#ifdef GEN_INTELLISENSE_DIRECTIVES #pragma once #include "static_data.cpp" #endif global Code Code_Global; global Code Code_Invalid; // This serializes all the data-members in a "debug" format, where each member is printed with its associated value. char const* debug_str(AST* self) { GEN_ASSERT(self != nullptr); String result_stack = string_make_reserve( GlobalAllocator, kilobytes(1) ); String* result = & result_stack; if ( self->Parent ) append_fmt( result, "\n\tParent : %S %S", type_str(self->Parent), self->Name ? self->Name : "" ); else append_fmt( result, "\n\tParent : %S", "Null" ); append_fmt( result, "\n\tName : %S", self->Name ? self->Name : "Null" ); append_fmt( result, "\n\tType : %S", type_str(self) ); append_fmt( result, "\n\tModule Flags : %S", to_str( self->ModuleFlags ) ); switch ( self->Type ) { using namespace ECode; case Invalid: case NewLine: case Access_Private: case Access_Protected: case Access_Public: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); break; case Untyped: case Execution: case Comment: case PlatformAttributes: case Preprocess_Define: case Preprocess_Include: case Preprocess_Pragma: case Preprocess_If: case Preprocess_ElIf: case Preprocess_Else: case Preprocess_IfDef: case Preprocess_IfNotDef: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tContent: %S", self->Content ); break; case Class: case Struct: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tParentAccess: %s", self->ParentType ? to_str( self->ParentAccess ) : "No Parent" ); append_fmt( result, "\n\tParentType : %s", self->ParentType ? type_str(self->ParentType) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Class_Fwd: case Struct_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tParentAccess: %s", self->ParentType ? to_str( self->ParentAccess ) : "No Parent" ); append_fmt( result, "\n\tParentType : %s", self->ParentType ? type_str(self->ParentType) : "Null" ); break; case Constructor: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tInitializerList: %S", self->InitializerList ? to_string(self->InitializerList) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Constructor_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tInitializerList: %S", self->InitializerList ? to_string(self->InitializerList) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); break; case Destructor: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Destructor_Fwd: break; case Enum: case Enum_Class: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tUnderlying Type : %S", self->UnderlyingType ? to_string(self->UnderlyingType) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Enum_Fwd: case Enum_Class_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tUnderlying Type : %S", self->UnderlyingType ? to_string(self->UnderlyingType) : "Null" ); break; case Extern_Linkage: case Namespace: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tBody: %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Friend: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tDeclaration: %S", self->Declaration ? to_string(self->Declaration) : "Null" ); break; case Function: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes: %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tReturnType: %S", self->ReturnType ? to_string(self->ReturnType) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Function_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes: %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tReturnType: %S", self->ReturnType ? to_string(self->ReturnType) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); break; case Module: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); break; case Operator: case Operator_Member: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes: %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tReturnType: %S", self->ReturnType ? to_string(self->ReturnType) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); append_fmt( result, "\n\tOp : %S", to_str( self->Op ) ); break; case Operator_Fwd: case Operator_Member_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes: %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tReturnType: %S", self->ReturnType ? to_string(self->ReturnType) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tOp : %S", to_str( self->Op ) ); break; case Operator_Cast: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tValueType : %S", self->ValueType ? to_string(self->ValueType) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Operator_Cast_Fwd: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tValueType : %S", self->ValueType ? to_string(self->ValueType) : "Null" ); break; case Parameters: append_fmt( result, "\n\tNumEntries: %d", self->NumEntries ); append_fmt( result, "\n\tLast : %S", self->Last->Name ); append_fmt( result, "\n\tNext : %S", self->Next->Name ); append_fmt( result, "\n\tValueType : %S", self->ValueType ? to_string(self->ValueType) : "Null" ); append_fmt( result, "\n\tValue : %S", self->Value ? to_string(self->Value) : "Null" ); break; case Specifiers: { append_fmt( result, "\n\tNumEntries: %d", self->NumEntries ); GEN_NS append( result, "\n\tArrSpecs: " ); s32 idx = 0; s32 left = self->NumEntries; while ( left-- ) { StrC spec = ESpecifier::to_str( self->ArrSpecs[idx] ); append_fmt( result, "%.