#include #include #include #include #include "..\src\gs_platform.h" #include #if 1 #include "..\src\gs_string.h" #else #include #endif #include #include "gs_meta_error.h" #include "gs_meta_lexer.h" #include "foldhaus_meta_type_table.h" error_list GlobalErrorList = {}; PLATFORM_ALLOC(StdAlloc) { u8* Result = (u8*)malloc(Size); return Result; } struct source_code_file { string Path; s32 FileSize; string Contents; s32 FirstTokenIndex; s32 LastTokenIndex; }; struct token_iter { gs_bucket* Tokens; token* TokenAt; s32 TokenAtIndex; s32 FirstToken; s32 LastToken; #define TOKEN_ITER_SNAPSHOTS_MAX 64 u32 SnapshotsUsed; u32 Snapshots[TOKEN_ITER_SNAPSHOTS_MAX]; }; internal token* NextToken (token_iter* Iter) { if (Iter->TokenAtIndex < Iter->LastToken) { Iter->TokenAtIndex++; Iter->TokenAt = Iter->Tokens->GetElementAtIndex(Iter->TokenAtIndex); } return Iter->TokenAt; } internal b32 TokenAtEquals(token_iter* Iter, char* String) { b32 Result = false; if (StringEqualsCharArray(Iter->TokenAt->Text, String)) { Result = true; NextToken(Iter); } return Result; } internal void PushSnapshot (token_iter* Iter) { Iter->Snapshots[Iter->SnapshotsUsed++] = Iter->TokenAtIndex; } internal void PopSnapshot (token_iter* Iter) { if (Iter->SnapshotsUsed > 0) { Iter->SnapshotsUsed -= 1; } } internal void ApplySnapshot (token_iter* Iter) { u32 SnapshotIndex = Iter->SnapshotsUsed; u32 SnapshotPoint = Iter->Snapshots[SnapshotIndex]; Iter->TokenAtIndex = SnapshotPoint; Iter->TokenAt = Iter->Tokens->GetElementAtIndex(SnapshotPoint); } internal void ApplySnapshotIfNotParsedAndPop(b32 ParseSuccess, token_iter* Iter) { PopSnapshot(Iter); if (!ParseSuccess) { ApplySnapshot(Iter); } } internal s32 GetFileSize (char* FileName) { s32 Result = 0; FILE* ReadFile = fopen(FileName, "r"); if (ReadFile) { fseek(ReadFile, 0, SEEK_END); size_t FileSize = ftell(ReadFile); fseek(ReadFile, 0, SEEK_SET); Result = (s32)FileSize; fclose(ReadFile); } return Result; } internal s32 ReadEntireFileAndNullTerminate (source_code_file* File) { s32 LengthRead = 0; FILE* ReadFile = fopen(File->Path.Memory, "r"); if (ReadFile) { fseek(ReadFile, 0, SEEK_END); size_t FileSize = ftell(ReadFile); fseek(ReadFile, 0, SEEK_SET); Assert(File->Contents.Memory == 0); File->Contents.Max = (s32)FileSize + 1; File->Contents.Memory = (char*)malloc(File->Contents.Max); size_t ReadSize = fread(File->Contents.Memory, 1, FileSize, ReadFile); File->Contents.Memory[FileSize] = 0; File->Contents.Length = (s32)ReadSize; LengthRead = (s32)ReadSize + 1; fclose(ReadFile); } else { LogError(&GlobalErrorList, "Could Not Read File: %.*s", StringExpand(File->Path)); } return LengthRead; } internal b32 FileAlreadyInSource(string Path, gs_bucket SourceFiles) { b32 Result = false; for (u32 i = 0; i < SourceFiles.Used; i++) { source_code_file* File = SourceFiles.GetElementAtIndex(i); if (StringsEqual(File->Path, Path)) { Result = true; printf("-- File already in source: %.*s\n", StringExpand(Path)); break; } } return Result; } internal void EatToNextLine (tokenizer* Tokenizer) { while (AtValidPosition(*Tokenizer) && !IsNewline(*Tokenizer->At)) { EatChar(Tokenizer); } } internal s32 GetTypedefSize (token* Token) { s32 Size = 0; token* LookingAt = Token->Next; if (StringsEqual(LookingAt->Text, MakeStringLiteral("unsigned")) || StringsEqual(LookingAt->Text, MakeStringLiteral("signed"))) { LookingAt = LookingAt->Next; } s32 Level = 1; if (StringsEqual(LookingAt->Text, MakeStringLiteral("short"))) { Level = -1; LookingAt = LookingAt->Next; } while (StringsEqual(LookingAt->Text, MakeStringLiteral("long"))) { Level= 2.f; LookingAt = LookingAt->Next; } if (StringsEqual(LookingAt->Text, MakeStringLiteral("char"))) { Size = 1; } else if (StringsEqual(LookingAt->Text, MakeStringLiteral("int"))) { switch (Level) { case -1: { Size = 2; } break; case 1: { Size = 4; } break; case 2: { Size = 8; } break; InvalidDefaultCase; } } else if (StringsEqual(LookingAt->Text, MakeStringLiteral("float"))) { Size = 4; } else if (StringsEqual(LookingAt->Text, MakeStringLiteral("double"))) { Size = 8; } else if (StringsEqual(LookingAt->Text, MakeStringLiteral("bool"))) { Size = 1; } else if (StringsEqual(LookingAt->Text, MakeStringLiteral("void"))) { LogError(&GlobalErrorList, "void type Not Handled"); } return Size; } internal string GetTypedefIdentifier (token* Token) { string Identifier = {}; token* PreviousToken = Token; token* LookingAt = Token->Next; while (LookingAt->Type != Token_Semicolon) { PreviousToken = LookingAt; LookingAt = LookingAt->Next; } if (PreviousToken->Type == Token_Identifier) { Identifier = PreviousToken->Text; } return Identifier; } internal s64 GetWallClock () { LARGE_INTEGER Time; if (!QueryPerformanceCounter(&Time)) { s32 Error = GetLastError(); InvalidCodePath; } return (s64)Time.QuadPart; } internal s64 GetPerformanceFrequency () { LARGE_INTEGER Frequency; if (!QueryPerformanceFrequency(&Frequency)) { s32 Error = GetLastError(); InvalidCodePath; } return (s64)Frequency.QuadPart; } internal r32 GetSecondsElapsed(s64 StartCycles, s64 EndCycles) { s64 Frequency = GetPerformanceFrequency(); r32 SecondsElapsed = (r32)(EndCycles - StartCycles) / (r32)(Frequency); return SecondsElapsed; } internal void AddFileToSource(string RelativePath, gs_bucket* SourceFiles) { source_code_file File = {0}; File.FirstTokenIndex = -1; File.LastTokenIndex = -1; u32 PathLength = RelativePath.Length + 1; File.Path = MakeString((char*)malloc(sizeof(char) * PathLength), 0, PathLength); CopyStringTo(RelativePath, &File.Path); NullTerminate(&File.Path); File.FileSize = ReadEntireFileAndNullTerminate(&File); if (File.FileSize > 0) { SourceFiles->PushElementOnBucket(File); } else { printf("Error: Could not load file %.*s\n", StringExpand(RelativePath)); } } internal void TokenizeFile (source_code_file* File, gs_bucket* Tokens) { tokenizer Tokenizer = {}; Tokenizer.At = File->Contents.Memory; Tokenizer.Memory = File->Contents.Memory; Tokenizer.MemoryLength = File->Contents.Max; token* LastToken = 0; while(AtValidPosition(Tokenizer)) { token NewToken = GetNextToken(&Tokenizer); u32 TokenIndex = Tokens->PushElementOnBucket(NewToken); if (File->FirstTokenIndex < 0) { File->FirstTokenIndex = (s32)TokenIndex; } } File->LastTokenIndex = Tokens->Used - 1; } internal b32 ParseMetaTag(token_iter* Iter, gs_bucket* TagList) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "GSMetaTag") && TokenAtEquals(Iter, "(")) { if (Iter->TokenAt->Type == Token_Identifier) { TagList->PushElementOnBucket(Iter->TokenAt); NextToken(Iter); if (TokenAtEquals(Iter, ")") && TokenAtEquals(Iter, ";")) { Result = true; } } } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 ShortInt (token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "unsigned") || TokenAtEquals(Iter, "signed")) { } if (TokenAtEquals(Iter, "short")) { Result = true; if (TokenAtEquals(Iter, "int")) { Result = true; } } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (Result) { *TypeIndexOut = GetIndexOfType(MakeStringLiteral("short int"), TypeTable); } return Result; } internal b32 Int (token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "unsigned") || TokenAtEquals(Iter, "signed")) { } if (TokenAtEquals(Iter, "int")) { Result = true; } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (Result) { *TypeIndexOut = GetIndexOfType(MakeStringLiteral("int"), TypeTable); } return Result; } internal b32 LongInt (token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "unsigned") || TokenAtEquals(Iter, "signed")) { Result = true; } if (TokenAtEquals(Iter, "long")) { Result = true; if (TokenAtEquals(Iter, "int")) { Result = true; } } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (Result) { *TypeIndexOut = GetIndexOfType(MakeStringLiteral("long int"), TypeTable); } return Result; } internal b32 LongLongInt (token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "unsigned") || TokenAtEquals(Iter, "signed")) { } if (TokenAtEquals(Iter, "long")) { if (TokenAtEquals(Iter, "long")) { Result = true; if (TokenAtEquals(Iter, "int")) { Result = true; } } } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (Result) { *TypeIndexOut = GetIndexOfType(MakeStringLiteral("long long int"), TypeTable); } return Result; } internal b32 ParseChar(token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "unsigned") || TokenAtEquals(Iter, "signed")) { } if (TokenAtEquals(Iter, "char")) { Result = true; } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (Result) { *TypeIndexOut = GetIndexOfType(MakeStringLiteral("char"), TypeTable); } return Result; } internal b32 ParseBool(token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "bool")) { Result = true; *TypeIndexOut = GetIndexOfType(MakeStringLiteral("bool"), TypeTable); } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 ParseFloat(token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "float")) { Result = true; *TypeIndexOut= GetIndexOfType(MakeStringLiteral("float"), TypeTable); } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 ParseDouble(token_iter* Iter, s32* TypeIndexOut, type_table TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "double")) { Result = true; *TypeIndexOut = GetIndexOfType(MakeStringLiteral("double"), TypeTable); } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } // :UndeclaredType // NOTE(Peter): If TypeIndexOut is -1, you need to call NextToken after this // function to advance past the type identifier. internal b32 ParseType(token_iter* Iter, type_table* TypeTable, s32* TypeIndexOut) { b32 Result = false; *TypeIndexOut = -1; PushSnapshot(Iter); // TODO(Peter): Store signedness, and what makes up a type if (ParseChar(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("wchar_t"))) { NextToken(Iter); Result = true; *TypeIndexOut = GetIndexOfType(MakeStringLiteral("wchar_t"), *TypeTable); } else if (ParseBool(Iter, TypeIndexOut, *TypeTable)) { NextToken(Iter); Result = true; } else if (ShortInt(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (Int(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (LongInt(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (LongLongInt(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (ParseFloat(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (ParseDouble(Iter, TypeIndexOut, *TypeTable)) { Result = true; } else if (StringsEqual(Iter->TokenAt->Text, MakeStringLiteral("void"))) { NextToken(Iter); Result = true; *TypeIndexOut = GetIndexOfType(MakeStringLiteral("void"), *TypeTable); } else { *TypeIndexOut = GetIndexOfType(Iter->TokenAt->Text, *TypeTable); if (*TypeIndexOut >= 0) { Result = true; NextToken(Iter); } else if(Iter->TokenAt->Type == Token_Identifier) { Result = true; // NOTE(Peter): In this case, we believe we are at a type identifier, // however, it hasn't been declared yet. This is due to the fact that we // tokenize files, then parse them, then import the files they include, and // then begin tokenizing, parsing, etc for those files. // In the case that we get an as-of-yet undeclared type, we leave it // up to the calling site to determine what to do with that information // :UndeclaredType *TypeIndexOut = -1; } } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 ParsePointer (token_iter* Iter) { b32 Result = false; if (TokenAtEquals(Iter, "*")) { Result = true; } return Result; } internal b32 ParseStructMember(token_iter* Iter, gs_bucket* TagList, struct_member_decl* MemberDecl, type_table* TypeTable) { b32 Result = false; PushSnapshot(Iter); s32 TypeIndex = -1; if (ParseType(Iter, TypeTable, &TypeIndex)) { // :UndeclaredType if (TypeIndex < 0) { TypeIndex = PushUndeclaredType(Iter->TokenAt->Text, TypeTable); NextToken(Iter); } MemberDecl->Pointer = ParsePointer(Iter); if (Iter->TokenAt->Type == Token_Identifier) { MemberDecl->TypeIndex = TypeIndex; MemberDecl->Identifier = Iter->TokenAt->Text; CopyMetaTagsAndClear(TagList, &MemberDecl->MetaTags); NextToken(Iter); // Array Notationg ie r32 x[2]; // NOTE(Peter): True initially because if there is no array notation, we // are still ok to proceed b32 ArrayParseSuccess = true; if (TokenAtEquals(Iter, "[")) { // NOTE(Peter): Once we get to this point, we have to complete the entire // array notation before we have successfully parsed, hence setting // ArrayParseSucces to false here. ArrayParseSuccess = false; if (Iter->TokenAt->Type == Token_Number) { parse_result ArrayCount = ParseUnsignedInt(StringExpand(Iter->TokenAt->Text)); MemberDecl->ArrayCount = ArrayCount.UnsignedIntValue; NextToken(Iter); if (TokenAtEquals(Iter, "]")) { ArrayParseSuccess = true; } } } // TODO(Peter): Handle comma separated members // ie. r32 x, y, z; if (TokenAtEquals(Iter, ";") && ArrayParseSuccess) { Result = true; } } } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 StructOrUnion(token_iter* Iter, type_definition_type* Type) { b32 Result = false; if (TokenAtEquals(Iter, "struct")) { Result = true; *Type = TypeDef_Struct; } else if (TokenAtEquals(Iter, "union")) { Result = true; *Type = TypeDef_Union; } return Result; } internal b32 ParseStruct(token_iter* Iter, s32* StructTypeIndexOut, gs_bucket* TagList, type_table* TypeTable) { b32 Result = false; *StructTypeIndexOut = -1; PushSnapshot(Iter); type_definition_type DeclType; if (StructOrUnion(Iter, &DeclType)) { string StructIdentifier = {}; if (Iter->TokenAt->Type == Token_Identifier) { StructIdentifier = Iter->TokenAt->Text; NextToken(Iter); } if (TokenAtEquals(Iter, "{")) { type_definition StructDecl = {}; StructDecl.Identifier = StructIdentifier; StructDecl.Type = DeclType; CopyMetaTagsAndClear(TagList, &StructDecl.MetaTags); while (!TokenAtEquals(Iter, "}")) { s32 MemberStructTypeIndex = {}; struct_member_decl MemberDecl = {}; if (ParseMetaTag(Iter, TagList)) { } else if (ParseStructMember(Iter, TagList, &MemberDecl, TypeTable)) { StructDecl.Struct.MemberDecls.PushElementOnBucket(MemberDecl); } else if (ParseStruct(Iter, &MemberStructTypeIndex, TagList, TypeTable)) { // NOTE(Peter): Pretty sure, since we just parsed the struct, that // MemberStructTypeIndex should never be -1 (unknown type). // Putting this Assert here for now, but remove if there's a valid // reason that you might not be able