namespace Parser { struct Token { char const* Text; sptr Length; TokType Type; s32 Line; s32 Column; bool IsAssign; // TokFlags Flags; operator bool() { return Text && Length && Type != TokType::Invalid; } operator StrC() { return { Length, Text }; } bool is_access_specifier() { return Type >= TokType::Access_Private && Type <= TokType::Access_Public; } bool is_attribute() { return Type > TokType::__Attributes_Start; } bool is_preprocessor() { return Type >= TokType::Preprocess_Define && Type <= TokType::Preprocess_Pragma; } bool is_preprocess_cond() { return Type >= TokType::Preprocess_If && Type <= TokType::Preprocess_EndIf; } bool is_specifier() { return (Type <= TokType::Star && Type >= TokType::Spec_Alignas) || Type == TokType::Ampersand || Type == TokType::Ampersand_DBL ; } AccessSpec to_access_specifier() { return scast(AccessSpec, Type); } }; constexpr Token NullToken { nullptr, 0, TokType::Invalid, false, 0, 0 }; struct TokArray { Array Arr; s32 Idx; bool __eat( TokType type ); Token& current() { return Arr[Idx]; } Token& previous() { return Arr[Idx - 1]; } Token* next() { return Idx + 1 < Arr.num() ? &Arr[Idx + 1] : nullptr; } Token& operator []( s32 idx ) { return Arr[idx]; } }; struct StackNode { StackNode* Prev; Token Start; Token Name; // The name of the AST node (if parsed) StrC ProcName; // The name of the procedure }; struct ParseContext { TokArray Tokens; StackNode* Scope; void push( StackNode* node ) { node->Prev = Scope; Scope = node; } void pop() { Scope = Scope->Prev; } String to_string() { String result = String::make_reserve( GlobalAllocator, kilobytes(4) ); Token scope_start = Scope->Start; Token last_valid = Tokens.Idx >= Tokens.Arr.num() ? Tokens.Arr[Tokens.Arr.num() -1] : Tokens.current(); sptr length = scope_start.Length; char const* current = scope_start.Text + length; while ( current <= Tokens.Arr.back().Text && *current != '\n' && length < 74 ) { current++; length++; } String line = String::make( GlobalAllocator, { length, scope_start.Text } ); result.append_fmt("\tScope : %s\n", line ); line.free(); sptr dist = (sptr)last_valid.Text - (sptr)scope_start.Text + 2; sptr length_from_err = dist; String line_from_err = String::make( GlobalAllocator, { length_from_err, last_valid.Text } ); if ( length_from_err < 100 ) result.append_fmt("\t(%d, %d):%*c\n", last_valid.Line, last_valid.Column, length_from_err, '^' ); else result.append_fmt("\t(%d, %d)\n", last_valid.Line, last_valid.Column ); StackNode* curr_scope = Scope; s32 level = 0; do { if ( curr_scope->Name ) { result.append_fmt("\t%d: %s, AST Name: %.*s\n", level, curr_scope->ProcName.Ptr, curr_scope->Name.Length, (StrC)curr_scope->Name ); } else { result.append_fmt("\t%d: %s\n", level, curr_scope->ProcName.Ptr ); } curr_scope = curr_scope->Prev; level++; } while ( curr_scope ); return result; } }; global ParseContext Context; bool TokArray::__eat( TokType type ) { if ( Arr.num() - Idx <= 0 ) { log_failure( "No tokens left.\n%s", Context.to_string() ); return false; } if ( Arr[Idx].Type != type ) { String token_str = String::make( GlobalAllocator, { Arr[Idx].Length, Arr[Idx].Text } ); log_failure( "Parse Error, TokArray::eat, Expected: ' %s ' not ' %s ' (%d, %d)`\n%s" , ETokType::to_str(type) , token_str , current().Line , current().Column , Context.to_string() ); return false; } Idx++; return true; } enum TokFlags : u32 { IsAssign = bit(0), }; global Array Tokens; TokArray lex( StrC content ) { # define current ( * scanner ) # define move_forward() \ { \ if ( current == '\n' ) \ { \ line++; \ column = 0; \ } \ else \ { \ column++; \ } \ left--; \ scanner++; \ } # define SkipWhitespace() \ while ( left && char_is_space( current ) ) \ { \ move_forward(); \ } s32 left = content.Len; char const* scanner = content.Ptr; char const* word = scanner; s32 word_length = 0; s32 line = 1; s32 column = 1; SkipWhitespace(); if ( left <= 0 ) { log_failure( "gen::lex: no tokens found (only whitespace provided)" ); return { { nullptr }, 0 }; } local_persist char defines_map_mem[ kilobytes(64) ]; local_persist Arena defines_map_arena; HashTable defines; { defines_map_arena = Arena::init_from_memory( defines_map_mem, sizeof(defines_map_mem) ); defines = HashTable::init( defines_map_arena ); } Tokens.clear(); while (left ) { Token token = { nullptr, 0, TokType::Invalid, line, column, false }; if ( line == 4921 ) { log_fmt("here"); } bool is_define = false; SkipWhitespace(); if ( left <= 0 ) break; switch ( current ) { case '#': { char const* hash = scanner; move_forward(); SkipWhitespace(); token.Text = scanner; while (left && ! char_is_space(current) ) { move_forward(); token.Length++; } token.Type = ETokType::to_type( token ); if ( ! token.is_preprocessor() ) { token.Type = TokType::Preprocess_Unsupported; // Its an unsupported directive, skip it s32 within_string = false; s32 within_char = false; while ( left ) { if ( current == '"' ) within_string ^= true; if ( current == '\'' ) within_char ^= true; if ( current == '\\' && ! within_string && ! within_char ) { move_forward(); token.Length++; if ( current == '\r' ) { move_forward(); // token.Length++; } if ( current == '\n' ) { move_forward(); // token.Length++; continue; } else { String directive_str = String::make_length( GlobalAllocator, token.Text, token.Length ); log_failure( "gen::Parser::lex: Invalid escape sequence '\\%c' (%d, %d)" " in preprocessor directive (%d, %d)\n%s" , current, line, column , token.Line, token.Column, directive_str ); break; } } if ( current == '\n' ) { move_forward(); // token.Length++; break; } move_forward(); token.Length++; } token.Text = hash; token.Length = (sptr)token.Text + token.Length - (sptr)hash; Tokens.append( token ); continue; // Skip found token, its all handled here. } if ( token.Type == TokType::Preprocess_Else || token.Type == TokType::Preprocess_EndIf ) { Tokens.append( token ); continue; } Tokens.append( token ); SkipWhitespace(); if ( token.Type == TokType::Preprocess_Define ) { Token name = { scanner, 0, TokType::Identifier, line, column, false }; name.Text = scanner; name.Length = 1; move_forward(); while ( left && ( char_is_alphanumeric(current) || current == '_' ) ) { move_forward(); name.Length++; } if ( left && current == '(' ) { move_forward(); name.Length++; } Tokens.append( name ); u64 key = crc32( name.Text, name.Length ); defines.set( key, name ); } Token content = { scanner, 0, TokType::Preprocess_Content, line, column, false }; if ( token.Type == TokType::Preprocess_Include ) { content.Type = TokType::String; if ( current != '"' && current != '<' ) { String directive_str = String::fmt_buf( GlobalAllocator, "%.*s", min( 80, left + content.Length ), token.Text ); log_failure( "gen::Parser::lex: Expected '\"' or '<' after #include, not '%c' (%d, %d)\n%s" , current , content.Line , content.Column , directive_str.Data ); return { { nullptr }, 0 }; } while ( left && current != '"' && current != '>' ) { move_forward(); content.Length++; } move_forward(); content.Length++; Tokens.append( content ); continue; // Skip found token, its all handled here. } s32 within_string = false; s32 within_char = false; while ( left ) { if ( current == '"' ) within_string ^= true; if ( current == '\'' ) within_char ^= true; if ( current == '\\' && ! within_string && ! within_char ) { move_forward(); content.Length++; if ( current == '\r' ) { move_forward(); content.Length++; } if ( current == '\n' ) { move_forward(); content.Length++; continue; } else { String directive_str = String::make_length( GlobalAllocator, token.Text, token.Length ); String content_str = String::fmt_buf( GlobalAllocator, "%.*s", min( 400, left + content.Length ), content.Text ); log_failure( "gen::Parser::lex: Invalid escape sequence '\\%c' (%d, %d)" " in preprocessor directive '%s' (%d, %d)\n%s" , current, line, column , directive_str, content.Line, content.Column , content_str ); break; } } if ( current == '\n' ) { move_forward(); // content.Length++; break; } move_forward(); content.Length++; } Tokens.append( content ); continue; // Skip found token, its all handled here. } case '.': token.Text = scanner; token.Length = 1; token.Type = TokType::Access_MemberSymbol; if (left) { move_forward(); } if ( current == '.' ) { move_forward(); if( current == '.' ) { token.Length = 3; token.Type = TokType::Varadic_Argument; move_forward(); } else { String context_str = String::fmt_buf( GlobalAllocator, "%s", scanner, min( 100, left ) ); log_failure( "gen::lex: invalid varadic argument, expected '...' got '..