*s, ", spec.Len, spec.Ptr ); idx++; } append_fmt( result, "\n\tNextSpecs: %S", self->NextSpecs ? debug_str(self->NextSpecs) : "Null" ); } break; case Template: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tDeclaration: %S", self->Declaration ? to_string(self->Declaration) : "Null" ); break; case Typedef: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tUnderlyingType: %S", self->UnderlyingType ? to_string(self->UnderlyingType) : "Null" ); break; case Typename: append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tReturnType : %S", self->ReturnType ? to_string(self->ReturnType) : "Null" ); append_fmt( result, "\n\tParams : %S", self->Params ? to_string(self->Params) : "Null" ); append_fmt( result, "\n\tArrExpr : %S", self->ArrExpr ? to_string(self->ArrExpr) : "Null" ); break; case Union: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tAttributes: %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tBody : %S", self->Body ? debug_str(self->Body) : "Null" ); break; case Using: if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tUnderlyingType: %S", self->UnderlyingType ? to_string(self->UnderlyingType) : "Null" ); break; case Variable: if ( self->Parent && self->Parent->Type == Variable ) { // Its a NextVar append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tValue : %S", self->Value ? to_string(self->Value) : "Null" ); append_fmt( result, "\n\tBitfieldSize: %S", self->BitfieldSize ? to_string(self->BitfieldSize) : "Null" ); append_fmt( result, "\n\tNextVar : %S", self->NextVar ? debug_str(self->NextVar) : "Null" ); break; } if ( self->Prev ) append_fmt( result, "\n\tPrev: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); if ( self->Next ) append_fmt( result, "\n\tNext: %S %S", type_str(self->Prev), self->Prev->Name ? self->Prev->Name : "Null" ); append_fmt( result, "\n\tInlineCmt : %S", self->InlineCmt ? self->InlineCmt->Content : "Null" ); append_fmt( result, "\n\tAttributes : %S", self->Attributes ? to_string(self->Attributes) : "Null" ); append_fmt( result, "\n\tSpecs : %S", self->Specs ? to_string(self->Specs) : "Null" ); append_fmt( result, "\n\tValueType : %S", self->ValueType ? to_string(self->ValueType) : "Null" ); append_fmt( result, "\n\tBitfieldSize: %S", self->BitfieldSize ? to_string(self->BitfieldSize) : "Null" ); append_fmt( result, "\n\tValue : %S", self->Value ? to_string(self->Value) : "Null" ); append_fmt( result, "\n\tNextVar : %S", self->NextVar ? debug_str(self->NextVar) : "Null" ); break; } return * result; } AST* duplicate(AST* self) { using namespace ECode; AST* result = make_code().ast; mem_copy( result, self, sizeof( AST ) ); result->Parent = nullptr; return result; } String to_string(AST* self) { String result = string_make( GlobalAllocator, "" ); GEN_NS to_string( self, & result ); return result; } void to_string( AST* self, String* result ) { GEN_ASSERT(self != nullptr); local_persist thread_local char SerializationLevel = 0; switch ( self->Type ) { using namespace ECode; case Invalid: #ifdef GEN_DONT_ALLOW_INVALID_CODE log_failure("Attempted to serialize invalid code! - %S", Parent ? Parent->debug_str() : Name ); #else append_fmt( result, "Invalid Code!" ); #endif break; case NewLine: append( result,"\n"); break; case Untyped: case Execution: case Comment: case PlatformAttributes: append( result, self->Content ); break; case Access_Private: case Access_Protected: case Access_Public: append( result, self->Name ); break; case Class: to_string_def(cast(CodeClass, {self}), result ); break; case Class_Fwd: to_string_fwd(cast(CodeClass, {self}), result ); break; case Constructor: cast(CodeConstructor, {self}).to_string_def( * result ); break; case Constructor_Fwd: cast(CodeConstructor, {self}).to_string_fwd( * result ); break; case Destructor: cast(CodeDestructor, {self}).to_string_def( * result ); break; case Destructor_Fwd: cast(CodeDestructor, {self}).to_string_fwd( * result ); break; case