// // 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. // // Decl.hpp -- // // Author : Aaron B. Moss // Created On : Thu May 9 10:00:00 2019 // Last Modified By : Andrew Beach // Last Modified On : Wed Apr 5 10:42:00 2023 // Update Count : 35 // #pragma once #include #include // for string, to_string #include #include #include #include "FunctionSpec.hpp" #include "Fwd.hpp" // for UniqueId #include "LinkageSpec.hpp" #include "Node.hpp" // for ptr, readonly #include "ParseNode.hpp" #include "StorageClasses.hpp" #include "Visitor.hpp" // Must be included in *all* AST classes; should be #undef'd at the end of the file #define MUTATE_FRIEND \ template friend node_t * mutate(const node_t * node); \ template friend node_t * shallowCopy(const node_t * node); namespace ast { /// Base declaration class class Decl : public ParseNode { public: std::string name; Storage::Classes storage; Linkage::Spec linkage; UniqueId uniqueId = 0; bool extension = false; Decl( const CodeLocation& loc, const std::string& name, Storage::Classes storage, Linkage::Spec linkage ) : ParseNode( loc ), name( name ), storage( storage ), linkage( linkage ) {} /// Ensures this node has a unique ID void fixUniqueId(); const Decl * accept( Visitor & v ) const override = 0; private: Decl * clone() const override = 0; MUTATE_FRIEND }; /// Typed declaration base class class DeclWithType : public Decl { public: /// Represents the type with all types and typedefs expanded. std::string mangleName; /// Stores the scope level at which the variable was declared. /// Used to access shadowed identifiers. int scopeLevel = 0; std::vector> attributes; Function::Specs funcSpec; ptr asmName; bool isDeleted = false; bool isTypeFixed = false; bool isHidden = false; bool isMember = false; DeclWithType( const CodeLocation& loc, const std::string& name, Storage::Classes storage, Linkage::Spec linkage, std::vector>&& attrs, Function::Specs fs ) : Decl( loc, name, storage, linkage ), mangleName(), attributes( std::move(attrs) ), funcSpec(fs), asmName() {} std::string scopedMangleName() const { return mangleName + "_" + std::to_string(scopeLevel); } /// Get type of this declaration. May be generated by subclass virtual const Type * get_type() const = 0; /// Set type of this declaration. May be verified by subclass virtual void set_type( const Type * ) = 0; const DeclWithType * accept( Visitor & v ) const override = 0; private: DeclWithType * clone() const override = 0; MUTATE_FRIEND }; /// Object declaration `Foo foo = 42;` class ObjectDecl final : public DeclWithType { public: ptr type; ptr init; ptr bitfieldWidth; ObjectDecl( const CodeLocation & loc, const std::string & name, const Type * type, const Init * init = nullptr, Storage::Classes storage = {}, Linkage::Spec linkage = Linkage::Cforall, const Expr * bitWd = nullptr, std::vector< ptr > && attrs = {}, Function::Specs fs = {} ) : DeclWithType( loc, name, storage, linkage, std::move(attrs), fs ), type( type ), init( init ), bitfieldWidth( bitWd ) {} const Type* get_type() const override { return type; } void set_type( const Type * ty ) override { type = ty; } const DeclWithType * accept( Visitor& v ) const override { return v.visit( this ); } private: ObjectDecl * clone() const override { return new ObjectDecl{ *this }; } MUTATE_FRIEND }; /// Function variable arguments flag enum ArgumentFlag { FixedArgs, VariableArgs }; /// Function declaration `int foo()` class FunctionDecl final : public DeclWithType { public: std::vector> type_params; std::vector> assertions; std::vector> params; std::vector> returns; // declared type, derived from parameter declarations ptr type; /// Null for the forward declaration of a function. ptr stmts; std::vector< ptr > withExprs; /// Monomorphic Function Constructor: FunctionDecl( const CodeLocation & locaction, const std::string & name, std::vector>&& params, std::vector>&& returns, CompoundStmt * stmts, Storage::Classes storage = {}, Linkage::Spec linkage = Linkage::Cforall, std::vector>&& attrs = {}, Function::Specs fs = {}, ArgumentFlag isVarArgs = FixedArgs ); /// Polymorphic Function Constructor: FunctionDecl( const CodeLocation & location, const std::string & name, std::vector>&& forall, std::vector>&& assertions, std::vector>&& params, std::vector>&& returns, CompoundStmt * stmts, Storage::Classes storage = {}, Linkage::Spec linkage = Linkage::Cforall, std::vector>&& attrs = {}, Function::Specs fs = {}, ArgumentFlag isVarArgs = FixedArgs ); const Type * get_type() const override; void set_type( const Type * t ) override; bool has_body() const { return stmts; } const DeclWithType * accept( Visitor & v ) const override { return v.visit( this ); } private: FunctionDecl * clone() const override { return new