode.refreshRate = RGFW_osx_getRefreshRate(display, mode); + CFRelease(mode); + + CGSize screenSizeMM = CGDisplayScreenSize(display); + monitor.physW = (float)screenSizeMM.width / 25.4f; + monitor.physH = (float)screenSizeMM.height / 25.4f; + + float ppi_width = (monitor.mode.area.w/monitor.physW); + float ppi_height = (monitor.mode.area.h/monitor.physH); + + monitor.pixelRatio = (float)((CGFloat (*)(id, SEL))abi_objc_msgSend_fpret) (screen, sel_registerName("backingScaleFactor")); + float dpi = 96.0f * monitor.pixelRatio; + + monitor.scaleX = ((i32)(((float) (ppi_width) / dpi) * 10.0f)) / 10.0f; + monitor.scaleY = ((i32)(((float) (ppi_height) / dpi) * 10.0f)) / 10.0f; + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoMonitor, RGFW_DEBUG_CTX_MON(monitor), "monitor found"); + return monitor; +} + + +RGFW_monitor* RGFW_getMonitors(size_t* len) { + static CGDirectDisplayID displays[7]; + u32 count; + + if (CGGetActiveDisplayList(6, displays, &count) != kCGErrorSuccess) + return NULL; + + if (count > 6) count = 6; + + static RGFW_monitor monitors[7]; + + u32 i; + for (i = 0; i < count; i++) + monitors[i] = RGFW_NSCreateMonitor(displays[i], RGFW_getNSScreenForDisplayID(displays[i])); + + if (len != NULL) *len = count; + return monitors; +} + +RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { + CGPoint point = { mon.x, mon.y }; + + CGDirectDisplayID display; + uint32_t displayCount = 0; + CGError err = CGGetDisplaysWithPoint(point, 1, &display, &displayCount); + if (err != kCGErrorSuccess || displayCount != 1) + return RGFW_FALSE; + + CFArrayRef allModes = CGDisplayCopyAllDisplayModes(display, NULL); + + if (allModes == NULL) + return RGFW_FALSE; + + CFIndex i; + for (i = 0; i < CFArrayGetCount(allModes); i++) { + CGDisplayModeRef cmode = (CGDisplayModeRef)CFArrayGetValueAtIndex(allModes, i); + + RGFW_monitorMode foundMode; + foundMode.area = RGFW_AREA(CGDisplayModeGetWidth(cmode), CGDisplayModeGetHeight(cmode)); + foundMode.refreshRate = RGFW_osx_getRefreshRate(display, cmode); + foundMode.red = 8; foundMode.green = 8; foundMode.blue = 8; + + if (RGFW_monitorModeCompare(mode, foundMode, request)) { + if (CGDisplaySetDisplayMode(display, cmode, NULL) == kCGErrorSuccess) { + CFRelease(allModes); + return RGFW_TRUE; + } + break; + } + } + + CFRelease(allModes); + + return RGFW_FALSE; +} + +RGFW_monitor RGFW_getPrimaryMonitor(void) { + CGDirectDisplayID primary = CGMainDisplayID(); + return RGFW_NSCreateMonitor(primary, RGFW_getNSScreenForDisplayID(primary)); +} + +RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { + id screen = objc_msgSend_id(win->src.window, sel_registerName("screen")); + id description = objc_msgSend_id(screen, sel_registerName("deviceDescription")); + id screenNumberKey = NSString_stringWithUTF8String("NSScreenNumber"); + id screenNumber = objc_msgSend_id_id(description, sel_registerName("objectForKey:"), screenNumberKey); + + CGDirectDisplayID display = (CGDirectDisplayID)objc_msgSend_uint(screenNumber, sel_registerName("unsignedIntValue")); + + return RGFW_NSCreateMonitor(display, screen); +} + +RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { + size_t clip_len; + char* clip = (char*)NSPasteboard_stringForType(NSPasteboard_generalPasteboard(), NSPasteboardTypeString, &clip_len); + if (clip == NULL) return -1; + + if (str != NULL) { + if (strCapacity < clip_len) + return 0; + + RGFW_MEMCPY(str, clip, clip_len); + + str[clip_len] = '\0'; + } + + return (RGFW_ssize_t)clip_len; +} + +void RGFW_writeClipboard(const char* text, u32 textLen) { + RGFW_UNUSED(textLen); + + NSPasteboardType array[] = { NSPasteboardTypeString, NULL }; + NSPasteBoard_declareTypes(NSPasteboard_generalPasteboard(), array, 1, NULL); + + SEL func = sel_registerName("setString:forType:"); + ((bool (*)(id, SEL, id, id))objc_msgSend) + (NSPasteboard_generalPasteboard(), func, NSString_stringWithUTF8String(text), NSString_stringWithUTF8String(NSPasteboardTypeString)); +} + + #ifdef RGFW_OPENGL + void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { + if (win != NULL) + objc_msgSend_void(win->src.ctx, sel_registerName("makeCurrentContext")); + else + objc_msgSend_id(objc_getClass("NSOpenGLContext"), sel_registerName("clearCurrentContext")); + } + void* RGFW_getCurrent_OpenGL(void) { + return objc_msgSend_id(objc_getClass("NSOpenGLContext"), sel_registerName("currentContext")); + } + + void RGFW_window_swapBuffers_OpenGL(RGFW_window* win) { + objc_msgSend_void(win->src.ctx, sel_registerName("flushBuffer")); + } + #endif + + #if !defined(RGFW_EGL) + + void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { + RGFW_ASSERT(win != NULL); + #if defined(RGFW_OPENGL) + + NSOpenGLContext_setValues((id)win->src.ctx, &swapInterval, 222); + #else + RGFW_UNUSED(swapInterval); + #endif + } + + #endif + +void RGFW_window_swapBuffers_software(RGFW_window* win) { +#if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + RGFW_RGB_to_BGR(win, win->buffer); + i32 channels = 4; + id image = ((id (*)(Class, SEL))objc_msgSend)(objc_getClass("NSImage"), sel_getUid("alloc")); + NSSize size = (NSSize){win->bufferSize.w, win->bufferSize.h}; + image = ((id (*)(id, SEL, NSSize))objc_msgSend)((id)image, sel_getUid("initWithSize:"), size); + + id rep = NSBitmapImageRep_initWithBitmapData(&win->buffer, win->r.w, win->r.h , 8, channels, (channels == 4), false, + "NSDeviceRGBColorSpace", 1 << 1, (u32)win->bufferSize.w * (u32)channels, 8 * (u32)channels); + ((void (*)(id, SEL, id))objc_msgSend)((id)image, sel_getUid("addRepresentation:"), rep); + + id contentView = ((id (*)(id, SEL))objc_msgSend)((id)win->src.window, sel_getUid("contentView")); + ((void (*)(id, SEL, BOOL))objc_msgSend)(contentView, sel_getUid("setWantsLayer:"), YES); + id layer = ((id (*)(id, SEL))objc_msgSend)(contentView, sel_getUid("layer")); + + ((void (*)(id, SEL, id))objc_msgSend)(layer, sel_getUid("setContents:"), (id)image); + ((void (*)(id, SEL, BOOL))objc_msgSend)(contentView, sel_getUid("setNeedsDisplay:"), YES); + + NSRelease(rep); + NSRelease(image); +#else + RGFW_UNUSED(win); +#endif +} + +void RGFW_deinit(void) { + _RGFW.windowCount = -1; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context deinitialized"); +} + +void RGFW_window_close(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + NSRelease(win->src.view); + if ((win->_flags & RGFW_windowNoInitAPI) == 0) RGFW_window_freeOpenGL(win); + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + if ((win->_flags & RGFW_BUFFER_ALLOC)) + RGFW_FREE(win->buffer); + #endif + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context deinitialized"); + _RGFW.windowCount--; + if (_RGFW.windowCount == 0) RGFW_deinit(); + + RGFW_clipboard_switch(NULL); + RGFW_FREE(win->event.droppedFiles); + if ((win->_flags & RGFW_WINDOW_ALLOC)) { + RGFW_FREE(win); + win = NULL; + } +} + +u64 RGFW_getTimerFreq(void) { + static u64 freq = 0; + if (freq == 0) { + mach_timebase_info_data_t info; + mach_timebase_info(&info); + freq = (u64)((info.denom * 1e9) / info.numer); + } + + return freq; +} + +u64 RGFW_getTimerValue(void) { return (u64)mach_absolute_time(); } + +#endif /* RGFW_MACOS */ + +/* + End of MaOS defines +*/ + +/* + WASM defines +*/ + +#ifdef RGFW_WASM +EM_BOOL Emscripten_on_resize(int eventType, const EmscriptenUiEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + RGFW_eventQueuePushEx(e.type = RGFW_windowResized; e._win = _RGFW.root); + RGFW_windowResizedCallback(_RGFW.root, RGFW_RECT(0, 0, E->windowInnerWidth, E->windowInnerHeight)); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_fullscreenchange(int eventType, const EmscriptenFullscreenChangeEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + static u8 fullscreen = RGFW_FALSE; + static RGFW_rect ogRect; + + if (fullscreen == RGFW_FALSE) { + ogRect = _RGFW.root->r; + } + + fullscreen = !fullscreen; + RGFW_eventQueuePushEx(e.type = RGFW_windowResized; e._win = _RGFW.root); + _RGFW.root->r = RGFW_RECT(0, 0, E->screenWidth, E->screenHeight); + + EM_ASM("Module.canvas.focus();"); + + if (fullscreen == RGFW_FALSE) { + _RGFW.root->r = RGFW_RECT(0, 0, ogRect.w, ogRect.h); + /* emscripten_request_fullscreen("#canvas", 0); */ + } else { + #if __EMSCRIPTEN_major__ >= 1 && __EMSCRIPTEN_minor__ >= 29 && __EMSCRIPTEN_tiny__ >= 0 + EmscriptenFullscreenStrategy FSStrat = {0}; + FSStrat.scaleMode = EMSCRIPTEN_FULLSCREEN_SCALE_STRETCH; /* EMSCRIPTEN_FULLSCREEN_SCALE_ASPECT : EMSCRIPTEN_FULLSCREEN_SCALE_STRETCH; */ + FSStrat.canvasResolutionScaleMode = EMSCRIPTEN_FULLSCREEN_CANVAS_SCALE_HIDEF; + FSStrat.filteringMode = EMSCRIPTEN_FULLSCREEN_FILTERING_DEFAULT; + emscripten_request_fullscreen_strategy("#canvas", 1, &FSStrat); + #else + emscripten_request_fullscreen("#canvas", 1); + #endif + } + + emscripten_set_canvas_element_size("#canvas", _RGFW.root->r.w, _RGFW.root->r.h); + + RGFW_windowResizedCallback(_RGFW.root, _RGFW.root->r); + return EM_TRUE; +} + + + +EM_BOOL Emscripten_on_focusin(int eventType, const EmscriptenFocusEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); RGFW_UNUSED(E); + + RGFW_eventQueuePushEx(e.type = RGFW_focusIn; e._win = _RGFW.root); + _RGFW.root->_flags |= RGFW_windowFocus; + RGFW_focusCallback(_RGFW.root, 1); + + if ((_RGFW.root->_flags & RGFW_HOLD_MOUSE)) RGFW_window_mouseHold(_RGFW.root, RGFW_AREA(_RGFW.root->r.w, _RGFW.root->r.h)); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_focusout(int eventType, const EmscriptenFocusEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); RGFW_UNUSED(E); + + RGFW_eventQueuePushEx(e.type = RGFW_focusOut; e._win = _RGFW.root); + RGFW_window_focusLost(_RGFW.root); + RGFW_focusCallback(_RGFW.root, 0); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_mousemove(int eventType, const EmscriptenMouseEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + RGFW_eventQueuePushEx(e.type = RGFW_mousePosChanged; + e.point = RGFW_POINT(E->targetX, E->targetY); + e.vector = RGFW_POINT(E->movementX, E->movementY); + e._win = _RGFW.root); + + _RGFW.root->_lastMousePoint = RGFW_POINT(E->targetX, E->targetY); + RGFW_mousePosCallback(_RGFW.root, RGFW_POINT(E->targetX, E->targetY), RGFW_POINT(E->movementX, E->movementY)); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_mousedown(int eventType, const EmscriptenMouseEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + int button = E->button; + if (button > 2) + button += 2; + + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonPressed; + e.point = RGFW_POINT(E->targetX, E->targetY); + e.vector = RGFW_POINT(E->movementX, E->movementY); + e.button = (u8)button; + e.scroll = 0; + e._win = _RGFW.root); + RGFW_mouseButtons[button].prev = RGFW_mouseButtons[button].current; + RGFW_mouseButtons[button].current = 1; + + RGFW_mouseButtonCallback(_RGFW.root, button, 0, 1); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_mouseup(int eventType, const EmscriptenMouseEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + int button = E->button; + if (button > 2) + button += 2; + + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonReleased; + e.point = RGFW_POINT(E->targetX, E->targetY); + e.vector = RGFW_POINT(E->movementX, E->movementY); + e.button = (u8)button; + e.scroll = 0; + e._win = _RGFW.root); + RGFW_mouseButtons[button].prev = RGFW_mouseButtons[button].current; + RGFW_mouseButtons[button].current = 0; + + RGFW_mouseButtonCallback(_RGFW.root, button, 0, 0); + return EM_TRUE; +} + +EM_BOOL Emscripten_on_wheel(int eventType, const EmscriptenWheelEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + int button = RGFW_mouseScrollUp + (E->deltaY < 0); + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonPressed; + e.button = (u8)button; + e.scroll = (double)(E->deltaY < 0 ? 1 : -1); + e._win = _RGFW.root); + RGFW_mouseButtons[button].prev = RGFW_mouseButtons[button].current; + RGFW_mouseButtons[button].current = 1; + RGFW_mouseButtonCallback(_RGFW.root, button, E->deltaY < 0 ? 1 : -1, 1); + + return EM_TRUE; +} + +EM_BOOL Emscripten_on_touchstart(int eventType, const EmscriptenTouchEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + size_t i; + for (i = 0; i < (size_t)E->numTouches; i++) { + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonPressed; + e.point = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + e.button = RGFW_mouseLeft; + e._win = _RGFW.root); + + RGFW_mouseButtons[RGFW_mouseLeft].prev = RGFW_mouseButtons[RGFW_mouseLeft].current; + RGFW_mouseButtons[RGFW_mouseLeft].current = 1; + + _RGFW.root->_lastMousePoint = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + RGFW_mousePosCallback(_RGFW.root, RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY), _RGFW.root->event.vector); + RGFW_mouseButtonCallback(_RGFW.root, RGFW_mouseLeft, 0, 1); + } + + return EM_TRUE; +} +EM_BOOL Emscripten_on_touchmove(int eventType, const EmscriptenTouchEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + size_t i; + for (i = 0; i < (size_t)E->numTouches; i++) { + RGFW_eventQueuePushEx(e.type = RGFW_mousePosChanged; + e.point = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + e.button = RGFW_mouseLeft; + e._win = _RGFW.root); + + _RGFW.root->_lastMousePoint = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + RGFW_mousePosCallback(_RGFW.root, RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY), _RGFW.root->event.vector); + } + return EM_TRUE; +} + +EM_BOOL Emscripten_on_touchend(int eventType, const EmscriptenTouchEvent* E, void* userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + size_t i; + for (i = 0; i < (size_t)E->numTouches; i++) { + RGFW_eventQueuePushEx(e.type = RGFW_mouseButtonReleased; + e.point = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + e.button = RGFW_mouseLeft; + e._win = _RGFW.root); + + RGFW_mouseButtons[RGFW_mouseLeft].prev = RGFW_mouseButtons[RGFW_mouseLeft].current; + RGFW_mouseButtons[RGFW_mouseLeft].current = 0; + + _RGFW.root->_lastMousePoint = RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY); + RGFW_mousePosCallback(_RGFW.root, RGFW_POINT(E->touches[i].targetX, E->touches[i].targetY), _RGFW.root->event.vector); + RGFW_mouseButtonCallback(_RGFW.root, RGFW_mouseLeft, 0, 0); + } + return EM_TRUE; +} + +EM_BOOL Emscripten_on_touchcancel(int eventType, const EmscriptenTouchEvent* E, void* userData) { RGFW_UNUSED(eventType); RGFW_UNUSED(userData); return EM_TRUE; } + +EM_BOOL Emscripten_on_gamepad(int eventType, const EmscriptenGamepadEvent *gamepadEvent, void *userData) { + RGFW_UNUSED(eventType); RGFW_UNUSED(userData); + + if (gamepadEvent->index >= 4) + return 0; + + size_t i = gamepadEvent->index; + if (gamepadEvent->connected) { + RGFW_STRNCPY(RGFW_gamepads_name[gamepadEvent->index], gamepadEvent->id, sizeof(RGFW_gamepads_name[gamepadEvent->index]) - 1); + RGFW_gamepads_name[gamepadEvent->index][sizeof(RGFW_gamepads_name[gamepadEvent->index]) - 1] = '\0'; + RGFW_gamepads_type[i] = RGFW_gamepadUnknown; + if (RGFW_STRSTR(RGFW_gamepads_name[i], "Microsoft") || RGFW_STRSTR(RGFW_gamepads_name[i], "X-Box")) + RGFW_gamepads_type[i] = RGFW_gamepadMicrosoft; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "PlayStation") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS3") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS4") || RGFW_STRSTR(RGFW_gamepads_name[i], "PS5")) + RGFW_gamepads_type[i] = RGFW_gamepadSony; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "Nintendo")) + RGFW_gamepads_type[i] = RGFW_gamepadNintendo; + else if (RGFW_STRSTR(RGFW_gamepads_name[i], "Logitech")) + RGFW_gamepads_type[i] = RGFW_gamepadLogitech; + RGFW_gamepadCount++; + } else { + RGFW_gamepadCount--; + } + + RGFW_eventQueuePushEx(e.type = (RGFW_eventType)(gamepadEvent->connected ? RGFW_gamepadConnected : RGFW_gamepadConnected); + e.gamepad = (u16)gamepadEvent->index; + e._win = _RGFW.root); + + RGFW_gamepadCallback(_RGFW.root, gamepadEvent->index, gamepadEvent->connected); + RGFW_gamepads[gamepadEvent->index] = gamepadEvent->connected; + + return 1; /* The event was consumed by the callback handler */ +} + +u32 RGFW_wASMPhysicalToRGFW(u32 hash) { + switch(hash) { /* 0x0000 */ + case 0x67243A2DU /* Escape */: return RGFW_escape; /* 0x0001 */ + case 0x67251058U /* Digit0 */: return RGFW_0; /* 0x0002 */ + case 0x67251059U /* Digit1 */: return RGFW_1; /* 0x0003 */ + case 0x6725105AU /* Digit2 */: return RGFW_2; /* 0x0004 */ + case 0x6725105BU /* Digit3 */: return RGFW_3; /* 0x0005 */ + case 0x6725105CU /* Digit4 */: return RGFW_4; /* 0x0006 */ + case 0x6725105DU /* Digit5 */: return RGFW_5; /* 0x0007 */ + case 0x6725105EU /* Digit6 */: return RGFW_6; /* 0x0008 */ + case 0x6725105FU /* Digit7 */: return RGFW_7; /* 0x0009 */ + case 0x67251050U /* Digit8 */: return RGFW_8; /* 0x000A */ + case 0x67251051U /* Digit9 */: return RGFW_9; /* 0x000B */ + case 0x92E14DD3U /* Minus */: return RGFW_minus; /* 0x000C */ + case 0x92E1FBACU /* Equal */: return RGFW_equals; /* 0x000D */ + case 0x36BF1CB5U /* Backspace */: return RGFW_backSpace; /* 0x000E */ + case 0x7B8E51E2U /* Tab */: return RGFW_tab; /* 0x000F */ + case 0x2C595B51U /* KeyQ */: return RGFW_q; /* 0x0010 */ + case 0x2C595B57U /* KeyW */: return RGFW_w; /* 0x0011 */ + case 0x2C595B45U /* KeyE */: return RGFW_e; /* 0x0012 */ + case 0x2C595B52U /* KeyR */: return RGFW_r; /* 0x0013 */ + case 0x2C595B54U /* KeyT */: return RGFW_t; /* 0x0014 */ + case 0x2C595B59U /* KeyY */: return RGFW_y; /* 0x0015 */ + case 0x2C595B55U /* KeyU */: return RGFW_u; /* 0x0016 */ + case 0x2C595B4FU /* KeyO */: return RGFW_o; /* 0x0018 */ + case 0x2C595B50U /* KeyP */: return RGFW_p; /* 0x0019 */ + case 0x45D8158CU /* BracketLeft */: return RGFW_closeBracket; /* 0x001A */ + case 0xDEEABF7CU /* BracketRight */: return RGFW_bracket; /* 0x001B */ + case 0x92E1C5D2U /* Enter */: return RGFW_return; /* 0x001C */ + case 0xE058958CU /* ControlLeft */: return RGFW_controlL; /* 0x001D */ + case 0x2C595B41U /* KeyA */: return RGFW_a; /* 0x001E */ + case 0x2C595B53U /* KeyS */: return RGFW_s; /* 0x001F */ + case 0x2C595B44U /* KeyD */: return RGFW_d; /* 0x0020 */ + case 0x2C595B46U /* KeyF */: return RGFW_f; /* 0x0021 */ + case 0x2C595B47U /* KeyG */: return RGFW_g; /* 0x0022 */ + case 0x2C595B48U /* KeyH */: return RGFW_h; /* 0x0023 */ + case 0x2C595B4AU /* KeyJ */: return RGFW_j; /* 0x0024 */ + case 0x2C595B4BU /* KeyK */: return RGFW_k; /* 0x0025 */ + case 0x2C595B4CU /* KeyL */: return RGFW_l; /* 0x0026 */ + case 0x2707219EU /* Semicolon */: return RGFW_semicolon; /* 0x0027 */ + case 0x92E0B58DU /* Quote */: return RGFW_apostrophe; /* 0x0028 */ + case 0x36BF358DU /* Backquote */: return RGFW_backtick; /* 0x0029 */ + case 0x26B1958CU /* ShiftLeft */: return RGFW_shiftL; /* 0x002A */ + case 0x36BF2438U /* Backslash */: return RGFW_backSlash; /* 0x002B */ + case 0x2C595B5AU /* KeyZ */: return RGFW_z; /* 0x002C */ + case 0x2C595B58U /* KeyX */: return RGFW_x; /* 0x002D */ + case 0x2C595B43U /* KeyC */: return RGFW_c; /* 0x002E */ + case 0x2C595B56U /* KeyV */: return RGFW_v; /* 0x002F */ + case 0x2C595B42U /* KeyB */: return RGFW_b; /* 0x0030 */ + case 0x2C595B4EU /* KeyN */: return RGFW_n; /* 0x0031 */ + case 0x2C595B4DU /* KeyM */: return RGFW_m; /* 0x0032 */ + case 0x92E1A1C1U /* Comma */: return RGFW_comma; /* 0x0033 */ + case 0x672FFAD4U /* Period */: return RGFW_period; /* 0x0034 */ + case 0x92E0A438U /* Slash */: return RGFW_slash; /* 0x0035 */ + case 0xC5A6BF7CU /* ShiftRight */: return RGFW_shiftR; + case 0x5D64DA91U /* NumpadMultiply */: return RGFW_multiply; + case 0xC914958CU /* AltLeft */: return RGFW_altL; /* 0x0038 */ + case 0x92E09CB5U /* Space */: return RGFW_space; /* 0x0039 */ + case 0xB8FAE73BU /* CapsLock */: return RGFW_capsLock; /* 0x003A */ + case 0x7174B789U /* F1 */: return RGFW_F1; /* 0x003B */ + case 0x7174B78AU /* F2 */: return RGFW_F2; /* 0x003C */ + case 0x7174B78BU /* F3 */: return RGFW_F3; /* 0x003D */ + case 0x7174B78CU /* F4 */: return RGFW_F4; /* 0x003E */ + case 0x7174B78DU /* F5 */: return RGFW_F5; /* 0x003F */ + case 0x7174B78EU /* F6 */: return RGFW_F6; /* 0x0040 */ + case 0x7174B78FU /* F7 */: return RGFW_F7; /* 0x0041 */ + case 0x7174B780U /* F8 */: return RGFW_F8; /* 0x0042 */ + case 0x7174B781U /* F9 */: return RGFW_F9; /* 0x0043 */ + case 0x7B8E57B0U /* F10 */: return RGFW_F10; /* 0x0044 */ + case 0xC925FCDFU /* Numpad7 */: return RGFW_multiply; /* 0x0047 */ + case 0xC925FCD0U /* Numpad8 */: return RGFW_KP_8; /* 0x0048 */ + case 0xC925FCD1U /* Numpad9 */: return RGFW_KP_9; /* 0x0049 */ + case 0x5EA3E8A4U /* NumpadSubtract */: return RGFW_minus; /* 0x004A */ + case 0xC925FCDCU /* Numpad4 */: return RGFW_KP_4; /* 0x004B */ + case 0xC925FCDDU /* Numpad5 */: return RGFW_KP_5; /* 0x004C */ + case 0xC925FCDEU /* Numpad6 */: return RGFW_KP_6; /* 0x004D */ + case 0xC925FCD9U /* Numpad1 */: return RGFW_KP_1; /* 0x004F */ + case 0xC925FCDAU /* Numpad2 */: return RGFW_KP_2; /* 0x0050 */ + case 0xC925FCDBU /* Numpad3 */: return RGFW_KP_3; /* 0x0051 */ + case 0xC925FCD8U /* Numpad0 */: return RGFW_KP_0; /* 0x0052 */ + case 0x95852DACU /* NumpadDecimal */: return RGFW_period; /* 0x0053 */ + case 0x7B8E57B1U /* F11 */: return RGFW_F11; /* 0x0057 */ + case 0x7B8E57B2U /* F12 */: return RGFW_F12; /* 0x0058 */ + case 0x7393FBACU /* NumpadEqual */: return RGFW_KP_Return; + case 0xB88EBF7CU /* AltRight */: return RGFW_altR; /* 0xE038 */ + case 0xC925873BU /* NumLock */: return RGFW_numLock; /* 0xE045 */ + case 0x2C595F45U /* Home */: return RGFW_home; /* 0xE047 */ + case 0xC91BB690U /* ArrowUp */: return RGFW_up; /* 0xE048 */ + case 0x672F9210U /* PageUp */: return RGFW_pageUp; /* 0xE049 */ + case 0x3799258CU /* ArrowLeft */: return RGFW_left; /* 0xE04B */ + case 0x4CE33F7CU /* ArrowRight */: return RGFW_right; /* 0xE04D */ + case 0x7B8E55DCU /* End */: return RGFW_end; /* 0xE04F */ + case 0x3799379EU /* ArrowDown */: return RGFW_down; /* 0xE050 */ + case 0xBA90179EU /* PageDown */: return RGFW_pageDown; /* 0xE051 */ + case 0x6723CB2CU /* Insert */: return RGFW_insert; /* 0xE052 */ + case 0x6725C50DU /* Delete */: return RGFW_delete; /* 0xE053 */ + case 0x6723658CU /* OSLeft */: return RGFW_superL; /* 0xE05B */ + case 0x39643F7CU /* MetaRight */: return RGFW_superR; /* 0xE05C */ + } + + return 0; +} + +void EMSCRIPTEN_KEEPALIVE RGFW_handleKeyEvent(char* key, char* code, RGFW_bool press) { + const char* iCode = code; + + u32 hash = 0; + while(*iCode) hash = ((hash ^ 0x7E057D79U) << 3) ^ (unsigned int)*iCode++; + + u32 physicalKey = RGFW_wASMPhysicalToRGFW(hash); + + u8 mappedKey = (u8)(*((u32*)key)); + + if (*((u16*)key) != mappedKey) { + mappedKey = 0; + if (*((u32*)key) == *((u32*)"Tab")) mappedKey = RGFW_tab; + } + + RGFW_eventQueuePushEx(e.type = (RGFW_eventType)(press ? RGFW_keyPressed : RGFW_keyReleased); + e.key = (u8)physicalKey; + e.keyChar = (u8)mappedKey; + e.keyMod = _RGFW.root->event.keyMod; + e._win = _RGFW.root); + + RGFW_keyboard[physicalKey].prev = RGFW_keyboard[physicalKey].current; + RGFW_keyboard[physicalKey].current = press; + + RGFW_keyCallback(_RGFW.root, physicalKey, mappedKey, _RGFW.root->event.keyMod, press); +} + +void EMSCRIPTEN_KEEPALIVE RGFW_handleKeyMods(RGFW_bool capital, RGFW_bool numlock, RGFW_bool control, RGFW_bool alt, RGFW_bool shift, RGFW_bool super, RGFW_bool scroll) { + RGFW_updateKeyModsPro(_RGFW.root, capital, numlock, control, alt, shift, super, scroll); +} + +void EMSCRIPTEN_KEEPALIVE Emscripten_onDrop(size_t count) { + if (!(_RGFW.root->_flags & RGFW_windowAllowDND)) + return; + + _RGFW.root->event.droppedFilesCount = count; + RGFW_eventQueuePushEx(e.type = RGFW_DND; + e.droppedFilesCount = count; + e._win = _RGFW.root); + RGFW_dndCallback(_RGFW.root, _RGFW.root->event.droppedFiles, count); +} + +RGFW_bool RGFW_stopCheckEvents_bool = RGFW_FALSE; +void RGFW_stopCheckEvents(void) { + RGFW_stopCheckEvents_bool = RGFW_TRUE; +} + +void RGFW_window_eventWait(RGFW_window* win, i32 waitMS) { + RGFW_UNUSED(win); + if (waitMS == 0) return; + + u32 start = (u32)(((u64)RGFW_getTimeNS()) / 1e+6); + + while ((_RGFW.eventLen == 0) && RGFW_stopCheckEvents_bool == RGFW_FALSE && (RGFW_getTimeNS() / 1e+6) - start < waitMS) + emscripten_sleep(0); + + RGFW_stopCheckEvents_bool = RGFW_FALSE; +} + +void RGFW_window_initBufferPtr(RGFW_window* win, u8* buffer, RGFW_area area){ + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + win->buffer = buffer; + win->bufferSize = area; + #ifdef RGFW_OSMESA + win->src.ctx = OSMesaCreateContext(OSMESA_RGBA, NULL); + OSMesaMakeCurrent(win->src.ctx, win->buffer, GL_UNSIGNED_BYTE, area.w, area.h); + OSMesaPixelStore(OSMESA_Y_UP, 0); + #endif + #else + RGFW_UNUSED(win); RGFW_UNUSED(buffer); RGFW_UNUSED(area); /*!< if buffer rendering is not being used */ + #endif +} + +void EMSCRIPTEN_KEEPALIVE RGFW_makeSetValue(size_t index, char* file) { + /* This seems like a terrible idea, don't replicate this unless you hate yourself or the OS */ + /* TODO: find a better way to do this + */ + RGFW_STRNCPY((char*)_RGFW.root->event.droppedFiles[index], file, RGFW_MAX_PATH - 1); + _RGFW.root->event.droppedFiles[index][RGFW_MAX_PATH - 1] = '\0'; +} + +#include +#include +#include +#include + +void EMSCRIPTEN_KEEPALIVE RGFW_mkdir(char* name) { mkdir(name, 0755); } + +void EMSCRIPTEN_KEEPALIVE RGFW_writeFile(const char *path, const char *data, size_t len) { + FILE* file = fopen(path, "w+"); + if (file == NULL) + return; + + fwrite(data, sizeof(char), len, file); + fclose(file); +} + +void RGFW_window_initOpenGL(RGFW_window* win) { +#if defined(RGFW_OPENGL) && !defined(RGFW_WEBGPU) && !defined(RGFW_OSMESA) && !defined(RGFW_BUFFER) + EmscriptenWebGLContextAttributes attrs; + attrs.alpha = RGFW_GL_HINTS[RGFW_glDepth]; + attrs.depth = RGFW_GL_HINTS[RGFW_glAlpha]; + attrs.stencil = RGFW_GL_HINTS[RGFW_glStencil]; + attrs.antialias = RGFW_GL_HINTS[RGFW_glSamples]; + attrs.premultipliedAlpha = EM_TRUE; + attrs.preserveDrawingBuffer = EM_FALSE; + + if (RGFW_GL_HINTS[RGFW_glDoubleBuffer] == 0) + attrs.renderViaOffscreenBackBuffer = 0; + else + attrs.renderViaOffscreenBackBuffer = RGFW_GL_HINTS[RGFW_glAuxBuffers]; + + attrs.failIfMajorPerformanceCaveat = EM_FALSE; + attrs.majorVersion = (RGFW_GL_HINTS[RGFW_glMajor] == 0) ? 1 : RGFW_GL_HINTS[RGFW_glMajor]; + attrs.minorVersion = RGFW_GL_HINTS[RGFW_glMinor]; + + attrs.enableExtensionsByDefault = EM_TRUE; + attrs.explicitSwapControl = EM_TRUE; + + emscripten_webgl_init_context_attributes(&attrs); + win->src.ctx = emscripten_webgl_create_context("#canvas", &attrs); + emscripten_webgl_make_context_current(win->src.ctx); + + #ifdef LEGACY_GL_EMULATION + EM_ASM("Module.useWebGL = true; GLImmediate.init();"); + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context initalized"); + #endif + glViewport(0, 0, win->r.w, win->r.h); +#endif +} + +void RGFW_window_freeOpenGL(RGFW_window* win) { +#if defined(RGFW_OPENGL) && !defined(RGFW_WEBGPU) && !defined(RGFW_OSMESA) && !defined(RGFW_OSMESA) + if (win->src.ctx == 0) return; + emscripten_webgl_destroy_context(win->src.ctx); + win->src.ctx = 0; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoOpenGL, RGFW_DEBUG_CTX(win, 0), "opengl context freed"); +#elif defined(RGFW_OPENGL) && defined(RGFW_OSMESA) + if(win->src.ctx == 0) return; + OSMesaDestroyContext(win->src.ctx); + win->src.ctx = 0; +#else + RGFW_UNUSED(win); +#endif +} + +i32 RGFW_init(void) { +#if defined(RGFW_C89) || defined(__cplusplus) + if (_RGFW_init) return 0; + _RGFW_init = RGFW_TRUE; + _RGFW.root = NULL; _RGFW.current = NULL; _RGFW.windowCount = -2; _RGFW.eventLen = 0; _RGFW.eventIndex = 0; +#endif + + _RGFW.windowCount = 0; + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context initialized"); + return 0; +} + +RGFW_window* RGFW_createWindowPtr(const char* name, RGFW_rect rect, RGFW_windowFlags flags, RGFW_window* win) { + RGFW_window_basic_init(win, rect, flags); + RGFW_window_initOpenGL(win); + + #if defined(RGFW_WEBGPU) + win->src.ctx = wgpuCreateInstance(NULL); + win->src.device = emscripten_webgpu_get_device(); + win->src.queue = wgpuDeviceGetQueue(win->src.device); + #endif + + emscripten_set_canvas_element_size("#canvas", rect.w, rect.h); + emscripten_set_window_title(name); + + /* load callbacks */ + emscripten_set_resize_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_resize); + emscripten_set_fullscreenchange_callback(EMSCRIPTEN_EVENT_TARGET_DOCUMENT, NULL, EM_FALSE, Emscripten_on_fullscreenchange); + emscripten_set_mousemove_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mousemove); + emscripten_set_touchstart_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchstart); + emscripten_set_touchend_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchend); + emscripten_set_touchmove_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchmove); + emscripten_set_touchcancel_callback("#canvas", NULL, EM_FALSE, Emscripten_on_touchcancel); + emscripten_set_mousedown_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mousedown); + emscripten_set_mouseup_callback("#canvas", NULL, EM_FALSE, Emscripten_on_mouseup); + emscripten_set_wheel_callback("#canvas", NULL, EM_FALSE, Emscripten_on_wheel); + emscripten_set_focusin_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_focusin); + emscripten_set_focusout_callback(EMSCRIPTEN_EVENT_TARGET_WINDOW, NULL, EM_FALSE, Emscripten_on_focusout); + emscripten_set_gamepadconnected_callback(NULL, 1, Emscripten_on_gamepad); + emscripten_set_gamepaddisconnected_callback(NULL, 1, Emscripten_on_gamepad); + + if (flags & RGFW_windowAllowDND) { + win->_flags |= RGFW_windowAllowDND; + } + + EM_ASM({ + window.addEventListener("keydown", + (event) => { + var key = stringToNewUTF8(event.key); var code = stringToNewUTF8(event.code); + Module._RGFW_handleKeyMods(event.getModifierState("CapsLock"), event.getModifierState("NumLock"), event.getModifierState("Control"), event.getModifierState("Alt"), event.getModifierState("Shift"), event.getModifierState("Meta"), event.getModifierState("ScrollLock")); + Module._RGFW_handleKeyEvent(key, code, 1); + _free(key); _free(code); + }, + true); + window.addEventListener("keyup", + (event) => { + var key = stringToNewUTF8(event.key); var code = stringToNewUTF8(event.code); + Module._RGFW_handleKeyMods(event.getModifierState("CapsLock"), event.getModifierState("NumLock"), event.getModifierState("Control"), event.getModifierState("Alt"), event.getModifierState("Shift"), event.getModifierState("Meta"), event.getModifierState("ScrollLock")); + Module._RGFW_handleKeyEvent(key, code, 0); + _free(key); _free(code); + }, + true); + }); + + EM_ASM({ + var canvas = document.getElementById('canvas'); + canvas.addEventListener('drop', function(e) { + e.preventDefault(); + if (e.dataTransfer.file < 0) + return; + + var filenamesArray = []; + var count = e.dataTransfer.files.length; + + /* Read and save the files to emscripten's files */ + var drop_dir = '.rgfw_dropped_files'; + Module._RGFW_mkdir(drop_dir); + + for (var i = 0; i < count; i++) { + var file = e.dataTransfer.files[i]; + + var path = '/' + drop_dir + '/' + file.name.replace("//", '_'); + var reader = new FileReader(); + + reader.onloadend = (e) => { + if (reader.readyState != 2) { + out('failed to read dropped file: '+file.name+': '+reader.error); + } + else { + var data = e.target.result; + + _RGFW_writeFile(path, new Uint8Array(data), file.size); + } + }; + + reader.readAsArrayBuffer(file); + /* This works weird on modern opengl */ + var filename = stringToNewUTF8(path); + + filenamesArray.push(filename); + + Module._RGFW_makeSetValue(i, filename); + } + + Module._Emscripten_onDrop(count); + + for (var i = 0; i < count; ++i) { + _free(filenamesArray[i]); + } + }, true); + + canvas.addEventListener('dragover', function(e) { e.preventDefault(); return false; }, true); + }); + + RGFW_window_setFlags(win, flags); + + if ((flags & RGFW_windowNoInitAPI) == 0) { + RGFW_window_initBuffer(win); + } + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a new window was created"); + return win; +} + +u8 RGFW_rgfwToKeyChar(u32 rgfw_keycode) { + return (u8)rgfw_keycode; /* TODO */ +} + +RGFW_event* RGFW_window_checkEvent(RGFW_window* win) { + if (win == NULL || ((win->_flags & RGFW_windowFreeOnClose) && (win->_flags & RGFW_EVENT_QUIT))) return NULL; + RGFW_event* ev = RGFW_window_checkEventCore(win); + if (ev) return ev; + + emscripten_sample_gamepad_data(); + /* check gamepads */ + int i; + for (i = 0; (i < emscripten_get_num_gamepads()) && (i < 4); i++) { + if (RGFW_gamepads[i] == 0) + continue; + EmscriptenGamepadEvent gamepadState; + + if (emscripten_get_gamepad_status(i, &gamepadState) != EMSCRIPTEN_RESULT_SUCCESS) + break; + + /* Register buttons data for every connected gamepad */ + int j; + for (j = 0; (j < gamepadState.numButtons) && (j < 16); j++) { + u32 map[] = { + RGFW_gamepadA, RGFW_gamepadB, RGFW_gamepadX, RGFW_gamepadY, + RGFW_gamepadL1, RGFW_gamepadR1, RGFW_gamepadL2, RGFW_gamepadR2, + RGFW_gamepadSelect, RGFW_gamepadStart, + RGFW_gamepadL3, RGFW_gamepadR3, + RGFW_gamepadUp, RGFW_gamepadDown, RGFW_gamepadLeft, RGFW_gamepadRight, RGFW_gamepadHome + }; + + + u32 button = map[j]; + if (button == 404) + continue; + + if (RGFW_gamepadPressed[i][button].current != gamepadState.digitalButton[j]) { + if (gamepadState.digitalButton[j]) + win->event.type = RGFW_gamepadButtonPressed; + else + win->event.type = RGFW_gamepadButtonReleased; + + win->event.gamepad = i; + win->event.button = map[j]; + + RGFW_gamepadPressed[i][button].prev = RGFW_gamepadPressed[i][button].current; + RGFW_gamepadPressed[i][button].current = gamepadState.digitalButton[j]; + + RGFW_gamepadButtonCallback(win, win->event.gamepad, win->event.button, gamepadState.digitalButton[j]); + return &win->event; + } + } + + for (j = 0; (j < gamepadState.numAxes) && (j < 4); j += 2) { + win->event.axisesCount = gamepadState.numAxes / 2; + if (RGFW_gamepadAxes[i][(size_t)(j / 2)].x != (i8)(gamepadState.axis[j] * 100.0f) || + RGFW_gamepadAxes[i][(size_t)(j / 2)].y != (i8)(gamepadState.axis[j + 1] * 100.0f) + ) { + + RGFW_gamepadAxes[i][(size_t)(j / 2)].x = (i8)(gamepadState.axis[j] * 100.0f); + RGFW_gamepadAxes[i][(size_t)(j / 2)].y = (i8)(gamepadState.axis[j + 1] * 100.0f); + win->event.axis[(size_t)(j / 2)] = RGFW_gamepadAxes[i][(size_t)(j / 2)]; + + win->event.type = RGFW_gamepadAxisMove; + win->event.gamepad = i; + win->event.whichAxis = j / 2; + + RGFW_gamepadAxisCallback(win, win->event.gamepad, win->event.axis, win->event.axisesCount, win->event.whichAxis); + return &win->event; + } + } + } + + return NULL; +} + +void RGFW_window_resize(RGFW_window* win, RGFW_area a) { + RGFW_UNUSED(win); + emscripten_set_canvas_element_size("#canvas", a.w, a.h); +} + +/* NOTE: I don't know if this is possible */ +void RGFW_window_moveMouse(RGFW_window* win, RGFW_point v) { RGFW_UNUSED(win); RGFW_UNUSED(v); } +/* this one might be possible but it looks iffy */ +RGFW_mouse* RGFW_loadMouse(u8* icon, RGFW_area a, i32 channels) { RGFW_UNUSED(channels); RGFW_UNUSED(a); RGFW_UNUSED(icon); return NULL; } + +void RGFW_window_setMouse(RGFW_window* win, RGFW_mouse* mouse) { RGFW_UNUSED(win); RGFW_UNUSED(mouse); } +void RGFW_freeMouse(RGFW_mouse* mouse) { RGFW_UNUSED(mouse); } + +RGFW_bool RGFW_window_setMouseStandard(RGFW_window* win, u8 mouse) { + static const char cursors[16][16] = { + "default", "default", "text", "crosshair", + "pointer", "ew-resize", "ns-resize", "nwse-resize", "nesw-resize", + "move", "not-allowed" + }; + + RGFW_UNUSED(win); + EM_ASM( { document.getElementById("canvas").style.cursor = UTF8ToString($0); }, cursors[mouse]); + return RGFW_TRUE; +} + +RGFW_bool RGFW_window_setMouseDefault(RGFW_window* win) { + return RGFW_window_setMouseStandard(win, RGFW_mouseNormal); +} + +void RGFW_window_showMouse(RGFW_window* win, RGFW_bool show) { + RGFW_window_showMouseFlags(win, show); + if (show) + RGFW_window_setMouseDefault(win); + else + EM_ASM(document.getElementById('canvas').style.cursor = 'none';); +} + +RGFW_point RGFW_getGlobalMousePoint(void) { + RGFW_point point; + point.x = EM_ASM_INT({ + return window.mouseX || 0; + }); + point.y = EM_ASM_INT({ + return window.mouseY || 0; + }); + return point; +} + +void RGFW_window_setMousePassthrough(RGFW_window* win, RGFW_bool passthrough) { + RGFW_UNUSED(win); + + EM_ASM_({ + var canvas = document.getElementById('canvas'); + if ($0) { + canvas.style.pointerEvents = 'none'; + } else { + canvas.style.pointerEvents = 'auto'; + } + }, passthrough); +} + +void RGFW_writeClipboard(const char* text, u32 textLen) { + RGFW_UNUSED(textLen); + EM_ASM({ navigator.clipboard.writeText(UTF8ToString($0)); }, text); +} + + +RGFW_ssize_t RGFW_readClipboardPtr(char* str, size_t strCapacity) { + RGFW_UNUSED(str); RGFW_UNUSED(strCapacity); + /* + placeholder code for later + I'm not sure if this is possible do the the async stuff + */ + return 0; +} + +void RGFW_window_swapBuffers_software(RGFW_window* win) { +#if defined(RGFW_OSMESA) + EM_ASM_({ + var data = Module.HEAPU8.slice($0, $0 + $1 * $2 * 4); + let context = document.getElementById("canvas").getContext("2d"); + let image = context.getImageData(0, 0, $1, $2); + image.data.set(data); + context.putImageData(image, 0, $4 - $2); + }, win->buffer, win->bufferSize.w, win->bufferSize.h, win->r.w, win->r.h); +#elif defined(RGFW_BUFFER) + EM_ASM_({ + var data = Module.HEAPU8.slice($0, $0 + $1 * $2 * 4); + let context = document.getElementById("canvas").getContext("2d"); + let image = context.getImageData(0, 0, $1, $2); + image.data.set(data); + context.putImageData(image, 0, 0); + }, win->buffer, win->bufferSize.w, win->bufferSize.h, win->r.w, win->r.h); + emscripten_sleep(0); +#else + RGFW_UNUSED(win); +#endif +} + +void RGFW_window_makeCurrent_OpenGL(RGFW_window* win) { +#if !defined(RGFW_WEBGPU) && !(defined(RGFW_OSMESA) || defined(RGFW_BUFFER)) + if (win == NULL) + emscripten_webgl_make_context_current(0); + else + emscripten_webgl_make_context_current(win->src.ctx); +#endif +} + + +void RGFW_window_swapBuffers_OpenGL(RGFW_window* win) { +#ifndef RGFW_WEBGPU + emscripten_webgl_commit_frame(); + +#endif + emscripten_sleep(0); +} + +#ifndef RGFW_WEBGPU +void* RGFW_getCurrent_OpenGL(void) { return (void*)emscripten_webgl_get_current_context(); } +#endif + +#ifndef RGFW_EGL +void RGFW_window_swapInterval(RGFW_window* win, i32 swapInterval) { RGFW_UNUSED(win); RGFW_UNUSED(swapInterval); } +#endif + +void RGFW_deinit(void) { _RGFW.windowCount = -1; RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoGlobal, RGFW_DEBUG_CTX(NULL, 0), "global context deinitialized"); } + +void RGFW_window_close(RGFW_window* win) { + if ((win->_flags & RGFW_windowNoInitAPI) == 0) RGFW_window_freeOpenGL(win); + + #if defined(RGFW_OSMESA) || defined(RGFW_BUFFER) + if ((win->_flags & RGFW_BUFFER_ALLOC)) + RGFW_FREE(win->buffer); + #endif + + RGFW_sendDebugInfo(RGFW_typeInfo, RGFW_infoWindow, RGFW_DEBUG_CTX(win, 0), "a window was freed"); + _RGFW.windowCount--; + if (_RGFW.windowCount == 0) RGFW_deinit(); + + RGFW_clipboard_switch(NULL); + RGFW_FREE(win->event.droppedFiles); + if ((win->_flags & RGFW_WINDOW_ALLOC)) { + RGFW_FREE(win); + win = NULL; + } +} + +int RGFW_innerWidth(void) { return EM_ASM_INT({ return window.innerWidth; }); } +int RGFW_innerHeight(void) { return EM_ASM_INT({ return window.innerHeight; }); } + +RGFW_area RGFW_getScreenSize(void) { + return RGFW_AREA(RGFW_innerWidth(), RGFW_innerHeight()); +} + +RGFW_bool RGFW_extensionSupportedPlatform(const char* extension, size_t len) { +#ifdef RGFW_OPENGL + return EM_ASM_INT({ + var ext = UTF8ToString($0, $1); + var canvas = document.querySelector('canvas'); + var gl = canvas.getContext('webgl') || canvas.getContext('experimental-webgl'); + if (!gl) return 0; + + var supported = gl.getSupportedExtensions(); + return supported && supported.includes(ext) ? 1 : 0; + }, extension, len); +#else + return RGFW_FALSE; +#endif +} + +RGFW_proc RGFW_getProcAddress(const char* procname) { +#ifdef RGFW_OPENGL + return (RGFW_proc)emscripten_webgl_get_proc_address(procname); +#else + return NULL +#endif +} + +void RGFW_sleep(u64 milisecond) { + emscripten_sleep(milisecond); +} + +u64 RGFW_getTimerFreq(void) { return (u64)1000; } +u64 RGFW_getTimerValue(void) { return emscripten_get_now() * 1e+6; } + +void RGFW_releaseCursor(RGFW_window* win) { + RGFW_UNUSED(win); + emscripten_exit_pointerlock(); +} + +void RGFW_captureCursor(RGFW_window* win, RGFW_rect r) { + RGFW_UNUSED(win); RGFW_UNUSED(r); + + emscripten_request_pointerlock("#canvas", 1); +} + + +void RGFW_window_setName(RGFW_window* win, const char* name) { + RGFW_UNUSED(win); + emscripten_set_window_title(name); +} + +void RGFW_window_maximize(RGFW_window* win) { + RGFW_ASSERT(win != NULL); + + RGFW_area screen = RGFW_getScreenSize(); + RGFW_window_move(win, RGFW_POINT(0, 0)); + RGFW_window_resize(win, screen); +} + +void RGFW_window_setFullscreen(RGFW_window* win, RGFW_bool fullscreen) { + RGFW_ASSERT(win != NULL); + if (fullscreen) { + win->_flags |= RGFW_windowFullscreen; + EM_ASM( Module.requestFullscreen(false, true); ); + return; + } + win->_flags &= ~(u32)RGFW_windowFullscreen; + EM_ASM( Module.exitFullscreen(false, true); ); +} + +void RGFW_window_setOpacity(RGFW_window* win, u8 opacity) { + RGFW_UNUSED(win); + EM_ASM({ + var element = document.getElementById("canvas"); + if (element) + element.style.opacity = $1; + }, "elementId", opacity); +} + +/* unsupported functions */ +void RGFW_window_focus(RGFW_window* win) { RGFW_UNUSED(win); } +void RGFW_window_raise(RGFW_window* win) { RGFW_UNUSED(win); } +RGFW_bool RGFW_monitor_requestMode(RGFW_monitor mon, RGFW_monitorMode mode, RGFW_modeRequest request) { RGFW_UNUSED(mon); RGFW_UNUSED(mode); RGFW_UNUSED(request); return RGFW_FALSE; } +RGFW_monitor* RGFW_getMonitors(size_t* len) { RGFW_UNUSED(len); return NULL; } +RGFW_monitor RGFW_getPrimaryMonitor(void) { return (RGFW_monitor){}; } +void RGFW_window_move(RGFW_window* win, RGFW_point v) { RGFW_UNUSED(win); RGFW_UNUSED(v); } +void RGFW_window_setAspectRatio(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } +void RGFW_window_setMinSize(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } +void RGFW_window_setMaxSize(RGFW_window* win, RGFW_area a) { RGFW_UNUSED(win); RGFW_UNUSED(a); } +void RGFW_window_minimize(RGFW_window* win) { RGFW_UNUSED(win); } +void RGFW_window_restore(RGFW_window* win) { RGFW_UNUSED(win); } +void RGFW_window_setFloating(RGFW_window* win, RGFW_bool floating) { RGFW_UNUSED(win); RGFW_UNUSED(floating); } +void RGFW_window_setBorder(RGFW_window* win, RGFW_bool border) { RGFW_UNUSED(win); RGFW_UNUSED(border); } +RGFW_bool RGFW_window_setIconEx(RGFW_window* win, u8* icon, RGFW_area a, i32 channels, u8 type) { RGFW_UNUSED(win); RGFW_UNUSED(icon); RGFW_UNUSED(a); RGFW_UNUSED(channels); RGFW_UNUSED(type); return RGFW_FALSE; } +void RGFW_window_hide(RGFW_window* win) { RGFW_UNUSED(win); } +void RGFW_window_show(RGFW_window* win) {RGFW_UNUSED(win); } +RGFW_bool RGFW_window_isHidden(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } +RGFW_bool RGFW_window_isMinimized(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } +RGFW_bool RGFW_window_isMaximized(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } +RGFW_bool RGFW_window_isFloating(RGFW_window* win) { RGFW_UNUSED(win); return RGFW_FALSE; } +RGFW_monitor RGFW_window_getMonitor(RGFW_window* win) { RGFW_UNUSED(win); return (RGFW_monitor){}; } +#endif + +/* end of web asm defines */ + +/* unix (macOS, linux, web asm) only stuff */ +#if defined(RGFW_X11) || defined(RGFW_MACOS) || defined(RGFW_WASM) || defined(RGFW_WAYLAND) +#ifndef RGFW_NO_THREADS +#include + +RGFW_thread RGFW_createThread(RGFW_threadFunc_ptr ptr, void* args) { + RGFW_thread t; + pthread_create((pthread_t*) &t, NULL, *ptr, args); + return t; +} +void RGFW_cancelThread(RGFW_thread thread) { pthread_cancel((pthread_t) thread); } +void RGFW_joinThread(RGFW_thread thread) { pthread_join((pthread_t) thread, NULL); } + +#if defined(__linux__) +void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { pthread_setschedprio((pthread_t)thread, priority); } +#else +void RGFW_setThreadPriority(RGFW_thread thread, u8 priority) { RGFW_UNUSED(thread); RGFW_UNUSED(priority); } +#endif +#endif + +#ifndef RGFW_WASM +void RGFW_sleep(u64 ms) { + struct timespec time; + time.tv_sec = 0; + time.tv_nsec = (long int)((double)ms * 1e+6); + + #ifndef RGFW_NO_UNIX_CLOCK + nanosleep(&time, NULL); + #endif +} +#endif + +#endif /* end of unix / mac stuff */ +#endif /* RGFW_IMPLEMENTATION */ + +#if defined(__cplusplus) && !defined(__EMSCRIPTEN__) +} +#endif + +#if _MSC_VER + #pragma warning( pop ) +#endif diff --git a/src/external/jar_xm.h b/src/external/jar_xm.h index b5e80e48a..174c1704c 100644 --- a/src/external/jar_xm.h +++ b/src/external/jar_xm.h @@ -232,6 +232,13 @@ uint64_t jar_xm_get_remaining_samples(jar_xm_context_t* ctx); #include #include +#ifdef DEBUG + // Undefine DEBUG to avoid external redefinition warnings/conflicts + // This is probably a common definition for + // many external build systems' debug configurations + #undef DEBUG +#endif + #if JAR_XM_DEBUG //JAR_XM_DEBUG defined as 0 #include #define DEBUG(fmt, ...) do { \ diff --git a/src/external/miniaudio.h b/src/external/miniaudio.h index ad113337e..c74bebeb3 100644 --- a/src/external/miniaudio.h +++ b/src/external/miniaudio.h @@ -1,6 +1,6 @@ /* Audio playback and capture library. Choice of public domain or MIT-0. See license statements at the end of this file. -miniaudio - v0.11.21 - 2023-11-15 +miniaudio - v0.11.22 - 2025-02-24 David Reid - mackron@gmail.com @@ -12,15 +12,18 @@ GitHub: https://github.com/mackron/miniaudio /* 1. Introduction =============== -miniaudio is a single file library for audio playback and capture. To use it, do the following in -one .c file: +To use miniaudio, include "miniaudio.h": ```c - #define MINIAUDIO_IMPLEMENTATION #include "miniaudio.h" ``` -You can do `#include "miniaudio.h"` in other parts of the program just like any other header. +The implementation is contained in "miniaudio.c". Just compile this like any other source file. You +can include miniaudio.c if you want to compile your project as a single translation unit: + + ```c + #include "miniaudio.c" + ``` miniaudio includes both low level and high level APIs. The low level API is good for those who want to do all of their mixing themselves and only require a light weight interface to the underlying @@ -293,7 +296,7 @@ avoids the same sound being loaded multiple times. The node graph is used for mixing and effect processing. The idea is that you connect a number of nodes into the graph by connecting each node's outputs to another node's inputs. Each node can -implement it's own effect. By chaining nodes together, advanced mixing and effect processing can +implement its own effect. By chaining nodes together, advanced mixing and effect processing can be achieved. The engine encapsulates both the resource manager and the node graph to create a simple, easy to @@ -398,7 +401,7 @@ the be started and/or stopped at a specific time. This can be done with the foll ``` The start/stop time needs to be specified based on the absolute timer which is controlled by the -engine. The current global time time in PCM frames can be retrieved with +engine. The current global time in PCM frames can be retrieved with `ma_engine_get_time_in_pcm_frames()`. The engine's global time can be changed with `ma_engine_set_time_in_pcm_frames()` for synchronization purposes if required. Note that scheduling a start time still requires an explicit call to `ma_sound_start()` before anything will play: @@ -430,11 +433,11 @@ Sounds and sound groups are nodes in the engine's node graph and can be plugged API. This makes it possible to connect sounds and sound groups to effect nodes to produce complex effect chains. -A sound can have it's volume changed with `ma_sound_set_volume()`. If you prefer decibel volume +A sound can have its volume changed with `ma_sound_set_volume()`. If you prefer decibel volume control you can use `ma_volume_db_to_linear()` to convert from decibel representation to linear. Panning and pitching is supported with `ma_sound_set_pan()` and `ma_sound_set_pitch()`. If you know -a sound will never have it's pitch changed with `ma_sound_set_pitch()` or via the doppler effect, +a sound will never have its pitch changed with `ma_sound_set_pitch()` or via the doppler effect, you can specify the `MA_SOUND_FLAG_NO_PITCH` flag when initializing the sound for an optimization. By default, sounds and sound groups have spatialization enabled. If you don't ever want to @@ -483,21 +486,12 @@ link the relevant frameworks but should compile cleanly out of the box with Xcod through the command line requires linking to `-lpthread` and `-lm`. Due to the way miniaudio links to frameworks at runtime, your application may not pass Apple's -notarization process. To fix this there are two options. The first is to use the -`MA_NO_RUNTIME_LINKING` option, like so: - - ```c - #ifdef __APPLE__ - #define MA_NO_RUNTIME_LINKING - #endif - #define MINIAUDIO_IMPLEMENTATION - #include "miniaudio.h" - ``` - -This will require linking with `-framework CoreFoundation -framework CoreAudio -framework AudioToolbox`. -If you get errors about AudioToolbox, try with `-framework AudioUnit` instead. You may get this when -using older versions of iOS. Alternatively, if you would rather keep using runtime linking you can -add the following to your entitlements.xcent file: +notarization process. To fix this there are two options. The first is to compile with +`-DMA_NO_RUNTIME_LINKING` which in turn will require linking with +`-framework CoreFoundation -framework CoreAudio -framework AudioToolbox`. If you get errors about +AudioToolbox, try with `-framework AudioUnit` instead. You may get this when using older versions +of iOS. Alternatively, if you would rather keep using runtime linking you can add the following to +your entitlements.xcent file: ``` com.apple.security.cs.allow-dyld-environment-variables @@ -555,7 +549,7 @@ To run locally, you'll need to use emrun: 2.7. Build Options ------------------ -`#define` these options before including miniaudio.h. +`#define` these options before including miniaudio.c, or pass them as compiler flags: +----------------------------------+--------------------------------------------------------------------+ | Option | Description | @@ -586,6 +580,8 @@ To run locally, you'll need to use emrun: +----------------------------------+--------------------------------------------------------------------+ | MA_NO_WEBAUDIO | Disables the Web Audio backend. | +----------------------------------+--------------------------------------------------------------------+ + | MA_NO_CUSTOM | Disables support for custom backends. | + +----------------------------------+--------------------------------------------------------------------+ | MA_NO_NULL | Disables the null backend. | +----------------------------------+--------------------------------------------------------------------+ | MA_ENABLE_ONLY_SPECIFIC_BACKENDS | Disables all backends by default and requires `MA_ENABLE_*` to | @@ -630,6 +626,9 @@ To run locally, you'll need to use emrun: | MA_ENABLE_WEBAUDIO | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | | | enable the Web Audio backend. | +----------------------------------+--------------------------------------------------------------------+ + | MA_ENABLE_CUSTOM | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | + | | enable custom backends. | + +----------------------------------+--------------------------------------------------------------------+ | MA_ENABLE_NULL | Used in conjunction with MA_ENABLE_ONLY_SPECIFIC_BACKENDS to | | | enable the null backend. | +----------------------------------+--------------------------------------------------------------------+ @@ -693,11 +692,30 @@ To run locally, you'll need to use emrun: | | You may need to enable this if your target platform does not allow | | | runtime linking via `dlopen()`. | +----------------------------------+--------------------------------------------------------------------+ + | MA_USE_STDINT | (Pass this in as a compiler flag. Do not `#define` this before | + | | miniaudio.c) Forces the use of stdint.h for sized types. | + +----------------------------------+--------------------------------------------------------------------+ | MA_DEBUG_OUTPUT | Enable `printf()` output of debug logs (`MA_LOG_LEVEL_DEBUG`). | +----------------------------------+--------------------------------------------------------------------+ | MA_COINIT_VALUE | Windows only. The value to pass to internal calls to | | | `CoInitializeEx()`. Defaults to `COINIT_MULTITHREADED`. | +----------------------------------+--------------------------------------------------------------------+ + | MA_FORCE_UWP | Windows only. Affects only the WASAPI backend. Will force the | + | | WASAPI backend to use the UWP code path instead of the regular | + | | desktop path. This is normally auto-detected and should rarely be | + | | needed to be used explicitly, but can be useful for debugging. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ON_THREAD_ENTRY | Defines some code that will be executed as soon as an internal | + | | miniaudio-managed thread is created. This will be the first thing | + | | to be executed by the thread entry point. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_ON_THREAD_EXIT | Defines some code that will be executed from the entry point of an | + | | internal miniaudio-managed thread upon exit. This will be the last | + | | thing to be executed before the thread's entry point exits. | + +----------------------------------+--------------------------------------------------------------------+ + | MA_THREAD_DEFAULT_STACK_SIZE | If set, specifies the default stack size used by miniaudio-managed | + | | threads. | + +----------------------------------+--------------------------------------------------------------------+ | MA_API | Controls how public APIs should be decorated. Default is `extern`. | +----------------------------------+--------------------------------------------------------------------+ @@ -1309,7 +1327,7 @@ only works for sounds that were initialized with `ma_sound_init_from_file()` and When you initialize a sound, if you specify a sound group the sound will be attached to that group automatically. If you set it to NULL, it will be automatically attached to the engine's endpoint. -If you would instead rather leave the sound unattached by default, you can can specify the +If you would instead rather leave the sound unattached by default, you can specify the `MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT` flag. This is useful if you want to set up a complex node graph. @@ -1686,6 +1704,7 @@ combination of the following flags: MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING ``` When no flags are specified (set to 0), the sound will be fully loaded into memory, but not @@ -1706,6 +1725,14 @@ can instead stream audio data which you can do by specifying the second pages. When a new page needs to be decoded, a job will be posted to the job queue and then subsequently processed in a job thread. +The `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING` flag can be used so that the sound will loop +when it reaches the end by default. It's recommended you use this flag when you want to have a +looping streaming sound. If you try loading a very short sound as a stream, you will get a glitch. +This is because the resource manager needs to pre-fill the initial buffer at initialization time, +and if you don't specify the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING` flag, the resource +manager will assume the sound is not looping and will stop filling the buffer when it reaches the +end, therefore resulting in a discontinuous buffer. + For in-memory sounds, reference counting is used to ensure the data is loaded only once. This means multiple calls to `ma_resource_manager_data_source_init()` with the same file path will result in the file data only being loaded once. Each call to `ma_resource_manager_data_source_init()` must be @@ -1720,7 +1747,7 @@ actual file paths. When `ma_resource_manager_data_source_init()` is called (with `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` flag), the resource manager will look for these explicitly registered data buffers and, if found, will use it as the backing data for the data source. Note that the resource manager does *not* make a copy of this data so it is up to the -caller to ensure the pointer stays valid for it's lifetime. Use +caller to ensure the pointer stays valid for its lifetime. Use `ma_resource_manager_unregister_data()` to unregister the self-managed data. You can also use `ma_resource_manager_register_file()` and `ma_resource_manager_unregister_file()` to register and unregister a file. It does not make sense to use the `MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_STREAM` @@ -2031,7 +2058,7 @@ In the above graph, it starts with two data sources whose outputs are attached t splitter node. It's at this point that the two data sources are mixed. After mixing, the splitter performs it's processing routine and produces two outputs which is simply a duplication of the input stream. One output is attached to a low pass filter, whereas the other output is attached to -a echo/delay. The outputs of the the low pass filter and the echo are attached to the endpoint, and +a echo/delay. The outputs of the low pass filter and the echo are attached to the endpoint, and since they're both connected to the same input bus, they'll be mixed. Each input bus must be configured to accept the same number of channels, but the number of channels @@ -2072,7 +2099,7 @@ data from the graph: ``` When you read audio data, miniaudio starts at the node graph's endpoint node which then pulls in -data from it's input attachments, which in turn recursively pull in data from their inputs, and so +data from its input attachments, which in turn recursively pull in data from their inputs, and so on. At the start of the graph there will be some kind of data source node which will have zero inputs and will instead read directly from a data source. The base nodes don't literally need to read from a `ma_data_source` object, but they will always have some kind of underlying object that @@ -2318,7 +2345,7 @@ You can start and stop a node with the following: By default the node is in a started state, but since it won't be connected to anything won't actually be invoked by the node graph until it's connected. When you stop a node, data will not be -read from any of it's input connections. You can use this property to stop a group of sounds +read from any of its input connections. You can use this property to stop a group of sounds atomically. You can configure the initial state of a node in it's config: @@ -2411,29 +2438,29 @@ audio thread is finished so that control is not handed back to the caller thereb chance to free the node's memory. When the audio thread is processing a node, it does so by reading from each of the output buses of -the node. In order for a node to process data for one of it's output buses, it needs to read from -each of it's input buses, and so on an so forth. It follows that once all output buses of a node +the node. In order for a node to process data for one of its output buses, it needs to read from +each of its input buses, and so on an so forth. It follows that once all output buses of a node are detached, the node as a whole will be disconnected and no further processing will occur unless it's output buses are reattached, which won't be happening when the node is being uninitialized. By having `ma_node_detach_output_bus()` wait until the audio thread is finished with it, we can simplify a few things, at the expense of making `ma_node_detach_output_bus()` a bit slower. By doing this, the implementation of `ma_node_uninit()` becomes trivial - just detach all output -nodes, followed by each of the attachments to each of it's input nodes, and then do any final clean +nodes, followed by each of the attachments to each of its input nodes, and then do any final clean up. With the above design, the worst-case scenario is `ma_node_detach_output_bus()` taking as long as it takes to process the output bus being detached. This will happen if it's called at just the wrong moment where the audio thread has just iterated it and has just started processing. The caller of `ma_node_detach_output_bus()` will stall until the audio thread is finished, which -includes the cost of recursively processing it's inputs. This is the biggest compromise made with -the approach taken by miniaudio for it's lock-free processing system. The cost of detaching nodes +includes the cost of recursively processing its inputs. This is the biggest compromise made with +the approach taken by miniaudio for its lock-free processing system. The cost of detaching nodes earlier in the pipeline (data sources, for example) will be cheaper than the cost of detaching higher level nodes, such as some kind of final post-processing endpoint. If you need to do mass detachments, detach starting from the lowest level nodes and work your way towards the final endpoint node (but don't try detaching the node graph's endpoint). If the audio thread is not running, detachment will be fast and detachment in any order will be the same. The reason nodes need to wait for their input attachments to complete is due to the potential for desyncs between -data sources. If the node was to terminate processing mid way through processing it's inputs, +data sources. If the node was to terminate processing mid way through processing its inputs, there's a chance that some of the underlying data sources will have been read, but then others not. That will then result in a potential desynchronization when detaching and reattaching higher-level nodes. A possible solution to this is to have an option when detaching to terminate processing @@ -2804,7 +2831,7 @@ weights. Custom weights can be passed in as the last parameter of `ma_channel_converter_config_init()`. Predefined channel maps can be retrieved with `ma_channel_map_init_standard()`. This takes a -`ma_standard_channel_map` enum as it's first parameter, which can be one of the following: +`ma_standard_channel_map` enum as its first parameter, which can be one of the following: +-----------------------------------+-----------------------------------------------------------+ | Name | Description | @@ -2890,7 +2917,7 @@ like the following: ma_resample_algorithm_linear); ma_resampler resampler; - ma_result result = ma_resampler_init(&config, &resampler); + ma_result result = ma_resampler_init(&config, NULL, &resampler); if (result != MA_SUCCESS) { // An error occurred... } @@ -3132,7 +3159,7 @@ Biquad filtering is achieved with the `ma_biquad` API. Example: ```c ma_biquad_config config = ma_biquad_config_init(ma_format_f32, channels, b0, b1, b2, a0, a1, a2); - ma_result result = ma_biquad_init(&config, &biquad); + ma_result result = ma_biquad_init(&config, NULL, &biquad); if (result != MA_SUCCESS) { // Error. } @@ -3723,7 +3750,7 @@ extern "C" { #define MA_VERSION_MAJOR 0 #define MA_VERSION_MINOR 11 -#define MA_VERSION_REVISION 21 +#define MA_VERSION_REVISION 22 #define MA_VERSION_STRING MA_XSTRINGIFY(MA_VERSION_MAJOR) "." MA_XSTRINGIFY(MA_VERSION_MINOR) "." MA_XSTRINGIFY(MA_VERSION_REVISION) #if defined(_MSC_VER) && !defined(__clang__) @@ -3740,8 +3767,7 @@ extern "C" { #endif - -#if defined(__LP64__) || defined(_WIN64) || (defined(__x86_64__) && !defined(__ILP32__)) || defined(_M_X64) || defined(__ia64) || defined(_M_IA64) || defined(__aarch64__) || defined(_M_ARM64) || defined(__powerpc64__) +#if defined(__LP64__) || defined(_WIN64) || (defined(__x86_64__) && !defined(__ILP32__)) || defined(_M_X64) || defined(__ia64) || defined(_M_IA64) || defined(__aarch64__) || defined(_M_ARM64) || defined(__powerpc64__) || defined(__ppc64__) #define MA_SIZEOF_PTR 8 #else #define MA_SIZEOF_PTR 4 @@ -3805,7 +3831,7 @@ typedef void* ma_handle; typedef void* ma_ptr; /* -ma_proc is annoying because when compiling with GCC we get pendantic warnings about converting +ma_proc is annoying because when compiling with GCC we get pedantic warnings about converting between `void*` and `void (*)()`. We can't use `void (*)()` with MSVC however, because we'll get warning C4191 about "type cast between incompatible function types". To work around this I'm going to use a different data type depending on the compiler. @@ -3999,7 +4025,7 @@ Special wchar_t type to ensure any structures in the public sections that refere consistent size across all platforms. On Windows, wchar_t is 2 bytes, whereas everywhere else it's 4 bytes. Since Windows likes to use -wchar_t for it's IDs, we need a special explicitly sized wchar type that is always 2 bytes on all +wchar_t for its IDs, we need a special explicitly sized wchar type that is always 2 bytes on all platforms. */ #if !defined(MA_POSIX) && defined(MA_WIN32) @@ -4025,7 +4051,7 @@ MA_LOG_LEVEL_INFO callback. MA_LOG_LEVEL_WARNING - Warnings. You should enable this in you development builds and action them when encounted. These + Warnings. You should enable this in you development builds and action them when encountered. These logs usually indicate a potential problem or misconfiguration, but still allow you to keep running. This will never be called from within the data callback. @@ -5457,7 +5483,7 @@ input frames. MA_API ma_result ma_resampler_get_expected_output_frame_count(const ma_resampler* pResampler, ma_uint64 inputFrameCount, ma_uint64* pOutputFrameCount); /* -Resets the resampler's timer and clears it's internal cache. +Resets the resampler's timer and clears its internal cache. */ MA_API ma_result ma_resampler_reset(ma_resampler* pResampler); @@ -5678,7 +5704,7 @@ MA_API void ma_channel_map_init_standard(ma_standard_channel_map standardChannel /* Copies a channel map. -Both input and output channel map buffers must have a capacity of at at least `channels`. +Both input and output channel map buffers must have a capacity of at least `channels`. */ MA_API void ma_channel_map_copy(ma_channel* pOut, const ma_channel* pIn, ma_uint32 channels); @@ -5817,6 +5843,8 @@ MA_API void ma_data_source_uninit(ma_data_source* pDataSource); MA_API ma_result ma_data_source_read_pcm_frames(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); /* Must support pFramesOut = NULL in which case a forward seek should be performed. */ MA_API ma_result ma_data_source_seek_pcm_frames(ma_data_source* pDataSource, ma_uint64 frameCount, ma_uint64* pFramesSeeked); /* Can only seek forward. Equivalent to ma_data_source_read_pcm_frames(pDataSource, NULL, frameCount, &framesRead); */ MA_API ma_result ma_data_source_seek_to_pcm_frame(ma_data_source* pDataSource, ma_uint64 frameIndex); +MA_API ma_result ma_data_source_seek_seconds(ma_data_source* pDataSource, float secondCount, float* pSecondsSeeked); /* Can only seek forward. Abstraction to ma_data_source_seek_pcm_frames() */ +MA_API ma_result ma_data_source_seek_to_second(ma_data_source* pDataSource, float seekPointInSeconds); /* Abstraction to ma_data_source_seek_to_pcm_frame() */ MA_API ma_result ma_data_source_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); MA_API ma_result ma_data_source_get_cursor_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pCursor); MA_API ma_result ma_data_source_get_length_in_pcm_frames(ma_data_source* pDataSource, ma_uint64* pLength); /* Returns MA_NOT_IMPLEMENTED if the length is unknown or cannot be determined. Decoders can return this. */ @@ -6182,6 +6210,12 @@ MA_API ma_result ma_event_wait(ma_event* pEvent); Signals the specified auto-reset event. */ MA_API ma_result ma_event_signal(ma_event* pEvent); + + +MA_API ma_result ma_semaphore_init(int initialValue, ma_semaphore* pSemaphore); +MA_API void ma_semaphore_uninit(ma_semaphore* pSemaphore); +MA_API ma_result ma_semaphore_wait(ma_semaphore* pSemaphore); +MA_API ma_result ma_semaphore_release(ma_semaphore* pSemaphore); #endif /* MA_NO_THREADING */ @@ -6273,7 +6307,7 @@ Job Queue /* Slot Allocator -------------- -The idea of the slot allocator is for it to be used in conjunction with a fixed sized buffer. You use the slot allocator to allocator an index that can be used +The idea of the slot allocator is for it to be used in conjunction with a fixed sized buffer. You use the slot allocator to allocate an index that can be used as the insertion point for an object. Slots are reference counted to help mitigate the ABA problem in the lock-free queue we use for tracking jobs. @@ -7006,6 +7040,8 @@ typedef union int nullbackend; /* The null backend uses an integer for device IDs. */ } ma_device_id; +MA_API ma_bool32 ma_device_id_equal(const ma_device_id* pA, const ma_device_id* pB); + typedef struct ma_context_config ma_context_config; typedef struct ma_device_config ma_device_config; @@ -7093,6 +7129,7 @@ struct ma_device_config { const char* pStreamNamePlayback; const char* pStreamNameCapture; + int channelMap; } pulse; struct { @@ -7112,6 +7149,7 @@ struct ma_device_config ma_aaudio_allowed_capture_policy allowedCapturePolicy; ma_bool32 noAutoStartAfterReroute; ma_bool32 enableCompatibilityWorkarounds; + ma_bool32 allowSetBufferCapacity; } aaudio; }; @@ -7184,7 +7222,7 @@ and on output returns detailed information about the device in `ma_device_info`. case when the device ID is NULL, in which case information about the default device needs to be retrieved. Once the context has been created and the device ID retrieved (if using anything other than the default device), the device can be created. -This is a little bit more complicated than initialization of the context due to it's more complicated configuration. When initializing a +This is a little bit more complicated than initialization of the context due to its more complicated configuration. When initializing a device, a duplex device may be requested. This means a separate data format needs to be specified for both playback and capture. On input, the data format is set to what the application wants. On output it's set to the native format which should match as closely as possible to the requested format. The conversion between the format requested by the application and the device's native format will be handled @@ -7205,10 +7243,10 @@ asynchronous reading and writing, `onDeviceStart()` and `onDeviceStop()` should The handling of data delivery between the application and the device is the most complicated part of the process. To make this a bit easier, some helper callbacks are available. If the backend uses a blocking read/write style of API, the `onDeviceRead()` and `onDeviceWrite()` callbacks can optionally be implemented. These are blocking and work just like reading and writing from a file. If the -backend uses a callback for data delivery, that callback must call `ma_device_handle_backend_data_callback()` from within it's callback. +backend uses a callback for data delivery, that callback must call `ma_device_handle_backend_data_callback()` from within its callback. This allows miniaudio to then process any necessary data conversion and then pass it to the miniaudio data callback. -If the backend requires absolute flexibility with it's data delivery, it can optionally implement the `onDeviceDataLoop()` callback +If the backend requires absolute flexibility with its data delivery, it can optionally implement the `onDeviceDataLoop()` callback which will allow it to implement the logic that will run on the audio thread. This is much more advanced and is completely optional. The audio thread should run data delivery logic in a loop while `ma_device_get_state() == ma_device_state_started` and no errors have been @@ -7248,6 +7286,10 @@ struct ma_context_config void* pUserData; ma_allocation_callbacks allocationCallbacks; struct + { + ma_handle hWnd; /* HWND. Optional window handle to pass into SetCooperativeLevel(). Will default to the foreground window, and if that fails, the desktop window. */ + } dsound; + struct { ma_bool32 useVerboseDeviceEnumeration; } alsa; @@ -7336,6 +7378,7 @@ struct ma_context #ifdef MA_SUPPORT_DSOUND struct { + ma_handle hWnd; /* Can be null. */ ma_handle hDSoundDLL; ma_proc DirectSoundCreate; ma_proc DirectSoundEnumerateA; @@ -7942,6 +7985,7 @@ struct ma_device { /*AAudioStream**/ ma_ptr pStreamPlayback; /*AAudioStream**/ ma_ptr pStreamCapture; + ma_mutex rerouteLock; ma_aaudio_usage usage; ma_aaudio_content_type contentType; ma_aaudio_input_preset inputPreset; @@ -8365,6 +8409,10 @@ Retrieves basic information about every active playback and/or capture device. This function will allocate memory internally for the device lists and return a pointer to them through the `ppPlaybackDeviceInfos` and `ppCaptureDeviceInfos` parameters. If you do not want to incur the overhead of these allocations consider using `ma_context_enumerate_devices()` which will instead use a callback. +Note that this only retrieves the ID and name/description of the device. The reason for only retrieving basic information is that it would otherwise require +opening the backend device in order to probe it for more detailed information which can be inefficient. Consider using `ma_context_get_device_info()` for this, +but don't call it from within the enumeration callback. + Parameters ---------- @@ -8406,7 +8454,7 @@ The returned pointers will become invalid upon the next call this this function, See Also -------- -ma_context_get_devices() +ma_context_enumerate_devices() */ MA_API ma_result ma_context_get_devices(ma_context* pContext, ma_device_info** ppPlaybackDeviceInfos, ma_uint32* pPlaybackDeviceCount, ma_device_info** ppCaptureDeviceInfos, ma_uint32* pCaptureDeviceCount); @@ -8545,7 +8593,7 @@ from a microphone. Whether or not you should send or receive data from the devic playback, capture, full-duplex or loopback. (Note that loopback mode is only supported on select backends.) Sending and receiving audio data to and from the device is done via a callback which is fired by miniaudio at periodic time intervals. -The frequency at which data is delivered to and from a device depends on the size of it's period. The size of the period can be defined in terms of PCM frames +The frequency at which data is delivered to and from a device depends on the size of its period. The size of the period can be defined in terms of PCM frames or milliseconds, whichever is more convenient. Generally speaking, the smaller the period, the lower the latency at the expense of higher CPU usage and increased risk of glitching due to the more frequent and granular data deliver intervals. The size of a period will depend on your requirements, but miniaudio's defaults should work fine for most scenarios. If you're building a game you should leave this fairly small, whereas if you're building a simple @@ -8619,7 +8667,7 @@ then be set directly on the structure. Below are the members of the `ma_device_c performanceProfile A hint to miniaudio as to the performance requirements of your program. Can be either `ma_performance_profile_low_latency` (default) or - `ma_performance_profile_conservative`. This mainly affects the size of default buffers and can usually be left at it's default value. + `ma_performance_profile_conservative`. This mainly affects the size of default buffers and can usually be left at its default value. noPreSilencedOutputBuffer When set to true, the contents of the output buffer passed into the data callback will be left undefined. When set to false (default), the contents of @@ -8659,7 +8707,7 @@ then be set directly on the structure. Below are the members of the `ma_device_c A pointer that will passed to callbacks in pBackendVTable. resampling.linear.lpfOrder - The linear resampler applies a low-pass filter as part of it's processing for anti-aliasing. This setting controls the order of the filter. The higher + The linear resampler applies a low-pass filter as part of its processing for anti-aliasing. This setting controls the order of the filter. The higher the value, the better the quality, in general. Setting this to 0 will disable low-pass filtering altogether. The maximum value is `MA_MAX_FILTER_ORDER`. The default value is `min(4, MA_MAX_FILTER_ORDER)`. @@ -8736,6 +8784,9 @@ then be set directly on the structure. Below are the members of the `ma_device_c pulse.pStreamNameCapture PulseAudio only. Sets the stream name for capture. + pulse.channelMap + PulseAudio only. Sets the channel map that is requested from PulseAudio. See MA_PA_CHANNEL_MAP_* constants. Defaults to MA_PA_CHANNEL_MAP_AIFF. + coreaudio.allowNominalSampleRateChange Core Audio only. Desktop only. When enabled, allows the sample rate of the device to be changed at the operating system level. This is disabled by default in order to prevent intrusive changes to the user's system. This is useful if you want to use a sample rate @@ -8909,7 +8960,7 @@ Unsafe. It is not safe to call this inside any callback. Remarks ------- -You only need to use this function if you want to configure the context differently to it's defaults. You should never use this function if you want to manage +You only need to use this function if you want to configure the context differently to its defaults. You should never use this function if you want to manage your own context. See the documentation for `ma_context_init()` for information on the different context configuration options. @@ -9674,7 +9725,7 @@ Utilities ************************************************************************************************************************************************************/ /* -Calculates a buffer size in milliseconds from the specified number of frames and sample rate. +Calculates a buffer size in milliseconds (rounded up) from the specified number of frames and sample rate. */ MA_API ma_uint32 ma_calculate_buffer_size_in_milliseconds_from_frames(ma_uint32 bufferSizeInFrames, ma_uint32 sampleRate); @@ -9931,7 +9982,7 @@ struct ma_decoder void* pInputCache; /* In input format. Can be null if it's not needed. */ ma_uint64 inputCacheCap; /* The capacity of the input cache. */ ma_uint64 inputCacheConsumed; /* The number of frames that have been consumed in the cache. Used for determining the next valid frame. */ - ma_uint64 inputCacheRemaining; /* The number of valid frames remaining in the cahce. */ + ma_uint64 inputCacheRemaining; /* The number of valid frames remaining in the cache. */ ma_allocation_callbacks allocationCallbacks; union { @@ -9972,7 +10023,7 @@ This is not thread safe without your own synchronization. MA_API ma_result ma_decoder_read_pcm_frames(ma_decoder* pDecoder, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead); /* -Seeks to a PCM frame based on it's absolute index. +Seeks to a PCM frame based on its absolute index. This is not thread safe without your own synchronization. */ @@ -10235,7 +10286,8 @@ typedef enum MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_DECODE = 0x00000002, /* Decode data before storing in memory. When set, decoding is done at the resource manager level rather than the mixing thread. Results in faster mixing, but higher memory usage. */ MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC = 0x00000004, /* When set, the resource manager will load the data source asynchronously. */ MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT = 0x00000008, /* When set, waits for initialization of the underlying data source before returning from ma_resource_manager_data_source_init(). */ - MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH = 0x00000010 /* Gives the resource manager a hint that the length of the data source is unknown and calling `ma_data_source_get_length_in_pcm_frames()` should be avoided. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH = 0x00000010, /* Gives the resource manager a hint that the length of the data source is unknown and calling `ma_data_source_get_length_in_pcm_frames()` should be avoided. */ + MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING = 0x00000020 /* When set, configures the data source to loop by default. */ } ma_resource_manager_data_source_flags; @@ -10303,8 +10355,8 @@ typedef struct ma_uint64 rangeEndInPCMFrames; ma_uint64 loopPointBegInPCMFrames; ma_uint64 loopPointEndInPCMFrames; - ma_bool32 isLooping; ma_uint32 flags; + ma_bool32 isLooping; /* Deprecated. Use the MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING flag in `flags` instead. */ } ma_resource_manager_data_source_config; MA_API ma_resource_manager_data_source_config ma_resource_manager_data_source_config_init(void); @@ -10547,6 +10599,16 @@ Node Graph /* Use this when the bus count is determined by the node instance rather than the vtable. */ #define MA_NODE_BUS_COUNT_UNKNOWN 255 + +/* For some internal memory management of ma_node_graph. */ +typedef struct +{ + size_t offset; + size_t sizeInBytes; + unsigned char _data[1]; +} ma_stack; + + typedef struct ma_node_graph ma_node_graph; typedef void ma_node; @@ -10586,7 +10648,7 @@ typedef struct void (* onProcess)(ma_node* pNode, const float** ppFramesIn, ma_uint32* pFrameCountIn, float** ppFramesOut, ma_uint32* pFrameCountOut); /* - A callback for retrieving the number of a input frames that are required to output the + A callback for retrieving the number of input frames that are required to output the specified number of output frames. You would only want to implement this when the node performs resampling. This is optional, even for nodes that perform resampling, but it does offer a small reduction in latency as it allows miniaudio to calculate the exact number of input frames @@ -10671,10 +10733,14 @@ typedef struct ma_node_base ma_node_base; struct ma_node_base { /* These variables are set once at startup. */ - ma_node_graph* pNodeGraph; /* The graph this node belongs to. */ + ma_node_graph* pNodeGraph; /* The graph this node belongs to. */ const ma_node_vtable* vtable; - float* pCachedData; /* Allocated on the heap. Fixed size. Needs to be stored on the heap because reading from output buses is done in separate function calls. */ - ma_uint16 cachedDataCapInFramesPerBus; /* The capacity of the input data cache in frames, per bus. */ + ma_uint32 inputBusCount; + ma_uint32 outputBusCount; + ma_node_input_bus* pInputBuses; + ma_node_output_bus* pOutputBuses; + float* pCachedData; /* Allocated on the heap. Fixed size. Needs to be stored on the heap because reading from output buses is done in separate function calls. */ + ma_uint16 cachedDataCapInFramesPerBus; /* The capacity of the input data cache in frames, per bus. */ /* These variables are read and written only from the audio thread. */ ma_uint16 cachedFrameCountOut; @@ -10682,13 +10748,9 @@ struct ma_node_base ma_uint16 consumedFrameCountIn; /* These variables are read and written between different threads. */ - MA_ATOMIC(4, ma_node_state) state; /* When set to stopped, nothing will be read, regardless of the times in stateTimes. */ - MA_ATOMIC(8, ma_uint64) stateTimes[2]; /* Indexed by ma_node_state. Specifies the time based on the global clock that a node should be considered to be in the relevant state. */ - MA_ATOMIC(8, ma_uint64) localTime; /* The node's local clock. This is just a running sum of the number of output frames that have been processed. Can be modified by any thread with `ma_node_set_time()`. */ - ma_uint32 inputBusCount; - ma_uint32 outputBusCount; - ma_node_input_bus* pInputBuses; - ma_node_output_bus* pOutputBuses; + MA_ATOMIC(4, ma_node_state) state; /* When set to stopped, nothing will be read, regardless of the times in stateTimes. */ + MA_ATOMIC(8, ma_uint64) stateTimes[2]; /* Indexed by ma_node_state. Specifies the time based on the global clock that a node should be considered to be in the relevant state. */ + MA_ATOMIC(8, ma_uint64) localTime; /* The node's local clock. This is just a running sum of the number of output frames that have been processed. Can be modified by any thread with `ma_node_set_time()`. */ /* Memory management. */ ma_node_input_bus _inputBuses[MA_MAX_NODE_LOCAL_BUS_COUNT]; @@ -10724,7 +10786,8 @@ MA_API ma_result ma_node_set_time(ma_node* pNode, ma_uint64 localTime); typedef struct { ma_uint32 channels; - ma_uint16 nodeCacheCapInFrames; + ma_uint32 processingSizeInFrames; /* This is the preferred processing size for node processing callbacks unless overridden by a node itself. Can be 0 in which case it will be based on the frame count passed into ma_node_graph_read_pcm_frames(), but will not be well defined. */ + size_t preMixStackSizeInBytes; /* Defaults to 512KB per channel. Reducing this will save memory, but the depth of your node graph will be more restricted. */ } ma_node_graph_config; MA_API ma_node_graph_config ma_node_graph_config_init(ma_uint32 channels); @@ -10735,10 +10798,15 @@ struct ma_node_graph /* Immutable. */ ma_node_base base; /* The node graph itself is a node so it can be connected as an input to different node graph. This has zero inputs and calls ma_node_graph_read_pcm_frames() to generate it's output. */ ma_node_base endpoint; /* Special node that all nodes eventually connect to. Data is read from this node in ma_node_graph_read_pcm_frames(). */ - ma_uint16 nodeCacheCapInFrames; + float* pProcessingCache; /* This will be allocated when processingSizeInFrames is non-zero. This is needed because ma_node_graph_read_pcm_frames() can be called with a variable number of frames, and we may need to do some buffering in situations where the caller requests a frame count that's not a multiple of processingSizeInFrames. */ + ma_uint32 processingCacheFramesRemaining; + ma_uint32 processingSizeInFrames; /* Read and written by multiple threads. */ MA_ATOMIC(4, ma_bool32) isReading; + + /* Modified only by the audio thread. */ + ma_stack* pPreMixStack; }; MA_API ma_result ma_node_graph_init(const ma_node_graph_config* pConfig, const ma_allocation_callbacks* pAllocationCallbacks, ma_node_graph* pNodeGraph); @@ -11023,6 +11091,7 @@ typedef enum MA_SOUND_FLAG_ASYNC = 0x00000004, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC */ MA_SOUND_FLAG_WAIT_INIT = 0x00000008, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT */ MA_SOUND_FLAG_UNKNOWN_LENGTH = 0x00000010, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_UNKNOWN_LENGTH */ + MA_SOUND_FLAG_LOOPING = 0x00000020, /* MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING */ /* ma_sound specific flags. */ MA_SOUND_FLAG_NO_DEFAULT_ATTACHMENT = 0x00001000, /* Do not attach to the endpoint by default. Useful for when setting up nodes in a complex graph system. */ @@ -11062,7 +11131,7 @@ MA_API ma_engine_node_config ma_engine_node_config_init(ma_engine* pEngine, ma_e /* Base node object for both ma_sound and ma_sound_group. */ typedef struct { - ma_node_base baseNode; /* Must be the first member for compatiblity with the ma_node API. */ + ma_node_base baseNode; /* Must be the first member for compatibility with the ma_node API. */ ma_engine* pEngine; /* A pointer to the engine. Set based on the value from the config. */ ma_uint32 sampleRate; /* The sample rate of the input data. For sounds backed by a data source, this will be the data source's sample rate. Otherwise it'll be the engine's sample rate. */ ma_uint32 volumeSmoothTimeInPCMFrames; @@ -11122,13 +11191,13 @@ typedef struct ma_uint64 rangeEndInPCMFrames; ma_uint64 loopPointBegInPCMFrames; ma_uint64 loopPointEndInPCMFrames; - ma_bool32 isLooping; ma_sound_end_proc endCallback; /* Fired when the sound reaches the end. Will be fired from the audio thread. Do not restart, uninitialize or otherwise change the state of the sound from here. Instead fire an event or set a variable to indicate to a different thread to change the start of the sound. Will not be fired in response to a scheduled stop with ma_sound_set_stop_time_*(). */ void* pEndCallbackUserData; #ifndef MA_NO_RESOURCE_MANAGER ma_resource_manager_pipeline_notifications initNotifications; #endif ma_fence* pDoneFence; /* Deprecated. Use initNotifications instead. Released when the resource manager has finished decoding the entire sound. Not used with streams. */ + ma_bool32 isLooping; /* Deprecated. Use the MA_SOUND_FLAG_LOOPING flag in `flags` instead. */ } ma_sound_config; MA_API ma_sound_config ma_sound_config_init(void); /* Deprecated. Will be removed in version 0.12. Use ma_sound_config_2() instead. */ @@ -11192,6 +11261,7 @@ typedef struct ma_uint32 gainSmoothTimeInFrames; /* The number of frames to interpolate the gain of spatialized sounds across. If set to 0, will use gainSmoothTimeInMilliseconds. */ ma_uint32 gainSmoothTimeInMilliseconds; /* When set to 0, gainSmoothTimeInFrames will be used. If both are set to 0, a default value will be used. */ ma_uint32 defaultVolumeSmoothTimeInPCMFrames; /* Defaults to 0. Controls the default amount of smoothing to apply to volume changes to sounds. High values means more smoothing at the expense of high latency (will take longer to reach the new volume). */ + ma_uint32 preMixStackSizeInBytes; /* A stack is used for internal processing in the node graph. This allows you to configure the size of this stack. Smaller values will reduce the maximum depth of your node graph. You should rarely need to modify this. */ ma_allocation_callbacks allocationCallbacks; ma_bool32 noAutoStart; /* When set to true, requires an explicit call to ma_engine_start(). This is false by default, meaning the engine will be started automatically in ma_engine_init(). */ ma_bool32 noDevice; /* When set to true, don't create a default device. ma_engine_read_pcm_frames() can be called manually to read data. */ @@ -11206,12 +11276,12 @@ MA_API ma_engine_config ma_engine_config_init(void); struct ma_engine { - ma_node_graph nodeGraph; /* An engine is a node graph. It should be able to be plugged into any ma_node_graph API (with a cast) which means this must be the first member of this struct. */ + ma_node_graph nodeGraph; /* An engine is a node graph. It should be able to be plugged into any ma_node_graph API (with a cast) which means this must be the first member of this struct. */ #if !defined(MA_NO_RESOURCE_MANAGER) ma_resource_manager* pResourceManager; #endif #if !defined(MA_NO_DEVICE_IO) - ma_device* pDevice; /* Optionally set via the config, otherwise allocated by the engine in ma_engine_init(). */ + ma_device* pDevice; /* Optionally set via the config, otherwise allocated by the engine in ma_engine_init(). */ #endif ma_log* pLog; ma_uint32 sampleRate; @@ -11220,10 +11290,10 @@ struct ma_engine ma_allocation_callbacks allocationCallbacks; ma_bool8 ownsResourceManager; ma_bool8 ownsDevice; - ma_spinlock inlinedSoundLock; /* For synchronizing access so the inlined sound list. */ - ma_sound_inlined* pInlinedSoundHead; /* The first inlined sound. Inlined sounds are tracked in a linked list. */ - MA_ATOMIC(4, ma_uint32) inlinedSoundCount; /* The total number of allocated inlined sound objects. Used for debugging. */ - ma_uint32 gainSmoothTimeInFrames; /* The number of frames to interpolate the gain of spatialized sounds across. */ + ma_spinlock inlinedSoundLock; /* For synchronizing access to the inlined sound list. */ + ma_sound_inlined* pInlinedSoundHead; /* The first inlined sound. Inlined sounds are tracked in a linked list. */ + MA_ATOMIC(4, ma_uint32) inlinedSoundCount; /* The total number of allocated inlined sound objects. Used for debugging. */ + ma_uint32 gainSmoothTimeInFrames; /* The number of frames to interpolate the gain of spatialized sounds across. */ ma_uint32 defaultVolumeSmoothTimeInPCMFrames; ma_mono_expansion_mode monoExpansionMode; ma_engine_process_proc onProcess; @@ -11348,6 +11418,7 @@ MA_API void ma_sound_set_looping(ma_sound* pSound, ma_bool32 isLooping); MA_API ma_bool32 ma_sound_is_looping(const ma_sound* pSound); MA_API ma_bool32 ma_sound_at_end(const ma_sound* pSound); MA_API ma_result ma_sound_seek_to_pcm_frame(ma_sound* pSound, ma_uint64 frameIndex); /* Just a wrapper around ma_data_source_seek_to_pcm_frame(). */ +MA_API ma_result ma_sound_seek_to_second(ma_sound* pSound, float seekPointInSeconds); /* Abstraction to ma_sound_seek_to_pcm_frame() */ MA_API ma_result ma_sound_get_data_format(ma_sound* pSound, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap); MA_API ma_result ma_sound_get_cursor_in_pcm_frames(ma_sound* pSound, ma_uint64* pCursor); MA_API ma_result ma_sound_get_length_in_pcm_frames(ma_sound* pSound, ma_uint64* pLength); @@ -13861,7 +13932,7 @@ static ma_uint32 ma_ffs_32(ma_uint32 x) /* Just a naive implementation just to get things working for now. Will optimize this later. */ for (i = 0; i < 32; i += 1) { - if ((x & (1 << i)) != 0) { + if ((x & (1U << i)) != 0) { return i; } } @@ -14024,7 +14095,7 @@ static MA_INLINE ma_int32 ma_dither_s32(ma_dither_mode ditherMode, ma_int32 dith Atomics **************************************************************************************************************************************************************/ -/* ma_atomic.h begin */ +/* c89atomic.h begin */ #ifndef ma_atomic_h #if defined(__cplusplus) extern "C" { @@ -14750,12 +14821,12 @@ typedef int ma_atomic_memory_order; typedef ma_uint8 ma_atomic_flag; #define ma_atomic_flag_test_and_set_explicit(ptr, order) (ma_bool32)ma_atomic_test_and_set_explicit_8(ptr, order) #define ma_atomic_flag_clear_explicit(ptr, order) ma_atomic_clear_explicit_8(ptr, order) - #define c89atoimc_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) + #define ma_atomic_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) #else typedef ma_uint32 ma_atomic_flag; #define ma_atomic_flag_test_and_set_explicit(ptr, order) (ma_bool32)ma_atomic_test_and_set_explicit_32(ptr, order) #define ma_atomic_flag_clear_explicit(ptr, order) ma_atomic_clear_explicit_32(ptr, order) - #define c89atoimc_flag_load_explicit(ptr, order) ma_atomic_load_explicit_32(ptr, order) + #define ma_atomic_flag_load_explicit(ptr, order) ma_atomic_load_explicit_32(ptr, order) #endif #elif defined(__clang__) || (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 7))) #define MA_ATOMIC_HAS_NATIVE_COMPARE_EXCHANGE @@ -14836,15 +14907,24 @@ typedef int ma_atomic_memory_order; __atomic_compare_exchange_n(dst, &expected, desired, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); return expected; } + #if defined(__clang__) + #pragma clang diagnostic push + #if __clang_major__ >= 8 + #pragma clang diagnostic ignored "-Watomic-alignment" + #endif + #endif static MA_INLINE ma_uint64 ma_atomic_compare_and_swap_64(volatile ma_uint64* dst, ma_uint64 expected, ma_uint64 desired) { __atomic_compare_exchange_n(dst, &expected, desired, 0, __ATOMIC_SEQ_CST, __ATOMIC_SEQ_CST); return expected; } + #if defined(__clang__) + #pragma clang diagnostic pop + #endif typedef ma_uint8 ma_atomic_flag; #define ma_atomic_flag_test_and_set_explicit(dst, order) (ma_bool32)__atomic_test_and_set(dst, order) #define ma_atomic_flag_clear_explicit(dst, order) __atomic_clear(dst, order) - #define c89atoimc_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) + #define ma_atomic_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) #else #define ma_atomic_memory_order_relaxed 1 #define ma_atomic_memory_order_consume 2 @@ -15358,7 +15438,7 @@ typedef int ma_atomic_memory_order; typedef ma_uint8 ma_atomic_flag; #define ma_atomic_flag_test_and_set_explicit(ptr, order) (ma_bool32)ma_atomic_test_and_set_explicit_8(ptr, order) #define ma_atomic_flag_clear_explicit(ptr, order) ma_atomic_clear_explicit_8(ptr, order) - #define c89atoimc_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) + #define ma_atomic_flag_load_explicit(ptr, order) ma_atomic_load_explicit_8(ptr, order) #endif #if !defined(MA_ATOMIC_HAS_NATIVE_COMPARE_EXCHANGE) #if defined(MA_ATOMIC_HAS_8) @@ -15883,7 +15963,7 @@ static MA_INLINE void ma_atomic_spinlock_lock(volatile ma_atomic_spinlock* pSpin if (ma_atomic_flag_test_and_set_explicit(pSpinlock, ma_atomic_memory_order_acquire) == 0) { break; } - while (c89atoimc_flag_load_explicit(pSpinlock, ma_atomic_memory_order_relaxed) == 1) { + while (ma_atomic_flag_load_explicit(pSpinlock, ma_atomic_memory_order_relaxed) == 1) { } } } @@ -15898,7 +15978,7 @@ static MA_INLINE void ma_atomic_spinlock_unlock(volatile ma_atomic_spinlock* pSp } #endif #endif -/* ma_atomic.h end */ +/* c89atomic.h end */ #define MA_ATOMIC_SAFE_TYPE_IMPL(c89TypeExtension, type) \ static MA_INLINE ma_##type ma_atomic_##type##_get(ma_atomic_##type* x) \ @@ -16096,7 +16176,7 @@ static ma_result ma_thread_create__posix(ma_thread* pThread, ma_thread_priority int result; pthread_attr_t* pAttr = NULL; -#if !defined(__EMSCRIPTEN__) +#if !defined(__EMSCRIPTEN__) && !defined(__3DS__) /* Try setting the thread priority. It's not critical if anything fails here. */ pthread_attr_t attr; if (pthread_attr_init(&attr) == 0) { @@ -16142,19 +16222,34 @@ static ma_result ma_thread_create__posix(ma_thread* pThread, ma_thread_priority if (priority == ma_thread_priority_idle) { sched.sched_priority = priorityMin; } else if (priority == ma_thread_priority_realtime) { - sched.sched_priority = priorityMax; - } else { - sched.sched_priority += ((int)priority + 5) * priorityStep; /* +5 because the lowest priority is -5. */ - if (sched.sched_priority < priorityMin) { - sched.sched_priority = priorityMin; + #if defined(MA_PTHREAD_REALTIME_THREAD_PRIORITY) + { + sched.sched_priority = MA_PTHREAD_REALTIME_THREAD_PRIORITY; } - if (sched.sched_priority > priorityMax) { + #else + { sched.sched_priority = priorityMax; } + #endif + } else { + sched.sched_priority += ((int)priority + 5) * priorityStep; /* +5 because the lowest priority is -5. */ } - /* I'm not treating a failure of setting the priority as a critical error so not checking the return value here. */ - pthread_attr_setschedparam(&attr, &sched); + if (sched.sched_priority < priorityMin) { + sched.sched_priority = priorityMin; + } + if (sched.sched_priority > priorityMax) { + sched.sched_priority = priorityMax; + } + + /* I'm not treating a failure of setting the priority as a critical error so not aborting on failure here. */ + if (pthread_attr_setschedparam(&attr, &sched) == 0) { + #if !defined(MA_ANDROID) || (defined(__ANDROID_API__) && __ANDROID_API__ >= 28) + { + pthread_attr_setinheritsched(&attr, PTHREAD_EXPLICIT_SCHED); + } + #endif + } } } } @@ -16187,7 +16282,7 @@ static void ma_thread_wait__posix(ma_thread* pThread) static ma_result ma_mutex_init__posix(ma_mutex* pMutex) { int result; - + if (pMutex == NULL) { return MA_INVALID_ARGS; } @@ -17406,7 +17501,7 @@ static ma_job_proc g_jobVTable[MA_JOB_TYPE_COUNT] = /* Device. */ #if !defined(MA_NO_DEVICE_IO) - ma_job_process__device__aaudio_reroute /*MA_JOB_TYPE_DEVICE_AAUDIO_REROUTE*/ + ma_job_process__device__aaudio_reroute /* MA_JOB_TYPE_DEVICE_AAUDIO_REROUTE */ #endif }; @@ -17751,7 +17846,7 @@ MA_API ma_result ma_job_queue_next(ma_job_queue* pQueue, ma_job* pJob) is stored. One thread can fall through to the freeing of this item while another is still using "head" for the retrieval of the "next" variable. - The slot allocator might need to make use of some reference counting to ensure it's only truely freed when + The slot allocator might need to make use of some reference counting to ensure it's only truly freed when there are no more references to the item. This must be fixed before removing these locks. */ @@ -17859,7 +17954,16 @@ MA_API void ma_dlclose(ma_log* pLog, ma_handle handle) #ifdef MA_WIN32 FreeLibrary((HMODULE)handle); #else - dlclose((void*)handle); + /* Hack for Android bug (see https://github.com/android/ndk/issues/360). Calling dlclose() pre-API 28 may segfault. */ + #if !defined(MA_ANDROID) || (defined(__ANDROID_API__) && __ANDROID_API__ >= 28) + { + dlclose((void*)handle); + } + #else + { + (void)handle; + } + #endif #endif (void)pLog; @@ -17880,12 +17984,12 @@ MA_API ma_proc ma_dlsym(ma_log* pLog, ma_handle handle, const char* symbol) #ifdef _WIN32 proc = (ma_proc)GetProcAddress((HMODULE)handle, symbol); #else -#if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) +#if (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) || defined(__clang__) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wpedantic" #endif proc = (ma_proc)dlsym((void*)handle, symbol); -#if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) +#if (defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8))) || defined(__clang__) #pragma GCC diagnostic pop #endif #endif @@ -17923,9 +18027,13 @@ DEVICE I/O #endif #endif +#ifdef MA_APPLE + #include +#endif + #ifndef MA_NO_DEVICE_IO -#if defined(MA_APPLE) && (__MAC_OS_X_VERSION_MIN_REQUIRED < 101200) +#if defined(MA_APPLE) && (MAC_OS_X_VERSION_MIN_REQUIRED < 101200) #include /* For mach_absolute_time() */ #endif @@ -17939,6 +18047,10 @@ DEVICE I/O #endif #endif +/* This must be set to at least 26. */ +#ifndef MA_AAUDIO_MIN_ANDROID_SDK_VERSION +#define MA_AAUDIO_MIN_ANDROID_SDK_VERSION 27 +#endif MA_API void ma_device_info_add_native_data_format(ma_device_info* pDeviceInfo, ma_format format, ma_uint32 channels, ma_uint32 sampleRate, ma_uint32 flags) @@ -18085,7 +18197,7 @@ MA_API ma_bool32 ma_is_backend_enabled(ma_backend backend) #if defined(MA_HAS_AAUDIO) #if defined(MA_ANDROID) { - return ma_android_sdk_version() >= 26; + return ma_android_sdk_version() >= MA_AAUDIO_MIN_ANDROID_SDK_VERSION; } #else return MA_FALSE; @@ -18402,7 +18514,6 @@ typedef LONG (WINAPI * MA_PFN_RegCloseKey)(HKEY hKey); typedef LONG (WINAPI * MA_PFN_RegQueryValueExA)(HKEY hKey, const char* lpValueName, DWORD* lpReserved, DWORD* lpType, BYTE* lpData, DWORD* lpcbData); #endif /* MA_WIN32_DESKTOP */ - MA_API size_t ma_strlen_WCHAR(const WCHAR* str) { size_t len = 0; @@ -18487,7 +18598,7 @@ Timing return (double)(counter.QuadPart - pTimer->counter) / g_ma_TimerFrequency.QuadPart; } -#elif defined(MA_APPLE) && (__MAC_OS_X_VERSION_MIN_REQUIRED < 101200) +#elif defined(MA_APPLE) && (MAC_OS_X_VERSION_MIN_REQUIRED < 101200) static ma_uint64 g_ma_TimerFrequency = 0; static void ma_timer_init(ma_timer* pTimer) { @@ -18670,11 +18781,16 @@ static void ma_device__on_notification_rerouted(ma_device* pDevice) #endif #if defined(MA_EMSCRIPTEN) -EMSCRIPTEN_KEEPALIVE -void ma_device__on_notification_unlocked(ma_device* pDevice) +#ifdef __cplusplus +extern "C" { +#endif +void EMSCRIPTEN_KEEPALIVE ma_device__on_notification_unlocked(ma_device* pDevice) { ma_device__on_notification(ma_device_notification_init(pDevice, ma_device_notification_type_unlocked)); } +#ifdef __cplusplus +} +#endif #endif @@ -18802,7 +18918,7 @@ static void ma_device__handle_data_callback(ma_device* pDevice, void* pFramesOut unsigned int prevDenormalState = ma_device_disable_denormals(pDevice); { /* Volume control of input makes things a bit awkward because the input buffer is read-only. We'll need to use a temp buffer and loop in this case. */ - if (pFramesIn != NULL && masterVolumeFactor < 1) { + if (pFramesIn != NULL && masterVolumeFactor != 1) { ma_uint8 tempFramesIn[MA_DATA_CONVERTER_STACK_BUFFER_SIZE]; ma_uint32 bpfCapture = ma_get_bytes_per_frame(pDevice->capture.format, pDevice->capture.channels); ma_uint32 bpfPlayback = ma_get_bytes_per_frame(pDevice->playback.format, pDevice->playback.channels); @@ -18825,7 +18941,7 @@ static void ma_device__handle_data_callback(ma_device* pDevice, void* pFramesOut /* Volume control and clipping for playback devices. */ if (pFramesOut != NULL) { - if (masterVolumeFactor < 1) { + if (masterVolumeFactor != 1) { if (pFramesIn == NULL) { /* <-- In full-duplex situations, the volume will have been applied to the input samples before the data callback. Applying it again post-callback will incorrectly compound it. */ ma_apply_volume_factor_pcm_frames(pFramesOut, frameCount, pDevice->playback.format, pDevice->playback.channels, masterVolumeFactor); } @@ -18837,6 +18953,11 @@ static void ma_device__handle_data_callback(ma_device* pDevice, void* pFramesOut } } ma_device_restore_denormals(pDevice, prevDenormalState); + } else { + /* No data callback. Just silence the output. */ + if (pFramesOut != NULL) { + ma_silence_pcm_frames(pFramesOut, frameCount, pDevice->playback.format, pDevice->playback.channels); + } } } @@ -18922,9 +19043,7 @@ static void ma_device__read_frames_from_client(ma_device* pDevice, ma_uint32 fra framesToReadThisIterationIn = requiredInputFrameCount; } - if (framesToReadThisIterationIn > 0) { - ma_device__handle_data_callback(pDevice, pIntermediaryBuffer, NULL, (ma_uint32)framesToReadThisIterationIn); - } + ma_device__handle_data_callback(pDevice, pIntermediaryBuffer, NULL, (ma_uint32)framesToReadThisIterationIn); /* At this point we have our decoded data in input format and now we need to convert to output format. Note that even if we didn't read any @@ -18965,7 +19084,7 @@ static void ma_device__send_frames_to_client(ma_device* pDevice, ma_uint32 frame ma_uint64 totalClientFramesProcessed = 0; const void* pRunningFramesInDeviceFormat = pFramesInDeviceFormat; - /* We just keep going until we've exhaused all of our input frames and cannot generate any more output frames. */ + /* We just keep going until we've exhausted all of our input frames and cannot generate any more output frames. */ for (;;) { ma_uint64 deviceFramesProcessedThisIteration; ma_uint64 clientFramesProcessedThisIteration; @@ -19248,7 +19367,7 @@ static ma_result ma_device_audio_thread__default_read_write(ma_device* pDevice) } /* - If we weren't able to generate any output frames it must mean we've exhaused all of our input. The only time this would not be the case is if capturedClientData was too small + If we weren't able to generate any output frames it must mean we've exhausted all of our input. The only time this would not be the case is if capturedClientData was too small which should never be the case when it's of the size MA_DATA_CONVERTER_STACK_BUFFER_SIZE. */ if (capturedClientFramesToProcessThisIteration == 0) { @@ -19451,7 +19570,7 @@ static ma_result ma_device_do_operation__null(ma_device* pDevice, ma_uint32 oper /* The first thing to do is wait for an operation slot to become available. We only have a single slot for this, but we could extend this later - to support queing of operations. + to support queuing of operations. */ result = ma_semaphore_wait(&pDevice->null_device.operationSemaphore); if (result != MA_SUCCESS) { @@ -21268,7 +21387,7 @@ static ma_result ma_context_get_device_info_from_IAudioClient__wasapi(ma_context } /* - Exlcusive Mode. We repeatedly call IsFormatSupported() here. This is not currently supported on + Exclusive Mode. We repeatedly call IsFormatSupported() here. This is not currently supported on UWP. Failure to retrieve the exclusive mode format is not considered an error, so from here on out, MA_SUCCESS is guaranteed to be returned. */ @@ -21473,10 +21592,23 @@ static ma_result ma_context_get_MMDevice__wasapi(ma_context* pContext, ma_device MA_ASSERT(pContext != NULL); MA_ASSERT(ppMMDevice != NULL); + /* + This weird COM init/uninit here is a hack to work around a crash when changing devices. What is happening is + WASAPI fires a callback from another thread when the device is changed. It's from that thread where this + function is getting called. What I'm suspecting is that the other thread is not initializing COM which in turn + results in CoCreateInstance() failing. + + The community has reported that this seems to fix the crash. There are future plans to move all WASAPI operation + over to a single thread to make everything safer, but in the meantime while we wait for that to come online I'm + happy enough to use this hack instead. + */ ma_CoInitializeEx(pContext, NULL, MA_COINIT_VALUE); - hr = ma_CoCreateInstance(pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + { + hr = ma_CoCreateInstance(pContext, &MA_CLSID_MMDeviceEnumerator, NULL, CLSCTX_ALL, &MA_IID_IMMDeviceEnumerator, (void**)&pDeviceEnumerator); + } ma_CoUninitialize(pContext); - if (FAILED(hr)) { + + if (FAILED(hr)) { /* <-- This is checking the call above to ma_CoCreateInstance(). */ ma_log_postf(ma_context_get_log(pContext), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to create IMMDeviceEnumerator.