to find a struct just parsed at // this point. Assert(MemberStructTypeIndex >= 0); MemberDecl.TypeIndex = MemberStructTypeIndex; StructDecl.Struct.MemberDecls.PushElementOnBucket(MemberDecl); } else { // TODO(Peter): Handle unions NextToken(Iter); } } if (TokenAtEquals(Iter, ";")) { Result = true; *StructTypeIndexOut = TypeTable->Types.PushElementOnBucket(StructDecl); } } } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal b32 ParseFunctionDeclaration (token_iter* Iter, token* Identifier, gs_bucket* TagList, type_table* TypeTable) { b32 Result = false; PushSnapshot(Iter); s32 TypeIndex = -1; if (ParseType(Iter, TypeTable, &TypeIndex)) { if (TypeIndex < 0) { NextToken(Iter); } b32 IsPointer = ParsePointer(Iter); if (Iter->TokenAt->Type == Token_Identifier) { *Identifier = *Iter->TokenAt; NextToken(Iter); if (TokenAtEquals(Iter, "(")) { while(!TokenAtEquals(Iter, ")")) { // TODO(Peter): parse function params NextToken(Iter); } if (TokenAtEquals(Iter, ";")) { Result = true; } } } } ApplySnapshotIfNotParsedAndPop(Result, Iter); if (!Result) { *Identifier = {0}; } return Result; } internal b32 ParseTypedef(token_iter* Iter, gs_bucket* TagList, type_table* TypeTable) { b32 Result = false; PushSnapshot(Iter); if (TokenAtEquals(Iter, "typedef")) { token TypeToken = {0}; s32 TypeIndex = -1; if (TokenAtEquals(Iter, "struct") && ParseStruct(Iter, &TypeIndex, TagList, TypeTable)) { Result = true; } else if (ParseFunctionDeclaration(Iter, &TypeToken, TagList, TypeTable)) { Result = true; printf("New Function Type: %.*s\n", StringExpand(TypeToken.Text)); } else if (ParseType(Iter, TypeTable, &TypeIndex)) { if (TypeIndex < 0) { TypeIndex = PushUndeclaredType(Iter->TokenAt->Text, TypeTable); NextToken(Iter); } b32 IsPointer = ParsePointer(Iter); type_definition* BasisType = TypeTable->Types.GetElementAtIndex(TypeIndex); type_definition NewType = {}; NewType.Size = BasisType->Size; CopyMetaTagsAndClear(TagList, &NewType.MetaTags); NewType.Type = BasisType->Type; if (NewType.Type == TypeDef_Struct || NewType.Type == TypeDef_Union) { NewType.Struct = BasisType->Struct; } NewType.Pointer = BasisType->Pointer || IsPointer; if (Iter->TokenAt->Type == Token_Identifier) { NewType.Identifier = Iter->TokenAt->Text; NextToken(Iter); printf("New Type: %.*s\n", StringExpand(NewType.Identifier)); Result = true; s32 ExistingUndeclaredTypeIndex = GetIndexOfType(NewType.Identifier, *TypeTable); if (ExistingUndeclaredTypeIndex < 0) { TypeTable->Types.PushElementOnBucket(NewType); } else { type_definition* ExistingTypeDef = TypeTable->Types.GetElementAtIndex(ExistingUndeclaredTypeIndex); *ExistingTypeDef = NewType; } } } else { printf("unhandled typedef "); while (!TokenAtEquals(Iter, ";")) { printf("%.*s ", StringExpand(Iter->TokenAt->Text)); NextToken(Iter); } printf("\n"); } } ApplySnapshotIfNotParsedAndPop(Result, Iter); return Result; } internal void PrintIndent (u32 Indent) { for (u32 i = 0; i < Indent; i++) { printf(" "); } } internal void PrintStructDecl (type_definition* StructDecl, type_table TypeTable, u32 Indent); internal void PrintStructMember (struct_member_decl Member, type_table TypeTable, u32 Indent = 0) { type_definition* MemberTypeDef = TypeTable.Types.GetElementAtIndex(Member.TypeIndex); if ((MemberTypeDef->Type == TypeDef_Struct || MemberTypeDef->Type == TypeDef_Union) && MemberTypeDef->Identifier.Length == 0) { PrintStructDecl(MemberTypeDef, TypeTable, Indent); } else { PrintIndent(Indent); if (Member.TypeIndex == -1) { printf("???? "); } printf("%.