Enum: cast(CodeEnum, {self}).to_string_def( * result ); break; case Enum_Fwd: cast(CodeEnum, {self}).to_string_fwd( * result ); break; case Enum_Class: cast(CodeEnum, {self}).to_string_class_def( * result ); break; case Enum_Class_Fwd: cast(CodeEnum, {self}).to_string_class_fwd( * result ); break; case Export_Body: to_string_export(cast(CodeBody, {self}), result ); break; case Extern_Linkage: cast(CodeExtern, {self}).to_string( * result ); break; case Friend: cast(CodeFriend, {self}).to_string( * result ); break; case Function: cast(CodeFn, {self}).to_string_def( * result ); break; case Function_Fwd: cast(CodeFn, {self}).to_string_fwd( * result ); break; case Module: cast(CodeModule, {self}).to_string( * result ); break; case Namespace: cast(CodeNS, {self}).to_string( * result ); break; case Operator: case Operator_Member: cast(CodeOperator, {self}).to_string_def( * result ); break; case Operator_Fwd: case Operator_Member_Fwd: cast(CodeOperator, {self}).to_string_fwd( * result ); break; case Operator_Cast: cast(CodeOpCast, {self}).to_string_def( * result ); break; case Operator_Cast_Fwd: cast(CodeOpCast, {self}).to_string_fwd( * result ); break; case Parameters: cast(CodeParam, {self}).to_string( * result ); break; case Preprocess_Define: cast(CodeDefine, {self}).to_string( * result ); break; case Preprocess_If: cast(CodePreprocessCond, {self}).to_string_if( * result ); break; case Preprocess_IfDef: cast(CodePreprocessCond, {self}).to_string_ifdef( * result ); break; case Preprocess_IfNotDef: cast(CodePreprocessCond, {self}).to_string_ifndef( * result ); break; case Preprocess_Include: cast(CodeInclude, {self}).to_string( * result ); break; case Preprocess_ElIf: cast(CodePreprocessCond, {self}).to_string_elif( * result ); break; case Preprocess_Else: cast(CodePreprocessCond, {self}).to_string_else( * result ); break; case Preprocess_EndIf: cast(CodePreprocessCond, {self}).to_string_endif( * result ); break; case Preprocess_Pragma: cast(CodePragma, {self}).to_string( * result ); break; case Specifiers: cast(CodeSpecifiers, {self}).to_string( * result ); break; case Struct: cast(CodeStruct, {self}).to_string_def( * result ); break; case Struct_Fwd: cast(CodeStruct, {self}).to_string_fwd( * result ); break; case Template: cast(CodeTemplate, {self}).to_string( * result ); break; case Typedef: cast(CodeTypedef, {self}).to_string( * result ); break; case Typename: cast(CodeType, {self}).to_string( * result ); break; case Union: cast(CodeUnion, {self}).to_string( * result ); break; case Using: cast(CodeUsing, {self}).to_string( * result ); break; case Using_Namespace: cast(CodeUsing, {self}).to_string_ns( * result ); break; case Variable: cast(CodeVar, {self}).to_string( * result ); break; case Enum_Body: case Class_Body: case Extern_Linkage_Body: case Function_Body: case Global_Body: case Namespace_Body: case Struct_Body: case Union_Body: to_string( cast(CodeBody, {self}), result ); break; } } bool is_equal( AST* self, AST* other ) { /* AST values are either some u32 value, a cached string, or a pointer to another AST. u32 values are compared by value. Cached strings are compared by pointer. AST nodes are compared with AST::is_equal. */ if ( other == nullptr ) { log_fmt( "AST::is_equal: other is null\nAST: %S", debug_str(self) ); return false; } if ( self->Type != other->Type ) { log_fmt("AST::is_equal: Type check failure with other\nAST: %S\nOther: %S" , debug_str(self) ,debug_str(other) ); return false; } switch ( self->Type ) { using namespace ECode; #define check_member_val( val ) \ if ( self->val != other->val ) \ { \ log_fmt("\nAST::is_equal: Member - " #val " failed\n" \ "AST : %S\n" \ "Other: %S\n" \ , debug_str(self) \ ,debug_str(other) \ ); \ \ return false; \ } #define check_member_str( str ) \ if ( self->str != other->str ) \ { \ log_fmt("\nAST::is_equal: Member string - "#str " failed\n" \ "AST : %S\n" \ "Other: %S\n" \ , debug_str(self) \ ,debug_str(other) \ ); \ \ return false; \ } #define check_member_content( content ) \ if ( self->content != other->content ) \ { \ log_fmt("\nAST::is_equal: Member content - "#content " failed\n" \ "AST : %S\n" \ "Other: %S\n" \ , debug_str(self) \ ,debug_str(other) \ ); \ \ log_fmt("Content cannot be trusted to be unique with this check " \ "so it must be verified by eye for now\n" \ "AST Content:\n%S\n" \ "Other Content:\n%S\n" \ , visualize_whitespace(self->content) \ , visualize_whitespace(other->content) \ ); \ } #define check_member_ast( ast ) \ if ( self->ast ) \ { \ if ( other->ast == nullptr ) \ { \ log_fmt("\nAST::is_equal: Failed for member " #ast " other equivalent param is