\n"); return ma_result_from_HRESULT(hr); } @@ -21508,7 +21640,7 @@ static ma_result ma_context_get_device_id_from_MMDevice__wasapi(ma_context* pCon size_t idlen = ma_strlen_WCHAR(pDeviceIDString); if (idlen+1 > ma_countof(pDeviceID->wasapi)) { ma_CoTaskMemFree(pContext, pDeviceIDString); - MA_ASSERT(MA_FALSE); /* NOTE: If this is triggered, please report it. It means the format of the ID must haved change and is too long to fit in our fixed sized buffer. */ + MA_ASSERT(MA_FALSE); /* NOTE: If this is triggered, please report it. It means the format of the ID must have changed and is too long to fit in our fixed sized buffer. */ return MA_ERROR; } @@ -21952,12 +22084,16 @@ static ma_result ma_device_uninit__wasapi(ma_device* pDevice) { MA_ASSERT(pDevice != NULL); -#if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) - if (pDevice->wasapi.pDeviceEnumerator) { - ((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator)->lpVtbl->UnregisterEndpointNotificationCallback((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator, &pDevice->wasapi.notificationClient); - ma_IMMDeviceEnumerator_Release((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator); + #if defined(MA_WIN32_DESKTOP) || defined(MA_WIN32_GDK) + { + if (pDevice->wasapi.pDeviceEnumerator) { + ((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator)->lpVtbl->UnregisterEndpointNotificationCallback((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator, &pDevice->wasapi.notificationClient); + ma_IMMDeviceEnumerator_Release((ma_IMMDeviceEnumerator*)pDevice->wasapi.pDeviceEnumerator); + } + + ma_mutex_uninit(&pDevice->wasapi.rerouteLock); } -#endif + #endif if (pDevice->wasapi.pRenderClient) { if (pDevice->wasapi.pMappedBufferPlayback != NULL) { @@ -22258,7 +22394,7 @@ static ma_result ma_device_init_internal__wasapi(ma_context* pContext, ma_device MA_REFERENCE_TIME bufferDuration = periodDurationInMicroseconds * pData->periodsOut * 10; /* - If the periodicy is too small, Initialize() will fail with AUDCLNT_E_INVALID_DEVICE_PERIOD. In this case we should just keep increasing + If the periodicity is too small, Initialize() will fail with AUDCLNT_E_INVALID_DEVICE_PERIOD. In this case we should just keep increasing it and trying it again. */ hr = E_FAIL; @@ -22268,7 +22404,7 @@ static ma_result ma_device_init_internal__wasapi(ma_context* pContext, ma_device if (bufferDuration > 500*10000) { break; } else { - if (bufferDuration == 0) { /* <-- Just a sanity check to prevent an infinit loop. Should never happen, but it makes me feel better. */ + if (bufferDuration == 0) { /* <-- Just a sanity check to prevent an infinite loop. Should never happen, but it makes me feel better. */ break; } @@ -23007,6 +23143,14 @@ static ma_result ma_device_stop__wasapi_nolock(ma_device* pDevice) } if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { + /* If we have a mapped buffer we need to release it. */ + if (pDevice->wasapi.pMappedBufferCapture != NULL) { + ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); + pDevice->wasapi.pMappedBufferCapture = NULL; + pDevice->wasapi.mappedBufferCaptureCap = 0; + pDevice->wasapi.mappedBufferCaptureLen = 0; + } + hr = ma_IAudioClient_Stop((ma_IAudioClient*)pDevice->wasapi.pAudioClientCapture); if (FAILED(hr)) { ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to stop internal capture device."); @@ -23020,31 +23164,34 @@ static ma_result ma_device_stop__wasapi_nolock(ma_device* pDevice) return ma_result_from_HRESULT(hr); } - /* If we have a mapped buffer we need to release it. */ - if (pDevice->wasapi.pMappedBufferCapture != NULL) { - ma_IAudioCaptureClient_ReleaseBuffer((ma_IAudioCaptureClient*)pDevice->wasapi.pCaptureClient, pDevice->wasapi.mappedBufferCaptureCap); - pDevice->wasapi.pMappedBufferCapture = NULL; - pDevice->wasapi.mappedBufferCaptureCap = 0; - pDevice->wasapi.mappedBufferCaptureLen = 0; - } - ma_atomic_bool32_set(&pDevice->wasapi.isStartedCapture, MA_FALSE); } if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + if (pDevice->wasapi.pMappedBufferPlayback != NULL) { + ma_silence_pcm_frames( + ma_offset_pcm_frames_ptr(pDevice->wasapi.pMappedBufferPlayback, pDevice->wasapi.mappedBufferPlaybackLen, pDevice->playback.internalFormat, pDevice->playback.internalChannels), + pDevice->wasapi.mappedBufferPlaybackCap - pDevice->wasapi.mappedBufferPlaybackLen, + pDevice->playback.internalFormat, pDevice->playback.internalChannels + ); + ma_IAudioRenderClient_ReleaseBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, pDevice->wasapi.mappedBufferPlaybackCap, 0); + pDevice->wasapi.pMappedBufferPlayback = NULL; + pDevice->wasapi.mappedBufferPlaybackCap = 0; + pDevice->wasapi.mappedBufferPlaybackLen = 0; + } + /* The buffer needs to be drained before stopping the device. Not doing this will result in the last few frames not getting output to the speakers. This is a problem for very short sounds because it'll result in a significant portion of it not getting played. */ if (ma_atomic_bool32_get(&pDevice->wasapi.isStartedPlayback)) { /* We need to make sure we put a timeout here or else we'll risk getting stuck in a deadlock in some cases. */ - DWORD waitTime = pDevice->wasapi.actualBufferSizeInFramesPlayback / pDevice->playback.internalSampleRate; + DWORD waitTime = (pDevice->wasapi.actualBufferSizeInFramesPlayback * 1000) / pDevice->playback.internalSampleRate; if (pDevice->playback.shareMode == ma_share_mode_exclusive) { WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, waitTime); - } - else { - ma_uint32 prevFramesAvaialablePlayback = (ma_uint32)-1; + } else { + ma_uint32 prevFramesAvailablePlayback = (ma_uint32)-1; ma_uint32 framesAvailablePlayback; for (;;) { result = ma_device__get_available_frames__wasapi(pDevice, (ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback, &framesAvailablePlayback); @@ -23060,13 +23207,13 @@ static ma_result ma_device_stop__wasapi_nolock(ma_device* pDevice) Just a safety check to avoid an infinite loop. If this iteration results in a situation where the number of available frames has not changed, get out of the loop. I don't think this should ever happen, but I think it's nice to have just in case. */ - if (framesAvailablePlayback == prevFramesAvaialablePlayback) { + if (framesAvailablePlayback == prevFramesAvailablePlayback) { break; } - prevFramesAvaialablePlayback = framesAvailablePlayback; + prevFramesAvailablePlayback = framesAvailablePlayback; - WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, waitTime * 1000); ResetEvent((HANDLE)pDevice->wasapi.hEventPlayback); /* Manual reset. */ + WaitForSingleObject((HANDLE)pDevice->wasapi.hEventPlayback, waitTime); } } } @@ -23078,19 +23225,20 @@ static ma_result ma_device_stop__wasapi_nolock(ma_device* pDevice) } /* The audio client needs to be reset otherwise restarting will fail. */ - hr = ma_IAudioClient_Reset((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback); + { + ma_int32 retries = 5; + + while ((hr = ma_IAudioClient_Reset((ma_IAudioClient*)pDevice->wasapi.pAudioClientPlayback)) == MA_AUDCLNT_E_BUFFER_OPERATION_PENDING && retries > 0) { + ma_sleep(10); + retries -= 1; + } + } + if (FAILED(hr)) { ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[WASAPI] Failed to reset internal playback device."); return ma_result_from_HRESULT(hr); } - if (pDevice->wasapi.pMappedBufferPlayback != NULL) { - ma_IAudioRenderClient_ReleaseBuffer((ma_IAudioRenderClient*)pDevice->wasapi.pRenderClient, pDevice->wasapi.mappedBufferPlaybackCap, 0); - pDevice->wasapi.pMappedBufferPlayback = NULL; - pDevice->wasapi.mappedBufferPlaybackCap = 0; - pDevice->wasapi.mappedBufferPlaybackLen = 0; - } - ma_atomic_bool32_set(&pDevice->wasapi.isStartedPlayback, MA_FALSE); } @@ -23657,6 +23805,13 @@ DirectSound Backend #define MA_DSBPLAY_TERMINATEBY_DISTANCE 0x00000010 #define MA_DSBPLAY_TERMINATEBY_PRIORITY 0x00000020 +#define MA_DSBSTATUS_PLAYING 0x00000001 +#define MA_DSBSTATUS_BUFFERLOST 0x00000002 +#define MA_DSBSTATUS_LOOPING 0x00000004 +#define MA_DSBSTATUS_LOCHARDWARE 0x00000008 +#define MA_DSBSTATUS_LOCSOFTWARE 0x00000010 +#define MA_DSBSTATUS_TERMINATED 0x00000020 + #define MA_DSCBSTART_LOOPING 0x00000001 typedef struct @@ -24026,9 +24181,12 @@ static ma_result ma_context_create_IDirectSound__dsound(ma_context* pContext, ma } /* The cooperative level must be set before doing anything else. */ - hWnd = ((MA_PFN_GetForegroundWindow)pContext->win32.GetForegroundWindow)(); + hWnd = (HWND)pContext->dsound.hWnd; if (hWnd == 0) { - hWnd = ((MA_PFN_GetDesktopWindow)pContext->win32.GetDesktopWindow)(); + hWnd = ((MA_PFN_GetForegroundWindow)pContext->win32.GetForegroundWindow)(); + if (hWnd == 0) { + hWnd = ((MA_PFN_GetDesktopWindow)pContext->win32.GetDesktopWindow)(); + } } hr = ma_IDirectSound_SetCooperativeLevel(pDirectSound, hWnd, (shareMode == ma_share_mode_exclusive) ? MA_DSSCL_EXCLUSIVE : MA_DSSCL_PRIORITY); @@ -24532,8 +24690,8 @@ static ma_result ma_device_init__dsound(ma_device* pDevice, const ma_device_conf } /* - Unfortunately DirectSound uses different APIs and data structures for playback and catpure devices. We need to initialize - the capture device first because we'll want to match it's buffer size and period count on the playback side if we're using + Unfortunately DirectSound uses different APIs and data structures for playback and capture devices. We need to initialize + the capture device first because we'll want to match its buffer size and period count on the playback side if we're using full-duplex mode. */ if (pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) { @@ -24816,6 +24974,7 @@ static ma_result ma_device_data_loop__dsound(ma_device* pDevice) ma_bool32 isPlaybackDeviceStarted = MA_FALSE; ma_uint32 framesWrittenToPlaybackDevice = 0; /* For knowing whether or not the playback device needs to be started. */ ma_uint32 waitTimeInMilliseconds = 1; + DWORD playbackBufferStatus = 0; MA_ASSERT(pDevice != NULL); @@ -25144,6 +25303,20 @@ static ma_result ma_device_data_loop__dsound(ma_device* pDevice) break; } + hr = ma_IDirectSoundBuffer_GetStatus((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, &playbackBufferStatus); + if (SUCCEEDED(hr) && (playbackBufferStatus & MA_DSBSTATUS_PLAYING) == 0 && isPlaybackDeviceStarted) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[DirectSound] Attempting to resume audio due to state: %d.", (int)playbackBufferStatus); + hr = ma_IDirectSoundBuffer_Play((ma_IDirectSoundBuffer*)pDevice->dsound.pPlaybackBuffer, 0, 0, MA_DSBPLAY_LOOPING); + if (FAILED(hr)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[DirectSound] IDirectSoundBuffer_Play() failed after attempting to resume from state %d.", (int)playbackBufferStatus); + return ma_result_from_HRESULT(hr); + } + + isPlaybackDeviceStarted = MA_TRUE; + ma_sleep(waitTimeInMilliseconds); + continue; + } + if (physicalPlayCursorInBytes < prevPlayCursorInBytesPlayback) { physicalPlayCursorLoopFlagPlayback = !physicalPlayCursorLoopFlagPlayback; } @@ -25345,6 +25518,8 @@ static ma_result ma_context_init__dsound(ma_context* pContext, const ma_context_ return MA_API_NOT_FOUND; } + pContext->dsound.hWnd = pConfig->dsound.hWnd; + pCallbacks->onContextInit = ma_context_init__dsound; pCallbacks->onContextUninit = ma_context_uninit__dsound; pCallbacks->onContextEnumerateDevices = ma_context_enumerate_devices__dsound; @@ -25667,7 +25842,7 @@ static ma_result ma_context_get_device_info_from_WAVECAPS(ma_context* pContext, - If the name GUID is not present in the registry we'll also need to stick to the original 31 characters. - I like consistency, so I want the returned device names to be consistent with those returned by WASAPI and DirectSound. The problem, however is that WASAPI and DirectSound use " ()" format (such as "Speakers (High Definition Audio)"), - but WinMM does not specificy the component name. From my admittedly limited testing, I've notice the component name seems to + but WinMM does not specify the component name. From my admittedly limited testing, I've notice the component name seems to usually fit within the 31 characters of the fixed sized buffer, so what I'm going to do is parse that string for the component name, and then concatenate the name from the registry. */ @@ -25935,7 +26110,7 @@ static ma_result ma_device_init__winmm(ma_device* pDevice, const ma_device_confi return MA_DEVICE_TYPE_NOT_SUPPORTED; } - /* No exlusive mode with WinMM. */ + /* No exclusive mode with WinMM. */ if (((pConfig->deviceType == ma_device_type_playback || pConfig->deviceType == ma_device_type_duplex) && pDescriptorPlayback->shareMode == ma_share_mode_exclusive) || ((pConfig->deviceType == ma_device_type_capture || pConfig->deviceType == ma_device_type_duplex) && pDescriptorCapture->shareMode == ma_share_mode_exclusive)) { return MA_SHARE_MODE_NOT_SUPPORTED; @@ -25957,7 +26132,7 @@ static ma_result ma_device_init__winmm(ma_device* pDevice, const ma_device_confi /* We use an event to know when a new fragment needs to be enqueued. */ pDevice->winmm.hEventCapture = (ma_handle)CreateEventA(NULL, TRUE, TRUE, NULL); if (pDevice->winmm.hEventCapture == NULL) { - errorMsg = "[WinMM] Failed to create event for fragment enqueing for the capture device.", errorCode = ma_result_from_GetLastError(GetLastError()); + errorMsg = "[WinMM] Failed to create event for fragment enqueuing for the capture device.", errorCode = ma_result_from_GetLastError(GetLastError()); goto on_error; } @@ -25995,7 +26170,7 @@ static ma_result ma_device_init__winmm(ma_device* pDevice, const ma_device_confi /* We use an event to know when a new fragment needs to be enqueued. */ pDevice->winmm.hEventPlayback = (ma_handle)CreateEventA(NULL, TRUE, TRUE, NULL); if (pDevice->winmm.hEventPlayback == NULL) { - errorMsg = "[WinMM] Failed to create event for fragment enqueing for the playback device.", errorCode = ma_result_from_GetLastError(GetLastError()); + errorMsg = "[WinMM] Failed to create event for fragment enqueuing for the playback device.", errorCode = ma_result_from_GetLastError(GetLastError()); goto on_error; } @@ -27117,7 +27292,7 @@ static ma_result ma_context_open_pcm__alsa(ma_context* pContext, ma_share_mode s /* We're trying to open a specific device. There's a few things to consider here: - miniaudio recongnizes a special format of device id that excludes the "hw", "dmix", etc. prefix. It looks like this: ":0,0", ":0,1", etc. When + miniaudio recognizes a special format of device id that excludes the "hw", "dmix", etc. prefix. It looks like this: ":0,0", ":0,1", etc. When an ID of this format is specified, it indicates to miniaudio that it can try different combinations of plugins ("hw", "dmix", etc.) until it finds an appropriate one that works. This comes in very handy when trying to open a device in shared mode ("dmix"), vs exclusive mode ("hw"). */ @@ -27216,7 +27391,7 @@ static ma_result ma_context_enumerate_devices__alsa(ma_context* pContext, ma_enu /* At this point, hwid looks like "hw:0,0". In simplified enumeration mode, we actually want to strip off the plugin name so it looks like ":0,0". The reason for this is that this special format is detected at device - initialization time and is used as an indicator to try and use the most appropriate plugin depending on the + initialization time and is used as an indicator to try to use the most appropriate plugin depending on the device type and sharing mode. */ char* dst = hwid; @@ -27395,7 +27570,7 @@ static void ma_context_iterate_rates_and_add_native_data_format__alsa(ma_context ((ma_snd_pcm_hw_params_get_rate_min_proc)pContext->alsa.snd_pcm_hw_params_get_rate_min)(pHWParams, &minSampleRate, &sampleRateDir); ((ma_snd_pcm_hw_params_get_rate_max_proc)pContext->alsa.snd_pcm_hw_params_get_rate_max)(pHWParams, &maxSampleRate, &sampleRateDir); - /* Make sure our sample rates are clamped to sane values. Stupid devices like "pulse" will reports rates like "1" which is ridiculus. */ + /* Make sure our sample rates are clamped to sane values. Stupid devices like "pulse" will reports rates like "1" which is ridiculous. */ minSampleRate = ma_clamp(minSampleRate, (unsigned int)ma_standard_sample_rate_min, (unsigned int)ma_standard_sample_rate_max); maxSampleRate = ma_clamp(maxSampleRate, (unsigned int)ma_standard_sample_rate_min, (unsigned int)ma_standard_sample_rate_max); @@ -27471,10 +27646,10 @@ static ma_result ma_context_get_device_info__alsa(ma_context* pContext, ma_devic /* Some ALSA devices can support many permutations of formats, channels and rates. We only support a fixed number of permutations which means we need to employ some strategies to ensure the best - combinations are returned. An example is the "pulse" device which can do it's own data conversion + combinations are returned. An example is the "pulse" device which can do its own data conversion in software and as a result can support any combination of format, channels and rate. - We want to ensure the the first data formats are the best. We have a list of favored sample + We want to ensure that the first data formats are the best. We have a list of favored sample formats and sample rates, so these will be the basis of our iteration. */ @@ -28052,7 +28227,21 @@ static ma_result ma_device_start__alsa(ma_device* pDevice) } if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { - /* Don't need to do anything for playback because it'll be started automatically when enough data has been written. */ + /* + When data is written to the device we wait for the device to get ready to receive data with poll(). In my testing + I have observed that poll() can sometimes block forever unless the device is started explicitly with snd_pcm_start() + or some data is written with snd_pcm_writei(). + + To resolve this I've decided to do an explicit start with snd_pcm_start(). The problem with this is that the device + is started without any data in the internal buffer which will result in an immediate underrun. If instead we were + to call into snd_pcm_writei() in an attempt to prevent the underrun, we would run the risk of a weird deadlock + issue as documented inside ma_device_write__alsa(). + */ + resultALSA = ((ma_snd_pcm_start_proc)pDevice->pContext->alsa.snd_pcm_start)((ma_snd_pcm_t*)pDevice->alsa.pPCMPlayback); + if (resultALSA < 0) { + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] Failed to start playback device."); + return ma_result_from_errno(-resultALSA); + } } return MA_SUCCESS; @@ -28065,6 +28254,7 @@ static ma_result ma_device_stop__alsa(ma_device* pDevice) a small chance that our wakeupfd has not been cleared. We'll clear that out now if applicable. */ int resultPoll; + int resultRead; if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Dropping capture device...\n"); @@ -28079,12 +28269,15 @@ static ma_result ma_device_stop__alsa(ma_device* pDevice) ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Preparing capture device successful.\n"); } - /* Clear the wakeupfd. */ - resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture, 1, 0); - if (resultPoll > 0) { - ma_uint64 t; - read(((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture)[0].fd, &t, sizeof(t)); - } + /* Clear the wakeupfd. */ + resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture, 1, 0); + if (resultPoll > 0) { + ma_uint64 t; + resultRead = read(((struct pollfd*)pDevice->alsa.pPollDescriptorsCapture)[0].fd, &t, sizeof(t)); + if (resultRead != sizeof(t)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Failed to read from capture wakeupfd. read() = %d\n", resultRead); + } + } } if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { @@ -28101,12 +28294,14 @@ static ma_result ma_device_stop__alsa(ma_device* pDevice) } /* Clear the wakeupfd. */ - resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback, 1, 0); - if (resultPoll > 0) { - ma_uint64 t; - read(((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback)[0].fd, &t, sizeof(t)); - } - + resultPoll = poll((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback, 1, 0); + if (resultPoll > 0) { + ma_uint64 t; + resultRead = read(((struct pollfd*)pDevice->alsa.pPollDescriptorsPlayback)[0].fd, &t, sizeof(t)); + if (resultRead != sizeof(t)) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "[ALSA] Failed to read from playback wakeupfd. read() = %d\n", resultRead); + } + } } return MA_SUCCESS; @@ -28119,13 +28314,20 @@ static ma_result ma_device_wait__alsa(ma_device* pDevice, ma_snd_pcm_t* pPCM, st int resultALSA; int resultPoll = poll(pPollDescriptors, pollDescriptorCount, -1); if (resultPoll < 0) { - ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[ALSA] poll() failed.\n"); - return ma_result_from_errno(errno); + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[ALSA] poll() failed.\n"); + + /* + There have been reports that poll() is returning an error randomly and that instead of + returning an error, simply trying again will work. I'm experimenting with adopting this + advice. + */ + continue; + /*return ma_result_from_errno(errno);*/ } /* Before checking the ALSA poll descriptor flag we need to check if the wakeup descriptor - has had it's POLLIN flag set. If so, we need to actually read the data and then exit + has had it's POLLIN flag set. If so, we need to actually read the data and then exit the function. The wakeup descriptor will be the first item in the descriptors buffer. */ if ((pPollDescriptors[0].revents & POLLIN) != 0) { @@ -28154,7 +28356,7 @@ static ma_result ma_device_wait__alsa(ma_device* pDevice, ma_snd_pcm_t* pPCM, st ma_snd_pcm_state_t state = ((ma_snd_pcm_state_proc)pDevice->pContext->alsa.snd_pcm_state)(pPCM); if (state == MA_SND_PCM_STATE_XRUN) { /* The PCM is in a xrun state. This will be recovered from at a higher level. We can disregard this. */ - } else { + } else { ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[ALSA] POLLERR detected. status = %d\n", ((ma_snd_pcm_state_proc)pDevice->pContext->alsa.snd_pcm_state)(pPCM)); } } @@ -28587,7 +28789,7 @@ static ma_result ma_context_init__alsa(ma_context* pContext, const ma_context_co return MA_SUCCESS; } -#endif /* ALSA */ +#endif /* MA_HAS_ALSA */ @@ -28598,7 +28800,7 @@ PulseAudio Backend ******************************************************************************/ #ifdef MA_HAS_PULSEAUDIO /* -The PulseAudio API, along with Apple's Core Audio, is the worst of the maintream audio APIs. This is a brief description of what's going on +The PulseAudio API, along with Apple's Core Audio, is the worst of the mainstream audio APIs. This is a brief description of what's going on in the PulseAudio backend. I apologize if this gets a bit ranty for your liking - you might want to skip this discussion. PulseAudio has something they call the "Simple API", which unfortunately isn't suitable for miniaudio. I've not seen anywhere where it @@ -28613,7 +28815,7 @@ get fun, and I don't mean that in a good way... The problems start with the very name of the API - "asynchronous". Yes, this is an asynchronous oriented API which means your commands don't immediately take effect. You instead need to issue your commands, and then wait for them to complete. The waiting mechanism is -enabled through the use of a "main loop". In the asychronous API you cannot get away from the main loop, and the main loop is where almost +enabled through the use of a "main loop". In the asynchronous API you cannot get away from the main loop, and the main loop is where almost all of PulseAudio's problems stem from. When you first initialize PulseAudio you need an object referred to as "main loop". You can implement this yourself by defining your own @@ -28663,7 +28865,7 @@ because PulseAudio takes it literally, specifically the "can be". You would thin writing and reading data to and from the stream, and that would be right, except when it's not. When you initialize the stream, you can set a flag that tells PulseAudio to not start the stream automatically. This is required because miniaudio does not auto-start devices straight after initialization - you need to call `ma_device_start()` manually. The problem is that even when this flag is specified, -PulseAudio will immediately fire it's write or read callback. This is *technically* correct (based on the wording in the documentation) +PulseAudio will immediately fire its write or read callback. This is *technically* correct (based on the wording in the documentation) because indeed, data *can* be written at this point. The problem is that it's not *practical*. It makes sense that the write/read callback would be where a program will want to write or read data to or from the stream, but when it's called before the application has even requested that the stream be started, it's just not practical because the program probably isn't ready for any kind of data delivery at @@ -30041,16 +30243,18 @@ static ma_pa_buffer_attr ma_device__pa_buffer_attr_new(ma_uint32 periodSizeInFra static ma_pa_stream* ma_device__pa_stream_new__pulse(ma_device* pDevice, const char* pStreamName, const ma_pa_sample_spec* ss, const ma_pa_channel_map* cmap) { - static int g_StreamCounter = 0; + static ma_atomic_uint32 g_StreamCounter = { 0 }; char actualStreamName[256]; if (pStreamName != NULL) { ma_strncpy_s(actualStreamName, sizeof(actualStreamName), pStreamName, (size_t)-1); } else { - ma_strcpy_s(actualStreamName, sizeof(actualStreamName), "miniaudio:"); - ma_itoa_s(g_StreamCounter, actualStreamName + 8, sizeof(actualStreamName)-8, 10); /* 8 = strlen("miniaudio:") */ + const char* pBaseName = "miniaudio:"; + size_t baseNameLen = strlen(pBaseName); + ma_strcpy_s(actualStreamName, sizeof(actualStreamName), pBaseName); + ma_itoa_s((int)ma_atomic_uint32_get(&g_StreamCounter), actualStreamName + baseNameLen, sizeof(actualStreamName)-baseNameLen, 10); } - g_StreamCounter += 1; + ma_atomic_uint32_fetch_add(&g_StreamCounter, 1); return ((ma_pa_stream_new_proc)pDevice->pContext->pulse.pa_stream_new)((ma_pa_context*)pDevice->pulse.pPulseContext, actualStreamName, ss, cmap); } @@ -30304,6 +30508,7 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi ma_pa_buffer_attr attr; const ma_pa_sample_spec* pActualSS = NULL; const ma_pa_buffer_attr* pActualAttr = NULL; + const ma_pa_channel_map* pActualChannelMap = NULL; ma_uint32 iChannel; ma_pa_stream_flags_t streamFlags; @@ -30364,7 +30569,7 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi } /* Use a default channel map. */ - ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, MA_PA_CHANNEL_MAP_DEFAULT); + ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, pConfig->pulse.channelMap); /* Use the requested sample rate if one was specified. */ if (pDescriptorCapture->sampleRate != 0) { @@ -30453,7 +30658,12 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi goto on_error4; } + /* Internal channel map. */ + pActualChannelMap = ((ma_pa_stream_get_channel_map_proc)pDevice->pContext->pulse.pa_stream_get_channel_map)((ma_pa_stream*)pDevice->pulse.pStreamCapture); + if (pActualChannelMap == NULL) { + pActualChannelMap = &cmap; /* Fallback just in case. */ + } /* Bug in PipeWire. There have been reports that PipeWire is returning AUX channels when reporting @@ -30463,8 +30673,8 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi fixed sooner than later. I might remove this hack later. */ if (pDescriptorCapture->channels > 2) { - for (iChannel = 0; iChannel < pDescriptorCapture->channels; ++iChannel) { - pDescriptorCapture->channelMap[iChannel] = ma_channel_position_from_pulse(cmap.map[iChannel]); + for (iChannel = 0; iChannel < pDescriptorCapture->channels; iChannel += 1) { + pDescriptorCapture->channelMap[iChannel] = ma_channel_position_from_pulse(pActualChannelMap->map[iChannel]); } } else { /* Hack for mono and stereo. */ @@ -30511,7 +30721,7 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi } /* Use a default channel map. */ - ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, MA_PA_CHANNEL_MAP_DEFAULT); + ((ma_pa_channel_map_init_extend_proc)pDevice->pContext->pulse.pa_channel_map_init_extend)(&cmap, ss.channels, pConfig->pulse.channelMap); /* Use the requested sample rate if one was specified. */ @@ -30605,7 +30815,12 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi goto on_error4; } + /* Internal channel map. */ + pActualChannelMap = ((ma_pa_stream_get_channel_map_proc)pDevice->pContext->pulse.pa_stream_get_channel_map)((ma_pa_stream*)pDevice->pulse.pStreamPlayback); + if (pActualChannelMap == NULL) { + pActualChannelMap = &cmap; /* Fallback just in case. */ + } /* Bug in PipeWire. There have been reports that PipeWire is returning AUX channels when reporting @@ -30615,8 +30830,8 @@ static ma_result ma_device_init__pulse(ma_device* pDevice, const ma_device_confi fixed sooner than later. I might remove this hack later. */ if (pDescriptorPlayback->channels > 2) { - for (iChannel = 0; iChannel < pDescriptorPlayback->channels; ++iChannel) { - pDescriptorPlayback->channelMap[iChannel] = ma_channel_position_from_pulse(cmap.map[iChannel]); + for (iChannel = 0; iChannel < pDescriptorPlayback->channels; iChannel += 1) { + pDescriptorPlayback->channelMap[iChannel] = ma_channel_position_from_pulse(pActualChannelMap->map[iChannel]); } } else { /* Hack for mono and stereo. */ @@ -31769,7 +31984,7 @@ static ma_result ma_context_init__jack(ma_context* pContext, const ma_context_co return MA_SUCCESS; } -#endif /* JACK */ +#endif /* MA_HAS_JACK */ @@ -31860,7 +32075,7 @@ that supports this level of detail. There was some public domain sample code I s and AudioUnit APIs, but I couldn't see anything that gave low-level control over device selection and capabilities (the distinction between playback and capture in particular). Therefore, miniaudio is using the AudioObject API. -Most (all?) functions in the AudioObject API take a AudioObjectID as it's input. This is the device identifier. When +Most (all?) functions in the AudioObject API take a AudioObjectID as its input. This is the device identifier. When retrieving global information, such as the device list, you use kAudioObjectSystemObject. When retrieving device-specific data, you pass in the ID for that device. In order to retrieve device-specific IDs you need to enumerate over each of the devices. This is done using the AudioObjectGetPropertyDataSize() and AudioObjectGetPropertyData() APIs which seem to be @@ -32195,6 +32410,12 @@ static ma_result ma_get_channel_map_from_AudioChannelLayout(AudioChannelLayout* #define AUDIO_OBJECT_PROPERTY_ELEMENT kAudioObjectPropertyElementMaster #endif +/* kAudioDevicePropertyScope* were renamed to kAudioObjectPropertyScope* in 10.8. */ +#if !defined(MAC_OS_X_VERSION_10_8) || (MAC_OS_X_VERSION_MIN_REQUIRED < MAC_OS_X_VERSION_10_8) +#define kAudioObjectPropertyScopeInput kAudioDevicePropertyScopeInput +#define kAudioObjectPropertyScopeOutput kAudioDevicePropertyScopeOutput +#endif + static ma_result ma_get_device_object_ids__coreaudio(ma_context* pContext, UInt32* pDeviceCount, AudioObjectID** ppDeviceObjectIDs) /* NOTE: Free the returned buffer with ma_free(). */ { AudioObjectPropertyAddress propAddressDevices; @@ -32784,7 +33005,7 @@ static ma_result ma_find_best_format__coreaudio(ma_context* pContext, AudioObjec desiredSampleRate = sampleRate; if (desiredSampleRate == 0) { - desiredSampleRate = pOrigFormat->mSampleRate; + desiredSampleRate = (ma_uint32)pOrigFormat->mSampleRate; } desiredChannelCount = channels; @@ -33427,7 +33648,7 @@ static OSStatus ma_on_output__coreaudio(void* pUserData, AudioUnitRenderActionFl } } else { /* This is the deinterleaved case. We need to update each buffer in groups of internalChannels. This assumes each buffer is the same size. */ - MA_ASSERT(pDevice->playback.internalChannels <= MA_MAX_CHANNELS); /* This should heve been validated at initialization time. */ + MA_ASSERT(pDevice->playback.internalChannels <= MA_MAX_CHANNELS); /* This should have been validated at initialization time. */ /* For safety we'll check that the internal channels is a multiple of the buffer count. If it's not it means something @@ -33518,11 +33739,12 @@ static OSStatus ma_on_input__coreaudio(void* pUserData, AudioUnitRenderActionFla */ for (iBuffer = 0; iBuffer < pRenderedBufferList->mNumberBuffers; ++iBuffer) { pRenderedBufferList->mBuffers[iBuffer].mDataByteSize = pDevice->coreaudio.audioBufferCapInFrames * ma_get_bytes_per_sample(pDevice->capture.internalFormat) * pRenderedBufferList->mBuffers[iBuffer].mNumberChannels; + /*printf("DEBUG: nDataByteSize = %d\n", (int)pRenderedBufferList->mBuffers[iBuffer].mDataByteSize);*/ } status = ((ma_AudioUnitRender_proc)pDevice->pContext->coreaudio.AudioUnitRender)((AudioUnit)pDevice->coreaudio.audioUnitCapture, pActionFlags, pTimeStamp, busNumber, frameCount, pRenderedBufferList); if (status != noErr) { - ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, " ERROR: AudioUnitRender() failed with %d.\n", (int)status); + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_DEBUG, "ERROR: AudioUnitRender() failed with %d.\n", (int)status); return status; } @@ -33758,7 +33980,7 @@ static ma_result ma_context__init_device_tracking__coreaudio(ma_context* pContex ma_spinlock_lock(&g_DeviceTrackingInitLock_CoreAudio); { - /* Don't do anything if we've already initializd device tracking. */ + /* Don't do anything if we've already initialized device tracking. */ if (g_DeviceTrackingInitCounter_CoreAudio == 0) { AudioObjectPropertyAddress propAddress; propAddress.mScope = kAudioObjectPropertyScopeGlobal; @@ -34070,11 +34292,11 @@ typedef struct static ma_result ma_device_init_internal__coreaudio(ma_context* pContext, ma_device_type deviceType, const ma_device_id* pDeviceID, ma_device_init_internal_data__coreaudio* pData, void* pDevice_DoNotReference) /* <-- pDevice is typed as void* intentionally so as to avoid accidentally referencing it. */ { - ma_result result; + ma_result result = MA_SUCCESS; OSStatus status; UInt32 enableIOFlag; AudioStreamBasicDescription bestFormat; - UInt32 actualPeriodSizeInFrames; + ma_uint32 actualPeriodSizeInFrames; AURenderCallbackStruct callbackInfo; #if defined(MA_APPLE_DESKTOP) AudioObjectID deviceObjectID; @@ -34226,7 +34448,7 @@ static ma_result ma_device_init_internal__coreaudio(ma_context* pContext, ma_dev returning a result code of -10863. I have also tried changing the format directly on the input scope on the input bus, but this just results in `ca_require: IsStreamFormatWritable(inScope, inElement) NotWritable` when trying to set the format. - Something that does seem to work, however, has been setting the nominal sample rate on the deivce object. The problem with + Something that does seem to work, however, has been setting the nominal sample rate on the device object. The problem with this, however, is that it actually changes the sample rate at the operating system level and not just the application. This could be intrusive to the user, however, so I don't think it's wise to make this the default. Instead I'm making this a configuration option. When the `coreaudio.allowNominalSampleRateChange` config option is set to true, changing the sample @@ -34277,15 +34499,28 @@ static ma_result ma_device_init_internal__coreaudio(ma_context* pContext, ma_dev /* I've had a report that the channel count returned by AudioUnitGetProperty above is inconsistent with AVAudioSession outputNumberOfChannels. I'm going to try using the AVAudioSession values instead. + + UPDATE 20/02/2025: + When testing on the simulator with an iPhone 15 and iOS 17 I get an error when initializing the audio + unit if set the input channels to pAudioSession.inputNumberOfChannels. What is happening is the channel + count returned from AudioUnitGetProperty() above is set to 2, but pAudioSession is reporting a channel + count of 1. When this happens, the call to AudioUnitSetProprty() below just down below will succeed, but + AudioUnitInitialize() further down will fail. The only solution I have come up with is to not set the + channel count to pAudioSession.inputNumberOfChannels. */ if (deviceType == ma_device_type_playback) { bestFormat.mChannelsPerFrame = (UInt32)pAudioSession.outputNumberOfChannels; } + + #if 0 if (deviceType == ma_device_type_capture) { + /*printf("DEBUG: bestFormat.mChannelsPerFrame = %d; pAudioSession.inputNumberOfChannels = %d\n", (int)bestFormat.mChannelsPerFrame, (int)pAudioSession.inputNumberOfChannels);*/ bestFormat.mChannelsPerFrame = (UInt32)pAudioSession.inputNumberOfChannels; } + #endif } + status = ((ma_AudioUnitSetProperty_proc)pContext->coreaudio.AudioUnitSetProperty)(pData->audioUnit, kAudioUnitProperty_StreamFormat, formatScope, formatElement, &bestFormat, sizeof(bestFormat)); if (status != noErr) { ((ma_AudioComponentInstanceDispose_proc)pContext->coreaudio.AudioComponentInstanceDispose)(pData->audioUnit); @@ -34305,7 +34540,7 @@ static ma_result ma_device_init_internal__coreaudio(ma_context* pContext, ma_dev } pData->channelsOut = bestFormat.mChannelsPerFrame; - pData->sampleRateOut = bestFormat.mSampleRate; + pData->sampleRateOut = (ma_uint32)bestFormat.mSampleRate; } /* Clamp the channel count for safety. */ @@ -34612,7 +34847,7 @@ static ma_result ma_device_init__coreaudio(ma_device* pDevice, const ma_device_c ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDCapture, sizeof(pDevice->capture.id.coreaudio), pDevice->capture.id.coreaudio); /* - If we are using the default device we'll need to listen for changes to the system's default device so we can seemlessly + If we are using the default device we'll need to listen for changes to the system's default device so we can seamlessly switch the device in the background. */ if (pConfig->capture.pDeviceID == NULL) { @@ -34676,7 +34911,7 @@ static ma_result ma_device_init__coreaudio(ma_device* pDevice, const ma_device_c ma_get_AudioObject_uid(pDevice->pContext, pDevice->coreaudio.deviceObjectIDPlayback, sizeof(pDevice->playback.id.coreaudio), pDevice->playback.id.coreaudio); /* - If we are using the default device we'll need to listen for changes to the system's default device so we can seemlessly + If we are using the default device we'll need to listen for changes to the system's default device so we can seamlessly switch the device in the background. */ if (pDescriptorPlayback->pDeviceID == NULL && (pConfig->deviceType != ma_device_type_duplex || pDescriptorCapture->pDeviceID != NULL)) { @@ -34994,7 +35229,7 @@ static ma_result ma_context_init__coreaudio(ma_context* pContext, const ma_conte return MA_SUCCESS; } -#endif /* Core Audio */ +#endif /* MA_HAS_COREAUDIO */ @@ -35486,7 +35721,7 @@ static ma_result ma_device_uninit__sndio(ma_device* pDevice) ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)pDevice->sndio.handleCapture); } - if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { ((ma_sio_close_proc)pDevice->pContext->sndio.sio_close)((struct ma_sio_hdl*)pDevice->sndio.handlePlayback); } @@ -35841,7 +36076,7 @@ static ma_result ma_context_init__sndio(ma_context* pContext, const ma_context_c (void)pConfig; return MA_SUCCESS; } -#endif /* sndio */ +#endif /* MA_HAS_SNDIO */ @@ -35859,6 +36094,10 @@ audio(4) Backend #include #include +#ifdef __NetBSD__ +#include +#endif + #if defined(__OpenBSD__) #include #if defined(OpenBSD) && OpenBSD >= 201709 @@ -36078,7 +36317,7 @@ static ma_result ma_context_get_device_info_from_fd__audio4(ma_context* pContext ma_uint32 channels; ma_uint32 sampleRate; -#ifdef __NetBSD__ +#if defined(__NetBSD__) && (__NetBSD_Version__ >= 900000000) if (ioctl(fd, AUDIO_GETFORMAT, &fdInfo) < 0) { return MA_ERROR; } @@ -36364,7 +36603,7 @@ static ma_result ma_device_init_fd__audio4(ma_device* pDevice, const ma_device_c /* We're using a default device. Get the info from the /dev/audioctl file instead of /dev/audio. */ int fdctl = open(pDefaultDeviceCtlNames[iDefaultDevice], fdFlags, 0); if (fdctl != -1) { -#ifdef __NetBSD__ +#if defined(__NetBSD__) && (__NetBSD_Version__ >= 900000000) fdInfoResult = ioctl(fdctl, AUDIO_GETFORMAT, &fdInfo); #else fdInfoResult = ioctl(fdctl, AUDIO_GETINFO, &fdInfo); @@ -36735,7 +36974,7 @@ static ma_result ma_context_init__audio4(ma_context* pContext, const ma_context_ return MA_SUCCESS; } -#endif /* audio4 */ +#endif /* MA_HAS_AUDIO4 */ /****************************************************************************** @@ -37098,7 +37337,7 @@ static ma_result ma_device_init_fd__oss(ma_device* pDevice, const ma_device_conf } /* - The OSS documantation is very clear about the order we should be initializing the device's properties: + The OSS documentation is very clear about the order we should be initializing the device's properties: 1) Format 2) Channels 3) Sample rate. @@ -37366,7 +37605,7 @@ static ma_result ma_context_init__oss(ma_context* pContext, const ma_context_con return MA_SUCCESS; } -#endif /* OSS */ +#endif /* MA_HAS_OSS */ @@ -37379,7 +37618,9 @@ AAudio Backend ******************************************************************************/ #ifdef MA_HAS_AAUDIO -/*#include */ +#ifdef MA_NO_RUNTIME_LINKING + #include +#endif typedef int32_t ma_aaudio_result_t; typedef int32_t ma_aaudio_direction_t; @@ -37592,9 +37833,7 @@ static void ma_stream_error_callback__aaudio(ma_AAudioStream* pStream, void* pUs MA_ASSERT(pDevice != NULL); (void)error; - ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] ERROR CALLBACK: error=%d, AAudioStream_getState()=%d\n", error, ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream)); - /* When we get an error, we'll assume that the stream is in an erroneous state and needs to be restarted. From the documentation, we cannot do this from the error callback. Therefore we are going to use an event thread for the AAudio backend to do this @@ -37622,7 +37861,9 @@ static ma_aaudio_data_callback_result_t ma_stream_data_callback_capture__aaudio( ma_device* pDevice = (ma_device*)pUserData; MA_ASSERT(pDevice != NULL); - ma_device_handle_backend_data_callback(pDevice, NULL, pAudioData, frameCount); + if (frameCount > 0) { + ma_device_handle_backend_data_callback(pDevice, NULL, pAudioData, (ma_uint32)frameCount); + } (void)pStream; return MA_AAUDIO_CALLBACK_RESULT_CONTINUE; @@ -37633,7 +37874,14 @@ static ma_aaudio_data_callback_result_t ma_stream_data_callback_playback__aaudio ma_device* pDevice = (ma_device*)pUserData; MA_ASSERT(pDevice != NULL); - ma_device_handle_backend_data_callback(pDevice, pAudioData, NULL, frameCount); + /* + I've had a report that AAudio can sometimes post a frame count of 0. We need to check for that here + so we don't get any errors at a deeper level. I'm doing the same with the capture side for safety, + though I've not yet had any reports about that one. + */ + if (frameCount > 0) { + ma_device_handle_backend_data_callback(pDevice, pAudioData, NULL, (ma_uint32)frameCount); + } (void)pStream; return MA_AAUDIO_CALLBACK_RESULT_CONTINUE; @@ -37668,32 +37916,25 @@ static ma_result ma_create_and_configure_AAudioStreamBuilder__aaudio(ma_context* ((MA_PFN_AAudioStreamBuilder_setSampleRate)pContext->aaudio.AAudioStreamBuilder_setSampleRate)(pBuilder, pDescriptor->sampleRate); } - if (deviceType == ma_device_type_capture) { - if (pDescriptor->channels != 0) { - ((MA_PFN_AAudioStreamBuilder_setChannelCount)pContext->aaudio.AAudioStreamBuilder_setChannelCount)(pBuilder, pDescriptor->channels); - } - if (pDescriptor->format != ma_format_unknown) { - ((MA_PFN_AAudioStreamBuilder_setFormat)pContext->aaudio.AAudioStreamBuilder_setFormat)(pBuilder, (pDescriptor->format == ma_format_s16) ? MA_AAUDIO_FORMAT_PCM_I16 : MA_AAUDIO_FORMAT_PCM_FLOAT); - } - } else { - if (pDescriptor->channels != 0) { - ((MA_PFN_AAudioStreamBuilder_setChannelCount)pContext->aaudio.AAudioStreamBuilder_setChannelCount)(pBuilder, pDescriptor->channels); - } - if (pDescriptor->format != ma_format_unknown) { - ((MA_PFN_AAudioStreamBuilder_setFormat)pContext->aaudio.AAudioStreamBuilder_setFormat)(pBuilder, (pDescriptor->format == ma_format_s16) ? MA_AAUDIO_FORMAT_PCM_I16 : MA_AAUDIO_FORMAT_PCM_FLOAT); - } + if (pDescriptor->channels != 0) { + ((MA_PFN_AAudioStreamBuilder_setChannelCount)pContext->aaudio.AAudioStreamBuilder_setChannelCount)(pBuilder, pDescriptor->channels); + } + + if (pDescriptor->format != ma_format_unknown) { + ((MA_PFN_AAudioStreamBuilder_setFormat)pContext->aaudio.AAudioStreamBuilder_setFormat)(pBuilder, (pDescriptor->format == ma_format_s16) ? MA_AAUDIO_FORMAT_PCM_I16 : MA_AAUDIO_FORMAT_PCM_FLOAT); } /* - There have been reports where setting the frames per data callback results in an error - later on from Android. To address this, I'm experimenting with simply not setting it on - anything from Android 11 and earlier. Suggestions welcome on how we might be able to make - this more targetted. + There have been reports where setting the frames per data callback results in an error. + In particular, re-routing may inadvertently switch from low-latency mode, resulting in a less stable + stream from the legacy path (AudioStreamLegacy). To address this, we simply don't set the value. It + can still be set if it's explicitly requested via the aaudio.allowSetBufferCapacity variable in the + device config. */ - if (!pConfig->aaudio.enableCompatibilityWorkarounds || ma_android_sdk_version() > 30) { + if ((!pConfig->aaudio.enableCompatibilityWorkarounds || ma_android_sdk_version() > 30) && pConfig->aaudio.allowSetBufferCapacity) { /* - AAudio is annoying when it comes to it's buffer calculation stuff because it doesn't let you + AAudio is annoying when it comes to its buffer calculation stuff because it doesn't let you retrieve the actual sample rate until after you've opened the stream. But you need to configure the buffer capacity before you open the stream... :/ @@ -37727,7 +37968,11 @@ static ma_result ma_create_and_configure_AAudioStreamBuilder__aaudio(ma_context* ((MA_PFN_AAudioStreamBuilder_setDataCallback)pContext->aaudio.AAudioStreamBuilder_setDataCallback)(pBuilder, ma_stream_data_callback_playback__aaudio, (void*)pDevice); } - /* Not sure how this affects things, but since there's a mapping between miniaudio's performance profiles and AAudio's performance modes, let go ahead and set it. */ + /* + If we set AAUDIO_PERFORMANCE_MODE_LOW_LATENCY, we allow for MMAP (non-legacy path). + Since there's a mapping between miniaudio's performance profiles and AAudio's performance modes, let's use it. + Beware though, with a conservative performance profile, AAudio will indeed take the legacy path. + */ ((MA_PFN_AAudioStreamBuilder_setPerformanceMode)pContext->aaudio.AAudioStreamBuilder_setPerformanceMode)(pBuilder, (pConfig->performanceProfile == ma_performance_profile_low_latency) ? MA_AAUDIO_PERFORMANCE_MODE_LOW_LATENCY : MA_AAUDIO_PERFORMANCE_MODE_NONE); /* We need to set an error callback to detect device changes. */ @@ -37763,6 +38008,9 @@ static ma_result ma_open_stream_basic__aaudio(ma_context* pContext, const ma_dev return result; } + /* Let's give AAudio a hint to avoid the legacy path (AudioStreamLegacy). */ + ((MA_PFN_AAudioStreamBuilder_setPerformanceMode)pContext->aaudio.AAudioStreamBuilder_setPerformanceMode)(pBuilder, MA_AAUDIO_PERFORMANCE_MODE_LOW_LATENCY); + return ma_open_stream_and_close_builder__aaudio(pContext, pBuilder, ppStream); } @@ -37787,6 +38035,10 @@ static ma_result ma_open_stream__aaudio(ma_device* pDevice, const ma_device_conf static ma_result ma_close_stream__aaudio(ma_context* pContext, ma_AAudioStream* pStream) { + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + return ma_result_from_aaudio(((MA_PFN_AAudioStream_close)pContext->aaudio.AAudioStream_close)(pStream)); } @@ -37913,20 +38165,36 @@ static ma_result ma_context_get_device_info__aaudio(ma_context* pContext, ma_dev return MA_SUCCESS; } +static ma_result ma_close_streams__aaudio(ma_device* pDevice) +{ + MA_ASSERT(pDevice != NULL); + + /* When re-routing, streams may have been closed and never re-opened. Hence the extra checks below. */ + if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { + ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); + pDevice->aaudio.pStreamCapture = NULL; + } + if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { + ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); + pDevice->aaudio.pStreamPlayback = NULL; + } + + return MA_SUCCESS; +} static ma_result ma_device_uninit__aaudio(ma_device* pDevice) { MA_ASSERT(pDevice != NULL); - if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex) { - ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); - pDevice->aaudio.pStreamCapture = NULL; + /* Wait for any rerouting to finish before attempting to close the streams. */ + ma_mutex_lock(&pDevice->aaudio.rerouteLock); + { + ma_close_streams__aaudio(pDevice); } + ma_mutex_unlock(&pDevice->aaudio.rerouteLock); - if (pDevice->type == ma_device_type_playback || pDevice->type == ma_device_type_duplex) { - ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); - pDevice->aaudio.pStreamPlayback = NULL; - } + /* Destroy re-routing lock. */ + ma_mutex_uninit(&pDevice->aaudio.rerouteLock); return MA_SUCCESS; } @@ -37978,7 +38246,7 @@ static ma_result ma_device_init_by_type__aaudio(ma_device* pDevice, const ma_dev return MA_SUCCESS; } -static ma_result ma_device_init__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +static ma_result ma_device_init_streams__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) { ma_result result; @@ -38011,6 +38279,25 @@ static ma_result ma_device_init__aaudio(ma_device* pDevice, const ma_device_conf return MA_SUCCESS; } +static ma_result ma_device_init__aaudio(ma_device* pDevice, const ma_device_config* pConfig, ma_device_descriptor* pDescriptorPlayback, ma_device_descriptor* pDescriptorCapture) +{ + ma_result result; + + MA_ASSERT(pDevice != NULL); + + result = ma_device_init_streams__aaudio(pDevice, pConfig, pDescriptorPlayback, pDescriptorCapture); + if (result != MA_SUCCESS) { + return result; + } + + result = ma_mutex_init(&pDevice->aaudio.rerouteLock); + if (result != MA_SUCCESS) { + return result; + } + + return MA_SUCCESS; +} + static ma_result ma_device_start_stream__aaudio(ma_device* pDevice, ma_AAudioStream* pStream) { ma_aaudio_result_t resultAA; @@ -38018,12 +38305,16 @@ static ma_result ma_device_start_stream__aaudio(ma_device* pDevice, ma_AAudioStr MA_ASSERT(pDevice != NULL); + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + resultAA = ((MA_PFN_AAudioStream_requestStart)pDevice->pContext->aaudio.AAudioStream_requestStart)(pStream); if (resultAA != MA_AAUDIO_OK) { return ma_result_from_aaudio(resultAA); } - /* Do we actually need to wait for the device to transition into it's started state? */ + /* Do we actually need to wait for the device to transition into its started state? */ /* The device should be in either a starting or started state. If it's not set to started we need to wait for it to transition. It should go from starting to started. */ currentState = ((MA_PFN_AAudioStream_getState)pDevice->pContext->aaudio.AAudioStream_getState)(pStream); @@ -38050,6 +38341,10 @@ static ma_result ma_device_stop_stream__aaudio(ma_device* pDevice, ma_AAudioStre MA_ASSERT(pDevice != NULL); + if (pStream == NULL) { + return MA_INVALID_ARGS; + } + /* From the AAudio documentation: @@ -38135,22 +38430,20 @@ static ma_result ma_device_stop__aaudio(ma_device* pDevice) static ma_result ma_device_reinit__aaudio(ma_device* pDevice, ma_device_type deviceType) { ma_result result; + int32_t retries = 0; MA_ASSERT(pDevice != NULL); - /* The first thing to do is close the streams. */ - if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex) { - ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamCapture); - pDevice->aaudio.pStreamCapture = NULL; - } - - if (deviceType == ma_device_type_playback || deviceType == ma_device_type_duplex) { - ma_close_stream__aaudio(pDevice->pContext, (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback); - pDevice->aaudio.pStreamPlayback = NULL; - } - - /* Now we need to reinitialize each streams. The hardest part with this is just filling output the config and descriptors. */ + /* + TODO: Stop retrying if main thread is about to uninit device. + */ + ma_mutex_lock(&pDevice->aaudio.rerouteLock); { +error_disconnected: + /* The first thing to do is close the streams. */ + ma_close_streams__aaudio(pDevice); + + /* Now we need to reinitialize each streams. The hardest part with this is just filling output the config and descriptors. */ ma_device_config deviceConfig; ma_device_descriptor descriptorPlayback; ma_device_descriptor descriptorCapture; @@ -38199,15 +38492,17 @@ static ma_result ma_device_reinit__aaudio(ma_device* pDevice, ma_device_type dev descriptorPlayback.periodCount = deviceConfig.periods; } - result = ma_device_init__aaudio(pDevice, &deviceConfig, &descriptorPlayback, &descriptorCapture); + result = ma_device_init_streams__aaudio(pDevice, &deviceConfig, &descriptorPlayback, &descriptorCapture); if (result != MA_SUCCESS) { - return result; + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[AAudio] Failed to create stream after route change."); + goto done; } result = ma_device_post_init(pDevice, deviceType, &descriptorPlayback, &descriptorCapture); if (result != MA_SUCCESS) { - ma_device_uninit__aaudio(pDevice); - return result; + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_WARNING, "[AAudio] Failed to initialize device after route change."); + ma_close_streams__aaudio(pDevice); + goto done; } /* We'll only ever do this in response to a reroute. */ @@ -38216,14 +38511,29 @@ static ma_result ma_device_reinit__aaudio(ma_device* pDevice, ma_device_type dev /* If the device is started, start the streams. Maybe make this configurable? */ if (ma_device_get_state(pDevice) == ma_device_state_started) { if (pDevice->aaudio.noAutoStartAfterReroute == MA_FALSE) { - ma_device_start__aaudio(pDevice); + result = ma_device_start__aaudio(pDevice); + if (result != MA_SUCCESS) { + /* We got disconnected! Retry a few times, until we find a connected device! */ + retries += 1; + if (retries <= 3) { + ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Failed to start stream after route change, retrying(%d)", retries); + goto error_disconnected; + } + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[AAudio] Failed to start stream after route change."); + goto done; + } } else { ma_device_stop(pDevice); /* Do a full device stop so we set internal state correctly. */ } } - - return MA_SUCCESS; + + result = MA_SUCCESS; } +done: + /* Re-routing done */ + ma_mutex_unlock(&pDevice->aaudio.rerouteLock); + + return result; } static ma_result ma_device_get_info__aaudio(ma_device* pDevice, ma_device_type type, ma_device_info* pDeviceInfo) @@ -38234,12 +38544,12 @@ static ma_result ma_device_get_info__aaudio(ma_device* pDevice, ma_device_type t MA_ASSERT(type != ma_device_type_duplex); MA_ASSERT(pDeviceInfo != NULL); - if (type == ma_device_type_playback) { + if (type == ma_device_type_capture) { pStream = (ma_AAudioStream*)pDevice->aaudio.pStreamCapture; pDeviceInfo->id.aaudio = pDevice->capture.id.aaudio; ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_CAPTURE_DEVICE_NAME, (size_t)-1); /* Only supporting default devices. */ } - if (type == ma_device_type_capture) { + if (type == ma_device_type_playback) { pStream = (ma_AAudioStream*)pDevice->aaudio.pStreamPlayback; pDeviceInfo->id.aaudio = pDevice->playback.id.aaudio; ma_strncpy_s(pDeviceInfo->name, sizeof(pDeviceInfo->name), MA_DEFAULT_PLAYBACK_DEVICE_NAME, (size_t)-1); /* Only supporting default devices. */ @@ -38272,6 +38582,7 @@ static ma_result ma_context_uninit__aaudio(ma_context* pContext) static ma_result ma_context_init__aaudio(ma_context* pContext, const ma_context_config* pConfig, ma_backend_callbacks* pCallbacks) { +#if !defined(MA_NO_RUNTIME_LINKING) size_t i; const char* libNames[] = { "libaaudio.so" @@ -38317,7 +38628,39 @@ static ma_result ma_context_init__aaudio(ma_context* pContext, const ma_context_ pContext->aaudio.AAudioStream_getFramesPerBurst = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_getFramesPerBurst"); pContext->aaudio.AAudioStream_requestStart = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_requestStart"); pContext->aaudio.AAudioStream_requestStop = (ma_proc)ma_dlsym(ma_context_get_log(pContext), pContext->aaudio.hAAudio, "AAudioStream_requestStop"); - +#else + pContext->aaudio.AAudio_createStreamBuilder = (ma_proc)AAudio_createStreamBuilder; + pContext->aaudio.AAudioStreamBuilder_delete = (ma_proc)AAudioStreamBuilder_delete; + pContext->aaudio.AAudioStreamBuilder_setDeviceId = (ma_proc)AAudioStreamBuilder_setDeviceId; + pContext->aaudio.AAudioStreamBuilder_setDirection = (ma_proc)AAudioStreamBuilder_setDirection; + pContext->aaudio.AAudioStreamBuilder_setSharingMode = (ma_proc)AAudioStreamBuilder_setSharingMode; + pContext->aaudio.AAudioStreamBuilder_setFormat = (ma_proc)AAudioStreamBuilder_setFormat; + pContext->aaudio.AAudioStreamBuilder_setChannelCount = (ma_proc)AAudioStreamBuilder_setChannelCount; + pContext->aaudio.AAudioStreamBuilder_setSampleRate = (ma_proc)AAudioStreamBuilder_setSampleRate; + pContext->aaudio.AAudioStreamBuilder_setBufferCapacityInFrames = (ma_proc)AAudioStreamBuilder_setBufferCapacityInFrames; + pContext->aaudio.AAudioStreamBuilder_setFramesPerDataCallback = (ma_proc)AAudioStreamBuilder_setFramesPerDataCallback; + pContext->aaudio.AAudioStreamBuilder_setDataCallback = (ma_proc)AAudioStreamBuilder_setDataCallback; + pContext->aaudio.AAudioStreamBuilder_setErrorCallback = (ma_proc)AAudioStreamBuilder_setErrorCallback; + pContext->aaudio.AAudioStreamBuilder_setPerformanceMode = (ma_proc)AAudioStreamBuilder_setPerformanceMode; + pContext->aaudio.AAudioStreamBuilder_setUsage = (ma_proc)AAudioStreamBuilder_setUsage; + pContext->aaudio.AAudioStreamBuilder_setContentType = (ma_proc)AAudioStreamBuilder_setContentType; + pContext->aaudio.AAudioStreamBuilder_setInputPreset = (ma_proc)AAudioStreamBuilder_setInputPreset; + #if defined(__ANDROID_API__) && __ANDROID_API__ >= 29 + pContext->aaudio.AAudioStreamBuilder_setAllowedCapturePolicy = (ma_proc)AAudioStreamBuilder_setAllowedCapturePolicy; + #endif + pContext->aaudio.AAudioStreamBuilder_openStream = (ma_proc)AAudioStreamBuilder_openStream; + pContext->aaudio.AAudioStream_close = (ma_proc)AAudioStream_close; + pContext->aaudio.AAudioStream_getState = (ma_proc)AAudioStream_getState; + pContext->aaudio.AAudioStream_waitForStateChange = (ma_proc)AAudioStream_waitForStateChange; + pContext->aaudio.AAudioStream_getFormat = (ma_proc)AAudioStream_getFormat; + pContext->aaudio.AAudioStream_getChannelCount = (ma_proc)AAudioStream_getChannelCount; + pContext->aaudio.AAudioStream_getSampleRate = (ma_proc)AAudioStream_getSampleRate; + pContext->aaudio.AAudioStream_getBufferCapacityInFrames = (ma_proc)AAudioStream_getBufferCapacityInFrames; + pContext->aaudio.AAudioStream_getFramesPerDataCallback = (ma_proc)AAudioStream_getFramesPerDataCallback; + pContext->aaudio.AAudioStream_getFramesPerBurst = (ma_proc)AAudioStream_getFramesPerBurst; + pContext->aaudio.AAudioStream_requestStart = (ma_proc)AAudioStream_requestStart; + pContext->aaudio.AAudioStream_requestStop = (ma_proc)AAudioStream_requestStop; +#endif pCallbacks->onContextInit = ma_context_init__aaudio; pCallbacks->onContextUninit = ma_context_uninit__aaudio; @@ -38355,6 +38698,7 @@ static ma_result ma_context_init__aaudio(ma_context* pContext, const ma_context_ static ma_result ma_job_process__device__aaudio_reroute(ma_job* pJob) { + ma_result result; ma_device* pDevice; MA_ASSERT(pJob != NULL); @@ -38363,7 +38707,18 @@ static ma_result ma_job_process__device__aaudio_reroute(ma_job* pJob) MA_ASSERT(pDevice != NULL); /* Here is where we need to reroute the device. To do this we need to uninitialize the stream and reinitialize it. */ - return ma_device_reinit__aaudio(pDevice, (ma_device_type)pJob->data.device.aaudio.reroute.deviceType); + result = ma_device_reinit__aaudio(pDevice, (ma_device_type)pJob->data.device.aaudio.reroute.deviceType); + if (result != MA_SUCCESS) { + /* + Getting here means we failed to reroute the device. The best thing I can think of here is to + just stop the device. + */ + ma_log_post(ma_device_get_log(pDevice), MA_LOG_LEVEL_ERROR, "[AAudio] Stopping device due to reroute failure."); + ma_device_stop(pDevice); + return result; + } + + return MA_SUCCESS; } #else /* Getting here means there is no AAudio backend so we need a no-op job implementation. */ @@ -39649,6 +40004,10 @@ Web Audio Backend #if (__EMSCRIPTEN_major__ > 3) || (__EMSCRIPTEN_major__ == 3 && (__EMSCRIPTEN_minor__ > 1 || (__EMSCRIPTEN_minor__ == 1 && __EMSCRIPTEN_tiny__ >= 32))) #include #define MA_SUPPORT_AUDIO_WORKLETS + + #if (__EMSCRIPTEN_major__ > 3) || (__EMSCRIPTEN_major__ == 3 && (__EMSCRIPTEN_minor__ > 1 || (__EMSCRIPTEN_minor__ == 1 && __EMSCRIPTEN_tiny__ >= 70))) + #define MA_SUPPORT_AUDIO_WORKLETS_VARIABLE_BUFFER_SIZE + #endif #endif /* @@ -39660,7 +40019,7 @@ TODO: Version 0.12: Swap this logic around so that AudioWorklets are used by def /* The thread stack size must be a multiple of 16. */ #ifndef MA_AUDIO_WORKLETS_THREAD_STACK_SIZE -#define MA_AUDIO_WORKLETS_THREAD_STACK_SIZE 16384 +#define MA_AUDIO_WORKLETS_THREAD_STACK_SIZE 131072 #endif #if defined(MA_USE_AUDIO_WORKLETS) @@ -39786,12 +40145,14 @@ static ma_result ma_device_uninit__webaudio(ma_device* pDevice) #if defined(MA_USE_AUDIO_WORKLETS) { EM_ASM({ - var device = miniaudio.get_device_by_index($0); + var device = window.miniaudio.get_device_by_index($0); if (device.streamNode !