// // 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. // // SymbolTable.hpp -- // // Author : Aaron B. Moss // Created On : Wed May 29 11:00:00 2019 // Last Modified By : Aaron B. Moss // Last Modified On : Wed May 29 11:00:00 2019 // Update Count : 1 // #pragma once #include // for shared_ptr, enable_shared_from_this #include #include "Fwd.hpp" #include "Node.hpp" // for ptr, readonly #include "Common/CodeLocation.hpp" #include "Common/PersistentMap.hpp" namespace ResolvExpr { class Cost; } namespace ast { /// Builds and stores the symbol table, mapping identifiers to declarations. class SymbolTable final : public std::enable_shared_from_this { public: /// special functions stored in dedicated tables, with different lookup keys enum SpecialFunctionKind {CTOR, DTOR, ASSIGN, NUMBER_OF_KINDS}; static SpecialFunctionKind getSpecialFunctionKind(const std::string & name); /// Stored information about a declaration struct IdData { readonly id = nullptr; ///< Identifier of declaration readonly baseExpr = nullptr; ///< Implied containing aggregate (from WithExpr) readonly deleter = nullptr; ///< Node deleting this declaration (if non-null) unsigned long scope = 0; ///< Scope of identifier IdData() = default; IdData( const DeclWithType * i, const Expr * base, const Decl * del, unsigned long s ) : id( i ), baseExpr( base ), deleter( del ), scope( s ) {} /// Create a new IdData, updating the deleter value. IdData withDeleter( const Decl * decl ) const { return IdData( id, baseExpr, decl, scope ); } /// Constructs an expression referring to this identifier. /// Increments `cost` by cost of reference conversion Expr * combine( const CodeLocation & loc, ResolvExpr::Cost & cost ) const; }; private: /// wraps a reference to D with a scope template struct scoped { readonly decl; ///< wrapped declaration unsigned long scope; ///< scope of this declaration scoped(const D * d, unsigned long s) : decl(d), scope(s) {} }; using MangleTable = PersistentMap< std::string, IdData >; using IdTable = PersistentMap< std::string, MangleTable::Ptr >; using TypeTable = PersistentMap< std::string, scoped >; using StructTable = PersistentMap< std::string, scoped >; using EnumTable = PersistentMap< std::string, scoped >; using UnionTable = PersistentMap< std::string, scoped >; using TraitTable = PersistentMap< std::string, scoped >; IdTable::Ptr idTable; ///< identifier namespace TypeTable::Ptr typeTable; ///< type namespace StructTable::Ptr structTable; ///< struct namespace EnumTable::Ptr enumTable; ///< enum namespace UnionTable::Ptr unionTable; ///< union namespace TraitTable::Ptr traitTable; ///< trait namespace IdTable::Ptr specialFunctionTable[NUMBER_OF_KINDS]; // using SpecialFuncTable = PersistentMap< std::string, IdTable::Ptr >; // fname (ctor/dtor/assign) - otypekey // SpecialFuncTable::Ptr specialFuncTable; using Ptr = std::shared_ptr; Ptr prevScope; ///< Symbol Table for parent scope unsigned long scope; ///< Scope index of this indexer unsigned long repScope; ///< Scope index of currently represented scope public: /// Mode to control when (during which pass) user-caused name-declaration errors get reported. /// The default setting `AssertClean` supports, "I expect all user-caused errors to have been /// reported by now," or, "I wouldn't know what to do with an error; are there even any here?" enum ErrorDetection { AssertClean, ///< invalid user decls => assert fails during addFoo (default) ValidateOnAdd, ///< invalid user decls => calls SemanticError during addFoo IgnoreErrors ///< acts as if unspecified decls were removed, forcing validity }; explicit SymbolTable( ErrorDetection ///< mode for the lifetime of the symbol table (whole pass) ); SymbolTable() : SymbolTable(AssertClean) {} ~SymbolTable(); ErrorDetection getErrorMode() const { return errorMode; } // when using an indexer manually (e.g., within a mutator traversal), it is necessary to // tell the indexer explicitly when scopes begin and end void enterScope(); void leaveScope(); /// Gets all declarations with the given ID std::vector lookupId( const std::string &id ) const; /// Gets all declarations with the given ID, ignoring hidden members from enumeration std::vector lookupIdIgnoreHidden( const std::string &id ) const; /// Gets special functions associated with a type; if no key is given, returns everything std::vector specialLookupId( SpecialFunctionKind kind, const std::string & otypeKey = "" ) const; /// Gets the top-most type declaration with the given ID const NamedTypeDecl * lookupType( const std::string &id ) const; /// Gets the top-most struct declaration with the given ID const StructDecl * lookupStruct( const std::string &id ) const; /// Gets the top-most enum declaration with the given ID const EnumDecl * lookupEnum( const std::string &id ) const; /// Gets the top-most union declaration with the given ID const UnionDecl * lookupUnion( const std::string &id ) const; /// Gets the top-most trait declaration with the given ID const TraitDecl * lookupTrait( const std::string &id ) const; /// Gets the type declaration with the given ID at global scope const NamedTypeDecl * globalLookupType( const std::string &id ) const; /// Gets the struct declaration with the given ID at global scope const StructDecl * globalLookupStruct( const std::string &id ) const; /// Gets the union declaration with the given