%c' (%d, %d)\n%s", current, line, column, context_str ); } } goto FoundToken; case '&' : token.Text = scanner; token.Length = 1; token.Type = TokType::Ampersand; if (left) move_forward(); if ( current == '&' ) // && { token.Length = 2; token.Type = TokType::Ampersand_DBL; if (left) move_forward(); } goto FoundToken; case ':': token.Text = scanner; token.Length = 1; token.Type = TokType::Assign_Classifer; if (left) move_forward(); if ( current == ':' ) { move_forward(); token.Type = TokType::Access_StaticSymbol; token.Length++; } goto FoundToken; case '{': token.Text = scanner; token.Length = 1; token.Type = TokType::BraceCurly_Open; if (left) move_forward(); goto FoundToken; case '}': token.Text = scanner; token.Length = 1; token.Type = TokType::BraceCurly_Close; if (left) move_forward(); goto FoundToken; case '[': token.Text = scanner; token.Length = 1; token.Type = TokType::BraceSquare_Open; if ( left ) { move_forward(); if ( current == ']' ) { token.Length = 2; token.Type = TokType::Operator; move_forward(); } } goto FoundToken; case ']': token.Text = scanner; token.Length = 1; token.Type = TokType::BraceSquare_Close; if (left) move_forward(); goto FoundToken; case '(': token.Text = scanner; token.Length = 1; token.Type = TokType::Capture_Start; if (left) move_forward(); goto FoundToken; case ')': token.Text = scanner; token.Length = 1; token.Type = TokType::Capture_End; if (left) move_forward(); goto FoundToken; case '\'': token.Text = scanner; token.Length = 1; token.Type = TokType::Char; move_forward(); if ( left && current == '\\' ) { move_forward(); token.Length++; if ( current == '\'' ) { move_forward(); token.Length++; } } while ( left && current != '\'' ) { move_forward(); token.Length++; } if ( left ) { move_forward(); token.Length++; } goto FoundToken; case ',': token.Text = scanner; token.Length = 1; token.Type = TokType::Comma; if (left) move_forward(); goto FoundToken; case '*': token.Text = scanner; token.Length = 1; token.Type = TokType::Star; if (left) move_forward(); goto FoundToken; case ';': token.Text = scanner; token.Length = 1; token.Type = TokType::Statement_End; if (left) move_forward(); goto FoundToken; case '"': token.Text = scanner; token.Length = 1; token.Type = TokType::String; move_forward(); while ( left ) { if ( current == '"' ) { move_forward(); break; } if ( current == '\\' ) { move_forward(); token.Length++; if ( left ) { move_forward(); token.Length++; } continue; } move_forward(); token.Length++; } goto FoundToken; case '?': token.Text = scanner; token.Length = 1; token.Type = TokType::Operator; token.IsAssign = false; if (left) move_forward(); goto FoundToken; // All other operators we just label as an operator and move forward. case '=': token.Text = scanner; token.Length = 1; token.Type = TokType::Operator; token.IsAssign = true; if (left) move_forward(); if ( current == '=' ) { token.Length++; token.IsAssign = false; if (left) move_forward(); } goto FoundToken; case '+': case '%': case '^': case '~': case '!': case '<': case '>': case '|': token.Text = scanner; token.Length = 1; token.Type = TokType::Operator; if (left) move_forward(); if ( current == '=' ) { token.Length++; token.IsAssign = true; if (left) move_forward(); } else while ( left && current == *(scanner - 1) && token.Length < 3 ) { token.Length++; if (left) move_forward(); } goto FoundToken; // Dash is unfortunatlly a bit more complicated... case '-': token.Text = scanner; token.Length = 1; token.Type = TokType::Operator; if ( left ) { move_forward(); if ( current == '>' ) { token.Length++; move_forward(); if ( current == '*' ) { token.Length++; move_forward(); } } else if ( current == '=' ) { token.Length++; token.IsAssign = true; if (left) move_forward(); } else while ( left && current == *(scanner - 1) && token.Length < 3 ) { token.Length++; if (left) move_forward(); } } goto FoundToken; case '/': token.Text = scanner; token.Length = 1; token.Type = TokType::Operator; if ( left ) { move_forward(); if ( current == '/' ) { token.Type = TokType::Comment; move_forward(); token.Text = scanner; token.Length = 0; while ( left && current != '\n' ) { move_forward(); token.Length++; } } else if ( current == '*' ) { token.Type = TokType::Comment; move_forward(); token.Text = scanner; token.Length = 0; bool star = current == '*'; bool slash = scanner[1] == '/'; bool at_end = star && slash; while ( left && ! at_end ) { move_forward(); token.Length++; star = current == '*'; slash = scanner[1] == '/'; at_end = star && slash; } move_forward(); move_forward(); } } goto FoundToken; } if ( char_is_alpha( current ) || current == '_' ) { token.Text = scanner; token.Length = 1; move_forward(); while ( left && ( char_is_alphanumeric(current) || current == '_' ) ) { move_forward(); token.Length++; } goto FoundToken; } else if ( char_is_digit(current) ) { // This is a very brute force lex, no checks are done for validity of literal. token.Text = scanner; token.Length = 1; token.Type = TokType::Number; move_forward(); if (left && ( current == 'x' || current == 'X' || current == 'b' || current == 'B' || current == 'o' || current == 'O' ) ) { move_forward(); token.Length++; while ( left && char_is_hex_digit(current) ) { move_forward(); token.Length++; } goto FoundToken; } while ( left && char_is_digit(current) ) { move_forward(); token.Length++; } if ( left && current == '.' ) { move_forward(); token.Length++; while ( left && char_is_digit(current) ) { move_forward(); token.Length++; } } goto FoundToken; } else { String context_str = String::fmt_buf( GlobalAllocator, "%.*s", min( 100, left ), scanner ); log_failure( "Failed to lex token '%c' (%d, %d)\n%s", current, line, column, context_str ); // Skip to next whitespace since we can't know if anything else is valid until then. while ( left && ! char_is_space( current ) ) { move_forward(); } } FoundToken: if ( token.Type != TokType::Invalid ) { Tokens.append( token ); continue; } TokType type = ETokType::to_type( token ); if ( type == ETokType::Decl_Extern_Linkage ) { SkipWhitespace(); if ( current != '"' ) type = ETokType::Spec_Extern; token.Type = type; Tokens.append( token ); continue; } if ( type != TokType::Invalid ) { token.Type = type; Tokens.append( token ); continue; } u64 key = 0; if ( current == '(') key = crc32( token.Text, token.Length + 1 ); else key = crc32( token.Text, token.Length ); StrC* define = defines.get( key ); if ( define ) { token.Type = TokType::Preprocess_Macro; // Want to ignore any arguments the define may have as they can be execution expressions. if ( left && current == '(' ) { move_forward(); token.Length++; s32 level = 0; while ( left && (current != ')' || level > 0) ) { if ( current == '(' ) level++; else if ( current == ')' && level > 0 ) level--; move_forward(); token.Length++; } move_forward(); token.Length++; } } else { token.Type = TokType::Identifier; } Tokens.append( token ); } if ( Tokens.num() == 0 ) { log_failure( "Failed to lex any tokens" ); return { { nullptr }, 0 }; } defines.clear(); defines_map_arena.free(); return { Tokens, 0 }; # undef current # undef move_forward # undef SkipWhitespace } } internal void init_parser() { using namespace Parser; Tokens = Array::init_reserve( LexArena , ( LexAllocator_Size - sizeof( Array::Header ) ) / sizeof(Token) ); } internal void deinit_parser() { Parser::Tokens = { nullptr }; } #pragma region Helper Macros # define check_parse_args( def ) \ if ( def.Len <= 0 ) \ { \ log_failure( "gen::" stringize(__func__) ": length must greater than 0" ); \ Parser::Context.pop(); \ return CodeInvalid; \ } \ if ( def.Ptr == nullptr ) \ { \ log_failure( "gen::" stringize(__func__) ": def was null" ); \ Parser::Context.pop(); \ return CodeInvalid; \ } # define nexttok Context.Tokens.next() # define currtok Context.Tokens.current() # define prevtok Context.Tokens.previous() # define eat( Type_ ) Context.Tokens.__eat( Type_ ) # define left ( Context.Tokens.Arr.num() - Context.Tokens.Idx ) # define check( Type_ ) ( left && currtok.Type == Type_ ) # define push_scope() \ StackNode scope { nullptr, currtok, NullToken, txt_StrC( __func__ ) }; \ Context.push( & scope ) #pragma endregion Helper Macros internal Code parse_function_body(); internal Code parse_global_nspace(); internal CodeClass parse_class ( bool inplace_def = false ); internal CodeEnum parse_enum ( bool inplace_def = false ); internal CodeBody parse_export_body (); internal CodeBody parse_extern_link_body(); internal CodeExtern parse_exten_link (); internal CodeFriend parse_friend (); internal CodeFn parse_function (); internal CodeNamespace parse_namespace (); internal CodeOpCast parse_operator_cast (); internal CodeStruct parse_struct ( bool inplace_def = false ); internal CodeVar parse_variable (); internal CodeTemplate parse_template (); internal CodeType parse_type (); internal CodeTypedef parse_typedef (); internal CodeUnion parse_union ( bool inplace_def = false ); internal CodeUsing parse_using (); constexpr bool inplace_def = true; internal inline CodeDefine parse_define() { using namespace Parser; push_scope(); eat( TokType::Preprocess_Define ); CodeDefine define = (CodeDefine) make_code(); define->Type = ECode::Preprocess_Define; if ( ! check( TokType::Identifier ) ) { log_failure( "Error, expected identifier after #define\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Context.Scope->Name = currtok; define->Name = get_cached_string( currtok ); eat( TokType::Identifier ); if ( ! check( TokType::Preprocess_Content )) { log_failure( "Error, expected content after #define %s\n%s", define->Name, Context.to_string() ); Context.pop(); return CodeInvalid; } define->Content = get_cached_string( currtok ); eat( TokType::Preprocess_Content ); Context.pop(); return define; } internal inline CodePreprocessCond parse_preprocess_cond() { using namespace Parser; push_scope(); if ( ! currtok.is_preprocess_cond() ) { log_failure( "Error, expected preprocess conditional\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } CodePreprocessCond cond = (CodePreprocessCond) make_code(); cond->Type = scast(CodeT, currtok.Type - (ETokType::Preprocess_If - ECode::Preprocess_If) ); eat( currtok.Type ); if ( ! check( TokType::Preprocess_Content )) { log_failure( "Error, expected content after #define\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Context.Scope->Name = currtok; cond->Content = get_cached_string( currtok ); eat( TokType::Preprocess_Content ); Context.pop(); return cond; } internal inline CodeInclude parse_include() { using namespace Parser; push_scope(); CodeInclude include = (CodeInclude) make_code(); include->Type = ECode::Preprocess_Include; eat( TokType::Preprocess_Include ); if ( ! check( TokType::String )) { log_failure( "Error, expected include string after #include\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Context.Scope->Name = currtok; include->Content = get_cached_string( currtok ); eat( TokType::String ); Context.pop(); return include; } internal inline CodePragma parse_pragma() { using namespace Parser; push_scope(); CodePragma pragma = (CodePragma) make_code(); pragma->Type = ECode::Preprocess_Pragma; eat( TokType::Preprocess_Pragma ); if ( ! check( TokType::Preprocess_Content )) { log_failure( "Error, expected content after #pragma\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Context.Scope->Name = currtok; pragma->Content = get_cached_string( currtok ); eat( TokType::Preprocess_Content ); Context.pop(); return pragma; } internal inline Code parse_static_assert() { using namespace Parser; push_scope(); Code assert = make_code(); assert->Type = ECode::Untyped; Token content = currtok; Context.Scope->Name = content; eat( TokType::StaticAssert ); eat( TokType::Capture_Start ); s32 level = 0; while ( left && ( currtok.Type != TokType::Capture_End || level > 0 ) ) { if ( currtok.Type == TokType::Capture_Start ) level++; else if ( currtok.Type == TokType::Capture_End ) level--; eat( currtok.Type ); } eat( TokType::Capture_End ); eat( TokType::Statement_End ); content.