== undefined) { device.streamNode.disconnect(); device.streamNode = undefined; } + + device.pDevice = undefined; }, pDevice->webaudio.deviceIndex); emscripten_destroy_web_audio_node(pDevice->webaudio.audioWorklet); @@ -39801,7 +40162,7 @@ static ma_result ma_device_uninit__webaudio(ma_device* pDevice) #else { EM_ASM({ - var device = miniaudio.get_device_by_index($0); + var device = window.miniaudio.get_device_by_index($0); /* Make sure all nodes are disconnected and marked for collection. */ if (device.scriptNode !== undefined) { @@ -39828,7 +40189,7 @@ static ma_result ma_device_uninit__webaudio(ma_device* pDevice) /* Clean up the device on the JS side. */ EM_ASM({ - miniaudio.untrack_device_by_index($0); + window.miniaudio.untrack_device_by_index($0); }, pDevice->webaudio.deviceIndex); ma_free(pDevice->webaudio.pIntermediaryBuffer, &pDevice->pContext->allocationCallbacks); @@ -39894,10 +40255,6 @@ static EM_BOOL ma_audio_worklet_process_callback__webaudio(int inputCount, const (void)paramCount; (void)pParams; - if (ma_device_get_state(pDevice) != ma_device_state_started) { - return EM_TRUE; - } - /* The Emscripten documentation says that it'll always be 128 frames being passed in. Hard coding it like that feels like a very bad idea to me. Even if it's hard coded in the backend, the API and documentation should always refer @@ -39906,7 +40263,20 @@ static EM_BOOL ma_audio_worklet_process_callback__webaudio(int inputCount, const Unfortunately the audio data is not interleaved so we'll need to convert it before we give the data to miniaudio for further processing. */ - frameCount = 128; + if (pDevice->type == ma_device_type_playback) { + frameCount = pDevice->playback.internalPeriodSizeInFrames; + } else { + frameCount = pDevice->capture.internalPeriodSizeInFrames; + } + + if (ma_device_get_state(pDevice) != ma_device_state_started) { + /* Fill the output buffer with zero to avoid a noise sound */ + for (int i = 0; i < outputCount; i += 1) { + MA_ZERO_MEMORY(pOutputs[i].data, pOutputs[i].numberOfChannels * frameCount * sizeof(float)); + } + + return EM_TRUE; + } if (inputCount > 0) { /* Input data needs to be interleaved before we hand it to the client. */ @@ -39961,7 +40331,7 @@ static void ma_audio_worklet_processor_created__webaudio(EMSCRIPTEN_WEBAUDIO_T a count from MediaStreamAudioSourceNode (what we use for capture)? The only way to have control is to configure an output channel count on the capture side. This is slightly confusing for capture mode because intuitively you wouldn't actually connect an output to an input-only node, but this is what we'll have to do in order to have - proper control over the channel count. In the capture case, we'll have to output silence to it's output node. + proper control over the channel count. In the capture case, we'll have to output silence to its output node. */ if (pParameters->pConfig->deviceType == ma_device_type_capture) { channels = (int)((pParameters->pDescriptorCapture->channels > 0) ? pParameters->pDescriptorCapture->channels : MA_DEFAULT_CHANNELS); @@ -39984,7 +40354,15 @@ static void ma_audio_worklet_processor_created__webaudio(EMSCRIPTEN_WEBAUDIO_T a Now that we know the channel count to use we can allocate the intermediary buffer. The intermediary buffer is used for interleaving and deinterleaving. */ - intermediaryBufferSizeInFrames = 128; + #if defined(MA_SUPPORT_AUDIO_WORKLETS_VARIABLE_BUFFER_SIZE) + { + intermediaryBufferSizeInFrames = (size_t)emscripten_audio_context_quantum_size(audioContext); + } + #else + { + intermediaryBufferSizeInFrames = 128; + } + #endif pParameters->pDevice->webaudio.pIntermediaryBuffer = (float*)ma_malloc(intermediaryBufferSizeInFrames * (ma_uint32)channels * sizeof(float), &pParameters->pDevice->pContext->allocationCallbacks); if (pParameters->pDevice->webaudio.pIntermediaryBuffer == NULL) { @@ -39993,7 +40371,6 @@ static void ma_audio_worklet_processor_created__webaudio(EMSCRIPTEN_WEBAUDIO_T a return; } - pParameters->pDevice->webaudio.audioWorklet = emscripten_create_wasm_audio_worklet_node(audioContext, "miniaudio", &audioWorkletOptions, &ma_audio_worklet_process_callback__webaudio, pParameters->pDevice); /* With the audio worklet initialized we can now attach it to the graph. */ @@ -40133,7 +40510,6 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co /* It's not clear if this can return an error. None of the tests in the Emscripten repository check for this, so neither am I for now. */ pDevice->webaudio.audioContext = emscripten_create_audio_context(&audioContextAttributes); - /* With the context created we can now create the worklet. We can only have a single worklet per audio context which means we'll need to craft this appropriately to handle duplex devices correctly. @@ -40182,11 +40558,12 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co /* We need to add an entry to the miniaudio.devices list on the JS side so we can do some JS/C interop. */ pDevice->webaudio.deviceIndex = EM_ASM_INT({ - return miniaudio.track_device({ + return window.miniaudio.track_device({ webaudio: emscriptenGetAudioObject($0), - state: 1 /* 1 = ma_device_state_stopped */ + state: 1, /* 1 = ma_device_state_stopped */ + pDevice: $1 }); - }, pDevice->webaudio.audioContext); + }, pDevice->webaudio.audioContext, pDevice); return MA_SUCCESS; } @@ -40198,7 +40575,7 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co ma_uint32 sampleRate; ma_uint32 periodSizeInFrames; - /* The channel count will depend on the device type. If it's a capture, use it's, otherwise use the playback side. */ + /* The channel count will depend on the device type. If it's a capture, use its, otherwise use the playback side. */ if (pConfig->deviceType == ma_device_type_capture) { channels = (pDescriptorCapture->channels > 0) ? pDescriptorCapture->channels : MA_DEFAULT_CHANNELS; } else { @@ -40267,11 +40644,11 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co /* The node processing callback. */ device.scriptNode.onaudioprocess = function(e) { if (device.intermediaryBufferView == null || device.intermediaryBufferView.length == 0) { - device.intermediaryBufferView = new Float32Array(Module.HEAPF32.buffer, pIntermediaryBuffer, bufferSize * channels); + device.intermediaryBufferView = new Float32Array(HEAPF32.buffer, pIntermediaryBuffer, bufferSize * channels); } /* Do the capture side first. */ - if (deviceType == miniaudio.device_type.capture || deviceType == miniaudio.device_type.duplex) { + if (deviceType == window.miniaudio.device_type.capture || deviceType == window.miniaudio.device_type.duplex) { /* The data must be interleaved before being processed miniaudio. */ for (var iChannel = 0; iChannel < channels; iChannel += 1) { var inputBuffer = e.inputBuffer.getChannelData(iChannel); @@ -40285,7 +40662,7 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co _ma_device_process_pcm_frames_capture__webaudio(pDevice, bufferSize, pIntermediaryBuffer); } - if (deviceType == miniaudio.device_type.playback || deviceType == miniaudio.device_type.duplex) { + if (deviceType == window.miniaudio.device_type.playback || deviceType == window.miniaudio.device_type.duplex) { _ma_device_process_pcm_frames_playback__webaudio(pDevice, bufferSize, pIntermediaryBuffer); for (var iChannel = 0; iChannel < e.outputBuffer.numberOfChannels; ++iChannel) { @@ -40305,7 +40682,7 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co }; /* Now we need to connect our node to the graph. */ - if (deviceType == miniaudio.device_type.capture || deviceType == miniaudio.device_type.duplex) { + if (deviceType == window.miniaudio.device_type.capture || deviceType == window.miniaudio.device_type.duplex) { navigator.mediaDevices.getUserMedia({audio:true, video:false}) .then(function(stream) { device.streamNode = device.webaudio.createMediaStreamSource(stream); @@ -40317,13 +40694,13 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co }); } - if (deviceType == miniaudio.device_type.playback) { + if (deviceType == window.miniaudio.device_type.playback) { device.scriptNode.connect(device.webaudio.destination); } device.pDevice = pDevice; - return miniaudio.track_device(device); + return window.miniaudio.track_device(device); }, pConfig->deviceType, channels, sampleRate, periodSizeInFrames, pDevice->webaudio.pIntermediaryBuffer, pDevice); if (deviceIndex < 0) { @@ -40333,7 +40710,7 @@ static ma_result ma_device_init__webaudio(ma_device* pDevice, const ma_device_co pDevice->webaudio.deviceIndex = deviceIndex; /* Grab the sample rate from the audio context directly. */ - sampleRate = (ma_uint32)EM_ASM_INT({ return miniaudio.get_device_by_index($0).webaudio.sampleRate; }, deviceIndex); + sampleRate = (ma_uint32)EM_ASM_INT({ return window.miniaudio.get_device_by_index($0).webaudio.sampleRate; }, deviceIndex); if (pDescriptorCapture != NULL) { pDescriptorCapture->format = ma_format_f32; @@ -40363,9 +40740,9 @@ static ma_result ma_device_start__webaudio(ma_device* pDevice) MA_ASSERT(pDevice != NULL); EM_ASM({ - var device = miniaudio.get_device_by_index($0); + var device = window.miniaudio.get_device_by_index($0); device.webaudio.resume(); - device.state = miniaudio.device_state.started; + device.state = window.miniaudio.device_state.started; }, pDevice->webaudio.deviceIndex); return MA_SUCCESS; @@ -40385,9 +40762,9 @@ static ma_result ma_device_stop__webaudio(ma_device* pDevice) do any kind of explicit draining. */ EM_ASM({ - var device = miniaudio.get_device_by_index($0); + var device = window.miniaudio.get_device_by_index($0); device.webaudio.suspend(); - device.state = miniaudio.device_state.stopped; + device.state = window.miniaudio.device_state.stopped; }, pDevice->webaudio.deviceIndex); ma_device__on_notification_stopped(pDevice); @@ -40405,6 +40782,10 @@ static ma_result ma_context_uninit__webaudio(ma_context* pContext) /* Remove the global miniaudio object from window if there are no more references to it. */ EM_ASM({ if (typeof(window.miniaudio) !== 'undefined') { + miniaudio.unlock_event_types.map(function(event_type) { + document.removeEventListener(event_type, miniaudio.unlock, true); + }); + window.miniaudio.referenceCount -= 1; if (window.miniaudio.referenceCount === 0) { delete window.miniaudio; @@ -40446,6 +40827,7 @@ static ma_result ma_context_init__webaudio(ma_context* pContext, const ma_contex window.miniaudio.device_state.started = $4; /* Device cache for mapping devices to indexes for JavaScript/C interop. */ + let miniaudio = window.miniaudio; miniaudio.devices = []; miniaudio.track_device = function(device) { @@ -40497,13 +40879,13 @@ static ma_result ma_context_init__webaudio(ma_context* pContext, const ma_contex var device = miniaudio.devices[i]; if (device != null && device.webaudio != null && - device.state === window.miniaudio.device_state.started) { + device.state === miniaudio.device_state.started) { device.webaudio.resume().then(() => { - Module._ma_device__on_notification_unlocked(device.pDevice); - }, - (error) => {console.error("Failed to resume audiocontext", error); - }); + _ma_device__on_notification_unlocked(device.pDevice); + }, + (error) => {console.error("Failed to resume audiocontext", error); + }); } } miniaudio.unlock_event_types.map(function(event_type) { @@ -40539,7 +40921,7 @@ static ma_result ma_context_init__webaudio(ma_context* pContext, const ma_contex return MA_SUCCESS; } -#endif /* Web Audio */ +#endif /* MA_HAS_WEBAUDIO */ @@ -40818,7 +41200,7 @@ MA_API ma_result ma_device_post_init(ma_device* pDevice, ma_device_type deviceTy ma_device_info deviceInfo; if (deviceType == ma_device_type_capture || deviceType == ma_device_type_duplex || deviceType == ma_device_type_loopback) { - result = ma_device_get_info(pDevice, (deviceType == ma_device_type_loopback) ? ma_device_type_playback : ma_device_type_capture, &deviceInfo); + result = ma_device_get_info(pDevice, ma_device_type_capture, &deviceInfo); if (result == MA_SUCCESS) { ma_strncpy_s(pDevice->capture.name, sizeof(pDevice->capture.name), deviceInfo.name, (size_t)-1); } else { @@ -40865,7 +41247,7 @@ static ma_thread_result MA_THREADCALL ma_worker_thread(void* pData) #endif /* - When the device is being initialized it's initial state is set to ma_device_state_uninitialized. Before returning from + When the device is being initialized its initial state is set to ma_device_state_uninitialized. Before returning from ma_device_init(), the state needs to be set to something valid. In miniaudio the device's default state immediately after initialization is stopped, so therefore we need to mark the device as such. miniaudio will wait on the worker thread to signal an event to know when the worker thread is ready for action. @@ -41210,6 +41592,24 @@ MA_API ma_result ma_device_job_thread_next(ma_device_job_thread* pJobThread, ma_ } +MA_API ma_bool32 ma_device_id_equal(const ma_device_id* pA, const ma_device_id* pB) +{ + size_t i; + + if (pA == NULL || pB == NULL) { + return MA_FALSE; + } + + for (i = 0; i < sizeof(ma_device_id); i += 1) { + if (((const char*)pA)[i] != ((const char*)pB)[i]) { + return MA_FALSE; + } + } + + return MA_TRUE; +} + + MA_API ma_context_config ma_context_config_init(void) { @@ -41983,7 +42383,7 @@ MA_API ma_result ma_device_init(ma_context* pContext, const ma_device_config* pC return result; } - /* Wait for the worker thread to put the device into it's stopped state for real. */ + /* Wait for the worker thread to put the device into its stopped state for real. */ ma_event_wait(&pDevice->stopEvent); MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_stopped); } else { @@ -42009,7 +42409,7 @@ MA_API ma_result ma_device_init(ma_context* pContext, const ma_device_config* pC ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, "[%s]\n", ma_get_backend_name(pDevice->pContext->backend)); if (pDevice->type == ma_device_type_capture || pDevice->type == ma_device_type_duplex || pDevice->type == ma_device_type_loopback) { char name[MA_MAX_DEVICE_NAME_LENGTH + 1]; - ma_device_get_name(pDevice, (pDevice->type == ma_device_type_loopback) ? ma_device_type_playback : ma_device_type_capture, name, sizeof(name), NULL); + ma_device_get_name(pDevice, ma_device_type_capture, name, sizeof(name), NULL); ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " %s (%s)\n", name, "Capture"); ma_log_postf(ma_device_get_log(pDevice), MA_LOG_LEVEL_INFO, " Format: %s -> %s\n", ma_get_format_name(pDevice->capture.internalFormat), ma_get_format_name(pDevice->capture.format)); @@ -42262,6 +42662,17 @@ MA_API ma_result ma_device_get_info(ma_device* pDevice, ma_device_type type, ma_ if (type == ma_device_type_playback) { return ma_context_get_device_info(pDevice->pContext, type, pDevice->playback.pID, pDeviceInfo); } else { + /* + Here we're getting the capture side, which is the branch we'll be entering for a loopback + device, since loopback is capturing. However, if the device is using the default device ID, + it won't get the correct information because it'll think we're asking for the default + capture device, where in fact for loopback we want the default *playback* device. We'll do + a bit of a hack here to make sure we get the correct info. + */ + if (pDevice->type == ma_device_type_loopback && pDevice->capture.pID == NULL) { + type = ma_device_type_playback; + } + return ma_context_get_device_info(pDevice->pContext, type, pDevice->capture.pID, pDeviceInfo); } } @@ -42323,6 +42734,15 @@ MA_API ma_result ma_device_start(ma_device* pDevice) ma_mutex_lock(&pDevice->startStopLock); { + /* + We need to check again if the device is in a started state because it's possible for one thread to have started the device + while another was waiting on the mutex. + */ + if (ma_device_get_state(pDevice) == ma_device_state_started) { + ma_mutex_unlock(&pDevice->startStopLock); + return MA_SUCCESS; /* Already started. */ + } + /* Starting and stopping are wrapped in a mutex which means we can assert that the device is in a stopped or paused state. */ MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_stopped); @@ -42383,6 +42803,15 @@ MA_API ma_result ma_device_stop(ma_device* pDevice) ma_mutex_lock(&pDevice->startStopLock); { + /* + We need to check again if the device is in a stopped state because it's possible for one thread to have stopped the device + while another was waiting on the mutex. + */ + if (ma_device_get_state(pDevice) == ma_device_state_stopped) { + ma_mutex_unlock(&pDevice->startStopLock); + return MA_SUCCESS; /* Already stopped. */ + } + /* Starting and stopping are wrapped in a mutex which means we can assert that the device is in a started or paused state. */ MA_ASSERT(ma_device_get_state(pDevice) == ma_device_state_started); @@ -42401,7 +42830,7 @@ MA_API ma_result ma_device_stop(ma_device* pDevice) } else { /* Synchronous backends. The stop callback is always called from the worker thread. Do not call the stop callback here. If - the backend is implementing it's own audio thread loop we'll need to wake it up if required. Note that we need to make + the backend is implementing its own audio thread loop we'll need to wake it up if required. Note that we need to make sure the state of the device is *not* playing right now, which it shouldn't be since we set it above. This is super important though, so I'm asserting it here as well for extra safety in case we accidentally change something later. */ @@ -42518,6 +42947,15 @@ MA_API ma_result ma_device_handle_backend_data_callback(ma_device* pDevice, void return MA_INVALID_ARGS; } + /* + There is an assert deeper in the code that checks that frameCount > 0. Since this is a public facing + API we'll need to check for that here. I've had reports that AAudio can sometimes post a frame count + of 0. + */ + if (frameCount == 0) { + return MA_INVALID_ARGS; + } + if (pDevice->type == ma_device_type_duplex) { if (pInput != NULL) { ma_device__handle_duplex_callback_capture(pDevice, frameCount, pInput, &pDevice->duplexRB.rb); @@ -42592,7 +43030,7 @@ MA_API ma_uint32 ma_calculate_buffer_size_in_milliseconds_from_frames(ma_uint32 return 0; } - return bufferSizeInFrames*1000 / sampleRate; + return (bufferSizeInFrames*1000 + (sampleRate - 1)) / sampleRate; } MA_API ma_uint32 ma_calculate_buffer_size_in_frames_from_milliseconds(ma_uint32 bufferSizeInMilliseconds, ma_uint32 sampleRate) @@ -47420,7 +47858,7 @@ static ma_result ma_bpf_get_heap_layout(const ma_bpf_config* pConfig, ma_bpf_hea return MA_INVALID_ARGS; } - bpf2Count = pConfig->channels / 2; + bpf2Count = pConfig->order / 2; pHeapLayout->sizeInBytes = 0; @@ -49478,7 +49916,7 @@ MA_API float ma_fader_get_current_volume(const ma_fader* pFader) } else if ((ma_uint64)pFader->cursorInFrames >= pFader->lengthInFrames) { /* Safe case because the < 0 case was checked above. */ return pFader->volumeEnd; } else { - /* The cursor is somewhere inside the fading period. We can figure this out with a simple linear interpoluation between volumeBeg and volumeEnd based on our cursor position. */ + /* The cursor is somewhere inside the fading period. We can figure this out with a simple linear interpolation between volumeBeg and volumeEnd based on our cursor position. */ return ma_mix_f32_fast(pFader->volumeBeg, pFader->volumeEnd, (ma_uint32)pFader->cursorInFrames / (float)((ma_uint32)pFader->lengthInFrames)); /* Safe cast to uint32 because we clamp it in ma_fader_process_pcm_frames(). */ } } @@ -49701,9 +50139,9 @@ static float ma_attenuation_exponential(float distance, float minDistance, float /* -Dopper Effect calculation taken from the OpenAL spec, with two main differences: +Doppler Effect calculation taken from the OpenAL spec, with two main differences: - 1) The source to listener vector will have already been calcualted at an earlier step so we can + 1) The source to listener vector will have already been calculated at an earlier step so we can just use that directly. We need only the position of the source relative to the origin. 2) We don't scale by a frequency because we actually just want the ratio which we'll plug straight @@ -49742,7 +50180,7 @@ static void ma_get_default_channel_map_for_spatializer(ma_channel* pChannelMap, Special case for stereo. Want to default the left and right speakers to side left and side right so that they're facing directly down the X axis rather than slightly forward. Not doing this will result in sounds being quieter when behind the listener. This might - actually be good for some scenerios, but I don't think it's an appropriate default because + actually be good for some scenarios, but I don't think it's an appropriate default because it can be a bit unexpected. */ if (channelCount == 2) { @@ -50076,7 +50514,7 @@ MA_API ma_spatializer_config ma_spatializer_config_init(ma_uint32 channelsIn, ma config.maxDistance = MA_FLT_MAX; config.rolloff = 1; config.coneInnerAngleInRadians = 6.283185f; /* 360 degrees. */ - config.coneOuterAngleInRadians = 6.283185f; /* 360 degress. */ + config.coneOuterAngleInRadians = 6.283185f; /* 360 degrees. */ config.coneOuterGain = 0.0f; config.dopplerFactor = 1; config.directionalAttenuationFactor = 1; @@ -50310,7 +50748,7 @@ static float ma_calculate_angular_gain(ma_vec3f dirA, ma_vec3f dirB, float coneI To do cone attenuation, I'm just using the same math that we'd use to implement a basic spotlight in OpenGL. We just need to get the direction from the source to the listener and then do a dot product against that and the direction of the spotlight. Then we just compare that dot product against the cosine of the inner and outer - angles. If the dot product is greater than the the outer angle, we just use coneOuterGain. If it's less than + angles. If the dot product is greater than the outer angle, we just use coneOuterGain. If it's less than the inner angle, we just use a gain of 1. Otherwise we linearly interpolate between 1 and coneOuterGain. */ if (coneInnerAngleInRadians < 6.283185f) { @@ -50380,7 +50818,7 @@ MA_API ma_result ma_spatializer_process_pcm_frames(ma_spatializer* pSpatializer, ma_vec3f relativePosNormalized; ma_vec3f relativePos; /* The position relative to the listener. */ ma_vec3f relativeDir; /* The direction of the sound, relative to the listener. */ - ma_vec3f listenerVel; /* The volocity of the listener. For doppler pitch calculation. */ + ma_vec3f listenerVel; /* The velocity of the listener. For doppler pitch calculation. */ float speedOfSound; float distance = 0; float gain = 1; @@ -50461,11 +50899,11 @@ MA_API ma_result ma_spatializer_process_pcm_frames(ma_spatializer* pSpatializer, To do cone attenuation, I'm just using the same math that we'd use to implement a basic spotlight in OpenGL. We just need to get the direction from the source to the listener and then do a dot product against that and the direction of the spotlight. Then we just compare that dot product against the cosine of the inner and outer - angles. If the dot product is greater than the the outer angle, we just use coneOuterGain. If it's less than + angles. If the dot product is greater than the outer angle, we just use coneOuterGain. If it's less than the inner angle, we just use a gain of 1. Otherwise we linearly interpolate between 1 and coneOuterGain. */ if (distance > 0) { - /* Source anglular gain. */ + /* Source angular gain. */ float spatializerConeInnerAngle; float spatializerConeOuterAngle; float spatializerConeOuterGain; @@ -50977,7 +51415,7 @@ MA_API void ma_spatializer_get_relative_position_and_direction(const ma_spatiali listenerDirection = ma_spatializer_listener_get_direction(pListener); /* - We need to calcualte the right vector from our forward and up vectors. This is done with + We need to calculate the right vector from our forward and up vectors. This is done with a cross product. */ axisZ = ma_vec3f_normalize(listenerDirection); /* Normalization required here because we can't trust the caller. */ @@ -51123,7 +51561,7 @@ static ma_result ma_linear_resampler_set_rate_internal(ma_linear_resampler* pRes lpfConfig = ma_lpf_config_init(pResampler->config.format, pResampler->config.channels, lpfSampleRate, lpfCutoffFrequency, pResampler->config.lpfOrder); /* - If the resampler is alreay initialized we don't want to do a fresh initialization of the low-pass filter because it will result in the cached frames + If the resampler is already initialized we don't want to do a fresh initialization of the low-pass filter because it will result in the cached frames getting cleared. Instead we re-initialize the filter which will maintain any cached frames. */ if (isResamplerAlreadyInitialized) { @@ -51818,7 +52256,7 @@ MA_API ma_result ma_linear_resampler_get_expected_output_frame_count(const ma_li preliminaryInputFrameCount = (pResampler->inTimeInt + outputFrameCount*pResampler->inAdvanceInt ) + preliminaryInputFrameCountFromFrac; /* - If the total number of *whole* input frames that would be required to generate our preliminary output frame count is greather than + If the total number of *whole* input frames that would be required to generate our preliminary output frame count is greater than the amount of whole input frames we have available as input we need to *not* add an extra output frame as there won't be enough data to actually process. Otherwise we need to add the extra output frame. */ @@ -51856,7 +52294,7 @@ MA_API ma_result ma_linear_resampler_reset(ma_linear_resampler* pResampler) } } - /* The low pass filter needs to have it's cache reset. */ + /* The low pass filter needs to have its cache reset. */ ma_lpf_clear_cache(&pResampler->lpf); return MA_SUCCESS; @@ -52373,19 +52811,19 @@ static float ma_calculate_channel_position_rectangular_weight(ma_channel channel of contribution to apply to the side/left and back/left speakers, however, is a bit more complicated. Imagine the front/left speaker as emitting audio from two planes - the front plane and the left plane. You can think of the front/left - speaker emitting half of it's total volume from the front, and the other half from the left. Since part of it's volume is being emitted + speaker emitting half of its total volume from the front, and the other half from the left. Since part of its volume is being emitted from the left side, and the side/left and back/left channels also emit audio from the left plane, one would expect that they would receive some amount of contribution from front/left speaker. The amount of contribution depends on how many planes are shared between the two speakers. Note that in the examples below I've added a top/front/left speaker as an example just to show how the math works across 3 spatial dimensions. The first thing to do is figure out how each speaker's volume is spread over each of plane: - - front/left: 2 planes (front and left) = 1/2 = half it's total volume on each plane + - front/left: 2 planes (front and left) = 1/2 = half its total volume on each plane - side/left: 1 plane (left only) = 1/1 = entire volume from left plane - - back/left: 2 planes (back and left) = 1/2 = half it's total volume on each plane - - top/front/left: 3 planes (top, front and left) = 1/3 = one third it's total volume on each plane + - back/left: 2 planes (back and left) = 1/2 = half its total volume on each plane + - top/front/left: 3 planes (top, front and left) = 1/3 = one third its total volume on each plane - The amount of volume each channel contributes to each of it's planes is what controls how much it is willing to given and take to other + The amount of volume each channel contributes to each of its planes is what controls how much it is willing to given and take to other channels on the same plane. The volume that is willing to the given by one channel is multiplied by the volume that is willing to be taken by the other to produce the final contribution. */ @@ -52496,12 +52934,7 @@ static ma_channel_conversion_path ma_channel_map_get_conversion_path(const ma_ch ma_uint32 iChannelIn; ma_bool32 areAllChannelPositionsPresent = MA_TRUE; for (iChannelIn = 0; iChannelIn < channelsIn; ++iChannelIn) { - ma_bool32 isInputChannelPositionInOutput = MA_FALSE; - if (ma_channel_map_contains_channel_position(channelsOut, pChannelMapOut, ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn))) { - isInputChannelPositionInOutput = MA_TRUE; - break; - } - + ma_bool32 isInputChannelPositionInOutput = ma_channel_map_contains_channel_position(channelsOut, pChannelMapOut, ma_channel_map_get_channel(pChannelMapIn, channelsIn, iChannelIn)); if (!isInputChannelPositionInOutput) { areAllChannelPositionsPresent = MA_FALSE; break; @@ -52528,8 +52961,8 @@ static ma_result ma_channel_map_build_shuffle_table(const ma_channel* pChannelMa } /* - When building the shuffle table we just do a 1:1 mapping based on the first occurance of a channel. If the - input channel has more than one occurance of a channel position, the second one will be ignored. + When building the shuffle table we just do a 1:1 mapping based on the first occurrence of a channel. If the + input channel has more than one occurrence of a channel position, the second one will be ignored. */ for (iChannelOut = 0; iChannelOut < channelCountOut; iChannelOut += 1) { ma_channel channelOut; @@ -54824,7 +55257,7 @@ static ma_result ma_data_converter_process_pcm_frames__channels_first(ma_data_co Before doing any processing we need to determine how many frames we should try processing this iteration, for both input and output. The resampler requires us to perform format and channel conversion before passing any data into it. If we get our input count wrong, we'll - end up peforming redundant pre-processing. This isn't the end of the world, but it does + end up performing redundant pre-processing. This isn't the end of the world, but it does result in some inefficiencies proportionate to how far our estimates are off. If the resampler has a means to calculate exactly how much we'll need, we'll use that. @@ -55994,7 +56427,7 @@ MA_API const char* ma_channel_position_to_string(ma_channel channel) case MA_CHANNEL_LFE : return "CHANNEL_LFE"; case MA_CHANNEL_BACK_LEFT : return "CHANNEL_BACK_LEFT"; case MA_CHANNEL_BACK_RIGHT : return "CHANNEL_BACK_RIGHT"; - case MA_CHANNEL_FRONT_LEFT_CENTER : return "CHANNEL_FRONT_LEFT_CENTER "; + case MA_CHANNEL_FRONT_LEFT_CENTER : return "CHANNEL_FRONT_LEFT_CENTER"; case MA_CHANNEL_FRONT_RIGHT_CENTER: return "CHANNEL_FRONT_RIGHT_CENTER"; case MA_CHANNEL_BACK_CENTER : return "CHANNEL_BACK_CENTER"; case MA_CHANNEL_SIDE_LEFT : return "CHANNEL_SIDE_LEFT"; @@ -56299,13 +56732,9 @@ MA_API ma_result ma_rb_commit_read(ma_rb* pRB, size_t sizeInBytes) newReadOffsetLoopFlag ^= 0x80000000; } - ma_atomic_exchange_32(&pRB->encodedReadOffset, ma_rb__construct_offset(newReadOffsetLoopFlag, newReadOffsetInBytes)); + ma_atomic_exchange_32(&pRB->encodedReadOffset, ma_rb__construct_offset(newReadOffsetInBytes, newReadOffsetLoopFlag)); - if (ma_rb_pointer_distance(pRB) == 0) { - return MA_AT_END; - } else { - return MA_SUCCESS; - } + return MA_SUCCESS; } MA_API ma_result ma_rb_acquire_write(ma_rb* pRB, size_t* pSizeInBytes, void** ppBufferOut) @@ -56385,13 +56814,9 @@ MA_API ma_result ma_rb_commit_write(ma_rb* pRB, size_t sizeInBytes) newWriteOffsetLoopFlag ^= 0x80000000; } - ma_atomic_exchange_32(&pRB->encodedWriteOffset, ma_rb__construct_offset(newWriteOffsetLoopFlag, newWriteOffsetInBytes)); + ma_atomic_exchange_32(&pRB->encodedWriteOffset, ma_rb__construct_offset(newWriteOffsetInBytes, newWriteOffsetLoopFlag)); - if (ma_rb_pointer_distance(pRB) == 0) { - return MA_AT_END; - } else { - return MA_SUCCESS; - } + return MA_SUCCESS; } MA_API ma_result ma_rb_seek_read(ma_rb* pRB, size_t offsetInBytes) @@ -56614,6 +57039,16 @@ static ma_result ma_pcm_rb_data_source__on_read(ma_data_source* pDataSource, voi totalFramesRead += mappedFrameCount; } + /* + There is no notion of an "end" in a ring buffer. If we didn't have enough data to fill the requested frame + count we'll need to pad with silence. If we don't do this, totalFramesRead might equal 0 which will result + in the data source layer at a higher level translating this to MA_AT_END which is incorrect for a ring buffer. + */ + if (totalFramesRead < frameCount) { + ma_silence_pcm_frames(ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, pRB->format, pRB->channels), (frameCount - totalFramesRead), pRB->format, pRB->channels); + totalFramesRead = frameCount; + } + *pFramesRead = totalFramesRead; return MA_SUCCESS; } @@ -57162,6 +57597,10 @@ MA_API ma_result ma_data_source_init(const ma_data_source_config* pConfig, ma_da return MA_INVALID_ARGS; } + if (pConfig->vtable == NULL) { + return MA_INVALID_ARGS; + } + pDataSourceBase->vtable = pConfig->vtable; pDataSourceBase->rangeBegInFrames = MA_DATA_SOURCE_DEFAULT_RANGE_BEG; pDataSourceBase->rangeEndInFrames = MA_DATA_SOURCE_DEFAULT_RANGE_END; @@ -57212,6 +57651,58 @@ static ma_result ma_data_source_resolve_current(ma_data_source* pDataSource, ma_ return MA_SUCCESS; } +static ma_result ma_data_source_read_pcm_frames_from_backend(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) +{ + ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; + + MA_ASSERT(pDataSourceBase != NULL); + MA_ASSERT(pDataSourceBase->vtable != NULL); + MA_ASSERT(pDataSourceBase->vtable->onRead != NULL); + MA_ASSERT(pFramesRead != NULL); + + if (pFramesOut != NULL) { + return pDataSourceBase->vtable->onRead(pDataSourceBase, pFramesOut, frameCount, pFramesRead); + } else { + /* + No output buffer. Probably seeking forward. Read and discard. Can probably optimize this in terms of + onSeek and onGetCursor, but need to keep in mind that the data source may not implement these functions. + */ + ma_result result; + ma_uint64 framesRead; + ma_format format; + ma_uint32 channels; + ma_uint64 discardBufferCapInFrames; + ma_uint8 pDiscardBuffer[4096]; + + result = ma_data_source_get_data_format(pDataSource, &format, &channels, NULL, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + discardBufferCapInFrames = sizeof(pDiscardBuffer) / ma_get_bytes_per_frame(format, channels); + + framesRead = 0; + while (framesRead < frameCount) { + ma_uint64 framesReadThisIteration = 0; + ma_uint64 framesToRead = frameCount - framesRead; + if (framesToRead > discardBufferCapInFrames) { + framesToRead = discardBufferCapInFrames; + } + + result = pDataSourceBase->vtable->onRead(pDataSourceBase, pDiscardBuffer, framesToRead, &framesReadThisIteration); + if (result != MA_SUCCESS) { + return result; + } + + framesRead += framesReadThisIteration; + } + + *pFramesRead = framesRead; + + return MA_SUCCESS; + } +} + static ma_result ma_data_source_read_pcm_frames_within_range(ma_data_source* pDataSource, void* pFramesOut, ma_uint64 frameCount, ma_uint64* pFramesRead) { ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; @@ -57227,9 +57718,11 @@ static ma_result ma_data_source_read_pcm_frames_within_range(ma_data_source* pDa return MA_INVALID_ARGS; } + MA_ASSERT(pDataSourceBase->vtable != NULL); + if ((pDataSourceBase->vtable->flags & MA_DATA_SOURCE_SELF_MANAGED_RANGE_AND_LOOP_POINT) != 0 || (pDataSourceBase->rangeEndInFrames == ~((ma_uint64)0) && (pDataSourceBase->loopEndInFrames == ~((ma_uint64)0) || loop == MA_FALSE))) { /* Either the data source is self-managing the range, or no range is set - just read like normal. The data source itself will tell us when the end is reached. */ - result = pDataSourceBase->vtable->onRead(pDataSourceBase, pFramesOut, frameCount, &framesRead); + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); } else { /* Need to clamp to within the range. */ ma_uint64 relativeCursor; @@ -57238,7 +57731,7 @@ static ma_result ma_data_source_read_pcm_frames_within_range(ma_data_source* pDa result = ma_data_source_get_cursor_in_pcm_frames(pDataSourceBase, &relativeCursor); if (result != MA_SUCCESS) { /* Failed to retrieve the cursor. Cannot read within a range or loop points. Just read like normal - this may happen for things like noise data sources where it doesn't really matter. */ - result = pDataSourceBase->vtable->onRead(pDataSourceBase, pFramesOut, frameCount, &framesRead); + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); } else { ma_uint64 rangeBeg; ma_uint64 rangeEnd; @@ -57266,7 +57759,7 @@ static ma_result ma_data_source_read_pcm_frames_within_range(ma_data_source* pDa MA_AT_END so the higher level function can know about it. */ if (frameCount > 0) { - result = pDataSourceBase->vtable->onRead(pDataSourceBase, pFramesOut, frameCount, &framesRead); + result = ma_data_source_read_pcm_frames_from_backend(pDataSource, pFramesOut, frameCount, &framesRead); } else { result = MA_AT_END; /* The cursor is sitting on the end of the range which means we're at the end. */ } @@ -57348,7 +57841,7 @@ MA_API ma_result ma_data_source_read_pcm_frames(ma_data_source* pDataSource, voi totalFramesProcessed += framesProcessed; /* - If we encounted an error from the read callback, make sure it's propagated to the caller. The caller may need to know whether or not MA_BUSY is returned which is + If we encountered an error from the read callback, make sure it's propagated to the caller. The caller may need to know whether or not MA_BUSY is returned which is not necessarily considered an error. */ if (result != MA_SUCCESS && result != MA_AT_END) { @@ -57439,7 +57932,7 @@ MA_API ma_result ma_data_source_seek_to_pcm_frame(ma_data_source* pDataSource, m ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; if (pDataSourceBase == NULL) { - return MA_SUCCESS; + return MA_INVALID_ARGS; } if (pDataSourceBase->vtable->onSeek == NULL) { @@ -57447,12 +57940,61 @@ MA_API ma_result ma_data_source_seek_to_pcm_frame(ma_data_source* pDataSource, m } if (frameIndex > pDataSourceBase->rangeEndInFrames) { - return MA_INVALID_OPERATION; /* Trying to seek to far forward. */ + return MA_INVALID_OPERATION; /* Trying to seek too far forward. */ } + MA_ASSERT(pDataSourceBase->vtable != NULL); + return pDataSourceBase->vtable->onSeek(pDataSource, pDataSourceBase->rangeBegInFrames + frameIndex); } +MA_API ma_result ma_data_source_seek_seconds(ma_data_source* pDataSource, float secondCount, float* pSecondsSeeked) +{ + ma_uint64 frameCount; + ma_uint64 framesSeeked = 0; + ma_uint32 sampleRate; + ma_result result; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames instead of seconds */ + frameCount = (ma_uint64)(secondCount * sampleRate); + + result = ma_data_source_seek_pcm_frames(pDataSource, frameCount, &framesSeeked); + + /* VC6 doesn't support division between unsigned 64-bit integer and floating point number. Signed integer needed. This shouldn't affect anything in practice */ + *pSecondsSeeked = (ma_int64)framesSeeked / (float)sampleRate; + return result; +} + +MA_API ma_result ma_data_source_seek_to_second(ma_data_source* pDataSource, float seekPointInSeconds) +{ + ma_uint64 frameIndex; + ma_uint32 sampleRate; + ma_result result; + + if (pDataSource == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_data_source_get_data_format(pDataSource, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames instead of seconds */ + frameIndex = (ma_uint64)(seekPointInSeconds * sampleRate); + + return ma_data_source_seek_to_pcm_frame(pDataSource, frameIndex); +} + MA_API ma_result ma_data_source_get_data_format(ma_data_source* pDataSource, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) { ma_data_source_base* pDataSourceBase = (ma_data_source_base*)pDataSource; @@ -57479,6 +58021,8 @@ MA_API ma_result ma_data_source_get_data_format(ma_data_source* pDataSource, ma_ return MA_INVALID_ARGS; } + MA_ASSERT(pDataSourceBase->vtable != NULL); + if (pDataSourceBase->vtable->onGetDataFormat == NULL) { return MA_NOT_IMPLEMENTED; } @@ -57519,6 +58063,8 @@ MA_API ma_result ma_data_source_get_cursor_in_pcm_frames(ma_data_source* pDataSo return MA_SUCCESS; } + MA_ASSERT(pDataSourceBase->vtable != NULL); + if (pDataSourceBase->vtable->onGetCursor == NULL) { return MA_NOT_IMPLEMENTED; } @@ -57552,6 +58098,8 @@ MA_API ma_result ma_data_source_get_length_in_pcm_frames(ma_data_source* pDataSo return MA_INVALID_ARGS; } + MA_ASSERT(pDataSourceBase->vtable != NULL); + /* If we have a range defined we'll use that to determine the length. This is one of rare times where we'll actually trust the caller. If they've set the range, I think it's mostly safe to @@ -57639,6 +58187,8 @@ MA_API ma_result ma_data_source_set_looping(ma_data_source* pDataSource, ma_bool ma_atomic_exchange_32(&pDataSourceBase->isLooping, isLooping); + MA_ASSERT(pDataSourceBase->vtable != NULL); + /* If there's no callback for this just treat it as a successful no-op. */ if (pDataSourceBase->vtable->onSetLooping == NULL) { return MA_SUCCESS; @@ -57676,7 +58226,7 @@ MA_API ma_result ma_data_source_set_range_in_pcm_frames(ma_data_source* pDataSou /* We may need to adjust the position of the cursor to ensure it's clamped to the range. Grab it now - so we can calculate it's absolute position before we change the range. + so we can calculate its absolute position before we change the range. */ result = ma_data_source_get_cursor_in_pcm_frames(pDataSource, &relativeCursor); if (result == MA_SUCCESS) { @@ -57710,7 +58260,7 @@ MA_API ma_result ma_data_source_set_range_in_pcm_frames(ma_data_source* pDataSou /* Seek to within range. Note that our seek positions here are relative to the new range. We don't want - do do this if we failed to retrieve the cursor earlier on because it probably means the data source + to do this if we failed to retrieve the cursor earlier on because it probably means the data source has no notion of a cursor. In practice the seek would probably fail (which we silently ignore), but I'm just not even going to attempt it. */ @@ -57729,6 +58279,13 @@ MA_API void ma_data_source_get_range_in_pcm_frames(const ma_data_source* pDataSo { const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + if (pRangeBegInFrames != NULL) { + *pRangeBegInFrames = 0; + } + if (pRangeEndInFrames != NULL) { + *pRangeEndInFrames = 0; + } + if (pDataSource == NULL) { return; } @@ -57773,6 +58330,13 @@ MA_API void ma_data_source_get_loop_point_in_pcm_frames(const ma_data_source* pD { const ma_data_source_base* pDataSourceBase = (const ma_data_source_base*)pDataSource; + if (pLoopBegInFrames != NULL) { + *pLoopBegInFrames = 0; + } + if (pLoopEndInFrames != NULL) { + *pLoopEndInFrames = 0; + } + if (pDataSource == NULL) { return; } @@ -59167,7 +59731,7 @@ static ma_result ma_default_vfs_seek__win32(ma_vfs* pVFS, ma_vfs_file file, ma_i result = ma_SetFilePointerEx((HANDLE)file, liDistanceToMove, NULL, dwMoveMethod); } else if (ma_SetFilePointer != NULL) { /* No SetFilePointerEx() so restrict to 31 bits. */ - if (origin > 0x7FFFFFFF) { + if (offset > 0x7FFFFFFF) { return MA_OUT_OF_RANGE; } @@ -59377,7 +59941,7 @@ static ma_result ma_default_vfs_seek__stdio(ma_vfs* pVFS, ma_vfs_file file, ma_i result = _fseeki64((FILE*)file, offset, whence); #else /* No _fseeki64() so restrict to 31 bits. */ - if (origin > 0x7FFFFFFF) { + if (offset > 0x7FFFFFFF) { return MA_OUT_OF_RANGE; } @@ -59770,7 +60334,7 @@ extern "C" { #define MA_DR_WAV_XSTRINGIFY(x) MA_DR_WAV_STRINGIFY(x) #define MA_DR_WAV_VERSION_MAJOR 0 #define MA_DR_WAV_VERSION_MINOR 13 -#define MA_DR_WAV_VERSION_REVISION 13 +#define MA_DR_WAV_VERSION_REVISION 18 #define MA_DR_WAV_VERSION_STRING MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_MAJOR) "." MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_MINOR) "." MA_DR_WAV_XSTRINGIFY(MA_DR_WAV_VERSION_REVISION) #include #define MA_DR_WAVE_FORMAT_PCM 0x1 @@ -60190,7 +60754,7 @@ extern "C" { #define MA_DR_FLAC_XSTRINGIFY(x) MA_DR_FLAC_STRINGIFY(x) #define MA_DR_FLAC_VERSION_MAJOR 0 #define MA_DR_FLAC_VERSION_MINOR 12 -#define MA_DR_FLAC_VERSION_REVISION 42 +#define MA_DR_FLAC_VERSION_REVISION 43 #define MA_DR_FLAC_VERSION_STRING MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_MAJOR) "." MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_MINOR) "." MA_DR_FLAC_XSTRINGIFY(MA_DR_FLAC_VERSION_REVISION) #include #if defined(_MSC_VER) && _MSC_VER >= 1700 @@ -60477,7 +61041,7 @@ extern "C" { #define MA_DR_MP3_XSTRINGIFY(x) MA_DR_MP3_STRINGIFY(x) #define MA_DR_MP3_VERSION_MAJOR 0 #define MA_DR_MP3_VERSION_MINOR 6 -#define MA_DR_MP3_VERSION_REVISION 38 +#define MA_DR_MP3_VERSION_REVISION 40 #define MA_DR_MP3_VERSION_STRING MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_MAJOR) "." MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_MINOR) "." MA_DR_MP3_XSTRINGIFY(MA_DR_MP3_VERSION_REVISION) #include #define MA_DR_MP3_MAX_PCM_FRAMES_PER_MP3_FRAME 1152 @@ -60639,7 +61203,7 @@ MA_API ma_decoder_config ma_decoder_config_init(ma_format outputFormat, ma_uint3 return config; } -MA_API ma_decoder_config ma_decoder_config_init_default() +MA_API ma_decoder_config ma_decoder_config_init_default(void) { return ma_decoder_config_init(ma_format_unknown, 0, 0); } @@ -63232,7 +63796,7 @@ MA_API ma_result ma_stbvorbis_init(ma_read_proc onRead, ma_seek_proc onSeek, ma_ #if !defined(MA_NO_VORBIS) { /* - stb_vorbis lacks a callback based API for it's pulling API which means we're stuck with the + stb_vorbis lacks a callback based API for its pulling API which means we're stuck with the pushing API. In order for us to be able to successfully initialize the decoder we need to supply it with enough data. We need to keep loading data until we have enough. */ @@ -63313,7 +63877,7 @@ MA_API ma_result ma_stbvorbis_init_memory(const void* pData, size_t dataSize, co { (void)pAllocationCallbacks; - /* stb_vorbis uses an int as it's size specifier, restricting it to 32-bit even on 64-bit systems. *sigh*. */ + /* stb_vorbis uses an int as its size specifier, restricting it to 32-bit even on 64-bit systems. *sigh*. */ if (dataSize > INT_MAX) { return MA_TOO_BIG; } @@ -63403,7 +63967,7 @@ MA_API ma_result ma_stbvorbis_read_pcm_frames(ma_stbvorbis* pVorbis, void* pFram /* The first thing to do is read from any already-cached frames. */ ma_uint32 framesToReadFromCache = (ma_uint32)ma_min(pVorbis->push.framesRemaining, (frameCount - totalFramesRead)); /* Safe cast because pVorbis->framesRemaining is 32-bit. */ - /* The output pointer can be null in which case we just treate it as a seek. */ + /* The output pointer can be null in which case we just treat it as a seek. */ if (pFramesOut != NULL) { ma_uint64 iFrame; for (iFrame = 0; iFrame < framesToReadFromCache; iFrame += 1) { @@ -63477,7 +64041,7 @@ MA_API ma_result ma_stbvorbis_read_pcm_frames(ma_stbvorbis* pVorbis, void* pFram } } - /* If we don't have a success code at this point it means we've encounted an error or the end of the file has been reached (probably the latter). */ + /* If we don't have a success code at this point it means we've encountered an error or the end of the file has been reached (probably the latter). */ if (result != MA_SUCCESS) { break; } @@ -64291,8 +64855,7 @@ MA_API ma_result ma_decoder_init_memory(const void* pData, size_t dataSize, cons #if defined(MA_HAS_WAV) || \ defined(MA_HAS_MP3) || \ defined(MA_HAS_FLAC) || \ - defined(MA_HAS_VORBIS) || \ - defined(MA_HAS_OPUS) + defined(MA_HAS_VORBIS) #define MA_HAS_PATH_API #endif @@ -65107,7 +65670,7 @@ MA_API ma_result ma_decoder_read_pcm_frames(ma_decoder* pDecoder, void* pFramesO } else { /* Getting here means we need to do data conversion. If we're seeking forward and are _not_ doing resampling we can run this in a fast path. If we're doing resampling we - need to run through each sample because we need to ensure it's internal cache is updated. + need to run through each sample because we need to ensure its internal cache is updated. */ if (pFramesOut == NULL && pDecoder->converter.hasResampler == MA_FALSE) { result = ma_data_source_read_pcm_frames(pDecoder->pBackend, NULL, frameCount, &totalFramesReadOut); @@ -65197,8 +65760,17 @@ MA_API ma_result ma_decoder_read_pcm_frames(ma_decoder* pDecoder, void* pFramesO if (requiredInputFrameCount > 0) { result = ma_data_source_read_pcm_frames(pDecoder->pBackend, pIntermediaryBuffer, framesToReadThisIterationIn, &framesReadThisIterationIn); + + /* + Note here that even if we've reached the end, we don't want to abort because there might be more output frames needing to be + generated from cached input data, which might happen if resampling is being performed. + */ + if (result != MA_SUCCESS && result != MA_AT_END) { + break; + } } else { framesReadThisIterationIn = 0; + pIntermediaryBuffer[0] = 0; /* <-- This is just to silence a static analysis warning. */ } /* @@ -66679,7 +67251,7 @@ MA_API ma_result ma_noise_set_type(ma_noise* pNoise, ma_noise_type type) /* This function should never have been implemented in the first place. Changing the type dynamically is not - supported. Instead you need to uninitialize and reinitiailize a fresh `ma_noise` object. This function + supported. Instead you need to uninitialize and reinitialize a fresh `ma_noise` object. This function will be removed in version 0.12. */ MA_ASSERT(MA_FALSE); @@ -67725,7 +68297,7 @@ MA_API ma_result ma_resource_manager_init(const ma_resource_manager_config* pCon pResourceManager->config.pVFS = &pResourceManager->defaultVFS; } - /* If threading has been disabled at