#include "tilde.hpp" gb_global Slice global_tb_arenas; gb_internal TB_Arena *cg_arena(void) { return &global_tb_arenas[current_thread_index()]; } gb_internal void cg_global_arena_init(void) { global_tb_arenas = slice_make(permanent_allocator(), global_thread_pool.threads.count); for_array(i, global_tb_arenas) { tb_arena_create(&global_tb_arenas[i], 2ull<<20); } } // returns TB_TYPE_VOID if not trivially possible gb_internal TB_DataType cg_data_type(Type *t) { GB_ASSERT(t != nullptr); t = core_type(t); i64 sz = type_size_of(t); switch (t->kind) { case Type_Basic: switch (t->Basic.kind) { case Basic_bool: case Basic_b8: case Basic_b16: case Basic_b32: case Basic_b64: case Basic_i8: case Basic_u8: case Basic_i16: case Basic_u16: case Basic_i32: case Basic_u32: case Basic_i64: case Basic_u64: case Basic_i128: case Basic_u128: case Basic_rune: case Basic_int: case Basic_uint: case Basic_uintptr: case Basic_typeid: return TB_TYPE_INTN(cast(u16)gb_min(8*sz, 64)); case Basic_f16: return TB_TYPE_F16; case Basic_f32: return TB_TYPE_F32; case Basic_f64: return TB_TYPE_F64; case Basic_rawptr: return TB_TYPE_PTR; case Basic_cstring: return TB_TYPE_PTR; // Endian Specific Types case Basic_i16le: case Basic_u16le: case Basic_i32le: case Basic_u32le: case Basic_i64le: case Basic_u64le: case Basic_i128le: case Basic_u128le: case Basic_i16be: case Basic_u16be: case Basic_i32be: case Basic_u32be: case Basic_i64be: case Basic_u64be: case Basic_i128be: case Basic_u128be: return TB_TYPE_INTN(cast(u16)gb_min(8*sz, 64)); case Basic_f16le: return TB_TYPE_F16; case Basic_f32le: return TB_TYPE_F32; case Basic_f64le: return TB_TYPE_F64; case Basic_f16be: return TB_TYPE_F16; case Basic_f32be: return TB_TYPE_F32; case Basic_f64be: return TB_TYPE_F64; } break; case Type_Pointer: case Type_MultiPointer: case Type_Proc: return TB_TYPE_PTR; case Type_BitSet: return cg_data_type(bit_set_to_int(t)); case Type_RelativePointer: return cg_data_type(t->RelativePointer.base_integer); } // unknown return {}; } gb_internal cgValue cg_value(TB_Global *g, Type *type) { return cg_value((TB_Symbol *)g, type); } gb_internal cgValue cg_value(TB_External *e, Type *type) { return cg_value((TB_Symbol *)e, type); } gb_internal cgValue cg_value(TB_Function *f, Type *type) { return cg_value((TB_Symbol *)f, type); } gb_internal cgValue cg_value(TB_Symbol *s, Type *type) { cgValue v = {}; v.kind = cgValue_Symbol; v.type = type; v.symbol = s; return v; } gb_internal cgValue cg_value(TB_Node *node, Type *type) { cgValue v = {}; v.kind = cgValue_Value; v.type = type; v.node = node; return v; } gb_internal cgValue cg_lvalue_addr(TB_Node *node, Type *type) { GB_ASSERT(node->dt.type == TB_PTR); cgValue v = {}; v.kind = cgValue_Addr; v.type = type; v.node = node; return v; } gb_internal cgValue cg_lvalue_addr_to_value(cgValue v) { if (v.kind == cgValue_Value) { GB_ASSERT(is_type_pointer(v.type)); GB_ASSERT(v.node->dt.type == TB_PTR); } else { GB_ASSERT(v.kind == cgValue_Addr); GB_ASSERT(v.node->dt.type == TB_PTR); v.kind = cgValue_Value; v.type = alloc_type_pointer(v.type); } return v; } gb_internal cgValue cg_value_multi(cgValueMulti *multi, Type *type) { GB_ASSERT(type->kind == Type_Tuple); GB_ASSERT(multi != nullptr); GB_ASSERT(type->Tuple.variables.count > 1); GB_ASSERT(multi->values.count == type->Tuple.variables.count); cgValue v = {}; v.kind = cgValue_Multi; v.type = type; v.multi = multi; return v; } gb_internal cgValue cg_value_multi(Slice const &values, Type *type) { cgValueMulti *multi = gb_alloc_item(permanent_allocator(), cgValueMulti); multi->values = values; return