ID at global scope const UnionDecl * globalLookupUnion( const std::string &id ) const; /// Gets the enum declaration with the given ID at global scope const EnumDecl * globalLookupEnum( const std::string &id ) const; /// Adds an identifier declaration to the symbol table void addId( const DeclWithType * decl, const Expr * baseExpr = nullptr ); /// Adds a deleted identifier declaration to the symbol table void addDeletedId( const DeclWithType * decl, const Decl * deleter ); /// Adds a type to the symbol table void addType( const NamedTypeDecl * decl ); /// Adds a struct declaration to the symbol table by name void addStructId( const std::string & id ); /// Adds a struct declaration to the symbol table void addStruct( const StructDecl * decl ); /// Adds an enum declaration to the symbol table void addEnum( const EnumDecl * decl ); /// Adds a union declaration to the symbol table by name void addUnionId( const std::string & id ); /// Adds a union declaration to the symbol table void addUnion( const UnionDecl * decl ); /// Adds a trait declaration to the symbol table void addTrait( const TraitDecl * decl ); /// adds all of the IDs from WithStmt exprs void addWith( const std::vector< ptr > & withExprs, const Decl * withStmt ); /// convenience function for adding a list of Ids to the indexer void addIds( const std::vector< ptr > & decls ); /// convenience function for adding a list of forall parameters to the indexer void addTypes( const std::vector< ptr > & tds ); /// convenience function for adding all of the declarations in a function type to the indexer void addFunction( const FunctionDecl * ); /// Reclassifies the previously-indexed special declaration, so `combine` shows it as deleted void reviseSpecialAsDeleted( const FunctionDecl * ); private: void OnFindError( CodeLocation location, std::string error ) const; template< typename T > void OnFindError( const T * obj, const std::string & error ) const { OnFindError( obj->location, toString( error, obj ) ); } template< typename T > void OnFindError( CodeLocation location, const T * obj, const std::string & error ) const { OnFindError( location, toString( error, obj ) ); } /// Ensures that a proper backtracking scope exists before a mutation void lazyInitScope(); /// Gets the symbol table at a given scope const SymbolTable * atScope( unsigned long i ) const; /// Removes matching autogenerated constructors and destructors so that they will not be /// selected. If returns false, passed decl should not be added. bool removeSpecialOverrides( IdData & decl, MangleTable::Ptr & mangleTable ); /// Error detection mode given at construction (pass-specific). /// Logically const, except that the symbol table's push-pop is achieved by autogenerated /// assignment onto self. The feield is left motuable to keep this code-gen simple. /// Conceptual constness is preserved by all SymbolTable in a stack sharing the same mode. ErrorDetection errorMode; /// Options for handling identifier conflicts. /// Varies according to AST location during traversal: captures semantics of the construct /// being visited as "would shadow" vs "must not collide." /// At a given AST location, is the same for every pass. struct OnConflict { enum { Error, ///< Follow the current pass's ErrorDetection mode (may throw a semantic error) Delete ///< Delete the earlier version with the delete statement } mode; const Decl * deleter; ///< Statement that deletes this expression private: OnConflict() : mode(Error), deleter(nullptr) {} OnConflict( const Decl * d ) : mode(Delete), deleter(d) {} public: OnConflict( const OnConflict& ) = default; static OnConflict error() { return {}; } static OnConflict deleteWith( const Decl * d ) { return { d }; } }; /// true if the existing identifier conflicts with the added identifier bool addedIdConflicts( const IdData & existing, const DeclWithType * added, OnConflict handleConflicts, const Decl * deleter ); /// true if redeclaration conflict between two types bool addedTypeConflicts( const NamedTypeDecl * existing, const NamedTypeDecl * added ) const; /// true if redeclaration conflict between two aggregate declarations bool addedDeclConflicts( const AggregateDecl * existing, const AggregateDecl * added ) const; /// common code for addId, addDeletedId, etc. void addIdCommon( const DeclWithType * decl, OnConflict handleConflicts, const Expr * baseExpr = nullptr, const Decl * deleter = nullptr ); /// common code for addId when special decls are placed into separate tables void addIdToTable( const DeclWithType * decl, const std::string & lookupKey, IdTable::Ptr & idTable, OnConflict handleConflicts, const Expr * baseExpr = nullptr, const Decl * deleter = nullptr); /// adds all of the members of the Aggregate (addWith helper) void addMembers( const AggregateDecl * aggr, const Expr * expr, OnConflict handleConflicts ); /// returns true if there exists a declaration with C linkage and the given name with the same mangled name bool hasCompatibleCDecl( const std::string &id, const std::string &mangleName ) const; /// returns true if there exists a declaration with C linkage and the given name with a different mangled name bool hasIncompatibleCDecl( const std::string &id, const std::string &mangleName ) const; }; } // Local Variables: // // tab-width: 4 // // mode: c++ // // compile-command: "make install" // // End: //