From c178f7199d7070c5481c5f0f3077f8dcbfa90226 Mon Sep 17 00:00:00 2001 From: Slendi Date: Thu, 15 Feb 2024 15:51:28 +0200 Subject: [PATCH] Get Odin to compile on Haiku This patch makes Odin to compile on Haiku which is a good first step. Now, all that's needed to do is to figure out how to do futexes, which I am blaming for the program crashing. --- build_odin.sh | 5 + src/gb/gb.h | 49 ++- src/path.cpp | 922 +++++++++++++++++++++++----------------------- src/threading.cpp | 47 ++- 4 files changed, 559 insertions(+), 464 deletions(-) diff --git a/build_odin.sh b/build_odin.sh index 589aeb550..0d7750ffa 100755 --- a/build_odin.sh +++ b/build_odin.sh @@ -83,6 +83,11 @@ OpenBSD) LDFLAGS="$LDFLAGS -liconv" LDFLAGS="$LDFLAGS $($LLVM_CONFIG --libs core native --system-libs)" ;; +Haiku) + CXXFLAGS="$CXXFLAGS $($LLVM_CONFIG --cxxflags --ldflags) -I/system/develop/headers/private/shared -I/system/develop/headers/private/kernel" + LDFLAGS="$LDFLAGS -liconv" + LDFLAGS="$LDFLAGS $($LLVM_CONFIG --libs core native --system-libs)" + ;; *) error "Platform \"$OS_NAME\" unsupported" ;; diff --git a/src/gb/gb.h b/src/gb/gb.h index 93d250f21..702647121 100644 --- a/src/gb/gb.h +++ b/src/gb/gb.h @@ -83,6 +83,10 @@ extern "C" { #ifndef GB_SYSTEM_OPENBSD #define GB_SYSTEM_OPENBSD 1 #endif + #elif defined(__HAIKU__) || defined(__haiku__) + #ifndef GB_SYSTEM_HAIKU + #define GB_SYSTEM_HAIKU 1 + #endif #else #error This UNIX operating system is not supported #endif @@ -206,7 +210,7 @@ extern "C" { #endif #include // NOTE(bill): malloc on linux #include - #if !defined(GB_SYSTEM_OSX) && !defined(__FreeBSD__) && !defined(__OpenBSD__) + #if !defined(GB_SYSTEM_OSX) && !defined(__FreeBSD__) && !defined(__OpenBSD__) && !defined(__HAIKU__) #include #endif #include @@ -247,6 +251,13 @@ extern "C" { #include #define lseek64 lseek #endif + +#if defined(GB_SYSTEM_HAIKU) + #include + #include + #include + #define lseek64 lseek +#endif #if defined(GB_SYSTEM_UNIX) #include @@ -801,6 +812,13 @@ typedef struct gbAffinity { isize thread_count; isize threads_per_core; } gbAffinity; +#elif defined(GB_SYSTEM_HAIKU) +typedef struct gbAffinity { + b32 is_accurate; + isize core_count; + isize thread_count; + isize threads_per_core; +} gbAffinity; #else #error TODO(bill): Unknown system #endif @@ -2984,6 +3002,8 @@ gb_inline u32 gb_thread_current_id(void) { __asm__("mov %%fs:0x10,%0" : "=r"(thread_id)); #elif defined(GB_SYSTEM_LINUX) thread_id = gettid(); +#elif defined(GB_SYSTEM_HAIKU) + thread_id = find_thread(NULL); #else #error Unsupported architecture for gb_thread_current_id() #endif @@ -3184,7 +3204,9 @@ b32 gb_affinity_set(gbAffinity *a, isize core, isize thread_index) { //info.affinity_tag = cast(integer_t)index; //result = thread_policy_set(thread, THREAD_AFFINITY_POLICY, cast(thread_policy_t)&info, THREAD_AFFINITY_POLICY_COUNT); +#if !defined(GB_SYSTEM_HAIKU) result = pthread_setaffinity_np(thread, sizeof(cpuset_t), &mn); +#endif return result == 0; } @@ -3236,6 +3258,29 @@ b32 gb_affinity_set(gbAffinity *a, isize core, isize thread_index) { return true; } +isize gb_affinity_thread_count_for_core(gbAffinity *a, isize core) { + GB_ASSERT(0 <= core && core < a->core_count); + return a->threads_per_core; +} +#elif defined(GB_SYSTEM_HAIKU) +#include + +void gb_affinity_init(gbAffinity *a) { + a->core_count = sysconf(_SC_NPROCESSORS_ONLN); + a->threads_per_core = 1; + a->is_accurate = a->core_count > 0; + a->core_count = a->is_accurate ? a->core_count : 1; + a->thread_count = a->core_count; +} + +void