// // Cforall Version 1.0.0 Copyright (C) 2019 University of Waterloo // // The contents of this file are covered under the licence agreement in the // file "LICENCE" distributed with Cforall. // // Pass.hpp -- // // Author : Thierry Delisle // Created On : Thu May 09 15:37:05 2019 // Last Modified By : // Last Modified On : // Update Count : // #pragma once // IWYU pragma: private, include "AST/Pass.hpp" #include #include #include #include "AST/Fwd.hpp" #include "AST/Node.hpp" #include "AST/Attribute.hpp" #include "AST/Decl.hpp" #include "AST/Expr.hpp" #include "AST/Init.hpp" #include "AST/Stmt.hpp" #include "AST/Type.hpp" #include "AST/Visitor.hpp" #include "AST/SymbolTable.hpp" // Private prelude header, needed for some of the magic tricks this class pulls off #include "AST/Pass.proto.hpp" namespace ast { //------------------------------------------------------------------------------------------------- // Templated visitor type // To use declare a Pass< YOUR VISITOR TYPE > // The visitor type should specify the previsit/postvisit for types that are desired. // Note: previsit/postvisit must be **public** members // // Several additional features are available through inheritance // | PureVisitor - makes the visitor pure, it never modifies nodes in place and always // clones nodes it needs to make changes to // | WithConstTypeSubstitution - provides polymorphic const TypeSubstitution * typeSubs for the // current expression // | WithStmtsToAdd - provides the ability to insert statements before or after the current // statement by adding new statements into stmtsToAddBefore or // stmtsToAddAfter respectively. // | WithDeclsToAdd - provides the ability to insert declarations before or after the // current declarations by adding new DeclStmt into declsToAddBefore or // declsToAddAfter respectively. // | WithShortCircuiting - provides the ability to skip visiting child nodes; set visit_children // to false in pre{visit,visit} to skip visiting children // | WithGuards - provides the ability to save/restore data like a LIFO stack; to save, // call GuardValue with the variable to save, the variable will // automatically be restored to its previous value after the // corresponding postvisit/postmutate teminates. // | WithVisitorRef - provides an pointer to the templated visitor wrapper // | WithSymbolTable - provides symbol table functionality // // Other Special Members: // | beginScope - A method with no parameters or return value, called each time the // visitor enters a block. // | endScope - A method with no parameters or return value, called each time the // visitor leaves a block. // | result - Either a method that takes no parameters or a field. If a method (or // callable field) get_result calls it, otherwise the value is returned. //------------------------------------------------------------------------------------------------- template< typename core_t > class Pass final : public ast::Visitor { public: using core_type = core_t; using type = Pass; /// Forward any arguments to the pass constructor /// Propagate 'this' if necessary template< typename... Args > Pass( Args &&... args) : core( std::forward( args )... ) { // After the pass is constructed, check if it wants the have a pointer to the wrapping visitor type * const * visitor = __pass::visitor( core, 0 ); if ( visitor ) { *const_cast( visitor ) = this; } } virtual ~Pass() = default; /// Storage for the actual pass. core_t core; /// If the core defines a result, call it if possible, otherwise return it. inline auto get_result() -> decltype( __pass::result::get( core, '0' ) ) { return __pass::result::get( core, '0' ); } /// Construct and run a pass on a translation unit. template< typename... Args > static void run( TranslationUnit & decls, Args &&... args ) { Pass visitor( std::forward( args )... ); accept_all( decls, visitor ); } /// Contruct and run a pass on a pointer to extract a value. template< typename node_type, typename... Args > static auto read( node_type const * node, Args&&... args ) { Pass visitor( std::forward( args )... ); auto const * temp = node->accept( visitor ); assert( temp == node ); return visitor.get_result(); } /// Visit function declarations const ast::DeclWithType * visit( const ast::ObjectDecl * ) override final; const ast::DeclWithType * visit( const ast::FunctionDecl * ) override final; const ast::Decl * visit( const ast::StructDecl * ) override final; const ast::Decl * visit( const ast::UnionDecl * ) override final; const ast::Decl * visit( const ast::EnumDecl * ) override final; const ast::Decl * visit( const ast::TraitDecl * ) override final; const ast::Decl * visit( const ast::TypeDecl * ) override final; const ast::Decl * visit( const ast::TypedefDecl * ) override final; const ast::AsmDecl * visit( const ast::AsmDecl * ) override final; const ast::DirectiveDecl * visit( const ast::DirectiveDecl * ) override final; const ast::StaticAssertDecl * visit( const ast::StaticAssertDecl * ) override final; const ast::DeclWithType * visit( const ast::InlineMemberDecl * ) override final; const ast::CompoundStmt * visit( const ast::CompoundStmt * ) override final; const ast::Stmt * visit( const ast::ExprStmt * ) override final; const ast::Stmt * visit( const ast::AsmStmt * ) override final; const ast::Stmt * visit( const ast::DirectiveStmt * ) override final; const ast::Stmt * visit( const ast::IfStmt * ) override final; const ast::Stmt * visit( const ast::WhileDoStmt * ) override final; const ast::Stmt * visit( const ast::ForStmt * ) override final; const ast::Stmt * visit( const ast::SwitchStmt * ) override final; const ast::CaseClause * visit( const ast::CaseClause * ) override final; const ast::Stmt * visit( const ast::BranchStmt * ) override final; const ast::Stmt * visit( const ast::ReturnStmt * ) override final; const ast::Stmt * visit( const ast::ThrowStmt * ) override final; const ast::Stmt * visit( const ast::TryStmt * ) override final; const ast::CatchClause * visit( const ast::CatchClause * ) override final; const ast::FinallyClause * visit( const ast::FinallyClause * ) override final; const ast::Stmt * visit( const ast::SuspendStmt * ) override final; const ast::WhenClause * visit( const ast::WhenClause * ) override final; const ast::Stmt * visit( const ast::WaitForStmt * ) override final; const ast::WaitForClause * visit( const ast::WaitForClause * ) override final; const ast::Stmt * visit( const ast::WaitUntilStmt * ) override final; const ast::Decl * visit( const ast::WithStmt * ) override final; const ast::NullStmt * visit( const ast::NullStmt * ) override final; const ast::Stmt * visit( const ast::DeclStmt * ) override final; const ast::Stmt * visit( const ast::ImplicitCtorDtorStmt * ) override final; const ast::Stmt * visit( const ast::MutexStmt * ) override final; const ast::Stmt * visit( const ast::CorunStmt * ) override final; const ast::Stmt * visit( const ast::CoforStmt * ) override final; const ast::Expr * visit( const ast::ApplicationExpr * ) override final; const ast::Expr * visit( const ast::UntypedExpr * ) override final; const ast::Expr * visit( const ast::NameExpr * ) override final; const ast::Expr * visit( const ast::QualifiedNameExpr * ) override final; const ast::Expr * visit( const ast::AddressExpr * ) override final; const ast::Expr * visit( const ast::LabelAddressExpr * ) override final; const ast::Expr * visit( const ast::CastExpr * ) override final; const ast::Expr * visit( const ast::KeywordCastExpr * ) override final; const ast::Expr * visit( const ast::VirtualCastExpr * ) override final; const ast::Expr * visit( const ast::UntypedMemberExpr * ) override final; const ast::Expr * visit( const ast::MemberExpr * ) override final; const ast::Expr * visit( const ast::VariableExpr * ) override final; const ast::Expr * visit( const ast::ConstantExpr * ) override final; const ast::Expr * visit( const ast::SizeofExpr * ) override final; const ast::Expr * visit( const ast::CountExpr * ) override final; const ast::Expr * visit( const ast::AlignofExpr * ) override final; const ast::Expr * visit( const ast::UntypedOffsetofExpr * ) override final; const ast::Expr * visit( const ast::OffsetofExpr * ) override final; const ast::Expr * visit( const ast::OffsetPackExpr * ) override final; const ast::Expr * visit( const ast::LogicalExpr * ) override final; const ast::Expr * visit( const ast::ConditionalExpr * ) override final; const ast::Expr * visit( const ast::CommaExpr * ) override final; const ast::Expr * visit( const ast::TypeExpr * ) override final; const ast::Expr * visit( const ast::DimensionExpr * ) override final; const ast::Expr * visit( const ast::AsmExpr * ) override final; const ast::Expr * visit( const ast::ImplicitCopyCtorExpr * ) override final; const ast::Expr * visit( const ast::ConstructorExpr * ) override final; const ast::Expr * visit( const ast::CompoundLiteralExpr * ) override final; const ast::Expr * visit( const ast::RangeExpr * ) override final; const ast::Expr * visit( const ast::UntypedTupleExpr * ) override final; const ast::Expr * visit( const ast::TupleExpr * ) override