From a3de9c8de4e539905a85f3cc060f95529b402f18 Mon Sep 17 00:00:00 2001 From: Harold Brenes Date: Sat, 19 Apr 2025 08:04:23 -0400 Subject: [PATCH] Add initial support for Objective-C class implementation --- base/intrinsics/intrinsics.odin | 5 +- base/runtime/procs_darwin.odin | 25 +- src/check_builtin.cpp | 77 ++++- src/check_decl.cpp | 73 ++++ src/checker.cpp | 77 ++++- src/checker.hpp | 17 +- src/checker_builtin_procs.hpp | 2 + src/entity.cpp | 3 + src/llvm_backend.cpp | 581 ++++++++++++++++++++++++++++++-- src/llvm_backend.hpp | 3 + src/llvm_backend_general.cpp | 2 + src/llvm_backend_proc.cpp | 1 + src/llvm_backend_utility.cpp | 74 +++- src/types.cpp | 2 + 14 files changed, 895 insertions(+), 47 deletions(-) diff --git a/base/intrinsics/intrinsics.odin b/base/intrinsics/intrinsics.odin index bec452007..515e8d48a 100644 --- a/base/intrinsics/intrinsics.odin +++ b/base/intrinsics/intrinsics.odin @@ -353,15 +353,18 @@ x86_xgetbv :: proc(cx: u32) -> (eax, edx: u32) --- objc_object :: struct{} objc_selector :: struct{} objc_class :: struct{} +objc_ivar :: struct{} + objc_id :: ^objc_object objc_SEL :: ^objc_selector objc_Class :: ^objc_class +objc_Ivar :: ^objc_ivar objc_find_selector :: proc($name: string) -> objc_SEL --- objc_register_selector :: proc($name: string) -> objc_SEL --- objc_find_class :: proc($name: string) -> objc_Class --- objc_register_class :: proc($name: string) -> objc_Class --- - +ivar_get :: proc(self: ^$T, $U: typeid) -> ^U --- valgrind_client_request :: proc(default: uintptr, request: uintptr, a0, a1, a2, a3, a4: uintptr) -> uintptr --- diff --git a/base/runtime/procs_darwin.odin b/base/runtime/procs_darwin.odin index c3fc46af1..0aec57e80 100644 --- a/base/runtime/procs_darwin.odin +++ b/base/runtime/procs_darwin.odin @@ -2,21 +2,34 @@ package runtime @(priority_index=-1e6) -foreign import "system:Foundation.framework" +foreign import ObjC "system:objc" import "base:intrinsics" -objc_id :: ^intrinsics.objc_object +objc_id :: ^intrinsics.objc_object objc_Class :: ^intrinsics.objc_class -objc_SEL :: ^intrinsics.objc_selector +objc_SEL :: ^intrinsics.objc_selector +objc_Ivar :: ^intrinsics.objc_ivar +objc_BOOL :: bool -foreign Foundation { - objc_lookUpClass :: proc "c" (name: cstring) -> objc_Class --- + +objc_IMP :: proc "c" (object: objc_id, sel: objc_SEL, #c_vararg args: ..any) -> objc_id + +foreign ObjC { sel_registerName :: proc "c" (name: cstring) -> objc_SEL --- - objc_allocateClassPair :: proc "c" (superclass: objc_Class, name: cstring, extraBytes: uint) -> objc_Class --- objc_msgSend :: proc "c" (self: objc_id, op: objc_SEL, #c_vararg args: ..any) --- objc_msgSend_fpret :: proc "c" (self: objc_id, op: objc_SEL, #c_vararg args: ..any) -> f64 --- objc_msgSend_fp2ret :: proc "c" (self: objc_id, op: objc_SEL, #c_vararg args: ..any) -> complex128 --- objc_msgSend_stret :: proc "c" (self: objc_id, op: objc_SEL, #c_vararg args: ..any) --- + + objc_lookUpClass :: proc "c" (name: cstring) -> objc_Class --- + objc_allocateClassPair :: proc "c" (superclass: objc_Class, name: cstring, extraBytes: uint) -> objc_Class --- + objc_registerClassPair :: proc "c" (cls : objc_Class) --- + class_addMethod :: proc "c" (cls: objc_Class, name: objc_SEL, imp: objc_IMP, types: cstring) -> objc_BOOL --- + class_addIvar :: proc "c" (cls: objc_Class, name: cstring, size: uint, alignment: u8, types: cstring) -> objc_BOOL --- + class_getInstanceVariable :: proc "c" (cls : objc_Class, name: cstring) -> objc_Ivar --- + class_getInstanceSize :: proc "c" (cls : objc_Class) -> uint --- + ivar_getOffset :: proc "c" (v: objc_Ivar) -> uintptr --- } + diff --git a/src/check_builtin.cpp b/src/check_builtin.cpp index f66a8605c..c44d1c123 100644 --- a/src/check_builtin.cpp +++ b/src/check_builtin.cpp @@ -387,6 +387,80 @@ gb_internal bool check_builtin_objc_procedure(CheckerContext *c, Operand *operan try_to_add_package_dependency(c, "runtime", "objc_allocateClassPair"); return true; } break; + + case BuiltinProc_objc_ivar_get: + { + Type *self_type = nullptr; + Type *ivar_type = nullptr; + + Operand self {}; + check_expr_or_type(c, &self, ce->args[0]); + + if (!is_operand_value(self) || !check_is_assignable_to(c, &self, t_objc_id)) { + gbString e = expr_to_string(self.expr); + gbString t = type_to_string(self.type); + error(self.expr, "'%.*s' expected a type or value derived from intrinsics.objc_object, got '%s' of type %s", LIT(builtin_name), e, t); + gb_string_free(t); + gb_string_free(e); + return false; + } + else if (!is_type_pointer(self.type)) { + gbString e = expr_to_string(self.expr); + gbString t = type_to_string(self.type); + error(self.expr, "'%.*s' expected a pointer of a value derived from intrinsics.objc_object, got '%s' of type %s", LIT(builtin_name), e, t); + gb_string_free(t); + gb_string_free(e); + return false; + } + + self_type = type_deref(self.type); + + if (!(self_type->kind == Type_Named && + self_type->Named.type_name != nullptr && + self_type->Named.type_name->TypeName.objc_class_name != "")) { + gbString t = type_to_string(self_type); + error(self.expr, "'%.*s' expected a named type with the attribute @(obj_class=) , got type %s", LIT(builtin_name), t); + gb_string_free(t); + return false; + } + + if (self_type->Named.type_name->TypeName.objc_ivar == nullptr) { + gbString t = type_to_string(self_type); + error(self.expr, "'%.