gb_affinity_destroy(gbAffinity *a) { + gb_unused(a); +} + +b32 gb_affinity_set(gbAffinity *a, isize core, isize thread_index) { + return true; +} + isize gb_affinity_thread_count_for_core(gbAffinity *a, isize core) { GB_ASSERT(0 <= core && core < a->core_count); return a->threads_per_core; @@ -5457,7 +5502,7 @@ gb_inline b32 gb_file_copy(char const *existing_filename, char const *new_filena } } - gb_free(buf); + gb_mfree(buf); close(new_fd); close(existing_fd); diff --git a/src/path.cpp b/src/path.cpp index de80c9def..742bba7f8 100644 --- a/src/path.cpp +++ b/src/path.cpp @@ -1,461 +1,461 @@ -/* - Path handling utilities. -*/ -#if !defined(GB_SYSTEM_WINDOWS) -#include -#endif - -gb_internal String remove_extension_from_path(String const &s) { - if (s.len != 0 && s.text[s.len-1] == '.') { - return s; - } - for (isize i = s.len-1; i >= 0; i--) { - if (s[i] == '.') { - return substring(s, 0, i); - } - } - return s; -} - -gb_internal String remove_directory_from_path(String const &s) { - isize len = 0; - for (isize i = s.len-1; i >= 0; i--) { - if (s[i] == '/' || - s[i] == '\\') { - break; - } - len += 1; - } - return substring(s, s.len-len, s.len); -} - - -// NOTE(Mark Naughton): getcwd as String -#if !defined(GB_SYSTEM_WINDOWS) -gb_internal String get_current_directory(void) { - char cwd[256]; - getcwd(cwd, 256); - - return make_string_c(cwd); -} - -#else -gb_internal String get_current_directory(void) { - gbAllocator a = heap_allocator(); - - wchar_t cwd[256]; - GetCurrentDirectoryW(256, cwd); - - String16 wstr = make_string16_c(cwd); - - return string16_to_string(a, wstr); -} -#endif - -gb_internal bool path_is_directory(String path); - -gb_internal String directory_from_path(String const &s) { - if (path_is_directory(s)) { - return s; - } - - isize i = s.len-1; - for (; i >= 0; i--) { - if (s[i] == '/' || - s[i] == '\\') { - break; - } - } - if (i >= 0) { - return substring(s, 0, i); - } - return substring(s, 0, 0); -} - -#if defined(GB_SYSTEM_WINDOWS) - gb_internal bool path_is_directory(String path) { - gbAllocator a = heap_allocator(); - String16 wstr = string_to_string16(a, path); - defer (gb_free(a, wstr.text)); - - i32 attribs = GetFileAttributesW(wstr.text); - if (attribs < 0) return false; - - return (attribs & FILE_ATTRIBUTE_DIRECTORY) != 0; - } - -#else - gb_internal bool path_is_directory(String path) { - gbAllocator a = heap_allocator(); - char *copy = cast(char *)copy_string(a, path).text; - defer (gb_free(a, copy)); - - struct stat s; - if (stat(copy, &s) == 0) { - return (s.st_mode & S_IFDIR) != 0; - } - return false; - } -#endif - - -gb_internal String path_to_full_path(gbAllocator a, String path) { - gbAllocator ha = heap_allocator(); - char *path_c = gb_alloc_str_len(ha, cast(char *)path.text, path.len); - defer (gb_free(ha, path_c)); - - char *fullpath = gb_path_get_full_name(a, path_c); - String res = string_trim_whitespace(make_string_c(fullpath)); -#if defined(GB_SYSTEM_WINDOWS) - for (isize i = 0; i < res.len; i++) { - if (res.text[i] == '\\') { - res.text[i] = '/'; - } - } -#endif - return copy_string(a, res); -} - -struct Path { - String basename; - String name; - String ext; -}; - -// NOTE(Jeroen): Naively turns a Path into a string. -gb_internal String path_to_string(gbAllocator a, Path path) { - if (path.basename.len + path.name.len + path.ext.len == 0) { - return make_string(nullptr, 0); - } - - isize len = path.basename.len + 1 + path.name.len + 1; - if (path.ext.len > 0) { - len += path.ext.len + 1; - } - - u8 *str = gb_alloc_array(a, u8, len); - - isize i = 0; - gb_memmove(str+i, path.basename.text, path.basename.len); i += path.basename.len; - - gb_memmove(str+i, "/", 1); i += 1; - - gb_memmove(str+i, path.name.text, path.name.len); i += path.name.len; - if (path.ext.len > 0) { - gb_memmove(str+i, ".", 1); i += 1; - gb_memmove(str+i, path.ext.text, path.ext.len); i += path.ext.len; - } - str[i] = 0; - - String res = make_string(str, i); - res = string_trim_whitespace(res); - return res; -} - -// NOTE(Jeroen): Naively turns a Path into a string, then normalizes it using `path_to_full_path`. -gb_internal String path_to_full_path(gbAllocator a, Path path) { - String temp = path_to_string(heap_allocator(), path); - defer (gb_free(heap_allocator(), temp.text)); - - return path_to_full_path(a, temp); -} - -// NOTE(Jeroen): Takes a path like "odin" or "W:\Odin", turns it into a full path, -// and then breaks it into its components to make a Path. -gb_internal Path path_from_string(gbAllocator a, String const &path) { - Path res = {}; - - if (path.len == 0) return res; - - String fullpath = path_to_full_path(a, path); - defer (gb_free(heap_allocator(), fullpath.text)); - - res.basename = directory_from_path(fullpath); - res.basename = copy_string(a, res.basename); - - if (path_is_directory(fullpath)) { - // It's a directory. We don't need to tinker with the name and extension. - // It could have a superfluous trailing `/`. Remove it if so. - if (res.basename.len > 0 && res.basename.text[res.basename.len - 1] == '/') { - res.basename.len--; - } - return res; - } - - // Note(Dragos): Is the copy_string required if it's a substring? - isize name_start = (res.basename.len > 0) ? res.basename.len + 1 : res.basename.len; - res.name = substring(fullpath, name_start, fullpath.len); - res.name = remove_extension_from_path(res.name); - res.name = copy_string(a, res.name); - - res.ext = path_extension(fullpath, false); // false says not to include the dot. - res.ext = copy_string(a, res.ext); - return res; -} - -// NOTE(Jeroen): Takes a path String and returns the last path element. -gb_internal String last_path_element(String const &path) { - isize count = 0; - u8 * start = (u8 *)(&path.text[path.len - 1]); - for (isize length = path.len; length > 0 && path.text[length - 1] != '/'; length--) { - count++; - start--; - } - if (count > 0) { - start++; // Advance past the `/` and return the substring. - String res = make_string(start, count); - return res; - } - // Must be a root path like `/` or `C:/`, return empty String. - return STR_LIT(""); -} - -gb_internal bool path_is_directory(Path path) { - String path_string = path_to_full_path(heap_allocator(), path); - defer (gb_free(heap_allocator(), path_string.text)); - - return path_is_directory(path_string); -} - -struct FileInfo { - String name; - String fullpath; - i64 size; - bool is_dir; -}; - -enum ReadDirectoryError { - ReadDirectory_None, - - ReadDirectory_InvalidPath, - ReadDirectory_NotExists, - ReadDirectory_Permission, - ReadDirectory_NotDir, - ReadDirectory_Empty, - ReadDirectory_Unknown, - - ReadDirectory_COUNT, -}; - -gb_internal i64 get_file_size(String path) { - char *c_str = alloc_cstring(heap_allocator(), path); - defer (gb_free(heap_allocator(), c_str)); - - gbFile f = {}; - gbFileError err = gb_file_open(&f, c_str); - defer (gb_file_close(&f)); - if (err != gbFileError_None) { - return -1; - } - return gb_file_size(&f); -} - - -#if defined(GB_SYSTEM_WINDOWS) -gb_internal ReadDirectoryError read_directory(String path, Array *fi) { - GB_ASSERT(fi != nullptr); - - - while (path.len > 0) { - Rune end = path[path.len-1]; - if (end == '/') { - path.len -= 1; - } else if (end == '\\') { - path.len -= 1; - } else { - break; - } - } - - if (path.len == 0) { - return ReadDirectory_InvalidPath; - } - { - char *c_str = alloc_cstring(temporary_allocator(), path); - gbFile f = {}; - gbFileError file_err = gb_file_open(&f, c_str); - defer (gb_file_close(&f)); - - switch (file_err) { - case gbFileError_Invalid: return ReadDirectory_InvalidPath; - case gbFileError_NotExists: return ReadDirectory_NotExists; - // case gbFileError_Permission: return ReadDirectory_Permission; - } - } - - if (!path_is_directory(path)) { - return ReadDirectory_NotDir; - } - - - gbAllocator a = heap_allocator(); - char *new_path = gb_alloc_array(a, char, path.len+3); - defer (gb_free(a, new_path)); - - gb_memmove(new_path, path.text, path.len); - gb_memmove(new_path+path.len, "/*", 2); - new_path[path.len+2] = 0; - - String np = make_string(cast(u8 *)new_path, path.len+2); - String16 wstr = string_to_string16(a, np); - defer (gb_free(a, wstr.text)); - - WIN32_FIND_DATAW file_data = {}; - HANDLE find_file = FindFirstFileW(wstr.text, &file_data); - if (find_file == INVALID_HANDLE_VALUE) { - return ReadDirectory_Unknown; - } - defer (FindClose(find_file)); - - array_init(fi, a, 0, 100); - - do { - wchar_t *filename_w = file_data.cFileName; - u64 size = cast(u64)file_data.nFileSizeLow; - size |= (cast(u64)file_data.nFileSizeHigh) << 32; - String name = string16_to_string(a, make_string16_c(filename_w)); - if (name == "." || name == "..") { - gb_free(a, name.text); - continue; - } - - String filepath = {}; - filepath.len = path.len+1+name.len; - filepath.text = gb_alloc_array(a, u8, filepath.len+1); - defer (gb_free(a, filepath.text)); - gb_memmove(filepath.text, path.text, path.len); - gb_memmove(filepath.text+path.len, "/", 1); - gb_memmove(filepath.text+path.len+1, name.text, name.len); - - FileInfo info = {}; - info.name = name; - info.fullpath = path_to_full_path(a, filepath); - info.size = cast(i64)size; - info.is_dir = (file_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0; - array_add(fi, info); - } while (FindNextFileW(find_file, &file_data)); - - if (fi->count == 0) { - return ReadDirectory_Empty; - } - - return ReadDirectory_None; -} -#elif defined(GB_SYSTEM_LINUX) || defined(GB_SYSTEM_OSX) || defined(GB_SYSTEM_FREEBSD) || defined(GB_SYSTEM_OPENBSD) - -#include - -gb_internal ReadDirectoryError read_directory(String path, Array *fi) { - GB_ASSERT(fi != nullptr); - - gbAllocator a = heap_allocator(); - - char *c_path = alloc_cstring(a, path); - defer (gb_free(a, c_path)); - - DIR *dir = opendir(c_path); - if (!dir) { - switch (errno) { - case ENOENT: - return ReadDirectory_NotExists; - case EACCES: - return ReadDirectory_Permission; - case ENOTDIR: - return ReadDirectory_NotDir; - default: - // ENOMEM: out of memory - // EMFILE: per-process limit on open fds reached - // ENFILE: system-wide limit on total open files reached - return ReadDirectory_Unknown; - } - GB_PANIC("unreachable"); - } - - array_init(fi, a, 0, 100); - - for (;;) { - struct dirent *entry = readdir(dir); - if (entry == nullptr) { - break; - } - - String name = make_string_c(entry->d_name); - if (name == "." || name == "..") { - continue; - } - - String filepath = {}; - filepath.len = path.len+1+name.len; - filepath.text = gb_alloc_array(a, u8, filepath.len+1); - defer (gb_free(a, filepath.text)); - gb_memmove(filepath.text, path.text, path.len); - gb_memmove(filepath.text+path.len, "/", 