cg_value_multi(multi, type); } gb_internal cgValue cg_value_multi2(cgValue const &x, cgValue const &y, Type *type) { GB_ASSERT(type->kind == Type_Tuple); GB_ASSERT(type->Tuple.variables.count == 2); cgValueMulti *multi = gb_alloc_item(permanent_allocator(), cgValueMulti); multi->values = slice_make(permanent_allocator(), 2); multi->values[0] = x; multi->values[1] = y; return cg_value_multi(multi, type); } gb_internal cgAddr cg_addr(cgValue const &value) { GB_ASSERT(value.kind != cgValue_Multi); cgAddr addr = {}; addr.kind = cgAddr_Default; addr.addr = value; if (addr.addr.kind == cgValue_Addr) { GB_ASSERT(addr.addr.node != nullptr); addr.addr.kind = cgValue_Value; addr.addr.type = alloc_type_pointer(addr.addr.type); } return addr; } gb_internal cgAddr cg_addr_map(cgValue addr, cgValue map_key, Type *map_type, Type *map_result) { GB_ASSERT(is_type_pointer(addr.type)); Type *mt = type_deref(addr.type); GB_ASSERT(is_type_map(mt)); cgAddr v = {cgAddr_Map, addr}; v.map.key = map_key; v.map.type = map_type; v.map.result = map_result; return v; } gb_internal cgAddr cg_addr_soa_variable(cgValue addr, cgValue index, Ast *index_expr) { cgAddr v = {cgAddr_SoaVariable, addr}; v.soa.index = index; v.soa.index_expr = index_expr; return v; } gb_internal void cg_set_debug_pos_from_node(cgProcedure *p, Ast *node) { if (node) { TokenPos pos = ast_token(node).pos; TB_SourceFile **file = map_get(&p->module->file_id_map, cast(uintptr)pos.file_id); if (file) { tb_inst_location(p->func, *file, pos.line, pos.column); } } } gb_internal void cg_add_symbol(cgModule *m, Entity *e, TB_Symbol *symbol) { if (e) { rw_mutex_lock(&m->values_mutex); map_set(&m->symbols, e, symbol); rw_mutex_unlock(&m->values_mutex); } } gb_internal void cg_add_entity(cgModule *m, Entity *e, cgValue const &val) { if (e) { rw_mutex_lock(&m->values_mutex); GB_ASSERT(val.node != nullptr); map_set(&m->values, e, val); rw_mutex_unlock(&m->values_mutex); } } gb_internal void cg_add_member(cgModule *m, String const &name, cgValue const &val) { if (name.len > 0) { rw_mutex_lock(&m->values_mutex); string_map_set(&m->members, name, val); rw_mutex_unlock(&m->values_mutex); } } gb_internal void cg_add_procedure_value(cgModule *m, cgProcedure *p) { rw_mutex_lock(&m->values_mutex); if (p->entity != nullptr) { map_set(&m->procedure_values, p->func, p->entity); if (p->symbol != nullptr) { map_set(&m->symbols, p->entity, p->symbol); } } string_map_set(&m->procedures, p->name, p); rw_mutex_unlock(&m->values_mutex); } gb_internal TB_Symbol *cg_find_symbol_from_entity(cgModule *m, Entity *e) { GB_ASSERT(e != nullptr); rw_mutex_lock(&m->values_mutex); TB_Symbol **found = map_get(&m->symbols, e); if (found) { rw_mutex_unlock(&m->values_mutex); return *found; } String link_name = cg_get_entity_name(m, e); cgProcedure **proc_found = string_map_get(&m->procedures, link_name); if (proc_found) { TB_Symbol *symbol = (*proc_found)->symbol; map_set(&m->symbols, e, symbol); rw_mutex_unlock(&m->values_mutex); return symbol; } rw_mutex_unlock(&m->values_mutex); if (e->kind == Entity_Procedure) { debugf("[Tilde] try to generate procedure %.*s as it was not in the minimum_dependency_set", LIT(e->token.string)); // IMPORTANT TODO(bill): This is an utter bodge, try and fix this shit cgProcedure *p = cg_procedure_create(m, e); if (p != nullptr) { GB_ASSERT(p->symbol != nullptr); cg_add_procedure_to_queue(p); return p->symbol; } } GB_PANIC("could not find entity's symbol %.