*s' requires that type %s have the attribute @(obj_ivar=).", LIT(builtin_name), t); + gb_string_free(t); + return false; + } + + Operand ivar {}; + check_expr_or_type(c, &ivar, ce->args[1]); + if (ivar.mode == Addressing_Type) { + ivar_type = ivar.type; + } else { + return false; + } + + if (self_type->Named.type_name->TypeName.objc_ivar != ivar_type) { + gbString name_self = type_to_string(self_type); + gbString name_expected = type_to_string(self_type->Named.type_name->TypeName.objc_ivar); + gbString name_given = type_to_string(ivar_type); + error(self.expr, "'%.*s' ivar type %s does not match @obj_ivar type %s on Objective-C class %s.", + LIT(builtin_name), name_given, name_expected, name_self); + gb_string_free(name_self); + gb_string_free(name_expected); + gb_string_free(name_given); + return false; + } + + if (type_hint != nullptr && type_hint->kind == Type_Pointer && type_hint->Pointer.elem == ivar_type) { + operand->type = type_hint; + } else { + operand->type = alloc_type_pointer(ivar_type); + } + + operand->mode = Addressing_Value; + + return true; + } break; } } @@ -2132,7 +2206,8 @@ gb_internal bool check_builtin_procedure(CheckerContext *c, Operand *operand, As case BuiltinProc_objc_find_selector: case BuiltinProc_objc_find_class: case BuiltinProc_objc_register_selector: - case BuiltinProc_objc_register_class: + case BuiltinProc_objc_register_class: + case BuiltinProc_objc_ivar_get: return check_builtin_objc_procedure(c, operand, call, id, type_hint); case BuiltinProc___entry_point: diff --git a/src/check_decl.cpp b/src/check_decl.cpp index ba6445ea4..dffe0b48e 100644 --- a/src/check_decl.cpp +++ b/src/check_decl.cpp @@ -526,6 +526,54 @@ gb_internal void check_type_decl(CheckerContext *ctx, Entity *e, Ast *init_expr, check_decl_attributes(ctx, decl->attributes, type_decl_attribute, &ac); if (e->kind == Entity_TypeName && ac.objc_class != "") { e->TypeName.objc_class_name = ac.objc_class; + e->TypeName.objc_superclass = ac.objc_superclass; + e->TypeName.objc_ivar = ac.objc_ivar; + + if (ac.objc_is_implementation) { + e->TypeName.objc_is_implementation = true; + mpsc_enqueue(&ctx->info->objc_class_implementations, e); // TODO(harold): Don't need this for anything. Remove. + + GB_ASSERT(e->TypeName.objc_ivar == nullptr || e->TypeName.objc_ivar->kind == Type_Named); + + // Ensure superclass hierarchy are all Objective-C classes and does not cycle + Type *super = ac.objc_superclass; + if (super != nullptr) { + TypeSet super_set{}; + type_set_init(&super_set, 8); + defer (type_set_destroy(&super_set)); + + type_set_update(&super_set, e->type); + + for (;;) { + if (type_set_update(&super_set, super)) { + error(e->token, "@(objc_superclass) Superclass hierarchy cycle encountered"); + break; + } + + if (super->kind != Type_Named) { + error(e->token, "@(objc_superclass) References type must be a named struct."); + break; + } + + Type* named_type = base_type(super->Named.type_name->type); + if (!is_type_objc_object(named_type)) { + error(e->token, "@(objc_superclass) Superclass must be an Objective-C class."); + break; + } + + super = super->Named.type_name->TypeName.objc_superclass; + if (super == nullptr) { + break; + } + + // TODO(harold): Is this the right way to do this??? The referenced entity must be already resolved + // so that we can access its objc_superclass attribute + check_single_global_entity(ctx->checker, super->Named.type_name, super->Named.type_name->decl_info); + } + } + } else if (e->TypeName.objc_superclass != nullptr) { + error(e->token, "@(objc_superclass) can only be applied when the obj_implement attribute is also applied"); + } if (type_size_of(e->type) > 0) { error(e->token, "@(objc_class) marked type must be of zero size"); @@ -942,6 +990,31 @@ gb_internal void check_objc_methods(CheckerContext *ctx, Entity *e, AttributeCon if (tn->scope != e->scope) { error(e->token, "@(objc_name) attribute may only be applied to procedures and types within the same scope"); } else { + + if (ac.objc_is_implementation) { + GB_ASSERT(e->kind == Entity_Procedure); + + CheckerInfo *info = ctx->info; + mutex_lock(&info->objc_method_mutex); + defer (mutex_unlock(&info->objc_method_mutex)); + + auto method = ObjcMethodData{ ac, e }; + + if (ac.objc_selector == "") { + method.ac.objc_selector = ac.objc_name; + } + + Array* method_list = map_get(&info->objc_method_implementations, t); + if (method_list) { + array_add(method_list, method); + } else { + auto list = array_make(permanent_allocator(), 1, 8); + list[0] = method; + + map_set(&info->objc_method_implementations, t, list); + } + } + mutex_lock(&global_type_name_objc_metadata_mutex); defer (mutex_unlock(&global_type_name_objc_metadata_mutex)); diff --git a/src/checker.cpp b/src/checker.cpp index 5a5ec9706..29ef7d2b3 100644 --- a/src/checker.cpp +++ b/src/checker.cpp @@ -1351,10 +1351,12 @@ gb_internal void init_universal(void) { t_objc_object = add_global_type_name(intrinsics_pkg->scope, str_lit("objc_object"), alloc_type_struct_complete()); t_objc_selector = add_global_type_name(intrinsics_pkg->scope, str_lit("objc_selector"), alloc_type_struct_complete()); t_objc_class = add_global_type_name(intrinsics_pkg->scope, str_lit("objc_class"), alloc_type_struct_complete()); + t_objc_ivar = add_global_type_name(intrinsics_pkg->scope, str_lit("objc_ivar"), alloc_type_struct_complete()); t_objc_id = alloc_type_pointer(t_objc_object); t_objc_SEL = alloc_type_pointer(t_objc_selector); t_objc_Class = alloc_type_pointer(t_objc_class); + t_objc_Ivar = alloc_type_pointer(t_objc_ivar); } } @@ -1387,6 +1389,9 @@ gb_internal void init_checker_info(CheckerInfo *i) { array_init(&i->defineables, a); map_init(&i->objc_msgSend_types); + mpsc_init(&i->objc_class_implementations, a); + map_init(&i->objc_method_implementations); + string_map_init(&i->load_file_cache); array_init(&i->all_procedures, heap_allocator()); @@ -3345,6 +3350,11 @@ gb_internal DECL_ATTRIBUTE_PROC(proc_decl_attribute) { ac->test = true; return true; } else if (name == "export") { + if (ac->objc_is_implementation) { + error(value, "Setting @(export) explicitly is not allowed when @(objc_implement) is set. It is exported implicitly."); + return false; + } + ExactValue ev = check_decl_attribute_value(c, value); if (ev.kind == ExactValue_Invalid) { ac->is_export = true; @@ -3356,6 +3366,12 @@ gb_internal DECL_ATTRIBUTE_PROC(proc_decl_attribute) { } return true; } else if (name == "linkage") { + + if (ac->objc_is_implementation) { + error(value, "Explicit linkage not allowed when @(objc_implement) is set. It is set implicitly"); + return false; + } + ExactValue ev = check_decl_attribute_value(c, value); if (ev.kind != ExactValue_String) { error(value, "Expected either a string 'linkage'"); @@ -3662,6 +3678,35 @@ gb_internal DECL_ATTRIBUTE_PROC(proc_decl_attribute) { } } return true; + } else if (name == "objc_implement") { + ExactValue ev = check_decl_attribute_value(c, value); + if (ev.kind == ExactValue_Bool) { + ac->objc_is_implementation = ev.value_bool; + } else if (ev.kind == ExactValue_Invalid) { + ac->objc_is_implementation = true; + } else { + error(elem, "Expected a boolean value, or no value, for '%.*s'", LIT(name)); + } + + // This implies exported, strongly linked + if (ac->objc_is_implementation) { + ac->is_export = true; + ac->linkage = str_lit("strong"); + } + + return true; + } else if (name == "objc_selector") { + ExactValue ev = check_decl_attribute_value(c, value); + if (ev.kind == ExactValue_String) { + if (string_is_valid_identifier(ev.value_string)) { + ac->objc_selector = ev.value_string; + } else { + error(elem, "Invalid identifier for '%.*s', got '%.*s'", LIT(name), LIT(ev.value_string)); + } + } else { + error(elem, "Expected a string value for '%.*s'", LIT(name)); + } + return true; } else if (name == "require_target_feature") { ExactValue ev = check_decl_attribute_value(c, value); if (ev.kind == ExactValue_String) { @@ -3901,8 +3946,36 @@ gb_internal DECL_ATTRIBUTE_PROC(type_decl_attribute) { ac->objc_class = ev.value_string; } return true; - } - return false; + } else if (name == "objc_implement") { + ExactValue ev = check_decl_attribute_value(c, value); + if (ev.kind == ExactValue_Bool) { + ac->objc_is_implementation = ev.value_bool; + } else if (ev.kind == ExactValue_Invalid) { + ac->objc_is_implementation = true; + } else { + error(elem, "Expected a boolean value, or no value, for '%.*s'", LIT(name)); + } + return true; + } else if (name == "objc_superclass") { + Type *objc_superclass = check_type(c, value); + + if (objc_superclass != nullptr) { + ac->objc_superclass = objc_superclass; + } else { + error(value, "'%.*s' expected a named type", LIT(name)); + } + return true; + } else if (name == "objc_ivar") { + Type *objc_ivar = check_type(c, value); + + if (objc_ivar != nullptr) { + ac->objc_ivar = objc_ivar; + } else { + error(value, "'%.*s' expected a named type", LIT(name)); + } + return true; + } + return false; } diff --git a/src/checker.hpp b/src/checker.hpp index d3b2d7d89..9910ed17b 100644 --- a/src/checker.hpp +++ b/src/checker.hpp @@ -148,8 +148,12 @@ struct AttributeContext { String objc_class; String objc_name; - bool objc_is_class_method; + String objc_selector; Type * objc_type; + Type * objc_superclass; + Type * objc_ivar; + bool objc_is_class_method : 1; + bool objc_is_implementation : 1; // This struct or proc provides a class/method implementation, not a binding to an existing type. String require_target_feature; // required by the target micro-architecture String enable_target_feature; // will be enabled for the procedure only @@ -365,6 +369,11 @@ struct ObjcMsgData { Type *proc_type; }; +struct ObjcMethodData { + AttributeContext ac; + Entity *proc_entity; +}; + enum LoadFileTier { LoadFileTier_Invalid, LoadFileTier_Exists, @@ -479,6 +488,12 @@ struct CheckerInfo { BlockingMutex objc_types_mutex; PtrMap objc_msgSend_types; + MPSCQueue objc_class_implementations; + + BlockingMutex objc_method_mutex; + PtrMap> objc_method_implementations; + + BlockingMutex load_file_mutex; StringMap load_file_cache; diff --git a/src/checker_builtin_procs.hpp b/src/checker_builtin_procs.hpp index 40dde8240..cb2ce3915 100644 --- a/src/checker_builtin_procs.hpp +++ b/src/checker_builtin_procs.hpp @@ -331,6 +331,7 @@ BuiltinProc__type_end, BuiltinProc_objc_find_class, BuiltinProc_objc_register_selector, BuiltinProc_objc_register_class, + BuiltinProc_objc_ivar_get, BuiltinProc_constant_utf16_cstring, @@ -673,6 +674,7 @@ gb_global BuiltinProc builtin_procs[BuiltinProc_COUNT] = { {STR_LIT("objc_find_class"), 1, false, Expr_Expr, BuiltinProcPkg_intrinsics}, {STR_LIT("objc_register_selector"), 1, false, Expr_Expr, BuiltinProcPkg_intrinsics, false, true}, {STR_LIT("objc_register_class"), 1, false, Expr_Expr, BuiltinProcPkg_intrinsics, false, true}, + {STR_LIT("ivar_get"), 2, false, Expr_Expr, BuiltinProcPkg_intrinsics, false, true}, {STR_LIT("constant_utf16_cstring"), 1, false, Expr_Expr, BuiltinProcPkg_intrinsics}, diff --git a/src/entity.cpp b/src/entity.cpp index b2148aa7b..9a5996e3d 100644 --- a/src/entity.cpp +++ b/src/entity.cpp @@ -235,6 +235,9 @@ struct Entity { Type * type_parameter_specialization; String ir_mangled_name; bool