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)content.Text; // content.Text = str_fmt_buf( "%.*s\n", content.Length, content.Text ); // content.Length++; assert->Content = get_cached_string( content ); assert->Name = assert->Content; Context.pop(); return assert; } internal inline Code parse_array_decl() { using namespace Parser; push_scope(); if ( check( TokType::Operator ) && currtok.Text[0] == '[' && currtok.Text[1] == ']' ) { Code array_expr = untyped_str( currtok ); eat( TokType::Operator ); Context.pop(); return array_expr; } if ( check( TokType::BraceSquare_Open ) ) { eat( TokType::BraceSquare_Open ); if ( left == 0 ) { log_failure( "Error, unexpected end of array declaration ( '[]' scope started )\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } if ( currtok.Type == TokType::BraceSquare_Close ) { log_failure( "Error, empty array expression in typedef definition\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Token untyped_tok = currtok; while ( left && currtok.Type != TokType::BraceSquare_Close ) { eat( currtok.Type ); } untyped_tok.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)untyped_tok.Text; Code array_expr = untyped_str( untyped_tok ); if ( left == 0 ) { log_failure( "Error, unexpected end of array declaration, expected ]\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } if ( currtok.Type != TokType::BraceSquare_Close ) { log_failure( "%s: Error, expected ] in array declaration, not %s\n%s", ETokType::to_str( currtok.Type ), Context.to_string() ); Context.pop(); return CodeInvalid; } eat( TokType::BraceSquare_Close ); Context.pop(); return array_expr; } Context.pop(); return { nullptr }; } internal inline CodeAttributes parse_attributes() { using namespace Parser; push_scope(); Token start; s32 len = 0; if ( check(TokType::Attribute_Open) ) { eat( TokType::Attribute_Open); while ( left && currtok.Type != TokType::Attribute_Close ) { eat( currtok.Type ); } eat( TokType::Attribute_Close ); s32 len = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)start.Text; } else if ( check(TokType::Decl_GNU_Attribute) ) { eat(TokType::BraceCurly_Open); eat(TokType::BraceCurly_Open); while ( left && currtok.Type != TokType::BraceCurly_Close ) { eat(currtok.Type); } eat(TokType::BraceCurly_Close); eat(TokType::BraceCurly_Close); s32 len = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)start.Text; } else if ( check(TokType::Decl_MSVC_Attribute) ) { eat( TokType::Decl_MSVC_Attribute ); eat( TokType::BraceCurly_Open); while ( left && currtok.Type != TokType::BraceCurly_Close ) { eat(currtok.Type); } eat(TokType::BraceCurly_Close); s32 len = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)start.Text; } else if ( currtok.is_attribute() ) { eat(currtok.Type); s32 len = start.Length; } if ( len > 0 ) { StrC attribute_txt = { len, start.Text }; Context.pop(); return def_attributes( attribute_txt ); } Context.pop(); return { nullptr }; } internal inline Parser::Token parse_identifier() { using namespace Parser; push_scope(); Token name = currtok; Context.Scope->Name = name; eat( TokType::Identifier ); while ( check( TokType::Access_StaticSymbol ) ) { eat( TokType::Access_StaticSymbol ); if ( left == 0 ) { log_failure( "Error, unexpected end of static symbol identifier\n%s", Context.to_string() ); Context.pop(); return { nullptr, 0, TokType::Invalid }; } if ( currtok.Type != TokType::Identifier ) { log_failure( "Error, expected static symbol identifier, not %s\n%s", ETokType::to_str( currtok.Type ), Context.to_string() ); Context.pop(); return { nullptr, 0, TokType::Invalid }; } name.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)name.Text; eat( TokType::Identifier ); if ( check( TokType::Operator ) && currtok.Text[0] == '<' ) { eat( TokType::Operator ); // Template arguments can be complex so were not validating if they are correct. s32 level = 0; while ( left && (currtok.Text[0] != '>' || level > 0 ) ) { if ( currtok.Text[0] == '<' ) level++; else if ( currtok.Text[0] == '>' && level > 0 ) level--; eat( currtok.Type ); } if ( left == 0 ) { log_failure( "Error, unexpected end of template arguments\n%s", Context.to_string() ); Context.pop(); return { nullptr, 0, TokType::Invalid }; } eat( TokType::Operator ); name.Length = ( (sptr)prevtok.Text + (sptr)prevtok.Length ) - (sptr)name.Text; } } if ( check( TokType::Operator ) && currtok.Text[0] == '<' ) { eat( TokType::Operator ); // Template arguments can be complex so were not validating if they are correct. s32 level = 0; while ( left && (currtok.Text[0] != '>' || level > 0 ) ) { if ( currtok.Text[0] == '<' ) level++; else if ( currtok.Text[0] == '>' && level > 0 ) level--; eat( currtok.Type ); } if ( left == 0 ) { log_failure( "Error, unexpected end of template arguments\n%s", Context.to_string() ); Context.pop(); return { nullptr, 0, TokType::Invalid }; } eat( TokType::Operator ); name.Length = ( (sptr)prevtok.Text + (sptr)prevtok.Length ) - (sptr)name.Text; } Context.pop(); return name; } internal CodeParam parse_params( bool use_template_capture = false ) { using namespace Parser; using namespace ECode; push_scope(); if ( ! use_template_capture ) eat( TokType::Capture_Start ); else { if ( check ( TokType::Operator ) && currtok.Text[0] == '<' ) eat( TokType::Operator ); } if ( ! use_template_capture && check(TokType::Capture_End) ) { eat( TokType::Capture_End ); Context.pop(); return { nullptr }; } CodeType type = { nullptr }; Code value = { nullptr }; if ( check( TokType::Varadic_Argument) ) { eat( TokType::Varadic_Argument ); Context.pop(); return param_varadic; } type = parse_type(); if ( type == Code::Invalid ) { Context.pop(); return CodeInvalid; } Token name = NullToken; if ( check( TokType::Identifier ) ) { name = currtok; eat( TokType::Identifier ); if ( currtok.IsAssign ) { eat( TokType::Operator ); Token value_tok = currtok; if ( currtok.Type == TokType::Comma ) { log_failure( "Expected value after assignment operator\n%s.", Context.to_string() ); Context.pop(); return CodeInvalid; } while ( left && currtok.Type != TokType::Comma && currtok.Type != TokType::Capture_End ) { value_tok.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)value_tok.Text; eat( currtok.Type ); } value = untyped_str( value_tok ); } } CodeParam result = (CodeParam) make_code(); result->Type = Parameters; if ( name.Length > 0 ) result->Name = get_cached_string( name ); result->ValueType = type; if ( value ) result->Value = value; result->NumEntries++; while ( left && use_template_capture ? currtok.Type != TokType::Operator && currtok.Text[0] != '>' : currtok.Type != TokType::Capture_End ) { eat( TokType::Comma ); Code type = { nullptr }; Code value = { nullptr }; if ( check( TokType::Varadic_Argument) ) { eat( TokType::Varadic_Argument ); result.append( param_varadic ); continue; } type = parse_type(); if ( type == Code::Invalid ) { Context.pop(); return CodeInvalid; } name = { nullptr, 0, TokType::Invalid, false }; if ( check( TokType::Identifier ) ) { name = currtok; eat( TokType::Identifier ); if ( currtok.IsAssign ) { eat( TokType::Operator ); Token value_tok = currtok; if ( currtok.Type == TokType::Comma ) { log_failure( "Expected value after assignment operator\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } while ( left && currtok.Type != TokType::Comma && currtok.Type != TokType::Capture_End ) { value_tok.