FunctionDecl( *this ); } MUTATE_FRIEND }; /// Base class for named type aliases class NamedTypeDecl : public Decl { public: ptr base; std::vector> assertions; NamedTypeDecl( const CodeLocation & loc, const std::string & name, Storage::Classes storage, const Type * b, Linkage::Spec spec = Linkage::Cforall ) : Decl( loc, name, storage, spec ), base( b ), assertions() {} /// Produces a name for the kind of alias virtual const char * typeString() const = 0; private: NamedTypeDecl* clone() const override = 0; MUTATE_FRIEND }; /// Cforall type variable: `dtype T` class TypeDecl final : public NamedTypeDecl { public: enum Kind { Dtype, DStype, Otype, Ftype, Ttype, Dimension, NUMBER_OF_KINDS }; Kind kind; bool sized; ptr init; TypeDecl( const CodeLocation & loc, const std::string & name, Storage::Classes storage, const Type * b, TypeDecl::Kind k, bool s, const Type * i = nullptr ) : NamedTypeDecl( loc, name, storage, b ), kind( k ), sized( k == TypeDecl::Ttype || s ), init( i ) {} const char * typeString() const override; /// Produces a name for generated code const char * genTypeString() const; /// convenience accessor to match Type::isComplete() bool isComplete() const { return sized; } const Decl * accept( Visitor & v ) const override { return v.visit( this ); } private: TypeDecl * clone() const override { return new TypeDecl{ *this }; } MUTATE_FRIEND }; /// Data extracted from a TypeDecl. struct TypeData { TypeDecl::Kind kind; bool isComplete; TypeData() : kind( TypeDecl::NUMBER_OF_KINDS ), isComplete( false ) {} TypeData( const TypeDecl * d ) : kind( d->kind ), isComplete( d->sized ) {} TypeData( TypeDecl::Kind k, bool c ) : kind( k ), isComplete( c ) {} TypeData( const TypeData & d1, const TypeData & d2 ) : kind( d1.kind ), isComplete( d1.isComplete || d2.isComplete ) {} bool operator==( const TypeData & o ) const { return kind == o.kind && isComplete == o.isComplete; } bool operator!=( const TypeData & o ) const { return !(*this == o); } }; std::ostream & operator<< ( std::ostream &, const TypeData & ); /// C-style typedef `typedef Foo Bar` class TypedefDecl final : public NamedTypeDecl { public: TypedefDecl( const CodeLocation& loc, const std::string& name, Storage::Classes storage, Type* b, Linkage::Spec spec = Linkage::Cforall ) : NamedTypeDecl( loc, name, storage, b, spec ) {} const char * typeString() const override { return "typedef"; } const Decl * accept( Visitor & v ) const override { return v.visit( this ); } private: TypedefDecl * clone() const override { return new TypedefDecl{ *this }; } MUTATE_FRIEND }; /// Aggregate type declaration base class class AggregateDecl : public Decl { public: enum Aggregate { Struct, Union, Enum, Exception, Trait, Generator, Coroutine, Monitor, Thread, NoAggregate }; static const char * aggrString( Aggregate aggr ); std::vector> members; std::vector> params; std::vector> attributes; bool body = false; readonly parent = {}; AggregateDecl( const CodeLocation& loc, const std::string& name, std::vector>&& attrs = {}, Linkage::Spec linkage = Linkage::Cforall ) : Decl( loc, name, Storage::Classes{}, linkage ), members(), params(), attributes( std::move(attrs) ) {} AggregateDecl* set_body( bool b ) { body = b; return this; } /// Produces a name for the kind of aggregate virtual const char * typeString() const = 0; private: AggregateDecl * clone() const override = 0; MUTATE_FRIEND }; /// struct declaration `struct Foo { ... };` class StructDecl final : public AggregateDecl { public: Aggregate kind; StructDecl( const CodeLocation& loc, const std::string& name, Aggregate kind = Struct, std::vector>&& attrs = {}, Linkage::Spec linkage = Linkage::Cforall ) : AggregateDecl( loc, name, std::move(attrs), linkage ), kind( kind ) {} bool is_coroutine() const { return kind == Coroutine; } bool is_generator() const { return kind == Generator; } bool is_monitor () const { return kind == Monitor ; } bool is_thread () const { return kind == Thread ; } const Decl * accept( Visitor & v ) const override { return v.visit( this ); } const char * typeString() const override { return aggrString( kind ); } private: StructDecl * clone() const override { return new StructDecl{ *this }; } MUTATE_FRIEND }; /// union declaration `union Foo { ... };` class UnionDecl final : public AggregateDecl { public: UnionDecl( const CodeLocation& loc, const std::string& name, std::vector>&& attrs = {}, Linkage::Spec linkage = Linkage::Cforall ) : AggregateDecl( loc, name, std::move(attrs), linkage ) {} const Decl * accept( Visitor& v ) const override { return v.visit( this ); } const char * typeString() const override { return aggrString( Union ); } private: UnionDecl * clone() const override { return new UnionDecl{ *this }; } MUTATE_FRIEND }; /// Enumeration attribute kind. enum class EnumAttribute{ Value, Posn, Label }; /// enum declaration `enum Foo { ... };` class EnumDecl final : public AggregateDecl { public: // isCfa indicated if the enum has a declaration like: // enum (type_optional) Name {...