*s ", StringExpand(MemberTypeDef->Identifier)); } if (Member.Pointer) { printf("* "); } printf("%.*s", StringExpand(Member.Identifier)); if (Member.ArrayCount > 0) { printf("[%d]", Member.ArrayCount); } printf(";"); } internal void PrintStructDecl (type_definition* StructDecl, type_table TypeTable, u32 Indent = 0) { Assert(StructDecl->Type == TypeDef_Struct || StructDecl->Type == TypeDef_Union); PrintIndent(Indent); if (StructDecl->Type == TypeDef_Struct) { printf("struct "); } else if (StructDecl->Type == TypeDef_Union) { printf("union "); } else { InvalidCodePath; } if (StructDecl->Identifier.Length > 0) { printf("%.*s ", StringExpand(StructDecl->Identifier)); } printf("{\n"); for (u32 MemberIndex = 0; MemberIndex < StructDecl->Struct.MemberDecls.Used; MemberIndex++) { struct_member_decl* Member = StructDecl->Struct.MemberDecls.GetElementAtIndex(MemberIndex); PrintStructMember(*Member, TypeTable, Indent + 1); printf("\n"); } PrintIndent(Indent); printf("} ( size = %d ) ", StructDecl->Size); } // Step 1: Get All Tokens, for every file // Step 2: Identify all preprocessor directives // Step 3: Apply Preprocessor Directives && Generate Code // Step 4: Write out new files // Step 5: Compile int main(int ArgCount, char** ArgV) { s64 TotalStart = GetWallClock(); if (ArgCount <= 1) { printf("Please supply at least one source directory to analyze.\n"); return 0; } memory_arena SourceFileArena = {}; gs_bucket SourceFiles; gs_bucket Tokens; string_builder NodeTypeBlock = {}; Write(MakeStringLiteral("enum node_type\n{\n"), &NodeTypeBlock); string_builder NodeMembersBlock = {}; string_builder NodeSpecificationsBlock = {}; Write(MakeStringLiteral("node_specification NodeSpecifications[] = {\n"), &NodeSpecificationsBlock); string_builder CallNodeProcBlock = {}; Write(MakeStringLiteral("internal void CallNodeProc(u32 SpecificationIndex, u8* Data, led* LEDs, s32 LEDsCount, r32 DeltaTime)\n{\n"), &CallNodeProcBlock); Write(MakeStringLiteral("node_specification Spec = NodeSpecifications[SpecificationIndex];\n"), &CallNodeProcBlock); Write(MakeStringLiteral("switch (Spec.Type)\n{\n"), &CallNodeProcBlock); string CurrentWorkingDirectory = MakeString((char*)malloc(1024), 0, 1024); if (ArgCount > 1) { string RootFile = MakeString(ArgV[1]); AddFileToSource(RootFile, &SourceFiles); s32 LastSlash = ReverseSearchForCharInSet(RootFile, "\\/"); Assert(LastSlash > 0); string RootPath = Substring(RootFile, 0, LastSlash + 1); CopyStringTo(RootPath, &CurrentWorkingDirectory); } // NOTE(Peter): this is a temporary list of GSMetaTags. It gets copied and cleared // after use gs_bucket TagList; type_table TypeTable = {0}; PopulateTableWithDefaultCPPTypes(&TypeTable); for (u32 i = 0; i < TypeTable.Types.Used; i++) { type_definition* TypeDefinition = TypeTable.Types.GetElementAtIndex(i); printf("%.*s\n", StringExpand(TypeDefinition->Identifier)); } s32 NodeProcCount = 0; for (u32 SourceFileIdx = 0; SourceFileIdx < SourceFiles.Used; SourceFileIdx++) { source_code_file* File = SourceFiles.GetElementAtIndex(SourceFileIdx); TokenizeFile(File, &Tokens); token_iter Iter = {}; Iter.Tokens = &Tokens; Iter.FirstToken = File->FirstTokenIndex; Iter.LastToken = File->LastTokenIndex; Iter.TokenAtIndex = Iter.FirstToken; Iter.TokenAt = Tokens.GetElementAtIndex(Iter.TokenAtIndex); while (Iter.TokenAtIndex < Iter.LastToken) { b32 ParseSuccess = false; s32 TypeIndex = -1; if (TokenAtEquals(&Iter, "#include")) { token* IncludeFile = Iter.TokenAt; // NOTE(Peter): For now we aren't going in and preprocessing the header files // we include from the system // Token_Operator is used to check if the include is of the form '#include ' // and skip it. // TODO(Peter): This is only a rough approximation of ignoring system headers // TODO(Peter): We should actually see what parsing system headers would entail if (IncludeFile->Type != Token_Operator) { string TempFilePath = IncludeFile->Text; // NOTE(Peter): if the path is NOT absolute ie "C:\etc if (!