*s", LIT(e->token.string)); return nullptr; } struct cgGlobalVariable { cgValue var; cgValue init; DeclInfo *decl; bool is_initialized; }; // Returns already_has_entry_point gb_internal bool cg_global_variables_create(cgModule *m, Array *global_variables) { isize global_variable_max_count = 0; bool already_has_entry_point = false; for (Entity *e : m->info->entities) { String name = e->token.string; if (e->kind == Entity_Variable) { global_variable_max_count++; } else if (e->kind == Entity_Procedure) { if ((e->scope->flags&ScopeFlag_Init) && name == "main") { GB_ASSERT(e == m->info->entry_point); } if (build_context.command_kind == Command_test && (e->Procedure.is_export || e->Procedure.link_name.len > 0)) { String link_name = e->Procedure.link_name; if (e->pkg->kind == Package_Runtime) { if (link_name == "main" || link_name == "DllMain" || link_name == "WinMain" || link_name == "wWinMain" || link_name == "mainCRTStartup" || link_name == "_start") { already_has_entry_point = true; } } } } } *global_variables = array_make(permanent_allocator(), 0, global_variable_max_count); auto *min_dep_set = &m->info->minimum_dependency_set; for (DeclInfo *d : m->info->variable_init_order) { Entity *e = d->entity; if ((e->scope->flags & ScopeFlag_File) == 0) { continue; } if (!ptr_set_exists(min_dep_set, e)) { continue; } DeclInfo *decl = decl_info_of_entity(e); if (decl == nullptr) { continue; } GB_ASSERT(e->kind == Entity_Variable); bool is_foreign = e->Variable.is_foreign; bool is_export = e->Variable.is_export; String name = cg_get_entity_name(m, e); TB_Linkage linkage = TB_LINKAGE_PRIVATE; if (is_foreign) { linkage = TB_LINKAGE_PUBLIC; // lb_add_foreign_library_path(m, e->Variable.foreign_library); // lb_set_wasm_import_attributes(g.value, e, name); } else if (is_export) { linkage = TB_LINKAGE_PUBLIC; } // lb_set_linkage_from_entity_flags(m, g.value, e->flags); TB_DebugType *debug_type = cg_debug_type(m, e->type); TB_Global *global = tb_global_create(m->mod, name.len, cast(char const *)name.text, debug_type, linkage); cgValue g = cg_value(global, alloc_type_pointer(e->type)); TB_ModuleSectionHandle section = tb_module_get_data(m->mod); if (e->Variable.thread_local_model != "") { section = tb_module_get_tls(m->mod); } if (e->Variable.link_section.len > 0) { // TODO(bill): custom module sections // LLVMSetSection(g.value, alloc_cstring(permanent_allocator(), e->Variable.link_section)); } cgGlobalVariable var = {}; var.var = g; var.decl = decl; if (decl->init_expr != nullptr) { TypeAndValue tav = type_and_value_of_expr(decl->init_expr); isize max_regions = cg_global_const_calculate_region_count(tav.value, e->type); tb_global_set_storage(m->mod, section, global, type_size_of(e->type), type_align_of(e->type), max_regions); if (tav.mode == Addressing_Constant && tav.value.kind != ExactValue_Invalid) { cg_global_const_add_region(m, tav.value, e->type, global, 0); var.is_initialized = true; } if (!var.is_initialized && is_type_untyped_nil(tav.type)) { var.is_initialized = true; } } else { var.is_initialized = true; // TODO(bill): is this even needed; i64 max_regions = cg_global_const_calculate_region_count_from_basic_type(e->type); tb_global_set_storage(m->mod, section, global, type_size_of(e->type), type_align_of(e->type), max_regions); } array_add(global_variables, var); cg_add_symbol(m, e, cast(TB_Symbol *)global); cg_add_entity(m, e, g); cg_add_member(m, name, g); } cg_setup_type_info_data(m); return already_has_entry_point; } gb_internal void cg_global_variables_initialize(cgProcedure *p, Array *global_variables) { for (cgGlobalVariable &var : *global_variables) { if (var.is_initialized) { continue; } cgValue src = cg_build_expr(p, var.decl->init_expr); cgValue dst = cg_flatten_value(p, var.var); cg_emit_store(p, dst, src); } } gb_internal