// Copyright 2015 Google Inc. All rights reserved // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // +build ignore //#define ENABLE_TID_CHECK #include "symtab.h" #ifdef ENABLE_TID_CHECK #include <pthread.h> #endif #include <string.h> #include <unordered_map> #include "log.h" #include "strutil.h" #include "var.h" struct SymbolData { SymbolData() : gv(kUndefined) { } Var* gv; }; vector<string*>* g_symbols; static vector<SymbolData> g_symbol_data; Symbol kEmptySym = Symbol(Symbol::IsUninitialized()); Symbol kShellSym = Symbol(Symbol::IsUninitialized()); Symbol::Symbol(int v) : v_(v) { } Var* Symbol::GetGlobalVar() const { if (static_cast<size_t>(v_) >= g_symbol_data.size()) { g_symbol_data.resize(v_ + 1); } Var* v = g_symbol_data[v_].gv; if (v->Origin() == VarOrigin::ENVIRONMENT || v->Origin() == VarOrigin::ENVIRONMENT_OVERRIDE) { Vars::add_used_env_vars(*this); } return v; } void Symbol::SetGlobalVar(Var* v) const { if (static_cast<size_t>(v_) >= g_symbol_data.size()) { g_symbol_data.resize(v_ + 1); } Var* orig = g_symbol_data[v_].gv; if (orig->Origin() == VarOrigin::OVERRIDE || orig->Origin() == VarOrigin::ENVIRONMENT_OVERRIDE) { return; } if (orig->Origin() == VarOrigin::AUTOMATIC) { ERROR("overriding automatic variable is not implemented yet"); } if (orig->IsDefined()) delete orig; g_symbol_data[v_].gv = v; } ScopedGlobalVar::ScopedGlobalVar(Symbol name, Var* var) : name_(name), orig_(NULL) { orig_ = name.GetGlobalVar(); g_symbol_data[name_.val()].gv = var; } ScopedGlobalVar::~ScopedGlobalVar() { g_symbol_data[name_.val()].gv = orig_; } class Symtab { public: Symtab() { #ifdef ENABLE_TID_CHECK tid_ = pthread_self(); #endif CHECK(g_symbols == NULL); g_symbols = &symbols_; Symbol s = InternImpl(""); CHECK(s.v_ == 0); CHECK(Intern("") == s); char b[2]; b[1] = 0; for (int i = 1; i < 256; i++) { b[0] = i; s = InternImpl(b); CHECK(s.val() == i); } kEmptySym = Intern(""); kShellSym = Intern("SHELL"); } ~Symtab() { LOG_STAT("%zu symbols", symbols_.size()); for (string* s : symbols_) delete s; } Symbol InternImpl(StringPiece s) { auto found = symtab_.find(s); if (found != symtab_.end()) { return found->second; } symbols_.push_back(new string(s.data(), s.size())); Symbol sym = Symbol(symtab_.size()); bool ok = symtab_.emplace(*symbols_.back(), sym).second; CHECK(ok); return sym; } Symbol Intern(StringPiece s) { #ifdef ENABLE_TID_CHECK if (tid_ != pthread_self()) abort(); #endif if (s.size() <= 1) { return Symbol(s.empty() ? 0 : (unsigned char)s[0]); } return InternImpl(s); } private: unordered_map<StringPiece, Symbol> symtab_; vector<string*> symbols_; #ifdef ENABLE_TID_CHECK pthread_t tid_; #endif }; static Symtab* g_symtab; void InitSymtab() { g_symtab = new Symtab; } void QuitSymtab() { delete g_symtab; } Symbol Intern(StringPiece s) { return g_symtab->Intern(s); } string JoinSymbols(const vector<Symbol>& syms, const char* sep) { vector<string> strs; for (Symbol s : syms) { strs.push_back(s.str()); } return JoinStrings(strs, sep); }