is_type_alias; + bool objc_is_implementation; + Type* objc_superclass; + Type* objc_ivar; String objc_class_name; TypeNameObjCMetadata *objc_metadata; } TypeName; diff --git a/src/llvm_backend.cpp b/src/llvm_backend.cpp index 083a1d90e..23ad81847 100644 --- a/src/llvm_backend.cpp +++ b/src/llvm_backend.cpp @@ -1173,6 +1173,332 @@ gb_internal lbProcedure *lb_create_objc_names(lbModule *main_module) { return p; } +// TODO(harold): Move this out of here and into a more suitable place. +// TODO(harold): Should not take an allocator, but always use temp, as we return string literals as well. +String lb_get_objc_type_encoding(Type *t, gbAllocator allocator, isize pointer_depth = 0) { + // NOTE(harold): See https://developer.apple.com/library/archive/documentation/Cocoa/Conceptual/ObjCRuntimeGuide/Articles/ocrtTypeEncodings.html#//apple_ref/doc/uid/TP40008048-CH100 + + // NOTE(harold): Darwin targets are always 64-bit. Should we drop this and assume "q" always? + #define INT_SIZE_ENCODING (build_context.metrics.ptr_size == 4 ? "i" : "q") + switch (t->kind) { + case Type_Basic: { + switch (t->Basic.kind) { + case Basic_Invalid: + return str_lit("?"); + + case Basic_llvm_bool: + case Basic_bool: + case Basic_b8: + return str_lit("B"); + + case Basic_b16: + return str_lit("C"); + case Basic_b32: + return str_lit("I"); + case Basic_b64: + return str_lit("q"); + case Basic_i8: + return str_lit("c"); + case Basic_u8: + return str_lit("C"); + case Basic_i16: + case Basic_i16le: + case Basic_i16be: + return str_lit("s"); + case Basic_u16: + case Basic_u16le: + case Basic_u16be: + return str_lit("S"); + case Basic_i32: + case Basic_i32le: + case Basic_i32be: + return str_lit("i"); + case Basic_u32le: + case Basic_u32: + case Basic_u32be: + return str_lit("I"); + case Basic_i64: + case Basic_i64le: + case Basic_i64be: + return str_lit("q"); + case Basic_u64: + case Basic_u64le: + case Basic_u64be: + return str_lit("Q"); + case Basic_i128: + case Basic_i128le: + case Basic_i128be: + return str_lit("t"); + case Basic_u128: + case Basic_u128le: + case Basic_u128be: + return str_lit("T"); + case Basic_rune: + return str_lit("I"); + case Basic_f16: + case Basic_f16le: + case Basic_f16be: + return str_lit("s"); // @harold: Closest we've got? + case Basic_f32: + case Basic_f32le: + case Basic_f32be: + return str_lit("f"); + case Basic_f64: + case Basic_f64le: + case Basic_f64be: + return str_lit("d"); + + // TODO(harold) These: + case Basic_complex32: + case Basic_complex64: + case Basic_complex128: + case Basic_quaternion64: + case Basic_quaternion128: + case Basic_quaternion256: + return str_lit("?"); + + case Basic_int: + return str_lit(INT_SIZE_ENCODING); + case Basic_uint: + return build_context.metrics.ptr_size == 4 ? str_lit("I") : str_lit("Q"); + case Basic_uintptr: + case Basic_rawptr: + return str_lit("^v"); + + case Basic_string: + return build_context.metrics.ptr_size == 4 ? str_lit("{string=*i}") : str_lit("{string=*q}"); + + case Basic_cstring: return str_lit("*"); + case Basic_any: return str_lit("{any=^v^v"); // rawptr + ^Type_Info + + case Basic_typeid: + GB_ASSERT(t->Basic.size == 8); + return str_lit("q"); + + // Untyped types + case Basic_UntypedBool: + case Basic_UntypedInteger: + case Basic_UntypedFloat: + case Basic_UntypedComplex: + case Basic_UntypedQuaternion: + case Basic_UntypedString: + case Basic_UntypedRune: + case Basic_UntypedNil: + case Basic_UntypedUninit: + GB_PANIC("Untyped types cannot be @encoded()"); + return str_lit("?"); + } + break; + } + + case Type_Named: + case Type_Struct: + case Type_Union: { + Type* base = t; + if (base->kind == Type_Named) { + base = base_type(base); + if(base->kind != Type_Struct && base->kind != Type_Union) { + return lb_get_objc_type_encoding(base, allocator, pointer_depth); + } + } + + const bool is_union = base->kind == Type_Union; + if (!is_union) { + // Check for objc_SEL + if (internal_check_is_assignable_to(base, t_objc_SEL)) { + return str_lit(":"); + } + + // Check for objc_Class + if (internal_check_is_assignable_to(base, t_objc_SEL)) { + return str_lit("#"); + } + + // Treat struct as an Objective-C Class? + if (has_type_got_objc_class_attribute(base) && pointer_depth == 0) { + return str_lit("#"); + } + } + + if (is_type_objc_object(base)) { + return str_lit("@"); + } + + + gbString s = gb_string_make_reserve(allocator, 16); + s = gb_string_append_length(s, is_union ? "(" :"{", 1); + if (t->kind == Type_Named) { + s = gb_string_append_length(s, t->Named.name.text, t->Named.name.len); + } + + // Write fields + if (pointer_depth < 2) { + s = gb_string_append_length(s, "=", 1); + + if (!is_union) { + for( auto& f : t->Struct.fields ) { + String field_type = lb_get_objc_type_encoding(f->type, allocator, pointer_depth); + s = gb_string_append_length(s, field_type.text, field_type.len); + } + } else { + // #TODO(harold): Encode fields + } + } + + s = gb_string_append_length(s, is_union ? ")" :"}", 1); + + return make_string_c(s); + } + + case Type_Generic: + GB_PANIC("Generic types cannot be @encoded()"); + return str_lit("?"); + + case Type_Pointer: { + String pointee = lb_get_objc_type_encoding(t->Pointer.elem, allocator, pointer_depth +1); + // Special case for Objective-C Objects + if (pointer_depth == 0 && pointee == "@") { + return pointee; + } + + return concatenate_strings(allocator, str_lit("^"), pointee); + } + + case Type_MultiPointer: + return concatenate_strings(allocator, str_lit("^"), lb_get_objc_type_encoding(t->Pointer.elem, allocator, pointer_depth +1)); + + case Type_Array: { + String type_str = lb_get_objc_type_encoding(t->Array.elem, allocator, pointer_depth); + + gbString s = gb_string_make_reserve(allocator, type_str.len + 8); + s = gb_string_append_fmt(s, "[%lld%s]", t->Array.count, type_str.text); + return make_string_c(s); + } + + case Type_EnumeratedArray: { + String type_str = lb_get_objc_type_encoding(t->EnumeratedArray.elem, allocator, pointer_depth); + + gbString s = gb_string_make_reserve(allocator, type_str.len + 8); + s = gb_string_append_fmt(s, "[%lld%s]", t->EnumeratedArray.count, type_str.text); + return make_string_c(s); + } + + case Type_Slice: { + String type_str = lb_get_objc_type_encoding(t->Slice.elem, allocator, pointer_depth); + gbString s = gb_string_make_reserve(allocator, type_str.len + 8); + s = gb_string_append_fmt(s, "{slice=^%s%s}", type_str, INT_SIZE_ENCODING); + return make_string_c(s); + } + + case Type_DynamicArray: { + String type_str = lb_get_objc_type_encoding(t->DynamicArray.elem, allocator, pointer_depth); + gbString s = gb_string_make_reserve(allocator, type_str.len + 8); + s = gb_string_append_fmt(s, "{dynamic=^%s%s%sAllocator={?^v}}", type_str, INT_SIZE_ENCODING, INT_SIZE_ENCODING); + return make_string_c(s); + } + + case Type_Map: + return str_lit("{^v^v{Allocator=?^v}}"); + case Type_Enum: + return lb_get_objc_type_encoding(t->Enum.base_type, allocator, pointer_depth); + case Type_Tuple: + // NOTE(harold): Is this allowed here? + return str_lit("?"); + case Type_Proc: + return str_lit("?"); + case Type_BitSet: + return lb_get_objc_type_encoding(t->BitSet.underlying, allocator, pointer_depth); + case Type_SimdVector: + break; + case Type_Matrix: + break; + case Type_BitField: + return lb_get_objc_type_encoding(t->BitField.backing_type, allocator, pointer_depth); + case Type_SoaPointer: { + gbString s = gb_string_make_reserve(allocator, 8); + s = gb_string_append_fmt(s, "{=^v%s}", INT_SIZE_ENCODING); + return make_string_c(s); + } + + } // End switch t->kind + #undef INT_SIZE_ENCODING + + GB_PANIC("Unreachable"); +} + +struct lbObjCGlobalClass { + lbObjCGlobal g; + lbValue class_value; // Local registered class value +}; + +gb_internal void lb_register_objc_thing( + StringSet &handled, + lbModule *m, + Array &args, + Array &class_impls, + StringMap &class_map, + lbProcedure *p, + lbObjCGlobal const &g, + char const *call +) { + if (string_set_update(&handled, g.name)) { + return; + } + + lbAddr addr = {}; + lbValue *found = string_map_get(&m->members, g.global_name); + if (found) { + addr = lb_addr(*found); + } else { + lbValue v = {}; + LLVMTypeRef t = lb_type(m, g.type); + v.value = LLVMAddGlobal(m->mod, t, g.global_name); + v.type = alloc_type_pointer(g.type); + addr = lb_addr(v); + LLVMSetInitializer(v.value, LLVMConstNull(t)); + } + + lbValue class_ptr{}; + lbValue class_name = lb_const_value(m, t_cstring, exact_value_string(g.name)); + + // If this class requires an implementation, save it for registration below. + if (g.class_impl_type != nullptr) { + + // Make sure the superclass has been initialized before us + lbValue superclass_value{}; + + auto& tn = g.class_impl_type->Named.type_name->TypeName; + Type *superclass = tn.objc_superclass; + if (superclass != nullptr) { + auto& superclass_global = string_map_must_get(&class_map, superclass->Named.type_name->TypeName.objc_class_name); + lb_register_objc_thing(handled, m, args, class_impls, class_map, p, superclass_global.g, call); + GB_ASSERT(superclass_global.class_value.value); + + superclass_value = superclass_global.class_value; + } + + args.count = 3; + args[0] = superclass == nullptr ? lb_const_nil(m, t_objc_Class) : superclass_value; + args[1] = class_name; + args[2] = lb_const_int(m, t_uint, 0); + class_ptr = lb_emit_runtime_call(p, "objc_allocateClassPair", args); + + array_add(&class_impls, lbObjCGlobalClass{g, class_ptr}); + } + else { + args.count = 1; + args[0] = class_name; + class_ptr = lb_emit_runtime_call(p, call, args); + } + + lb_addr_store(p, addr, class_ptr); + + lbObjCGlobalClass* class_global = string_map_get(&class_map, g.name); + if (class_global != nullptr) { + class_global->class_value = class_ptr; + } +} + gb_internal void lb_finalize_objc_names(lbGenerator *gen, lbProcedure *p) { if (p == nullptr) { return; @@ -1186,39 +1512,238 @@ gb_internal void lb_finalize_objc_names(lbGenerator *gen, lbProcedure *p) { string_set_init(&handled); defer (string_set_destroy(&handled)); - auto args = array_make(temporary_allocator(), 1); + auto args = array_make(temporary_allocator(), 3, 8); + auto class_impls = array_make(temporary_allocator(), 0, 16); - LLVMSetLinkage(p->value, LLVMInternalLinkage); - lb_begin_procedure_body(p); + // Ensure classes that have been implicitly referenced through + // the objc_superclass attribute have a global variable available for them. + TypeSet class_set{}; + type_set_init(&class_set, gen->objc_classes.count+16); + defer (type_set_destroy(&class_set)); - auto register_thing = [&handled, &m, &args](lbProcedure *p, lbObjCGlobal const &g, char const *call) { - if (!string_set_update(&handled, g.name)) { - lbAddr addr = {}; - lbValue *found = string_map_get(&m->members, g.global_name); - if (found) { - addr = lb_addr(*found); - } else { - lbValue v = {}; - LLVMTypeRef t = lb_type(m, g.type); - v.value = LLVMAddGlobal(m->mod, t, g.global_name); - v.type = alloc_type_pointer(g.type); - addr = lb_addr(v); - LLVMSetInitializer(v.value, LLVMConstNull(t)); - } + auto referenced_classes = array_make(temporary_allocator()); + for (lbObjCGlobal g = {}; mpsc_dequeue(&gen->objc_classes, &g); /**/) { + array_add( &referenced_classes, g); - args[0] = lb_const_value(m, t_cstring, exact_value_string(g.name)); - lbValue ptr = lb_emit_runtime_call(p, call, args); - lb_addr_store(p, addr, ptr); - } - }; + Type *cls = g.class_impl_type; + while (cls) { + if (type_set_update(&class_set, cls)) { + break; + } + GB_ASSERT(cls->kind == Type_Named); - for (lbObjCGlobal g = {}; mpsc_dequeue(&gen->objc_classes, &g); /**/) { - register_thing(p, g, "objc_lookUpClass"); - } + cls = cls->Named.type_name->TypeName.objc_superclass; + } + } - for (lbObjCGlobal g = {}; mpsc_dequeue(&gen->objc_selectors, &g); /**/) { - register_thing(p, g, "sel_registerName"); - } + for (auto pair : class_set) { + auto& tn = pair.type->Named.type_name->TypeName; + Type *class_impl = !tn.objc_is_implementation ? nullptr : pair.type; + lb_handle_objc_find_or_register_class(p, tn.objc_class_name, class_impl); + } + for (lbObjCGlobal g = {}; mpsc_dequeue(&gen->objc_classes, &g); /**/) { + array_add( &referenced_classes, g ); + } + + // Add all class globals to a map so that we can look them up dynamically + // in order to resolve out-of-order because classes that are being implemented + // need their superclasses to have been registered before them. + StringMap global_class_map{}; + string_map_init(&global_class_map, (usize)gen->objc_classes.count); + defer (string_map_destroy(&global_class_map)); + + for (lbObjCGlobal g :referenced_classes) { + string_map_set(&global_class_map, g.name, lbObjCGlobalClass{g}); + } + + LLVMSetLinkage(p->value, LLVMInternalLinkage); + lb_begin_procedure_body(p); + + // Register class globals, gathering classes that must be implemented + for (auto& kv : global_class_map) { + lb_register_objc_thing(handled, m, args, class_impls, global_class_map, p, kv.value.g, "objc_lookUpClass"); + } + + // Prefetch selectors for implemented methods so that they can also be registered. + for (const auto& cd : class_impls) { + auto& g = cd.g; + Type *class_type = g.class_impl_type; + + Array* methods = map_get(&m->info->objc_method_implementations, class_type); + if (!methods) { + continue; + } + + for (const ObjcMethodData& md : *methods) { + lb_handle_objc_find_or_register_selector(p, md.ac.objc_selector); + } + } + + // Now we can register all referenced selectors + for (lbObjCGlobal g = {}; mpsc_dequeue(&gen->objc_selectors, &g); /**/) { + lb_register_objc_thing(handled, m, args, class_impls, global_class_map, p, g, "sel_registerName"); + } + + + // Emit method wrapper implementations and registration + auto wrapper_args = array_make(temporary_allocator(), 2, 8); + + for (const auto& cd : class_impls) { + auto& g = cd.g; + Type *class_type = g.class_impl_type; + + Array* methods = map_get(&m->info->objc_method_implementations, class_type); + if (!methods) { + continue; + } + + Type *class_ptr_type = alloc_type_pointer(class_type); + lbValue class_value = cd.class_value; + + for (const ObjcMethodData& md : *methods) { + GB_ASSERT( md.proc_entity->kind == Entity_Procedure); + Type *method_type = md.proc_entity->type; + + String proc_name = make_string_c("__$objc_method::"); + proc_name = concatenate_strings(temporary_allocator(), proc_name, g.name); + proc_name = concatenate_strings(temporary_allocator(), proc_name, str_lit("::")); + proc_name = concatenate_strings( permanent_allocator(), proc_name, md.ac.objc_name); + + wrapper_args.count = 2; + wrapper_args[0] = md.ac.objc_is_class_method ? t_objc_Class : class_ptr_type; + wrapper_args[1] = t_objc_SEL; + + auto method_param_count = (isize)method_type->Proc.param_count; + i32 method_param_offset = 0; + + // TODO(harold): Need to make sure (at checker stage) that the non-class method has the self parameter already. + // (Maybe this is already accounted for?.) + if (!md.ac.objc_is_class_method) { + GB_ASSERT(method_param_count >= 1); + method_param_count -= 1; + method_param_offset = 1; + } + + for (i32 i = 0; i < method_param_count; i++) { + array_add(&wrapper_args, method_type->Proc.params->Tuple.variables[method_param_offset+i]->type); + } + + Type *wrapper_args_tuple = alloc_type_tuple_from_field_types(wrapper_args.data, wrapper_args.count, false, true); + Type *wrapper_proc_type = alloc_type_proc(nullptr, wrapper_args_tuple, (isize)wrapper_args_tuple->Tuple.variables.count, nullptr, 0, false, ProcCC_CDecl); + + lbProcedure *wrapper_proc = lb_create_dummy_procedure(m, proc_name, wrapper_proc_type); + lb_add_attribute_to_proc(wrapper_proc->module, wrapper_proc->value, "nounwind"); + + // Emit the wrapper + LLVMSetLinkage(wrapper_proc->value, LLVMExternalLinkage); + lb_begin_procedure_body(wrapper_proc); + { + auto method_call_args = array_make(temporary_allocator(), method_param_count + (isize)method_param_offset); + + if (!md.ac.objc_is_class_method) { + method_call_args[0] = lbValue { + wrapper_proc->raw_input_parameters[0], + class_ptr_type, + }; + } + + for (isize i = 0; i < method_param_count; i++) { + method_call_args[i+method_param_offset] = lbValue { + wrapper_proc->raw_input_parameters[i+2], + method_type->Proc.params->Tuple.variables[i+method_param_offset]->type, + }; + } + lbValue method_proc_value = lb_find_procedure_value_from_entity(m, md.proc_entity); + + // Call real procedure for method from here, passing the parameters expected, if any. + lb_emit_call(wrapper_proc, method_proc_value, method_call_args); + } + lb_end_procedure_body(wrapper_proc); + + + // Add the method to the