cgModule *cg_module_create(Checker *c) { cgModule *m = gb_alloc_item(permanent_allocator(), cgModule); m->checker = c; m->info = &c->info; TB_FeatureSet feature_set = {}; bool is_jit = false; m->mod = tb_module_create(TB_ARCH_X86_64, TB_SYSTEM_WINDOWS, &feature_set, is_jit); tb_module_set_tls_index(m->mod, 10, "_tls_index"); map_init(&m->values); map_init(&m->symbols); map_init(&m->file_id_map); map_init(&m->debug_type_map); map_init(&m->proc_debug_type_map); map_init(&m->proc_proto_map); map_init(&m->anonymous_proc_lits_map); map_init(&m->equal_procs); map_init(&m->hasher_procs); map_init(&m->map_get_procs); map_init(&m->map_set_procs); map_init(&m->map_info_map); map_init(&m->map_cell_info_map); array_init(&m->single_threaded_procedure_queue, heap_allocator()); for_array(id, global_files) { if (AstFile *f = global_files[id]) { char const *path = alloc_cstring(temporary_allocator(), f->fullpath); TB_SourceFile *file = tb_get_source_file(m->mod, path); map_set(&m->file_id_map, cast(uintptr)id, file); } } return m; } gb_internal void cg_module_destroy(cgModule *m) { map_destroy(&m->values); map_destroy(&m->symbols); map_destroy(&m->file_id_map); map_destroy(&m->debug_type_map); map_destroy(&m->proc_debug_type_map); map_destroy(&m->proc_proto_map); map_destroy(&m->anonymous_proc_lits_map); map_destroy(&m->equal_procs); map_destroy(&m->hasher_procs); map_destroy(&m->map_get_procs); map_destroy(&m->map_set_procs); map_destroy(&m->map_info_map); map_destroy(&m->map_cell_info_map); array_free(&m->single_threaded_procedure_queue); tb_module_destroy(m->mod); } gb_internal String cg_set_nested_type_name_ir_mangled_name(Entity *e, cgProcedure *p) { // NOTE(bill, 2020-03-08): A polymorphic procedure may take a nested type declaration // and as a result, the declaration does not have time to determine what it should be GB_ASSERT(e != nullptr && e->kind == Entity_TypeName); if (e->TypeName.ir_mangled_name.len != 0) { return e->TypeName.ir_mangled_name; } GB_ASSERT((e->scope->flags & ScopeFlag_File) == 0); if (p == nullptr) { Entity *proc = nullptr; if (e->parent_proc_decl != nullptr) { proc = e->parent_proc_decl->entity; } else { Scope *scope = e->scope; while (scope != nullptr && (scope->flags & ScopeFlag_Proc) == 0) { scope = scope->parent; } GB_ASSERT(scope != nullptr); GB_ASSERT(scope->flags & ScopeFlag_Proc); proc = scope->procedure_entity; } GB_ASSERT(proc->kind == Entity_Procedure); if (proc->cg_procedure != nullptr) { p = proc->cg_procedure; } } // NOTE(bill): Generate a new name // parent_proc.name-guid String ts_name = e->token.string; if (p != nullptr) { isize name_len = p->name.len + 1 + ts_name.len + 1 + 10 + 1; char *name_text = gb_alloc_array(permanent_allocator(), char, name_len); u32 guid = 1+p->module->nested_type_name_guid.fetch_add(1); name_len = gb_snprintf(name_text, name_len, "%.*s" ABI_PKG_NAME_SEPARATOR "%.*s-%u", LIT(p->name), LIT(ts_name), guid); String name = make_string(cast(u8 *)name_text, name_len-1); e->TypeName.ir_mangled_name = name; return name; } else { // NOTE(bill): a nested type be required before its parameter procedure exists. Just give it a temp name for now isize name_len = 9 + 1 + ts_name.len + 1 + 10 + 1; char *name_text = gb_alloc_array(permanent_allocator(), char, name_len); static std::atomic guid; name_len = gb_snprintf(name_text, name_len, "_internal" ABI_PKG_NAME_SEPARATOR "%.*s-%u", LIT(ts_name), 1+guid.fetch_add(1)); String name = make_string(cast(u8 *)name_text, name_len-1); e->TypeName.ir_mangled_name = name; return name; } } gb_internal String cg_mangle_name(cgModule *m, Entity *e) { String name = e->token.string; AstPackage *pkg = e->pkg; GB_ASSERT_MSG(pkg != nullptr, "Missing package for '%.