final; const ast::Expr * visit( const ast::TupleIndexExpr * ) override final; const ast::Expr * visit( const ast::TupleAssignExpr * ) override final; const ast::Expr * visit( const ast::StmtExpr * ) override final; const ast::Expr * visit( const ast::UniqueExpr * ) override final; const ast::Expr * visit( const ast::UntypedInitExpr * ) override final; const ast::Expr * visit( const ast::InitExpr * ) override final; const ast::Expr * visit( const ast::DeletedExpr * ) override final; const ast::Expr * visit( const ast::DefaultArgExpr * ) override final; const ast::Expr * visit( const ast::GenericExpr * ) override final; const ast::Type * visit( const ast::VoidType * ) override final; const ast::Type * visit( const ast::BasicType * ) override final; const ast::Type * visit( const ast::PointerType * ) override final; const ast::Type * visit( const ast::ArrayType * ) override final; const ast::Type * visit( const ast::ReferenceType * ) override final; const ast::Type * visit( const ast::QualifiedType * ) override final; const ast::Type * visit( const ast::FunctionType * ) override final; const ast::Type * visit( const ast::StructInstType * ) override final; const ast::Type * visit( const ast::UnionInstType * ) override final; const ast::Type * visit( const ast::EnumInstType * ) override final; const ast::Type * visit( const ast::TraitInstType * ) override final; const ast::Type * visit( const ast::TypeInstType * ) override final; const ast::Type * visit( const ast::TupleType * ) override final; const ast::Type * visit( const ast::TypeofType * ) override final; const ast::Type * visit( const ast::VTableType * ) override final; const ast::Type * visit( const ast::VarArgsType * ) override final; const ast::Type * visit( const ast::ZeroType * ) override final; const ast::Type * visit( const ast::OneType * ) override final; const ast::Type * visit( const ast::GlobalScopeType * ) override final; const ast::Designation * visit( const ast::Designation * ) override final; const ast::Init * visit( const ast::SingleInit * ) override final; const ast::Init * visit( const ast::ListInit * ) override final; const ast::Init * visit( const ast::ConstructorInit * ) override final; const ast::Attribute * visit( const ast::Attribute * ) override final; const ast::TypeSubstitution * visit( const ast::TypeSubstitution * ) override final; template friend void accept_all( std::list< ptr > & decls, Pass& visitor ); bool isInFunction() const { return inFunction; } private: bool __visit_children() { bool * ptr = __pass::visit_children(core, 0); return ptr ? *ptr : true; } private: /// The return type of the general call_accept function. template< typename node_t > using call_accept_result_t = __pass::result1< typename std::remove_pointer< typename std::result_of< decltype(&node_t::accept)(node_t*, type&) >::type >::type >; template< typename node_t > auto call_accept( const node_t * node ) -> call_accept_result_t; // requests WithStmtsToAdd directly add to this statement, as if it is a compound. __pass::result1 call_accept_as_compound(const ast::Stmt *); // requests type environment to be updated (why is it implemented like this?) __pass::result1 call_accept_top(const ast::Expr *); template< template class container_t > __pass::resultNstmt call_accept( const container_t< ptr > & ); template< template class container_t, typename node_t > __pass::resultN< container_t, node_t > call_accept( const container_t< ptr > & container ); public: /// Logic to call the accept and mutate the parent if needed, delegates call to accept template void maybe_accept(const node_t * &, field_t parent_t::* field); template void maybe_accept_as_compound(const node_t * &, field_t parent_t::* field); template void maybe_accept_top(const node_t * &, field_t parent_t::* field); private: /// Internal RAII guard for symbol table features struct guard_symtab { guard_symtab( Pass & pass ): pass( pass ) { __pass::symtab::enter(pass.core, 0); } ~guard_symtab() { __pass::symtab::leave(pass.core, 0); } Pass & pass; }; /// Internal RAII guard for scope features struct guard_scope { guard_scope( Pass & pass ): pass( pass ) { __pass::scope::enter(pass.core, 0); } ~guard_scope() { __pass::scope::leave(pass.core, 0); } Pass & pass; }; /// Internal RAII guard for forall substitutions struct guard_forall_subs { guard_forall_subs( Pass & pass, const FunctionType * type ) : pass( pass ), type( type ) { __pass::forall::enter(pass.core, 0, type ); } ~guard_forall_subs() { __pass::forall::leave(pass.core, 0, type ); } Pass & pass; const