#ifdef GEN_INTELLISENSE_DIRECTIVES #pragma once #include "ast.cpp" #endif forceinline String attributes_to_string(CodeAttributes attributes) { GEN_ASSERT(attributes); return {(char*) strc_duplicate( attributes->Content, GlobalAllocator ).Ptr}; } forceinline void attributes_to_string_ref(CodeAttributes attributes, String* result) { GEN_ASSERT(attributes); GEN_ASSERT(result); string_append_strc(result, attributes->Content); } String body_to_string(CodeBody body) { GEN_ASSERT(body); String result = string_make_reserve( GlobalAllocator, 128 ); switch ( body->Type ) { case CT_Untyped: case CT_Execution: string_append_strc( & result, cast(Code, body)->Content ); break; case CT_Enum_Body: case CT_Class_Body: case CT_Extern_Linkage_Body: case CT_Function_Body: case CT_Global_Body: case CT_Namespace_Body: case CT_Struct_Body: case CT_Union_Body: body_to_string_ref( body, & result ); break; case CT_Export_Body: body_to_string_export( body, & result ); break; } return result; } void body_to_string_ref( CodeBody body, String* result ) { GEN_ASSERT(body != nullptr); GEN_ASSERT(result != nullptr); Code curr = body->Front; s32 left = body->NumEntries; while ( left -- ) { code_to_string_ptr(curr, result); // string_append_fmt( result, "%S", code_to_string(curr) ); ++curr; } } void body_to_string_export( CodeBody body, String* result ) { GEN_ASSERT(body != nullptr); GEN_ASSERT(result != nullptr); string_append_fmt( result, "export\n{\n" ); Code curr = cast(Code, body); s32 left = body->NumEntries; while ( left-- ) { code_to_string_ptr(curr, result); // string_append_fmt( result, "%S", code_to_string(curr) ); ++curr; } string_append_fmt( result, "};\n" ); } forceinline String comment_to_string(CodeComment comment) { GEN_ASSERT(comment); return {(char*) strc_duplicate( comment->Content, GlobalAllocator ).Ptr}; } forceinline void comment_to_string_ref(CodeComment comment, String* result) { GEN_ASSERT(comment); GEN_ASSERT(result); string_append_strc(result, comment->Content); } String constructor_to_string(CodeConstructor self) { String result = string_make_reserve( GlobalAllocator, 128 ); switch (self->Type) { case CT_Constructor: constructor_to_string_def( self, & result ); break; case CT_Constructor_Fwd: constructor_to_string_fwd( self, & result ); break; } return result; } void constructor_to_string_def(CodeConstructor self, String* result ) { Code ClassStructParent = self->Parent->Parent; if (ClassStructParent) { string_append_strc( result, ClassStructParent->Name ); } else { string_append_strc( result, self->Name ); } if ( self->Params ) string_append_fmt( result, "( %S )", params_to_string(self->Params) ); else string_append_strc( result, txt("()") ); if ( self->InitializerList ) string_append_fmt( result, " : %S", code_to_string(self->InitializerList) ); if ( self->InlineCmt ) string_append_fmt( result, " // %SC", self->InlineCmt->Content ); string_append_fmt( result, "\n{\n%S\n}\n", code_to_string(self->Body) ); } void constructor_to_string_fwd(CodeConstructor self, String* result ) { Code ClassStructParent = self->Parent->Parent; if (ClassStructParent) { string_append_strc( result, ClassStructParent->Name ); } else { string_append_strc( result, self->Name ); } if ( self->Params ) string_append_fmt( result, "( %S )", params_to_string(self->Params) ); else string_append_fmt( result, "()"); if (self->Body) string_append_fmt( result, " = %S", code_to_string(self->Body) ); if ( self->InlineCmt ) string_append_fmt( result, "; // %SC\n", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n") ); } String class_to_string( CodeClass self ) { String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Class: class_to_string_def(self, & result ); break; case CT_Class_Fwd: class_to_string_fwd(self, & result ); break; } return result; } void class_to_string_def( CodeClass self, String* result ) { GEN_ASSERT(self); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("class ") ); if ( self->Attributes ) { string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); } if ( self->ParentType ) { char const* access_level = access_spec_to_str( self->ParentAccess ); string_append_fmt( result, "%SC : %s %S", self->Name, access_level, typename_to_string(self->ParentType) ); CodeTypename interface = cast(CodeTypename, self->ParentType->Next); if ( interface ) string_append_strc( result, txt("\n") ); while ( interface ) { string_append_fmt( result, ", %S", typename_to_string(interface) ); interface = interface->Next ? cast(CodeTypename, interface->Next) : CodeTypename { nullptr }; } } else if ( self->Name ) { string_append_strc( result, self->Name ); } if ( self->InlineCmt ) { string_append_fmt( result, " // %SC", self->InlineCmt->Content ); } string_append_fmt( result, "\n{\n%S\n}", body_to_string(self->Body) ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n") ); } void class_to_string_fwd( CodeClass self, String* result ) { GEN_ASSERT(self); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "class %S %SC", attributes_to_string(self->Attributes), self->Name ); else string_append_fmt( result, "class %SC", self->Name ); // Check if it can have an end-statement if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) { if ( self->InlineCmt ) string_append_fmt( result, "; // %SC\n", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n") ); } } String define_to_string(CodeDefine define) { return string_fmt_buf( GlobalAllocator, "#define %SC %SC", define->Name, define->Content ); } void define_to_string_ref(CodeDefine define, String* result ) { string_append_fmt( result, "#define %SC %SC", define->Name, define->Content ); } String destructor_to_string(CodeDestructor self) { String result = string_make_reserve( GlobalAllocator, 128 ); switch ( self->Type ) { case CT_Destructor: destructor_to_string_def( self, & result ); break; case CT_Destructor_Fwd: destructor_to_string_fwd( self, & result ); break; } return result; } void destructor_to_string_def(CodeDestructor self, String* result ) { if ( self->Name ) { string_append_fmt( result, "%SC()", self->Name ); } else if ( self->Specs ) { if ( specifiers_has(self->Specs, Spec_Virtual ) ) string_append_fmt( result, "virtual ~%SC()", self->Parent->Name ); else string_append_fmt( result, "~%SC()", self->Parent->Name ); } else string_append_fmt( result, "~%SC()", self->Parent->Name ); string_append_fmt( result, "\n{\n%S\n}\n", code_to_string(self->Body) ); } void destructor_to_string_fwd(CodeDestructor self, String* result ) { if ( self->Specs ) { if ( specifiers_has(self->Specs, Spec_Virtual ) ) string_append_fmt( result, "virtual ~%SC();\n", self->Parent->Name ); else string_append_fmt( result, "~%SC()", self->Parent->Name ); if ( specifiers_has(self->Specs, Spec_Pure ) ) string_append_strc( result, txt(" = 0;") ); else if (self->Body) string_append_fmt( result, " = %S;", code_to_string(self->Body) ); } else string_append_fmt( result, "~%SC();", self->Parent->Name ); if ( self->InlineCmt ) string_append_fmt( result, " %SC", self->InlineCmt->Content ); else string_append_strc( result, txt("\n")); } String enum_to_string(CodeEnum self) { String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Enum: enum_to_string_def(self, & result ); break; case CT_Enum_Fwd: enum_to_string_fwd(self, & result ); break; case CT_Enum_Class: enum_to_string_class_def(self, & result ); break; case CT_Enum_Class_Fwd: enum_to_string_class_fwd(self, & result ); break; } return result; } void enum_to_string_def(CodeEnum self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes || self->UnderlyingType || self->UnderlyingTypeMacro ) { string_append_strc( result, txt("enum ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->UnderlyingType ) string_append_fmt( result, "%SC : %S\n{\n%S\n}" , self->Name , typename_to_string(self->UnderlyingType) , body_to_string(self->Body) ); else if ( self->UnderlyingTypeMacro ) string_append_fmt( result, "%SC %S\n\n{\n%S\n}" , self->Name , code_to_string(self->UnderlyingTypeMacro) , body_to_string(self->Body) ); else string_append_fmt( result, "%SC\n{\n%S\n}", self->Name, body_to_string(self->Body) ); } else string_append_fmt( result, "enum %SC\n{\n%S\n}", self->Name, body_to_string(self->Body) ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n")); } void enum_to_string_fwd(CodeEnum self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->UnderlyingType ) string_append_fmt( result, "enum %SC : %S", self->Name, typename_to_string(self->UnderlyingType) ); else if (self->UnderlyingTypeMacro) { log_fmt("IDENTIFIED A UNDERLYING ENUM MACRO"); string_append_fmt( result, "enum %SC %S", self->Name, code_to_string(self->UnderlyingTypeMacro) ); } else string_append_fmt( result, "enum %SC", self->Name ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) { if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n")); } } void enum_to_string_class_def(CodeEnum self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes || self->UnderlyingType ) { string_append_strc( result, txt("enum class ") ); if ( self->Attributes ) { string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); } if ( self->UnderlyingType ) { string_append_fmt( result, "%SC : %S\n{\n%S\n}", self->Name, typename_to_string(self->UnderlyingType), body_to_string(self->Body) ); } else { string_append_fmt( result, "%SC\n{\n%S\n}", self->Name, body_to_string(self->Body) ); } } else { string_append_fmt( result, "enum %SC\n{\n%S\n}", self->Name, body_to_string(self->Body) ); } if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n")); } void enum_to_string_class_fwd(CodeEnum self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("enum class ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); string_append_fmt( result, "%SC : %S", self->Name, typename_to_string(self->UnderlyingType) ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) { if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n")); } } String exec_to_string(CodeExec exec) { return {(char*) strc_duplicate( exec->Content, GlobalAllocator ).Ptr}; } void extern_to_string(CodeExtern self, String* result ) { if ( self->Body ) string_append_fmt( result, "extern \"%SC\"\n{\n%S\n}\n", self->Name, body_to_string(self->Body) ); else string_append_fmt( result, "extern \"%SC\"\n{}\n", self->Name ); } String include_to_string(CodeInclude include) { return string_fmt_buf( GlobalAllocator, "#include %SC\n", include->Content ); } void include_to_string_ref( CodeInclude include, String* result ) { string_append_fmt( result, "#include %SC\n", include->Content ); } String friend_to_string(CodeFriend self) { String result = string_make_reserve( GlobalAllocator, 256 ); friend_to_string_ref( self, & result ); return result; } void friend_to_string_ref(CodeFriend self, String* result ) { string_append_fmt( result, "friend %S", code_to_string(self->Declaration) ); if ( self->Declaration->Type != CT_Function && self->Declaration->Type != CT_Operator && (* result)[ string_length(* result) - 1 ] != ';' ) { string_append_strc( result, txt(";") ); } if ( self->InlineCmt ) string_append_fmt( result, " %SC", self->InlineCmt->Content ); else string_append_strc( result, txt("\n")); } String fn_to_string(CodeFn self) { String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Function: fn_to_string_def(self, & result ); break; case CT_Function_Fwd: fn_to_string_fwd(self, & result ); break; } return result; } void fn_to_string_def(CodeFn self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export") ); if ( self->Attributes ) string_append_fmt( result, " %S ", attributes_to_string(self->Attributes) ); bool prefix_specs = false; if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); prefix_specs = true; } } } if ( self->Attributes || prefix_specs ) string_append_strc( result, txt("\n") ); if ( self->ReturnType ) string_append_fmt( result, "%S %SC(", typename_to_string(self->ReturnType), self->Name ); else string_append_fmt( result, "%SC(", self->Name ); if ( self->Params ) string_append_fmt( result, "%S)", params_to_string(self->Params) ); else string_append_strc( result, txt(")") ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } string_append_fmt( result, "\n{\n%S\n}\n", body_to_string(self->Body) ); } void fn_to_string_fwd(CodeFn self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); b32 prefix_specs = false; if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) || ! ( * spec != Spec_Pure) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); prefix_specs = true; } } } if ( self->Attributes || prefix_specs ) { string_append_strc( result, txt("\n") ); } if ( self->ReturnType ) string_append_fmt( result, "%S %SC(", typename_to_string(self->ReturnType), self->Name ); else string_append_fmt( result, "%SC(", self->Name ); if ( self->Params ) string_append_fmt( result, "%S)", params_to_string(self->Params) ); else string_append_strc( result, txt(")") ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } if ( self->Specs && specifiers_has(self->Specs, Spec_Pure ) >= 0 ) string_append_strc( result, txt(" = 0;") ); else if (self->Body) string_append_fmt( result, " = %S;", body_to_string(self->Body) ); if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n") ); } String module_to_string(CodeModule self) { String result = string_make_reserve( GlobalAllocator, 64 ); module_to_string_ref( self, & result ); return result; } void module_to_string_ref(CodeModule self, String* result ) { if (((u32(ModuleFlag_Export) & u32(self->ModuleFlags)) == u32(ModuleFlag_Export))) string_append_strc( result, txt("export ")); if (((u32(ModuleFlag_Import) & u32(self->ModuleFlags)) == u32(ModuleFlag_Import))) string_append_strc( result, txt("import ")); string_append_fmt( result, "%SC;\n", self->Name ); } String namespace_to_string(CodeNS self) { String result = string_make_reserve( GlobalAllocator, 512 ); namespace_to_string_ref( self, & result ); return result; } void namespace_to_string_ref(CodeNS self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_fmt( result, "namespace %SC\n{\n%S\n}\n", self->Name, body_to_string(self->Body) ); } String code_op_to_string(CodeOperator self) { String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Operator: case CT_Operator_Member: code_op_to_string_def( self, & result ); break; case CT_Operator_Fwd: case CT_Operator_Member_Fwd: code_op_to_string_fwd( self, & result ); break; } return result; } void code_op_to_string_def(CodeOperator self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } if ( self->Attributes || self->Specs ) { string_append_strc( result, txt("\n") ); } if ( self->ReturnType ) string_append_fmt( result, "%S %SC (", typename_to_string(self->ReturnType), self->Name ); if ( self->Params ) string_append_fmt( result, "%S)", params_to_string(self->Params) ); else string_append_strc( result, txt(")") ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } string_append_fmt( result, "\n{\n%S\n}\n" , body_to_string(self->Body) ); } void code_op_to_string_fwd(CodeOperator self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "%S\n", attributes_to_string(self->Attributes) ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } if ( self->Attributes || self->Specs ) { string_append_strc( result, txt("\n") ); } string_append_fmt( result, "%S %SC (", typename_to_string(self->ReturnType), self->Name ); if ( self->Params ) string_append_fmt( result, "%S)", params_to_string(self->Params) ); else string_append_fmt( result, ")" ); if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } } if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n") ); } String opcast_to_string(CodeOpCast self) { String result = string_make_reserve( GlobalAllocator, 128 ); switch ( self->Type ) { case CT_Operator_Cast: opcast_to_string_def(self, & result ); break; case CT_Operator_Cast_Fwd: opcast_to_string_fwd(self, & result ); break; } return result; } void opcast_to_string_def(CodeOpCast self, String* result ) { if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, "%*s ", spec_str.Len, spec_str.Ptr ); } } if ( self->Name && self->Name.Len ) string_append_fmt( result, "%SC operator %S()", self->Name, typename_to_string(self->ValueType) ); else string_append_fmt( result, "operator %S()", typename_to_string(self->ValueType) ); for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %.*s", spec_str.Len, spec_str.Ptr ); } } string_append_fmt( result, "\n{\n%S\n}\n", body_to_string(self->Body) ); return; } if ( self->Name && self->Name.Len ) string_append_fmt( result, "%SC operator %S()\n{\n%S\n}\n", self->Name, typename_to_string(self->ValueType), body_to_string(self->Body) ); else string_append_fmt( result, "operator %S()\n{\n%S\n}\n", typename_to_string(self->ValueType), body_to_string(self->Body) ); } void opcast_to_string_fwd(CodeOpCast self, String* result ) { if ( self->Specs ) { for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( ! spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, "%*s ", spec_str.Len, spec_str.Ptr ); } } string_append_fmt( result, "operator %S()", typename_to_string(self->ValueType) ); for ( Specifier* spec = begin_CodeSpecifiers(self->Specs); spec != end_CodeSpecifiers(self->Specs); spec = next_CodeSpecifiers(self->Specs, spec) ) { if ( spec_is_trailing( * spec ) ) { StrC spec_str = spec_to_str( * spec ); string_append_fmt( result, " %*s", spec_str.Len, spec_str.Ptr ); } } if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt(";\n") ); return; } if ( self->InlineCmt ) string_append_fmt( result, "operator %S(); %S", typename_to_string(self->ValueType) ); else string_append_fmt( result, "operator %S();\n", typename_to_string(self->ValueType) ); } String params_to_string(CodeParam self) { GEN_ASSERT(self); GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 128 ); params_to_string_ref( self, & result ); return result; } void params_to_string_ref( CodeParam self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( self->Macro ) { // Related to parsing: ( , ... ) string_append_strc( result, self->Macro->Content ); // Could also be: ( , ... ) } if ( self->Name ) { if ( self->ValueType == nullptr ) string_append_fmt( result, " %SC", self->Name ); else string_append_fmt( result, " %S %SC", typename_to_string(self->ValueType), self->Name ); } else if ( self->ValueType ) string_append_fmt( result, " %S", typename_to_string(self->ValueType) ); if ( self->PostNameMacro ) { string_append_fmt( result, " %S", code_to_string(self->PostNameMacro) ); } if ( self->Value ) string_append_fmt( result, " = %S", code_to_string(self->Value) ); if ( self->NumEntries - 1 > 0 ) { for ( CodeParam param = begin_CodeParam(self->Next); param != end_CodeParam(self->Next); param = next_CodeParam(self->Next, param) ) { string_append_fmt( result, ", %S", params_to_string(param) ); } } } String preprocess_to_string(CodePreprocessCond self) { GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 256 ); switch ( self->Type ) { case CT_Preprocess_If: preprocess_to_string_if( self, & result ); break; case CT_Preprocess_IfDef: preprocess_to_string_ifdef( self, & result ); break; case CT_Preprocess_IfNotDef: preprocess_to_string_ifndef( self, & result ); break; case CT_Preprocess_ElIf: preprocess_to_string_elif( self, & result ); break; case CT_Preprocess_Else: preprocess_to_string_else( self, & result ); break; case CT_Preprocess_EndIf: preprocess_to_string_endif( self, & result ); break; } return result; } void preprocess_to_string_if(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_fmt( result, "#if %SC", cond->Content ); } void preprocess_to_string_ifdef(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_fmt( result, "#ifdef %SC\n", cond->Content ); } void preprocess_to_string_ifndef(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_fmt( result, "#ifndef %SC", cond->Content ); } void preprocess_to_string_elif(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_fmt( result, "#elif %SC\n", cond->Content ); } void preprocess_to_string_else(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_strc( result, txt("#else\n") ); } void preprocess_to_string_endif(CodePreprocessCond cond, String* result ) { GEN_ASSERT(cond); string_append_strc( result, txt("#endif\n") ); } String pragma_to_string(CodePragma self) { GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 256 ); pragma_to_string_ref( self, & result ); return result; } void pragma_to_string_ref(CodePragma self, String* result ) { string_append_fmt( result, "#pragma %SC\n", self->Content ); } String specifiers_to_string(CodeSpecifiers self) { String result = string_make_reserve( GlobalAllocator, 64 ); specifiers_to_string_ref( self, & result ); return result; } void specifiers_to_string_ref( CodeSpecifiers self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); s32 idx = 0; s32 left = self->NumEntries; while ( left-- ) { StrC spec = spec_to_str( self->ArrSpecs[idx] ); string_append_fmt( result, "%.*s ", spec.Len, spec.Ptr ); idx++; } } String struct_to_string(CodeStruct self) { GEN_ASSERT(self); GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Struct: struct_to_string_def( self, & result ); break; case CT_Struct_Fwd: struct_to_string_fwd( self, & result ); break; } return result; } void struct_to_string_def( CodeStruct self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("struct ") ); if ( self->Attributes ) { string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); } if ( self->ParentType ) { char const* access_level = access_spec_to_str( self->ParentAccess ); string_append_fmt( result, "%SC : %s %S", self->Name, access_level, typename_to_string(self->ParentType) ); CodeTypename interface = cast(CodeTypename, self->ParentType->Next); if ( interface ) string_append_strc( result, txt("\n") ); while ( interface ) { string_append_fmt( result, ", %S", typename_to_string(interface) ); interface = interface->Next ? cast( CodeTypename, interface->Next) : CodeTypename { nullptr }; } } else if ( self->Name ) { string_append_strc( result, self->Name ); } if ( self->InlineCmt ) { string_append_fmt( result, " // %SC", self->InlineCmt->Content ); } string_append_fmt( result, "\n{\n%S\n}", body_to_string(self->Body) ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n")); } void struct_to_string_fwd( CodeStruct self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "struct %S %SC", attributes_to_string(self->Attributes), self->Name ); else string_append_fmt( result, "struct %SC", self->Name ); if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) { if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content ); else string_append_strc( result, txt( ";\n") ); } } String template_to_string(CodeTemplate self) { GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 1024 ); template_to_string_ref( self, & result ); return result; } void template_to_string_ref(CodeTemplate self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Params ) string_append_fmt( result, "template< %S >\n%S", params_to_string(self->Params), code_to_string(self->Declaration) ); else string_append_fmt( result, "template<>\n%S", code_to_string(self->Declaration) ); } String typedef_to_string(CodeTypedef self) { String result = string_make_reserve( GlobalAllocator, 128 ); typedef_to_string_ref( self, & result ); return result; } void typedef_to_string_ref(CodeTypedef self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("typedef ")); // Determines if the typedef is a function typename if ( self->UnderlyingType->ReturnType ) string_append_string( result, code_to_string(self->UnderlyingType) ); else string_append_fmt( result, "%S %SC", code_to_string(self->UnderlyingType), self->Name ); if ( self->UnderlyingType->Type == CT_Typename && self->UnderlyingType->ArrExpr ) { string_append_fmt( result, "[ %S ];", code_to_string(self->UnderlyingType->ArrExpr) ); Code next_arr_expr = self->UnderlyingType->ArrExpr->Next; while ( next_arr_expr ) { string_append_fmt( result, "[ %S ];", code_to_string(next_arr_expr) ); next_arr_expr = next_arr_expr->Next; } } else { string_append_strc( result, txt(";") ); } if ( self->InlineCmt ) string_append_fmt( result, " %SC", self->InlineCmt->Content); else string_append_strc( result, txt("\n")); } String typename_to_string(CodeTypename self) { String result = string_make_strc( GlobalAllocator, txt("") ); typename_to_string_ref( self, & result ); return result; } void typename_to_string_ref(CodeTypename self, String* result ) { #if defined(GEN_USE_NEW_TYPENAME_PARSING) if ( self->ReturnType && self->Params ) { if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); else { if ( self->Specs ) string_append_fmt( result, "%S ( %SC ) ( %S ) %S", typename_to_string(self->ReturnType), self->Name, params_to_string(self->Params), specifiers_to_string(self->Specs) ); else string_append_fmt( result, "%S ( %SC ) ( %S )", typename_to_string(self->ReturnType), self->Name, params_to_string(self->Params) ); } break; } #else if ( self->ReturnType && self->Params ) { if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); else { if ( self->Specs ) string_append_fmt( result, "%S %SC ( %S ) %S", typename_to_string(self->ReturnType), self->Name, params_to_string(self->Params), specifiers_to_string(self->Specs) ); else string_append_fmt( result, "%S %SC ( %S )", typename_to_string(self->ReturnType), self->Name, params_to_string(self->Params) ); } return; } #endif if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->Specs ) string_append_fmt( result, "%SC %S", self->Name, specifiers_to_string(self->Specs) ); else string_append_fmt( result, "%SC", self->Name ); if ( self->IsParamPack ) string_append_strc( result, txt("...")); } String union_to_string(CodeUnion self) { String result = string_make_reserve( GlobalAllocator, 512 ); switch ( self->Type ) { case CT_Union: union_to_string_def( self, & result ); break; case CT_Union_Fwd: union_to_string_fwd( self, & result ); break; } return result; } void union_to_string_def(CodeUnion self, String* result ) { if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("union ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->Name ) { string_append_fmt( result, "%SC\n{\n%S\n}" , self->Name , body_to_string(self->Body) ); } else { // Anonymous union string_append_fmt( result, "\n{\n%S\n}" , body_to_string(self->Body) ); } if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n")); } void union_to_string_fwd(CodeUnion self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); string_append_strc( result, txt("union ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->Name ) { string_append_fmt( result, "%SC", self->Name); } if ( self->Parent == nullptr || ( self->Parent->Type != CT_Typedef && self->Parent->Type != CT_Variable ) ) string_append_strc( result, txt(";\n")); } String using_to_string(CodeUsing self) { GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 128 ); switch ( self->Type ) { case CT_Using: using_to_string_ref( self, & result ); break; case CT_Using_Namespace: using_to_string_ns( self, & result ); break; } return result; } void using_to_string_ref(CodeUsing self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes ) string_append_fmt( result, "%S ", attributes_to_string(self->Attributes) ); if ( self->UnderlyingType ) { string_append_fmt( result, "using %SC = %S", self->Name, typename_to_string(self->UnderlyingType) ); if ( self->UnderlyingType->ArrExpr ) { string_append_fmt( result, "[ %S ]", code_to_string(self->UnderlyingType->ArrExpr) ); Code next_arr_expr = self->UnderlyingType->ArrExpr->Next; while ( next_arr_expr ) { string_append_fmt( result, "[ %S ]", code_to_string(next_arr_expr) ); next_arr_expr = next_arr_expr->Next; } } string_append_strc( result, txt(";") ); } else string_append_fmt( result, "using %SC;", self->Name ); if ( self->InlineCmt ) string_append_fmt( result, " %SC\n", self->InlineCmt->Content ); else string_append_strc( result, txt("\n")); } forceinline void