null\n" \ "AST : %s\n" \ "Other: %s\n" \ "For ast member: %s\n" \ , debug_str(self) \ , debug_str(other) \ , debug_str(self->ast) \ ); \ \ return false; \ } \ \ if ( ! is_equal(self->ast, other->ast ) ) \ { \ log_fmt( "\nAST::is_equal: Failed for " #ast"\n" \ "AST : %S\n" \ "Other: %S\n" \ "For ast member: %S\n" \ "other's ast member: %S\n" \ , debug_str(self) \ , debug_str(other) \ , debug_str(self->ast) \ , debug_str(other->ast) \ ); \ \ return false; \ } \ } case NewLine: case Access_Public: case Access_Protected: case Access_Private: case Preprocess_Else: case Preprocess_EndIf: return true; // Comments are not validated. case Comment: return true; case Execution: case PlatformAttributes: case Untyped: { check_member_content( Content ); return true; } case Class_Fwd: case Struct_Fwd: { check_member_str( Name ); check_member_ast( ParentType ); check_member_val( ParentAccess ); check_member_ast( Attributes ); return true; } case Class: case Struct: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ParentType ); check_member_val( ParentAccess ); check_member_ast( Attributes ); check_member_ast( Body ); return true; } case Constructor: { check_member_ast( InitializerList ); check_member_ast( Params ); check_member_ast( Body ); return true; } case Constructor_Fwd: { check_member_ast( InitializerList ); check_member_ast( Params ); return true; } case Destructor: { check_member_ast( Specs ); check_member_ast( Body ); return true; } case Destructor_Fwd: { check_member_ast( Specs ); return true; } case Enum: case Enum_Class: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Attributes ); check_member_ast( UnderlyingType ); check_member_ast( Body ); return true; } case Enum_Fwd: case Enum_Class_Fwd: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Attributes ); check_member_ast( UnderlyingType ); return true; } case Extern_Linkage: { check_member_str( Name ); check_member_ast( Body ); return true; } case Friend: { check_member_str( Name ); check_member_ast( Declaration ); return true; } case Function: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ReturnType ); check_member_ast( Attributes ); check_member_ast( Specs ); check_member_ast( Params ); check_member_ast( Body ); return true; } case Function_Fwd: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ReturnType ); check_member_ast( Attributes ); check_member_ast( Specs ); check_member_ast( Params ); return true; } case Module: { check_member_val( ModuleFlags ); check_member_str( Name ); return true; } case Namespace: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Body ); return true; } case Operator: case Operator_Member: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ReturnType ); check_member_ast( Attributes ); check_member_ast( Specs ); check_member_ast( Params ); check_member_ast( Body ); return true; } case Operator_Fwd: case Operator_Member_Fwd: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ReturnType ); check_member_ast( Attributes ); check_member_ast( Specs ); check_member_ast( Params ); return true; } case Operator_Cast: { check_member_str( Name ); check_member_ast( Specs ); check_member_ast( ValueType ); check_member_ast( Body ); return true; } case Operator_Cast_Fwd: { check_member_str( Name ); check_member_ast( Specs ); check_member_ast( ValueType ); return true; } case Parameters: { if ( self->NumEntries > 1 ) { AST* curr = self; AST* curr_other = other; while ( curr != nullptr ) { if ( curr ) { if ( curr_other == nullptr ) { log_fmt("\nAST::is_equal: Failed for parameter, other equivalent param is null\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" , debug_str(curr) ); return false; } if ( curr->Name != curr_other->Name ) { log_fmt( "\nAST::is_equal: Failed for parameter name check\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" "other's ast member: %S\n" , debug_str(self) , debug_str(other) , debug_str(curr) , debug_str(curr_other) ); return false; } if ( curr->ValueType && ! is_equal(curr->ValueType, curr_other->ValueType) ) { log_fmt( "\nAST::is_equal: Failed for parameter value type check\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" "other's ast member: %S\n" , debug_str(self) , debug_str(other) , debug_str(curr) , debug_str(curr_other) ); return false; } if ( curr->Value && ! is_equal(curr->Value, curr_other->Value) ) { log_fmt( "\nAST::is_equal: Failed for parameter value check\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" "other's ast member: %S\n" , debug_str(self) , debug_str(other) , debug_str(curr) , debug_str(curr_other) ); return false; } } curr = curr->Next; curr_other = curr_other->Next; } check_member_val( NumEntries ); return true; } check_member_str( Name ); check_member_ast( ValueType ); check_member_ast( Value ); check_member_ast( ArrExpr ); return true; } case Preprocess_Define: { check_member_str( Name ); check_member_content( Content ); return true; } case Preprocess_If: case Preprocess_IfDef: case Preprocess_IfNotDef: case Preprocess_ElIf: { check_member_content( Content ); return true; } case Preprocess_Include: case Preprocess_Pragma: { check_member_content( Content ); return true; } case Specifiers: { check_member_val( NumEntries ); check_member_str( Name ); for ( s32 idx = 0; idx < self->NumEntries; ++idx ) { check_member_val( ArrSpecs[ idx ] ); } return true; } case Template: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Params ); check_member_ast( Declaration ); return true; } case Typedef: { check_member_val( IsFunction ); check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Specs ); check_member_ast( UnderlyingType ); return true; } case Typename: { check_member_val( IsParamPack ); check_member_str( Name ); check_member_ast( Specs ); check_member_ast( ArrExpr ); return true; } case Union: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( Attributes ); check_member_ast( Body ); return true; } case Using: case Using_Namespace: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( UnderlyingType ); check_member_ast( Attributes ); return true; } case Variable: { check_member_val( ModuleFlags ); check_member_str( Name ); check_member_ast( ValueType ); check_member_ast( BitfieldSize ); check_member_ast( Value ); check_member_ast( Attributes ); check_member_ast( Specs ); check_member_ast( NextVar ); return true; } case Class_Body: case Enum_Body: case Export_Body: case Global_Body: case Namespace_Body: case Struct_Body: case Union_Body: { check_member_ast( Front ); check_member_ast( Back ); AST* curr = self->Front; AST* curr_other = other->Front; while ( curr != nullptr ) { if ( curr_other == nullptr ) { log_fmt("\nAST::is_equal: Failed for body, other equivalent param is null\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" , debug_str(curr) ); return false; } if ( ! is_equal( curr, curr_other ) ) { log_fmt( "\nAST::is_equal: Failed for body\n" "AST : %S\n" "Other: %S\n" "For ast member: %S\n" "other's ast member: %S\n" , debug_str(self) , debug_str(other) , debug_str(curr) , debug_str(curr_other) ); return false; } curr = curr->Next; curr_other = curr_other->Next; } check_member_val( NumEntries ); return true; } #undef check_member_val #undef check_member_str #undef check_member_ast } return true; } bool validate_body(AST* self) { using namespace ECode; #define CheckEntries( Unallowed_Types ) \ do \ { \ for ( Code entry : cast(CodeBody, {self}) ) \ { \ switch ( entry->Type ) \ { \ Unallowed_Types \ log_failure( "AST::validate_body: Invalid entry in body %s", GEN_NS debug_str(entry) ); \ return false; \ } \ } \ } \ while (0); switch ( self->Type ) { case Class_Body: CheckEntries( GEN_AST_BODY_CLASS_UNALLOWED_TYPES ); break; case Enum_Body: for ( Code entry : cast(CodeBody, {self}) ) { if ( entry->Type != Untyped ) { log_failure( "AST::validate_body: Invalid entry in enum body (needs to be untyped or comment) %s", GEN_NS debug_str(entry) ); return false; } } break; case Export_Body: CheckEntries( GEN_AST_BODY_CLASS_UNALLOWED_TYPES ); break; case Extern_Linkage: CheckEntries( GEN_AST_BODY_EXTERN_LINKAGE_UNALLOWED_TYPES ); break; case Function_Body: CheckEntries( GEN_AST_BODY_FUNCTION_UNALLOWED_TYPES ); break; case Global_Body: for (Code entry : cast(CodeBody, {self})) { switch (entry->Type) { case Access_Public: case Access_Protected: case Access_Private: case PlatformAttributes: case Class_Body: case Enum_Body: case Execution: case Friend: case Function_Body: case Global_Body: case Namespace_Body: case Operator_Member: case Operator_Member_Fwd: case Parameters: case Specifiers: case Struct_Body: case Typename: log_failure("AST::validate_body: Invalid entry in body %s", GEN_NS debug_str(entry)); return false; } } break; case Namespace_Body: CheckEntries( GEN_AST_BODY_NAMESPACE_UNALLOWED_TYPES ); break; case Struct_Body: CheckEntries( GEN_AST_BODY_STRUCT_UNALLOWED_TYPES ); break; case Union_Body: for ( Code entry : cast(CodeBody, {self->Body}) ) { if ( entry->Type != Untyped ) { log_failure( "AST::validate_body: Invalid entry in union body (needs to be untyped or comment) %s", GEN_NS debug_str(entry) ); return false; } } break; default: log_failure( "AST::validate_body: Invalid this AST does not have a body %s", debug_str(self) ); return false; } return false; #undef CheckEntries }