compile time, enfore it at run time as well. */ + /* If threading has been disabled at compile time, enforce it at run time as well. */ #ifdef MA_NO_THREADING { pResourceManager->config.flags |= MA_RESOURCE_MANAGER_FLAG_NO_THREADING; @@ -67762,15 +68334,17 @@ MA_API ma_result ma_resource_manager_init(const ma_resource_manager_config* pCon /* Custom decoding backends. */ if (pConfig->ppCustomDecodingBackendVTables != NULL && pConfig->customDecodingBackendCount > 0) { size_t sizeInBytes = sizeof(*pResourceManager->config.ppCustomDecodingBackendVTables) * pConfig->customDecodingBackendCount; + ma_decoding_backend_vtable** ppCustomDecodingBackendVTables; - pResourceManager->config.ppCustomDecodingBackendVTables = (ma_decoding_backend_vtable**)ma_malloc(sizeInBytes, &pResourceManager->config.allocationCallbacks); + ppCustomDecodingBackendVTables = (ma_decoding_backend_vtable**)ma_malloc(sizeInBytes, &pResourceManager->config.allocationCallbacks); if (pResourceManager->config.ppCustomDecodingBackendVTables == NULL) { ma_job_queue_uninit(&pResourceManager->jobQueue, &pResourceManager->config.allocationCallbacks); return MA_OUT_OF_MEMORY; } - MA_COPY_MEMORY(pResourceManager->config.ppCustomDecodingBackendVTables, pConfig->ppCustomDecodingBackendVTables, sizeInBytes); + MA_COPY_MEMORY(ppCustomDecodingBackendVTables, pConfig->ppCustomDecodingBackendVTables, sizeInBytes); + pResourceManager->config.ppCustomDecodingBackendVTables = ppCustomDecodingBackendVTables; pResourceManager->config.customDecodingBackendCount = pConfig->customDecodingBackendCount; pResourceManager->config.pCustomDecodingBackendUserData = pConfig->pCustomDecodingBackendUserData; } @@ -67821,7 +68395,7 @@ static void ma_resource_manager_delete_all_data_buffer_nodes(ma_resource_manager ma_resource_manager_data_buffer_node* pDataBufferNode = pResourceManager->pRootDataBufferNode; ma_resource_manager_data_buffer_node_remove(pResourceManager, pDataBufferNode); - /* The data buffer has been removed from the BST, so now we need to free it's data. */ + /* The data buffer has been removed from the BST, so now we need to free its data. */ ma_resource_manager_data_buffer_node_free(pResourceManager, pDataBufferNode); } } @@ -67834,7 +68408,7 @@ MA_API void ma_resource_manager_uninit(ma_resource_manager* pResourceManager) /* Job threads need to be killed first. To do this we need to post a quit message to the message queue and then wait for the thread. The quit message will never be removed from the - queue which means it will never not be returned after being encounted for the first time which means all threads will eventually receive it. + queue which means it will never not be returned after being encountered for the first time which means all threads will eventually receive it. */ ma_resource_manager_post_job_quit(pResourceManager); @@ -67874,7 +68448,7 @@ MA_API void ma_resource_manager_uninit(ma_resource_manager* pResourceManager) #endif } - ma_free(pResourceManager->config.ppCustomDecodingBackendVTables, &pResourceManager->config.allocationCallbacks); + ma_free((ma_decoding_backend_vtable**)pResourceManager->config.ppCustomDecodingBackendVTables, &pResourceManager->config.allocationCallbacks); /* <-- Naughty const-cast, but this is safe. */ if (pResourceManager->config.pLog == &pResourceManager->log) { ma_log_uninit(&pResourceManager->log); @@ -68292,7 +68866,7 @@ static ma_result ma_resource_manager_data_buffer_node_decode_next_page(ma_resour } result = ma_decoder_read_pcm_frames(pDecoder, pPage->pAudioData, framesToTryReading, &framesRead); - if (framesRead > 0) { + if (result == MA_SUCCESS && framesRead > 0) { pPage->sizeInFrames = framesRead; result = ma_paged_audio_buffer_data_append_page(&pDataBufferNode->data.backend.decodedPaged.data, pPage); @@ -68445,7 +69019,7 @@ static ma_result ma_resource_manager_data_buffer_node_acquire_critical_section(m if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { ma_resource_manager_inline_notification_uninit(pInitNotification); } else { - /* These will have been freed by the job thread, but with WAIT_INIT they will already have happend sinced the job has already been handled. */ + /* These will have been freed by the job thread, but with WAIT_INIT they will already have happened since the job has already been handled. */ ma_free(pFilePathCopy, &pResourceManager->config.allocationCallbacks); ma_free(pFilePathWCopy, &pResourceManager->config.allocationCallbacks); } @@ -68810,6 +69384,10 @@ static ma_result ma_resource_manager_data_buffer_init_ex_internal(ma_resource_ma flags &= ~MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC; } + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + async = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_ASYNC) != 0; /* @@ -68822,7 +69400,7 @@ static ma_result ma_resource_manager_data_buffer_init_ex_internal(ma_resource_ma These fences are always released at the "done" tag at the end of this function. They'll be acquired a second if loading asynchronously. This double acquisition system is just done to - simplify code maintanence. + simplify code maintenance. */ ma_resource_manager_pipeline_notifications_acquire_all_fences(¬ifications); { @@ -68867,7 +69445,7 @@ static ma_result ma_resource_manager_data_buffer_init_ex_internal(ma_resource_ma /* The status of the data buffer needs to be set to MA_BUSY before posting the job so that the - worker thread is aware of it's busy state. If the LOAD_DATA_BUFFER job sees a status other + worker thread is aware of its busy state. If the LOAD_DATA_BUFFER job sees a status other than MA_BUSY, it'll assume an error and fall through to an early exit. */ ma_atomic_exchange_i32(&pDataBuffer->result, MA_BUSY); @@ -68886,7 +69464,7 @@ static ma_result ma_resource_manager_data_buffer_init_ex_internal(ma_resource_ma job.data.resourceManager.loadDataBuffer.rangeEndInPCMFrames = pConfig->rangeEndInPCMFrames; job.data.resourceManager.loadDataBuffer.loopPointBegInPCMFrames = pConfig->loopPointBegInPCMFrames; job.data.resourceManager.loadDataBuffer.loopPointEndInPCMFrames = pConfig->loopPointEndInPCMFrames; - job.data.resourceManager.loadDataBuffer.isLooping = pConfig->isLooping; + job.data.resourceManager.loadDataBuffer.isLooping = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0; /* If we need to wait for initialization to complete we can just process the job in place. */ if ((flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT) != 0) { @@ -69107,22 +69685,29 @@ MA_API ma_result ma_resource_manager_data_buffer_read_pcm_frames(ma_resource_man isDecodedBufferBusy = (ma_resource_manager_data_buffer_node_result(pDataBuffer->pNode) == MA_BUSY); if (ma_resource_manager_data_buffer_get_available_frames(pDataBuffer, &availableFrames) == MA_SUCCESS) { - /* Don't try reading more than the available frame count. */ - if (frameCount > availableFrames) { - frameCount = availableFrames; + /* Don't try reading more than the available frame count if the data buffer node is still loading. */ + if (isDecodedBufferBusy) { + if (frameCount > availableFrames) { + frameCount = availableFrames; - /* - If there's no frames available we want to set the status to MA_AT_END. The logic below - will check if the node is busy, and if so, change it to MA_BUSY. The reason we do this - is because we don't want to call `ma_data_source_read_pcm_frames()` if the frame count - is 0 because that'll result in a situation where it's possible MA_AT_END won't get - returned. - */ - if (frameCount == 0) { - result = MA_AT_END; + /* + If there's no frames available we want to set the status to MA_AT_END. The logic below + will check if the node is busy, and if so, change it to MA_BUSY. The reason we do this + is because we don't want to call `ma_data_source_read_pcm_frames()` if the frame count + is 0 because that'll result in a situation where it's possible MA_AT_END won't get + returned. + */ + if (frameCount == 0) { + result = MA_AT_END; + } + } else { + isDecodedBufferBusy = MA_FALSE; /* We have enough frames available in the buffer to avoid a MA_BUSY status. */ } } else { - isDecodedBufferBusy = MA_FALSE; /* We have enough frames available in the buffer to avoid a MA_BUSY status. */ + /* + Getting here means the buffer has been fully loaded. We can just pass the frame count straight + into ma_data_source_read_pcm_frames() below and let ma_data_source handle it. + */ } } } @@ -69522,6 +70107,7 @@ MA_API ma_result ma_resource_manager_data_stream_init_ex(ma_resource_manager* pR ma_bool32 waitBeforeReturning = MA_FALSE; ma_resource_manager_inline_notification waitNotification; ma_resource_manager_pipeline_notifications notifications; + ma_uint32 flags; if (pDataStream == NULL) { if (pConfig != NULL && pConfig->pNotifications != NULL) { @@ -69552,13 +70138,18 @@ MA_API ma_result ma_resource_manager_data_stream_init_ex(ma_resource_manager* pR return result; } + flags = pConfig->flags; + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } + pDataStream->pResourceManager = pResourceManager; pDataStream->flags = pConfig->flags; pDataStream->result = MA_BUSY; ma_data_source_set_range_in_pcm_frames(pDataStream, pConfig->rangeBegInPCMFrames, pConfig->rangeEndInPCMFrames); ma_data_source_set_loop_point_in_pcm_frames(pDataStream, pConfig->loopPointBegInPCMFrames, pConfig->loopPointEndInPCMFrames); - ma_data_source_set_looping(pDataStream, pConfig->isLooping); + ma_data_source_set_looping(pDataStream, (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0); if (pResourceManager == NULL || (pConfig->pFilePath == NULL && pConfig->pFilePathW == NULL)) { ma_resource_manager_pipeline_notifications_signal_all_notifications(¬ifications); @@ -70180,6 +70771,9 @@ static ma_result ma_resource_manager_data_source_preinit(ma_resource_manager* pR } pDataSource->flags = pConfig->flags; + if (pConfig->isLooping) { + pDataSource->flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } return MA_SUCCESS; } @@ -70738,9 +71332,10 @@ static ma_result ma_job_process__resource_manager__load_data_buffer(ma_job* pJob */ result = ma_resource_manager_data_buffer_result(pDataBuffer); if (result != MA_BUSY) { - goto done; /* <-- This will ensure the exucution pointer is incremented. */ + goto done; /* <-- This will ensure the execution pointer is incremented. */ } else { result = MA_SUCCESS; /* <-- Make sure this is reset. */ + (void)result; /* <-- This is to suppress a static analysis diagnostic about "result" not being used. But for safety when I do future maintenance I don't want to delete that assignment. */ } /* Try initializing the connector if we haven't already. */ @@ -71087,11 +71682,74 @@ static ma_result ma_job_process__resource_manager__seek_data_stream(ma_job* pJob #ifndef MA_NO_NODE_GRAPH + +static ma_stack* ma_stack_init(size_t sizeInBytes, const ma_allocation_callbacks* pAllocationCallbacks) +{ + ma_stack* pStack; + + if (sizeInBytes == 0) { + return NULL; + } + + pStack = (ma_stack*)ma_malloc(sizeof(*pStack) - sizeof(pStack->_data) + sizeInBytes, pAllocationCallbacks); + if (pStack == NULL) { + return NULL; + } + + pStack->offset = 0; + pStack->sizeInBytes = sizeInBytes; + + return pStack; +} + +static void ma_stack_uninit(ma_stack* pStack, const ma_allocation_callbacks* pAllocationCallbacks) +{ + if (pStack == NULL) { + return; + } + + ma_free(pStack, pAllocationCallbacks); +} + +static void* ma_stack_alloc(ma_stack* pStack, size_t sz) +{ + /* The size of the allocation is stored in the memory directly before the pointer. This needs to include padding to keep it aligned to ma_uintptr */ + void* p = (void*)((char*)pStack->_data + pStack->offset); + size_t* pSize = (size_t*)p; + + sz = (sz + (sizeof(ma_uintptr) - 1)) & ~(sizeof(ma_uintptr) - 1); /* Padding. */ + if (pStack->offset + sz + sizeof(size_t) > pStack->sizeInBytes) { + return NULL; /* Out of memory. */ + } + + pStack->offset += sz + sizeof(size_t); + + *pSize = sz; + return (void*)((char*)p + sizeof(size_t)); +} + +static void ma_stack_free(ma_stack* pStack, void* p) +{ + size_t* pSize; + + if (p == NULL) { + return; + } + + pSize = (size_t*)p - 1; + pStack->offset -= *pSize + sizeof(size_t); +} + + + /* 10ms @ 48K = 480. Must never exceed 65535. */ #ifndef MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS #define MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS 480 #endif +#ifndef MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL +#define MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL 524288 +#endif static ma_result ma_node_read_pcm_frames(ma_node* pNode, ma_uint32 outputBusIndex, float* pFramesOut, ma_uint32 frameCount, ma_uint32* pFramesRead, ma_uint64 globalTime); @@ -71131,8 +71789,8 @@ MA_API ma_node_graph_config ma_node_graph_config_init(ma_uint32 channels) ma_node_graph_config config; MA_ZERO_OBJECT(&config); - config.channels = channels; - config.nodeCacheCapInFrames = MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS; + config.channels = channels; + config.processingSizeInFrames = 0; return config; } @@ -71219,11 +71877,7 @@ MA_API ma_result ma_node_graph_init(const ma_node_graph_config* pConfig, const m } MA_ZERO_OBJECT(pNodeGraph); - pNodeGraph->nodeCacheCapInFrames = pConfig->nodeCacheCapInFrames; - if (pNodeGraph->nodeCacheCapInFrames == 0) { - pNodeGraph->nodeCacheCapInFrames = MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS; - } - + pNodeGraph->processingSizeInFrames = pConfig->processingSizeInFrames; /* Base node so we can use the node graph as a node into another graph. */ baseConfig = ma_node_config_init(); @@ -71248,6 +71902,40 @@ MA_API ma_result ma_node_graph_init(const ma_node_graph_config* pConfig, const m return result; } + + /* Processing cache. */ + if (pConfig->processingSizeInFrames > 0) { + pNodeGraph->pProcessingCache = (float*)ma_malloc(pConfig->processingSizeInFrames * pConfig->channels * sizeof(float), pAllocationCallbacks); + if (pNodeGraph->pProcessingCache == NULL) { + ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + return MA_OUT_OF_MEMORY; + } + } + + + /* + We need a pre-mix stack. The size of this stack is configurable via the config. The default value depends on the channel count. + */ + { + size_t preMixStackSizeInBytes = pConfig->preMixStackSizeInBytes; + if (preMixStackSizeInBytes == 0) { + preMixStackSizeInBytes = pConfig->channels * MA_DEFAULT_PREMIX_STACK_SIZE_PER_CHANNEL; + } + + pNodeGraph->pPreMixStack = ma_stack_init(preMixStackSizeInBytes, pAllocationCallbacks); + if (pNodeGraph->pPreMixStack == NULL) { + ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + if (pNodeGraph->pProcessingCache != NULL) { + ma_free(pNodeGraph->pProcessingCache, pAllocationCallbacks); + } + + return MA_OUT_OF_MEMORY; + } + } + + return MA_SUCCESS; } @@ -71258,6 +71946,17 @@ MA_API void ma_node_graph_uninit(ma_node_graph* pNodeGraph, const ma_allocation_ } ma_node_uninit(&pNodeGraph->endpoint, pAllocationCallbacks); + ma_node_uninit(&pNodeGraph->base, pAllocationCallbacks); + + if (pNodeGraph->pProcessingCache != NULL) { + ma_free(pNodeGraph->pProcessingCache, pAllocationCallbacks); + pNodeGraph->pProcessingCache = NULL; + } + + if (pNodeGraph->pPreMixStack != NULL) { + ma_stack_uninit(pNodeGraph->pPreMixStack, pAllocationCallbacks); + pNodeGraph->pPreMixStack = NULL; + } } MA_API ma_node* ma_node_graph_get_endpoint(ma_node_graph* pNodeGraph) @@ -71290,27 +71989,72 @@ MA_API ma_result ma_node_graph_read_pcm_frames(ma_node_graph* pNodeGraph, void* totalFramesRead = 0; while (totalFramesRead < frameCount) { ma_uint32 framesJustRead; - ma_uint64 framesToRead = frameCount - totalFramesRead; + ma_uint64 framesToRead; + float* pRunningFramesOut; + framesToRead = frameCount - totalFramesRead; if (framesToRead > 0xFFFFFFFF) { framesToRead = 0xFFFFFFFF; } - ma_node_graph_set_is_reading(pNodeGraph, MA_TRUE); - { - result = ma_node_read_pcm_frames(&pNodeGraph->endpoint, 0, (float*)ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, ma_format_f32, channels), (ma_uint32)framesToRead, &framesJustRead, ma_node_get_time(&pNodeGraph->endpoint)); - } - ma_node_graph_set_is_reading(pNodeGraph, MA_FALSE); + pRunningFramesOut = (float*)ma_offset_pcm_frames_ptr(pFramesOut, totalFramesRead, ma_format_f32, channels); - totalFramesRead += framesJustRead; + /* If there's anything in the cache, consume that first. */ + if (pNodeGraph->processingCacheFramesRemaining > 0) { + ma_uint32 framesToReadFromCache; - if (result != MA_SUCCESS) { - break; - } + framesToReadFromCache = (ma_uint32)framesToRead; + if (framesToReadFromCache > pNodeGraph->processingCacheFramesRemaining) { + framesToReadFromCache = pNodeGraph->processingCacheFramesRemaining; + } - /* Abort if we weren't able to read any frames or else we risk getting stuck in a loop. */ - if (framesJustRead == 0) { - break; + MA_COPY_MEMORY(pRunningFramesOut, pNodeGraph->pProcessingCache, framesToReadFromCache * channels * sizeof(float)); + MA_MOVE_MEMORY(pNodeGraph->pProcessingCache, pNodeGraph->pProcessingCache + (framesToReadFromCache * channels), (pNodeGraph->processingCacheFramesRemaining - framesToReadFromCache) * channels * sizeof(float)); + pNodeGraph->processingCacheFramesRemaining -= framesToReadFromCache; + + totalFramesRead += framesToReadFromCache; + continue; + } else { + /* + If processingSizeInFrames is non-zero, we need to make sure we always read in chunks of that size. If the frame count is less than + that, we need to read into the cache and then continue on. + */ + float* pReadDst = pRunningFramesOut; + + if (pNodeGraph->processingSizeInFrames > 0) { + if (framesToRead < pNodeGraph->processingSizeInFrames) { + pReadDst = pNodeGraph->pProcessingCache; /* We need to read into the cache because otherwise we'll overflow the output buffer. */ + } + + framesToRead = pNodeGraph->processingSizeInFrames; + } + + ma_node_graph_set_is_reading(pNodeGraph, MA_TRUE); + { + result = ma_node_read_pcm_frames(&pNodeGraph->endpoint, 0, pReadDst, (ma_uint32)framesToRead, &framesJustRead, ma_node_get_time(&pNodeGraph->endpoint)); + } + ma_node_graph_set_is_reading(pNodeGraph, MA_FALSE); + + /* + Do not increment the total frames read counter if we read into the cache. We use this to determine how many frames have + been written to the final output buffer. + */ + if (pReadDst == pNodeGraph->pProcessingCache) { + /* We read into the cache. */ + pNodeGraph->processingCacheFramesRemaining = framesJustRead; + } else { + /* We read straight into the output buffer. */ + totalFramesRead += framesJustRead; + } + + if (result != MA_SUCCESS) { + break; + } + + /* Abort if we weren't able to read any frames or else we risk getting stuck in a loop. */ + if (framesJustRead == 0) { + break; + } } } @@ -71511,7 +72255,7 @@ static void ma_node_input_bus_detach__no_output_bus_lock(ma_node_input_bus* pInp *not* using a lock when iterating over the list in the audio thread. We therefore need to craft this in a way such that the iteration on the audio thread doesn't break. - The the first thing to do is swap out the "next" pointer of the previous output bus with the + The first thing to do is swap out the "next" pointer of the previous output bus with the new "next" output bus. This is the operation that matters for iteration on the audio thread. After that, the previous pointer on the new "next" pointer needs to be updated, after which point the linked list will be in a good state. @@ -71604,7 +72348,7 @@ static void ma_node_input_bus_attach(ma_node_input_bus* pInputBus, ma_node_outpu /* Now we need to attach the output bus to the linked list. This involves updating two pointers on two different output buses so I'm going to go ahead and keep this simple and just use a lock. - There are ways to do this without a lock, but it's just too hard to maintain for it's value. + There are ways to do this without a lock, but it's just too hard to maintain for its value. Although we're locking here, it's important to remember that we're *not* locking when iterating and reading audio data since that'll be running on the audio thread. As a result we need to be @@ -71697,11 +72441,9 @@ static ma_result ma_node_input_bus_read_pcm_frames(ma_node* pInputNode, ma_node_ ma_uint32 inputChannels; ma_bool32 doesOutputBufferHaveContent = MA_FALSE; - (void)pInputNode; /* Not currently used. */ - /* This will be called from the audio thread which means we can't be doing any locking. Basically, - this function will not perfom any locking, whereas attaching and detaching will, but crafted in + this function will not perform any locking, whereas attaching and detaching will, but crafted in such a way that we don't need to perform any locking here. The important thing to remember is to always iterate in a forward direction. @@ -71747,19 +72489,12 @@ static ma_result ma_node_input_bus_read_pcm_frames(ma_node* pInputNode, ma_node_ if (pFramesOut != NULL) { /* Read. */ - float temp[MA_DATA_CONVERTER_STACK_BUFFER_SIZE / sizeof(float)]; - ma_uint32 tempCapInFrames = ma_countof(temp) / inputChannels; - while (framesProcessed < frameCount) { float* pRunningFramesOut; ma_uint32 framesToRead; - ma_uint32 framesJustRead; + ma_uint32 framesJustRead = 0; framesToRead = frameCount - framesProcessed; - if (framesToRead > tempCapInFrames) { - framesToRead = tempCapInFrames; - } - pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(pFramesOut, framesProcessed, inputChannels); if (doesOutputBufferHaveContent == MA_FALSE) { @@ -71767,11 +72502,32 @@ static ma_result ma_node_input_bus_read_pcm_frames(ma_node* pInputNode, ma_node_ result = ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, pRunningFramesOut, framesToRead, &framesJustRead, globalTime + framesProcessed); } else { /* Slow path. Not the first attachment. Mixing required. */ - result = ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, temp, framesToRead, &framesJustRead, globalTime + framesProcessed); - if (result == MA_SUCCESS || result == MA_AT_END) { - if (isSilentOutput == MA_FALSE) { /* Don't mix if the node outputs silence. */ - ma_mix_pcm_frames_f32(pRunningFramesOut, temp, framesJustRead, inputChannels, /*volume*/1); + ma_uint32 preMixBufferCapInFrames = ((ma_node_base*)pInputNode)->cachedDataCapInFramesPerBus; + float* pPreMixBuffer = (float*)ma_stack_alloc(((ma_node_base*)pInputNode)->pNodeGraph->pPreMixStack, preMixBufferCapInFrames * inputChannels * sizeof(float)); + + if (pPreMixBuffer == NULL) { + /* + If you're hitting this assert it means you've got an unusually deep chain of nodes, you've got an excessively large processing + size, or you have a combination of both, and as a result have run out of stack space. You can increase this using the + preMixStackSizeInBytes variable in ma_node_graph_config. If you're using ma_engine, you can do it via the preMixStackSizeInBytes + variable in ma_engine_config. It defaults to 512KB per output channel. + */ + MA_ASSERT(MA_FALSE); + } else { + if (framesToRead > preMixBufferCapInFrames) { + framesToRead = preMixBufferCapInFrames; } + + result = ma_node_read_pcm_frames(pOutputBus->pNode, pOutputBus->outputBusIndex, pPreMixBuffer, framesToRead, &framesJustRead, globalTime + framesProcessed); + if (result == MA_SUCCESS || result == MA_AT_END) { + if (isSilentOutput == MA_FALSE) { /* Don't mix if the node outputs silence. */ + ma_mix_pcm_frames_f32(pRunningFramesOut, pPreMixBuffer, framesJustRead, inputChannels, /*volume*/1); + } + } + + /* The pre-mix buffer is no longer required. */ + ma_stack_free(((ma_node_base*)pInputNode)->pNodeGraph->pPreMixStack, pPreMixBuffer); + pPreMixBuffer = NULL; } } @@ -71826,6 +72582,25 @@ MA_API ma_node_config ma_node_config_init(void) return config; } +static ma_uint16 ma_node_config_get_cache_size_in_frames(const ma_node_config* pConfig, const ma_node_graph* pNodeGraph) +{ + ma_uint32 cacheSizeInFrames; + + (void)pConfig; + + if (pNodeGraph->processingSizeInFrames > 0) { + cacheSizeInFrames = pNodeGraph->processingSizeInFrames; + } else { + cacheSizeInFrames = MA_DEFAULT_NODE_CACHE_CAP_IN_FRAMES_PER_BUS; + } + + if (cacheSizeInFrames > 0xFFFF) { + cacheSizeInFrames = 0xFFFF; + } + + return (ma_uint16)cacheSizeInFrames; +} + static ma_result ma_node_detach_full(ma_node* pNode); @@ -71980,7 +72755,7 @@ static ma_result ma_node_get_heap_layout(ma_node_graph* pNodeGraph, const ma_nod /* Cached audio data. - We need to allocate memory for a caching both input and output data. We have an optimization + We need to allocate memory for caching both input and output data. We have an optimization where no caching is necessary for specific conditions: - The node has 0 inputs and 1 output. @@ -71999,14 +72774,18 @@ static ma_result ma_node_get_heap_layout(ma_node_graph* pNodeGraph, const ma_nod } else { /* Slow path. Cache needed. */ size_t cachedDataSizeInBytes = 0; + ma_uint32 cacheCapInFrames; ma_uint32 iBus; + /* The capacity of the cache is based on our callback processing size. */ + cacheCapInFrames = ma_node_config_get_cache_size_in_frames(pConfig, pNodeGraph); + for (iBus = 0; iBus < inputBusCount; iBus += 1) { - cachedDataSizeInBytes += pNodeGraph->nodeCacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pInputChannels[iBus]); + cachedDataSizeInBytes += cacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pInputChannels[iBus]); } for (iBus = 0; iBus < outputBusCount; iBus += 1) { - cachedDataSizeInBytes += pNodeGraph->nodeCacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pOutputChannels[iBus]); + cachedDataSizeInBytes += cacheCapInFrames * ma_get_bytes_per_frame(ma_format_f32, pConfig->pOutputChannels[iBus]); } pHeapLayout->cachedDataOffset = pHeapLayout->sizeInBytes; @@ -72092,13 +72871,12 @@ MA_API ma_result ma_node_init_preallocated(ma_node_graph* pNodeGraph, const ma_n if (heapLayout.cachedDataOffset != MA_SIZE_MAX) { pNodeBase->pCachedData = (float*)ma_offset_ptr(pHeap, heapLayout.cachedDataOffset); - pNodeBase->cachedDataCapInFramesPerBus = pNodeGraph->nodeCacheCapInFrames; + pNodeBase->cachedDataCapInFramesPerBus = ma_node_config_get_cache_size_in_frames(pConfig, pNodeGraph); } else { pNodeBase->pCachedData = NULL; } - /* We need to run an initialization step for each input and output bus. */ for (iInputBus = 0; iInputBus < ma_node_get_input_bus_count(pNodeBase); iInputBus += 1) { result = ma_node_input_bus_init(pConfig->pInputChannels[iInputBus], &pNodeBase->pInputBuses[iInputBus]); @@ -72272,7 +73050,7 @@ static ma_result ma_node_detach_full(ma_node* pNode) /* At this point all output buses will have been detached from the graph and we can be guaranteed - that none of it's input nodes will be getting processed by the graph. We can detach these + that none of its input nodes will be getting processed by the graph. We can detach these without needing to worry about the audio thread touching them. */ for (iInputBus = 0; iInputBus < ma_node_get_input_bus_count(pNode); iInputBus += 1) { @@ -72287,7 +73065,7 @@ static ma_result ma_node_detach_full(ma_node* pNode) linked list logic. We don't need to worry about the audio thread referencing these because the step above severed the connection to the graph. */ - for (pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext); pOutputBus != NULL; pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pOutputBus->pNext)) { + for (pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext); pOutputBus != NULL; pOutputBus = (ma_node_output_bus*)ma_atomic_load_ptr(&pInputBus->head.pNext)) { ma_node_detach_output_bus(pOutputBus->pNode, pOutputBus->outputBusIndex); /* This won't do any waiting in practice and should be efficient. */ } } @@ -72309,7 +73087,7 @@ MA_API ma_result ma_node_detach_output_bus(ma_node* pNode, ma_uint32 outputBusIn return MA_INVALID_ARGS; /* Invalid output bus index. */ } - /* We need to lock the output bus because we need to inspect the input node and grab it's input bus. */ + /* We need to lock the output bus because we need to inspect the input node and grab its input bus. */ ma_node_output_bus_lock(&pNodeBase->pOutputBuses[outputBusIndex]); { pInputNodeBase = (ma_node_base*)pNodeBase->pOutputBuses[outputBusIndex].pInputNode; @@ -72475,7 +73253,7 @@ MA_API ma_node_state ma_node_get_state_by_time_range(const ma_node* pNode, ma_ui /* Getting here means the node is marked as started, but it may still not be truly started due to - it's start time not having been reached yet. Also, the stop time may have also been reached in + its start time not having been reached yet. Also, the stop time may have also been reached in which case it'll be considered stopped. */ if (ma_node_get_state_time(pNode, ma_node_state_started) > globalTimeBeg) { @@ -72486,7 +73264,7 @@ MA_API ma_node_state ma_node_get_state_by_time_range(const ma_node* pNode, ma_ui return ma_node_state_stopped; /* Stop time has been reached. */ } - /* Getting here means the node is marked as started and is within it's start/stop times. */ + /* Getting here means the node is marked as started and is within its start/stop times. */ return ma_node_state_started; } @@ -72648,12 +73426,12 @@ static ma_result ma_node_read_pcm_frames(ma_node* pNode, ma_uint32 outputBusInde frameCountOut = totalFramesRead; if (totalFramesRead > 0) { - ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Excplicit cast to silence the warning. */ + ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Explicit cast to silence the warning. */ } /* A passthrough should never have modified the input and output frame counts. If you're - triggering these assers you need to fix your processing callback. + triggering these asserts you need to fix your processing callback. */ MA_ASSERT(frameCountIn == totalFramesRead); MA_ASSERT(frameCountOut == totalFramesRead); @@ -72831,7 +73609,7 @@ static ma_result ma_node_read_pcm_frames(ma_node* pNode, ma_uint32 outputBusInde frames available right now. */ if (frameCountIn > 0 || (pNodeBase->vtable->flags & MA_NODE_FLAG_DIFFERENT_PROCESSING_RATES) != 0) { - ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Excplicit cast to silence the warning. */ + ma_node_process_pcm_frames_internal(pNode, (const float**)ppFramesIn, &frameCountIn, ppFramesOut, &frameCountOut); /* From GCC: expected 'const float **' but argument is of type 'float **'. Shouldn't this be implicit? Explicit cast to silence the warning. */ } else { frameCountOut = 0; /* No data was processed. */ } @@ -74068,7 +74846,7 @@ static ma_bool32 ma_engine_node_is_pitching_enabled(const ma_engine_node* pEngin { MA_ASSERT(pEngineNode != NULL); - /* Don't try to be clever by skiping resampling in the pitch=1 case or else you'll glitch when moving away from 1. */ + /* Don't try to be clever by skipping resampling in the pitch=1 case or else you'll glitch when moving away from 1. */ return !ma_atomic_load_explicit_32(&pEngineNode->isPitchDisabled, ma_atomic_memory_order_acquire); } @@ -74105,7 +74883,7 @@ static ma_result ma_engine_node_set_volume(ma_engine_node* pEngineNode, float vo /* If we're not smoothing we should bypass the volume gainer entirely. */ if (pEngineNode->volumeSmoothTimeInPCMFrames == 0) { - /* We should always have an active spatializer because it can be enabled and disabled dynamically. We can just use that for hodling our volume. */ + /* We should always have an active spatializer because it can be enabled and disabled dynamically. We can just use that for holding our volume. */ ma_spatializer_set_master_volume(&pEngineNode->spatializer, volume); } else { /* We're using volume smoothing, so apply the master volume to the gainer. */ @@ -74420,7 +75198,7 @@ static void ma_engine_node_process_pcm_frames__sound(ma_node* pNode, const float ma_sound_set_at_end(pSound, MA_TRUE); /* This will be set to false in ma_sound_start(). */ } - pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(ppFramesOut[0], totalFramesRead, ma_engine_get_channels(ma_sound_get_engine(pSound))); + pRunningFramesOut = ma_offset_pcm_frames_ptr_f32(ppFramesOut[0], totalFramesRead, ma_node_get_output_channels(pNode, 0)); frameCountIn = (ma_uint32)framesJustRead; frameCountOut = framesRemaining; @@ -74751,7 +75529,7 @@ MA_API ma_result ma_engine_node_init_preallocated(const ma_engine_node_config* p /* - Spatialization comes next. We spatialize based ont he node's output channel count. It's up the caller to + Spatialization comes next. We spatialize based on the node's output channel count. It's up the caller to ensure channels counts link up correctly in the node graph. */ spatializerConfig = ma_engine_node_spatializer_config_init(&baseNodeConfig); @@ -74941,6 +75719,21 @@ static void ma_engine_data_callback_internal(ma_device* pDevice, void* pFramesOu ma_engine_read_pcm_frames(pEngine, pFramesOut, frameCount, NULL); } + +static ma_uint32 ma_device__get_processing_size_in_frames(ma_device* pDevice) +{ + /* + The processing size is the period size. The device can have a fixed sized processing size, or + it can be decided by the backend in which case it can be variable. + */ + if (pDevice->playback.intermediaryBufferCap > 0) { + /* Using a fixed sized processing callback. */ + return pDevice->playback.intermediaryBufferCap; + } else { + /* Not using a fixed sized processing callback. Need to estimate the processing size based on the backend. */ + return pDevice->playback.internalPeriodSizeInFrames; + } +} #endif MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEngine) @@ -75034,6 +75827,14 @@ MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEng if (pEngine->pDevice != NULL) { engineConfig.channels = pEngine->pDevice->playback.channels; engineConfig.sampleRate = pEngine->pDevice->sampleRate; + + /* + The processing size used by the engine is determined by engineConfig.periodSizeInFrames. We want + to make this equal to what the device is using for it's period size. If we don't do that, it's + possible that the node graph will split it's processing into multiple passes which can introduce + glitching. + */ + engineConfig.periodSizeInFrames = ma_device__get_processing_size_in_frames(pEngine->pDevice); } } #endif @@ -75060,9 +75861,10 @@ MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEng } - /* The engine is a node graph. This needs to be initialized after we have the device so we can can determine the channel count. */ + /* The engine is a node graph. This needs to be initialized after we have the device so we can determine the channel count. */ nodeGraphConfig = ma_node_graph_config_init(engineConfig.channels); - nodeGraphConfig.nodeCacheCapInFrames = (engineConfig.periodSizeInFrames > 0xFFFF) ? 0xFFFF : (ma_uint16)engineConfig.periodSizeInFrames; + nodeGraphConfig.processingSizeInFrames = engineConfig.periodSizeInFrames; + nodeGraphConfig.preMixStackSizeInBytes = engineConfig.preMixStackSizeInBytes; result = ma_node_graph_init(&nodeGraphConfig, &pEngine->allocationCallbacks, &pEngine->nodeGraph); if (result != MA_SUCCESS) { @@ -75142,8 +75944,8 @@ MA_API ma_result ma_engine_init(const ma_engine_config* pConfig, ma_engine* pEng ma_allocation_callbacks_init_copy(&resourceManagerConfig.allocationCallbacks, &pEngine->allocationCallbacks); resourceManagerConfig.pVFS = engineConfig.pResourceManagerVFS; - /* The Emscripten build cannot use threads. */ - #if defined(MA_EMSCRIPTEN) + /* The Emscripten build cannot use threads unless it's targeting pthreads. */ + #if defined(MA_EMSCRIPTEN) && !defined(__EMSCRIPTEN_PTHREADS__) { resourceManagerConfig.jobThreadCount = 0; resourceManagerConfig.flags |= MA_RESOURCE_MANAGER_FLAG_NO_THREADING; @@ -75658,7 +76460,7 @@ MA_API ma_result ma_engine_play_sound_ex(ma_engine* pEngine, const char* pFilePa return MA_INVALID_ARGS; } - /* Attach to the endpoint node if nothing is specicied. */ + /* Attach to the endpoint node if nothing is specified. */ if (pNode == NULL) { pNode = ma_node_graph_get_endpoint(&pEngine->nodeGraph); nodeInputBusIndex = 0; @@ -75875,7 +76677,7 @@ static ma_result ma_sound_init_from_data_source_internal(ma_engine* pEngine, con ma_data_source_set_range_in_pcm_frames(ma_sound_get_data_source(pSound), pConfig->loopPointBegInPCMFrames, pConfig->loopPointEndInPCMFrames); } - ma_sound_set_looping(pSound, pConfig->isLooping); + ma_sound_set_looping(pSound, pConfig->isLooping || ((pConfig->flags & MA_SOUND_FLAG_LOOPING) != 0)); return MA_SUCCESS; } @@ -75899,6 +76701,9 @@ MA_API ma_result ma_sound_init_from_file_internal(ma_engine* pEngine, const ma_s it and can avoid accessing the sound from within the notification. */ flags = pConfig->flags | MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_WAIT_INIT; + if (pConfig->isLooping) { + flags |= MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING; + } pSound->pResourceManagerDataSource = (ma_resource_manager_data_source*)ma_malloc(sizeof(*pSound->pResourceManagerDataSource), &pEngine->allocationCallbacks); if (pSound->pResourceManagerDataSource == NULL) { @@ -75927,7 +76732,7 @@ MA_API ma_result ma_sound_init_from_file_internal(ma_engine* pEngine, const ma_s resourceManagerDataSourceConfig.rangeEndInPCMFrames = pConfig->rangeEndInPCMFrames; resourceManagerDataSourceConfig.loopPointBegInPCMFrames = pConfig->loopPointBegInPCMFrames; resourceManagerDataSourceConfig.loopPointEndInPCMFrames = pConfig->loopPointEndInPCMFrames; - resourceManagerDataSourceConfig.isLooping = pConfig->isLooping; + resourceManagerDataSourceConfig.isLooping = (flags & MA_RESOURCE_MANAGER_DATA_SOURCE_FLAG_LOOPING) != 0; result = ma_resource_manager_data_source_init_ex(pEngine->pResourceManager, &resourceManagerDataSourceConfig, pSound->pResourceManagerDataSource); if (result != MA_SUCCESS) { @@ -76079,7 +76884,7 @@ MA_API ma_result ma_sound_init_ex(ma_engine* pEngine, const ma_sound_config* pCo { /* Getting here means we're not loading from a file. We may be loading from an already-initialized - data source, or none at all. If we aren't specifying any data source, we'll be initializing the + data source, or none at all. If we aren't specifying any data source, we'll be initializing the equivalent to a group. ma_data_source_init_from_data_source_internal() will deal with this for us, so no special treatment required here. */ @@ -76799,6 +77604,27 @@ MA_API ma_result ma_sound_seek_to_pcm_frame(ma_sound* pSound, ma_uint64 frameInd return MA_SUCCESS; } +MA_API ma_result ma_sound_seek_to_second(ma_sound* pSound, float seekPointInSeconds) +{ + ma_uint64 frameIndex; + ma_uint32 sampleRate; + ma_result result; + + if (pSound == NULL) { + return MA_INVALID_ARGS; + } + + result = ma_sound_get_data_format(pSound, NULL, NULL, &sampleRate, NULL, 0); + if (result != MA_SUCCESS) { + return result; + } + + /* We need PCM frames. We need to convert first */ + frameIndex = (ma_uint64)(seekPointInSeconds * sampleRate); + + return ma_sound_seek_to_pcm_frame(pSound, frameIndex); +} + MA_API ma_result ma_sound_get_data_format(ma_sound* pSound, ma_format* pFormat, ma_uint32* pChannels, ma_uint32* pSampleRate, ma_channel* pChannelMap, size_t channelMapCap) { if (pSound == NULL) { @@ -77245,7 +78071,7 @@ code below please report the bug to the respective repository for the relevant p *************************************************************************************************************************************************************** **************************************************************************************************************************************************************/ #if !defined(MA_NO_WAV) && (!defined(MA_NO_DECODING) || !defined(MA_NO_ENCODING)) -#if !defined(MA_DR_WAV_IMPLEMENTATION) && !defined(MA_DR_WAV_IMPLEMENTATION) /* For backwards compatibility. Will be removed in version 0.11 for cleanliness. */ +#if !defined(MA_DR_WAV_IMPLEMENTATION) /* dr_wav_c begin */ #ifndef ma_dr_wav_c #define ma_dr_wav_c @@ -78567,7 +79393,6 @@ MA_PRIVATE ma_bool32 ma_dr_wav_init__internal(ma_dr_wav* pWav, ma_dr_wav_chunk_p } if (pWav->container == ma_dr_wav_container_riff || pWav->container == ma_dr_wav_container_rifx) { if (ma_dr_wav_bytes_to_u32_ex(chunkSizeBytes, pWav->container) < 36) { - return MA_FALSE; } } else if (pWav->container == ma_dr_wav_container_rf64) { if (ma_dr_wav_bytes_to_u32_le(chunkSizeBytes) != 0xFFFFFFFF) { @@ -78836,7 +79661,9 @@ MA_PRIVATE ma_bool32 ma_dr_wav_init__internal(ma_dr_wav* pWav, ma_dr_wav_chunk_p compressionFormat = MA_DR_WAVE_FORMAT_MULAW; } else if (ma_dr_wav_fourcc_equal(type, "ima4")) { compressionFormat = MA_DR_WAVE_FORMAT_DVI_ADPCM; - sampleSizeInBits = 4; + sampleSizeInBits = 4; + (void)compressionFormat; + (void)sampleSizeInBits; return MA_FALSE; } else { return MA_FALSE; @@ -78894,9 +79721,7 @@ MA_PRIVATE ma_bool32 ma_dr_wav_init__internal(ma_dr_wav* pWav, ma_dr_wav_chunk_p } } if (isProcessingMetadata) { - ma_uint64 metadataBytesRead; - metadataBytesRead = ma_dr_wav__metadata_process_chunk(&metadataParser, &header, ma_dr_wav_metadata_type_all_including_unknown); - MA_DR_WAV_ASSERT(metadataBytesRead <= header.sizeInBytes); + ma_dr_wav__metadata_process_chunk(&metadataParser, &header, ma_dr_wav_metadata_type_all_including_unknown); if (ma_dr_wav__seek_from_start(pWav->onSeek, cursor, pWav->pUserData) == MA_FALSE) { break; } @@ -80344,6 +81169,12 @@ MA_API ma_uint64 ma_dr_wav_write_pcm_frames(ma_dr_wav* pWav, ma_uint64 framesToW MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_uint64 framesToRead, ma_int16* pBufferOut) { ma_uint64 totalFramesRead = 0; + static ma_int32 adaptationTable[] = { + 230, 230, 230, 230, 307, 409, 512, 614, + 768, 614, 512, 409, 307, 230, 230, 230 + }; + static ma_int32 coeff1Table[] = { 256, 512, 0, 192, 240, 460, 392 }; + static ma_int32 coeff2Table[] = { 0, -256, 0, 64, 0, -208, -232 }; MA_DR_WAV_ASSERT(pWav != NULL); MA_DR_WAV_ASSERT(framesToRead > 0); while (pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { @@ -80362,6 +81193,9 @@ MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_ pWav->msadpcm.cachedFrames[2] = pWav->msadpcm.prevFrames[0][0]; pWav->msadpcm.cachedFrames[3] = pWav->msadpcm.prevFrames[0][1]; pWav->msadpcm.cachedFrameCount = 2; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table)) { + return totalFramesRead; + } } else { ma_uint8 header[14]; if (pWav->onRead(pWav->pUserData, header, sizeof(header)) != sizeof(header)) { @@ -80381,6 +81215,9 @@ MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_ pWav->msadpcm.cachedFrames[2] = pWav->msadpcm.prevFrames[0][1]; pWav->msadpcm.cachedFrames[3] = pWav->msadpcm.prevFrames[1][1]; pWav->msadpcm.cachedFrameCount = 2; + if (pWav->msadpcm.predictor[0] >= ma_dr_wav_countof(coeff1Table) || pWav->msadpcm.predictor[1] >= ma_dr_wav_countof(coeff2Table)) { + return totalFramesRead; + } } } while (framesToRead > 0 && pWav->msadpcm.cachedFrameCount > 0 && pWav->readCursorInPCMFrames < pWav->totalPCMFrameCount) { @@ -80403,12 +81240,6 @@ MA_PRIVATE ma_uint64 ma_dr_wav_read_pcm_frames_s16__msadpcm(ma_dr_wav* pWav, ma_ if (pWav->msadpcm.bytesRemainingInBlock == 0) { continue; } else { - static ma_int32 adaptationTable[] = { - 230, 230, 230, 230, 307, 409, 512, 614, - 768, 614, 512, 409, 307, 230, 230, 230 - }; - static ma_int32 coeff1Table[] = { 256, 512, 0, 192, 240, 460, 392 }; - static ma_int32 coeff2Table[] = { 0, -256, 0, 64, 0, -208, -232 }; ma_uint8 nibbles; ma_int32 nibble0; ma_int32 nibble1; @@ -81659,7 +82490,7 @@ MA_API void ma_dr_wav_f32_to_s32(ma_int32* pOut, const float* pIn, size_t sample return; } for (i = 0; i < sampleCount; ++i) { - *pOut++ = (ma_int32)(2147483648.0 * pIn[i]); + *pOut++ = (ma_int32)(2147483648.0f * pIn[i]); } } MA_API void ma_dr_wav_f64_to_s32(ma_int32* pOut, const double* pIn, size_t sampleCount) @@ -82073,7 +82904,7 @@ MA_API ma_bool32 ma_dr_wav_fourcc_equal(const ma_uint8* a, const char* b) #endif /* MA_NO_WAV */ #if !defined(MA_NO_FLAC) && !defined(MA_NO_DECODING) -#if !defined(MA_DR_FLAC_IMPLEMENTATION) && !defined(MA_DR_FLAC_IMPLEMENTATION) /* For backwards compatibility. Will be removed in version 0.11 for cleanliness. */ +#if !defined(MA_DR_FLAC_IMPLEMENTATION) /* dr_flac_c begin */ #ifndef ma_dr_flac_c #define ma_dr_flac_c @@ -85105,6 +85936,7 @@ static ma_bool32 ma_dr_flac__read_subframe_header(ma_dr_flac_bs* bs, ma_dr_flac_ if ((header & 0x80) != 0) { return MA_FALSE; } + pSubframe->lpcOrder = 0; type = (header & 0x7E) >> 1; if (type == 0) { pSubframe->subframeType = MA_DR_FLAC_SUBFRAME_CONSTANT; @@ -85162,6 +85994,9 @@ static ma_bool32 ma_dr_flac__decode_subframe(ma_dr_flac_bs* bs, ma_dr_flac_frame } subframeBitsPerSample -= pSubframe->wastedBitsPerSample; pSubframe->pSamplesS32 = pDecodedSamplesOut; + if (frame->header.blockSizeInPCMFrames < pSubframe->lpcOrder) { + return MA_FALSE; + } switch (pSubframe->subframeType) { case MA_DR_FLAC_SUBFRAME_CONSTANT: @@ -89818,7 +90653,7 @@ MA_API ma_bool32 ma_dr_flac_next_cuesheet_track(ma_dr_flac_cuesheet_track_iterat #endif /* MA_NO_FLAC */ #if !defined(MA_NO_MP3) && !defined(MA_NO_DECODING) -#if !defined(MA_DR_MP3_IMPLEMENTATION) && !defined(MA_DR_MP3_IMPLEMENTATION) /* For backwards compatibility. Will be removed in version 0.11 for cleanliness. */ +#if !defined(MA_DR_MP3_IMPLEMENTATION) /* dr_mp3_c begin */ #ifndef ma_dr_mp3_c #define ma_dr_mp3_c @@ -89879,7 +90714,7 @@ MA_API const char* ma_dr_mp3_version_string(void) #define MA_DR_MP3_MIN(a, b) ((a) > (b) ? (b) : (a)) #define MA_DR_MP3_MAX(a, b) ((a) < (b) ? (b) : (a)) #if !defined(MA_DR_MP3_NO_SIMD) -#if !defined(MA_DR_MP3_ONLY_SIMD) && (defined(_M_X64) || defined(__x86_64__) || defined(__aarch64__) || defined(_M_ARM64)) +#if !defined(MA_DR_MP3_ONLY_SIMD) && (defined(_M_X64) || defined(__x86_64__) || defined(__aarch64__) || defined(_M_ARM64) || defined(_M_ARM64EC)) #define MA_DR_MP3_ONLY_SIMD #endif #if ((defined(_MSC_VER) && _MSC_VER >= 1400) && defined(_M_X64)) || ((defined(__i386) || defined(_M_IX86) || defined(__i386__) || defined(__x86_64__)) && ((defined(_M_IX86_FP) && _M_IX86_FP == 2) || defined(__SSE2__))) @@ -89952,7 +90787,7 @@ end: return g_have_simd - 1; #endif } -#elif defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64) +#elif defined(__ARM_NEON) || defined(__aarch64__) || defined(_M_ARM64) || defined(_M_ARM64EC) #include #define MA_DR_MP3_HAVE_SSE 0 #define MA_DR_MP3_HAVE_SIMD 1 @@ -89981,7 +90816,7 @@ static int ma_dr_mp3_have_simd(void) #else #define MA_DR_MP3_HAVE_SIMD 0 #endif -#if defined(__ARM_ARCH) && (__ARM_ARCH >= 6) && !defined(__aarch64__) && !defined(_M_ARM64) && !defined(__ARM_ARCH_6M__) +#if defined(__ARM_ARCH) && (__ARM_ARCH >= 6) && !defined(__aarch64__) && !defined(_M_ARM64) && !defined(_M_ARM64EC) && !defined(__ARM_ARCH_6M__) #define MA_DR_MP3_HAVE_ARMV6 1 static __inline__ __attribute__((always_inline)) ma_int32 ma_dr_mp3_clip_int16_arm(ma_int32 a) { @@ -91147,8 +91982,8 @@ static ma_int16 ma_dr_mp3d_scale_pcm(float sample) s32 -= (s32 < 0); s = (ma_int16)ma_dr_mp3_clip_int16_arm(s32); #else - if (sample >= 32766.5) return (ma_int16) 32767; - if (sample <= -32767.5) return (ma_int16)-32768; + if (sample >= 32766.5f) return (ma_int16) 32767; + if (sample <= -32767.5f) return (ma_int16)-32768; s = (ma_int16)(sample + .5f); s -= (s < 0); #endif @@ -91534,9 +92369,9 @@ MA_API void ma_dr_mp3dec_f32_to_s16(const float *in, ma_int16 *out, size_t num_s for(; i < num_samples; i++) { float sample = in[i] * 32768.0f; - if (sample >= 32766.5) + if (sample >= 32766.5f) out[i] = (ma_int16) 32767; - else if (sample <= -32767.5) + else if (sample <= -32767.5f) out[i] = (ma_int16)-32768; else { @@ -92614,7 +93449,7 @@ For more information, please refer to =============================================================================== ALTERNATIVE 2 - MIT No Attribution =============================================================================== -Copyright 2023 David Reid +Copyright 2025 David Reid Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the "Software"), to deal in diff --git a/src/external/rprand.h b/src/external/rprand.h index ded6708e5..ba8368726 100644 --- a/src/external/rprand.h +++ b/src/external/rprand.h @@ -90,7 +90,7 @@ #define RPRAND_FREE(ptr) free(ptr) #endif -// Simple log system to avoid RPNG_LOG() calls if required +// Simple log system to avoid log calls if required // NOTE: Avoiding those calls, also avoids const strings memory usage #define RPRAND_SHOW_LOG_INFO #if defined(RPNG_SHOW_LOG_INFO) diff --git a/src/external/sinfl.h b/src/external/sinfl.h index 3c7173777..a749501ca 100644 --- a/src/external/sinfl.h +++ b/src/external/sinfl.h @@ -171,10 +171,11 @@ extern int zsinflate(void *out, int cap, const void *in, int size); static int sinfl_bsr(unsigned n) { -#if defined(_MSC_VER) && !defined(__clang__) - _BitScanReverse(&n, n); - return n; -#elif defined(__GNUC__) || defined(__clang__) +#ifdef _MSC_VER + unsigned long uln = 0; + _BitScanReverse(&uln, n); + return (int)(uln); +#else // defined(__GNUC__) || defined(__clang__) || defined(__TINYC__) return 31 - __builtin_clz(n); #endif } diff --git a/src/external/stb_truetype.h b/src/external/stb_truetype.h index 90a5c2e2b..491a854ac 100644 --- a/src/external/stb_truetype.h +++ b/src/external/stb_truetype.h @@ -1863,11 +1863,11 @@ static int stbtt__GetGlyphShapeTT(const stbtt_fontinfo *info, int glyph_index, s stbtt_vertex* v = &comp_verts[i]; stbtt_vertex_type x,y; x=v->x; y=v->y; - v->x = (stbtt_vertex_type)(m * (mtx[0]*x + mtx[2]*y + mtx[4])); - v->y = (stbtt_vertex_type)(n * (mtx[1]*x + mtx[3]*y + mtx[5])); + v->x = (stbtt_vertex_type)(mtx[0]*x + mtx[2]*y + mtx[4]*m); + v->y = (stbtt_vertex_type)(mtx[1]*x + mtx[3]*y + mtx[5]*n); x=v->cx; y=v->cy; - v->cx = (stbtt_vertex_type)(m * (mtx[0]*x + mtx[2]*y + mtx[4])); - v->cy = (stbtt_vertex_type)(n * (mtx[1]*x + mtx[3]*y + mtx[5])); + v->cx = (stbtt_vertex_type)(mtx[0]*x + mtx[2]*y + mtx[4]*m); + v->cy = (stbtt_vertex_type)(mtx[1]*x + mtx[3]*y + mtx[5]*n); } // Append vertices. tmp = (stbtt_vertex*)STBTT_malloc((num_vertices+comp_num_verts)*sizeof(stbtt_vertex), info->userdata); diff --git a/src/platforms/rcore_android.c b/src/platforms/rcore_android.c index 1e726c455..03cb9741c 100644 --- a/src/platforms/rcore_android.c +++ b/src/platforms/rcore_android.c @@ -70,6 +70,16 @@ typedef struct { EGLConfig config; // Graphic config } PlatformData; +typedef struct { + // Store data for both Hover and Touch events + // Used to ignore Hover events which are interpreted as Touch events + int32_t pointCount; // Number of touch points active + int32_t pointId[MAX_TOUCH_POINTS]; // Point identifiers + Vector2 position[MAX_TOUCH_POINTS]; // Touch position on screen + + int32_t hoverPoints[MAX_TOUCH_POINTS]; // Hover Points +} TouchRaw; + //---------------------------------------------------------------------------------- // Global Variables Definition //---------------------------------------------------------------------------------- @@ -246,6 +256,8 @@ static const KeyboardKey mapKeycode[KEYCODE_MAP_SIZE] = { KEY_KP_EQUAL // AKEYCODE_NUMPAD_EQUALS }; +static TouchRaw touchRaw = { 0 }; + //---------------------------------------------------------------------------------- // Module Internal Functions Declaration //---------------------------------------------------------------------------------- @@ -337,7 +349,7 @@ void MinimizeWindow(void) TRACELOG(LOG_WARNING, "MinimizeWindow() not available on target platform"); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { TRACELOG(LOG_WARNING, "RestoreWindow() not available on target platform"); @@ -431,7 +443,7 @@ int GetMonitorCount(void) return 1; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { TRACELOG(LOG_WARNING, "GetCurrentMonitor() not implemented on target platform"); @@ -801,6 +813,8 @@ int InitPlatform(void) } } + for (int i = 0; i < MAX_TOUCH_POINTS; i++) touchRaw.hoverPoints[i] = -1; + return 0; } @@ -859,7 +873,7 @@ static int InitGraphicsDevice(void) EGL_GREEN_SIZE, 8, // GREEN color bit depth (alternative: 6) EGL_BLUE_SIZE, 8, // BLUE color bit depth (alternative: 5) //EGL_TRANSPARENT_TYPE, EGL_NONE, // Request transparent framebuffer (EGL_TRANSPARENT_RGB does not work on RPI) - EGL_DEPTH_SIZE, 16, // Depth buffer size (Required to use Depth testing!) + EGL_DEPTH_SIZE, 24, // Depth buffer size (Required to use Depth testing!) //EGL_STENCIL_SIZE, 8, // Stencil buffer size EGL_SAMPLE_BUFFERS, sampleBuffer, // Activate MSAA EGL_SAMPLES, samples, // 4x Antialiasing if activated (Free on MALI GPUs) @@ -1269,25 +1283,85 @@ static int32_t AndroidInputCallback(struct android_app *app, AInputEvent *event) } // Register touch points count - CORE.Input.Touch.pointCount = AMotionEvent_getPointerCount(event); + touchRaw.pointCount = AMotionEvent_getPointerCount(event); - for (int i = 0; (i < CORE.Input.Touch.pointCount) && (i < MAX_TOUCH_POINTS); i++) + for (int i = 0; (i < touchRaw.pointCount) && (i < MAX_TOUCH_POINTS); i++) { // Register touch points id - CORE.Input.Touch.pointId[i] = AMotionEvent_getPointerId(event, i); + touchRaw.pointId[i] = AMotionEvent_getPointerId(event, i); // Register touch points position - CORE.Input.Touch.position[i] = (Vector2){ AMotionEvent_getX(event, i), AMotionEvent_getY(event, i) }; + touchRaw.position[i] = (Vector2){ AMotionEvent_getX(event, i), AMotionEvent_getY(event, i) }; // Normalize CORE.Input.Touch.position[i] for CORE.Window.screen.width and CORE.Window.screen.height float widthRatio = (float)(CORE.Window.screen.width + CORE.Window.renderOffset.x)/(float)CORE.Window.display.width; float heightRatio = (float)(CORE.Window.screen.height + CORE.Window.renderOffset.y)/(float)CORE.Window.display.height; - CORE.Input.Touch.position[i].x = CORE.Input.Touch.position[i].x*widthRatio - (float)CORE.Window.renderOffset.x/2; - CORE.Input.Touch.position[i].y = CORE.Input.Touch.position[i].y*heightRatio - (float)CORE.Window.renderOffset.y/2; + touchRaw.position[i].x = touchRaw.position[i].x*widthRatio - (float)CORE.Window.renderOffset.x/2; + touchRaw.position[i].y = touchRaw.position[i].y*heightRatio - (float)CORE.Window.renderOffset.y/2; } int32_t action = AMotionEvent_getAction(event); unsigned int flags = action & AMOTION_EVENT_ACTION_MASK; + int32_t pointerIndex = (action & AMOTION_EVENT_ACTION_POINTER_INDEX_MASK) >> AMOTION_EVENT_ACTION_POINTER_INDEX_SHIFT; + + if (flags == AMOTION_EVENT_ACTION_HOVER_ENTER) + { + // The new pointer is hover + // So add it to hoverPoints + for (int i = 0; i < MAX_TOUCH_POINTS; i++) + { + if (touchRaw.hoverPoints[i] == -1) + { + touchRaw.hoverPoints[i] = touchRaw.pointId[pointerIndex]; + break; + } + } + } + + if ((flags == AMOTION_EVENT_ACTION_POINTER_UP) || (flags == AMOTION_EVENT_ACTION_UP) || (flags == AMOTION_EVENT_ACTION_HOVER_EXIT)) + { + // One of the touchpoints is released, remove it from touch point arrays + if (flags == AMOTION_EVENT_ACTION_HOVER_EXIT) + { + // If the touchPoint is hover, remove it from hoverPoints + for (int i = 0; i < MAX_TOUCH_POINTS; i++) + { + if (touchRaw.hoverPoints[i] == touchRaw.pointId[pointerIndex]) + { + touchRaw.hoverPoints[i] = -1; + break; + } + } + } + for (int i = pointerIndex; (i < touchRaw.pointCount - 1) && (i < MAX_TOUCH_POINTS - 1); i++) + { + touchRaw.pointId[i] = touchRaw.pointId[i+1]; + touchRaw.position[i] = touchRaw.position[i+1]; + } + touchRaw.pointCount--; + } + + int pointCount = 0; + for (int i = 0; (i < touchRaw.pointCount) && (i < MAX_TOUCH_POINTS); i++) + { + // If the touchPoint is hover, Ignore it + bool hover = false; + for (int j = 0; j < MAX_TOUCH_POINTS; j++) + { + // Check if the touchPoint is in hoverPointers + if (touchRaw.hoverPoints[j] == touchRaw.pointId[i]) + { + hover = true; + break; + } + } + if (hover) continue; + + CORE.Input.Touch.pointId[pointCount] = touchRaw.pointId[i]; + CORE.Input.Touch.position[pointCount] = touchRaw.position[i]; + pointCount++; + } + CORE.Input.Touch.pointCount = pointCount; #if defined(SUPPORT_GESTURES_SYSTEM) GestureEvent gestureEvent = { 0 }; @@ -1312,20 +1386,6 @@ static int32_t AndroidInputCallback(struct android_app *app, AInputEvent *event) ProcessGestureEvent(gestureEvent); #endif - int32_t pointerIndex = (action & AMOTION_EVENT_ACTION_POINTER_INDEX_MASK) >> AMOTION_EVENT_ACTION_POINTER_INDEX_SHIFT; - - if (flags == AMOTION_EVENT_ACTION_POINTER_UP || flags == AMOTION_EVENT_ACTION_UP) - { - // One of the touchpoints is released, remove it from touch point arrays - for (int i = pointerIndex; (i < CORE.Input.Touch.pointCount - 1) && (i < MAX_TOUCH_POINTS); i++) - { - CORE.Input.Touch.pointId[i] = CORE.Input.Touch.pointId[i+1]; - CORE.Input.Touch.position[i] = CORE.Input.Touch.position[i+1]; - } - - CORE.Input.Touch.pointCount--; - } - // When all touchpoints are tapped and released really quickly, this event is generated if (flags == AMOTION_EVENT_ACTION_CANCEL) CORE.Input.Touch.pointCount = 0; diff --git a/src/platforms/rcore_desktop_glfw.c b/src/platforms/rcore_desktop_glfw.c index f79276549..9bbd6559a 100644 --- a/src/platforms/rcore_desktop_glfw.c +++ b/src/platforms/rcore_desktop_glfw.c @@ -1,6 +1,6 @@ /********************************************************************************************** * -* rcore_desktop - Functions to manage window, graphics device and inputs +* rcore_desktop_glfw - Functions to manage window, graphics device and inputs * * PLATFORM: DESKTOP: GLFW * - Windows (Win32, Win64) @@ -130,9 +130,9 @@ static void CursorEnterCallback(GLFWwindow *window, int enter); static void JoystickCallback(int jid, int event); // GLFW3 Joystick Connected/Disconnected Callback // Wrappers used by glfwInitAllocator -static void* AllocateWrapper(size_t size, void* user); // GLFW3 GLFWallocatefun, wrapps around RL_MALLOC macro -static void* ReallocateWrapper(void* block, size_t size, void* user); // GLFW3 GLFWreallocatefun, wrapps around RL_MALLOC macro -static void DeallocateWrapper(void* block, void* user); // GLFW3 GLFWdeallocatefun, wraps around RL_FREE macro +static void *AllocateWrapper(size_t size, void *user); // GLFW3 GLFWallocatefun, wrapps around RL_MALLOC macro +static void *ReallocateWrapper(void *block, size_t size, void *user); // GLFW3 GLFWreallocatefun, wrapps around RL_MALLOC macro +static void DeallocateWrapper(void *block, void *user); // GLFW3 GLFWdeallocatefun, wraps around RL_FREE macro //---------------------------------------------------------------------------------- // Module Functions Declaration @@ -292,7 +292,7 @@ void MinimizeWindow(void) glfwIconifyWindow(platform.handle); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { if (glfwGetWindowAttrib(platform.handle, GLFW_RESIZABLE) == GLFW_TRUE) @@ -307,6 +307,8 @@ void RestoreWindow(void) // Set window configuration state using flags void SetWindowState(unsigned int flags) { + if (!CORE.Window.ready) TRACELOG(LOG_WARNING, "WINDOW: SetWindowState does nothing before window initialization, Use \"SetConfigFlags\" instead"); + // Check previous state and requested state to apply required changes // NOTE: In most cases the functions already change the flags internally @@ -574,7 +576,7 @@ void SetWindowIcons(Image *images, int count) else { int valid = 0; - GLFWimage *icons = RL_CALLOC(count, sizeof(GLFWimage)); + GLFWimage *icons = (GLFWimage *)RL_CALLOC(count, sizeof(GLFWimage)); for (int i = 0; i < count; i++) { @@ -736,7 +738,7 @@ int GetMonitorCount(void) return monitorCount; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { int index = 0; @@ -1236,7 +1238,7 @@ void PollInputEvents(void) } } - // Get current axis state + // Get current state of axes const float *axes = state.axes; for (int k = 0; (axes != NULL) && (k < GLFW_GAMEPAD_AXIS_LAST + 1); k++) @@ -1244,7 +1246,7 @@ void PollInputEvents(void) CORE.Input.Gamepad.axisState[i][k] = axes[k]; } - // Register buttons for 2nd triggers (because GLFW doesn't count these as buttons but rather axis) + // Register buttons for 2nd triggers (because GLFW doesn't count these as buttons but rather as axes) if (CORE.Input.Gamepad.axisState[i][GAMEPAD_AXIS_LEFT_TRIGGER] > 0.1f) { CORE.Input.Gamepad.currentButtonState[i][GAMEPAD_BUTTON_LEFT_TRIGGER_2] = 1; @@ -1298,17 +1300,17 @@ static void SetDimensionsFromMonitor(GLFWmonitor *monitor) // We need to provide these because GLFWallocator expects function pointers with specific signatures. // Similar wrappers exist in utils.c but we cannot reuse them here due to declaration mismatch. // https://www.glfw.org/docs/latest/intro_guide.html#init_allocator -static void* AllocateWrapper(size_t size, void* user) +static void *AllocateWrapper(size_t size, void *user) { (void)user; return RL_MALLOC(size); } -static void* ReallocateWrapper(void* block, size_t size, void* user) +static void *ReallocateWrapper(void *block, size_t size, void *user) { (void)user; return RL_REALLOC(block, size); } -static void DeallocateWrapper(void* block, void* user) +static void DeallocateWrapper(void *block, void *user) { (void)user; RL_FREE(block); @@ -1325,6 +1327,7 @@ int InitPlatform(void) .reallocate = ReallocateWrapper, .user = NULL, // RL_*ALLOC macros are not capable of handling user-provided data }; + glfwInitAllocator(&allocator); #if defined(__APPLE__) @@ -1379,6 +1382,12 @@ int InitPlatform(void) if ((CORE.Window.flags & FLAG_WINDOW_TRANSPARENT) > 0) glfwWindowHint(GLFW_TRANSPARENT_FRAMEBUFFER, GLFW_TRUE); // Transparent framebuffer else glfwWindowHint(GLFW_TRANSPARENT_FRAMEBUFFER, GLFW_FALSE); // Opaque framebuffer + // HACK: Most of this was written before GLFW_SCALE_FRAMEBUFFER existed and + // was enabled by default. Disabling it gets back the old behavior. A + // complete fix will require removing a lot of CORE.Window.render + // manipulation code. + glfwWindowHint(GLFW_SCALE_FRAMEBUFFER, GLFW_FALSE); + if ((CORE.Window.flags & FLAG_WINDOW_HIGHDPI) > 0) { // Resize window content area based on the monitor content scale. @@ -1386,7 +1395,7 @@ int InitPlatform(void) // On platforms like macOS the resolution of the framebuffer is changed independently of the window size. glfwWindowHint(GLFW_SCALE_TO_MONITOR, GLFW_TRUE); // Scale content area based on the monitor content scale where window is placed on #if defined(__APPLE__) - glfwWindowHint(GLFW_COCOA_RETINA_FRAMEBUFFER, GLFW_TRUE); + glfwWindowHint(GLFW_SCALE_FRAMEBUFFER, GLFW_TRUE); #endif } else glfwWindowHint(GLFW_SCALE_TO_MONITOR, GLFW_FALSE); @@ -1600,7 +1609,7 @@ int InitPlatform(void) if ((CORE.Window.flags & FLAG_WINDOW_HIGHDPI) > 0) { // NOTE: On APPLE platforms system should manage window/input scaling and also framebuffer scaling. - // Framebuffer scaling should be activated with: glfwWindowHint(GLFW_COCOA_RETINA_FRAMEBUFFER, GLFW_TRUE); + // Framebuffer scaling should be activated with: glfwWindowHint(GLFW_SCALE_FRAMEBUFFER, GLFW_TRUE); #if !defined(__APPLE__) glfwGetFramebufferSize(platform.handle, &fbWidth, &fbHeight); @@ -1688,6 +1697,8 @@ int InitPlatform(void) // Retrieve gamepad names for (int i = 0; i < MAX_GAMEPADS; i++) { + // WARNING: If glfwGetJoystickName() is longer than MAX_GAMEPAD_NAME_LENGTH, + // we can get a not-NULL terminated string, so, we only copy up to (MAX_GAMEPAD_NAME_LENGTH - 1) if (glfwJoystickPresent(i)) strncpy(CORE.Input.Gamepad.name[i], glfwGetJoystickName(i), MAX_GAMEPAD_NAME_LENGTH - 1); } //---------------------------------------------------------------------------- @@ -1741,9 +1752,13 @@ static void ErrorCallback(int error, const char *description) } // GLFW3 WindowSize Callback, runs when window is resizedLastFrame -// NOTE: Window resizing not allowed by default +// NOTE: Window resizing not enabled by default, use SetConfigFlags() static void WindowSizeCallback(GLFWwindow *window, int width, int height) { + // WARNING: On window minimization, callback is called, + // but we don't want to change internal screen values, it breaks things + if ((width == 0) || (height == 0)) return; + // Reset viewport and projection matrix for new size SetupViewport(width, height); @@ -1753,12 +1768,22 @@ static void WindowSizeCallback(GLFWwindow *window, int width, int height) if (IsWindowFullscreen()) return; - // Set current screen size + // if we are doing automatic DPI scaling, then the "screen" size is divided by the window scale + if (IsWindowState(FLAG_WINDOW_HIGHDPI)) + { + width = (int)(width/GetWindowScaleDPI().x); + height = (int)(height/GetWindowScaleDPI().y); + } + // Set render size + CORE.Window.render.width = width; + CORE.Window.render.height = height; + + // Set current screen size CORE.Window.screen.width = width; CORE.Window.screen.height = height; - // NOTE: Postprocessing texture is not scaled to new size + // WARNING: If using a render texture, it is not scaled to new size } static void WindowPosCallback(GLFWwindow* window, int x, int y) { @@ -1951,6 +1976,9 @@ static void JoystickCallback(int jid, int event) { if (event == GLFW_CONNECTED) { + // WARNING: If glfwGetJoystickName() is longer than MAX_GAMEPAD_NAME_LENGTH, + // we can get a not-NULL terminated string, so, we clean destination and only copy up to -1 + memset(CORE.Input.Gamepad.name[jid], 0, MAX_GAMEPAD_NAME_LENGTH); strncpy(CORE.Input.Gamepad.name[jid], glfwGetJoystickName(jid), MAX_GAMEPAD_NAME_LENGTH - 1); } else if (event == GLFW_DISCONNECTED) diff --git a/src/platforms/rcore_desktop_rgfw.c b/src/platforms/rcore_desktop_rgfw.c index 3da3af4c9..a1694af4a 100644 --- a/src/platforms/rcore_desktop_rgfw.c +++ b/src/platforms/rcore_desktop_rgfw.c @@ -54,7 +54,7 @@ #endif #if defined(PLATFORM_WEB_RGFW) -#define RGFW_NO_GL_HEADER +#define RGFW_NO_GL_HEADER #endif #if defined(GRAPHICS_API_OPENGL_ES2) && !defined(PLATFORM_WEB_RGFW) @@ -76,14 +76,14 @@ void CloseWindow(void); #if defined(_WIN32) || defined(_WIN64) #define WIN32_LEAN_AND_MEAN - #define Rectangle rectangle_win32 + #define Rectangle rectangle_win32 #define CloseWindow CloseWindow_win32 #define ShowCursor __imp_ShowCursor - #define _APISETSTRING_ - - #undef MAX_PATH + #define _APISETSTRING_ + + #undef MAX_PATH - __declspec(dllimport) int __stdcall MultiByteToWideChar(unsigned int CodePage, unsigned long dwFlags, const char *lpMultiByteStr, int cbMultiByte, wchar_t *lpWideCharStr, int cchWideChar); + __declspec(dllimport) int __stdcall MultiByteToWideChar(unsigned int CodePage, unsigned long dwFlags, const char *lpMultiByteStr, int cbMultiByte, wchar_t *lpWideCharStr, int cchWideChar); #endif #if defined(__APPLE__) @@ -103,8 +103,8 @@ void CloseWindow(void); #undef CloseWindow #undef Rectangle - #undef MAX_PATH - #define MAX_PATH 1025 + #undef MAX_PATH + #define MAX_PATH 1025 #endif #if defined(__APPLE__) @@ -128,7 +128,7 @@ typedef struct { //---------------------------------------------------------------------------------- extern CoreData CORE; // Global CORE state context -static PlatformData platform = { NULL }; // Platform specific +static PlatformData platform = { 0 }; // Platform specific static bool RGFW_disableCursor = false; @@ -175,7 +175,9 @@ static const unsigned short keyMappingRGFW[] = { [RGFW_superL] = KEY_LEFT_SUPER, #ifndef RGFW_MACOS [RGFW_shiftR] = KEY_RIGHT_SHIFT, + [RGFW_controlR] = KEY_RIGHT_CONTROL, [RGFW_altR] = KEY_RIGHT_ALT, + [RGFW_superR] = KEY_RIGHT_SUPER, #endif [RGFW_space] = KEY_SPACE, @@ -264,11 +266,12 @@ bool WindowShouldClose(void) // Toggle fullscreen mode void ToggleFullscreen(void) -{ +{ if (!CORE.Window.fullscreen) { // Store previous window position (in case we exit fullscreen) CORE.Window.previousPosition = CORE.Window.position; + CORE.Window.previousScreen = CORE.Window.screen; platform.mon = RGFW_window_getMonitor(platform.window); CORE.Window.fullscreen = true; @@ -281,18 +284,20 @@ void ToggleFullscreen(void) { CORE.Window.fullscreen = false; CORE.Window.flags &= ~FLAG_FULLSCREEN_MODE; - - if (platform.mon.mode.area.w) + + if (platform.mon.mode.area.w) { RGFW_monitor monitor = RGFW_window_getMonitor(platform.window); RGFW_monitor_requestMode(monitor, platform.mon.mode, RGFW_monitorScale); - + platform.mon.mode.area.w = 0; } // we update the window position right away CORE.Window.position = CORE.Window.previousPosition; + RGFW_window_setFullscreen(platform.window, 0); RGFW_window_move(platform.window, RGFW_POINT(CORE.Window.position.x, CORE.Window.position.y)); + RGFW_window_resize(platform.window, RGFW_AREA(CORE.Window.previousScreen.width, CORE.Window.previousScreen.height)); } // Try to enable GPU V-Sync, so frames are limited to screen refresh rate (60Hz -> 60 FPS) @@ -303,10 +308,7 @@ void ToggleFullscreen(void) // Toggle borderless windowed mode void ToggleBorderlessWindowed(void) { - if (platform.window == NULL) - return; - - if (CORE.Window.fullscreen) + if (CORE.Window.fullscreen) { CORE.Window.previousPosition = CORE.Window.position; CORE.Window.previousScreen = CORE.Window.screen; @@ -315,7 +317,9 @@ void ToggleBorderlessWindowed(void) RGFW_monitor mon = RGFW_window_getMonitor(platform.window); RGFW_window_resize(platform.window, mon.mode.area); - } else { + } + else + { RGFW_window_setBorder(platform.window, 1); CORE.Window.position = CORE.Window.previousPosition; @@ -337,11 +341,10 @@ void MinimizeWindow(void) RGFW_window_minimize(platform.window); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { - if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) - RGFW_window_focus(platform.window); + if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) RGFW_window_focus(platform.window); RGFW_window_restore(platform.window); } @@ -349,6 +352,8 @@ void RestoreWindow(void) // Set window configuration state using flags void SetWindowState(unsigned int flags) { + if (!CORE.Window.ready) TRACELOG(LOG_WARNING, "WINDOW: SetWindowState does nothing before window initialization, Use \"SetConfigFlags\" instead"); + CORE.Window.flags |= flags; if (flags & FLAG_VSYNC_HINT) @@ -357,8 +362,7 @@ void SetWindowState(unsigned int flags) } if (flags & FLAG_FULLSCREEN_MODE) { - if (!CORE.Window.fullscreen) - ToggleFullscreen(); + if (!CORE.Window.fullscreen) ToggleFullscreen(); } if (flags & FLAG_WINDOW_RESIZABLE) { @@ -384,6 +388,8 @@ void SetWindowState(unsigned int flags) if (flags & FLAG_WINDOW_UNFOCUSED) { CORE.Window.flags |= FLAG_WINDOW_UNFOCUSED; + platform.window->_flags &= ~RGFW_windowFocusOnShow; + RGFW_window_setFlags(platform.window, platform.window->_flags); } if (flags & FLAG_WINDOW_TOPMOST) { @@ -430,8 +436,7 @@ void ClearWindowState(unsigned int flags) } if (flags & FLAG_FULLSCREEN_MODE) { - if (CORE.Window.fullscreen) - ToggleFullscreen(); + if (CORE.Window.fullscreen) ToggleFullscreen(); } if (flags & FLAG_WINDOW_RESIZABLE) { @@ -444,25 +449,25 @@ void ClearWindowState(unsigned int flags) } if (flags & FLAG_WINDOW_HIDDEN) { - if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) - RGFW_window_focus(platform.window); + if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) RGFW_window_focus(platform.window); + RGFW_window_show(platform.window); } if (flags & FLAG_WINDOW_MINIMIZED) { - if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) - RGFW_window_focus(platform.window); + if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) RGFW_window_focus(platform.window); RGFW_window_restore(platform.window); } if (flags & FLAG_WINDOW_MAXIMIZED) { - if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) - RGFW_window_focus(platform.window); + if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) RGFW_window_focus(platform.window); + RGFW_window_restore(platform.window); } if (flags & FLAG_WINDOW_UNFOCUSED) { + RGFW_window_setFlags(platform.window, platform.window->_flags | RGFW_windowFocusOnShow); CORE.Window.flags &= ~FLAG_WINDOW_UNFOCUSED; } if (flags & FLAG_WINDOW_TOPMOST) @@ -487,8 +492,7 @@ void ClearWindowState(unsigned int flags) } if (flags & FLAG_BORDERLESS_WINDOWED_MODE) { - if (CORE.Window.fullscreen) - ToggleBorderlessWindowed(); + if (CORE.Window.fullscreen) ToggleBorderlessWindowed(); } if (flags & FLAG_MSAA_4X_HINT) { @@ -502,7 +506,8 @@ void ClearWindowState(unsigned int flags) int RGFW_formatToChannels(int format) { - switch (format) { + switch (format) + { case PIXELFORMAT_UNCOMPRESSED_GRAYSCALE: case PIXELFORMAT_UNCOMPRESSED_R16: // 16 bpp (1 channel - half float) case PIXELFORMAT_UNCOMPRESSED_R32: // 32 bpp (1 channel - float) @@ -547,21 +552,20 @@ void SetWindowIcons(Image *images, int count) if ((images == NULL) || (count <= 0)) { RGFW_window_setIcon(platform.window, NULL, RGFW_AREA(0, 0), 0); - } { - Image* bigIcon = NULL; - Image* smallIcon = NULL; + } + else + { + Image *bigIcon = NULL; + Image *smallIcon = NULL; - for (size_t i = 0; i < count; i++) { - if (bigIcon == NULL || (images[i].width > bigIcon->width && images[i].height > bigIcon->height)) - bigIcon = &images[i]; - if (smallIcon == NULL || (images[i].width < smallIcon->width && images[i].height > smallIcon->height)) - smallIcon = &images[i]; + for (int i = 0; i < count; i++) + { + if ((bigIcon == NULL) || ((images[i].width > bigIcon->width) && (images[i].height > bigIcon->height))) bigIcon = &images[i]; + if ((smallIcon == NULL) || ((images[i].width < smallIcon->width) && (images[i].height > smallIcon->height))) smallIcon = &images[i]; } - - if (smallIcon != NULL) - RGFW_window_setIconEx(platform.window, smallIcon->data, RGFW_AREA(smallIcon->width, smallIcon->height), RGFW_formatToChannels(smallIcon->format), RGFW_iconWindow); - if (bigIcon != NULL) - RGFW_window_setIconEx(platform.window, bigIcon->data, RGFW_AREA(bigIcon->width, bigIcon->height), RGFW_formatToChannels(bigIcon->format), RGFW_iconTaskbar); + + if (smallIcon != NULL) RGFW_window_setIconEx(platform.window, smallIcon->data, RGFW_AREA(smallIcon->width, smallIcon->height), RGFW_formatToChannels(smallIcon->format), RGFW_iconWindow); + if (bigIcon != NULL) RGFW_window_setIconEx(platform.window, bigIcon->data, RGFW_AREA(bigIcon->width, bigIcon->height), RGFW_formatToChannels(bigIcon->format), RGFW_iconTaskbar); } } @@ -581,7 +585,7 @@ void SetWindowPosition(int x, int y) // Set monitor for the current window void SetWindowMonitor(int monitor) { - RGFW_window_moveToMonitor(platform.window, RGFW_getMonitors()[monitor]); + RGFW_window_moveToMonitor(platform.window, RGFW_getMonitors(NULL)[monitor]); } // Set window minimum dimensions (FLAG_WINDOW_RESIZABLE) @@ -624,7 +628,8 @@ void SetWindowFocused(void) // Get native window handle void *GetWindowHandle(void) { -#ifdef RGFW_WEBASM + if (platform.window == NULL) return NULL; +#ifdef RGFW_WASM return (void *)platform.window->src.ctx; #else return (void *)platform.window->src.window; @@ -637,7 +642,7 @@ int GetMonitorCount(void) #define MAX_MONITORS_SUPPORTED 6 int count = MAX_MONITORS_SUPPORTED; - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); for (int i = 0; i < 6; i++) { @@ -651,11 +656,14 @@ int GetMonitorCount(void) return count; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { - RGFW_monitor *mons = RGFW_getMonitors(); - RGFW_monitor mon = RGFW_window_getMonitor(platform.window); + RGFW_monitor *mons = RGFW_getMonitors(NULL); + RGFW_monitor mon = { 0 }; + + if (platform.window) mon = RGFW_window_getMonitor(platform.window); + else mon = RGFW_getPrimaryMonitor(); for (int i = 0; i < 6; i++) { @@ -668,7 +676,7 @@ int GetCurrentMonitor(void) // Get selected monitor position Vector2 GetMonitorPosition(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return (Vector2){ (float)mons[monitor].x, (float)mons[monitor].y }; } @@ -676,7 +684,7 @@ Vector2 GetMonitorPosition(int monitor) // Get selected monitor width (currently used by monitor) int GetMonitorWidth(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return mons[monitor].mode.area.w; } @@ -684,7 +692,7 @@ int GetMonitorWidth(int monitor) // Get selected monitor height (currently used by monitor) int GetMonitorHeight(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return mons[monitor].mode.area.h; } @@ -692,7 +700,7 @@ int GetMonitorHeight(int monitor) // Get selected monitor physical width in millimetres int GetMonitorPhysicalWidth(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return mons[monitor].physW; } @@ -700,7 +708,7 @@ int GetMonitorPhysicalWidth(int monitor) // Get selected monitor physical height in millimetres int GetMonitorPhysicalHeight(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return (int)mons[monitor].physH; } @@ -708,7 +716,7 @@ int GetMonitorPhysicalHeight(int monitor) // Get selected monitor refresh rate int GetMonitorRefreshRate(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return (int)mons[monitor].mode.refreshRate; } @@ -716,7 +724,7 @@ int GetMonitorRefreshRate(int monitor) // Get the human-readable, UTF-8 encoded name of the selected monitor const char *GetMonitorName(int monitor) { - RGFW_monitor *mons = RGFW_getMonitors(); + RGFW_monitor *mons = RGFW_getMonitors(NULL); return mons[monitor].name; } @@ -724,15 +732,19 @@ const char *GetMonitorName(int monitor) // Get window position XY on monitor Vector2 GetWindowPosition(void) { + if (platform.window == NULL) return (Vector2){ 0.0f, 0.0f }; return (Vector2){ (float)platform.window->r.x, (float)platform.window->r.y }; } // Get window scale DPI factor for current monitor Vector2 GetWindowScaleDPI(void) { - RGFW_monitor monitor = RGFW_window_getMonitor(platform.window); + RGFW_monitor monitor = { 0 }; - return (Vector2){monitor.scaleX, monitor.scaleX}; + if (platform.window) monitor = RGFW_window_getMonitor(platform.window); + else monitor = RGFW_getPrimaryMonitor(); + + return (Vector2){ monitor.scaleX, monitor.scaleX }; } // Set clipboard text content @@ -748,7 +760,6 @@ const char *GetClipboardText(void) return RGFW_readClipboard(NULL); } - #if defined(SUPPORT_CLIPBOARD_IMAGE) #if defined(_WIN32) #define WIN32_CLIPBOARD_IMPLEMENTATION @@ -771,7 +782,7 @@ Image GetClipboardImage(void) int width = 0; int height = 0; fileData = (void *)Win32GetClipboardImageData(&width, &height, &dataSize); - + if (fileData == NULL) TRACELOG(LOG_WARNING, "Clipboard image: Couldn't get clipboard data"); else image = LoadImageFromMemory(".bmp", fileData, dataSize); #else @@ -829,11 +840,7 @@ void SwapScreenBuffer(void) // Get elapsed time measure in seconds since InitTimer() double GetTime(void) { - double time = 0.0; - unsigned long long int nanoSeconds = RGFW_getTimeNS(); - time = (double)(nanoSeconds - CORE.Time.base)*1e-9; // Elapsed time since InitTimer() - - return time; + return RGFW_getTime(); } // Open URL with default system browser (if available) @@ -886,29 +893,30 @@ void SetMouseCursor(int cursor) const char *GetKeyName(int key) { TRACELOG(LOG_WARNING, "GetKeyName() unsupported on target platform"); + return ""; } static KeyboardKey ConvertScancodeToKey(u32 keycode); int RGFW_gpConvTable[18] = { - [RGFW_gamepadY] = GAMEPAD_BUTTON_RIGHT_FACE_UP, - [RGFW_gamepadB] = GAMEPAD_BUTTON_RIGHT_FACE_RIGHT, - [RGFW_gamepadA] = GAMEPAD_BUTTON_RIGHT_FACE_DOWN, - [RGFW_gamepadX] = GAMEPAD_BUTTON_RIGHT_FACE_LEFT, - [RGFW_gamepadL1] = GAMEPAD_BUTTON_LEFT_TRIGGER_1, - [RGFW_gamepadR1] = GAMEPAD_BUTTON_RIGHT_TRIGGER_1, - [RGFW_gamepadL2] = GAMEPAD_BUTTON_LEFT_TRIGGER_2, - [RGFW_gamepadR2] = GAMEPAD_BUTTON_RIGHT_TRIGGER_2, - [RGFW_gamepadSelect] = GAMEPAD_BUTTON_MIDDLE_LEFT, - [RGFW_gamepadHome] = GAMEPAD_BUTTON_MIDDLE, - [RGFW_gamepadStart] = GAMEPAD_BUTTON_MIDDLE_RIGHT, - [RGFW_gamepadUp] = GAMEPAD_BUTTON_LEFT_FACE_UP, - [RGFW_gamepadRight] = GAMEPAD_BUTTON_LEFT_FACE_RIGHT, - [RGFW_gamepadDown] = GAMEPAD_BUTTON_LEFT_FACE_DOWN, - [RGFW_gamepadLeft] = GAMEPAD_BUTTON_LEFT_FACE_LEFT, - [RGFW_gamepadL3] = GAMEPAD_BUTTON_LEFT_THUMB, - [RGFW_gamepadR3] = GAMEPAD_BUTTON_RIGHT_THUMB, + [RGFW_gamepadY] = GAMEPAD_BUTTON_RIGHT_FACE_UP, + [RGFW_gamepadB] = GAMEPAD_BUTTON_RIGHT_FACE_RIGHT, + [RGFW_gamepadA] = GAMEPAD_BUTTON_RIGHT_FACE_DOWN, + [RGFW_gamepadX] = GAMEPAD_BUTTON_RIGHT_FACE_LEFT, + [RGFW_gamepadL1] = GAMEPAD_BUTTON_LEFT_TRIGGER_1, + [RGFW_gamepadR1] = GAMEPAD_BUTTON_RIGHT_TRIGGER_1, + [RGFW_gamepadL2] = GAMEPAD_BUTTON_LEFT_TRIGGER_2, + [RGFW_gamepadR2] = GAMEPAD_BUTTON_RIGHT_TRIGGER_2, + [RGFW_gamepadSelect] = GAMEPAD_BUTTON_MIDDLE_LEFT, + [RGFW_gamepadHome] = GAMEPAD_BUTTON_MIDDLE, + [RGFW_gamepadStart] = GAMEPAD_BUTTON_MIDDLE_RIGHT, + [RGFW_gamepadUp] = GAMEPAD_BUTTON_LEFT_FACE_UP, + [RGFW_gamepadRight] = GAMEPAD_BUTTON_LEFT_FACE_RIGHT, + [RGFW_gamepadDown] = GAMEPAD_BUTTON_LEFT_FACE_DOWN, + [RGFW_gamepadLeft] = GAMEPAD_BUTTON_LEFT_FACE_LEFT, + [RGFW_gamepadL3] = GAMEPAD_BUTTON_LEFT_THUMB, + [RGFW_gamepadR3] = GAMEPAD_BUTTON_RIGHT_THUMB, }; // Register all input events @@ -919,7 +927,7 @@ void PollInputEvents(void) // because ProcessGestureEvent() is just called on an event, not every frame UpdateGestures(); #endif - + // Reset keys/chars pressed registered CORE.Input.Keyboard.keyPressedQueueCount = 0; CORE.Input.Keyboard.charPressedQueueCount = 0; @@ -979,19 +987,25 @@ void PollInputEvents(void) CORE.Input.Mouse.previousPosition = CORE.Input.Mouse.currentPosition; } + if ((CORE.Window.eventWaiting) || (IsWindowState(FLAG_WINDOW_MINIMIZED) && !IsWindowState(FLAG_WINDOW_ALWAYS_RUN))) + { + RGFW_window_eventWait(platform.window, -1); // Wait for input events: keyboard/mouse/window events (callbacks) -> Update keys state + CORE.Time.previous = GetTime(); + } + while (RGFW_window_checkEvent(platform.window)) { RGFW_event *event = &platform.window->event; // All input events can be processed after polling - - switch (event->type) + + switch (event->type) { - case RGFW_quit: - if (CORE.Window.flags & FLAG_WINDOW_ALWAYS_RUN) - event->type = 0; - else - CORE.Window.shouldClose = true; - break; + case RGFW_mouseEnter: CORE.Input.Mouse.cursorOnScreen = true; break; + case RGFW_mouseLeave: CORE.Input.Mouse.cursorOnScreen = false; break; + case RGFW_quit: + event->type = 0; + CORE.Window.shouldClose = true; + return; case RGFW_DND: // Dropped file { for (int i = 0; i < event->droppedFilesCount; i++) @@ -1005,7 +1019,7 @@ void PollInputEvents(void) CORE.Window.dropFilepaths[CORE.Window.dropFileCount] = (char *)RL_CALLOC(MAX_FILEPATH_LENGTH, sizeof(char)); strcpy(CORE.Window.dropFilepaths[CORE.Window.dropFileCount], event->droppedFiles[i]); - + CORE.Window.dropFileCount++; } else if (CORE.Window.dropFileCount < 1024) @@ -1023,12 +1037,38 @@ void PollInputEvents(void) case RGFW_windowResized: { SetupViewport(platform.window->r.w, platform.window->r.h); - CORE.Window.screen.width = platform.window->r.w; - CORE.Window.screen.height = platform.window->r.h; + + // if we are doing automatic DPI scaling, then the "screen" size is divided by the window scale + if (IsWindowState(FLAG_WINDOW_HIGHDPI)) + { + CORE.Window.screen.width = (int)(platform.window->r.w / GetWindowScaleDPI().x); + CORE.Window.screen.height = (int)(platform.window->r.h / GetWindowScaleDPI().y); + } + else + { + CORE.Window.screen.width = platform.window->r.w; + CORE.Window.screen.height = platform.window->r.h; + } + CORE.Window.currentFbo.width = platform.window->r.w; CORE.Window.currentFbo.height = platform.window->r.h; CORE.Window.resizedLastFrame = true; } break; + case RGFW_windowMaximized: + { + CORE.Window.flags |= FLAG_WINDOW_MAXIMIZED; // The window was maximized + } break; + case RGFW_windowMinimized: + { + CORE.Window.flags |= FLAG_WINDOW_MINIMIZED; // The window was iconified + } break; + case RGFW_windowRestored: + { + if (RGFW_window_isMaximized(platform.window)) + CORE.Window.flags &= ~FLAG_WINDOW_MAXIMIZED; // The window was restored + if (RGFW_window_isMinimized(platform.window)) + CORE.Window.flags &= ~FLAG_WINDOW_MINIMIZED; // The window was restored + } break; case RGFW_windowMoved: { CORE.Window.position.x = platform.window->r.x; @@ -1079,12 +1119,13 @@ void PollInputEvents(void) { CORE.Input.Mouse.currentWheelMove.y = event->scroll; break; - } else CORE.Input.Mouse.currentWheelMove.y = 0; + } + else CORE.Input.Mouse.currentWheelMove.y = 0; int btn = event->button; if (btn == RGFW_mouseLeft) btn = 1; else if (btn == RGFW_mouseRight) btn = 2; - else if (btn == RGFW_mouseMiddle) btn = 3; + else if (btn == RGFW_mouseMiddle) btn = 3; CORE.Input.Mouse.currentButtonState[btn - 1] = 1; CORE.Input.Touch.currentTouchState[btn - 1] = 1; @@ -1097,7 +1138,8 @@ void PollInputEvents(void) { CORE.Input.Mouse.currentWheelMove.y = event->scroll; break; - } else CORE.Input.Mouse.currentWheelMove.y = 0; + } + else CORE.Input.Mouse.currentWheelMove.y = 0; int btn = event->button; if (btn == RGFW_mouseLeft) btn = 1; @@ -1127,19 +1169,21 @@ void PollInputEvents(void) touchAction = 2; } break; case RGFW_gamepadConnected: + { CORE.Input.Gamepad.ready[platform.window->event.gamepad] = true; CORE.Input.Gamepad.axisCount[platform.window->event.gamepad] = platform.window->event.axisesCount; CORE.Input.Gamepad.axisState[platform.window->event.gamepad][GAMEPAD_AXIS_LEFT_TRIGGER] = -1.0f; CORE.Input.Gamepad.axisState[platform.window->event.gamepad][GAMEPAD_AXIS_RIGHT_TRIGGER] = -1.0f; strcpy(CORE.Input.Gamepad.name[platform.window->event.gamepad], RGFW_getGamepadName(platform.window, platform.window->event.gamepad)); - break; + } break; case RGFW_gamepadDisconnected: + { CORE.Input.Gamepad.ready[platform.window->event.gamepad] = false; - break; + } break; case RGFW_gamepadButtonPressed: { - int button = RGFW_gpConvTable[event->button]; + int button = RGFW_gpConvTable[event->button]; if (button >= 0) { @@ -1149,7 +1193,7 @@ void PollInputEvents(void) } break; case RGFW_gamepadButtonReleased: { - int button = RGFW_gpConvTable[event->button]; + int button = RGFW_gpConvTable[event->button]; CORE.Input.Gamepad.currentButtonState[event->gamepad][button] = 0; if (CORE.Input.Gamepad.lastButtonPressed == button) CORE.Input.Gamepad.lastButtonPressed = 0; @@ -1157,33 +1201,34 @@ void PollInputEvents(void) case RGFW_gamepadAxisMove: { int axis = -1; + float value = 0; - float value = 0; - switch(event->whichAxis) + switch(event->whichAxis) { - case 0: - { - CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_LEFT_X] = event->axis[0].x / 100.0f; - CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_LEFT_Y] = event->axis[0].y / 100.0f; - } break; - case 1: - { - CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_RIGHT_X] = event->axis[1].x / 100.0f; - CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_RIGHT_Y] = event->axis[1].y / 100.0f; - } break; - case 2: axis = GAMEPAD_AXIS_LEFT_TRIGGER; - case 3: - { + case 0: + { + CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_LEFT_X] = event->axis[0].x / 100.0f; + CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_LEFT_Y] = event->axis[0].y / 100.0f; + } break; + case 1: + { + CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_RIGHT_X] = event->axis[1].x / 100.0f; + CORE.Input.Gamepad.axisState[event->gamepad][GAMEPAD_AXIS_RIGHT_Y] = event->axis[1].y / 100.0f; + } break; + case 2: axis = GAMEPAD_AXIS_LEFT_TRIGGER; + case 3: + { if (axis == -1) axis = GAMEPAD_AXIS_RIGHT_TRIGGER; - int button = (axis == GAMEPAD_AXIS_LEFT_TRIGGER)? GAMEPAD_BUTTON_LEFT_TRIGGER_2 : GAMEPAD_BUTTON_RIGHT_TRIGGER_2; - int pressed = (value > 0.1f); - CORE.Input.Gamepad.currentButtonState[event->gamepad][button] = pressed; - - if (pressed) CORE.Input.Gamepad.lastButtonPressed = button; - else if (CORE.Input.Gamepad.lastButtonPressed == button) CORE.Input.Gamepad.lastButtonPressed = 0; - } - default: break; - } + + int button = (axis == GAMEPAD_AXIS_LEFT_TRIGGER)? GAMEPAD_BUTTON_LEFT_TRIGGER_2 : GAMEPAD_BUTTON_RIGHT_TRIGGER_2; + int pressed = (value > 0.1f); + CORE.Input.Gamepad.currentButtonState[event->gamepad][button] = pressed; + + if (pressed) CORE.Input.Gamepad.lastButtonPressed = button; + else if (CORE.Input.Gamepad.lastButtonPressed == button) CORE.Input.Gamepad.lastButtonPressed = 0; + } + default: break; + } } break; default: break; } @@ -1239,7 +1284,7 @@ int InitPlatform(void) } if ((CORE.Window.flags & FLAG_BORDERLESS_WINDOWED_MODE) > 0) - { + { CORE.Window.fullscreen = true; flags |= RGFW_windowedFullscreen; } @@ -1251,44 +1296,51 @@ int InitPlatform(void) if ((CORE.Window.flags & FLAG_WINDOW_HIDDEN) > 0) flags |= RGFW_windowHide; if ((CORE.Window.flags & FLAG_WINDOW_MAXIMIZED) > 0) flags |= RGFW_windowMaximize; - // NOTE: Some OpenGL context attributes must be set before window creation - // Check selection OpenGL version - if (rlGetVersion() == RL_OPENGL_21) - { + if (rlGetVersion() == RL_OPENGL_21) + { RGFW_setGLHint(RGFW_glMajor, 2); RGFW_setGLHint(RGFW_glMinor, 1); - } - else if (rlGetVersion() == RL_OPENGL_33) - { - RGFW_setGLHint(RGFW_glCore, 3); + } + else if (rlGetVersion() == RL_OPENGL_33) + { + RGFW_setGLHint(RGFW_glMajor, 3); RGFW_setGLHint(RGFW_glMinor, 3); - } - else if (rlGetVersion() == RL_OPENGL_43) - { - RGFW_setGLHint(RGFW_glCore, 3); + } + else if (rlGetVersion() == RL_OPENGL_43) + { + RGFW_setGLHint(RGFW_glMajor, 4); RGFW_setGLHint(RGFW_glMinor, 3); } if (CORE.Window.flags & FLAG_MSAA_4X_HINT) RGFW_setGLHint(RGFW_glSamples, 4); + if (!(CORE.Window.flags & FLAG_WINDOW_UNFOCUSED)) flags |= RGFW_windowFocusOnShow | RGFW_windowFocus; + platform.window = RGFW_createWindow(CORE.Window.title, RGFW_RECT(0, 0, CORE.Window.screen.width, CORE.Window.screen.height), flags); platform.mon.mode.area.w = 0; + if (platform.window != NULL) + { + // NOTE: RGFW's exit key is distinct from raylib's exit key (which can + // be set with SetExitKey()) and defaults to Escape + platform.window->exitKey = RGFW_keyNULL; + } + #ifndef PLATFORM_WEB_RGFW RGFW_area screenSize = RGFW_getScreenSize(); CORE.Window.display.width = screenSize.w; CORE.Window.display.height = screenSize.h; #else - CORE.Window.display.width = CORE.Window.screen.width; + CORE.Window.display.width = CORE.Window.screen.width; CORE.Window.display.height = CORE.Window.screen.height; #endif - // TODO: Is this needed by raylib now? + // TODO: Is this needed by raylib now? // If so, rcore_desktop_sdl should be updated too - //SetupFramebuffer(CORE.Window.display.width, CORE.Window.display.height); - - if (CORE.Window.flags & FLAG_VSYNC_HINT) RGFW_window_swapInterval(platform.window, 1); + //SetupFramebuffer(CORE.Window.display.width, CORE.Window.display.height); + + if (CORE.Window.flags & FLAG_VSYNC_HINT) RGFW_window_swapInterval(platform.window, 1); RGFW_window_makeCurrent(platform.window); // Check surface and context activation @@ -1338,14 +1390,23 @@ int InitPlatform(void) CORE.Storage.basePath = GetWorkingDirectory(); //---------------------------------------------------------------------------- -#ifdef RGFW_X11 - for (int i = 0; (i < 4) && (i < MAX_GAMEPADS); i++) - { - RGFW_registerGamepad(platform.window, i); - } +#if defined(RGFW_WAYLAND) + if (RGFW_useWaylandBool) TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - Wayland): Initialized successfully"); + else TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - X11 (fallback)): Initialized successfully"); +#elif defined(RGFW_X11) + #if defined(__APPLE__) + TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - X11 (MacOS)): Initialized successfully"); + #else + TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - X11): Initialized successfully"); + #endif +#elif defined (RGFW_WINDOWS) + TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - Win32): Initialized successfully"); +#elif defined(RGFW_WASM) + TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - WASMs): Initialized successfully"); +#elif defined(RGFW_MACOS) + TRACELOG(LOG_INFO, "PLATFORM: DESKTOP (RGFW - MacOS): Initialized successfully"); #endif - TRACELOG(LOG_INFO, "PLATFORM: CUSTOM: Initialized successfully"); return 0; } @@ -1359,6 +1420,6 @@ void ClosePlatform(void) static KeyboardKey ConvertScancodeToKey(u32 keycode) { if (keycode > sizeof(keyMappingRGFW)/sizeof(unsigned short)) return 0; - - return keyMappingRGFW[keycode]; + + return keyMappingRGFW[keycode]; } diff --git a/src/platforms/rcore_desktop_sdl.c b/src/platforms/rcore_desktop_sdl.c index f248e2614..60753caf4 100644 --- a/src/platforms/rcore_desktop_sdl.c +++ b/src/platforms/rcore_desktop_sdl.c @@ -424,6 +424,8 @@ void ClosePlatform(void); // Close platform static KeyboardKey ConvertScancodeToKey(SDL_Scancode sdlScancode); // Help convert SDL scancodes to raylib key +static int GetCodepointNextSDL(const char *text, int *codepointSize); // Get next codepoint in a byte sequence and bytes processed + //---------------------------------------------------------------------------------- // Module Functions Declaration //---------------------------------------------------------------------------------- @@ -508,7 +510,7 @@ void MinimizeWindow(void) if ((CORE.Window.flags & FLAG_WINDOW_MINIMIZED) == 0) CORE.Window.flags |= FLAG_WINDOW_MINIMIZED; } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { SDL_RestoreWindow(platform.window); @@ -518,6 +520,8 @@ void RestoreWindow(void) // Set window configuration state using flags void SetWindowState(unsigned int flags) { + if (!CORE.Window.ready) TRACELOG(LOG_WARNING, "WINDOW: SetWindowState does nothing before window initialization, Use \"SetConfigFlags\" instead"); + CORE.Window.flags |= flags; if (flags & FLAG_VSYNC_HINT) @@ -702,70 +706,84 @@ void SetWindowIcon(Image image) switch (image.format) { case PIXELFORMAT_UNCOMPRESSED_GRAYSCALE: + { rmask = 0xFF, gmask = 0; bmask = 0, amask = 0; depth = 8, pitch = image.width; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_GRAY_ALPHA: + { rmask = 0xFF, gmask = 0xFF00; bmask = 0, amask = 0; depth = 16, pitch = image.width*2; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R5G6B5: + { rmask = 0xF800, gmask = 0x07E0; bmask = 0x001F, amask = 0; depth = 16, pitch = image.width*2; - break; - case PIXELFORMAT_UNCOMPRESSED_R8G8B8: // Uses BGR for 24-bit - rmask = 0x0000FF, gmask = 0x00FF00; - bmask = 0xFF0000, amask = 0; + } break; + case PIXELFORMAT_UNCOMPRESSED_R8G8B8: + { + // WARNING: SDL2 could be using BGR but SDL3 RGB + rmask = 0xFF0000, gmask = 0x00FF00; + bmask = 0x0000FF, amask = 0; depth = 24, pitch = image.width*3; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R5G5B5A1: + { rmask = 0xF800, gmask = 0x07C0; bmask = 0x003E, amask = 0x0001; depth = 16, pitch = image.width*2; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R4G4B4A4: + { rmask = 0xF000, gmask = 0x0F00; bmask = 0x00F0, amask = 0x000F; depth = 16, pitch = image.width*2; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R8G8B8A8: + { rmask = 0xFF000000, gmask = 0x00FF0000; bmask = 0x0000FF00, amask = 0x000000FF; depth = 32, pitch = image.width*4; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R32: + { rmask = 0xFFFFFFFF, gmask = 0; bmask = 0, amask = 0; depth = 32, pitch = image.width*4; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R32G32B32: + { rmask = 0xFFFFFFFF, gmask = 0xFFFFFFFF; bmask = 0xFFFFFFFF, amask = 0; depth = 96, pitch = image.width*12; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R32G32B32A32: + { rmask = 0xFFFFFFFF, gmask = 0xFFFFFFFF; bmask = 0xFFFFFFFF, amask = 0xFFFFFFFF; depth = 128, pitch = image.width*16; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R16: + { rmask = 0xFFFF, gmask = 0; bmask = 0, amask = 0; depth = 16, pitch = image.width*2; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R16G16B16: + { rmask = 0xFFFF, gmask = 0xFFFF; bmask = 0xFFFF, amask = 0; depth = 48, pitch = image.width*6; - break; + } break; case PIXELFORMAT_UNCOMPRESSED_R16G16B16A16: + { rmask = 0xFFFF, gmask = 0xFFFF; bmask = 0xFFFF, amask = 0xFFFF; depth = 64, pitch = image.width*8; - break; + } break; default: return; // Compressed formats are not supported } @@ -914,7 +932,7 @@ int GetMonitorCount(void) return monitorCount; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { int currentMonitor = 0; @@ -1349,7 +1367,7 @@ void PollInputEvents(void) for (int i = 0; i < MAX_TOUCH_POINTS; i++) CORE.Input.Touch.previousTouchState[i] = CORE.Input.Touch.currentTouchState[i]; // Map touch position to mouse position for convenience - CORE.Input.Touch.position[0] = CORE.Input.Mouse.currentPosition; + if (CORE.Input.Touch.pointCount == 0) CORE.Input.Touch.position[0] = CORE.Input.Mouse.currentPosition; int touchAction = -1; // 0-TOUCH_ACTION_UP, 1-TOUCH_ACTION_DOWN, 2-TOUCH_ACTION_MOVE bool realTouch = false; // Flag to differentiate real touch gestures from mouse ones @@ -1451,8 +1469,17 @@ void PollInputEvents(void) const int width = event.window.data1; const int height = event.window.data2; SetupViewport(width, height); - CORE.Window.screen.width = width; - CORE.Window.screen.height = height; + // if we are doing automatic DPI scaling, then the "screen" size is divided by the window scale + if (IsWindowState(FLAG_WINDOW_HIGHDPI)) + { + CORE.Window.screen.width = (int)(width / GetWindowScaleDPI().x); + CORE.Window.screen.height = (int)(height / GetWindowScaleDPI().y); + } + else + { + CORE.Window.screen.width = width; + CORE.Window.screen.height = height; + } CORE.Window.currentFbo.width = width; CORE.Window.currentFbo.height = height; CORE.Window.resizedLastFrame = true; @@ -1576,13 +1603,18 @@ void PollInputEvents(void) { // NOTE: event.text.text data comes an UTF-8 text sequence but we register codepoints (int) - int codepointSize = 0; - // Check if there is space available in the queue if (CORE.Input.Keyboard.charPressedQueueCount < MAX_CHAR_PRESSED_QUEUE) { // Add character (codepoint) to the queue - CORE.Input.Keyboard.charPressedQueue[CORE.Input.Keyboard.charPressedQueueCount] = GetCodepointNext(event.text.text, &codepointSize); + #if defined(PLATFORM_DESKTOP_SDL3) + unsigned int textLen = strlen(event.text.text); + unsigned int codepoint = (unsigned int)SDL_StepUTF8(&event.text.text, textLen); + #else + int codepointSize = 0; + codepoint = GetCodepointNextSDL(event.text.text, &codepointSize); + #endif + CORE.Input.Keyboard.charPressedQueue[CORE.Input.Keyboard.charPressedQueueCount] = codepoint; CORE.Input.Keyboard.charPressedQueueCount++; } } break; @@ -1661,7 +1693,7 @@ void PollInputEvents(void) { int jid = event.jdevice.which; // Joystick device index - if (!CORE.Input.Gamepad.ready[jid] && (jid < MAX_GAMEPADS)) + if (CORE.Input.Gamepad.ready[jid] && (jid < MAX_GAMEPADS)) { platform.gamepad[jid] = SDL_GameControllerOpen(jid); platform.gamepadId[jid] = SDL_JoystickInstanceID(SDL_GameControllerGetJoystick(platform.gamepad[jid])); @@ -1672,8 +1704,8 @@ void PollInputEvents(void) CORE.Input.Gamepad.axisCount[jid] = SDL_JoystickNumAxes(SDL_GameControllerGetJoystick(platform.gamepad[jid])); CORE.Input.Gamepad.axisState[jid][GAMEPAD_AXIS_LEFT_TRIGGER] = -1.0f; CORE.Input.Gamepad.axisState[jid][GAMEPAD_AXIS_RIGHT_TRIGGER] = -1.0f; + memset(CORE.Input.Gamepad.name[jid], 0, MAX_GAMEPAD_NAME_LENGTH); strncpy(CORE.Input.Gamepad.name[jid], SDL_GameControllerNameForIndex(jid), MAX_GAMEPAD_NAME_LENGTH - 1); - CORE.Input.Gamepad.name[jid][MAX_GAMEPAD_NAME_LENGTH - 1] = '\0'; } else { @@ -1800,7 +1832,7 @@ void PollInputEvents(void) { if (platform.gamepadId[i] == event.jaxis.which) { - // SDL axis value range is -32768 to 32767, we normalize it to RayLib's -1.0 to 1.0f range + // SDL axis value range is -32768 to 32767, we normalize it to raylib's -1.0 to 1.0f range float value = event.jaxis.value/(float)32767; CORE.Input.Gamepad.axisState[i][axis] = value; @@ -2068,4 +2100,42 @@ static KeyboardKey ConvertScancodeToKey(SDL_Scancode sdlScancode) return KEY_NULL; // No equivalent key in Raylib } -// EOF + +// Get next codepoint in a byte sequence and bytes processed +static int GetCodepointNextSDL(const char *text, int *codepointSize) +{ + const char *ptr = text; + int codepoint = 0x3f; // Codepoint (defaults to '?') + *codepointSize = 1; + + // Get current codepoint and bytes processed + if (0xf0 == (0xf8 & ptr[0])) + { + // 4 byte UTF-8 codepoint + if (((ptr[1] & 0xC0) ^ 0x80) || ((ptr[2] & 0xC0) ^ 0x80) || ((ptr[3] & 0xC0) ^ 0x80)) { return codepoint; } // 10xxxxxx checks + codepoint = ((0x07 & ptr[0]) << 18) | ((0x3f & ptr[1]) << 12) | ((0x3f & ptr[2]) << 6) | (0x3f & ptr[3]); + *codepointSize = 4; + } + else if (0xe0 == (0xf0 & ptr[0])) + { + // 3 byte UTF-8 codepoint */ + if (((ptr[1] & 0xC0) ^ 0x80) || ((ptr[2] & 0xC0) ^ 0x80)) { return codepoint; } // 10xxxxxx checks + codepoint = ((0x0f & ptr[0]) << 12) | ((0x3f & ptr[1]) << 6) | (0x3f & ptr[2]); + *codepointSize = 3; + } + else if (0xc0 == (0xe0 & ptr[0])) + { + // 2 byte UTF-8 codepoint + if ((ptr[1] & 0xC0) ^ 0x80) { return codepoint; } // 10xxxxxx checks + codepoint = ((0x1f & ptr[0]) << 6) | (0x3f & ptr[1]); + *codepointSize = 2; + } + else if (0x00 == (0x80 & ptr[0])) + { + // 1 byte UTF-8 codepoint + codepoint = ptr[0]; + *codepointSize = 1; + } + + return codepoint; +} diff --git a/src/platforms/rcore_drm.c b/src/platforms/rcore_drm.c index abd696fb3..06d3b5d5a 100644 --- a/src/platforms/rcore_drm.c +++ b/src/platforms/rcore_drm.c @@ -124,7 +124,7 @@ typedef struct { // Gamepad data int gamepadStreamFd[MAX_GAMEPADS]; // Gamepad device file descriptor - int gamepadAbsAxisRange[MAX_GAMEPADS][MAX_GAMEPAD_AXIS][2]; // [0] = min, [1] = range value of the axis + int gamepadAbsAxisRange[MAX_GAMEPADS][MAX_GAMEPAD_AXES][2]; // [0] = min, [1] = range value of the axes int gamepadAbsAxisMap[MAX_GAMEPADS][ABS_CNT]; // Maps the axes gamepads from the evdev api to a sequential one int gamepadCount; // The number of gamepads registered } PlatformData; @@ -277,7 +277,7 @@ void MinimizeWindow(void) TRACELOG(LOG_WARNING, "MinimizeWindow() not available on target platform"); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { TRACELOG(LOG_WARNING, "RestoreWindow() not available on target platform"); @@ -371,7 +371,7 @@ int GetMonitorCount(void) return 1; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { TRACELOG(LOG_WARNING, "GetCurrentMonitor() not implemented on target platform"); @@ -735,20 +735,24 @@ int InitPlatform(void) #if defined(DEFAULT_GRAPHIC_DEVICE_DRM) platform.fd = open(DEFAULT_GRAPHIC_DEVICE_DRM, O_RDWR); + if (platform.fd != -1) TRACELOG(LOG_INFO, "DISPLAY: Default graphic device DRM opened successfully"); #else - TRACELOG(LOG_INFO, "DISPLAY: No graphic card set, trying platform-gpu-card"); + TRACELOG(LOG_WARNING, "DISPLAY: No graphic card set, trying platform-gpu-card"); platform.fd = open("/dev/dri/by-path/platform-gpu-card", O_RDWR); // VideoCore VI (Raspberry Pi 4) + if (platform.fd != -1) TRACELOG(LOG_INFO, "DISPLAY: platform-gpu-card opened successfully"); if ((platform.fd == -1) || (drmModeGetResources(platform.fd) == NULL)) { - TRACELOG(LOG_INFO, "DISPLAY: Failed to open platform-gpu-card, trying card1"); + TRACELOG(LOG_WARNING, "DISPLAY: Failed to open platform-gpu-card, trying card1"); platform.fd = open("/dev/dri/card1", O_RDWR); // Other Embedded + if (platform.fd != -1) TRACELOG(LOG_INFO, "DISPLAY: card1 opened successfully"); } if ((platform.fd == -1) || (drmModeGetResources(platform.fd) == NULL)) { - TRACELOG(LOG_INFO, "DISPLAY: Failed to open graphic card1, trying card0"); + TRACELOG(LOG_WARNING, "DISPLAY: Failed to open graphic card1, trying card0"); platform.fd = open("/dev/dri/card0", O_RDWR); // VideoCore IV (Raspberry Pi 1-3) + if (platform.fd != -1) TRACELOG(LOG_INFO, "DISPLAY: card0 opened successfully"); } #endif @@ -906,7 +910,7 @@ int InitPlatform(void) EGL_BLUE_SIZE, 8, // BLUE color bit depth (alternative: 5) EGL_ALPHA_SIZE, 8, // ALPHA bit depth (required for transparent framebuffer) //EGL_TRANSPARENT_TYPE, EGL_NONE, // Request transparent framebuffer (EGL_TRANSPARENT_RGB does not work on RPI) - EGL_DEPTH_SIZE, 16, // Depth buffer size (Required to use Depth testing!) + EGL_DEPTH_SIZE, 24, // Depth buffer size (Required to use Depth testing!) //EGL_STENCIL_SIZE, 8, // Stencil buffer size EGL_SAMPLE_BUFFERS, sampleBuffer, // Activate MSAA EGL_SAMPLES, samples, // 4x Antialiasing if activated (Free on MALI GPUs) @@ -944,7 +948,7 @@ int InitPlatform(void) TRACELOG(LOG_TRACE, "DISPLAY: EGL configs available: %d", numConfigs); - EGLConfig *configs = RL_CALLOC(numConfigs, sizeof(*configs)); + EGLConfig *configs = (EGLConfig *)RL_CALLOC(numConfigs, sizeof(*configs)); if (!configs) { TRACELOG(LOG_WARNING, "DISPLAY: Failed to get memory for EGL configs"); @@ -1370,7 +1374,7 @@ static void InitEvdevInput(void) if ((strncmp("event", entity->d_name, strlen("event")) == 0) || // Search for devices named "event*" (strncmp("mouse", entity->d_name, strlen("mouse")) == 0)) // Search for devices named "mouse*" { - sprintf(path, "%s%s", DEFAULT_EVDEV_PATH, entity->d_name); + snprintf(path, MAX_FILEPATH_LENGTH, "%s%s", DEFAULT_EVDEV_PATH, entity->d_name); ConfigureEvdevDevice(path); // Configure the device if appropriate } } @@ -1399,7 +1403,7 @@ static void ConfigureEvdevDevice(char *device) int fd = open(device, O_RDONLY | O_NONBLOCK); if (fd < 0) { - TRACELOG(LOG_WARNING, "DRM: Failed to open input device: %s", device); + TRACELOG(LOG_WARNING, "SYSTEM: Failed to open input device: %s", device); return; } @@ -1456,7 +1460,7 @@ static void ConfigureEvdevDevice(char *device) // matter if we support them else if (hasAbsXY && TEST_BIT(keyBits, BTN_MOUSE)) isMouse = true; - // If any of the common joystick axis is present, we assume it's a gamepad + // If any of the common joystick axes are present, we assume it's a gamepad else { for (int axis = (hasAbsXY? ABS_Z : ABS_X); axis < ABS_PRESSURE; axis++) @@ -1542,7 +1546,7 @@ static void ConfigureEvdevDevice(char *device) if (absAxisCount > 0) { // TODO / NOTE - // So gamepad axis (as in the actual linux joydev.c) are just simply enumerated + // So gamepad axes (as in the actual linux joydev.c) are just simply enumerated // and (at least for some input drivers like xpat) it's convention to use // ABS_X, ABX_Y for one joystick ABS_RX, ABS_RY for the other and the Z axes for the // shoulder buttons @@ -1677,7 +1681,7 @@ static void PollGamepadEvents(void) TRACELOG(LOG_DEBUG, "INPUT: Gamepad %2i: Axis: %2i Value: %i", i, axisRaylib, event.value); - if (axisRaylib < MAX_GAMEPAD_AXIS) + if (axisRaylib < MAX_GAMEPAD_AXES) { int min = platform.gamepadAbsAxisRange[i][event.code][0]; int range = platform.gamepadAbsAxisRange[i][event.code][1]; diff --git a/src/platforms/rcore_template.c b/src/platforms/rcore_template.c index c532bf24f..36629fc69 100644 --- a/src/platforms/rcore_template.c +++ b/src/platforms/rcore_template.c @@ -114,7 +114,7 @@ void MinimizeWindow(void) TRACELOG(LOG_WARNING, "MinimizeWindow() not available on target platform"); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { TRACELOG(LOG_WARNING, "RestoreWindow() not available on target platform"); @@ -208,7 +208,7 @@ int GetMonitorCount(void) return 1; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { TRACELOG(LOG_WARNING, "GetCurrentMonitor() not implemented on target platform"); diff --git a/src/platforms/rcore_web.c b/src/platforms/rcore_web.c index b8a1f6bf8..046b79187 100644 --- a/src/platforms/rcore_web.c +++ b/src/platforms/rcore_web.c @@ -163,13 +163,13 @@ bool WindowShouldClose(void) // REF: https://emscripten.org/docs/porting/asyncify.html // WindowShouldClose() is not called on a web-ready raylib application if using emscripten_set_main_loop() - // and encapsulating one frame execution on a UpdateDrawFrame() function, + // and encapsulating one frame execution on a UpdateDrawFrame() function, // allowing the browser to manage execution asynchronously // Optionally we can manage the time we give-control-back-to-browser if required, // but it seems below line could generate stuttering on some browsers emscripten_sleep(12); - + return false; } @@ -350,7 +350,7 @@ void MinimizeWindow(void) TRACELOG(LOG_WARNING, "MinimizeWindow() not available on target platform"); } -// Set window state: not minimized/maximized +// Restore window from being minimized/maximized void RestoreWindow(void) { if ((glfwGetWindowAttrib(platform.handle, GLFW_RESIZABLE) == GLFW_TRUE) && (CORE.Window.flags & FLAG_WINDOW_MAXIMIZED)) @@ -364,6 +364,8 @@ void RestoreWindow(void) // Set window configuration state using flags void SetWindowState(unsigned int flags) { + if (!CORE.Window.ready) TRACELOG(LOG_WARNING, "WINDOW: SetWindowState does nothing before window initialization, Use \"SetConfigFlags\" instead"); + // Check previous state and requested state to apply required changes // NOTE: In most cases the functions already change the flags internally @@ -709,7 +711,7 @@ int GetMonitorCount(void) return 1; } -// Get number of monitors +// Get current monitor where window is placed int GetCurrentMonitor(void) { TRACELOG(LOG_WARNING, "GetCurrentMonitor() not implemented on target platform"); @@ -1079,7 +1081,7 @@ void PollInputEvents(void) } // Register axis data for every connected gamepad - for (int j = 0; (j < gamepadState.numAxes) && (j < MAX_GAMEPAD_AXIS); j++) + for (int j = 0; (j < gamepadState.numAxes) && (j < MAX_GAMEPAD_AXES); j++) { CORE.Input.Gamepad.axisState[i][j] = gamepadState.axis[j]; } @@ -1744,7 +1746,7 @@ static EM_BOOL EmscriptenGamepadCallback(int eventType, const EmscriptenGamepadE if (gamepadEvent->connected && (gamepadEvent->index < MAX_GAMEPADS)) { CORE.Input.Gamepad.ready[gamepadEvent->index] = true; - sprintf(CORE.Input.Gamepad.name[gamepadEvent->index], "%s", gamepadEvent->id); + snprintf(CORE.Input.Gamepad.name[gamepadEvent->index], MAX_GAMEPAD_NAME_LENGTH, "%s", gamepadEvent->id); } else CORE.Input.Gamepad.ready[gamepadEvent->index] = false; diff --git a/src/raudio.c b/src/raudio.c index 8929c9ef9..368a8c18a 100644 --- a/src/raudio.c +++ b/src/raudio.c @@ -604,6 +604,7 @@ AudioBuffer *LoadAudioBuffer(ma_format format, ma_uint32 channels, ma_uint32 sam audioBuffer->usage = usage; audioBuffer->frameCursorPos = 0; + audioBuffer->framesProcessed = 0; audioBuffer->sizeInFrames = sizeInFrames; // Buffers should be marked as processed by default so that a call to @@ -650,6 +651,9 @@ void PlayAudioBuffer(AudioBuffer *buffer) buffer->playing = true; buffer->paused = false; buffer->frameCursorPos = 0; + buffer->framesProcessed = 