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)value_tok.Text; eat( currtok.Type ); } value = untyped_str( value_tok ); } } CodeParam param = (CodeParam) make_code(); param->Type = Parameters; if ( name.Length > 0 ) param->Name = get_cached_string( name ); param->ValueType = type; if ( value ) param->Value = value; result.append( param ); } if ( ! use_template_capture ) eat( TokType::Capture_End ); else { if ( ! check( TokType::Operator) || currtok.Text[0] != '>' ) { log_failure("Expected '<' after 'template' keyword\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } eat( TokType::Operator ); } Context.pop(); return result; # undef context } // Function parsing is handled in multiple places because its initial signature is shared with variable parsing internal inline CodeFn parse_function_after_name( ModuleFlag mflags , CodeAttributes attributes , CodeSpecifiers specifiers , CodeType ret_type , Parser::Token name ) { using namespace Parser; push_scope(); CodeParam params = parse_params(); while ( left && currtok.is_specifier() ) { if ( specifiers.ast == nullptr ) { specifiers = def_specifier( ESpecifier::to_type(currtok) ); eat( currtok.Type ); continue; } specifiers.append( ESpecifier::to_type(currtok) ); eat( currtok.Type ); } CodeBody body = { nullptr }; if ( check( TokType::BraceCurly_Open ) ) { body = parse_function_body(); if ( body == Code::Invalid ) { Context.pop(); return CodeInvalid; } } else { eat( TokType::Statement_End ); } using namespace ECode; CodeFn result = (CodeFn) make_code(); result->Name = get_cached_string( name ); result->ModuleFlags = mflags; if ( body ) { switch ( body->Type ) { case Function_Body: case Untyped: break; default: { log_failure("Body must be either of Function_Body or Untyped type, %s\n%s", body.debug_str(), Context.to_string()); Context.pop(); return CodeInvalid; } } result->Type = Function; result->Body = body; } else { result->Type = Function_Fwd; } if ( specifiers ) result->Specs = specifiers; result->ReturnType = ret_type; if ( params ) result->Params = params; Context.pop(); return result; } internal inline CodeOperator parse_operator_after_ret_type( ModuleFlag mflags , CodeAttributes attributes , CodeSpecifiers specifiers , CodeType ret_type ) { using namespace Parser; using namespace EOperator; push_scope(); Token nspace = NullToken; if ( check( TokType::Identifier ) ) { nspace = currtok; while ( left && currtok.Type == TokType::Identifier ) { eat( TokType::Identifier ); if ( currtok.Type == TokType::Access_StaticSymbol ) eat( TokType::Access_StaticSymbol ); } nspace.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)nspace.Text; } eat( TokType::Decl_Operator ); if ( ! left && currtok.Type != TokType::Operator && currtok.Type != TokType::Star && currtok.Type != TokType::Ampersand && currtok.Type != TokType::Ampersand_DBL ) { log_failure( "Expected operator after 'operator' keyword\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Context.Scope->Name = currtok; OperatorT op = Invalid; switch ( currtok.Text[0] ) { case '+': { if ( currtok.Text[1] == '=' ) op = Assign_Add; if ( currtok.Text[1] == '+' ) op = Increment; else op = Add; } break; case '-': { if ( currtok.Text[1] == '>' ) { if ( currtok.Text[2] == '*' ) op = MemberOfPointer; else op = MemberOfPointer; break; } if ( currtok.Text[1] == '=' ) op = Assign_Subtract; else op = Subtract; } break; case '*': { if ( currtok.Text[1] == '=' ) op = Assign_Multiply; else { Token& finder = prevtok; while ( finder.Type != TokType::Decl_Operator ) { if ( finder.Type == TokType::Identifier) { op = Indirection; break; } } if ( op == Invalid) op = Multiply; } } break; case '/': { if ( currtok.Text[1] == '=' ) op = Assign_Divide; else op = Divide; } break; case '%': { if ( currtok.Text[1] == '=' ) op = Assign_Modulo; else op = Modulo; } break; case '&': { if ( currtok.Text[1] == '=' ) op = Assign_BAnd; else if ( currtok.Text[1] == '&' ) op = LAnd; else { if ( op == Invalid ) op = BAnd; } } break; case '|': { if ( currtok.Text[1] == '=' ) op = Assign_BOr; else if ( currtok.Text[1] == '|' ) op = LOr; else op = BOr; } break; case '^': { if ( currtok.Text[1] == '=' ) op = Assign_BXOr; else op = BXOr; } break; case '~': { op = BNot; } break; case '!': { if ( currtok.Text[1] == '=' ) op = LNot; else op = UnaryNot; } break; case '=': { if ( currtok.Text[1] == '=' ) op = LEqual; else op = Assign; } break; case '<': { if ( currtok.Text[1] == '=' ) op = LEqual; else if ( currtok.Text[1] == '<' ) { if ( currtok.Text[2] == '=' ) op = Assign_LShift; else op = LShift; } else op = Lesser; } break; case '>': { if ( currtok.Text[1] == '=' ) op = GreaterEqual; else if ( currtok.Text[1] == '>' ) { if ( currtok.Text[2] == '=' ) op = Assign_RShift; else op = RShift; } else op = Greater; } break; case '(': { if ( currtok.Text[1] == ')' ) op = FunctionCall; else op = Invalid; } break; case '[': { if ( currtok.Text[1] == ']' ) op = Subscript; else op = Invalid; } break; default: { break; } } if ( op == Invalid ) { log_failure( "Invalid operator '%s'\n%s", currtok.Text, Context.to_string() ); Context.pop(); return CodeInvalid; } eat( currtok.Type ); // Parse Params CodeParam params = parse_params(); if ( params.ast == nullptr && op == EOperator::Multiply ) op = MemberOfPointer; while ( left && currtok.is_specifier() ) { if ( specifiers.ast == nullptr ) { specifiers = def_specifier( ESpecifier::to_type(currtok) ); eat( currtok.Type ); continue; } specifiers.append( ESpecifier::to_type(currtok) ); eat( currtok.Type ); } // Parse Body CodeBody body = { nullptr }; if ( check( TokType::BraceCurly_Open ) ) { body = parse_function_body(); if ( body == Code::Invalid ) { Context.pop(); return CodeInvalid; } } else { eat( TokType::Statement_End ); } // OpValidateResult check_result = operator__validate( op, params, ret_type, specifiers ); CodeOperator result = def_operator( op, nspace, params, ret_type, body, specifiers, attributes, mflags ); Context.pop(); return result; } // Variable parsing is handled in multiple places because its initial signature is shared with function parsing internal inline CodeVar parse_variable_after_name( ModuleFlag mflags , CodeAttributes attributes ,CodeSpecifiers specifiers , CodeType type , StrC name ) { using namespace Parser; push_scope(); Code array_expr = parse_array_decl(); Code expr = { nullptr }; Code bitfield_expr = { nullptr }; if ( currtok.IsAssign ) { eat( TokType::Operator ); Token expr_tok = currtok; if ( currtok.Type == TokType::Statement_End ) { log_failure( "Expected expression after assignment operator\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } while ( left && currtok.Type != TokType::Statement_End ) { eat( currtok.Type ); } expr_tok.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)expr_tok.Text - 1; expr = untyped_str( expr_tok ); } if ( currtok.Type == TokType::BraceCurly_Open ) { Token expr_tok = currtok; eat( TokType::BraceCurly_Open ); s32 level = 0; while ( left && ( currtok.Type != TokType::BraceCurly_Close || level > 0 ) ) { if ( currtok.Type == TokType::BraceCurly_Open ) level++; else if ( currtok.Type == TokType::BraceCurly_Close && level > 0 ) level--; eat( currtok.Type ); } eat( TokType::BraceCurly_Close ); expr_tok.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)expr_tok.Text; expr = untyped_str( expr_tok ); } if ( currtok.Type == TokType::Assign_Classifer ) { eat( TokType::Assign_Classifer ); Token expr_tok = currtok; if ( currtok.Type == TokType::Statement_End ) { log_failure( "Expected expression after bitfield \n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } while ( left && currtok.Type != TokType::Statement_End ) { eat( currtok.Type ); } expr_tok.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)expr_tok.Text; bitfield_expr = untyped_str( expr_tok ); } eat( TokType::Statement_End ); using namespace ECode; CodeVar result = (CodeVar) make_code(); result->Type = Variable; result->Name = get_cached_string( name ); result->ModuleFlags = mflags; result->ValueType = type; if (array_expr ) type->ArrExpr = array_expr; if ( bitfield_expr ) result->BitfieldSize = bitfield_expr; if ( attributes ) result->Attributes = attributes; if ( specifiers ) result->Specs = specifiers; if ( expr ) result->Value = expr; Context.pop(); return result; } internal inline Code parse_simple_preprocess( Parser::TokType which ) { using namespace Parser; push_scope(); Token tok = currtok; eat( which ); if ( currtok.Type == TokType::BraceCurly_Open ) { // Eat the block scope right after the macro. Were assuming the macro defines a function definition's signature eat( TokType::BraceCurly_Open ); s32 level = 0; while ( left && ( currtok.Type != TokType::BraceCurly_Close || level > 0 ) ) { if ( currtok.Type == TokType::BraceCurly_Open ) level++; else if ( currtok.Type == TokType::BraceCurly_Close && level > 0 ) level--; eat( currtok.Type ); } eat( TokType::BraceCurly_Close ); tok.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)tok.Text; } Code result = untyped_str( tok ); Context.Scope->Name = tok; if ( str_compare( Context.Scope->Prev->ProcName.Ptr, "parse_typedef", Context.Scope->Prev->ProcName.Len ) != 0 ) { if ( check( TokType::Statement_End )) { eat( TokType::Statement_End ); } } Context.pop(); return result; } internal inline Code parse_operator_function_or_variable( bool expects_function, CodeAttributes attributes, CodeSpecifiers specifiers ) { using namespace Parser; push_scope(); Code result = CodeInvalid; if ( currtok.Type == TokType::Preprocess_Macro ) { // Were dealing with a macro after attributes/specifiers. result = parse_simple_preprocess( TokType::Preprocess_Macro ); Context.pop(); return result; } CodeType type = parse_type(); if ( type == CodeInvalid ) { Context.pop(); return CodeInvalid; } bool found_operator = false; s32 idx = Context.Tokens.Idx; for ( ; idx < Context.Tokens.Arr.num(); idx++ ) { Token tok = Context.Tokens[ idx ]; if ( tok.Type == TokType::Identifier ) { idx++; tok = Context.Tokens[ idx ]; if ( tok.Type == TokType::Access_StaticSymbol ) continue; break; } if ( tok.Type == TokType::Decl_Operator ) found_operator = true; break; } if ( found_operator ) { // Dealing with an operator overload result = parse_operator_after_ret_type( ModuleFlag::None, attributes, specifiers, type ); } else { Token name = parse_identifier(); Context.Scope->Name = name; if ( check( TokType::Capture_Start) ) { // Dealing with a