} bool isCfa; // if isCfa == true && base.get() == nullptr, it is a "opaque" enum ptr base; enum class EnumHiding { Visible, Hide } hide; std::vector< ast::ptr> inlinedDecl; // child enums EnumDecl( const CodeLocation& loc, const std::string& name, bool isCfa = false, std::vector>&& attrs = {}, Linkage::Spec linkage = Linkage::Cforall, Type const * base = nullptr, EnumHiding hide = EnumHiding::Hide, std::unordered_map< std::string, long long > enumValues = std::unordered_map< std::string, long long >() ) : AggregateDecl( loc, name, std::move(attrs), linkage ), isCfa(isCfa), base(base), hide(hide), enumValues(enumValues) {} /// gets the integer value for this enumerator, returning true iff value found // Maybe it is not used in producing the enum value bool valueOf( const Decl * enumerator, long long& value ) const; const Decl * accept( Visitor & v ) const override { return v.visit( this ); } const char * typeString() const override { return aggrString( Enum ); } bool isTyped() const; bool isOpaque() const; private: EnumDecl * clone() const override { return new EnumDecl{ *this }; } MUTATE_FRIEND /// Map from names to enumerator values; kept private for lazy initialization mutable std::unordered_map< std::string, long long > enumValues; }; /// trait declaration `trait Foo( ... ) { ... };` class TraitDecl final : public AggregateDecl { public: TraitDecl( const CodeLocation& loc, const std::string& name, std::vector>&& attrs = {}, Linkage::Spec linkage = Linkage::Cforall ) : AggregateDecl( loc, name, std::move(attrs), linkage ) {} const Decl * accept( Visitor & v ) const override { return v.visit( this ); } const char * typeString() const override { return "trait"; } private: TraitDecl * clone() const override { return new TraitDecl{ *this }; } MUTATE_FRIEND }; /// With statement `with (...) ...` /// This is a statement lexically, but a Decl is needed for the SymbolTable. class WithStmt final : public Decl { public: std::vector> exprs; ptr stmt; WithStmt( const CodeLocation & loc, std::vector> && exprs, const Stmt * stmt ) : Decl(loc, "", Storage::Auto, Linkage::Cforall), exprs(std::move(exprs)), stmt(stmt) {} const Decl * accept( Visitor & v ) const override { return v.visit( this ); } private: WithStmt * clone() const override { return new WithStmt{ *this }; } MUTATE_FRIEND }; /// Assembly declaration: `asm ... ( "..." : ... )` class AsmDecl final : public Decl { public: ptr stmt; AsmDecl( const CodeLocation & loc, AsmStmt * stmt ) : Decl( loc, "", {}, Linkage::C ), stmt(stmt) {} const AsmDecl * accept( Visitor & v ) const override { return v.visit( this ); } private: AsmDecl * clone() const override { return new AsmDecl( *this ); } MUTATE_FRIEND }; /// C-preprocessor directive `#...` class DirectiveDecl final : public Decl { public: ptr stmt; DirectiveDecl( const CodeLocation & loc, DirectiveStmt * stmt ) : Decl( loc, "", {}, Linkage::C ), stmt(stmt) {} const DirectiveDecl * accept( Visitor & v ) const override { return v.visit( this ); } private: DirectiveDecl * clone() const override { return new DirectiveDecl( *this ); } MUTATE_FRIEND }; /// Static Assertion `_Static_assert( ... , ... );` class StaticAssertDecl final : public Decl { public: ptr cond; ptr msg; // string literal StaticAssertDecl( const CodeLocation & loc, const Expr * condition, const ConstantExpr * msg ) : Decl( loc, "", {}, Linkage::C ), cond( condition ), msg( msg ) {} const StaticAssertDecl * accept( Visitor & v ) const override { return v.visit( this ); } private: StaticAssertDecl * clone() const override { return new StaticAssertDecl( *this ); } MUTATE_FRIEND }; /// Inline Member Declaration `inline TypeName;` class InlineMemberDecl final : public DeclWithType { public: ptr type; InlineMemberDecl( const CodeLocation & loc, const std::string & name, const Type * type, Storage::Classes storage = {}, Linkage::Spec linkage = Linkage::Cforall, std::vector< ptr > && attrs = {}, Function::Specs fs = {} ) : DeclWithType( loc, name, storage, linkage, std::move(attrs), fs ), type( type ) {} const Type * get_type() const override { return type; } void set_type( const Type * ty ) override { type = ty; } const DeclWithType * accept( Visitor& v ) const override { return v.visit( this ); } private: InlineMemberDecl * clone() const override { return new InlineMemberDecl{ *this }; } MUTATE_FRIEND }; } #undef MUTATE_FRIEND // Local Variables: // // tab-width: 4 // // mode: c++ // // compile-command: "make install" // // End: //