using_to_string_ns(CodeUsing self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( self->InlineCmt ) string_append_fmt( result, "using namespace $SC; %SC", self->Name, self->InlineCmt->Content ); else string_append_fmt( result, "using namespace %SC;\n", self->Name ); } forceinline String var_to_string(CodeVar self) { GEN_ASSERT(self); String result = string_make_reserve( GlobalAllocator, 256 ); var_to_string_ref( self, & result ); return result; } neverinline void var_to_string_ref(CodeVar self, String* result ) { GEN_ASSERT(self); GEN_ASSERT(result); if ( self->Parent && self->Parent->Type == CT_Variable ) { // Its a comma-separated variable ( a NextVar ) if ( self->Specs ) string_append_fmt( result, "%S ", specifiers_to_string(self->Specs) ); string_append_strc( result, self->Name ); if ( self->ValueType->ArrExpr ) { string_append_fmt( result, "[ %S ]", code_to_string(self->ValueType->ArrExpr) ); Code next_arr_expr = self->ValueType->ArrExpr->Next; while ( next_arr_expr ) { string_append_fmt( result, "[ %S ]", code_to_string(next_arr_expr) ); next_arr_expr = next_arr_expr->Next; } } if ( self->Value ) { if ( self->VarConstructorInit ) string_append_fmt( result, "( %S ", code_to_string(self->Value) ); else string_append_fmt( result, " = %S", code_to_string(self->Value) ); } // Keep the chain going... if ( self->NextVar ) string_append_fmt( result, ", %S", var_to_string(self->NextVar) ); if ( self->VarConstructorInit ) string_append_strc( result, txt(" )")); return; } if ( bitfield_is_equal( u32, self->ModuleFlags, ModuleFlag_Export )) string_append_strc( result, txt("export ") ); if ( self->Attributes || self->Specs ) { if ( self->Attributes ) string_append_fmt( result, "%S ", specifiers_to_string(self->Specs) ); if ( self->Specs ) string_append_fmt( result, "%S\n", specifiers_to_string(self->Specs) ); string_append_fmt( result, "%S %SC", typename_to_string(self->ValueType), self->Name ); if ( self->ValueType->ArrExpr ) { string_append_fmt( result, "[ %S ]", code_to_string(self->ValueType->ArrExpr) ); Code next_arr_expr = self->ValueType->ArrExpr->Next; while ( next_arr_expr ) { string_append_fmt( result, "[ %S ]", code_to_string(next_arr_expr) ); next_arr_expr = next_arr_expr->Next; } } if ( self->BitfieldSize ) string_append_fmt( result, " : %S", code_to_string(self->BitfieldSize) ); if ( self->Value ) { if ( self->VarConstructorInit ) string_append_fmt( result, "( %S ", code_to_string(self->Value) ); else string_append_fmt( result, " = %S", code_to_string(self->Value) ); } if ( self->NextVar ) string_append_fmt( result, ", %S", var_to_string(self->NextVar) ); if ( self->VarConstructorInit ) string_append_strc( result, txt(" )")); if ( self->InlineCmt ) string_append_fmt( result, "; %SC", self->InlineCmt->Content); else string_append_strc( result, txt(";\n") ); return; } if ( self->BitfieldSize ) string_append_fmt( result, "%S %SC : %S", typename_to_string(self->ValueType), self->Name, code_to_string(self->BitfieldSize) ); else if ( self->ValueType->ArrExpr ) { string_append_fmt( result, "%S %SC[ %S ]", typename_to_string(self->ValueType), self->Name, code_to_string(self->ValueType->ArrExpr) ); Code next_arr_expr = self->ValueType->ArrExpr->Next; while ( next_arr_expr ) { string_append_fmt( result, "[ %S ]", code_to_string(next_arr_expr) ); next_arr_expr = next_arr_expr->Next; } } else string_append_fmt( result, "%S %SC", typename_to_string(self->ValueType), self->Name ); if ( self->Value ) { if ( self->VarConstructorInit ) string_append_fmt( result, "( %S ", code_to_string(self->Value) ); else string_append_fmt( result, " = %S", code_to_string(self->Value) ); } if ( self->NextVar ) string_append_fmt( result, ", %S", var_to_string( self->NextVar) ); if ( self->VarConstructorInit ) string_append_strc( result, txt(" )")); string_append_strc( result, txt(";") ); if ( self->InlineCmt ) string_append_fmt( result, " %SC", self->InlineCmt->Content); else string_append_strc( result, txt("\n")); }