function result = parse_function_after_name( ModuleFlag::None, attributes, specifiers, type, name ); } else { if ( expects_function ) { log_failure( "Expected function declaration (consteval was used)\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } // Dealing with a variable result = parse_variable_after_name( ModuleFlag::None, attributes, specifiers, type, name ); } } Context.pop(); return result; } internal inline Code parse_complicated_definition( Parser::TokType which ) { using namespace Parser; push_scope(); bool is_inplace = false; labeled_scope_start PARSE_FORWARD_OR_DEFINITION: Code result = CodeInvalid; // ; switch ( which ) { case TokType::Decl_Class: result = parse_class( is_inplace ); Context.pop(); return result; case TokType::Decl_Enum: result = parse_enum( is_inplace ); Context.pop(); return result; case TokType::Decl_Struct: result = parse_struct( is_inplace ); Context.pop(); return result; case TokType::Decl_Union: result = parse_union( is_inplace ); Context.pop(); return result; default: log_failure( "Error, wrong token type given to parse_complicated_definition " "(only supports class, enum, struct, union) \n%s" , Context.to_string() ); Context.pop(); return CodeInvalid; } labeled_scope_end TokArray tokens = Context.Tokens; s32 idx = tokens.Idx; s32 level = 0; for ( ; idx < tokens.Arr.num(); idx ++ ) { if ( tokens[idx].Type == TokType::BraceCurly_Open ) level++; if ( tokens[idx].Type == TokType::BraceCurly_Close ) level--; if ( level == 0 && tokens[idx].Type == TokType::Statement_End ) break; } if ( (idx - 2 ) == tokens.Idx ) { // Its a forward declaration only goto PARSE_FORWARD_OR_DEFINITION; } Token tok = tokens[ idx - 1 ]; if ( tok.Type == TokType::Identifier ) { tok = tokens[ idx - 2 ]; bool is_indirection = tok.Type == TokType::Ampersand || tok.Type == TokType::Star; bool ok_to_parse = false; if ( tok.Type == TokType::BraceCurly_Close ) { // Its an inplace definition // { ... } ; ok_to_parse = true; is_inplace = true; } else if ( tok.Type == TokType::Identifier && tokens[ idx - 3 ].Type == TokType::Decl_Struct ) { // Its a variable with type ID using struct namespace. // ; ok_to_parse = true; } else if ( is_indirection ) { // Its a indirection type with type ID using struct namespace. // ; ok_to_parse = true; } if ( ! ok_to_parse ) { log_failure( "Unsupported or bad member definition after struct declaration\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } Code result = parse_operator_function_or_variable( false, { nullptr }, { nullptr } ); Context.pop(); return result; } else if ( tok.Type == TokType::BraceCurly_Close ) { // Its a definition // { ... }; goto PARSE_FORWARD_OR_DEFINITION; } else if ( tok.Type == TokType::BraceSquare_Close) { // Its an array definition // [ ... ]; Code result = parse_operator_function_or_variable( false, { nullptr }, { nullptr } ); Context.pop(); return result; } else { log_failure( "Unsupported or bad member definition after struct declaration\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } } internal CodeBody parse_class_struct_body( Parser::TokType which ) { using namespace Parser; using namespace ECode; push_scope(); eat( TokType::BraceCurly_Open ); CodeBody result = (CodeBody) make_code(); if ( which == TokType::Decl_Class ) result->Type = Class_Body; else result->Type = Struct_Body; while ( left && currtok.Type != TokType::BraceCurly_Close ) { Code member = Code::Invalid; CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; bool expects_function = false; switch ( currtok.Type ) { case TokType::Comment: member = def_comment( currtok ); eat( TokType::Comment ); break; case TokType::Access_Public: member = access_public; eat( TokType::Access_Public ); eat( TokType::Assign_Classifer ); break; case TokType::Access_Protected: member = access_protected; eat( TokType::Access_Protected ); eat( TokType::Assign_Classifer ); break; case TokType::Access_Private: member = access_private; eat( TokType::Access_Private ); eat( TokType::Assign_Classifer ); break; case TokType::Decl_Class: member = parse_complicated_definition( TokType::Decl_Class ); break; case TokType::Decl_Enum: member = parse_complicated_definition( TokType::Decl_Enum ); break; case TokType::Decl_Friend: member = parse_friend(); break; case TokType::Decl_Operator: member = parse_operator_cast(); break; case TokType::Decl_Struct: member = parse_complicated_definition( TokType::Decl_Struct ); break; case TokType::Decl_Template: member = parse_template(); break; case TokType::Decl_Typedef: member = parse_typedef(); break; case TokType::Decl_Union: member = parse_complicated_definition( TokType::Decl_Union ); break; case TokType::Decl_Using: member = parse_using(); break; case TokType::Preprocess_Define: member = parse_define(); break; case TokType::Preprocess_Include: member = parse_include(); break; case TokType::Preprocess_If: case TokType::Preprocess_IfDef: case TokType::Preprocess_IfNotDef: case TokType::Preprocess_ElIf: member = parse_preprocess_cond(); break; case TokType::Preprocess_Macro: member = parse_simple_preprocess( TokType::Preprocess_Macro ); break; case TokType::Preprocess_Pragma: member = parse_pragma(); break; case TokType::Preprocess_Else: member = preprocess_else; eat( TokType::Preprocess_Else ); break; case TokType::Preprocess_EndIf: member = preprocess_endif; eat( TokType::Preprocess_EndIf ); break; case TokType::Preprocess_Unsupported: member = parse_simple_preprocess( TokType::Preprocess_Unsupported ); break; case TokType::StaticAssert: member = parse_static_assert(); break; case TokType::Attribute_Open: case TokType::Decl_GNU_Attribute: case TokType::Decl_MSVC_Attribute: #define Entry( attribute, str ) case TokType::attribute: GEN_DEFINE_ATTRIBUTE_TOKENS #undef Entry { attributes = parse_attributes(); } //! Fallthrough intended case TokType::Spec_Consteval: case TokType::Spec_Constexpr: case TokType::Spec_Constinit: case TokType::Spec_Inline: case TokType::Spec_Mutable: case TokType::Spec_Static: case TokType::Spec_Volatile: { SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); switch ( spec ) { case ESpecifier::Constexpr: case ESpecifier::Constinit: case ESpecifier::Inline: case ESpecifier::Mutable: case ESpecifier::Static: case ESpecifier::Volatile: break; case ESpecifier::Consteval: expects_function = true; break; default: log_failure( "Invalid specifier %s for variable\n%s", ESpecifier::to_str(spec), Context.to_string() ); Context.pop(); return CodeInvalid; } specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } } //! Fallthrough intentional case TokType::Identifier: case TokType::Spec_Const: case TokType::Type_Unsigned: case TokType::Type_Signed: case TokType::Type_Short: case TokType::Type_Long: case TokType::Type_char: case TokType::Type_int: case TokType::Type_double: { member = parse_operator_function_or_variable( expects_function, attributes, specifiers ); } break; default: Token untyped_tok = currtok; while ( left && currtok.Type != TokType::BraceCurly_Close ) { untyped_tok.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)untyped_tok.Text; eat( currtok.Type ); } member = untyped_str( untyped_tok ); break; } if ( member == Code::Invalid ) { log_failure( "Failed to parse member\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } result.append( member ); } eat( TokType::BraceCurly_Close ); Context.pop(); return result; } internal Code parse_class_struct( Parser::TokType which, bool inplace_def = false ) { using namespace Parser; if ( which != TokType::Decl_Class && which != TokType::Decl_Struct ) { log_failure( "Error, expected class or struct, not %s\n%s", ETokType::to_str( which ), Context.to_string() ); return CodeInvalid; } Token name { nullptr, 0, TokType::Invalid }; AccessSpec access = AccessSpec::Default; CodeType parent = { nullptr }; CodeBody body = { nullptr }; CodeAttributes attributes = { nullptr }; ModuleFlag mflags = ModuleFlag::None; CodeClass result = CodeInvalid; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } eat( which ); attributes = parse_attributes(); if ( check( TokType::Identifier ) ) { name = parse_identifier(); Context.Scope->Name = name; } local_persist char interface_arr_mem[ kilobytes(4) ] {0}; Array interfaces = Array::init_reserve( Arena::init_from_memory(interface_arr_mem, kilobytes(4) ), 4 ); if ( check( TokType::Assign_Classifer ) ) { eat( TokType::Assign_Classifer ); if ( currtok.is_access_specifier() ) { access = currtok.to_access_specifier(); } Token parent_tok = parse_identifier(); parent = def_type( parent_tok ); while ( check(TokType::Comma) ) { eat(TokType::Access_Public); if ( currtok.is_access_specifier() ) { eat(currtok.Type); } Token interface_tok = parse_identifier(); interfaces.append( def_type( interface_tok ) ); } } if ( check( TokType::BraceCurly_Open ) ) { body = parse_class_struct_body( which ); } if ( ! inplace_def ) eat( TokType::Statement_End ); if ( which == TokType::Decl_Class ) result = def_class( name, body, parent, access, attributes, mflags ); else result = def_struct( name, body, (CodeType)parent, access, attributes, mflags ); interfaces.free(); return result; } internal Code parse_function_body() { using namespace Parser; using namespace ECode; push_scope(); eat( TokType::BraceCurly_Open ); CodeBody result = (CodeBody) make_code(); result->Type = Function_Body; Token start = currtok; s32 level = 0; while ( left && ( currtok.Type != TokType::BraceCurly_Close || level > 0 ) ) { if ( currtok.Type == TokType::BraceCurly_Open ) level++; else if ( currtok.Type == TokType::BraceCurly_Close && level > 0 ) level--; eat( currtok.Type ); } Token previous = prevtok; s32 len = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)start.Text; if ( len > 0 ) { result.append( def_execution( { len, start.Text } ) ); } eat( TokType::BraceCurly_Close ); Context.pop(); return result; } internal CodeBody parse_global_nspace( CodeT which ) { using namespace Parser; using namespace ECode; if ( which != Namespace_Body && which != Global_Body && which != Export_Body && which != Extern_Linkage_Body ) return CodeInvalid; if ( which != Global_Body ) eat( TokType::BraceCurly_Open ); CodeBody result = (CodeBody) make_code(); result->Type = which; while ( left && currtok.Type != TokType::BraceCurly_Close ) { Code member = Code::Invalid; CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; bool expects_function = false; Context.Scope->Start = currtok; switch ( currtok.Type ) { case TokType::Comment: member = def_comment( currtok ); eat( TokType::Comment ); break; case TokType::Decl_Class: member = parse_complicated_definition( TokType::Decl_Class ); break; case TokType::Decl_Enum: member = parse_complicated_definition( TokType::Decl_Enum ); break; case TokType::Decl_Extern_Linkage: if ( which == Extern_Linkage_Body ) log_failure( "Nested extern linkage\n%s", Context.to_string() ); member = parse_extern_link_body(); break; case TokType::Decl_Namespace: member = parse_namespace(); break; case TokType::Decl_Struct: member = parse_complicated_definition( TokType::Decl_Struct ); break; case TokType::Decl_Template: member = parse_template(); break; case TokType::Decl_Typedef: member = parse_typedef(); break; case TokType::Decl_Union: member = parse_complicated_definition( TokType::Decl_Union ); break; case TokType::Decl_Using: member = parse_using(); break; case TokType::Preprocess_Define: member = parse_define(); break; case TokType::Preprocess_Include: member = parse_include(); break; case TokType::Preprocess_If: case TokType::Preprocess_IfDef: case TokType::Preprocess_IfNotDef: case TokType::Preprocess_ElIf: member = parse_preprocess_cond(); break; case TokType::Preprocess_Macro: member = parse_simple_preprocess( TokType::Preprocess_Macro ); break; case TokType::Preprocess_Pragma: member = parse_pragma(); break; case TokType::Preprocess_Else: member = preprocess_else; eat( TokType::Preprocess_Else ); break; case TokType::Preprocess_EndIf: member = preprocess_endif; eat( TokType::Preprocess_EndIf ); break; case TokType::Preprocess_Unsupported: member = parse_simple_preprocess( TokType::Preprocess_Unsupported ); break; case TokType::StaticAssert: member = parse_static_assert(); break; case TokType::Module_Export: if ( which == Export_Body ) log_failure( "Nested export declaration\n%s", Context.to_string() ); member = parse_export_body(); break; case TokType::Module_Import: { not_implemented( context ); } //! Fallthrough intentional case TokType::Decl_GNU_Attribute: case TokType::Decl_MSVC_Attribute: #define Entry( attribute, str ) case TokType::attribute: GEN_DEFINE_ATTRIBUTE_TOKENS #undef Entry { attributes = parse_attributes(); } //! Fallthrough intentional case TokType::Spec_Consteval: case TokType::Spec_Constexpr: case TokType::Spec_Constinit: case TokType::Spec_Extern: case TokType::Spec_Global: case TokType::Spec_Inline: case TokType::Spec_Internal_Linkage: case TokType::Spec_NeverInline: case TokType::Spec_Static: { SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); bool ignore_spec = false; switch ( spec ) { case ESpecifier::Constexpr: case ESpecifier::Constinit: case ESpecifier::Global: case ESpecifier::External_Linkage: case ESpecifier::Internal_Linkage: case ESpecifier::Inline: case ESpecifier::Mutable: case ESpecifier::NeverInline: case ESpecifier::Static: case ESpecifier::Volatile: break; case ESpecifier::Consteval: expects_function = true; break; case ESpecifier::Const: ignore_spec = true; break; default: StrC spec_str = ESpecifier::to_str(spec); log_failure( "Invalid specifier %.*s for variable\n%s", spec_str.Len, spec_str, Context.to_string() ); return CodeInvalid; } if (ignore_spec) break; specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } } //! Fallthrough intentional case TokType::Identifier: case TokType::Spec_Const: case TokType::Type_Long: case TokType::Type_Short: case TokType::Type_Signed: case TokType::Type_Unsigned: case TokType::Type_char: case TokType::Type_double: case TokType::Type_int: { bool found_operator_cast = false; s32 idx = Context.Tokens.Idx; for ( ; idx < Context.Tokens.Arr.num(); idx++ ) { Token tok = Context.Tokens[ idx ]; if ( tok.Type == TokType::Identifier ) { idx++; tok = Context.Tokens[ idx ]; if ( tok.Type == TokType::Access_StaticSymbol ) continue; break; } if ( tok.Type == TokType::Decl_Operator ) found_operator_cast = true; break; } if ( found_operator_cast ) member = parse_operator_cast(); member = parse_operator_function_or_variable( expects_function, attributes, specifiers ); } } if ( member == Code::Invalid ) { log_failure( "Failed to parse member\n%s", Context.to_string() ); return CodeInvalid; } // log_fmt("Global Body Member: %s", member->debug_str()); result.append( member ); } if ( which != Global_Body ) eat( TokType::BraceCurly_Close ); return result; } internal CodeClass parse_class( bool inplace_def ) { using namespace Parser; push_scope(); CodeClass result = (CodeClass) parse_class_struct( Parser::TokType::Decl_Class, inplace_def ); Context.pop(); return result; } CodeClass parse_class( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; push_scope(); CodeClass result = (CodeClass) parse_class_struct( TokType::Decl_Class ); Context.pop(); return result; } internal CodeEnum parse_enum( bool inplace_def ) { using namespace Parser; using namespace ECode; push_scope(); SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; CodeAttributes attributes = { nullptr }; Token name = { nullptr, 0, TokType::Invalid }; Code array_expr = { nullptr }; CodeType type = { nullptr }; char entries_code[ kilobytes(128) ] { 0 }; s32 entries_length = 0; bool is_enum_class = false; eat( TokType::Decl_Enum ); if ( currtok.Type == TokType::Decl_Class ) { eat( TokType::Decl_Class); is_enum_class = true; } attributes = parse_attributes(); if ( check( TokType::Identifier ) ) { name = currtok; Context.Scope->Name = currtok; eat( TokType::Identifier ); } if ( currtok.Type == TokType::Assign_Classifer ) { eat( TokType::Assign_Classifer ); type = parse_type(); if ( type == Code::Invalid ) { log_failure( "Failed to parse enum classifier\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } } CodeBody body = { nullptr }; if ( currtok.Type == TokType::BraceCurly_Open ) { body = (CodeBody) make_code(); body->Type = ECode::Enum_Body; eat( TokType::BraceCurly_Open ); Code member = CodeInvalid; while ( currtok.Type != TokType::BraceCurly_Close ) { switch ( currtok.Type ) { case TokType::Comment: member = def_comment( currtok ); eat( TokType::Comment ); break; case TokType::Preprocess_Define: member = parse_define(); break; case TokType::Preprocess_If: case TokType::Preprocess_IfDef: case TokType::Preprocess_IfNotDef: case TokType::Preprocess_ElIf: member = parse_preprocess_cond(); break; case TokType::Preprocess_Else: member = preprocess_else; eat( TokType::Preprocess_Else ); break; case TokType::Preprocess_EndIf: member = preprocess_endif; eat( TokType::Preprocess_EndIf ); break; case TokType::Preprocess_Macro: member = parse_simple_preprocess( TokType::Preprocess_Macro ); break; case TokType::Preprocess_Pragma: member = parse_pragma(); break; case TokType::Preprocess_Unsupported: member = parse_simple_preprocess( TokType::Preprocess_Unsupported ); break; default: Token entry = currtok; eat( TokType::Identifier); if ( currtok.Type == TokType::Operator && currtok.Text[0] == '=' ) { eat( TokType::Operator ); while ( currtok.Type != TokType::Comma && currtok.Type != TokType::BraceCurly_Close ) { eat( currtok.Type ); } } if ( currtok.Type == TokType::Comma ) { eat( TokType::Comma ); } entry.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)entry.Text; member = untyped_str( entry ); break; } if ( member == Code::Invalid ) { log_failure( "Failed to parse member\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } body.append( member ); } eat( TokType::BraceCurly_Close ); } if ( ! inplace_def ) eat( TokType::Statement_End ); using namespace ECode; CodeEnum result = (CodeEnum) make_code(); if ( body.ast ) { result->Type = is_enum_class ? Enum_Class : Enum; result->Body = body; } else { result->Type = is_enum_class ? Enum_Class_Fwd : Enum_Fwd; } result->Name = get_cached_string( name ); if ( attributes ) result->Attributes = attributes; if ( type ) result->UnderlyingType = type; Context.pop(); return result; } CodeEnum parse_enum( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) { Context.pop(); return CodeInvalid; } Context.Tokens = toks; return parse_enum(); } internal inline CodeBody parse_export_body() { using namespace Parser; push_scope(); CodeBody result = parse_global_nspace( ECode::Export_Body ); Context.pop(); return result; } CodeBody parse_export_body( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_export_body(); } internal inline CodeBody parse_extern_link_body() { using namespace Parser; push_scope(); CodeBody result = parse_global_nspace( ECode::Extern_Linkage_Body ); Context.pop(); return result; } internal CodeExtern parse_extern_link() { using namespace Parser; push_scope(); eat( TokType::Decl_Extern_Linkage ); Token name = currtok; eat( TokType::String ); name.Text += 1; name.Length -= 1; CodeExtern result = (CodeExtern) make_code(); result->Type = ECode::Extern_Linkage; result->Name = get_cached_string( name ); Code entry = parse_extern_link_body(); if ( entry == Code::Invalid ) { log_failure( "Failed to parse body\n%s", Context.to_string() ); Context.pop(); return result; } result->Body = entry; Context.pop(); return result; } CodeExtern parse_extern_link( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_extern_link(); } internal CodeFriend parse_friend() { using namespace Parser; using namespace ECode; push_scope(); eat( TokType::Decl_Friend ); CodeFn function = { nullptr }; // Type declaration or return type CodeType type = parse_type(); if ( type == Code::Invalid ) { Context.pop(); return CodeInvalid; } // Funciton declaration if ( currtok.Type == TokType::Identifier ) { // Name Token name = parse_identifier(); Context.Scope->Name = name; // Parameter list CodeParam params = parse_params(); function = make_code(); function->Type = Function_Fwd; function->Name = get_cached_string( name ); function->ReturnType = type; if ( params ) function->Params = params; } eat( TokType::Statement_End ); CodeFriend result = (CodeFriend) make_code(); result->Type = Friend; if ( function ) result->Declaration = function; else result->Declaration = type; Context.pop(); return result; } CodeFriend parse_friend( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_friend(); } internal CodeFn parse_functon() { using namespace Parser; push_scope(); SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; ModuleFlag mflags = ModuleFlag::None; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } attributes = parse_attributes(); while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); switch ( spec ) { case ESpecifier::Const: case ESpecifier::Consteval: case ESpecifier::Constexpr: case ESpecifier::External_Linkage: case ESpecifier::Inline: case ESpecifier::Static: break; default: log_failure( "Invalid specifier %s for functon\n%s", ESpecifier::to_str(spec), Context.to_string() ); Context.pop(); return CodeInvalid; } if ( spec == ESpecifier::Const ) continue; specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } CodeType ret_type = parse_type(); if ( ret_type == Code::Invalid ) { Context.pop(); return CodeInvalid; } Token name = parse_identifier(); Context.Scope->Name = name; if ( ! name ) { Context.pop(); return CodeInvalid; } CodeFn result = parse_function_after_name( mflags, attributes, specifiers, ret_type, name ); Context.pop(); return result; } CodeFn parse_function( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return (CodeFn) parse_functon(); } CodeBody parse_global_body( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; push_scope(); CodeBody result = parse_global_nspace( ECode::Global_Body ); Context.pop(); return result; } internal CodeNamespace parse_namespace() { using namespace Parser; push_scope(); eat( TokType::Decl_Namespace ); Token name = parse_identifier(); Context.Scope->Name = name; CodeBody body = parse_global_nspace( ECode::Namespace_Body ); if ( body == Code::Invalid ) { Context.pop(); return CodeInvalid; } CodeNamespace result = (CodeNamespace) make_code(); result->Type = ECode::Namespace; result->Name = get_cached_string( name ); result->Body = body; Context.pop(); return result; } CodeNamespace parse_namespace( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_namespace(); } internal CodeOperator parse_operator() { using namespace Parser; push_scope(); CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; ModuleFlag mflags = ModuleFlag::None; SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } attributes = parse_attributes(); while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); switch ( spec ) { case ESpecifier::Const: case ESpecifier::Constexpr: case ESpecifier::Inline: case ESpecifier::Static: break; default: log_failure( "Invalid specifier " "%s" " for operator\n%s", ESpecifier::to_str(spec), Context.to_string() ); Context.pop(); return CodeInvalid; } if ( spec == ESpecifier::Const ) continue; specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } // Parse Return Type CodeType ret_type = parse_type(); CodeOperator result = parse_operator_after_ret_type( mflags, attributes, specifiers, ret_type ); Context.pop(); return result; } CodeOperator parse_operator( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return (CodeOperator) parse_operator(); } CodeOpCast parse_operator_cast() { using namespace Parser; push_scope(); Token name = NullToken; if ( check( TokType::Identifier ) ) { name = currtok; while ( left && currtok.Type == TokType::Identifier ) { eat( TokType::Identifier ); if ( currtok.Type == TokType::Access_StaticSymbol ) eat( TokType::Access_StaticSymbol ); } name.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)name.Text; } eat( TokType::Decl_Operator ); Code type = parse_type(); Context.Scope->Name = { type->Name.Data, type->Name.length() }; eat( TokType::Capture_Start ); eat( TokType::Capture_End ); CodeSpecifiers specifiers = { nullptr }; if ( check(TokType::Spec_Const)) { specifiers = spec_const; eat( TokType::Spec_Const ); } Code body = { nullptr }; if ( check( TokType::BraceCurly_Open) ) { eat( TokType::BraceCurly_Open ); Token body_str = currtok; s32 level = 0; while ( left && ( currtok.Type != TokType::BraceCurly_Close || level > 0 ) ) { if ( currtok.Type == TokType::BraceCurly_Open ) level++; else if ( currtok.Type == TokType::BraceCurly_Close && level > 0 ) level--; eat( currtok.Type ); } eat( TokType::BraceCurly_Close ); body_str.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)body_str.Text; body = untyped_str( body_str ); } else { eat( TokType::Statement_End ); } CodeOpCast result = (CodeOpCast) make_code(); if ( name ) result->Name = get_cached_string( name ); if (body) { result->Type = ECode::Operator_Cast; result->Body = body; } else { result->Type = ECode::Operator_Cast_Fwd; } if ( specifiers ) result->Specs = specifiers; result->ValueType = type; Context.pop(); return result; } CodeOpCast parse_operator_cast( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_operator_cast(); } internal inline CodeStruct parse_struct( bool inplace_def ) { using namespace Parser; push_scope(); CodeStruct result = (CodeStruct) parse_class_struct( TokType::Decl_Struct, inplace_def ); Context.pop(); return result; } CodeStruct parse_struct( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; push_scope(); CodeStruct result = (CodeStruct) parse_class_struct( TokType::Decl_Struct ); Context.pop(); return result; } internal CodeTemplate parse_template() { # define UseTemplateCapture true using namespace Parser; push_scope(); ModuleFlag mflags = ModuleFlag::None; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } eat( TokType::Decl_Template ); Code params = parse_params( UseTemplateCapture ); if ( params == Code::Invalid ) { Context.pop(); return CodeInvalid; } Code definition = { nullptr }; while ( left ) { if ( check( TokType::Decl_Class ) ) { definition = parse_class(); break; } if ( check( TokType::Decl_Struct ) ) { definition = parse_struct(); break; } if ( check( TokType::Decl_Using )) { definition = parse_using(); break; } // Its either a function or a variable Token name = { nullptr, 0, TokType::Invalid }; CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; bool expects_function = false; SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; attributes = parse_attributes(); while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); switch ( spec ) { case ESpecifier::Const: case ESpecifier::Constexpr: case ESpecifier::Constinit: case ESpecifier::External_Linkage: case ESpecifier::Global: case ESpecifier::Inline: case ESpecifier::Local_Persist: case ESpecifier::Mutable: case ESpecifier::Static: case ESpecifier::Thread_Local: case ESpecifier::Volatile: break; case ESpecifier::Consteval: expects_function = true; break; default: log_failure( "Invalid specifier %s for variable or function\n%s", ESpecifier::to_str( spec ), Context.to_string() ); Context.pop(); return CodeInvalid; } // Ignore const it will be handled by the type if ( spec == ESpecifier::Const ) continue; specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } definition = parse_operator_function_or_variable( expects_function, attributes, specifiers ); break; } CodeTemplate result = (CodeTemplate) make_code(); result->Type = ECode::Template; result->Params = params; result->Declaration = definition; result->ModuleFlags = mflags; Context.pop(); return result; # undef UseTemplateCapture } CodeTemplate parse_template( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_template(); } internal CodeType parse_type() { using namespace Parser; push_scope(); Token context_tok = prevtok; SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; Token name = { nullptr, 0, TokType::Invalid }; Token brute_sig = { currtok.Text, 0, TokType::Invalid }; CodeAttributes attributes = parse_attributes(); while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); if ( spec != ESpecifier::Const ) { log_failure( "Error, invalid specifier used in type definition: %s\n%s", currtok.Text, Context.to_string() ); Context.pop(); return CodeInvalid; } specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( left == 0 ) { log_failure( "Error, unexpected end of type definition\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } if ( currtok.Type == TokType::Decl_Class || currtok.Type == TokType::Decl_Enum || currtok.Type == TokType::Decl_Struct ) { name = currtok; eat( currtok.Type ); name.Length = ( (sptr)currtok.Text + currtok.Length ) - (sptr)name.Text; eat( TokType::Identifier ); Context.Scope->Name = name; } else if ( currtok.Type >= TokType::Type_Unsigned && currtok.Type <= TokType::Type_MS_W64 ) { name = currtok; eat( currtok.Type ); while (currtok.Type >= TokType::Type_Unsigned && currtok.Type <= TokType::Type_MS_W64 ) { eat( currtok.Type ); } name.