#ifdef GEN_INTELLISENSE_DIRECTIVES #pragma once #include "gen/etoktype.cpp" #include "interface.upfront.cpp" #include "lexer.cpp" #include "parser.cpp" #endif // Publically Exposed Interface CodeClass parse_class( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; push_scope(); CodeClass result = (CodeClass) parse_class_struct( Tok_Decl_Class, parser_not_inplace_def ); parser_pop(& Context); return result; } CodeConstructor parse_constructor( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; // TODO(Ed): Constructors can have prefix attributes CodeSpecifiers specifiers = NullCode; Specifier specs_found[ 16 ] = { Spec_NumSpecifiers }; s32 NumSpecifiers = 0; while ( left && tok_is_specifier(currtok) ) { Specifier spec = strc_to_specifier( tok_to_str(currtok) ); b32 ignore_spec = false; switch ( spec ) { case Spec_Constexpr : case Spec_Explicit: case Spec_Inline : case Spec_ForceInline : case Spec_NeverInline : break; case Spec_Const : ignore_spec = true; break; default : log_failure( "Invalid specifier %s for variable\n%s", spec_to_str( spec ), parser_to_string(Context) ); parser_pop(& Context); return InvalidCode; } // Every specifier after would be considered part of the type type signature if (ignore_spec) break; specs_found[ NumSpecifiers ] = spec; NumSpecifiers++; eat( currtok.Type ); } if ( NumSpecifiers ) { specifiers = def_specifiers( NumSpecifiers, specs_found ); // ... } Context.Tokens = toks; CodeConstructor result = parser_parse_constructor( specifiers ); return result; } CodeDestructor parse_destructor( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; // TODO(Ed): Destructors can have prefix attributes // TODO(Ed): Destructors can have virtual Context.Tokens = toks; CodeDestructor result = parser_parse_destructor(NullCode); return result; } CodeEnum parse_enum( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) { parser_pop(& Context); return InvalidCode; } Context.Tokens = toks; return parser_parse_enum( parser_not_inplace_def); } CodeBody parse_export_body( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_export_body(); } CodeExtern parse_extern_link( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_extern_link(); } CodeFriend parse_friend( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_friend(); } CodeFn parse_function( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return (CodeFn) parser_parse_function(); } CodeBody parse_global_body( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; push_scope(); CodeBody result = parse_global_nspace( CT_Global_Body ); parser_pop(& Context); return result; } CodeNS parse_namespace( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_namespace(); } CodeOperator parse_operator( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return (CodeOperator) parser_parse_operator(); } CodeOpCast parse_operator_cast( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_operator_cast(NullCode); } CodeStruct parse_struct( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; push_scope(); CodeStruct result = (CodeStruct) parse_class_struct( Tok_Decl_Struct, parser_not_inplace_def ); parser_pop(& Context); return result; } CodeTemplate parse_template( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_template(); } CodeTypename parse_type( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_type( parser_not_from_template, nullptr); } CodeTypedef parse_typedef( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_typedef(); } CodeUnion parse_union( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_union( parser_not_inplace_def); } CodeUsing parse_using( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_using(); } CodeVar parse_variable( StrC def ) { GEN_USING_NS_PARSER; check_parse_args( def ); TokArray toks = lex( def ); if ( toks.Arr == nullptr ) return InvalidCode; Context.Tokens = toks; return parser_parse_variable(); } // Undef helper macros # undef check_parse_args # undef currtok_noskip # undef currtok # undef peektok # undef prevtok # undef nexttok # undef nexttok_noskip # undef eat # undef left # undef check # undef push_scope # undef def_assign