1); - gb_memmove(filepath.text+path.len+1, name.text, name.len); - filepath.text[filepath.len] = 0; - - - struct stat dir_stat = {}; - - if (stat((char *)filepath.text, &dir_stat)) { - continue; - } - - if (S_ISDIR(dir_stat.st_mode)) { - continue; - } - - i64 size = dir_stat.st_size; - - FileInfo info = {}; - info.name = name; - info.fullpath = path_to_full_path(a, filepath); - info.size = size; - array_add(fi, info); - } - - if (fi->count == 0) { - return ReadDirectory_Empty; - } - - return ReadDirectory_None; -} - - -#else -#error Implement read_directory -#endif - -#if !defined(GB_SYSTEM_WINDOWS) -gb_internal bool write_directory(String path) { - char const *pathname = (char *) path.text; - - if (access(pathname, W_OK) < 0) { - return false; - } - - return true; -} -#else -gb_internal bool write_directory(String path) { - String16 wstr = string_to_string16(heap_allocator(), path); - LPCWSTR wdirectory_name = wstr.text; - - HANDLE directory = CreateFileW(wdirectory_name, - GENERIC_WRITE, - 0, - NULL, - OPEN_EXISTING, - FILE_FLAG_BACKUP_SEMANTICS, - NULL); - - if (directory == INVALID_HANDLE_VALUE) { - DWORD error_code = GetLastError(); - if (error_code == ERROR_ACCESS_DENIED) { - return false; - } - } - - CloseHandle(directory); - return true; -} -#endif +/* + Path handling utilities. +*/ +#if !defined(GB_SYSTEM_WINDOWS) +#include +#endif + +gb_internal String remove_extension_from_path(String const &s) { + if (s.len != 0 && s.text[s.len-1] == '.') { + return s; + } + for (isize i = s.len-1; i >= 0; i--) { + if (s[i] == '.') { + return substring(s, 0, i); + } + } + return s; +} + +gb_internal String remove_directory_from_path(String const &s) { + isize len = 0; + for (isize i = s.len-1; i >= 0; i--) { + if (s[i] == '/' || + s[i] == '\\') { + break; + } + len += 1; + } + return substring(s, s.len-len, s.len); +} + + +// NOTE(Mark Naughton): getcwd as String +#if !defined(GB_SYSTEM_WINDOWS) +gb_internal String get_current_directory(void) { + char cwd[256]; + getcwd(cwd, 256); + + return make_string_c(cwd); +} + +#else +gb_internal String get_current_directory(void) { + gbAllocator a = heap_allocator(); + + wchar_t cwd[256]; + GetCurrentDirectoryW(256, cwd); + + String16 wstr = make_string16_c(cwd); + + return string16_to_string(a, wstr); +} +#endif + +gb_internal bool path_is_directory(String path); + +gb_internal String directory_from_path(String const &s) { + if (path_is_directory(s)) { + return s; + } + + isize i = s.len-1; + for (; i >= 0; i--) { + if (s[i] == '/' || + s[i] == '\\') { + break; + } + } + if (i >= 0) { + return substring(s, 0, i); + } + return substring(s, 0, 0); +} + +#if defined(GB_SYSTEM_WINDOWS) + gb_internal bool path_is_directory(String path) { + gbAllocator a = heap_allocator(); + String16 wstr = string_to_string16(a, path); + defer (gb_free(a, wstr.text)); + + i32 attribs = GetFileAttributesW(wstr.text); + if (attribs < 0) return false; + + return (attribs & FILE_ATTRIBUTE_DIRECTORY) != 0; + } + +#else + gb_internal bool path_is_directory(String path) { + gbAllocator a = heap_allocator(); + char *copy = cast(char *)copy_string(a, path).text; + defer (gb_free(a, copy)); + + struct stat s; + if (stat(copy, &s) == 0) { + return (s.st_mode & S_IFDIR) != 0; + } + return false; + } +#endif + + +gb_internal String path_to_full_path(gbAllocator a, String path) { + gbAllocator ha = heap_allocator(); + char *path_c = gb_alloc_str_len(ha, cast(char *)path.text, path.len); + defer (gb_free(ha, path_c)); + + char *fullpath = gb_path_get_full_name(a, path_c); + String res = string_trim_whitespace(make_string_c(fullpath)); +#if defined(GB_SYSTEM_WINDOWS) + for (isize i = 0; i < res.len; i++) { + if (res.text[i] == '\\') { + res.text[i] = '/'; + } + } +#endif + return copy_string(a, res); +} + +struct Path { + String basename; + String name; + String ext; +}; + +// NOTE(Jeroen): Naively turns a Path into a string. +gb_internal String path_to_string(gbAllocator a, Path path) { + if (path.basename.len + path.name.len + path.ext.len == 0) { + return make_string(nullptr, 0); + } + + isize len = path.basename.len + 1 + path.name.len + 1; + if (path.ext.len > 0) { + len += path.ext.len + 1; + } + + u8 *str = gb_alloc_array(a, u8, len); + + isize i = 0; + gb_memmove(str+i, path.basename.text, path.basename.len); i += path.basename.len; + + gb_memmove(str+i, "/", 1); i += 1; + + gb_memmove(str+i, path.name.text, path.name.len); i += path.name.len; + if (path.ext.len > 0) { + gb_memmove(str+i, ".", 1); i += 1; + gb_memmove(str+i, path.ext.text, path.ext.len); i += path.ext.len; + } + str[i] = 0; + + String res = make_string(str, i); + res = string_trim_whitespace(res); + return res; +} + +// NOTE(Jeroen): Naively turns a Path into a string, then normalizes it using `path_to_full_path`. +gb_internal String path_to_full_path(gbAllocator a, Path path) { + String temp = path_to_string(heap_allocator(), path); + defer (gb_free(heap_allocator(), temp.text)); + + return path_to_full_path(a, temp); +} + +// NOTE(Jeroen): Takes a path like "odin" or "W:\Odin", turns it into a full path, +// and then breaks it into its components to make a Path. +gb_internal Path path_from_string(gbAllocator a, String const &path) { + Path res = {}; + + if (path.len == 0) return res; + + String fullpath = path_to_full_path(a, path); + defer (gb_free(heap_allocator(), fullpath.text)); + + res.basename = directory_from_path(fullpath); + res.basename = copy_string(a, res.basename); + + if (path_is_directory(fullpath)) { + // It's a directory. We don't need to tinker with the name and extension. + // It could have a superfluous trailing `/`. Remove it if so. + if (res.basename.len > 0 && res.basename.text[res.basename.len - 1] == '/') { + res.basename.len--; + } + return res; + } + + // Note(Dragos): Is the copy_string required if it's a substring? + isize name_start = (res.basename.len > 0) ? res.basename.len + 1 : res.basename.len; + res.name = substring(fullpath, name_start, fullpath.len); + res.name = remove_extension_from_path(res.name); + res.name = copy_string(a, res.name); + + res.ext = path_extension(fullpath, false); // false says not to include the dot. + res.ext = copy_string(a, res.ext); + return res; +} + +// NOTE(Jeroen): Takes a path String and returns the last path element. +gb_internal String last_path_element(String const &path) { + isize count = 0; + u8 * start = (u8 *)(&path.text[path.len - 1]); + for (isize length = path.len; length > 0 && path.text[length - 1] != '/'; length--) { + count++; + start--; + } + if (count > 0) { + start++; // Advance past the `/` and return the substring. + String res = make_string(start, count); + return res; + } + // Must be a root path like `/` or `C:/`, return empty String. + return STR_LIT(""); +} + +gb_internal bool path_is_directory(Path path) { + String path_string = path_to_full_path(heap_allocator(), path); + defer (gb_free(heap_allocator(), path_string.text)); + + return path_is_directory(path_string); +} + +struct