#pragma once #include #include #include #include "types.hh" namespace nix { /* Symbol table used by the parser and evaluator to represent and look up identifiers and attributes efficiently. SymbolTable::create() converts a string into a symbol. Symbols have the property that they can be compared efficiently (using a pointer equality test), because the symbol table stores only one copy of each string. */ class Symbol { private: const std::string * s; // pointer into SymbolTable Symbol(const std::string * s) : s(s) { }; friend class SymbolTable; public: Symbol() : s(0) { }; bool operator == (const Symbol & s2) const { return s == s2.s; } // FIXME: remove bool operator == (std::string_view s2) const { return s->compare(s2) == 0; } bool operator != (const Symbol & s2) const { return s != s2.s; } bool operator < (const Symbol & s2) const { return s < s2.s; } operator const std::string & () const { return *s; } operator const std::string_view () const { return *s; } bool set() const { return s; } friend std::ostream & operator << (std::ostream & str, const Symbol & sym); }; class SymbolTable { private: std::unordered_map symbols; std::list store; public: Symbol create(std::string_view s) { // Most symbols are looked up more than once, so we trade off insertion performance // for lookup performance. // TODO: could probably be done more efficiently with transparent Hash and Equals // on the original implementation using unordered_set auto it = symbols.find(s); if (it != symbols.end()) return it->second; auto & rawSym = store.emplace_back(s); return symbols.emplace(rawSym, Symbol(&rawSym)).first->second; } size_t size() const { return symbols.size(); } size_t totalSize() const; template void dump(T callback) { for (auto & s : store) callback(s); } }; }