*s'", LIT(name)); String pkgn = pkg->name; GB_ASSERT(!rune_is_digit(pkgn[0])); if (pkgn == "llvm") { GB_PANIC("llvm. entities are not allowed with the tilde backend"); } isize max_len = pkgn.len + 1 + name.len + 1; bool require_suffix_id = is_type_polymorphic(e->type, true); if ((e->scope->flags & (ScopeFlag_File | ScopeFlag_Pkg)) == 0) { require_suffix_id = true; } else if (is_blank_ident(e->token)) { require_suffix_id = true; }if (e->flags & EntityFlag_NotExported) { require_suffix_id = true; } if (require_suffix_id) { max_len += 21; } char *new_name = gb_alloc_array(permanent_allocator(), char, max_len); isize new_name_len = gb_snprintf( new_name, max_len, "%.*s" ABI_PKG_NAME_SEPARATOR "%.*s", LIT(pkgn), LIT(name) ); if (require_suffix_id) { char *str = new_name + new_name_len-1; isize len = max_len-new_name_len; isize extra = gb_snprintf(str, len, "-%llu", cast(unsigned long long)e->id); new_name_len += extra-1; } String mangled_name = make_string((u8 const *)new_name, new_name_len-1); return mangled_name; } gb_internal String cg_get_entity_name(cgModule *m, Entity *e) { if (e != nullptr && e->kind == Entity_TypeName && e->TypeName.ir_mangled_name.len != 0) { return e->TypeName.ir_mangled_name; } GB_ASSERT(e != nullptr); if (e->pkg == nullptr) { return e->token.string; } if (e->kind == Entity_TypeName && (e->scope->flags & ScopeFlag_File) == 0) { return cg_set_nested_type_name_ir_mangled_name(e, nullptr); } String name = {}; bool no_name_mangle = false; if (e->kind == Entity_Variable) { bool is_foreign = e->Variable.is_foreign; bool is_export = e->Variable.is_export; no_name_mangle = e->Variable.link_name.len > 0 || is_foreign || is_export; if (e->Variable.link_name.len > 0) { return e->Variable.link_name; } } else if (e->kind == Entity_Procedure && e->Procedure.link_name.len > 0) { return e->Procedure.link_name; } else if (e->kind == Entity_Procedure && e->Procedure.is_export) { no_name_mangle = true; } if (!no_name_mangle) { name = cg_mangle_name(m, e); } if (name.len == 0) { name = e->token.string; } if (e->kind == Entity_TypeName) { e->TypeName.ir_mangled_name = name; } else if (e->kind == Entity_Procedure) { e->Procedure.link_name = name; } return name; } #include "tilde_const.cpp" #include "tilde_debug.cpp" #include "tilde_expr.cpp" #include "tilde_builtin.cpp" #include "tilde_type_info.cpp" #include "tilde_proc.cpp" #include "tilde_stmt.cpp" gb_internal String cg_filepath_obj_for_module(cgModule *m, bool use_assembly) { String path = concatenate3_strings(permanent_allocator(), build_context.build_paths[BuildPath_Output].basename, STR_LIT("/"), build_context.build_paths[BuildPath_Output].name ); // if (m->file) { // char buf[32] = {}; // isize n = gb_snprintf(buf, gb_size_of(buf), "-%u", m->file->id); // String suffix = make_string((u8 *)buf, n-1); // path = concatenate_strings(permanent_allocator(), path, suffix); // } else if (m->pkg) { // path = concatenate3_strings(permanent_allocator(), path, STR_LIT("-"), m->pkg->name); // } String ext = {}; if (use_assembly) { ext = STR_LIT(".S"); } else { if (is_arch_wasm()) { ext = STR_LIT(".wasm.o"); } else { switch (build_context.metrics.os) { case TargetOs_windows: ext = STR_LIT(".obj"); break; default: case TargetOs_darwin: case TargetOs_linux: case TargetOs_essence: ext = STR_LIT(".o"); break; case TargetOs_freestanding: switch (build_context.metrics.abi) { default: case TargetABI_Default: case TargetABI_SysV: ext = STR_LIT(".o"); break; case TargetABI_Win64: ext = STR_LIT(".obj"); break; } break; } } } return concatenate_strings(permanent_allocator(), path, ext); } gb_internal WORKER_TASK_PROC(cg_procedure_generate_worker_proc) { cgProcedure *p = cast(cgProcedure *)data; cg_procedure_generate(p); return 0; } gb_internal void cg_add_procedure_to_queue(cgProcedure *p) { if (p == nullptr) { return; } cgModule *m = p->module; if (m->do_threading) { thread_pool_add_task(cg_procedure_generate_worker_proc, p); } else { array_add(&m->single_threaded_procedure_queue, p); } } gb_internal bool cg_generate_code(Checker *c, LinkerData *linker_data) { TIME_SECTION("Tilde Module Initializtion"); CheckerInfo *info = &c->info; linker_data_init(linker_data, info, c->parser->init_fullpath); #if defined(GB_SYSTEM_OSX) linker_enable_system_library_linking(linker_data); #endif cg_global_arena_init(); cgModule *m = cg_module_create(c); defer (cg_module_destroy(m)); m->do_threading = false; TIME_SECTION("Tilde Global Variables"); Array global_variables = {}; bool already_has_entry_point = cg_global_variables_create(m, &global_variables); gb_unused(already_has_entry_point); if (true) { Type *proc_type = alloc_type_proc(nullptr, nullptr, 0, nullptr, 0, false, ProcCC_Odin); cgProcedure *p = cg_procedure_create_dummy(m, str_lit(CG_STARTUP_RUNTIME_PROC_NAME), proc_type); p->is_startup = true; cg_startup_runtime_proc = p; } if (true) { Type *proc_type = alloc_type_proc(nullptr, nullptr, 0, nullptr, 0, false, ProcCC_Odin); cgProcedure *p = cg_procedure_create_dummy(m, str_lit(CG_CLEANUP_RUNTIME_PROC_NAME), proc_type); p->is_startup = true; cg_cleanup_runtime_proc = p; } auto *min_dep_set = &info->minimum_dependency_set; Array procedures_to_generate = {}; array_init(&procedures_to_generate, heap_allocator()); defer (array_free(&procedures_to_generate)); for (Entity *e : info->entities) { String name = e->token.string; Scope *scope = e->scope; if ((scope->flags & ScopeFlag_File) == 0) { continue; } Scope *package_scope = scope->parent; GB_ASSERT(package_scope->flags & ScopeFlag_Pkg); if (e->kind != Entity_Procedure) { continue; } if (!ptr_set_exists(min_dep_set, e)) { // NOTE(bill): Nothing depends upon it so doesn't need to be built continue; } if (cgProcedure *p = cg_procedure_create(m, e)) { array_add(&procedures_to_generate, p); } } for (cgProcedure *p : procedures_to_generate) { cg_add_procedure_to_queue(p); } if (!m->do_threading) { for (isize i = 0; i < m->single_threaded_procedure_queue.count; i++) { cgProcedure *p = m->single_threaded_procedure_queue[i]; cg_procedure_generate(p); } } thread_pool_wait(); { cgProcedure *p = cg_startup_runtime_proc; cg_procedure_begin(p); cg_global_variables_initialize(p, &global_variables); tb_inst_ret(p->func, 0, nullptr); cg_procedure_end(p); } { cgProcedure *p = cg_cleanup_runtime_proc; cg_procedure_begin(p); tb_inst_ret(p->func, 0, nullptr); cg_procedure_end(p); } TB_DebugFormat debug_format = TB_DEBUGFMT_NONE; if (build_context.ODIN_DEBUG) { switch (build_context.metrics.os) { case TargetOs_windows: debug_format = TB_DEBUGFMT_CODEVIEW; break; case TargetOs_darwin: case TargetOs_linux: case TargetOs_essence: case TargetOs_freebsd: case TargetOs_openbsd: debug_format = TB_DEBUGFMT_DWARF; break; } } TB_ExportBuffer export_buffer = tb_module_object_export(m->mod, debug_format); defer (tb_export_buffer_free(export_buffer)); String filepath_obj = cg_filepath_obj_for_module(m, false); array_add(&linker_data->output_object_paths, filepath_obj); GB_ASSERT(tb_export_buffer_to_file(export_buffer, cast(char const *)filepath_obj.text)); return true; } #undef ABI_PKG_NAME_SEPARATOR