class + String method_encoding = str_lit("v"); + // TODO (harold): Checker must ensure that objc_methods have a single return value or none! + GB_ASSERT(method_type->Proc.result_count <= 1); + if (method_type->Proc.result_count != 0) { + method_encoding = lb_get_objc_type_encoding(method_type->Proc.results->Tuple.variables[0]->type, temporary_allocator()); + } + + if (!md.ac.objc_is_class_method) { + method_encoding = concatenate_strings(temporary_allocator(), method_encoding, str_lit("@:")); + } else { + method_encoding = concatenate_strings(temporary_allocator(), method_encoding, str_lit("#:")); + } + + for (i32 i = method_param_offset; i < method_param_count; i++) { + Type *param_type = method_type->Proc.params->Tuple.variables[i]->type; + String param_encoding = lb_get_objc_type_encoding(param_type, temporary_allocator()); + + method_encoding = concatenate_strings(temporary_allocator(), method_encoding, param_encoding); + } + + // Emit method registration + lbAddr* sel_address = string_map_get(&m->objc_selectors, md.ac.objc_selector); + GB_ASSERT(sel_address); + lbValue selector_value = lb_addr_load(p, *sel_address); + + args.count = 4; + args[0] = class_value; // Class + args[1] = selector_value; // SEL + args[2] = lbValue { wrapper_proc->value, wrapper_proc->type }; + args[3] = lb_const_value(m, t_cstring, exact_value_string(method_encoding)); + + // TODO(harold): Emit check BOOL result and panic if false. + lb_emit_runtime_call(p, "class_addMethod", args); + + } // End methods + + // Add ivar if we have one + Type *ivar_type = class_type->Named.type_name->TypeName.objc_ivar; + if (ivar_type != nullptr) { + // Register a single ivar for this class + Type *ivar_base = ivar_type->Named.base; + // TODO(harold): No idea if I can use this, but I assume so? + const i64 size = ivar_base->cached_size; + const i64 alignment = ivar_base->cached_align; + // TODO(harold): Checker: Alignment must be compatible with ivar rules. Or we should increase the alignment if needed. + + String ivar_name = str_lit("__$ivar"); + String ivar_types = str_lit("{= }"); + args.count = 5; + args[0] = class_value; + args[1] = lb_const_value(m, t_cstring, exact_value_string(ivar_name)); + args[2] = lb_const_value(m, t_uint, exact_value_u64((u64)size)); + args[3] = lb_const_value(m, t_u8, exact_value_u64((u64)alignment)); + args[4] = lb_const_value(m, t_cstring, exact_value_string(ivar_types)); + lb_emit_runtime_call(p, "class_addIvar", args); + } + + // Complete the class registration + args.count = 1; + args[0] = class_value; + lb_emit_runtime_call(p, "objc_registerClassPair", args); + + // If we have an ivar, store its offset globally for an intrinsic + // TODO(harold): Only do this for types that had ivar_get calls registered! + if (ivar_type != nullptr) { + args.count = 2; + args[0] = class_value; + args[1] = lb_const_value(m, t_cstring, exact_value_string(str_lit("__$ivar"))); + lbValue ivar = lb_emit_runtime_call(p, "class_getInstanceVariable", args); + + args.count = 1; + args[0] = ivar; + lbValue ivar_offset = lb_emit_runtime_call(p, "ivar_getOffset", args); + lbValue ivar_offset_u32 = lb_emit_conv(p, ivar_offset, t_u32); + + String class_name = class_type->Named.type_name->TypeName.objc_class_name; + // TODO(harold): Oops! This is wrong, that map is there to prevent re-entry. + // Simply emit from referred ivars. For now use a single module only. + lbAddr ivar_addr = string_map_must_get(&m->objc_ivars, class_name); + lb_addr_store(p, ivar_addr, ivar_offset_u32); + } + } lb_end_procedure_body(p); } diff --git a/src/llvm_backend.hpp b/src/llvm_backend.hpp index 6177fcf6e..7694c65c3 100644 --- a/src/llvm_backend.hpp +++ b/src/llvm_backend.hpp @@ -196,6 +196,7 @@ struct lbModule { StringMap objc_classes; StringMap objc_selectors; + StringMap objc_ivars; PtrMap map_cell_info_map; // address of runtime.Map_Info PtrMap map_info_map; // address of runtime.Map_Cell_Info @@ -219,6 +220,7 @@ struct lbObjCGlobal { gbString global_name; String name; Type * type; + Type * class_impl_type; // This is set when the class has the objc_implement attribute set to true. }; struct lbGenerator : LinkerData { @@ -240,6 +242,7 @@ struct lbGenerator : LinkerData { MPSCQueue entities_to_correct_linkage; MPSCQueue objc_selectors; MPSCQueue objc_classes; + MPSCQueue objc_ivars; }; diff --git a/src/llvm_backend_general.cpp b/src/llvm_backend_general.cpp index 421720c4c..7f012e006 100644 --- a/src/llvm_backend_general.cpp +++ b/src/llvm_backend_general.cpp @@ -101,6 +101,7 @@ gb_internal void lb_init_module(lbModule *m, Checker *c) { string_map_init(&m->objc_classes); string_map_init(&m->objc_selectors); + string_map_init(&m->objc_ivars); map_init(&m->map_info_map, 0); map_init(&m->map_cell_info_map, 0); @@ -173,6 +174,7 @@ gb_internal bool lb_init_generator(lbGenerator *gen, Checker *c) { mpsc_init(&gen->entities_to_correct_linkage, heap_allocator()); mpsc_init(&gen->objc_selectors, heap_allocator()); mpsc_init(&gen->objc_classes, heap_allocator()); + mpsc_init(&gen->objc_ivars, heap_allocator()); return true; } diff --git a/src/llvm_backend_proc.cpp b/src/llvm_backend_proc.cpp index 3212abd9a..bf4ebf377 100644 --- a/src/llvm_backend_proc.cpp +++ b/src/llvm_backend_proc.cpp @@ -3290,6 +3290,7 @@ gb_internal lbValue lb_build_builtin_proc(lbProcedure *p, Ast *expr, TypeAndValu case BuiltinProc_objc_find_class: return lb_handle_objc_find_class(p, expr); case BuiltinProc_objc_register_selector: return lb_handle_objc_register_selector(p, expr); case