FileInfo { + String name; + String fullpath; + i64 size; + bool is_dir; +}; + +enum ReadDirectoryError { + ReadDirectory_None, + + ReadDirectory_InvalidPath, + ReadDirectory_NotExists, + ReadDirectory_Permission, + ReadDirectory_NotDir, + ReadDirectory_Empty, + ReadDirectory_Unknown, + + ReadDirectory_COUNT, +}; + +gb_internal i64 get_file_size(String path) { + char *c_str = alloc_cstring(heap_allocator(), path); + defer (gb_free(heap_allocator(), c_str)); + + gbFile f = {}; + gbFileError err = gb_file_open(&f, c_str); + defer (gb_file_close(&f)); + if (err != gbFileError_None) { + return -1; + } + return gb_file_size(&f); +} + + +#if defined(GB_SYSTEM_WINDOWS) +gb_internal ReadDirectoryError read_directory(String path, Array *fi) { + GB_ASSERT(fi != nullptr); + + + while (path.len > 0) { + Rune end = path[path.len-1]; + if (end == '/') { + path.len -= 1; + } else if (end == '\\') { + path.len -= 1; + } else { + break; + } + } + + if (path.len == 0) { + return ReadDirectory_InvalidPath; + } + { + char *c_str = alloc_cstring(temporary_allocator(), path); + gbFile f = {}; + gbFileError file_err = gb_file_open(&f, c_str); + defer (gb_file_close(&f)); + + switch (file_err) { + case gbFileError_Invalid: return ReadDirectory_InvalidPath; + case gbFileError_NotExists: return ReadDirectory_NotExists; + // case gbFileError_Permission: return ReadDirectory_Permission; + } + } + + if (!path_is_directory(path)) { + return ReadDirectory_NotDir; + } + + + gbAllocator a = heap_allocator(); + char *new_path = gb_alloc_array(a, char, path.len+3); + defer (gb_free(a, new_path)); + + gb_memmove(new_path, path.text, path.len); + gb_memmove(new_path+path.len, "/*", 2); + new_path[path.len+2] = 0; + + String np = make_string(cast(u8 *)new_path, path.len+2); + String16 wstr = string_to_string16(a, np); + defer (gb_free(a, wstr.text)); + + WIN32_FIND_DATAW file_data = {}; + HANDLE find_file = FindFirstFileW(wstr.text, &file_data); + if (find_file == INVALID_HANDLE_VALUE) { + return ReadDirectory_Unknown; + } + defer (FindClose(find_file)); + + array_init(fi, a, 0, 100); + + do { + wchar_t *filename_w = file_data.cFileName; + u64 size = cast(u64)file_data.nFileSizeLow; + size |= (cast(u64)file_data.nFileSizeHigh) << 32; + String name = string16_to_string(a, make_string16_c(filename_w)); + if (name == "." || name == "..") { + gb_free(a, name.text); + continue; + } + + String filepath = {}; + filepath.len = path.len+1+name.len; + filepath.text = gb_alloc_array(a, u8, filepath.len+1); + defer (gb_free(a, filepath.text)); + gb_memmove(filepath.text, path.text, path.len); + gb_memmove(filepath.text+path.len, "/", 1); + gb_memmove(filepath.text+path.len+1, name.text, name.len); + + FileInfo info = {}; + info.name = name; + info.fullpath = path_to_full_path(a, filepath); + info.size = cast(i64)size; + info.is_dir = (file_data.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) != 0; + array_add(fi, info); + } while (FindNextFileW(find_file, &file_data)); + + if (fi->count == 0) { + return ReadDirectory_Empty; + } + + return ReadDirectory_None; +} +#elif defined(GB_SYSTEM_LINUX) || defined(GB_SYSTEM_OSX) || defined(GB_SYSTEM_FREEBSD) || defined(GB_SYSTEM_OPENBSD) || defined(GB_SYSTEM_HAIKU) + +#include + +gb_internal ReadDirectoryError read_directory(String path, Array *fi) { + GB_ASSERT(fi != nullptr); + + gbAllocator a = heap_allocator(); + + char *c_path = alloc_cstring(a, path); + defer (gb_free(a, c_path)); + + DIR *dir = opendir(c_path); + if (!dir) { + switch (errno) { + case