// // Cforall Version 1.0.0 Copyright (C) 2015 University of Waterloo // // The contents of this file are covered under the licence agreement in the // file "LICENCE" distributed with Cforall. // // CodeLocationTools.cpp -- Additional tools for code locations. // // Author : Andrew Beach // Created On : Fri Dec 4 15:42:00 2020 // Last Modified By : Andrew Beach // Last Modified On : Wed May 11 16:16:00 2022 // Update Count : 5 // #include "CodeLocationTools.hpp" #include #include "AST/Pass.hpp" #include "AST/TranslationUnit.hpp" #include "Common/CodeLocation.hpp" namespace { // Fill every location with a nearby (parent) location. class FillCore : public ast::WithGuards { CodeLocation const * parent; template node_t const * parse_visit( node_t const * node ) { if ( node->location.isUnset() ) { assert( parent ); node_t * newNode = ast::mutate( node ); newNode->location = *parent; return newNode; } GuardValue( parent ) = &node->location; return node; } bool hasUnsetLabels( const ast::Stmt * stmt ) { for ( const ast::Label& label : stmt->labels ) { if ( label.location.isUnset() ) { return true; } } return false; } template node_t const * stmt_visit( node_t const * node ) { assert( node->location.isSet() ); if ( hasUnsetLabels( node ) ) { node_t * newNode = ast::mutate( node ); for ( ast::Label& label : newNode->labels ) { if ( label.location.isUnset() ) { label.location = newNode->location; } } return newNode; } return node; } template auto visit( node_t const * node, long ) { return node; } template auto visit( node_t const * node, int ) -> typename std::remove_reference< decltype( node->location, node ) >::type { return parse_visit( node ); } template auto visit( node_t const * node, char ) -> typename std::remove_reference< decltype( node->labels, node ) >::type { return stmt_visit( parse_visit( node ) ); } public: FillCore() : parent( nullptr ) {} FillCore( const CodeLocation& location ) : parent( &location ) { assert( location.isSet() ); } template node_t const * previsit( node_t const * node ) { return visit( node, '\0' ); } }; // ALL_VISITS(macro) // Expands `macro(node_type, return_type)` for every visit method of the // ast::Visitor class where node_type is the name of the parameter and // return_type is the name of the return type; not including the namespace, // pointer or const qualifiers. #define ALL_VISITS(macro) \ macro(ObjectDecl, DeclWithType) \ macro(FunctionDecl, DeclWithType) \ macro(StructDecl, Decl) \ macro(UnionDecl, Decl) \ macro(EnumDecl, Decl) \ macro(TraitDecl, Decl) \ macro(TypeDecl, Decl) \ macro(TypedefDecl, Decl) \ macro(AsmDecl, AsmDecl) \ macro(DirectiveDecl, DirectiveDecl) \ macro(StaticAssertDecl, StaticAssertDecl) \ macro(InlineMemberDecl, DeclWithType) \ macro(CompoundStmt, CompoundStmt) \ macro(ExprStmt, Stmt) \ macro(AsmStmt, Stmt) \ macro(DirectiveStmt, Stmt) \ macro(IfStmt, Stmt) \ macro(WhileDoStmt, Stmt) \ macro(ForStmt, Stmt) \ macro(ForeachStmt, Stmt) \ macro(SwitchStmt, Stmt) \ macro(CaseClause, CaseClause) \ macro(BranchStmt, Stmt) \ macro(ReturnStmt, Stmt) \ macro(ThrowStmt, Stmt) \ macro(TryStmt, Stmt) \ macro(CatchClause, CatchClause) \ macro(FinallyClause, FinallyClause) \ macro(SuspendStmt, Stmt) \ macro(WhenClause, WhenClause) \ macro(WaitForStmt, Stmt) \ macro(WaitForClause, WaitForClause) \ macro(WaitUntilStmt, Stmt) \ macro(WithStmt, Decl) \ macro(NullStmt, NullStmt) \ macro(DeclStmt, Stmt) \ macro(ImplicitCtorDtorStmt, Stmt) \ macro(MutexStmt, Stmt) \ macro(CorunStmt, Stmt) \ macro(CoforStmt, Stmt) \ macro(ApplicationExpr, Expr) \ macro(UntypedExpr, Expr) \ macro(NameExpr, Expr) \ macro(QualifiedNameExpr, Expr) \ macro(AddressExpr, Expr) \ macro(LabelAddressExpr, Expr) \ macro(CastExpr, Expr) \ macro(KeywordCastExpr, Expr) \ macro(VirtualCastExpr, Expr) \ macro(UntypedMemberExpr, Expr) \ macro(MemberExpr, Expr) \ macro(VariableExpr, Expr) \ macro(ConstantExpr, Expr) \ macro(SizeofExpr, Expr) \ macro(CountExpr, Expr ) \ macro(AlignofExpr, Expr) \ macro(UntypedOffsetofExpr, Expr) \ macro(OffsetofExpr, Expr) \ macro(OffsetPackExpr, Expr) \ macro(LogicalExpr, Expr) \ macro(ConditionalExpr, Expr) \ macro(CommaExpr, Expr) \ macro(TypeExpr, Expr) \ macro(DimensionExpr, Expr) \ macro(AsmExpr, Expr) \ macro(ImplicitCopyCtorExpr, Expr) \ macro(ConstructorExpr, Expr) \ macro(CompoundLiteralExpr, Expr) \ macro(RangeExpr, Expr) \ macro(UntypedTupleExpr, Expr) \ macro(TupleExpr, Expr) \ macro(TupleIndexExpr, Expr) \ macro(TupleAssignExpr, Expr) \ macro(StmtExpr, Expr) \ macro(UniqueExpr, Expr) \ macro(UntypedInitExpr, Expr) \ macro(InitExpr, Expr) \ macro(DeletedExpr, Expr) \ macro(DefaultArgExpr, Expr) \ macro(GenericExpr, Expr) \ macro(VoidType, Type) \ macro(BasicType, Type) \ macro(PointerType, Type) \ macro(ArrayType, Type) \ macro(ReferenceType, Type) \ macro(QualifiedType, Type) \ macro(FunctionType, Type) \ macro(StructInstType, Type) \ macro(UnionInstType, Type) \ macro(EnumInstType, Type) \ macro(TraitInstType, Type) \ macro(TypeInstType, Type) \ macro(TupleType, Type) \ macro(TypeofType, Type) \ macro(VTableType, Type) \ macro(VarArgsType, Type) \ macro(ZeroType, Type) \ macro(OneType, Type) \ macro(GlobalScopeType, Type) \ macro(Designation, Designation) \ macro(SingleInit, Init) \ macro(ListInit, Init) \ macro(ConstructorInit, Init) \ macro(Attribute, Attribute) \ macro(TypeSubstitution, TypeSubstitution) // These could even go into the ast namespace. enum class LeafKind { #define VISIT(node_type, return_type) node_type, ALL_VISITS(VISIT) #undef VISIT }; struct LeafKindVisitor : public ast::Visitor { LeafKind result; #define VISIT(node_type, return_type) \ const ast::return_type * visit( const ast::node_type * ) final { \ result = LeafKind::node_type; \ return nullptr; \ } ALL_VISITS(VISIT) #undef VISIT }; constexpr size_t leaf_kind_count = (1 + (size_t)LeafKind::TypeSubstitution); LeafKind get_leaf_kind( ast::Node const * node ) { return ast::Pass::read( node ); } const char * leaf_kind_names[leaf_kind_count] = { #define VISIT(node_type, return_type) #node_type, ALL_VISITS(VISIT) #undef VISIT }; // Collect pointers to all the nodes with unset code locations. class CollectCore { std::list< ast::ptr< ast::Node > > & unset; public: CollectCore( std::list< ast::ptr< ast::Node > > & unset ) : unset( unset ) {} template auto previsit( node_t const * node ) -> decltype( node->location, void() ) { if ( node->location.isUnset() ) { unset.push_back( node ); } } }; } // namespace void checkAllCodeLocations( ast::TranslationUnit const & unit ) { checkAllCodeLocations( "unknown location", unit ); } void checkAllCodeLocations( char const * label, ast::TranslationUnit const & unit ) { std::list< ast::ptr< ast::Node > > unsetNodes; { ast::Pass collector( unsetNodes ); for ( auto node : unit.decls ) { node->accept( collector ); } } if ( unsetNodes.empty() ) { return; } std::cerr << "Code Location check at " << label << " failed." << std::endl; std::cerr << "Total nodes without a set code location: " << unsetNodes.size() << std::endl; size_t node_counts[leaf_kind_count] = {0}; for ( auto unset : unsetNodes ) { node_counts[(size_t)get_leaf_kind(unset)] += 1; } for ( size_t i = 0 ; i < leaf_kind_count ; ++i ) { if ( node_counts[i] ) { std::cerr << '\t' << node_counts[i] << " of type " << leaf_kind_names[i] << std::endl; } } assert( unsetNodes.empty() ); } void forceFillCodeLocations( ast::TranslationUnit & unit ) { ast::Pass::run( unit ); } ast::Node const * localFillCodeLocations( CodeLocation const & location , ast::Node const * node ) { ast::Pass visitor( location ); return node->accept( visitor ); }