0; + buffer->isSubBufferProcessed[0] = true; + buffer->isSubBufferProcessed[1] = true; ma_mutex_unlock(&AUDIO.System.lock); } } @@ -1335,7 +1339,7 @@ Music LoadMusicStream(const char *fileName) #if defined(SUPPORT_FILEFORMAT_WAV) else if (IsFileExtension(fileName, ".wav")) { - drwav *ctxWav = RL_CALLOC(1, sizeof(drwav)); + drwav *ctxWav = (drwav *)RL_CALLOC(1, sizeof(drwav)); bool success = drwav_init_file(ctxWav, fileName, NULL); if (success) @@ -1385,7 +1389,7 @@ Music LoadMusicStream(const char *fileName) #if defined(SUPPORT_FILEFORMAT_MP3) else if (IsFileExtension(fileName, ".mp3")) { - drmp3 *ctxMp3 = RL_CALLOC(1, sizeof(drmp3)); + drmp3 *ctxMp3 = (drmp3 *)RL_CALLOC(1, sizeof(drmp3)); int result = drmp3_init_file(ctxMp3, fileName, NULL); if (result > 0) @@ -1476,7 +1480,7 @@ Music LoadMusicStream(const char *fileName) #if defined(SUPPORT_FILEFORMAT_MOD) else if (IsFileExtension(fileName, ".mod")) { - jar_mod_context_t *ctxMod = RL_CALLOC(1, sizeof(jar_mod_context_t)); + jar_mod_context_t *ctxMod = (jar_mod_context_t *)RL_CALLOC(1, sizeof(jar_mod_context_t)); jar_mod_init(ctxMod); int result = jar_mod_load_file(ctxMod, fileName); @@ -1527,7 +1531,7 @@ Music LoadMusicStreamFromMemory(const char *fileType, const unsigned char *data, #if defined(SUPPORT_FILEFORMAT_WAV) else if ((strcmp(fileType, ".wav") == 0) || (strcmp(fileType, ".WAV") == 0)) { - drwav *ctxWav = RL_CALLOC(1, sizeof(drwav)); + drwav *ctxWav = (drwav *)RL_CALLOC(1, sizeof(drwav)); bool success = drwav_init_memory(ctxWav, (const void *)data, dataSize, NULL); @@ -1578,7 +1582,7 @@ Music LoadMusicStreamFromMemory(const char *fileType, const unsigned char *data, #if defined(SUPPORT_FILEFORMAT_MP3) else if ((strcmp(fileType, ".mp3") == 0) || (strcmp(fileType, ".MP3") == 0)) { - drmp3 *ctxMp3 = RL_CALLOC(1, sizeof(drmp3)); + drmp3 *ctxMp3 = (drmp3 *)RL_CALLOC(1, sizeof(drmp3)); int success = drmp3_init_memory(ctxMp3, (const void*)data, dataSize, NULL); if (success) @@ -2106,8 +2110,12 @@ AudioStream LoadAudioStream(unsigned int sampleRate, unsigned int sampleSize, un // The size of a streaming buffer must be at least double the size of a period unsigned int periodSize = AUDIO.System.device.playback.internalPeriodSizeInFrames; - // If the buffer is not set, compute one that would give us a buffer good enough for a decent frame rate - unsigned int subBufferSize = (AUDIO.Buffer.defaultSize == 0)? AUDIO.System.device.sampleRate/30 : AUDIO.Buffer.defaultSize; + // If the buffer is not set, compute one that would give us a buffer good enough for a decent frame rate at the device bit size/rate + int deviceBitsPerSample = AUDIO.System.device.playback.format; + if (deviceBitsPerSample > 4) deviceBitsPerSample = 4; + deviceBitsPerSample *= AUDIO.System.device.playback.channels; + + unsigned int subBufferSize = (AUDIO.Buffer.defaultSize == 0) ? (AUDIO.System.device.sampleRate/30*deviceBitsPerSample) : AUDIO.Buffer.defaultSize; if (subBufferSize < periodSize) subBufferSize = periodSize; diff --git a/src/raylib.h b/src/raylib.h index 38b703e98..0ea0df316 100644 --- a/src/raylib.h +++ b/src/raylib.h @@ -743,7 +743,7 @@ typedef enum { GAMEPAD_BUTTON_RIGHT_THUMB // Gamepad joystick pressed button right } GamepadButton; -// Gamepad axis +// Gamepad axes typedef enum { GAMEPAD_AXIS_LEFT_X = 0, // Gamepad left stick X axis GAMEPAD_AXIS_LEFT_Y = 1, // Gamepad left stick Y axis @@ -954,7 +954,7 @@ typedef void (*TraceLogCallback)(int logLevel, const char *text, va_list args); typedef unsigned char *(*LoadFileDataCallback)(const char *fileName, int *dataSize); // FileIO: Load binary data typedef bool (*SaveFileDataCallback)(const char *fileName, void *data, int dataSize); // FileIO: Save binary data typedef char *(*LoadFileTextCallback)(const char *fileName); // FileIO: Load text data -typedef bool (*SaveFileTextCallback)(const char *fileName, char *text); // FileIO: Save text data +typedef bool (*SaveFileTextCallback)(const char *fileName, const char *text); // FileIO: Save text data //------------------------------------------------------------------------------------ // Global Variables Definition @@ -987,7 +987,7 @@ RLAPI void ToggleFullscreen(void); // Toggle wind RLAPI void ToggleBorderlessWindowed(void); // Toggle window state: borderless windowed, resizes window to match monitor resolution RLAPI void MaximizeWindow(void); // Set window state: maximized, if resizable RLAPI void MinimizeWindow(void); // Set window state: minimized, if resizable -RLAPI void RestoreWindow(void); // Set window state: not minimized/maximized +RLAPI void RestoreWindow(void); // Restore window from being minimized/maximized RLAPI void SetWindowIcon(Image image); // Set icon for window (single image, RGBA 32bit) RLAPI void SetWindowIcons(Image *images, int count); // Set icon for window (multiple images, RGBA 32bit) RLAPI void SetWindowTitle(const char *title); // Set title for window @@ -1123,7 +1123,7 @@ RLAPI bool SaveFileData(const char *fileName, void *data, int dataSize); // Save RLAPI bool ExportDataAsCode(const unsigned char *data, int dataSize, const char *fileName); // Export data to code (.h), returns true on success RLAPI char *LoadFileText(const char *fileName); // Load text data from file (read), returns a '\0' terminated string RLAPI void UnloadFileText(char *text); // Unload file text data allocated by LoadFileText() -RLAPI bool SaveFileText(const char *fileName, char *text); // Save text data to file (write), string must be '\0' terminated, returns true on success +RLAPI bool SaveFileText(const char *fileName, const char *text); // Save text data to file (write), string must be '\0' terminated, returns true on success //------------------------------------------------------------------ // File system functions @@ -1153,8 +1153,8 @@ RLAPI long GetFileModTime(const char *fileName); // Get file mo // Compression/Encoding functionality RLAPI unsigned char *CompressData(const unsigned char *data, int dataSize, int *compDataSize); // Compress data (DEFLATE algorithm), memory must be MemFree() RLAPI unsigned char *DecompressData(const unsigned char *compData, int compDataSize, int *dataSize); // Decompress data (DEFLATE algorithm), memory must be MemFree() -RLAPI char *EncodeDataBase64(const unsigned char *data, int dataSize, int *outputSize); // Encode data to Base64 string, memory must be MemFree() -RLAPI unsigned char *DecodeDataBase64(const unsigned char *data, int *outputSize); // Decode Base64 string data, memory must be MemFree() +RLAPI char *EncodeDataBase64(const unsigned char *data, int dataSize, int *outputSize); // Encode data to Base64 string (includes NULL terminator), memory must be MemFree() +RLAPI unsigned char *DecodeDataBase64(const char *text, int *outputSize); // Decode Base64 string (expected NULL terminated), memory must be MemFree() RLAPI unsigned int ComputeCRC32(unsigned char *data, int dataSize); // Compute CRC32 hash code RLAPI unsigned int *ComputeMD5(unsigned char *data, int dataSize); // Compute MD5 hash code, returns static int[4] (16 bytes) RLAPI unsigned int *ComputeSHA1(unsigned char *data, int dataSize); // Compute SHA1 hash code, returns static int[5] (20 bytes) @@ -1192,8 +1192,8 @@ RLAPI bool IsGamepadButtonDown(int gamepad, int button); // Check if a game RLAPI bool IsGamepadButtonReleased(int gamepad, int button); // Check if a gamepad button has been released once RLAPI bool IsGamepadButtonUp(int gamepad, int button); // Check if a gamepad button is NOT being pressed RLAPI int GetGamepadButtonPressed(void); // Get the last gamepad button pressed -RLAPI int GetGamepadAxisCount(int gamepad); // Get gamepad axis count for a gamepad -RLAPI float GetGamepadAxisMovement(int gamepad, int axis); // Get axis movement value for a gamepad axis +RLAPI int GetGamepadAxisCount(int gamepad); // Get axis count for a gamepad +RLAPI float GetGamepadAxisMovement(int gamepad, int axis); // Get movement value for a gamepad axis RLAPI int SetGamepadMappings(const char *mappings); // Set internal gamepad mappings (SDL_GameControllerDB) RLAPI void SetGamepadVibration(int gamepad, float leftMotor, float rightMotor, float duration); // Set gamepad vibration for both motors (duration in seconds) @@ -1264,7 +1264,9 @@ RLAPI void DrawCircleV(Vector2 center, float radius, Color color); RLAPI void DrawCircleLines(int centerX, int centerY, float radius, Color color); // Draw circle outline RLAPI void DrawCircleLinesV(Vector2 center, float radius, Color color); // Draw circle outline (Vector version) RLAPI void DrawEllipse(int centerX, int centerY, float radiusH, float radiusV, Color color); // Draw ellipse +RLAPI void DrawEllipseV(Vector2 center, float radiusH, float radiusV, Color color); // Draw ellipse (Vector version) RLAPI void DrawEllipseLines(int centerX, int centerY, float radiusH, float radiusV, Color color); // Draw ellipse outline +RLAPI void DrawEllipseLinesV(Vector2 center, float radiusH, float radiusV, Color color); // Draw ellipse outline (Vector version) RLAPI void DrawRing(Vector2 center, float innerRadius, float outerRadius, float startAngle, float endAngle, int segments, Color color); // Draw ring RLAPI void DrawRingLines(Vector2 center, float innerRadius, float outerRadius, float startAngle, float endAngle, int segments, Color color); // Draw ring outline RLAPI void DrawRectangle(int posX, int posY, int width, int height, Color color); // Draw a color-filled rectangle @@ -1273,7 +1275,7 @@ RLAPI void DrawRectangleRec(Rectangle rec, Color color); RLAPI void DrawRectanglePro(Rectangle rec, Vector2 origin, float rotation, Color color); // Draw a color-filled rectangle with pro parameters RLAPI void DrawRectangleGradientV(int posX, int posY, int width, int height, Color top, Color bottom); // Draw a vertical-gradient-filled rectangle RLAPI void DrawRectangleGradientH(int posX, int posY, int width, int height, Color left, Color right); // Draw a horizontal-gradient-filled rectangle -RLAPI void DrawRectangleGradientEx(Rectangle rec, Color topLeft, Color bottomLeft, Color topRight, Color bottomRight); // Draw a gradient-filled rectangle with custom vertex colors +RLAPI void DrawRectangleGradientEx(Rectangle rec, Color topLeft, Color bottomLeft, Color bottomRight, Color topRight); // Draw a gradient-filled rectangle with custom vertex colors RLAPI void DrawRectangleLines(int posX, int posY, int width, int height, Color color); // Draw rectangle outline RLAPI void DrawRectangleLinesEx(Rectangle rec, float lineThick, Color color); // Draw rectangle outline with extended parameters RLAPI void DrawRectangleRounded(Rectangle rec, float roundness, int segments, Color color); // Draw rectangle with rounded edges @@ -1406,8 +1408,8 @@ RLAPI void ImageDrawRectangleLines(Image *dst, Rectangle rec, int thick, Color c RLAPI void ImageDrawTriangle(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color color); // Draw triangle within an image RLAPI void ImageDrawTriangleEx(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color c1, Color c2, Color c3); // Draw triangle with interpolated colors within an image RLAPI void ImageDrawTriangleLines(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color color); // Draw triangle outline within an image -RLAPI void ImageDrawTriangleFan(Image *dst, Vector2 *points, int pointCount, Color color); // Draw a triangle fan defined by points within an image (first vertex is the center) -RLAPI void ImageDrawTriangleStrip(Image *dst, Vector2 *points, int pointCount, Color color); // Draw a triangle strip defined by points within an image +RLAPI void ImageDrawTriangleFan(Image *dst, const Vector2 *points, int pointCount, Color color); // Draw a triangle fan defined by points within an image (first vertex is the center) +RLAPI void ImageDrawTriangleStrip(Image *dst, const Vector2 *points, int pointCount, Color color); // Draw a triangle strip defined by points within an image RLAPI void ImageDraw(Image *dst, Image src, Rectangle srcRec, Rectangle dstRec, Color tint); // Draw a source image within a destination image (tint applied to source) RLAPI void ImageDrawText(Image *dst, const char *text, int posX, int posY, int fontSize, Color color); // Draw text (using default font) within an image (destination) RLAPI void ImageDrawTextEx(Image *dst, Font font, const char *text, Vector2 position, float fontSize, float spacing, Color tint); // Draw text (custom sprite font) within an image (destination) diff --git a/src/rcore.c b/src/rcore.c index cc4d4988d..e97ef357c 100644 --- a/src/rcore.c +++ b/src/rcore.c @@ -235,10 +235,10 @@ __declspec(dllimport) unsigned int __stdcall timeEndPeriod(unsigned int uPeriod) #define MAX_GAMEPADS 4 // Maximum number of gamepads supported #endif #ifndef MAX_GAMEPAD_NAME_LENGTH - #define MAX_GAMEPAD_NAME_LENGTH 128 // Maximum number of characters of gamepad name (byte size) + #define MAX_GAMEPAD_NAME_LENGTH 128 // Maximum number of characters in a gamepad name (byte size) #endif -#ifndef MAX_GAMEPAD_AXIS - #define MAX_GAMEPAD_AXIS 8 // Maximum number of axis supported (per gamepad) +#ifndef MAX_GAMEPAD_AXES + #define MAX_GAMEPAD_AXES 8 // Maximum number of axes supported (per gamepad) #endif #ifndef MAX_GAMEPAD_BUTTONS #define MAX_GAMEPAD_BUTTONS 32 // Maximum number of buttons supported (per gamepad) @@ -354,12 +354,12 @@ typedef struct CoreData { } Touch; struct { int lastButtonPressed; // Register last gamepad button pressed - int axisCount[MAX_GAMEPADS]; // Register number of available gamepad axis + int axisCount[MAX_GAMEPADS]; // Register number of available gamepad axes bool ready[MAX_GAMEPADS]; // Flag to know if gamepad is ready char name[MAX_GAMEPADS][MAX_GAMEPAD_NAME_LENGTH]; // Gamepad name holder char currentButtonState[MAX_GAMEPADS][MAX_GAMEPAD_BUTTONS]; // Current gamepad buttons state char previousButtonState[MAX_GAMEPADS][MAX_GAMEPAD_BUTTONS]; // Previous gamepad buttons state - float axisState[MAX_GAMEPADS][MAX_GAMEPAD_AXIS]; // Gamepad axis state + float axisState[MAX_GAMEPADS][MAX_GAMEPAD_AXES]; // Gamepad axes state } Gamepad; } Input; @@ -523,25 +523,25 @@ const char *TextFormat(const char *text, ...); // Formatting of tex #define PLATFORM_DESKTOP_GLFW #endif -// We're using `#pragma message` because `#warning` is not adopted by MSVC. +// We're using '#pragma message' because '#warning' is not adopted by MSVC #if defined(SUPPORT_CLIPBOARD_IMAGE) #if !defined(SUPPORT_MODULE_RTEXTURES) - #pragma message ("Warning: Enabling SUPPORT_CLIPBOARD_IMAGE requires SUPPORT_MODULE_RTEXTURES to work properly") + #pragma message ("WARNING: Enabling SUPPORT_CLIPBOARD_IMAGE requires SUPPORT_MODULE_RTEXTURES to work properly") #endif // It's nice to have support Bitmap on Linux as well, but not as necessary as Windows #if !defined(SUPPORT_FILEFORMAT_BMP) && defined(_WIN32) - #pragma message ("Warning: Enabling SUPPORT_CLIPBOARD_IMAGE requires SUPPORT_FILEFORMAT_BMP, specially on Windows") + #pragma message ("WARNING: Enabling SUPPORT_CLIPBOARD_IMAGE requires SUPPORT_FILEFORMAT_BMP, specially on Windows") #endif - // From what I've tested applications on Wayland saves images on clipboard as PNG. + // From what I've tested applications on Wayland saves images on clipboard as PNG #if (!defined(SUPPORT_FILEFORMAT_PNG) || !defined(SUPPORT_FILEFORMAT_JPG)) && !defined(_WIN32) - #pragma message ("Warning: Getting image from the clipboard might not work without SUPPORT_FILEFORMAT_PNG or SUPPORT_FILEFORMAT_JPG") + #pragma message ("WARNING: Getting image from the clipboard might not work without SUPPORT_FILEFORMAT_PNG or SUPPORT_FILEFORMAT_JPG") #endif - // Not needed because `rtexture.c` will automatically defined STBI_REQUIRED when any SUPPORT_FILEFORMAT_* is defined. + // Not needed because `rtexture.c` will automatically defined STBI_REQUIRED when any SUPPORT_FILEFORMAT_* is defined // #if !defined(STBI_REQUIRED) - // #pragma message ("Warning: "STBI_REQUIRED is not defined, that means we can't load images from clipbard" + // #pragma message ("WARNING: "STBI_REQUIRED is not defined, that means we can't load images from clipbard" // #endif #endif // SUPPORT_CLIPBOARD_IMAGE @@ -1119,7 +1119,7 @@ void BeginTextureMode(RenderTexture2D target) //rlScalef(0.0f, -1.0f, 0.0f); // Flip Y-drawing (?) // Setup current width/height for proper aspect ratio - // calculation when using BeginMode3D() + // calculation when using BeginTextureMode() CORE.Window.currentFbo.width = target.texture.width; CORE.Window.currentFbo.height = target.texture.height; CORE.Window.usingFbo = true; @@ -1322,7 +1322,7 @@ Shader LoadShader(const char *vsFileName, const char *fsFileName) if (fsFileName != NULL) fShaderStr = LoadFileText(fsFileName); if ((vShaderStr == NULL) && (fShaderStr == NULL)) TraceLog(LOG_WARNING, "SHADER: Shader files provided are not valid, using default shader"); - + shader = LoadShaderFromMemory(vShaderStr, fShaderStr); UnloadFileText(vShaderStr); @@ -1879,12 +1879,15 @@ void TakeScreenshot(const char *fileName) // Security check to (partially) avoid malicious code if (strchr(fileName, '\'') != NULL) { TRACELOG(LOG_WARNING, "SYSTEM: Provided fileName could be potentially malicious, avoid [\'] character"); return; } - Vector2 scale = GetWindowScaleDPI(); + // Apply a scale if we are doing HIGHDPI auto-scaling + Vector2 scale = { 1.0f, 1.0f }; + if (IsWindowState(FLAG_WINDOW_HIGHDPI)) scale = GetWindowScaleDPI(); + unsigned char *imgData = rlReadScreenPixels((int)((float)CORE.Window.render.width*scale.x), (int)((float)CORE.Window.render.height*scale.y)); Image image = { imgData, (int)((float)CORE.Window.render.width*scale.x), (int)((float)CORE.Window.render.height*scale.y), 1, PIXELFORMAT_UNCOMPRESSED_R8G8B8A8 }; char path[512] = { 0 }; - strcpy(path, TextFormat("%s/%s", CORE.Storage.basePath, GetFileName(fileName))); + strcpy(path, TextFormat("%s/%s", CORE.Storage.basePath, fileName)); ExportImage(image, path); // WARNING: Module required: rtextures RL_FREE(imgData); @@ -1902,6 +1905,8 @@ void TakeScreenshot(const char *fileName) // To configure window states after creation, just use SetWindowState() void SetConfigFlags(unsigned int flags) { + if (CORE.Window.ready) TRACELOG(LOG_WARNING, "WINDOW: SetConfigFlags called after window initialization, Use \"SetWindowState\" to set flags instead"); + // Selected flags are set but not evaluated at this point, // flag evaluation happens at InitWindow() or SetWindowState() CORE.Window.flags |= flags; @@ -2309,9 +2314,12 @@ FilePathList LoadDirectoryFilesEx(const char *basePath, const char *filter, bool // WARNING: files.count is not reseted to 0 after unloading void UnloadDirectoryFiles(FilePathList files) { - for (unsigned int i = 0; i < files.capacity; i++) RL_FREE(files.paths[i]); + if (files.paths != NULL) + { + for (unsigned int i = 0; i < files.capacity; i++) RL_FREE(files.paths[i]); - RL_FREE(files.paths); + RL_FREE(files.paths); + } } // Create directories (including full path requested), returns 0 on success @@ -2354,6 +2362,7 @@ bool ChangeDirectory(const char *dir) bool result = CHDIR(dir); if (result != 0) TRACELOG(LOG_WARNING, "SYSTEM: Failed to change to directory: %s", dir); + else TRACELOG(LOG_INFO, "SYSTEM: Working Directory: %s", dir); return (result == 0); } @@ -2491,7 +2500,7 @@ unsigned char *CompressData(const unsigned char *data, int dataSize, int *compDa #if defined(SUPPORT_COMPRESSION_API) // Compress data and generate a valid DEFLATE stream - struct sdefl *sdefl = RL_CALLOC(1, sizeof(struct sdefl)); // WARNING: Possible stack overflow, struct sdefl is almost 1MB + struct sdefl *sdefl = (struct sdefl *)RL_CALLOC(1, sizeof(struct sdefl)); // WARNING: Possible stack overflow, struct sdefl is almost 1MB int bounds = sdefl_bound(dataSize); compData = (unsigned char *)RL_CALLOC(bounds, 1); @@ -2530,96 +2539,112 @@ unsigned char *DecompressData(const unsigned char *compData, int compDataSize, i } // Encode data to Base64 string +// NOTE: Returned string includes NULL terminator, considered on outputSize char *EncodeDataBase64(const unsigned char *data, int dataSize, int *outputSize) { - static const unsigned char base64encodeTable[] = { - 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', - 'Y', 'Z', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', - 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', '+', '/' - }; + // Base64 conversion table from RFC 4648 [0..63] + // NOTE: They represent 64 values (6 bits), to encode 3 bytes of data into 4 "sixtets" (6bit characters) + static const char base64EncodeTable[] = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/"; - static const int modTable[] = { 0, 2, 1 }; + // Compute expected size and padding + int paddedSize = dataSize; + while (paddedSize%3 != 0) paddedSize++; // Padding bytes to round 4*(dataSize/3) to 4 bytes + int estimatedOutputSize = 4*(paddedSize/3); + int padding = paddedSize - dataSize; - *outputSize = 4*((dataSize + 2)/3); + // Adding null terminator to string + estimatedOutputSize += 1; - char *encodedData = (char *)RL_MALLOC(*outputSize); + // Load some memory to store encoded string + char *encodedData = (char *)RL_CALLOC(estimatedOutputSize, 1); + if (encodedData == NULL) return NULL; - if (encodedData == NULL) return NULL; // Security check - - for (int i = 0, j = 0; i < dataSize;) + int outputCount = 0; + for (int i = 0; i < dataSize;) { - unsigned int octetA = (i < dataSize)? (unsigned char)data[i++] : 0; - unsigned int octetB = (i < dataSize)? (unsigned char)data[i++] : 0; - unsigned int octetC = (i < dataSize)? (unsigned char)data[i++] : 0; + unsigned int octetA = 0; + unsigned int octetB = 0; + unsigned int octetC = 0; + unsigned int octetPack = 0; - unsigned int triple = (octetA << 0x10) + (octetB << 0x08) + octetC; + octetA = data[i]; // Generates 2 sextets + octetB = ((i + 1) < dataSize)? data[i + 1] : 0; // Generates 3 sextets + octetC = ((i + 2) < dataSize)? data[i + 2] : 0; // Generates 4 sextets - encodedData[j++] = base64encodeTable[(triple >> 3*6) & 0x3F]; - encodedData[j++] = base64encodeTable[(triple >> 2*6) & 0x3F]; - encodedData[j++] = base64encodeTable[(triple >> 1*6) & 0x3F]; - encodedData[j++] = base64encodeTable[(triple >> 0*6) & 0x3F]; + octetPack = (octetA << 16) | (octetB << 8) | octetC; + + encodedData[outputCount + 0] = (unsigned char)(base64EncodeTable[(octetPack >> 18) & 0x3f]); + encodedData[outputCount + 1] = (unsigned char)(base64EncodeTable[(octetPack >> 12) & 0x3f]); + encodedData[outputCount + 2] = (unsigned char)(base64EncodeTable[(octetPack >> 6) & 0x3f]); + encodedData[outputCount + 3] = (unsigned char)(base64EncodeTable[octetPack & 0x3f]); + outputCount += 4; + i += 3; } - for (int i = 0; i < modTable[dataSize%3]; i++) encodedData[*outputSize - 1 - i] = '='; // Padding character + // Add required padding bytes + for (int p = 0; p < padding; p++) encodedData[outputCount - p - 1] = '='; + // Add null terminator to string + encodedData[outputCount] = '\0'; + outputCount++; + + if (outputCount != estimatedOutputSize) TRACELOG(LOG_WARNING, "BASE64: Output size differs from estimation"); + + *outputSize = estimatedOutputSize; return encodedData; } -// Decode Base64 string data -unsigned char *DecodeDataBase64(const unsigned char *data, int *outputSize) +// Decode Base64 string (expected NULL terminated) +unsigned char *DecodeDataBase64(const char *text, int *outputSize) { - static const unsigned char base64decodeTable[] = { - 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, - 0, 0, 0, 62, 0, 0, 0, 63, 52, 53, 54, 55, 56, 57, 58, 59, 60, 61, 0, 0, 0, 0, 0, 0, 0, 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, - 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 0, 0, 0, 0, 0, 0, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, - 37, 38, 39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51 + // Base64 decode table + // NOTE: Following ASCII order [0..255] assigning the expected sixtet value to + // every character in the corresponding ASCII position + static const unsigned char base64DecodeTable[256] = { + ['A'] = 0, ['B'] = 1, ['C'] = 2, ['D'] = 3, ['E'] = 4, ['F'] = 5, ['G'] = 6, ['H'] = 7, + ['I'] = 8, ['J'] = 9, ['K'] = 10, ['L'] = 11, ['M'] = 12, ['N'] = 13, ['O'] = 14, ['P'] = 15, + ['Q'] = 16, ['R'] = 17, ['S'] = 18, ['T'] = 19, ['U'] = 20, ['V'] = 21, ['W'] = 22, ['X'] = 23, ['Y'] = 24, ['Z'] = 25, + ['a'] = 26, ['b'] = 27, ['c'] = 28, ['d'] = 29, ['e'] = 30, ['f'] = 31, ['g'] = 32, ['h'] = 33, + ['i'] = 34, ['j'] = 35, ['k'] = 36, ['l'] = 37, ['m'] = 38, ['n'] = 39, ['o'] = 40, ['p'] = 41, + ['q'] = 42, ['r'] = 43, ['s'] = 44, ['t'] = 45, ['u'] = 46, ['v'] = 47, ['w'] = 48, ['x'] = 49, ['y'] = 50, ['z'] = 51, + ['0'] = 52, ['1'] = 53, ['2'] = 54, ['3'] = 55, ['4'] = 56, ['5'] = 57, ['6'] = 58, ['7'] = 59, + ['8'] = 60, ['9'] = 61, ['+'] = 62, ['/'] = 63 }; - // Get output size of Base64 input data - int outSize = 0; - for (int i = 0; data[4*i] != 0; i++) + // Compute expected size and padding + int dataSize = (int)strlen(text); // WARNING: Expecting NULL terminated strings! + int ending = dataSize - 1; + int padding = 0; + while (text[ending] == '=') { padding++; ending--; } + int estimatedOutputSize = 3*(dataSize/4) - padding; + int maxOutputSize = 3*(dataSize/4); + + // Load some memory to store decoded data + // NOTE: Allocated enough size to include padding + unsigned char *decodedData = (unsigned char *)RL_CALLOC(maxOutputSize, 1); + if (decodedData == NULL) return NULL; + + int outputCount = 0; + for (int i = 0; i < dataSize;) { - if (data[4*i + 3] == '=') - { - if (data[4*i + 2] == '=') outSize += 1; - else outSize += 2; - } - else outSize += 3; + // Every 4 sixtets must generate 3 octets + unsigned int sixtetA = base64DecodeTable[(unsigned char)text[i]]; + unsigned int sixtetB = base64DecodeTable[(unsigned char)text[i + 1]]; + unsigned int sixtetC = ((unsigned char)text[i + 2] != '=')? base64DecodeTable[(unsigned char)text[i + 2]] : 0; + unsigned int sixtetD = ((unsigned char)text[i + 3] != '=')? base64DecodeTable[(unsigned char)text[i + 3]] : 0; + + unsigned int octetPack = (sixtetA << 18) | (sixtetB << 12) | (sixtetC << 6) | sixtetD; + + decodedData[outputCount + 0] = (octetPack >> 16) & 0xff; + decodedData[outputCount + 1] = (octetPack >> 8) & 0xff; + decodedData[outputCount + 2] = octetPack & 0xff; + outputCount += 3; + i += 4; } - // Allocate memory to store decoded Base64 data - unsigned char *decodedData = (unsigned char *)RL_MALLOC(outSize); + if (estimatedOutputSize != (outputCount - padding)) TRACELOG(LOG_WARNING, "BASE64: Decoded size differs from estimation"); - for (int i = 0; i < outSize/3; i++) - { - unsigned char a = base64decodeTable[(int)data[4*i]]; - unsigned char b = base64decodeTable[(int)data[4*i + 1]]; - unsigned char c = base64decodeTable[(int)data[4*i + 2]]; - unsigned char d = base64decodeTable[(int)data[4*i + 3]]; - - decodedData[3*i] = (a << 2) | (b >> 4); - decodedData[3*i + 1] = (b << 4) | (c >> 2); - decodedData[3*i + 2] = (c << 6) | d; - } - - if (outSize%3 == 1) - { - int n = outSize/3; - unsigned char a = base64decodeTable[(int)data[4*n]]; - unsigned char b = base64decodeTable[(int)data[4*n + 1]]; - decodedData[outSize - 1] = (a << 2) | (b >> 4); - } - else if (outSize%3 == 2) - { - int n = outSize/3; - unsigned char a = base64decodeTable[(int)data[4*n]]; - unsigned char b = base64decodeTable[(int)data[4*n + 1]]; - unsigned char c = base64decodeTable[(int)data[4*n + 2]]; - decodedData[outSize - 2] = (a << 2) | (b >> 4); - decodedData[outSize - 1] = (b << 4) | (c >> 2); - } - - *outputSize = outSize; + *outputSize = estimatedOutputSize; return decodedData; } @@ -2627,38 +2652,38 @@ unsigned char *DecodeDataBase64(const unsigned char *data, int *outputSize) unsigned int ComputeCRC32(unsigned char *data, int dataSize) { static unsigned int crcTable[256] = { - 0x00000000, 0x77073096, 0xEE0E612C, 0x990951BA, 0x076DC419, 0x706AF48F, 0xE963A535, 0x9E6495A3, - 0x0eDB8832, 0x79DCB8A4, 0xE0D5E91E, 0x97D2D988, 0x09B64C2B, 0x7EB17CBD, 0xE7B82D07, 0x90BF1D91, - 0x1DB71064, 0x6AB020F2, 0xF3B97148, 0x84BE41DE, 0x1ADAD47D, 0x6DDDE4EB, 0xF4D4B551, 0x83D385C7, - 0x136C9856, 0x646BA8C0, 0xFD62F97A, 0x8A65C9EC, 0x14015C4F, 0x63066CD9, 0xFA0F3D63, 0x8D080DF5, - 0x3B6E20C8, 0x4C69105E, 0xD56041E4, 0xA2677172, 0x3C03E4D1, 0x4B04D447, 0xD20D85FD, 0xA50AB56B, - 0x35B5A8FA, 0x42B2986C, 0xDBBBC9D6, 0xACBCF940, 0x32D86CE3, 0x45DF5C75, 0xDCD60DCF, 0xABD13D59, - 0x26D930AC, 0x51DE003A, 0xC8D75180, 0xBFD06116, 0x21B4F4B5, 0x56B3C423, 0xCFBA9599, 0xB8BDA50F, - 0x2802B89E, 0x5F058808, 0xC60CD9B2, 0xB10BE924, 0x2F6F7C87, 0x58684C11, 0xC1611DAB, 0xB6662D3D, - 0x76DC4190, 0x01DB7106, 0x98D220BC, 0xEFD5102A, 0x71B18589, 0x06B6B51F, 0x9FBFE4A5, 0xE8B8D433, - 0x7807C9A2, 0x0F00F934, 0x9609A88E, 0xE10E9818, 0x7F6A0DBB, 0x086D3D2D, 0x91646C97, 0xE6635C01, - 0x6B6B51F4, 0x1C6C6162, 0x856530D8, 0xF262004E, 0x6C0695ED, 0x1B01A57B, 0x8208F4C1, 0xF50FC457, - 0x65B0D9C6, 0x12B7E950, 0x8BBEB8EA, 0xFCB9887C, 0x62DD1DDF, 0x15DA2D49, 0x8CD37CF3, 0xFBD44C65, - 0x4DB26158, 0x3AB551CE, 0xA3BC0074, 0xD4BB30E2, 0x4ADFA541, 0x3DD895D7, 0xA4D1C46D, 0xD3D6F4FB, - 0x4369E96A, 0x346ED9FC, 0xAD678846, 0xDA60B8D0, 0x44042D73, 0x33031DE5, 0xAA0A4C5F, 0xDD0D7CC9, - 0x5005713C, 0x270241AA, 0xBE0B1010, 0xC90C2086, 0x5768B525, 0x206F85B3, 0xB966D409, 0xCE61E49F, - 0x5EDEF90E, 0x29D9C998, 0xB0D09822, 0xC7D7A8B4, 0x59B33D17, 0x2EB40D81, 0xB7BD5C3B, 0xC0BA6CAD, - 0xEDB88320, 0x9ABFB3B6, 0x03B6E20C, 0x74B1D29A, 0xEAD54739, 0x9DD277AF, 0x04DB2615, 0x73DC1683, - 0xE3630B12, 0x94643B84, 0x0D6D6A3E, 0x7A6A5AA8, 0xE40ECF0B, 0x9309FF9D, 0x0A00AE27, 0x7D079EB1, - 0xF00F9344, 0x8708A3D2, 0x1E01F268, 0x6906C2FE, 0xF762575D, 0x806567CB, 0x196C3671, 0x6E6B06E7, - 0xFED41B76, 0x89D32BE0, 0x10DA7A5A, 0x67DD4ACC, 0xF9B9DF6F, 0x8EBEEFF9, 0x17B7BE43, 0x60B08ED5, - 0xD6D6A3E8, 0xA1D1937E, 0x38D8C2C4, 0x4FDFF252, 0xD1BB67F1, 0xA6BC5767, 0x3FB506DD, 0x48B2364B, - 0xD80D2BDA, 0xAF0A1B4C, 0x36034AF6, 0x41047A60, 0xDF60EFC3, 0xA867DF55, 0x316E8EEF, 0x4669BE79, - 0xCB61B38C, 0xBC66831A, 0x256FD2A0, 0x5268E236, 0xCC0C7795, 0xBB0B4703, 0x220216B9, 0x5505262F, - 0xC5BA3BBE, 0xB2BD0B28, 0x2BB45A92, 0x5CB36A04, 0xC2D7FFA7, 0xB5D0CF31, 0x2CD99E8B, 0x5BDEAE1D, - 0x9B64C2B0, 0xEC63F226, 0x756AA39C, 0x026D930A, 0x9C0906A9, 0xEB0E363F, 0x72076785, 0x05005713, - 0x95BF4A82, 0xE2B87A14, 0x7BB12BAE, 0x0CB61B38, 0x92D28E9B, 0xE5D5BE0D, 0x7CDCEFB7, 0x0BDBDF21, - 0x86D3D2D4, 0xF1D4E242, 0x68DDB3F8, 0x1FDA836E, 0x81BE16CD, 0xF6B9265B, 0x6FB077E1, 0x18B74777, - 0x88085AE6, 0xFF0F6A70, 0x66063BCA, 0x11010B5C, 0x8F659EFF, 0xF862AE69, 0x616BFFD3, 0x166CCF45, - 0xA00AE278, 0xD70DD2EE, 0x4E048354, 0x3903B3C2, 0xA7672661, 0xD06016F7, 0x4969474D, 0x3E6E77DB, - 0xAED16A4A, 0xD9D65ADC, 0x40DF0B66, 0x37D83BF0, 0xA9BCAE53, 0xDEBB9EC5, 0x47B2CF7F, 0x30B5FFE9, - 0xBDBDF21C, 0xCABAC28A, 0x53B39330, 0x24B4A3A6, 0xBAD03605, 0xCDD70693, 0x54DE5729, 0x23D967BF, - 0xB3667A2E, 0xC4614AB8, 0x5D681B02, 0x2A6F2B94, 0xB40BBE37, 0xC30C8EA1, 0x5A05DF1B, 0x2D02EF8D + 0x00000000, 0x77073096, 0xee0e612c, 0x990951ba, 0x076dc419, 0x706af48f, 0xe963a535, 0x9e6495a3, + 0x0edb8832, 0x79dcb8a4, 0xe0d5e91e, 0x97d2d988, 0x09b64c2b, 0x7eb17cbd, 0xe7b82d07, 0x90bf1d91, + 0x1db71064, 0x6ab020f2, 0xf3b97148, 0x84be41de, 0x1adad47d, 0x6ddde4eb, 0xf4d4b551, 0x83d385c7, + 0x136c9856, 0x646ba8c0, 0xfd62f97a, 0x8a65c9ec, 0x14015c4f, 0x63066cd9, 0xfa0f3d63, 0x8d080df5, + 0x3b6e20c8, 0x4c69105e, 0xd56041e4, 0xa2677172, 0x3c03e4d1, 0x4b04d447, 0xd20d85fd, 0xa50ab56b, + 0x35b5a8fa, 0x42b2986c, 0xdbbbc9d6, 0xacbcf940, 0x32d86ce3, 0x45df5c75, 0xdcd60dcf, 0xabd13d59, + 0x26d930ac, 0x51de003a, 0xc8d75180, 0xbfd06116, 0x21b4f4b5, 0x56b3c423, 0xcfba9599, 0xb8bda50f, + 0x2802b89e, 0x5f058808, 0xc60cd9b2, 0xb10be924, 0x2f6f7c87, 0x58684c11, 0xc1611dab, 0xb6662d3d, + 0x76dc4190, 0x01db7106, 0x98d220bc, 0xefd5102a, 0x71b18589, 0x06b6b51f, 0x9fbfe4a5, 0xe8b8d433, + 0x7807c9a2, 0x0f00f934, 0x9609a88e, 0xe10e9818, 0x7f6a0dbb, 0x086d3d2d, 0x91646c97, 0xe6635c01, + 0x6b6b51f4, 0x1c6c6162, 0x856530d8, 0xf262004e, 0x6c0695ed, 0x1b01a57b, 0x8208f4c1, 0xf50fc457, + 0x65b0d9c6, 0x12b7e950, 0x8bbeb8ea, 0xfcb9887c, 0x62dd1ddf, 0x15da2d49, 0x8cd37cf3, 0xfbd44c65, + 0x4db26158, 0x3ab551ce, 0xa3bc0074, 0xd4bb30e2, 0x4adfa541, 0x3dd895d7, 0xa4d1c46d, 0xd3d6f4fb, + 0x4369e96a, 0x346ed9fc, 0xad678846, 0xda60b8d0, 0x44042d73, 0x33031de5, 0xaa0a4c5f, 0xdd0d7cc9, + 0x5005713c, 0x270241aa, 0xbe0b1010, 0xc90c2086, 0x5768b525, 0x206f85b3, 0xb966d409, 0xce61e49f, + 0x5edef90e, 0x29d9c998, 0xb0d09822, 0xc7d7a8b4, 0x59b33d17, 0x2eb40d81, 0xb7bd5c3b, 0xc0ba6cad, + 0xedb88320, 0x9abfb3b6, 0x03b6e20c, 0x74b1d29a, 0xead54739, 0x9dd277af, 0x04db2615, 0x73dc1683, + 0xe3630b12, 0x94643b84, 0x0d6d6a3e, 0x7a6a5aa8, 0xe40ecf0b, 0x9309ff9d, 0x0a00ae27, 0x7d079eb1, + 0xf00f9344, 0x8708a3d2, 0x1e01f268, 0x6906c2fe, 0xf762575d, 0x806567cb, 0x196c3671, 0x6e6b06e7, + 0xfed41b76, 0x89d32be0, 0x10da7a5a, 0x67dd4acc, 0xf9b9df6f, 0x8ebeeff9, 0x17b7be43, 0x60b08ed5, + 0xd6d6a3e8, 0xa1d1937e, 0x38d8c2c4, 0x4fdff252, 0xd1bb67f1, 0xa6bc5767, 0x3fb506dd, 0x48b2364b, + 0xd80d2bda, 0xaf0a1b4c, 0x36034af6, 0x41047a60, 0xdf60efc3, 0xa867df55, 0x316e8eef, 0x4669be79, + 0xcb61b38c, 0xbc66831a, 0x256fd2a0, 0x5268e236, 0xcc0c7795, 0xbb0b4703, 0x220216b9, 0x5505262f, + 0xc5ba3bbe, 0xb2bd0b28, 0x2bb45a92, 0x5cb36a04, 0xc2d7ffa7, 0xb5d0cf31, 0x2cd99e8b, 0x5bdeae1d, + 0x9b64c2b0, 0xec63f226, 0x756aa39c, 0x026d930a, 0x9c0906a9, 0xeb0e363f, 0x72076785, 0x05005713, + 0x95bf4a82, 0xe2b87a14, 0x7bb12bae, 0x0cb61b38, 0x92d28e9b, 0xe5d5be0d, 0x7cdcefb7, 0x0bdbdf21, + 0x86d3d2d4, 0xf1d4e242, 0x68ddb3f8, 0x1fda836e, 0x81be16cd, 0xf6b9265b, 0x6fb077e1, 0x18b74777, + 0x88085ae6, 0xff0f6a70, 0x66063bca, 0x11010b5c, 0x8f659eff, 0xf862ae69, 0x616bffd3, 0x166ccf45, + 0xa00ae278, 0xd70dd2ee, 0x4e048354, 0x3903b3c2, 0xa7672661, 0xd06016f7, 0x4969474d, 0x3e6e77db, + 0xaed16a4a, 0xd9d65adc, 0x40df0b66, 0x37d83bf0, 0xa9bcae53, 0xdebb9ec5, 0x47b2cf7f, 0x30b5ffe9, + 0xbdbdf21c, 0xcabac28a, 0x53b39330, 0x24b4a3a6, 0xbad03605, 0xcdd70693, 0x54de5729, 0x23d967bf, + 0xb3667a2e, 0xc4614ab8, 0x5d681b02, 0x2a6f2b94, 0xb40bbe37, 0xc30c8ea1, 0x5a05df1b, 0x2d02ef8d }; unsigned int crc = ~0u; @@ -2722,7 +2747,7 @@ unsigned int *ComputeMD5(unsigned char *data, int dataSize) int newDataSize = ((((dataSize + 8)/64) + 1)*64) - 8; - unsigned char *msg = RL_CALLOC(newDataSize + 64, 1); // Initialize with '0' bits, allocating 64 extra bytes + unsigned char *msg = (unsigned char *)RL_CALLOC(newDataSize + 64, 1); // Initialize with '0' bits, allocating 64 extra bytes memcpy(msg, data, dataSize); msg[dataSize] = 128; // Write the '1' bit @@ -2812,7 +2837,7 @@ unsigned int *ComputeSHA1(unsigned char *data, int dataSize) int newDataSize = ((((dataSize + 8)/64) + 1)*64); - unsigned char *msg = RL_CALLOC(newDataSize, 1); // Initialize with '0' bits + unsigned char *msg = (unsigned char *)RL_CALLOC(newDataSize, 1); // Initialize with '0' bits memcpy(msg, data, dataSize); msg[dataSize] = 128; // Write the '1' bit @@ -3343,11 +3368,11 @@ int GetGamepadAxisCount(int gamepad) // Get axis movement vector for a gamepad float GetGamepadAxisMovement(int gamepad, int axis) { - float value = (axis == GAMEPAD_AXIS_LEFT_TRIGGER || axis == GAMEPAD_AXIS_RIGHT_TRIGGER)? -1.0f : 0.0f; + float value = ((axis == GAMEPAD_AXIS_LEFT_TRIGGER) || (axis == GAMEPAD_AXIS_RIGHT_TRIGGER))? -1.0f : 0.0f; - if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (axis < MAX_GAMEPAD_AXIS)) + if ((gamepad < MAX_GAMEPADS) && CORE.Input.Gamepad.ready[gamepad] && (axis < MAX_GAMEPAD_AXES)) { - float movement = value < 0.0f ? CORE.Input.Gamepad.axisState[gamepad][axis] : fabsf(CORE.Input.Gamepad.axisState[gamepad][axis]); + float movement = (value < 0.0f)? CORE.Input.Gamepad.axisState[gamepad][axis] : fabsf(CORE.Input.Gamepad.axisState[gamepad][axis]); if (movement > value) value = CORE.Input.Gamepad.axisState[gamepad][axis]; } @@ -3688,12 +3713,16 @@ static void ScanDirectoryFiles(const char *basePath, FilePathList *files, const (strcmp(dp->d_name, "..") != 0)) { #if defined(_WIN32) - sprintf(path, "%s\\%s", basePath, dp->d_name); + int pathLength = snprintf(path, MAX_FILEPATH_LENGTH - 1, "%s\\%s", basePath, dp->d_name); #else - sprintf(path, "%s/%s", basePath, dp->d_name); + int pathLength = snprintf(path, MAX_FILEPATH_LENGTH - 1, "%s/%s", basePath, dp->d_name); #endif - if (filter != NULL) + if ((pathLength < 0) || (pathLength >= MAX_FILEPATH_LENGTH)) + { + TRACELOG(LOG_WARNING, "FILEIO: Path longer than %d characters (%s...)", MAX_FILEPATH_LENGTH, basePath); + } + else if (filter != NULL) { if (IsPathFile(path)) { @@ -3728,6 +3757,7 @@ static void ScanDirectoryFiles(const char *basePath, FilePathList *files, const // Scan all files and directories recursively from a base path static void ScanDirectoryFilesRecursively(const char *basePath, FilePathList *files, const char *filter) { + // WARNING: Path can not be static or it will be reused between recursive function calls! char path[MAX_FILEPATH_LENGTH] = { 0 }; memset(path, 0, MAX_FILEPATH_LENGTH); @@ -3742,12 +3772,16 @@ static void ScanDirectoryFilesRecursively(const char *basePath, FilePathList *fi { // Construct new path from our base path #if defined(_WIN32) - sprintf(path, "%s\\%s", basePath, dp->d_name); + int pathLength = snprintf(path, MAX_FILEPATH_LENGTH - 1, "%s\\%s", basePath, dp->d_name); #else - sprintf(path, "%s/%s", basePath, dp->d_name); + int pathLength = snprintf(path, MAX_FILEPATH_LENGTH - 1, "%s/%s", basePath, dp->d_name); #endif - if (IsPathFile(path)) + if ((pathLength < 0) || (pathLength >= MAX_FILEPATH_LENGTH)) + { + TRACELOG(LOG_WARNING, "FILEIO: Path longer than %d characters (%s...)", MAX_FILEPATH_LENGTH, basePath); + } + else if (IsPathFile(path)) { if (filter != NULL) { @@ -4017,10 +4051,10 @@ static void RecordAutomationEvent(void) if (currentEventList->count == currentEventList->capacity) return; // Security check } - for (int axis = 0; axis < MAX_GAMEPAD_AXIS; axis++) + for (int axis = 0; axis < MAX_GAMEPAD_AXES; axis++) { // Event type: INPUT_GAMEPAD_AXIS_MOTION - float defaultMovement = (axis == GAMEPAD_AXIS_LEFT_TRIGGER || axis == GAMEPAD_AXIS_RIGHT_TRIGGER)? -1.0f : 0.0f; + float defaultMovement = ((axis == GAMEPAD_AXIS_LEFT_TRIGGER) || (axis == GAMEPAD_AXIS_RIGHT_TRIGGER))? -1.0f : 0.0f; if (GetGamepadAxisMovement(gamepad, axis) != defaultMovement) { currentEventList->events[currentEventList->count].frame = CORE.Time.frameCounter; diff --git a/src/rlgl.h b/src/rlgl.h index cb9cd94f9..2562ad45d 100644 --- a/src/rlgl.h +++ b/src/rlgl.h @@ -56,8 +56,8 @@ * * #define RL_MAX_MATRIX_STACK_SIZE 32 // Maximum size of internal Matrix stack * #define RL_MAX_SHADER_LOCATIONS 32 // Maximum number of shader locations supported -* #define RL_CULL_DISTANCE_NEAR 0.01 // Default projection matrix near cull distance -* #define RL_CULL_DISTANCE_FAR 1000.0 // Default projection matrix far cull distance +* #define RL_CULL_DISTANCE_NEAR 0.05 // Default projection matrix near cull distance +* #define RL_CULL_DISTANCE_FAR 4000.0 // Default projection matrix far cull distance * * When loading a shader, the following vertex attributes and uniform * location names are tried to be set automatically: @@ -234,10 +234,10 @@ // Projection matrix culling #ifndef RL_CULL_DISTANCE_NEAR - #define RL_CULL_DISTANCE_NEAR 0.01 // Default near cull distance + #define RL_CULL_DISTANCE_NEAR 0.05 // Default near cull distance #endif #ifndef RL_CULL_DISTANCE_FAR - #define RL_CULL_DISTANCE_FAR 1000.0 // Default far cull distance + #define RL_CULL_DISTANCE_FAR 4000.0 // Default far cull distance #endif // Texture parameters (equivalent to OpenGL defines) @@ -1459,9 +1459,6 @@ void rlBegin(int mode) // NOTE: In all three cases, vertex are accumulated over default internal vertex buffer if (RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].mode != mode) { - // Get current binded texture to preserve it between draw modes change (QUADS <--> TRIANGLES) - int currentTexture = RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].textureId; - if (RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].vertexCount > 0) { // Make sure current RLGL.currentBatch->draws[i].vertexCount is aligned a multiple of 4, @@ -1484,16 +1481,13 @@ void rlBegin(int mode) RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].mode = mode; RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].vertexCount = 0; - RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].textureId = currentTexture; // Preserve active texture + RLGL.currentBatch->draws[RLGL.currentBatch->drawCounter - 1].textureId = RLGL.State.defaultTextureId; } } // Finish vertex providing void rlEnd(void) { - // Reset texture to default - rlSetTexture(RLGL.State.defaultTextureId); - // NOTE: Depth increment is dependant on rlOrtho(): z-near and z-far values, // as well as depth buffer bit-depth (16bit or 24bit or 32bit) // Correct increment formula would be: depthInc = (zfar - znear)/pow(2, bits) @@ -1754,7 +1748,6 @@ void rlTextureParameters(unsigned int id, int param, int value) #endif } else glTexParameteri(GL_TEXTURE_2D, param, value); - } break; case RL_TEXTURE_MAG_FILTER: case RL_TEXTURE_MIN_FILTER: glTexParameteri(GL_TEXTURE_2D, param, value); break; @@ -1799,7 +1792,6 @@ void rlCubemapParameters(unsigned int id, int param, int value) else TRACELOG(RL_LOG_WARNING, "GL: Clamp mirror wrap mode not supported (GL_MIRROR_CLAMP_EXT)"); } else glTexParameteri(GL_TEXTURE_CUBE_MAP, param, value); - } break; case RL_TEXTURE_MAG_FILTER: case RL_TEXTURE_MIN_FILTER: glTexParameteri(GL_TEXTURE_CUBE_MAP, param, value); break; @@ -2118,14 +2110,12 @@ void rlSetBlendMode(int mode) { // NOTE: Using GL blend src/dst factors and GL equation configured with rlSetBlendFactors() glBlendFunc(RLGL.State.glBlendSrcFactor, RLGL.State.glBlendDstFactor); glBlendEquation(RLGL.State.glBlendEquation); - } break; case RL_BLEND_CUSTOM_SEPARATE: { // NOTE: Using GL blend src/dst factors and GL equation configured with rlSetBlendFactorsSeparate() glBlendFuncSeparate(RLGL.State.glBlendSrcFactorRGB, RLGL.State.glBlendDestFactorRGB, RLGL.State.glBlendSrcFactorAlpha, RLGL.State.glBlendDestFactorAlpha); glBlendEquationSeparate(RLGL.State.glBlendEquationRGB, RLGL.State.glBlendEquationAlpha); - } break; default: break; } @@ -2435,7 +2425,7 @@ void rlLoadExtensions(void *loader) // Get supported extensions list GLint numExt = 0; - const char **extList = RL_MALLOC(512*sizeof(const char *)); // Allocate 512 strings pointers (2 KB) + const char **extList = (const char **)RL_MALLOC(512*sizeof(const char *)); // Allocate 512 strings pointers (2 KB) const char *extensions = (const char *)glGetString(GL_EXTENSIONS); // One big const string // NOTE: We have to duplicate string because glGetString() returns a const string @@ -3317,7 +3307,7 @@ unsigned int rlLoadTexture(const void *data, int width, int height, int format, // Activate Trilinear filtering if mipmaps are available glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAG_FILTER, GL_LINEAR); glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MIN_FILTER, GL_LINEAR_MIPMAP_LINEAR); - glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, mipmapCount); // user defined mip count would break without this. + glTexParameteri(GL_TEXTURE_2D, GL_TEXTURE_MAX_LEVEL, mipmapCount); // Required for user-defined mip count } #endif @@ -3690,12 +3680,12 @@ unsigned char *rlReadScreenPixels(int width, int height) // Flip image vertically! // NOTE: Alpha value has already been applied to RGB in framebuffer, we don't need it! - for (int y = height - 1; y >= height / 2; y--) + for (int y = height - 1; y >= height/2; y--) { for (int x = 0; x < (width*4); x += 4) { - size_t s = ((height - 1) - y)*width*4 + x; - size_t e = y*width*4 + x; + unsigned int s = ((height - 1) - y)*width*4 + x; + unsigned int e = y*width*4 + x; unsigned char r = imgData[s]; unsigned char g = imgData[s+1]; @@ -3753,19 +3743,16 @@ void rlFramebufferAttach(unsigned int fboId, unsigned int texId, int attachType, if (texType == RL_ATTACHMENT_TEXTURE2D) glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + attachType, GL_TEXTURE_2D, texId, mipLevel); else if (texType == RL_ATTACHMENT_RENDERBUFFER) glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + attachType, GL_RENDERBUFFER, texId); else if (texType >= RL_ATTACHMENT_CUBEMAP_POSITIVE_X) glFramebufferTexture2D(GL_FRAMEBUFFER, GL_COLOR_ATTACHMENT0 + attachType, GL_TEXTURE_CUBE_MAP_POSITIVE_X + texType, texId, mipLevel); - } break; case RL_ATTACHMENT_DEPTH: { if (texType == RL_ATTACHMENT_TEXTURE2D) glFramebufferTexture2D(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_TEXTURE_2D, texId, mipLevel); else if (texType == RL_ATTACHMENT_RENDERBUFFER) glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_DEPTH_ATTACHMENT, GL_RENDERBUFFER, texId); - } break; case RL_ATTACHMENT_STENCIL: { if (texType == RL_ATTACHMENT_TEXTURE2D) glFramebufferTexture2D(GL_FRAMEBUFFER, GL_STENCIL_ATTACHMENT, GL_TEXTURE_2D, texId, mipLevel); else if (texType == RL_ATTACHMENT_RENDERBUFFER) glFramebufferRenderbuffer(GL_FRAMEBUFFER, GL_STENCIL_ATTACHMENT, GL_RENDERBUFFER, texId); - } break; default: break; } @@ -4191,6 +4178,9 @@ unsigned int rlCompileShader(const char *shaderCode, int type) RL_FREE(log); } + // Unload object allocated by glCreateShader(), + // despite failing in the compilation process + glDeleteShader(shader); shader = 0; } else diff --git a/src/rmodels.c b/src/rmodels.c index fb3e7ced5..ac6f4c594 100644 --- a/src/rmodels.c +++ b/src/rmodels.c @@ -496,12 +496,18 @@ void DrawSphereEx(Vector3 centerPos, float radius, int rings, int slices, Color vertices[2] = (Vector3){ cosslice*vertices[2].x - sinslice*vertices[2].z, vertices[2].y, sinslice*vertices[2].x + cosslice*vertices[2].z }; // Rotation matrix around y axis vertices[3] = (Vector3){ cosslice*vertices[3].x - sinslice*vertices[3].z, vertices[3].y, sinslice*vertices[3].x + cosslice*vertices[3].z }; + rlNormal3f(vertices[0].x, vertices[0].y, vertices[0].z); rlVertex3f(vertices[0].x, vertices[0].y, vertices[0].z); + rlNormal3f(vertices[3].x, vertices[3].y, vertices[3].z); rlVertex3f(vertices[3].x, vertices[3].y, vertices[3].z); + rlNormal3f(vertices[1].x, vertices[1].y, vertices[1].z); rlVertex3f(vertices[1].x, vertices[1].y, vertices[1].z); + rlNormal3f(vertices[0].x, vertices[0].y, vertices[0].z); rlVertex3f(vertices[0].x, vertices[0].y, vertices[0].z); + rlNormal3f(vertices[2].x, vertices[2].y, vertices[2].z); rlVertex3f(vertices[2].x, vertices[2].y, vertices[2].z); + rlNormal3f(vertices[3].x, vertices[3].y, vertices[3].z); rlVertex3f(vertices[3].x, vertices[3].y, vertices[3].z); } @@ -1423,9 +1429,13 @@ void DrawMesh(Mesh mesh, Material material, Matrix transform) rlEnableTexture(material.maps[MATERIAL_MAP_DIFFUSE].texture.id); - rlEnableStatePointer(GL_VERTEX_ARRAY, mesh.vertices); + if (mesh.animVertices) rlEnableStatePointer(GL_VERTEX_ARRAY, mesh.animVertices); + else rlEnableStatePointer(GL_VERTEX_ARRAY, mesh.vertices); + rlEnableStatePointer(GL_TEXTURE_COORD_ARRAY, mesh.texcoords); - rlEnableStatePointer(GL_NORMAL_ARRAY, mesh.normals); + if (mesh.normals) rlEnableStatePointer(GL_VERTEX_ARRAY, mesh.animNormals); + else rlEnableStatePointer(GL_NORMAL_ARRAY, mesh.normals); + rlEnableStatePointer(GL_COLOR_ARRAY, mesh.colors); rlPushMatrix(); @@ -2164,7 +2174,7 @@ Material *LoadMaterials(const char *fileName, int *materialCount) int result = tinyobj_parse_mtl_file(&mats, &count, fileName); if (result != TINYOBJ_SUCCESS) TRACELOG(LOG_WARNING, "MATERIAL: [%s] Failed to parse materials file", fileName); - materials = RL_MALLOC(count*sizeof(Material)); + materials = (Material *)RL_MALLOC(count*sizeof(Material)); ProcessMaterialsOBJ(materials, mats, count); tinyobj_materials_free(mats, count); @@ -2286,38 +2296,28 @@ void UpdateModelAnimationBones(Model model, ModelAnimation anim, int frame) } } - // Update all bones and boneMatrices of first mesh with bones. - for (int boneId = 0; boneId < anim.boneCount; boneId++) - { - Vector3 inTranslation = model.bindPose[boneId].translation; - Quaternion inRotation = model.bindPose[boneId].rotation; - Vector3 inScale = model.bindPose[boneId].scale; - - Vector3 outTranslation = anim.framePoses[frame][boneId].translation; - Quaternion outRotation = anim.framePoses[frame][boneId].rotation; - Vector3 outScale = anim.framePoses[frame][boneId].scale; - - Quaternion invRotation = QuaternionInvert(inRotation); - Vector3 invTranslation = Vector3RotateByQuaternion(Vector3Negate(inTranslation), invRotation); - Vector3 invScale = Vector3Divide((Vector3){ 1.0f, 1.0f, 1.0f }, inScale); - - Vector3 boneTranslation = Vector3Add(Vector3RotateByQuaternion( - Vector3Multiply(outScale, invTranslation), outRotation), outTranslation); - Quaternion boneRotation = QuaternionMultiply(outRotation, invRotation); - Vector3 boneScale = Vector3Multiply(outScale, invScale); - - Matrix boneMatrix = MatrixMultiply(MatrixMultiply( - QuaternionToMatrix(boneRotation), - MatrixTranslate(boneTranslation.x, boneTranslation.y, boneTranslation.z)), - MatrixScale(boneScale.x, boneScale.y, boneScale.z)); - - model.meshes[firstMeshWithBones].boneMatrices[boneId] = boneMatrix; - } - - // Update remaining meshes with bones - // NOTE: Using deep copy because shallow copy results in double free with 'UnloadModel()' if (firstMeshWithBones != -1) { + // Update all bones and boneMatrices of first mesh with bones. + for (int boneId = 0; boneId < anim.boneCount; boneId++) + { + Transform *bindTransform = &model.bindPose[boneId]; + Matrix bindMatrix = MatrixMultiply(MatrixMultiply( + MatrixScale(bindTransform->scale.x, bindTransform->scale.y, bindTransform->scale.z), + QuaternionToMatrix(bindTransform->rotation)), + MatrixTranslate(bindTransform->translation.x, bindTransform->translation.y, bindTransform->translation.z)); + + Transform *targetTransform = &anim.framePoses[frame][boneId]; + Matrix targetMatrix = MatrixMultiply(MatrixMultiply( + MatrixScale(targetTransform->scale.x, targetTransform->scale.y, targetTransform->scale.z), + QuaternionToMatrix(targetTransform->rotation)), + MatrixTranslate(targetTransform->translation.x, targetTransform->translation.y, targetTransform->translation.z)); + + model.meshes[firstMeshWithBones].boneMatrices[boneId] = MatrixMultiply(MatrixInvert(bindMatrix), targetMatrix); + } + + // Update remaining meshes with bones + // NOTE: Using deep copy because shallow copy results in double free with 'UnloadModel()' for (int i = firstMeshWithBones + 1; i < model.meshCount; i++) { if (model.meshes[i].boneMatrices) @@ -3608,16 +3608,16 @@ BoundingBox GetMeshBoundingBox(Mesh mesh) } // Compute mesh tangents -// NOTE: To calculate mesh tangents and binormals we need mesh vertex positions and texture coordinates -// Implementation based on: https://answers.unity.com/questions/7789/calculating-tangents-vector4.html void GenMeshTangents(Mesh *mesh) { - if ((mesh->vertices == NULL) || (mesh->texcoords == NULL)) + // Check if input mesh data is useful + if ((mesh == NULL) || (mesh->vertices == NULL) || (mesh->texcoords == NULL) || (mesh->normals == NULL)) { - TRACELOG(LOG_WARNING, "MESH: Tangents generation requires texcoord vertex attribute data"); + TRACELOG(LOG_WARNING, "MESH: Tangents generation requires vertices, texcoords and normals vertex attribute data"); return; } + // Allocate or reallocate tangents data if (mesh->tangents == NULL) mesh->tangents = (float *)RL_MALLOC(mesh->vertexCount*4*sizeof(float)); else { @@ -3625,26 +3625,51 @@ void GenMeshTangents(Mesh *mesh) mesh->tangents = (float *)RL_MALLOC(mesh->vertexCount*4*sizeof(float)); } - Vector3 *tan1 = (Vector3 *)RL_MALLOC(mesh->vertexCount*sizeof(Vector3)); - Vector3 *tan2 = (Vector3 *)RL_MALLOC(mesh->vertexCount*sizeof(Vector3)); + // Allocate temporary arrays for tangents calculation + Vector3 *tan1 = (Vector3 *)RL_CALLOC(mesh->vertexCount, sizeof(Vector3)); + Vector3 *tan2 = (Vector3 *)RL_CALLOC(mesh->vertexCount, sizeof(Vector3)); - if (mesh->vertexCount % 3 != 0) + if (tan1 == NULL || tan2 == NULL) { - TRACELOG(LOG_WARNING, "MESH: vertexCount expected to be a multiple of 3. Expect uninitialized values."); + TRACELOG(LOG_WARNING, "MESH: Failed to allocate temporary memory for tangent calculation"); + if (tan1) RL_FREE(tan1); + if (tan2) RL_FREE(tan2); + return; } - for (int i = 0; i <= mesh->vertexCount - 3; i += 3) + // Process all triangles of the mesh + // 'triangleCount' must be always valid + for (int t = 0; t < mesh->triangleCount; t++) { - // Get triangle vertices - Vector3 v1 = { mesh->vertices[(i + 0)*3 + 0], mesh->vertices[(i + 0)*3 + 1], mesh->vertices[(i + 0)*3 + 2] }; - Vector3 v2 = { mesh->vertices[(i + 1)*3 + 0], mesh->vertices[(i + 1)*3 + 1], mesh->vertices[(i + 1)*3 + 2] }; - Vector3 v3 = { mesh->vertices[(i + 2)*3 + 0], mesh->vertices[(i + 2)*3 + 1], mesh->vertices[(i + 2)*3 + 2] }; + // Get triangle vertex indices + int i0, i1, i2; + + if (mesh->indices != NULL) + { + // Use indices if available + i0 = mesh->indices[t*3 + 0]; + i1 = mesh->indices[t*3 + 1]; + i2 = mesh->indices[t*3 + 2]; + } + else + { + // Sequential access for non-indexed mesh + i0 = t*3 + 0; + i1 = t*3 + 1; + i2 = t*3 + 2; + } + + // Get triangle vertices position + Vector3 v1 = { mesh->vertices[i0*3 + 0], mesh->vertices[i0*3 + 1], mesh->vertices[i0*3 + 2] }; + Vector3 v2 = { mesh->vertices[i1*3 + 0], mesh->vertices[i1*3 + 1], mesh->vertices[i1*3 + 2] }; + Vector3 v3 = { mesh->vertices[i2*3 + 0], mesh->vertices[i2*3 + 1], mesh->vertices[i2*3 + 2] }; // Get triangle texcoords - Vector2 uv1 = { mesh->texcoords[(i + 0)*2 + 0], mesh->texcoords[(i + 0)*2 + 1] }; - Vector2 uv2 = { mesh->texcoords[(i + 1)*2 + 0], mesh->texcoords[(i + 1)*2 + 1] }; - Vector2 uv3 = { mesh->texcoords[(i + 2)*2 + 0], mesh->texcoords[(i + 2)*2 + 1] }; + Vector2 uv1 = { mesh->texcoords[i0*2 + 0], mesh->texcoords[i0*2 + 1] }; + Vector2 uv2 = { mesh->texcoords[i1*2 + 0], mesh->texcoords[i1*2 + 1] }; + Vector2 uv3 = { mesh->texcoords[i2*2 + 0], mesh->texcoords[i2*2 + 1] }; + // Calculate triangle edges float x1 = v2.x - v1.x; float y1 = v2.y - v1.y; float z1 = v2.z - v1.z; @@ -3652,65 +3677,95 @@ void GenMeshTangents(Mesh *mesh) float y2 = v3.y - v1.y; float z2 = v3.z - v1.z; + // Calculate texture coordinate differences float s1 = uv2.x - uv1.x; float t1 = uv2.y - uv1.y; float s2 = uv3.x - uv1.x; float t2 = uv3.y - uv1.y; + // Calculate denominator and check for degenerate UV float div = s1*t2 - s2*t1; - float r = (div == 0.0f)? 0.0f : 1.0f/div; + float r = (fabsf(div) < 0.0001f)? 