#ifdef GEN_INTELLISENSE_DIRECTIVES #pragma once #include "code_serialization.cpp" #endif GEN_NS_PARSER_BEGIN internal void parser_init(); internal void parser_deinit(); GEN_NS_PARSER_END internal void* Global_Allocator_Proc( void* allocator_data, AllocType type, ssize size, ssize alignment, void* old_memory, ssize old_size, u64 flags ) { Arena* last = array_back(Global_AllocatorBuckets); switch ( type ) { case EAllocation_ALLOC: { if ( ( last->TotalUsed + size ) > last->TotalSize ) { Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize ); if ( bucket.PhysicalStart == nullptr ) GEN_FATAL( "Failed to create bucket for Global_AllocatorBuckets"); if ( ! array_append( Global_AllocatorBuckets, bucket ) ) GEN_FATAL( "Failed to append bucket to Global_AllocatorBuckets"); last = array_back(Global_AllocatorBuckets); } return alloc_align( arena_allocator_info(last), size, alignment ); } case EAllocation_FREE: { // Doesn't recycle. } break; case EAllocation_FREE_ALL: { // Memory::cleanup instead. } break; case EAllocation_RESIZE: { if ( last->TotalUsed + size > last->TotalSize ) { Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize ); if ( bucket.PhysicalStart == nullptr ) GEN_FATAL( "Failed to create bucket for Global_AllocatorBuckets"); if ( ! array_append( Global_AllocatorBuckets, bucket ) ) GEN_FATAL( "Failed to append bucket to Global_AllocatorBuckets"); last = array_back(Global_AllocatorBuckets); } void* result = alloc_align( last->Backing, size, alignment ); if ( result != nullptr && old_memory != nullptr ) { mem_copy( result, old_memory, old_size ); } return result; } } return nullptr; } internal void define_constants() { Code_Global = make_code(); Code_Global->Name = get_cached_string( txt("Global Code") ); Code_Global->Content = Code_Global->Name; Code_Invalid = make_code(); code_set_global(Code_Invalid); t_empty = (CodeTypename) make_code(); t_empty->Type = CT_Typename; t_empty->Name = get_cached_string( txt("") ); code_set_global(cast(Code, t_empty)); access_private = make_code(); access_private->Type = CT_Access_Private; access_private->Name = get_cached_string( txt("private:\n") ); code_set_global(cast(Code, access_private)); access_protected = make_code(); access_protected->Type = CT_Access_Protected; access_protected->Name = get_cached_string( txt("protected:\n") ); code_set_global(access_protected); access_public = make_code(); access_public->Type = CT_Access_Public; access_public->Name = get_cached_string( txt("public:\n") ); code_set_global(access_public); Str api_export_str = code(GEN_API_Export_Code); attrib_api_export = def_attributes( api_export_str ); code_set_global(cast(Code, attrib_api_export)); Str api_import_str = code(GEN_API_Import_Code); attrib_api_import = def_attributes( api_import_str ); code_set_global(cast(Code, attrib_api_import)); module_global_fragment = make_code(); module_global_fragment->Type = CT_Untyped; module_global_fragment->Name = get_cached_string( txt("module;") ); module_global_fragment->Content = module_global_fragment->Name; code_set_global(cast(Code, module_global_fragment)); module_private_fragment = make_code(); module_private_fragment->Type = CT_Untyped; module_private_fragment->Name = get_cached_string( txt("module : private;") ); module_private_fragment->Content = module_private_fragment->Name; code_set_global(cast(Code, module_private_fragment)); fmt_newline = make_code(); fmt_newline->Type = CT_NewLine; code_set_global((Code)fmt_newline); pragma_once = (CodePragma) make_code(); pragma_once->Type = CT_Preprocess_Pragma; pragma_once->Name = get_cached_string( txt("once") ); pragma_once->Content = pragma_once->Name; code_set_global((Code)pragma_once); param_varadic = (CodeParams) make_code(); param_varadic->Type = CT_Parameters; param_varadic->Name = get_cached_string( txt("...") ); param_varadic->ValueType = t_empty; code_set_global((Code)param_varadic); preprocess_else = (CodePreprocessCond) make_code(); preprocess_else->Type = CT_Preprocess_Else; code_set_global((Code)preprocess_else); preprocess_endif = (CodePreprocessCond) make_code(); preprocess_endif->Type = CT_Preprocess_EndIf; code_set_global((Code)preprocess_endif); Str auto_str = txt("auto"); t_auto = def_type( auto_str ); code_set_global( t_auto ); Str void_str = txt("void"); t_void = def_type( void_str ); code_set_global( t_void ); Str int_str = txt("int"); t_int = def_type( int_str ); code_set_global( t_int ); Str bool_str = txt("bool"); t_bool = def_type( bool_str ); code_set_global( t_bool ); Str char_str = txt("char"); t_char = def_type( char_str ); code_set_global( t_char ); Str wchar_str = txt("wchar_t"); t_wchar_t = def_type( wchar_str ); code_set_global( t_wchar_t ); Str class_str = txt("class"); t_class = def_type( class_str ); code_set_global( t_class ); Str typename_str = txt("typename"); t_typename = def_type( typename_str ); code_set_global( t_typename ); #ifdef GEN_DEFINE_LIBRARY_CODE_CONSTANTS t_b32 = def_type( name(b32) ); code_set_global( t_b32 ); Str s8_str = txt("s8"); t_s8 = def_type( s8_str ); code_set_global( t_s8 ); Str s16_str = txt("s16"); t_s16 = def_type( s16_str ); code_set_global( t_s16 ); Str s32_str = txt("s32"); t_s32 = def_type( s32_str ); code_set_global( t_s32 ); Str s64_str = txt("s64"); t_s64 = def_type( s64_str ); code_set_global( t_s64 ); Str u8_str = txt("u8"); t_u8 = def_type( u8_str ); code_set_global( t_u8 ); Str u16_str = txt("u16"); t_u16 = def_type( u16_str ); code_set_global( t_u16 ); Str u32_str = txt("u32"); t_u32 = def_type( u32_str ); code_set_global( t_u32 ); Str u64_str = txt("u64"); t_u64 = def_type( u64_str ); code_set_global( t_u64 ); Str ssize_str = txt("ssize"); t_ssize = def_type( ssize_str ); code_set_global( t_ssize ); Str usize_str = txt("usize"); t_usize = def_type( usize_str ); code_set_global( t_usize ); Str f32_str = txt("f32"); t_f32 = def_type( f32_str ); code_set_global( t_f32 ); Str f64_str = txt("f64"); t_f64 = def_type( f64_str ); code_set_global( t_f64 ); #endif spec_const = def_specifier( Spec_Const); code_set_global( cast(Code, spec_const )); spec_consteval = def_specifier( Spec_Consteval); code_set_global( cast(Code, spec_consteval ));; spec_constexpr = def_specifier( Spec_Constexpr); code_set_global( cast(Code, spec_constexpr ));; spec_constinit = def_specifier( Spec_Constinit); code_set_global( cast(Code, spec_constinit ));; spec_extern_linkage = def_specifier( Spec_External_Linkage); code_set_global( cast(Code, spec_extern_linkage ));; spec_final = def_specifier( Spec_Final); code_set_global( cast(Code, spec_final ));; spec_forceinline = def_specifier( Spec_ForceInline); code_set_global( cast(Code, spec_forceinline ));; spec_global = def_specifier( Spec_Global); code_set_global( cast(Code, spec_global ));; spec_inline = def_specifier( Spec_Inline); code_set_global( cast(Code, spec_inline ));; spec_internal_linkage = def_specifier( Spec_Internal_Linkage); code_set_global( cast(Code, spec_internal_linkage ));; spec_local_persist = def_specifier( Spec_Local_Persist); code_set_global( cast(Code, spec_local_persist ));; spec_mutable = def_specifier( Spec_Mutable); code_set_global( cast(Code, spec_mutable ));; spec_neverinline = def_specifier( Spec_NeverInline); code_set_global( cast(Code, spec_neverinline ));; spec_noexcept = def_specifier( Spec_NoExceptions); code_set_global( cast(Code, spec_noexcept ));; spec_override = def_specifier( Spec_Override); code_set_global( cast(Code, spec_override ));; spec_ptr = def_specifier( Spec_Ptr); code_set_global( cast(Code, spec_ptr ));; spec_pure = def_specifier( Spec_Pure); code_set_global( cast(Code, spec_pure )); spec_ref = def_specifier( Spec_Ref); code_set_global( cast(Code, spec_ref ));; spec_register = def_specifier( Spec_Register); code_set_global( cast(Code, spec_register ));; spec_rvalue = def_specifier( Spec_RValue); code_set_global( cast(Code, spec_rvalue ));; spec_static_member = def_specifier( Spec_Static); code_set_global( cast(Code, spec_static_member ));; spec_thread_local = def_specifier( Spec_Thread_Local); code_set_global( cast(Code, spec_thread_local ));; spec_virtual = def_specifier( Spec_Virtual); code_set_global( cast(Code, spec_virtual ));; spec_volatile = def_specifier( Spec_Volatile); code_set_global( cast(Code, spec_volatile )); spec_local_persist = def_specifiers( 1, Spec_Local_Persist ); code_set_global(cast(Code, spec_local_persist)); if (enum_underlying_sig.Len == 0) { enum_underlying_sig = txt("enum_underlying("); } array_append(PreprocessorDefines, enum_underlying_sig); # undef def_constant_spec } void init() { // Setup global allocator { AllocatorInfo becasue_C = { & Global_Allocator_Proc, nullptr }; GlobalAllocator = becasue_C; Global_AllocatorBuckets = array_init_reserve(Arena, heap(), 128 ); if ( Global_AllocatorBuckets == nullptr ) GEN_FATAL( "Failed to reserve memory for Global_AllocatorBuckets"); Arena bucket = arena_init_from_allocator( heap(), Global_BucketSize ); if ( bucket.PhysicalStart == nullptr ) GEN_FATAL( "Failed to create first bucket for Global_AllocatorBuckets"); array_append( Global_AllocatorBuckets, bucket ); } if (Allocator_DataArrays.Proc == nullptr) { Allocator_DataArrays = GlobalAllocator; } if (Allocator_CodePool.Proc == nullptr ) { Allocator_CodePool = GlobalAllocator; } if (Allocator_Lexer.Proc == nullptr) { Allocator_Lexer = GlobalAllocator; } if (Allocator_StringArena.Proc == nullptr) { Allocator_StringArena = GlobalAllocator; } if (Allocator_StringTable.Proc == nullptr) { Allocator_StringTable = GlobalAllocator; } if (Allocator_TypeTable.Proc == nullptr) { Allocator_TypeTable = GlobalAllocator; } // Setup the arrays { CodePools = array_init_reserve(Pool, Allocator_DataArrays, InitSize_DataArrays ); if ( CodePools == nullptr ) GEN_FATAL( "gen::init: Failed to initialize the CodePools array" ); StringArenas = array_init_reserve(Arena, Allocator_DataArrays, InitSize_DataArrays ); if ( StringArenas == nullptr ) GEN_FATAL( "gen::init: Failed to initialize the StringArenas array" ); } // Setup the code pool and code entries arena. { Pool code_pool = pool_init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) ); if ( code_pool.PhysicalStart == nullptr ) GEN_FATAL( "gen::init: Failed to initialize the code pool" ); array_append( CodePools, code_pool ); LexArena = arena_init_from_allocator( Allocator_Lexer, LexAllocator_Size ); Arena strbuilder_arena = arena_init_from_allocator( Allocator_StringArena, SizePer_StringArena ); if ( strbuilder_arena.PhysicalStart == nullptr ) GEN_FATAL( "gen::init: Failed to initialize the string arena" ); array_append( StringArenas, strbuilder_arena ); } // Setup the hash tables { StringCache = hashtable_init(StringCached, Allocator_StringTable); if ( StringCache.Entries == nullptr ) GEN_FATAL( "gen::init: Failed to initialize the StringCache"); } // Preprocessor Defines PreprocessorDefines = array_init_reserve(StringCached, GlobalAllocator, kilobytes(1) ); define_constants(); GEN_NS_PARSER parser_init(); } void deinit() { usize index = 0; usize left = array_num(CodePools); do { Pool* code_pool = & CodePools[index]; pool_free(code_pool); index++; } while ( left--, left ); index = 0; left = array_num(StringArenas); do { Arena* strbuilder_arena = & StringArenas[index]; arena_free(strbuilder_arena); index++; } while ( left--, left ); hashtable_destroy(StringCache); array_free( CodePools); array_free( StringArenas); arena_free(& LexArena); array_free(PreprocessorDefines); index = 0; left = array_num(Global_AllocatorBuckets); do { Arena* bucket = & Global_AllocatorBuckets[ index ]; arena_free(bucket); index++; } while ( left--, left ); array_free(Global_AllocatorBuckets); GEN_NS_PARSER parser_deinit(); } void reset() { s32 index = 0; s32 left = array_num(CodePools); do { Pool* code_pool = & CodePools[index]; pool_clear(code_pool); index++; } while ( left--, left ); index = 0; left = array_num(StringArenas); do { Arena* strbuilder_arena = & StringArenas[index]; strbuilder_arena->TotalUsed = 0;; index++; } while ( left--, left ); hashtable_clear(StringCache); define_constants(); } AllocatorInfo get_strbuilder_allocator( s32 c_str_length ) { Arena* last = array_back(StringArenas); usize size_req = c_str_length + sizeof(StrBuilderHeader) + sizeof(char*); if ( last->TotalUsed + scast(ssize, size_req) > last->TotalSize ) { Arena new_arena = arena_init_from_allocator( Allocator_StringArena, SizePer_StringArena ); if ( ! array_append( StringArenas, new_arena ) ) GEN_FATAL( "gen::get_strbuilder_allocator: Failed to allocate a new string arena" ); last = array_back(StringArenas); } return arena_allocator_info(last); } // Will either make or retrive a code string. StringCached get_cached_string( Str str ) { s32 hash_length = str.Len > kilobytes(1) ? kilobytes(1) : str.Len; u64 key = crc32( str.Ptr, hash_length ); { StringCached* result = hashtable_get(StringCache, key ); if ( result ) return * result; } Str result = strbuilder_to_str( strbuilder_make_str( get_strbuilder_allocator( str.Len ), str )); hashtable_set(StringCache, key, result ); return result; } // Used internally to retireve a Code object form the CodePool. Code make_code() { Pool* allocator = array_back( CodePools); if ( allocator->FreeList == nullptr ) { Pool code_pool = pool_init( Allocator_CodePool, CodePool_NumBlocks, sizeof(AST) ); if ( code_pool.PhysicalStart == nullptr ) GEN_FATAL( "gen::make_code: Failed to allocate a new code pool - CodePool allcoator returned nullptr." ); if ( ! array_append( CodePools, code_pool ) ) GEN_FATAL( "gen::make_code: Failed to allocate a new code pool - CodePools failed to append new pool." ); allocator = array_back( CodePools); } Code result = { rcast( AST*, alloc( pool_allocator_info(allocator), sizeof(AST) )) }; mem_set( rcast(void*, cast(AST*, result)), 0, sizeof(AST) ); return result; } void set_allocator_data_arrays( AllocatorInfo allocator ) { Allocator_DataArrays = allocator; } void set_allocator_code_pool( AllocatorInfo allocator ) { Allocator_CodePool = allocator; } void set_allocator_lexer( AllocatorInfo allocator ) { Allocator_Lexer = allocator; } void set_allocator_strbuilder_arena( AllocatorInfo allocator ) { Allocator_StringArena = allocator; } void set_allocator_strbuilder_table( AllocatorInfo allocator ) { Allocator_StringArena = allocator; }