ENOENT: + return ReadDirectory_NotExists; + case EACCES: + return ReadDirectory_Permission; + case ENOTDIR: + return ReadDirectory_NotDir; + default: + // ENOMEM: out of memory + // EMFILE: per-process limit on open fds reached + // ENFILE: system-wide limit on total open files reached + return ReadDirectory_Unknown; + } + GB_PANIC("unreachable"); + } + + array_init(fi, a, 0, 100); + + for (;;) { + struct dirent *entry = readdir(dir); + if (entry == nullptr) { + break; + } + + String name = make_string_c(entry->d_name); + if (name == "." || name == "..") { + continue; + } + + String filepath = {}; + filepath.len = path.len+1+name.len; + filepath.text = gb_alloc_array(a, u8, filepath.len+1); + defer (gb_free(a, filepath.text)); + gb_memmove(filepath.text, path.text, path.len); + gb_memmove(filepath.text+path.len, "/", 1); + gb_memmove(filepath.text+path.len+1, name.text, name.len); + filepath.text[filepath.len] = 0; + + + struct stat dir_stat = {}; + + if (stat((char *)filepath.text, &dir_stat)) { + continue; + } + + if (S_ISDIR(dir_stat.st_mode)) { + continue; + } + + i64 size = dir_stat.st_size; + + FileInfo info = {}; + info.name = name; + info.fullpath = path_to_full_path(a, filepath); + info.size = size; + array_add(fi, info); + } + + if (fi->count == 0) { + return ReadDirectory_Empty; + } + + return ReadDirectory_None; +} + + +#else +#error Implement read_directory +#endif + +#if !defined(GB_SYSTEM_WINDOWS) +gb_internal bool write_directory(String path) { + char const *pathname = (char *) path.text; + + if (access(pathname, W_OK) < 0) { + return false; + } + + return true; +} +#else +gb_internal bool write_directory(String path) { + String16 wstr = string_to_string16(heap_allocator(), path); + LPCWSTR wdirectory_name = wstr.text; + + HANDLE directory = CreateFileW(wdirectory_name, + GENERIC_WRITE, + 0, + NULL, + OPEN_EXISTING, + FILE_FLAG_BACKUP_SEMANTICS, + NULL); + + if (directory == INVALID_HANDLE_VALUE) { + DWORD error_code = GetLastError(); + if (error_code == ERROR_ACCESS_DENIED) { + return false; + } + } + + CloseHandle(directory); + return true; +} +#endif diff --git a/src/threading.cpp b/src/threading.cpp index 725b58c89..ea987890b 100644 --- a/src/threading.cpp +++ b/src/threading.cpp @@ -831,8 +831,53 @@ gb_internal void futex_wait(Futex *f, Footex val) { WaitOnAddress(f, (void *)&val, sizeof(val), INFINITE); } while (f->load() == val); } +#elif defined(GB_SYSTEM_HAIKU) + +#include +#include +#include + +struct MutexCond { + pthread_mutex_t mutex; + pthread_cond_t cond; +}; + +std::unordered_map> futex_map; + +MutexCond* get_mutex_cond(Futex* f) { + if (futex_map.find(f) == futex_map.end()) { + futex_map[f] = std::make_unique(); + pthread_mutex_init(&futex_map[f]->mutex, NULL); + pthread_cond_init(&futex_map[f]->cond, NULL); + } + return futex_map[f].get(); +} + +void futex_signal(Futex *f) { + MutexCond* mc = get_mutex_cond(f); + pthread_mutex_lock(&mc->mutex); + pthread_cond_signal(&mc->cond); + pthread_mutex_unlock(&mc->mutex); +} + +void futex_broadcast(Futex *f) { + MutexCond* mc = get_mutex_cond(f); + pthread_mutex_lock(&mc->mutex); + pthread_cond_broadcast(&mc->cond); + pthread_mutex_unlock(&mc->mutex); +} + +void futex_wait(Futex *f, Footex val) { + MutexCond* mc = get_mutex_cond(f); + pthread_mutex_lock(&mc->mutex); + while (f->load() == val) { + pthread_cond_wait(&mc->cond, &mc->mutex); + } + pthread_mutex_unlock(&mc->mutex); +} + #endif #if defined(GB_SYSTEM_WINDOWS) #pragma warning(pop) -#endif \ No newline at end of file +#endif