(IsAlpha(TempFilePath.Memory[0]) && TempFilePath.Memory[1] == ':' && TempFilePath.Memory[2] == '\\')) { TempFilePath = CurrentWorkingDirectory; ConcatString(IncludeFile->Text, &TempFilePath); NullTerminate(&TempFilePath); } ParseSuccess = true; if (!FileAlreadyInSource(TempFilePath, SourceFiles)) { AddFileToSource(TempFilePath, &SourceFiles); } } } else if(ParseMetaTag(&Iter, &TagList)) { ParseSuccess = true; } else if (ParseStruct(&Iter, &TypeIndex, &TagList, &TypeTable)) { ParseSuccess = true; } else if (ParseTypedef(&Iter, &TagList, &TypeTable)) { ParseSuccess = true; } if (!ParseSuccess) { NextToken(&Iter); } } } // Type Table Fixup for (u32 i = 0; i < TypeTable.Types.Used; i++) { type_definition* TypeDef = TypeTable.Types.GetElementAtIndex(i); if (TypeDef->Type == TypeDef_Struct) { FixUpStructSize(TypeDef, TypeTable); } else if (TypeDef->Type == TypeDef_Union) { FixUpUnionSize(TypeDef, TypeTable); } } for (u32 i = 0; i < TypeTable.Types.Used; i++) { type_definition* TypeDef = TypeTable.Types.GetElementAtIndex(i); if ((TypeDef->Type == TypeDef_Struct || TypeDef->Type == TypeDef_Union) && TypeDef->Identifier.Length > 0) { PrintStructDecl(TypeDef, TypeTable); printf("\n\n"); } } s64 Cycles_Preprocess = GetWallClock(); MakeStringBuffer(Buffer, 256); // Close Types Block - overwrite the last comma and '\' newline character with newlines. Write(MakeStringLiteral("NodeType_Count,\n};\n\n"), &NodeTypeBlock); // Close Specifications Block Write(MakeStringLiteral("};\n"), &NodeSpecificationsBlock); PrintF(&Buffer, "s32 NodeSpecificationsCount = %d;\n\n", NodeProcCount); Write(Buffer, &NodeSpecificationsBlock); // Close Call Node Proc Block Write(MakeStringLiteral("}\n}\n"), &CallNodeProcBlock); FILE* NodeGeneratedCPP = fopen("C:\\projects\\foldhaus\\src\\generated\\foldhaus_nodes_generated.cpp", "w"); if (NodeGeneratedCPP) { WriteStringBuilderToFile(NodeTypeBlock, NodeGeneratedCPP); WriteStringBuilderToFile(NodeMembersBlock, NodeGeneratedCPP); WriteStringBuilderToFile(NodeSpecificationsBlock, NodeGeneratedCPP); WriteStringBuilderToFile(CallNodeProcBlock, NodeGeneratedCPP); fclose(NodeGeneratedCPP); } PrintErrorList(GlobalErrorList); s64 TotalEnd = GetWallClock(); r32 TotalTime = GetSecondsElapsed(TotalStart, TotalEnd); printf("Metaprogram Preproc Time: %.*f sec\n", 6, TotalTime); #if 0 for (u32 i = 0; i < Structs.Used; i++) { seen_node_struct* Struct = Structs.GetElementAtIndex(i); #ifdef PRINT_ALL_INFO printf("\n"); for (u32 j = 0; j < Struct->MetaTags.Used; j++) { token* MetaTag = Struct->MetaTags.GetElementAtIndex(j); printf("GSMetaTag(%.*s)\n", StringExpand(MetaTag->Text)); } #endif printf("struct %.*s\n", StringExpand(Struct->Name)); #ifdef PRINT_ALL_INFO for (u32 j = 0; j < Struct->MemberDecls.Used; j++) { struct_member_decl* Member = Struct->MemberDecls.GetElementAtIndex(j); for (u32 k = 0; k < Member->MetaTags.Used; k++) { token* MetaTag = Member->MetaTags.GetElementAtIndex(k); printf(" GSMetaTag(%.*s)\n", StringExpand(MetaTag->Text)); } printf(" %.*s %.*s\n", StringExpand(Member->Type), StringExpand(Member->Identifier)); } #endif } #endif __debugbreak(); return 0; }