FunctionType * type; }; private: bool inFunction = false; bool atFunctionTop = false; }; /// Apply a pass to an entire translation unit template void accept_all( std::list< ast::ptr > &, ast::Pass & visitor ); template void accept_all( ast::TranslationUnit &, ast::Pass & visitor ); //------------------------------------------------------------------------------------------------- // PASS ACCESSORIES //------------------------------------------------------------------------------------------------- /// If used the visitor will always clone nodes. struct PureVisitor {}; /// Keep track of the nearest parent node's location field. struct WithCodeLocation { const CodeLocation * location = nullptr; }; /// Keep track of the polymorphic const TypeSubstitution * typeSubs for the current expression. struct WithConstTypeSubstitution { const TypeSubstitution * typeSubs = nullptr; }; /// Used if visitor requires added statements before or after the current node. /// The Pass template handles what *before* and *after* means automatically template< template class container_t = std::list > struct WithStmtsToAdd { container_t< ptr > stmtsToAddBefore; container_t< ptr > stmtsToAddAfter; }; /// Used if visitor requires added declarations before or after the current node. /// The Pass template handles what *before* and *after* means automatically template< template class container_t = std::list > struct WithDeclsToAdd { container_t< ptr > declsToAddBefore; container_t< ptr > declsToAddAfter; }; /// Use if visitation should stop at certain levels /// set visit_children false of all child nodes should be ignored struct WithShortCircuiting { bool visit_children = true; }; /// Used to restore values/functions/etc. when the Pass finishes visiting this node class WithGuards { __pass::at_cleanup_t at_cleanup = [](__pass::cleanup_func_t, void*) { std::cerr << "No cleanup function was set" << std::endl; abort(); }; template< typename core_t > friend auto __pass::make_value_guard( core_t & core, int ) -> decltype( __pass::value_guard( core.at_cleanup ) ); public: /// When this node is finished being visited, restore the value of a variable /// You may assign to the return value to set the new value in the same statement. template< typename T > T& GuardValue( T& val ) { at_cleanup( [ val ]( void * newVal ) { * static_cast< T * >( newVal ) = val; }, static_cast< void * >( & val ) ); return val; } /// On the object, all beginScope now and endScope when the current node is finished being visited template< typename T > void GuardScope( T& val ) { val.beginScope(); at_cleanup( []( void * val ) { static_cast< T * >( val )->endScope(); }, static_cast< void * >( & val ) ); } /// When this node is finished being visited, call a function template< typename Func > void GuardAction( Func func ) { at_cleanup( [func](void *) { func(); }, nullptr ); } }; /// Used to get a pointer to the pass with its wrapped type template struct WithVisitorRef { Pass * const visitor = nullptr; bool isInFunction() const { return visitor->isInFunction(); } }; /// Use when the templated visitor should update the symbol table, /// that is, when your pass core needs to query the symbol table. /// Expected setups: /// - For master passes that kick off at the compilation unit /// - before resolver: extend WithSymbolTableX /// - after resolver: extend WithSymbolTable and use defaults /// - (FYI, for completeness, the resolver's main pass uses ValidateOnAdd when it kicks off) /// - For helper passes that kick off at arbitrary points in the AST: /// - take an existing symbol table as a parameter, extend WithSymbolTable, /// and construct with WithSymbolTable(const SymbolTable &) struct WithSymbolTable { WithSymbolTable(const ast::SymbolTable & from) : symtab(from) {} WithSymbolTable(ast::SymbolTable::ErrorDetection errorMode = ast::SymbolTable::ErrorDetection::AssertClean) : symtab(errorMode) {} ast::SymbolTable symtab; }; template struct WithSymbolTableX : WithSymbolTable { WithSymbolTableX() : WithSymbolTable(errorMode) {} }; /// Used to get a pointer to the wrapping TranslationUnit. struct WithConstTranslationUnit { const TranslationUnit * translationUnit = nullptr; const TranslationUnit & transUnit() const { assertf( translationUnit, "WithConstTranslationUnit not set-up." ); return *translationUnit; } }; } #include "Common/Stats.hpp" namespace ast { extern struct PassVisitorStats { size_t depth = 0; Stats::Counters::MaxCounter * max; Stats::Counters::AverageCounter * avg; } pass_visitor_stats; } #include "AST/Pass.impl.hpp"