BuiltinProc_objc_register_class: return lb_handle_objc_register_class(p, expr); + case BuiltinProc_objc_ivar_get: return lb_handle_objc_ivar_get(p, expr); case BuiltinProc_constant_utf16_cstring: diff --git a/src/llvm_backend_utility.cpp b/src/llvm_backend_utility.cpp index bfeebfcbe..897b71b5b 100644 --- a/src/llvm_backend_utility.cpp +++ b/src/llvm_backend_utility.cpp @@ -2125,7 +2125,7 @@ gb_internal lbAddr lb_handle_objc_find_or_register_selector(lbProcedure *p, Stri return addr; } -gb_internal lbAddr lb_handle_objc_find_or_register_class(lbProcedure *p, String const &name) { +gb_internal lbAddr lb_handle_objc_find_or_register_class(lbProcedure *p, String const &name, Type *class_impl_type) { lbModule *m = p->module; lbAddr *found = string_map_get(&m->objc_classes, name); if (found) { @@ -2148,13 +2148,72 @@ gb_internal lbAddr lb_handle_objc_find_or_register_class(lbProcedure *p, String } else { LLVMSetLinkage(g.value, LLVMExternalLinkage); } - mpsc_enqueue(&m->gen->objc_classes, lbObjCGlobal{m, global_name, name, t_objc_Class}); + mpsc_enqueue(&m->gen->objc_classes, lbObjCGlobal{m, global_name, name, t_objc_Class, class_impl_type}); lbAddr addr = lb_addr(g); string_map_set(&m->objc_classes, name, addr); return addr; } +gb_internal lbAddr lb_handle_objc_find_or_register_ivar(lbModule *m, Type *self_type) { + + String name = self_type->Named.type_name->TypeName.objc_class_name; + GB_ASSERT(name != ""); + + lbAddr *found = string_map_get(&m->objc_ivars, name); + if (found) { + return *found; + } + + + lbModule *default_module = &m->gen->default_module; + + gbString global_name = gb_string_make(permanent_allocator(), "__$objc_ivar::"); + global_name = gb_string_append_length(global_name, name.text, name.len); + + // Create a global variable to store offset of the ivar in an instance of an object + Type *p_ivar_offset = alloc_type_pointer(t_u32); + + LLVMTypeRef t = lb_type(m, p_ivar_offset); + lbValue g = {}; + g.value = LLVMAddGlobal(m->mod, t, global_name); + g.type = p_ivar_offset; + + if (default_module == m) { + LLVMSetInitializer(g.value, LLVMConstNull(t)); + lb_add_member(m, make_string_c(global_name), g); + } else { + LLVMSetLinkage(g.value, LLVMExternalLinkage); + } + + mpsc_enqueue(&m->gen->objc_ivars, lbObjCGlobal{m, global_name, name, self_type}); + + lbAddr addr = lb_addr(g); + string_map_set(&m->objc_ivars, name, addr); + return addr; +} + +gb_internal lbValue lb_handle_objc_ivar_get(lbProcedure *p, Ast *expr) { + ast_node(ce, CallExpr, expr); + lbModule *m = p->module; + + GB_ASSERT(ce->args[0]->tav.type->kind == Type_Pointer); + Type *self_type = ce->args[0]->tav.type->Pointer.elem; + Type *ivar_type = self_type->Named.type_name->TypeName.objc_ivar; + + Type* p_ivar = alloc_type_pointer(ivar_type); + + lbValue ivar_offset = lb_addr_load(p, lb_handle_objc_find_or_register_ivar(m, self_type)); + lbValue ivar_offset_uptr = lb_emit_conv(p, ivar_offset, t_uintptr); + + lbValue self = lb_build_expr(p, ce->args[0]); + lbValue self_uptr = lb_emit_conv(p, self, t_uintptr); + + lbValue ivar_uptr = lb_emit_arith(p, Token_Add, self_uptr, ivar_offset_uptr, t_uintptr); + + return lb_emit_conv(p, ivar_uptr, p_ivar); +} + gb_internal lbValue lb_handle_objc_find_selector(lbProcedure *p, Ast *expr) { ast_node(ce, CallExpr, expr); @@ -2188,7 +2247,7 @@ gb_internal lbValue lb_handle_objc_find_class(lbProcedure *p, Ast *expr) { auto tav = ce->args[0]->tav; GB_ASSERT(tav.value.kind == ExactValue_String); String name = tav.value.value_string; - return lb_addr_load(p, lb_handle_objc_find_or_register_class(p, name)); + return lb_addr_load(p, lb_handle_objc_find_or_register_class(p, name, nullptr)); } gb_internal lbValue lb_handle_objc_register_class(lbProcedure *p, Ast *expr) { @@ -2198,7 +2257,7 @@ gb_internal lbValue lb_handle_objc_register_class(lbProcedure *p, Ast *expr) { auto tav = ce->args[0]->tav; GB_ASSERT(tav.value.kind == ExactValue_String); String name = tav.value.value_string; - lbAddr dst = lb_handle_objc_find_or_register_class(p, name); + lbAddr dst = lb_handle_objc_find_or_register_class(p, name, nullptr); auto args = array_make(permanent_allocator(), 3); args[0] = lb_const_nil(m, t_objc_Class); @@ -2220,7 +2279,9 @@ gb_internal lbValue lb_handle_objc_id(lbProcedure *p, Ast *expr) { GB_ASSERT(e->kind == Entity_TypeName); String name = e->TypeName.objc_class_name; - return lb_addr_load(p, lb_handle_objc_find_or_register_class(p, name)); + Type *class_impl_type = e->TypeName.objc_is_implementation ? type : nullptr; + + return lb_addr_load(p, lb_handle_objc_find_or_register_class(p, name, class_impl_type)); } return lb_build_expr(p, expr); @@ -2266,9 +2327,6 @@ gb_internal lbValue lb_handle_objc_send(lbProcedure *p, Ast *expr) { return lb_emit_call(p, the_proc, args); } - - - gb_internal LLVMAtomicOrdering llvm_atomic_ordering_from_odin(ExactValue const &value) { GB_ASSERT(value.kind == ExactValue_Integer); i64 v = exact_value_to_i64(value); diff --git a/src/types.cpp b/src/types.cpp index 9c9472a28..1b2545279 100644 --- a/src/types.cpp +++ b/src/types.cpp @@ -729,10 +729,12 @@ gb_global Type *t_map_set_proc = nullptr; gb_global Type *t_objc_object = nullptr; gb_global Type *t_objc_selector = nullptr; gb_global Type *t_objc_class = nullptr; +gb_global Type *t_objc_ivar = nullptr; gb_global Type *t_objc_id = nullptr; gb_global Type *t_objc_SEL = nullptr; gb_global Type *t_objc_Class = nullptr; +gb_global Type *t_objc_Ivar = nullptr; enum OdinAtomicMemoryOrder : i32 { OdinAtomicMemoryOrder_relaxed = 0, // unordered