0.0f : 1.0f/div; + // Calculate tangent and bitangent directions Vector3 sdir = { (t2*x1 - t1*x2)*r, (t2*y1 - t1*y2)*r, (t2*z1 - t1*z2)*r }; Vector3 tdir = { (s1*x2 - s2*x1)*r, (s1*y2 - s2*y1)*r, (s1*z2 - s2*z1)*r }; - tan1[i + 0] = sdir; - tan1[i + 1] = sdir; - tan1[i + 2] = sdir; + // Accumulate tangents and bitangents for each vertex of the triangle + tan1[i0] = Vector3Add(tan1[i0], sdir); + tan1[i1] = Vector3Add(tan1[i1], sdir); + tan1[i2] = Vector3Add(tan1[i2], sdir); - tan2[i + 0] = tdir; - tan2[i + 1] = tdir; - tan2[i + 2] = tdir; + tan2[i0] = Vector3Add(tan2[i0], tdir); + tan2[i1] = Vector3Add(tan2[i1], tdir); + tan2[i2] = Vector3Add(tan2[i2], tdir); } - // Compute tangents considering normals + // Calculate final tangents for each vertex for (int i = 0; i < mesh->vertexCount; i++) { Vector3 normal = { mesh->normals[i*3 + 0], mesh->normals[i*3 + 1], mesh->normals[i*3 + 2] }; Vector3 tangent = tan1[i]; - // TODO: Review, not sure if tangent computation is right, just used reference proposed maths... -#if defined(COMPUTE_TANGENTS_METHOD_01) - Vector3 tmp = Vector3Subtract(tangent, Vector3Scale(normal, Vector3DotProduct(normal, tangent))); - tmp = Vector3Normalize(tmp); - mesh->tangents[i*4 + 0] = tmp.x; - mesh->tangents[i*4 + 1] = tmp.y; - mesh->tangents[i*4 + 2] = tmp.z; - mesh->tangents[i*4 + 3] = 1.0f; -#else - Vector3OrthoNormalize(&normal, &tangent); - mesh->tangents[i*4 + 0] = tangent.x; - mesh->tangents[i*4 + 1] = tangent.y; - mesh->tangents[i*4 + 2] = tangent.z; - mesh->tangents[i*4 + 3] = (Vector3DotProduct(Vector3CrossProduct(normal, tangent), tan2[i]) < 0.0f)? -1.0f : 1.0f; -#endif + // Handle zero tangent (can happen with degenerate UVs) + if (Vector3Length(tangent) < 0.0001f) + { + // Create a tangent perpendicular to the normal + if (fabsf(normal.z) > 0.707f) tangent = (Vector3){ 1.0f, 0.0f, 0.0f }; + else tangent = Vector3Normalize((Vector3){ -normal.y, normal.x, 0.0f }); + + mesh->tangents[i*4 + 0] = tangent.x; + mesh->tangents[i*4 + 1] = tangent.y; + mesh->tangents[i*4 + 2] = tangent.z; + mesh->tangents[i*4 + 3] = 1.0f; + continue; + } + + // Gram-Schmidt orthogonalization to make tangent orthogonal to normal + // T_prime = T - N * dot(N, T) + Vector3 orthogonalized = Vector3Subtract(tangent, Vector3Scale(normal, Vector3DotProduct(normal, tangent))); + + // Handle cases where orthogonalized vector is too small + if (Vector3Length(orthogonalized) < 0.0001f) + { + // Create a tangent perpendicular to the normal + if (fabsf(normal.z) > 0.707f) orthogonalized = (Vector3){ 1.0f, 0.0f, 0.0f }; + else orthogonalized = Vector3Normalize((Vector3){ -normal.y, normal.x, 0.0f }); + } + else + { + // Normalize the orthogonalized tangent + orthogonalized = Vector3Normalize(orthogonalized); + } + + // Store the calculated tangent + mesh->tangents[i*4 + 0] = orthogonalized.x; + mesh->tangents[i*4 + 1] = orthogonalized.y; + mesh->tangents[i*4 + 2] = orthogonalized.z; + + // Calculate the handedness (w component) + mesh->tangents[i*4 + 3] = (Vector3DotProduct(Vector3CrossProduct(normal, orthogonalized), tan2[i]) < 0.0f)? -1.0f : 1.0f; } + // Free temporary arrays RL_FREE(tan1); RL_FREE(tan2); + // Update vertex buffers if available if (mesh->vboId != NULL) { if (mesh->vboId[SHADER_LOC_VERTEX_TANGENT] != 0) { - // Update existing vertex buffer + // Update existing tangent vertex buffer rlUpdateVertexBuffer(mesh->vboId[SHADER_LOC_VERTEX_TANGENT], mesh->tangents, mesh->vertexCount*4*sizeof(float), 0); } else { - // Load a new tangent attributes buffer + // Create new tangent vertex buffer mesh->vboId[SHADER_LOC_VERTEX_TANGENT] = rlLoadVertexBuffer(mesh->tangents, mesh->vertexCount*4*sizeof(float), false); } + // Set up vertex attributes for shader rlEnableVertexArray(mesh->vaoId); rlSetVertexAttribute(RL_DEFAULT_SHADER_ATTRIB_LOCATION_TANGENT, 4, RL_FLOAT, 0, 0, 0); rlEnableVertexAttribute(RL_DEFAULT_SHADER_ATTRIB_LOCATION_TANGENT); @@ -4587,13 +4642,13 @@ static Model LoadIQM(const char *fileName) //fileDataPtr += sizeof(IQMHeader); // Move file data pointer // Meshes data processing - imesh = RL_MALLOC(iqmHeader->num_meshes*sizeof(IQMMesh)); + imesh = (IQMMesh *)RL_MALLOC(iqmHeader->num_meshes*sizeof(IQMMesh)); //fseek(iqmFile, iqmHeader->ofs_meshes, SEEK_SET); //fread(imesh, sizeof(IQMMesh)*iqmHeader->num_meshes, 1, iqmFile); memcpy(imesh, fileDataPtr + iqmHeader->ofs_meshes, iqmHeader->num_meshes*sizeof(IQMMesh)); model.meshCount = iqmHeader->num_meshes; - model.meshes = RL_CALLOC(model.meshCount, sizeof(Mesh)); + model.meshes = (Mesh *)RL_CALLOC(model.meshCount, sizeof(Mesh)); model.materialCount = model.meshCount; model.materials = (Material *)RL_CALLOC(model.materialCount, sizeof(Material)); @@ -4621,24 +4676,24 @@ static Model LoadIQM(const char *fileName) model.meshes[i].vertexCount = imesh[i].num_vertexes; - model.meshes[i].vertices = RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); // Default vertex positions - model.meshes[i].normals = RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); // Default vertex normals - model.meshes[i].texcoords = RL_CALLOC(model.meshes[i].vertexCount*2, sizeof(float)); // Default vertex texcoords + model.meshes[i].vertices = (float *)RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); // Default vertex positions + model.meshes[i].normals = (float *)RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); // Default vertex normals + model.meshes[i].texcoords = (float *)RL_CALLOC(model.meshes[i].vertexCount*2, sizeof(float)); // Default vertex texcoords - model.meshes[i].boneIds = RL_CALLOC(model.meshes[i].vertexCount*4, sizeof(unsigned char)); // Up-to 4 bones supported! - model.meshes[i].boneWeights = RL_CALLOC(model.meshes[i].vertexCount*4, sizeof(float)); // Up-to 4 bones supported! + model.meshes[i].boneIds = (unsigned char *)RL_CALLOC(model.meshes[i].vertexCount*4, sizeof(unsigned char)); // Up-to 4 bones supported! + model.meshes[i].boneWeights = (float *)RL_CALLOC(model.meshes[i].vertexCount*4, sizeof(float)); // Up-to 4 bones supported! model.meshes[i].triangleCount = imesh[i].num_triangles; - model.meshes[i].indices = RL_CALLOC(model.meshes[i].triangleCount*3, sizeof(unsigned short)); + model.meshes[i].indices = (unsigned short *)RL_CALLOC(model.meshes[i].triangleCount*3, sizeof(unsigned short)); // Animated vertex data, what we actually process for rendering // NOTE: Animated vertex should be re-uploaded to GPU (if not using GPU skinning) - model.meshes[i].animVertices = RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); - model.meshes[i].animNormals = RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); + model.meshes[i].animVertices = (float *)RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); + model.meshes[i].animNormals = (float *)RL_CALLOC(model.meshes[i].vertexCount*3, sizeof(float)); } // Triangles data processing - tri = RL_MALLOC(iqmHeader->num_triangles*sizeof(IQMTriangle)); + tri = (IQMTriangle *)RL_MALLOC(iqmHeader->num_triangles*sizeof(IQMTriangle)); //fseek(iqmFile, iqmHeader->ofs_triangles, SEEK_SET); //fread(tri, sizeof(IQMTriangle), iqmHeader->num_triangles, iqmFile); memcpy(tri, fileDataPtr + iqmHeader->ofs_triangles, iqmHeader->num_triangles*sizeof(IQMTriangle)); @@ -4660,7 +4715,7 @@ static Model LoadIQM(const char *fileName) } // Vertex arrays data processing - va = RL_MALLOC(iqmHeader->num_vertexarrays*sizeof(IQMVertexArray)); + va = (IQMVertexArray *)RL_MALLOC(iqmHeader->num_vertexarrays*sizeof(IQMVertexArray)); //fseek(iqmFile, iqmHeader->ofs_vertexarrays, SEEK_SET); //fread(va, sizeof(IQMVertexArray), iqmHeader->num_vertexarrays, iqmFile); memcpy(va, fileDataPtr + iqmHeader->ofs_vertexarrays, iqmHeader->num_vertexarrays*sizeof(IQMVertexArray)); @@ -4671,7 +4726,7 @@ static Model LoadIQM(const char *fileName) { case IQM_POSITION: { - vertex = RL_MALLOC(iqmHeader->num_vertexes*3*sizeof(float)); + vertex = (float *)RL_MALLOC(iqmHeader->num_vertexes*3*sizeof(float)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(vertex, iqmHeader->num_vertexes*3*sizeof(float), 1, iqmFile); memcpy(vertex, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*3*sizeof(float)); @@ -4689,7 +4744,7 @@ static Model LoadIQM(const char *fileName) } break; case IQM_NORMAL: { - normal = RL_MALLOC(iqmHeader->num_vertexes*3*sizeof(float)); + normal = (float *)RL_MALLOC(iqmHeader->num_vertexes*3*sizeof(float)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(normal, iqmHeader->num_vertexes*3*sizeof(float), 1, iqmFile); memcpy(normal, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*3*sizeof(float)); @@ -4707,7 +4762,7 @@ static Model LoadIQM(const char *fileName) } break; case IQM_TEXCOORD: { - text = RL_MALLOC(iqmHeader->num_vertexes*2*sizeof(float)); + text = (float *)RL_MALLOC(iqmHeader->num_vertexes*2*sizeof(float)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(text, iqmHeader->num_vertexes*2*sizeof(float), 1, iqmFile); memcpy(text, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*2*sizeof(float)); @@ -4724,7 +4779,7 @@ static Model LoadIQM(const char *fileName) } break; case IQM_BLENDINDEXES: { - blendi = RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(char)); + blendi = (char *)RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(char)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(blendi, iqmHeader->num_vertexes*4*sizeof(char), 1, iqmFile); memcpy(blendi, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*4*sizeof(char)); @@ -4741,7 +4796,7 @@ static Model LoadIQM(const char *fileName) } break; case IQM_BLENDWEIGHTS: { - blendw = RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(unsigned char)); + blendw = (unsigned char *)RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(unsigned char)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(blendw, iqmHeader->num_vertexes*4*sizeof(unsigned char), 1, iqmFile); memcpy(blendw, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*4*sizeof(unsigned char)); @@ -4758,14 +4813,14 @@ static Model LoadIQM(const char *fileName) } break; case IQM_COLOR: { - color = RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(unsigned char)); + color = (unsigned char *)RL_MALLOC(iqmHeader->num_vertexes*4*sizeof(unsigned char)); //fseek(iqmFile, va[i].offset, SEEK_SET); //fread(blendw, iqmHeader->num_vertexes*4*sizeof(unsigned char), 1, iqmFile); memcpy(color, fileDataPtr + va[i].offset, iqmHeader->num_vertexes*4*sizeof(unsigned char)); for (unsigned int m = 0; m < iqmHeader->num_meshes; m++) { - model.meshes[m].colors = RL_CALLOC(model.meshes[m].vertexCount*4, sizeof(unsigned char)); + model.meshes[m].colors = (unsigned char *)RL_CALLOC(model.meshes[m].vertexCount*4, sizeof(unsigned char)); int vCounter = 0; for (unsigned int i = imesh[m].first_vertex*4; i < (imesh[m].first_vertex + imesh[m].num_vertexes)*4; i++) @@ -4779,14 +4834,14 @@ static Model LoadIQM(const char *fileName) } // Bones (joints) data processing - ijoint = RL_MALLOC(iqmHeader->num_joints*sizeof(IQMJoint)); + ijoint = (IQMJoint *)RL_MALLOC(iqmHeader->num_joints*sizeof(IQMJoint)); //fseek(iqmFile, iqmHeader->ofs_joints, SEEK_SET); //fread(ijoint, sizeof(IQMJoint), iqmHeader->num_joints, iqmFile); memcpy(ijoint, fileDataPtr + iqmHeader->ofs_joints, iqmHeader->num_joints*sizeof(IQMJoint)); model.boneCount = iqmHeader->num_joints; - model.bones = RL_MALLOC(iqmHeader->num_joints*sizeof(BoneInfo)); - model.bindPose = RL_MALLOC(iqmHeader->num_joints*sizeof(Transform)); + model.bones = (BoneInfo *)RL_MALLOC(iqmHeader->num_joints*sizeof(BoneInfo)); + model.bindPose = (Transform *)RL_MALLOC(iqmHeader->num_joints*sizeof(Transform)); for (unsigned int i = 0; i < iqmHeader->num_joints; i++) { @@ -4816,7 +4871,7 @@ static Model LoadIQM(const char *fileName) for (int i = 0; i < model.meshCount; i++) { model.meshes[i].boneCount = model.boneCount; - model.meshes[i].boneMatrices = RL_CALLOC(model.meshes[i].boneCount, sizeof(Matrix)); + model.meshes[i].boneMatrices = (Matrix *)RL_CALLOC(model.meshes[i].boneCount, sizeof(Matrix)); for (int j = 0; j < model.meshes[i].boneCount; j++) { @@ -4908,36 +4963,36 @@ static ModelAnimation *LoadModelAnimationsIQM(const char *fileName, int *animCou } // Get bones data - IQMPose *poses = RL_MALLOC(iqmHeader->num_poses*sizeof(IQMPose)); + IQMPose *poses = (IQMPose *)RL_MALLOC(iqmHeader->num_poses*sizeof(IQMPose)); //fseek(iqmFile, iqmHeader->ofs_poses, SEEK_SET); //fread(poses, sizeof(IQMPose), iqmHeader->num_poses, iqmFile); memcpy(poses, fileDataPtr + iqmHeader->ofs_poses, iqmHeader->num_poses*sizeof(IQMPose)); // Get animations data *animCount = iqmHeader->num_anims; - IQMAnim *anim = RL_MALLOC(iqmHeader->num_anims*sizeof(IQMAnim)); + IQMAnim *anim = (IQMAnim *)RL_MALLOC(iqmHeader->num_anims*sizeof(IQMAnim)); //fseek(iqmFile, iqmHeader->ofs_anims, SEEK_SET); //fread(anim, sizeof(IQMAnim), iqmHeader->num_anims, iqmFile); memcpy(anim, fileDataPtr + iqmHeader->ofs_anims, iqmHeader->num_anims*sizeof(IQMAnim)); - ModelAnimation *animations = RL_MALLOC(iqmHeader->num_anims*sizeof(ModelAnimation)); + ModelAnimation *animations = (ModelAnimation *)RL_MALLOC(iqmHeader->num_anims*sizeof(ModelAnimation)); // frameposes - unsigned short *framedata = RL_MALLOC(iqmHeader->num_frames*iqmHeader->num_framechannels*sizeof(unsigned short)); + unsigned short *framedata = (unsigned short *)RL_MALLOC(iqmHeader->num_frames*iqmHeader->num_framechannels*sizeof(unsigned short)); //fseek(iqmFile, iqmHeader->ofs_frames, SEEK_SET); //fread(framedata, sizeof(unsigned short), iqmHeader->num_frames*iqmHeader->num_framechannels, iqmFile); memcpy(framedata, fileDataPtr + iqmHeader->ofs_frames, iqmHeader->num_frames*iqmHeader->num_framechannels*sizeof(unsigned short)); // joints - IQMJoint *joints = RL_MALLOC(iqmHeader->num_joints*sizeof(IQMJoint)); + IQMJoint *joints = (IQMJoint *)RL_MALLOC(iqmHeader->num_joints*sizeof(IQMJoint)); memcpy(joints, fileDataPtr + iqmHeader->ofs_joints, iqmHeader->num_joints*sizeof(IQMJoint)); for (unsigned int a = 0; a < iqmHeader->num_anims; a++) { animations[a].frameCount = anim[a].num_frames; animations[a].boneCount = iqmHeader->num_poses; - animations[a].bones = RL_MALLOC(iqmHeader->num_poses*sizeof(BoneInfo)); - animations[a].framePoses = RL_MALLOC(anim[a].num_frames*sizeof(Transform *)); + animations[a].bones = (BoneInfo *)RL_MALLOC(iqmHeader->num_poses*sizeof(BoneInfo)); + animations[a].framePoses = (Transform **)RL_MALLOC(anim[a].num_frames*sizeof(Transform *)); memcpy(animations[a].name, fileDataPtr + iqmHeader->ofs_text + anim[a].name, 32); // I don't like this 32 here TraceLog(LOG_INFO, "IQM Anim %s", animations[a].name); // animations[a].framerate = anim.framerate; // TODO: Use animation framerate data? @@ -4952,7 +5007,7 @@ static ModelAnimation *LoadModelAnimationsIQM(const char *fileName, int *animCou animations[a].bones[j].parent = poses[j].parent; } - for (unsigned int j = 0; j < anim[a].num_frames; j++) animations[a].framePoses[j] = RL_MALLOC(iqmHeader->num_poses*sizeof(Transform)); + for (unsigned int j = 0; j < anim[a].num_frames; j++) animations[a].framePoses[j] = (Transform *)RL_MALLOC(iqmHeader->num_poses*sizeof(Transform)); int dcounter = anim[a].first_frame*iqmHeader->num_framechannels; @@ -5143,7 +5198,7 @@ static Image LoadImageFromCgltfImage(cgltf_image *cgltfImage, const char *texPat } else if ((cgltfImage->buffer_view != NULL) && (cgltfImage->buffer_view->buffer->data != NULL)) // Check if image is provided as data buffer { - unsigned char *data = RL_MALLOC(cgltfImage->buffer_view->size); + unsigned char *data = (unsigned char *)RL_MALLOC(cgltfImage->buffer_view->size); int offset = (int)cgltfImage->buffer_view->offset; int stride = (int)cgltfImage->buffer_view->stride? (int)cgltfImage->buffer_view->stride : 1; @@ -5156,11 +5211,11 @@ static Image LoadImageFromCgltfImage(cgltf_image *cgltfImage, const char *texPat // Check mime_type for image: (cgltfImage->mime_type == "image/png") // NOTE: Detected that some models define mime_type as "image\\/png" - if ((strcmp(cgltfImage->mime_type, "image\\/png") == 0) || (strcmp(cgltfImage->mime_type, "image/png") == 0)) + if ((strcmp(cgltfImage->mime_type, "image\\/png") == 0) || (strcmp(cgltfImage->mime_type, "image/png") == 0)) { image = LoadImageFromMemory(".png", data, (int)cgltfImage->buffer_view->size); } - else if ((strcmp(cgltfImage->mime_type, "image\\/jpeg") == 0) || (strcmp(cgltfImage->mime_type, "image/jpeg") == 0)) + else if ((strcmp(cgltfImage->mime_type, "image\\/jpeg") == 0) || (strcmp(cgltfImage->mime_type, "image/jpeg") == 0)) { image = LoadImageFromMemory(".jpg", data, (int)cgltfImage->buffer_view->size); } @@ -5176,16 +5231,12 @@ static Image LoadImageFromCgltfImage(cgltf_image *cgltfImage, const char *texPat static BoneInfo *LoadBoneInfoGLTF(cgltf_skin skin, int *boneCount) { *boneCount = (int)skin.joints_count; - BoneInfo *bones = RL_MALLOC(skin.joints_count*sizeof(BoneInfo)); + BoneInfo *bones = (BoneInfo *)RL_CALLOC(skin.joints_count, sizeof(BoneInfo)); for (unsigned int i = 0; i < skin.joints_count; i++) { cgltf_node node = *skin.joints[i]; - if (node.name != NULL) - { - strncpy(bones[i].name, node.name, sizeof(bones[i].name)); - bones[i].name[sizeof(bones[i].name) - 1] = '\0'; - } + if (node.name != NULL) strncpy(bones[i].name, node.name, sizeof(bones[i].name) - 1); // Find parent bone index int parentIndex = -1; @@ -5211,7 +5262,7 @@ static Model LoadGLTF(const char *fileName) /********************************************************************************************* Function implemented by Wilhem Barbier(@wbrbr), with modifications by Tyler Bezera(@gamerfiend) - Transform handling implemented by Paul Melis (@paulmelis). + Transform handling implemented by Paul Melis (@paulmelis) Reviewed by Ramon Santamaria (@raysan5) FEATURES: @@ -5221,10 +5272,10 @@ static Model LoadGLTF(const char *fileName) PBR specular/glossiness flow and extended texture flows not supported - Supports multiple meshes per model (every primitives is loaded as a separate mesh) - Supports basic animations - - Transforms, including parent-child relations, are applied on the mesh data, but the - hierarchy is not kept (as it can't be represented). + - Transforms, including parent-child relations, are applied on the mesh data, + but the hierarchy is not kept (as it can't be represented) - Mesh instances in the glTF file (i.e. same mesh linked from multiple nodes) - are turned into separate raylib Meshes. + are turned into separate raylib Meshes RESTRICTIONS: - Only triangle meshes supported @@ -5307,15 +5358,15 @@ static Model LoadGLTF(const char *fileName) // Load our model data: meshes and materials model.meshCount = primitivesCount; - model.meshes = RL_CALLOC(model.meshCount, sizeof(Mesh)); + model.meshes = (Mesh *)RL_CALLOC(model.meshCount, sizeof(Mesh)); // NOTE: We keep an extra slot for default material, in case some mesh requires it model.materialCount = (int)data->materials_count + 1; - model.materials = RL_CALLOC(model.materialCount, sizeof(Material)); + model.materials = (Material *)RL_CALLOC(model.materialCount, sizeof(Material)); model.materials[0] = LoadMaterialDefault(); // Load default material (index: 0) // Load mesh-material indices, by default all meshes are mapped to material index: 0 - model.meshMaterial = RL_CALLOC(model.meshCount, sizeof(int)); + model.meshMaterial = (int *)RL_CALLOC(model.meshCount, sizeof(int)); // Load materials data //---------------------------------------------------------------------------------------------------- @@ -5372,7 +5423,7 @@ static Model LoadGLTF(const char *fileName) ((unsigned char *)imMetallic.data)[y*imMetallic.width + x] = color.b; // Metallic color channel } } - + model.materials[j].maps[MATERIAL_MAP_ROUGHNESS].texture = LoadTextureFromImage(imRoughness); model.materials[j].maps[MATERIAL_MAP_METALNESS].texture = LoadTextureFromImage(imMetallic); @@ -5440,7 +5491,7 @@ static Model LoadGLTF(const char *fileName) // Any glTF mesh linked from more than one Node (i.e. instancing) // is turned into multiple Mesh's, as each Node will have its own // transform applied. - // Note: the code below disregards the scenes defined in the file, all nodes are used. + // NOTE: The code below disregards the scenes defined in the file, all nodes are used. //---------------------------------------------------------------------------------------------------- int meshIndex = 0; for (unsigned int i = 0; i < data->nodes_count; i++) @@ -5485,7 +5536,7 @@ static Model LoadGLTF(const char *fileName) { // Init raylib mesh vertices to copy glTF attribute data model.meshes[meshIndex].vertexCount = (int)attribute->count; - model.meshes[meshIndex].vertices = RL_MALLOC(attribute->count*3*sizeof(float)); + model.meshes[meshIndex].vertices = (float *)RL_MALLOC(attribute->count*3*sizeof(float)); // Load 3 components of float data type into mesh.vertices LOAD_ATTRIBUTE(attribute, 3, float, model.meshes[meshIndex].vertices) @@ -5509,7 +5560,7 @@ static Model LoadGLTF(const char *fileName) if ((attribute->type == cgltf_type_vec3) && (attribute->component_type == cgltf_component_type_r_32f)) { // Init raylib mesh normals to copy glTF attribute data - model.meshes[meshIndex].normals = RL_MALLOC(attribute->count*3*sizeof(float)); + model.meshes[meshIndex].normals = (float *)RL_MALLOC(attribute->count*3*sizeof(float)); // Load 3 components of float data type into mesh.normals LOAD_ATTRIBUTE(attribute, 3, float, model.meshes[meshIndex].normals) @@ -5526,14 +5577,14 @@ static Model LoadGLTF(const char *fileName) } else TRACELOG(LOG_WARNING, "MODEL: [%s] Normal attribute data format not supported, use vec3 float", fileName); } - else if (mesh->primitives[p].attributes[j].type == cgltf_attribute_type_tangent) // TANGENT, vec3, float + else if (mesh->primitives[p].attributes[j].type == cgltf_attribute_type_tangent) // TANGENT, vec4, float, w is tangent basis sign { cgltf_accessor *attribute = mesh->primitives[p].attributes[j].data; if ((attribute->type == cgltf_type_vec4) && (attribute->component_type == cgltf_component_type_r_32f)) { // Init raylib mesh tangent to copy glTF attribute data - model.meshes[meshIndex].tangents = RL_MALLOC(attribute->count*4*sizeof(float)); + model.meshes[meshIndex].tangents = (float *)RL_MALLOC(attribute->count*4*sizeof(float)); // Load 4 components of float data type into mesh.tangents LOAD_ATTRIBUTE(attribute, 4, float, model.meshes[meshIndex].tangents) @@ -5542,10 +5593,10 @@ static Model LoadGLTF(const char *fileName) float *tangents = model.meshes[meshIndex].tangents; for (unsigned int k = 0; k < attribute->count; k++) { - Vector3 tt = Vector3Transform((Vector3){ tangents[3*k], tangents[3*k+1], tangents[3*k+2] }, worldMatrix); - tangents[3*k] = tt.x; - tangents[3*k+1] = tt.y; - tangents[3*k+2] = tt.z; + Vector3 tt = Vector3Transform((Vector3){ tangents[4*k], tangents[4*k+1], tangents[4*k+2] }, worldMatrix); + tangents[4*k] = tt.x; + tangents[4*k+1] = tt.y; + tangents[4*k+2] = tt.z; } } else TRACELOG(LOG_WARNING, "MODEL: [%s] Tangent attribute data format not supported, use vec4 float", fileName); @@ -5619,10 +5670,10 @@ static Model LoadGLTF(const char *fileName) if (attribute->component_type == cgltf_component_type_r_8u) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - unsigned char *temp = RL_MALLOC(attribute->count*3*sizeof(unsigned char)); + unsigned char *temp = (unsigned char *)RL_MALLOC(attribute->count*3*sizeof(unsigned char)); LOAD_ATTRIBUTE(attribute, 3, unsigned char, temp); // Convert data to raylib color data type (4 bytes) @@ -5639,10 +5690,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_16u) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - unsigned short *temp = RL_MALLOC(attribute->count*3*sizeof(unsigned short)); + unsigned short *temp = (unsigned short *)RL_MALLOC(attribute->count*3*sizeof(unsigned short)); LOAD_ATTRIBUTE(attribute, 3, unsigned short, temp); // Convert data to raylib color data type (4 bytes) @@ -5659,10 +5710,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_32f) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - float *temp = RL_MALLOC(attribute->count*3*sizeof(float)); + float *temp = (float *)RL_MALLOC(attribute->count*3*sizeof(float)); LOAD_ATTRIBUTE(attribute, 3, float, temp); // Convert data to raylib color data type (4 bytes) @@ -5683,7 +5734,7 @@ static Model LoadGLTF(const char *fileName) if (attribute->component_type == cgltf_component_type_r_8u) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load 4 components of unsigned char data type into mesh.colors LOAD_ATTRIBUTE(attribute, 4, unsigned char, model.meshes[meshIndex].colors) @@ -5691,10 +5742,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_16u) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - unsigned short *temp = RL_MALLOC(attribute->count*4*sizeof(unsigned short)); + unsigned short *temp = (unsigned short *)RL_MALLOC(attribute->count*4*sizeof(unsigned short)); LOAD_ATTRIBUTE(attribute, 4, unsigned short, temp); // Convert data to raylib color data type (4 bytes) @@ -5705,10 +5756,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_32f) { // Init raylib mesh color to copy glTF attribute data - model.meshes[meshIndex].colors = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + model.meshes[meshIndex].colors = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - float *temp = RL_MALLOC(attribute->count*4*sizeof(float)); + float *temp = (float *)RL_MALLOC(attribute->count*4*sizeof(float)); LOAD_ATTRIBUTE(attribute, 4, float, temp); // Convert data to raylib color data type (4 bytes), we expect the color data normalized @@ -5734,7 +5785,7 @@ static Model LoadGLTF(const char *fileName) if (attribute->component_type == cgltf_component_type_r_16u) { // Init raylib mesh indices to copy glTF attribute data - model.meshes[meshIndex].indices = RL_MALLOC(attribute->count*sizeof(unsigned short)); + model.meshes[meshIndex].indices = (unsigned short *)RL_MALLOC(attribute->count*sizeof(unsigned short)); // Load unsigned short data type into mesh.indices LOAD_ATTRIBUTE(attribute, 1, unsigned short, model.meshes[meshIndex].indices) @@ -5742,14 +5793,14 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_8u) { // Init raylib mesh indices to copy glTF attribute data - model.meshes[meshIndex].indices = RL_MALLOC(attribute->count*sizeof(unsigned short)); + model.meshes[meshIndex].indices = (unsigned short *)RL_MALLOC(attribute->count*sizeof(unsigned short)); LOAD_ATTRIBUTE_CAST(attribute, 1, unsigned char, model.meshes[meshIndex].indices, unsigned short) } else if (attribute->component_type == cgltf_component_type_r_32u) { // Init raylib mesh indices to copy glTF attribute data - model.meshes[meshIndex].indices = RL_MALLOC(attribute->count*sizeof(unsigned short)); + model.meshes[meshIndex].indices = (unsigned short *)RL_MALLOC(attribute->count*sizeof(unsigned short)); LOAD_ATTRIBUTE_CAST(attribute, 1, unsigned int, model.meshes[meshIndex].indices, unsigned short); TRACELOG(LOG_WARNING, "MODEL: [%s] Indices data converted from u32 to u16, possible loss of data", fileName); @@ -5793,7 +5844,7 @@ static Model LoadGLTF(const char *fileName) { cgltf_skin skin = data->skins[0]; model.bones = LoadBoneInfoGLTF(skin, &model.boneCount); - model.bindPose = RL_MALLOC(model.boneCount*sizeof(Transform)); + model.bindPose = (Transform *)RL_MALLOC(model.boneCount*sizeof(Transform)); for (int i = 0; i < model.boneCount; i++) { @@ -5825,15 +5876,17 @@ static Model LoadGLTF(const char *fileName) for (unsigned int p = 0; p < mesh->primitives_count; p++) { + bool hasJoints = false; + // NOTE: We only support primitives defined by triangles if (mesh->primitives[p].type != cgltf_primitive_type_triangles) continue; for (unsigned int j = 0; j < mesh->primitives[p].attributes_count; j++) { // NOTE: JOINTS_1 + WEIGHT_1 will be used for +4 joints influencing a vertex -> Not supported by raylib - if (mesh->primitives[p].attributes[j].type == cgltf_attribute_type_joints) // JOINTS_n (vec4: 4 bones max per vertex / u8, u16) { + hasJoints = true; cgltf_accessor *attribute = mesh->primitives[p].attributes[j].data; // NOTE: JOINTS_n can only be vec4 and u8/u16 @@ -5848,7 +5901,7 @@ static Model LoadGLTF(const char *fileName) if (attribute->component_type == cgltf_component_type_r_8u) { // Init raylib mesh boneIds to copy glTF attribute data - model.meshes[meshIndex].boneIds = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned char)); + model.meshes[meshIndex].boneIds = (unsigned char *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned char)); // Load attribute: vec4, u8 (unsigned char) LOAD_ATTRIBUTE(attribute, 4, unsigned char, model.meshes[meshIndex].boneIds) @@ -5856,10 +5909,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_16u) { // Init raylib mesh boneIds to copy glTF attribute data - model.meshes[meshIndex].boneIds = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned char)); + model.meshes[meshIndex].boneIds = (unsigned char *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned char)); // Load data into a temp buffer to be converted to raylib data type - unsigned short *temp = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned short)); + unsigned short *temp = (unsigned short *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned short)); LOAD_ATTRIBUTE(attribute, 4, unsigned short, temp); // Convert data to raylib color data type (4 bytes) @@ -5888,14 +5941,13 @@ static Model LoadGLTF(const char *fileName) if (attribute->type == cgltf_type_vec4) { - // TODO: Support component types: u8, u16? if (attribute->component_type == cgltf_component_type_r_8u) { // Init raylib mesh bone weight to copy glTF attribute data - model.meshes[meshIndex].boneWeights = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); + model.meshes[meshIndex].boneWeights = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); // Load data into a temp buffer to be converted to raylib data type - unsigned char *temp = RL_MALLOC(attribute->count*4*sizeof(unsigned char)); + unsigned char *temp = (unsigned char *)RL_MALLOC(attribute->count*4*sizeof(unsigned char)); LOAD_ATTRIBUTE(attribute, 4, unsigned char, temp); // Convert data to raylib bone weight data type (4 bytes) @@ -5906,10 +5958,10 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_16u) { // Init raylib mesh bone weight to copy glTF attribute data - model.meshes[meshIndex].boneWeights = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); + model.meshes[meshIndex].boneWeights = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); // Load data into a temp buffer to be converted to raylib data type - unsigned short *temp = RL_MALLOC(attribute->count*4*sizeof(unsigned short)); + unsigned short *temp = (unsigned short *)RL_MALLOC(attribute->count*4*sizeof(unsigned short)); LOAD_ATTRIBUTE(attribute, 4, unsigned short, temp); // Convert data to raylib bone weight data type @@ -5920,10 +5972,11 @@ static Model LoadGLTF(const char *fileName) else if (attribute->component_type == cgltf_component_type_r_32f) { // Init raylib mesh bone weight to copy glTF attribute data - model.meshes[meshIndex].boneWeights = RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); + model.meshes[meshIndex].boneWeights = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); // Load 4 components of float data type into mesh.boneWeights // for cgltf_attribute_type_weights we have: + // - data.meshes[0] (256 vertices) // - 256 values, provided as cgltf_type_vec4 of float (4 byte per joint, stride 16) LOAD_ATTRIBUTE(attribute, 4, float, model.meshes[meshIndex].boneWeights) @@ -5934,10 +5987,37 @@ static Model LoadGLTF(const char *fileName) } } + // Check if we are animated, and the mesh was not given any bone assignments, but is the child of a bone node + // in this case we need to fully attach all the verts to the parent bone so it will animate with the bone + if (data->skins_count > 0 && !hasJoints && node->parent != NULL && node->parent->mesh == NULL) + { + int parentBoneId = -1; + for (int joint = 0; joint < model.boneCount; joint++) + { + if (data->skins[0].joints[joint] == node->parent) + { + parentBoneId = joint; + break; + } + } + + if (parentBoneId >= 0) + { + model.meshes[meshIndex].boneIds = (unsigned char *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(unsigned char)); + model.meshes[meshIndex].boneWeights = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*4, sizeof(float)); + + for (int vertexIndex = 0; vertexIndex < model.meshes[meshIndex].vertexCount*4; vertexIndex += 4) + { + model.meshes[meshIndex].boneIds[vertexIndex] = (unsigned char)parentBoneId; + model.meshes[meshIndex].boneWeights[vertexIndex] = 1.0f; + } + } + } + // Animated vertex data - model.meshes[meshIndex].animVertices = RL_CALLOC(model.meshes[meshIndex].vertexCount*3, sizeof(float)); + model.meshes[meshIndex].animVertices = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*3, sizeof(float)); memcpy(model.meshes[meshIndex].animVertices, model.meshes[meshIndex].vertices, model.meshes[meshIndex].vertexCount*3*sizeof(float)); - model.meshes[meshIndex].animNormals = RL_CALLOC(model.meshes[meshIndex].vertexCount*3, sizeof(float)); + model.meshes[meshIndex].animNormals = (float *)RL_CALLOC(model.meshes[meshIndex].vertexCount*3, sizeof(float)); if (model.meshes[meshIndex].normals != NULL) { memcpy(model.meshes[meshIndex].animNormals, model.meshes[meshIndex].normals, model.meshes[meshIndex].vertexCount*3*sizeof(float)); @@ -5945,16 +6025,15 @@ static Model LoadGLTF(const char *fileName) // Bone Transform Matrices model.meshes[meshIndex].boneCount = model.boneCount; - model.meshes[meshIndex].boneMatrices = RL_CALLOC(model.meshes[meshIndex].boneCount, sizeof(Matrix)); + model.meshes[meshIndex].boneMatrices = (Matrix *)RL_CALLOC(model.meshes[meshIndex].boneCount, sizeof(Matrix)); for (int j = 0; j < model.meshes[meshIndex].boneCount; j++) { model.meshes[meshIndex].boneMatrices[j] = MatrixIdentity(); } - meshIndex++; // Move to next mesh + meshIndex++; // Move to next mesh } - } // Free all cgltf loaded data @@ -6136,7 +6215,7 @@ static ModelAnimation *LoadModelAnimationsGLTF(const char *fileName, int *animCo { cgltf_skin skin = data->skins[0]; *animCount = (int)data->animations_count; - animations = RL_MALLOC(data->animations_count*sizeof(ModelAnimation)); + animations = (ModelAnimation *)RL_CALLOC(data->animations_count, sizeof(ModelAnimation)); for (unsigned int i = 0; i < data->animations_count; i++) { @@ -6151,7 +6230,7 @@ static ModelAnimation *LoadModelAnimationsGLTF(const char *fileName, int *animCo cgltf_interpolation_type interpolationType; }; - struct Channels *boneChannels = RL_CALLOC(animations[i].boneCount, sizeof(struct Channels)); + struct Channels *boneChannels = (struct Channels *)RL_CALLOC(animations[i].boneCount, sizeof(struct Channels)); float animDuration = 0.0f; for (unsigned int j = 0; j < animData.channels_count; j++) @@ -6209,18 +6288,14 @@ static ModelAnimation *LoadModelAnimationsGLTF(const char *fileName, int *animCo animDuration = (t > animDuration)? t : animDuration; } - if (animData.name != NULL) - { - strncpy(animations[i].name, animData.name, sizeof(animations[i].name)); - animations[i].name[sizeof(animations[i].name) - 1] = '\0'; - } + if (animData.name != NULL) strncpy(animations[i].name, animData.name, sizeof(animations[i].name) - 1); animations[i].frameCount = (int)(animDuration*1000.0f/GLTF_ANIMDELAY) + 1; - animations[i].framePoses = RL_MALLOC(animations[i].frameCount*sizeof(Transform *)); + animations[i].framePoses = (Transform **)RL_MALLOC(animations[i].frameCount*sizeof(Transform *)); for (int j = 0; j < animations[i].frameCount; j++) { - animations[i].framePoses[j] = RL_MALLOC(animations[i].boneCount*sizeof(Transform)); + animations[i].framePoses[j] = (Transform *)RL_MALLOC(animations[i].boneCount*sizeof(Transform)); float time = ((float) j*GLTF_ANIMDELAY)/1000.0f; for (int k = 0; k < animations[i].boneCount; k++) @@ -6370,7 +6445,7 @@ static Model LoadVOX(const char *fileName) // Copy colors size = pmesh->vertexCount*sizeof(Color); - pmesh->colors = RL_MALLOC(size); + pmesh->colors = (unsigned char *)RL_MALLOC(size); memcpy(pmesh->colors, pcolors, size); // First material index @@ -6506,7 +6581,7 @@ static Model LoadM3D(const char *fileName) // If no map is provided, or we have colors defined, we allocate storage for vertex colors // M3D specs only consider vertex colors if no material is provided, however raylib uses both and mixes the colors - if ((mi == M3D_UNDEF) || vcolor) model.meshes[k].colors = RL_CALLOC(model.meshes[k].vertexCount*4, sizeof(unsigned char)); + if ((mi == M3D_UNDEF) || vcolor) model.meshes[k].colors = (unsigned char *)RL_CALLOC(model.meshes[k].vertexCount*4, sizeof(unsigned char)); // If no map is provided and we allocated vertex colors, set them to white if ((mi == M3D_UNDEF) && (model.meshes[k].colors != NULL)) @@ -6540,11 +6615,11 @@ static Model LoadM3D(const char *fileName) // Without vertex color (full transparency), we use the default color if (model.meshes[k].colors != NULL) { - if (m3d->vertex[m3d->face[i].vertex[0]].color & 0xFF000000) + if (m3d->vertex[m3d->face[i].vertex[0]].color & 0xff000000) memcpy(&model.meshes[k].colors[l*12 + 0], &m3d->vertex[m3d->face[i].vertex[0]].color, 4); - if (m3d->vertex[m3d->face[i].vertex[1]].color & 0xFF000000) + if (m3d->vertex[m3d->face[i].vertex[1]].color & 0xff000000) memcpy(&model.meshes[k].colors[l*12 + 4], &m3d->vertex[m3d->face[i].vertex[1]].color, 4); - if (m3d->vertex[m3d->face[i].vertex[2]].color & 0xFF000000) + if (m3d->vertex[m3d->face[i].vertex[2]].color & 0xff000000) memcpy(&model.meshes[k].colors[l*12 + 8], &m3d->vertex[m3d->face[i].vertex[2]].color, 4); } @@ -6673,13 +6748,13 @@ static Model LoadM3D(const char *fileName) if (m3d->numbone) { model.boneCount = m3d->numbone + 1; - model.bones = RL_CALLOC(model.boneCount, sizeof(BoneInfo)); - model.bindPose = RL_CALLOC(model.boneCount, sizeof(Transform)); + model.bones = (BoneInfo *)RL_CALLOC(model.boneCount, sizeof(BoneInfo)); + model.bindPose = (Transform *)RL_CALLOC(model.boneCount, sizeof(Transform)); for (i = 0; i < (int)m3d->numbone; i++) { model.bones[i].parent = m3d->bone[i].parent; - strncpy(model.bones[i].name, m3d->bone[i].name, sizeof(model.bones[i].name)); + strncpy(model.bones[i].name, m3d->bone[i].name, sizeof(model.bones[i].name) - 1); model.bindPose[i].translation.x = m3d->vertex[m3d->bone[i].pos].x*m3d->scale; model.bindPose[i].translation.y = m3d->vertex[m3d->bone[i].pos].y*m3d->scale; model.bindPose[i].translation.z = m3d->vertex[m3d->bone[i].pos].z*m3d->scale; @@ -6725,7 +6800,7 @@ static Model LoadM3D(const char *fileName) memcpy(model.meshes[i].animNormals, model.meshes[i].normals, model.meshes[i].vertexCount*3*sizeof(float)); model.meshes[i].boneCount = model.boneCount; - model.meshes[i].boneMatrices = RL_CALLOC(model.meshes[i].boneCount, sizeof(Matrix)); + model.meshes[i].boneMatrices = (Matrix *)RL_CALLOC(model.meshes[i].boneCount, sizeof(Matrix)); for (j = 0; j < model.meshes[i].boneCount; j++) { model.meshes[i].boneMatrices[j] = MatrixIdentity(); @@ -6775,24 +6850,23 @@ static ModelAnimation *LoadModelAnimationsM3D(const char *fileName, int *animCou return NULL; } - animations = RL_MALLOC(m3d->numaction*sizeof(ModelAnimation)); + animations = (ModelAnimation *)RL_CALLOC(m3d->numaction, sizeof(ModelAnimation)); *animCount = m3d->numaction; for (unsigned int a = 0; a < m3d->numaction; a++) { animations[a].frameCount = m3d->action[a].durationmsec/M3D_ANIMDELAY; animations[a].boneCount = m3d->numbone + 1; - animations[a].bones = RL_MALLOC((m3d->numbone + 1)*sizeof(BoneInfo)); - animations[a].framePoses = RL_MALLOC(animations[a].frameCount*sizeof(Transform *)); - strncpy(animations[a].name, m3d->action[a].name, sizeof(animations[a].name)); - animations[a].name[sizeof(animations[a].name) - 1] = '\0'; + animations[a].bones = (BoneInfo *)RL_MALLOC((m3d->numbone + 1)*sizeof(BoneInfo)); + animations[a].framePoses = (Transform **)RL_MALLOC(animations[a].frameCount*sizeof(Transform *)); + strncpy(animations[a].name, m3d->action[a].name, sizeof(animations[a].name) - 1); TRACELOG(LOG_INFO, "MODEL: [%s] animation #%i: %i msec, %i frames", fileName, a, m3d->action[a].durationmsec, animations[a].frameCount); for (i = 0; i < (int)m3d->numbone; i++) { animations[a].bones[i].parent = m3d->bone[i].parent; - strncpy(animations[a].bones[i].name, m3d->bone[i].name, sizeof(animations[a].bones[i].name)); + strncpy(animations[a].bones[i].name, m3d->bone[i].name, sizeof(animations[a].bones[i].name) - 1); } // A special, never transformed "no bone" bone, used for boneless vertices @@ -6803,7 +6877,7 @@ static ModelAnimation *LoadModelAnimationsM3D(const char *fileName, int *animCou // regular intervals, so let the M3D SDK do the heavy lifting and calculate interpolated bones for (i = 0; i < animations[a].frameCount; i++) { - animations[a].framePoses[i] = RL_MALLOC((m3d->numbone + 1)*sizeof(Transform)); + animations[a].framePoses[i] = (Transform *)RL_MALLOC((m3d->numbone + 1)*sizeof(Transform)); m3db_t *pose = m3d_pose(m3d, a, i*M3D_ANIMDELAY); diff --git a/src/rshapes.c b/src/rshapes.c index 9327a5543..be28e6cad 100644 --- a/src/rshapes.c +++ b/src/rshapes.c @@ -285,6 +285,7 @@ void DrawCircleV(Vector2 center, float radius, Color color) // Draw a piece of a circle void DrawCircleSector(Vector2 center, float radius, float startAngle, float endAngle, int segments, Color color) { + if (startAngle == endAngle) return; if (radius <= 0.0f) radius = 0.1f; // Avoid div by zero // Function expects (endAngle > startAngle) @@ -376,6 +377,7 @@ void DrawCircleSector(Vector2 center, float radius, float startAngle, float endA // Draw a piece of a circle outlines void DrawCircleSectorLines(Vector2 center, float radius, float startAngle, float endAngle, int segments, Color color) { + if (startAngle == endAngle) return; if (radius <= 0.0f) radius = 0.1f; // Avoid div by zero issue // Function expects (endAngle > startAngle) @@ -468,27 +470,39 @@ void DrawCircleLinesV(Vector2 center, float radius, Color color) // Draw ellipse void DrawEllipse(int centerX, int centerY, float radiusH, float radiusV, Color color) +{ + DrawEllipseV((Vector2){ (float)centerX, (float)centerY }, radiusH, radiusV, color); +} + +// Draw ellipse (Vector version) +void DrawEllipseV(Vector2 center, float radiusH, float radiusV, Color color) { rlBegin(RL_TRIANGLES); for (int i = 0; i < 360; i += 10) { rlColor4ub(color.r, color.g, color.b, color.a); - rlVertex2f((float)centerX, (float)centerY); - rlVertex2f((float)centerX + cosf(DEG2RAD*(i + 10))*radiusH, (float)centerY + sinf(DEG2RAD*(i + 10))*radiusV); - rlVertex2f((float)centerX + cosf(DEG2RAD*i)*radiusH, (float)centerY + sinf(DEG2RAD*i)*radiusV); + rlVertex2f(center.x, center.y); + rlVertex2f(center.x + cosf(DEG2RAD*(i + 10))*radiusH, center.y + sinf(DEG2RAD*(i + 10))*radiusV); + rlVertex2f(center.x + cosf(DEG2RAD*i)*radiusH, center.y + sinf(DEG2RAD*i)*radiusV); } rlEnd(); } // Draw ellipse outline void DrawEllipseLines(int centerX, int centerY, float radiusH, float radiusV, Color color) +{ + DrawEllipseLinesV((Vector2){ (float)centerX, (float)centerY }, radiusH, radiusV, color); +} + +// Draw ellipse outline +void DrawEllipseLinesV(Vector2 center, float radiusH, float radiusV, Color color) { rlBegin(RL_LINES); for (int i = 0; i < 360; i += 10) { rlColor4ub(color.r, color.g, color.b, color.a); - rlVertex2f(centerX + cosf(DEG2RAD*(i + 10))*radiusH, centerY + sinf(DEG2RAD*(i + 10))*radiusV); - rlVertex2f(centerX + cosf(DEG2RAD*i)*radiusH, centerY + sinf(DEG2RAD*i)*radiusV); + rlVertex2f(center.x + cosf(DEG2RAD*(i + 10))*radiusH, center.y + sinf(DEG2RAD*(i + 10))*radiusV); + rlVertex2f(center.x + cosf(DEG2RAD*i)*radiusH, center.y + sinf(DEG2RAD*i)*radiusV); } rlEnd(); } @@ -772,7 +786,7 @@ void DrawRectangleGradientH(int posX, int posY, int width, int height, Color lef } // Draw a gradient-filled rectangle -void DrawRectangleGradientEx(Rectangle rec, Color topLeft, Color bottomLeft, Color topRight, Color bottomRight) +void DrawRectangleGradientEx(Rectangle rec, Color topLeft, Color bottomLeft, Color bottomRight, Color topRight) { rlSetTexture(GetShapesTexture().id); Rectangle shapeRect = GetShapesTextureRectangle(); @@ -789,11 +803,11 @@ void DrawRectangleGradientEx(Rectangle rec, Color topLeft, Color bottomLeft, Col rlTexCoord2f(shapeRect.x/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); rlVertex2f(rec.x, rec.y + rec.height); - rlColor4ub(topRight.r, topRight.g, topRight.b, topRight.a); + rlColor4ub(bottomRight.r, bottomRight.g, bottomRight.b, bottomRight.a); rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, (shapeRect.y + shapeRect.height)/texShapes.height); rlVertex2f(rec.x + rec.width, rec.y + rec.height); - rlColor4ub(bottomRight.r, bottomRight.g, bottomRight.b, bottomRight.a); + rlColor4ub(topRight.r, topRight.g, topRight.b, topRight.a); rlTexCoord2f((shapeRect.x + shapeRect.width)/texShapes.width, shapeRect.y/texShapes.height); rlVertex2f(rec.x + rec.width, rec.y); rlEnd(); @@ -2237,7 +2251,7 @@ bool CheckCollisionPointTriangle(Vector2 point, Vector2 p1, Vector2 p2, Vector2 // NOTE: Based on http://jeffreythompson.org/collision-detection/poly-point.php bool CheckCollisionPointPoly(Vector2 point, const Vector2 *points, int pointCount) { - bool inside = false; + bool collision = false; if (pointCount > 2) { @@ -2246,12 +2260,12 @@ bool CheckCollisionPointPoly(Vector2 point, const Vector2 *points, int pointCoun if ((points[i].y > point.y) != (points[j].y > point.y) && (point.x < (points[j].x - points[i].x)*(point.y - points[i].y)/(points[j].y - points[i].y) + points[i].x)) { - inside = !inside; + collision = !collision; } } } - return inside; + return collision; } // Check collision between two rectangles diff --git a/src/rtext.c b/src/rtext.c index 0d06caa9a..d7818d2db 100644 --- a/src/rtext.c +++ b/src/rtext.c @@ -161,6 +161,10 @@ extern void LoadFontDefault(void) { #define BIT_CHECK(a,b) ((a) & (1u << (b))) + // check to see if we have allready allocated the font for an image, and if we don't need to upload, then just return + if (defaultFont.glyphs != NULL && !isGpuReady) + return; + // NOTE: Using UTF-8 encoding table for Unicode U+0000..U+00FF Basic Latin + Latin-1 Supplement // Ref: http://www.utf8-chartable.de/unicode-utf8-table.pl @@ -249,7 +253,7 @@ extern void LoadFontDefault(void) } else { - ((unsigned char *)imFont.data)[(i + j)*sizeof(short)] = 0xFF; + ((unsigned char *)imFont.data)[(i + j)*sizeof(short)] = 0xff; ((unsigned char *)imFont.data)[(i + j)*sizeof(short) + 1] = 0x00; } } @@ -257,7 +261,18 @@ extern void LoadFontDefault(void) counter++; } - if (isGpuReady) defaultFont.texture = LoadTextureFromImage(imFont); + if (isGpuReady) + { + defaultFont.texture = LoadTextureFromImage(imFont); + + // we have already loaded the font glyph data an image, and the GPU is ready, we are done + // if we don't do this, we will leak memory by reallocating the glyphs and rects + if (defaultFont.glyphs != NULL) + { + UnloadImage(imFont); + return; + } + } // Reconstruct charSet using charsWidth[], charsHeight, charsDivisor, glyphCount //------------------------------------------------------------------------------ @@ -282,7 +297,7 @@ extern void LoadFontDefault(void) testPosX += (int)(defaultFont.recs[i].width + (float)charsDivisor); - if (testPosX >= defaultFont.texture.width) + if (testPosX >= imFont.width) { currentLine++; currentPosX = 2*charsDivisor + charsWidth[i]; @@ -316,6 +331,9 @@ extern void UnloadFontDefault(void) if (isGpuReady) UnloadTexture(defaultFont.texture); RL_FREE(defaultFont.glyphs); RL_FREE(defaultFont.recs); + defaultFont.glyphCount = 0; + defaultFont.glyphs = NULL; + defaultFont.recs = NULL; } #endif // SUPPORT_DEFAULT_FONT @@ -1075,7 +1093,7 @@ bool ExportFontAsCode(Font font, const char *fileName) byteCount += sprintf(txtData + byteCount, " Image imFont = { fontImageData_%s, %i, %i, 1, %i };\n\n", styleName, image.width, image.height, image.format); #endif byteCount += sprintf(txtData + byteCount, " // Load texture from image\n"); - byteCount += sprintf(txtData + byteCount, " if (isGpuReady) font.texture = LoadTextureFromImage(imFont);\n"); + byteCount += sprintf(txtData + byteCount, " font.texture = LoadTextureFromImage(imFont);\n"); #if defined(SUPPORT_COMPRESSED_FONT_ATLAS) byteCount += sprintf(txtData + byteCount, " UnloadImage(imFont); // Uncompressed data can be unloaded from memory\n\n"); #endif @@ -1560,7 +1578,7 @@ const char *TextSubtext(const char *text, int position, int length) } // Replace text string -// REQUIRES: strlen(), strstr(), strncpy(), strcpy() +// REQUIRES: strstr(), strncpy(), strcpy() // WARNING: Allocated memory must be manually freed char *TextReplace(const char *text, const char *replace, const char *by) { diff --git a/src/rtextures.c b/src/rtextures.c index 337d01b1d..87aa900a3 100644 --- a/src/rtextures.c +++ b/src/rtextures.c @@ -832,10 +832,11 @@ Image GenImageGradientLinear(int width, int height, int direction, Color start, // Calculate how far the top-left pixel is along the gradient direction from the center of said gradient float startingPos = 0.5f - (cosDir*width/2) - (sinDir*height/2); + // With directions that lie in the first or third quadrant (i.e. from top-left to // bottom-right or vice-versa), pixel (0, 0) is the farthest point on the gradient // (i.e. the pixel which should become one of the gradient's ends color); while for - // directions that lie in the second or fourth quadrant, that point is pixel (width, 0). + // directions that lie in the second or fourth quadrant, that point is pixel (width, 0) float maxPosValue = ((signbit(sinDir) != 0) == (signbit(cosDir) != 0))? fabsf(startingPos) : fabsf(startingPos + width*cosDir); for (int i = 0; i < width; i++) { @@ -2101,8 +2102,8 @@ void ImageBlurGaussian(Image *image, int blurSize) Color *pixels = LoadImageColors(*image); // Loop switches between pixelsCopy1 and pixelsCopy2 - Vector4 *pixelsCopy1 = RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); - Vector4 *pixelsCopy2 = RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); + Vector4 *pixelsCopy1 = (Vector4 *)RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); + Vector4 *pixelsCopy2 = (Vector4 *)RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); for (int i = 0; i < (image->height*image->width); i++) { @@ -2250,8 +2251,8 @@ void ImageKernelConvolution(Image *image, const float *kernel, int kernelSize) Color *pixels = LoadImageColors(*image); - Vector4 *imageCopy2 = RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); - Vector4 *temp = RL_MALLOC(kernelSize*sizeof(Vector4)); + Vector4 *imageCopy2 = (Vector4 *)RL_MALLOC((image->height)*(image->width)*sizeof(Vector4)); + Vector4 *temp = (Vector4 *)RL_MALLOC(kernelSize*sizeof(Vector4)); for (int i = 0; i < kernelSize; i++) { @@ -3835,7 +3836,7 @@ void ImageDrawTriangleEx(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Color c // Calculate the inverse of the sum of the barycentric coordinates for normalization // NOTE 1: Here, we act as if we multiply by 255 the reciprocal, which avoids additional - // calculations in the loop. This is acceptable because we are only interpolating colors. + // calculations in the loop. This is acceptable because we are only interpolating colors // NOTE 2: This sum remains constant throughout the triangle float wInvSum = 255.0f/(w1Row + w2Row + w3Row); @@ -3890,7 +3891,7 @@ void ImageDrawTriangleLines(Image *dst, Vector2 v1, Vector2 v2, Vector2 v3, Colo } // Draw a triangle fan defined by points within an image (first vertex is the center) -void ImageDrawTriangleFan(Image *dst, Vector2 *points, int pointCount, Color color) +void ImageDrawTriangleFan(Image *dst, const Vector2 *points, int pointCount, Color color) { if (pointCount >= 3) { @@ -3902,7 +3903,7 @@ void ImageDrawTriangleFan(Image *dst, Vector2 *points, int pointCount, Color col } // Draw a triangle strip defined by points within an image -void ImageDrawTriangleStrip(Image *dst, Vector2 *points, int pointCount, Color color) +void ImageDrawTriangleStrip(Image *dst, const Vector2 *points, int pointCount, Color color) { if (pointCount >= 3) { @@ -5150,10 +5151,10 @@ Color GetColor(unsigned int hexValue) { Color color; - color.r = (unsigned char)(hexValue >> 24) & 0xFF; - color.g = (unsigned char)(hexValue >> 16) & 0xFF; - color.b = (unsigned char)(hexValue >> 8) & 0xFF; - color.a = (unsigned char)hexValue & 0xFF; + color.r = (unsigned char)(hexValue >> 24) & 0xff; + color.g = (unsigned char)(hexValue >> 16) & 0xff; + color.b = (unsigned char)(hexValue >> 8) & 0xff; + color.a = (unsigned char)hexValue & 0xff; return color; } @@ -5393,17 +5394,16 @@ static float HalfToFloat(unsigned short x) { float result = 0.0f; - union - { + union { float fm; unsigned int ui; } uni; - const unsigned int e = (x & 0x7C00) >> 10; // Exponent - const unsigned int m = (x & 0x03FF) << 13; // Mantissa + const unsigned int e = (x & 0x7c00) >> 10; // Exponent + const unsigned int m = (x & 0x03cc) << 13; // Mantissa uni.fm = (float)m; const unsigned int v = uni.ui >> 23; // Evil log2 bit hack to count leading zeros in denormalized format - uni.ui = (x & 0x8000) << 16 | (e != 0)*((e + 112) << 23 | m) | ((e == 0)&(m != 0))*((v - 37) << 23 | ((m << (150 - v)) & 0x007FE000)); // sign : normalized : denormalized + uni.ui = (x & 0x8000) << 16 | (e != 0)*((e + 112) << 23 | m) | ((e == 0)&(m != 0))*((v - 37) << 23 | ((m << (150 - v)) & 0x007fe000)); // sign : normalized : denormalized result = uni.fm; @@ -5415,18 +5415,17 @@ static unsigned short FloatToHalf(float x) { unsigned short result = 0; - union - { + union { float fm; unsigned int ui; } uni; uni.fm = x; const unsigned int b = uni.ui + 0x00001000; // Round-to-nearest-even: add last bit after truncated mantissa - const unsigned int e = (b & 0x7F800000) >> 23; // Exponent - const unsigned int m = b & 0x007FFFFF; // Mantissa; in line below: 0x007FF000 = 0x00800000-0x00001000 = decimal indicator flag - initial rounding + const unsigned int e = (b & 0x7f800000) >> 23; // Exponent + const unsigned int m = b & 0x007fffff; // Mantissa; in line below: 0x007ff000 = 0x00800000-0x00001000 = decimal indicator flag - initial rounding - result = (b & 0x80000000) >> 16 | (e > 112)*((((e - 112) << 10) & 0x7C00) | m >> 13) | ((e < 113) & (e > 101))*((((0x007FF000 + m) >> (125 - e)) + 1) >> 1) | (e > 143)*0x7FFF; // sign : normalized : denormalized : saturate + result = (b & 0x80000000) >> 16 | (e > 112)*((((e - 112) << 10) & 0x7c00) | m >> 13) | ((e < 113) & (e > 101))*((((0x007ff000 + m) >> (125 - e)) + 1) >> 1) | (e > 143)*0x7fff; // sign : normalized : denormalized : saturate return result; } diff --git a/src/utils.c b/src/utils.c index 5c189845b..26e7a1bab 100644 --- a/src/utils.c +++ b/src/utils.c @@ -405,7 +405,7 @@ void UnloadFileText(char *text) } // Save text data to file (write), string must be '\0' terminated -bool SaveFileText(const char *fileName, char *text) +bool SaveFileText(const char *fileName, const char *text) { bool success = false;