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)name.Text; Context.Scope->Name = name; } else { name = parse_identifier(); Context.Scope->Name = name; if ( ! name ) { log_failure( "Error, failed to type signature\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } // Problably dealing with a templated symbol if ( currtok.Type == TokType::Operator && currtok.Text[0] == '<' && currtok.Length == 1 ) { eat( TokType::Operator ); s32 level = 0; while ( left && ( currtok.Text[0] != '>' || level > 0 )) { if ( currtok.Text[0] == '<' ) level++; if ( currtok.Text[0] == '>' ) level--; eat( currtok.Type ); } eat( TokType::Operator ); // Extend length of name to last token name.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)name.Text; } } while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); if ( spec != ESpecifier::Const && spec != ESpecifier::Ptr && spec != ESpecifier::Ref && spec != ESpecifier::RValue ) { log_failure( "Error, invalid specifier used in type definition: %s\n%s", currtok.Text, Context.to_string() ); Context.pop(); return CodeInvalid; } specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } BruteforceCaptureAgain: if ( check( TokType::Capture_Start ) && context_tok.Type != TokType::Decl_Operator ) { // Brute force capture the entire thing. // Function typedefs are complicated and there are not worth dealing with for validation at this point... eat( TokType::Capture_Start ); s32 level = 0; while ( left && ( currtok.Type != TokType::Capture_End || level > 0 )) { if ( currtok.Type == TokType::Capture_Start ) level++; if ( currtok.Type == TokType::Capture_End ) level--; eat( currtok.Type ); } eat( TokType::Capture_End ); goto BruteforceCaptureAgain; brute_sig.Length = ( (sptr)prevtok.Text + prevtok.Length ) - (sptr)brute_sig.Text; } using namespace ECode; CodeType result = (CodeType) make_code(); result->Type = Typename; if ( brute_sig.Length > 0 ) { // Bruteforce all tokens together. name = brute_sig; } else { if (NumSpecifiers) { Code specifiers = def_specifiers( NumSpecifiers, (SpecifierT*)specs_found ); result->Specs = specifiers; } } result->Name = get_cached_string( name ); if ( attributes ) result->Attributes = attributes; Context.pop(); return result; } CodeType parse_type( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_type(); } internal CodeTypedef parse_typedef() { using namespace Parser; push_scope(); Token name = { nullptr, 0, TokType::Invalid }; Code array_expr = { nullptr }; Code type = { nullptr }; ModuleFlag mflags = ModuleFlag::None; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } eat( TokType::Decl_Typedef ); if ( currtok.Line == 2196 ) { log_fmt("here"); } constexpr bool from_typedef = true; if ( check( TokType::Preprocess_Macro )) { type = t_empty; name = currtok; Context.Scope->Name = name; eat( TokType::Preprocess_Macro ); } else { if ( check( TokType::Decl_Enum ) ) type = parse_enum( from_typedef ); else if ( check(TokType::Decl_Class ) ) type = parse_class( from_typedef ); else if ( check(TokType::Decl_Struct ) ) type = parse_struct( from_typedef ); else if ( check(TokType::Decl_Union) ) type = parse_union( from_typedef ); else type = parse_type(); if ( check( TokType::Identifier ) ) { name = currtok; eat( TokType::Identifier ); } else { log_failure( "Error, expected identifier for typedef\n%s", Context.to_string() ); Context.pop(); return CodeInvalid; } } array_expr = parse_array_decl(); eat( TokType::Statement_End ); using namespace ECode; CodeTypedef result = (CodeTypedef) make_code(); result->Type = Typedef; result->Name = get_cached_string( name ); result->ModuleFlags = mflags; result->UnderlyingType = type; if ( type->Type == Typename && array_expr && array_expr->Type != Invalid ) type.cast()->ArrExpr = array_expr; Context.pop(); return result; } CodeTypedef parse_typedef( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_typedef(); } internal CodeUnion parse_union( bool inplace_def ) { using namespace Parser; push_scope(); ModuleFlag mflags = ModuleFlag::None; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } eat( TokType::Decl_Union ); CodeAttributes attributes = parse_attributes(); StrC name = { 0, nullptr }; if ( check( TokType::Identifier ) ) { name = currtok; Context.Scope->Name = currtok; eat( TokType::Identifier ); } CodeBody body = { nullptr }; eat( TokType::BraceCurly_Open ); body = make_code(); body->Type = ECode::Union_Body; while ( ! check( TokType::BraceCurly_Close ) ) { Code member = { nullptr }; switch ( currtok.Type ) { case TokType::Comment: member = def_comment( currtok ); eat( TokType::Comment ); break; case TokType::Decl_Class: member = parse_complicated_definition( TokType::Decl_Class ); break; case TokType::Decl_Enum: member = parse_complicated_definition( TokType::Decl_Enum ); break; case TokType::Decl_Struct: member = parse_complicated_definition( TokType::Decl_Struct ); break; case TokType::Decl_Union: member = parse_complicated_definition( TokType::Decl_Union ); break; case TokType::Preprocess_Define: member = parse_define(); break; case TokType::Preprocess_If: case TokType::Preprocess_IfDef: case TokType::Preprocess_IfNotDef: case TokType::Preprocess_ElIf: member = parse_preprocess_cond(); break; case TokType::Preprocess_Else: member = preprocess_else; eat( TokType::Preprocess_Else ); break; case TokType::Preprocess_EndIf: member = preprocess_endif; eat( TokType::Preprocess_EndIf ); break; case TokType::Preprocess_Macro: member = parse_simple_preprocess( TokType::Preprocess_Macro ); break; case TokType::Preprocess_Pragma: member = parse_pragma(); break; case TokType::Preprocess_Unsupported: member = parse_simple_preprocess( TokType::Preprocess_Unsupported ); break; default: member = parse_variable(); break; } if ( member ) body.append( member ); } eat( TokType::BraceCurly_Close ); if ( ! inplace_def ) eat( TokType::Statement_End ); CodeUnion result = (CodeUnion) make_code(); result->Type = ECode::Union; result->ModuleFlags = mflags; if ( name ) result->Name = get_cached_string( name ); if ( body ) result->Body = body; if ( attributes ) result->Attributes = attributes; Context.pop(); return result; } CodeUnion parse_union( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_union(); } internal CodeUsing parse_using() { using namespace Parser; push_scope(); SpecifierT specs_found[16] { ESpecifier::Invalid }; s32 NumSpecifiers = 0; Token name = { nullptr, 0, TokType::Invalid }; Code array_expr = { nullptr }; CodeType type = { nullptr }; bool is_namespace = false; ModuleFlag mflags = ModuleFlag::None; CodeAttributes attributes = { nullptr }; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } eat( TokType::Decl_Using ); if ( currtok.Type == TokType::Decl_Namespace ) { is_namespace = true; eat( TokType::Decl_Namespace ); } name = currtok; Context.Scope->Name = name; eat( TokType::Identifier ); if ( currtok.IsAssign ) { attributes = parse_attributes(); eat( TokType::Operator ); type = parse_type(); } array_expr = parse_array_decl(); eat( TokType::Statement_End ); using namespace ECode; CodeUsing result = (CodeUsing) make_code(); result->Name = get_cached_string( name ); result->ModuleFlags = mflags; if ( is_namespace) { result->Type = Using_Namespace; } else { result->Type = Using; if ( type ) result->UnderlyingType = type; if ( array_expr ) type->ArrExpr = array_expr; if ( attributes ) result->Attributes = attributes; } Context.pop(); return result; } CodeUsing parse_using( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_using(); } internal CodeVar parse_variable() { using namespace Parser; push_scope(); SpecifierT specs_found[16] { ESpecifier::NumSpecifiers }; s32 NumSpecifiers = 0; ModuleFlag mflags = ModuleFlag::None; CodeAttributes attributes = { nullptr }; CodeSpecifiers specifiers = { nullptr }; if ( check(TokType::Module_Export) ) { mflags = ModuleFlag::Export; eat( TokType::Module_Export ); } attributes = parse_attributes(); while ( left && currtok.is_specifier() ) { SpecifierT spec = ESpecifier::to_type( currtok ); switch ( spec ) { case ESpecifier::Const: case ESpecifier::Constexpr: case ESpecifier::Constinit: case ESpecifier::External_Linkage: case ESpecifier::Global: case ESpecifier::Inline: case ESpecifier::Local_Persist: case ESpecifier::Mutable: case ESpecifier::Static: case ESpecifier::Thread_Local: case ESpecifier::Volatile: break; default: log_failure( "Invalid specifier %s for variable\n%s", ESpecifier::to_str( spec ), Context.to_string() ); Context.pop(); return CodeInvalid; } // Ignore const specifiers, they're handled by the type if ( spec == ESpecifier::Const ) continue; specs_found[NumSpecifiers] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); } CodeType type = parse_type(); if ( type == Code::Invalid ) return CodeInvalid; Context.Scope->Name = parse_identifier(); CodeVar result = parse_variable_after_name( mflags, attributes, specifiers, type, Context.Scope->Name ); Context.pop(); return result; } CodeVar parse_variable( StrC def ) { check_parse_args( def ); using namespace Parser; TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return CodeInvalid; Context.Tokens = toks; return parse_variable(); } // Undef helper macros # undef check_parse_args # undef nexttok # undef currtok # undef prevtok # undef eat # undef left # undef check # undef push_scope