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[/] [scarts/] [trunk/] [toolchain/] [scarts-gcc/] [gcc-4.1.1/] [libstdc++-v3/] [testsuite/] [performance/] [23_containers/] [producer_consumer/] [associative.cc] - Rev 19
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// Copyright (C) 2003, 2004, 2005 Free Software Foundation, Inc. // // This file is part of the GNU ISO C++ Library. This library is free // software; you can redistribute it and/or modify it under the // terms of the GNU General Public License as published by the // Free Software Foundation; either version 2, or (at your option) // any later version. // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License along // with this library; see the file COPYING. If not, write to the Free // Software Foundation, 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, // USA. // As a special exception, you may use this file as part of a free software // library without restriction. Specifically, if other files instantiate // templates or use macros or inline functions from this file, or you compile // this file and link it with other files to produce an executable, this // file does not by itself cause the resulting executable to be covered by // the GNU General Public License. This exception does not however // invalidate any other reasons why the executable file might be covered by // the GNU General Public License. #include <testsuite_common_types.h> typedef int test_type; // The number of iterations to be performed. int iterations = 1000; // TODO - restore Stefan's comment? i don't understand it. -- fwy int insert_values = 128; class Lock { public: Lock() {pthread_mutex_init(&mutex, 0);} ~Lock() {pthread_mutex_destroy(&mutex);} public: inline pthread_mutex_t* operator&() {return &mutex;} public: inline void lock() {pthread_mutex_lock(&mutex);} inline void unlock() {pthread_mutex_unlock(&mutex);} private: Lock(const Lock&); Lock& operator=(Lock&); private: pthread_mutex_t mutex; }; class AutoLock { public: AutoLock(Lock& _lock) : lock(_lock) {lock.lock();} ~AutoLock() {lock.unlock();} private: AutoLock(AutoLock&); AutoLock& operator=(AutoLock&); private: Lock& lock; }; template<typename Container> class Queue { public: Queue() {pthread_cond_init(&condition, 0);} ~Queue() {pthread_cond_destroy(&condition);} public: void push_back(const typename Container::value_type& x); void swap(Container& container); private: pthread_cond_t condition; Lock lock; Container queue; }; template<typename Container> void Queue<Container>::push_back(const typename Container::value_type& value) { AutoLock auto_lock(lock); const bool signal = queue.empty(); queue.insert(queue.end(), value); if (signal) pthread_cond_signal(&condition); } template<typename Container> void Queue<Container>::swap(Container& container) { AutoLock auto_lock(lock); while (queue.empty()) pthread_cond_wait(&condition, &lock); queue.swap(container); } class Thread { // NB: Make this the last data member of an object defining operator()(). public: class Attributes { public: Attributes(int state = PTHREAD_CREATE_JOINABLE); ~Attributes() {pthread_attr_destroy(&attributes);} public: inline pthread_attr_t* operator&() {return &attributes;} private: pthread_attr_t attributes; }; public: Thread() {thread = pthread_self();} ~Thread(); public: template <typename ThreadOwner> void create(ThreadOwner* owner); private: pthread_t thread; }; Thread::Attributes::Attributes(int state) { pthread_attr_init(&attributes); pthread_attr_setdetachstate(&attributes, state); } Thread::~Thread() { if (!pthread_equal(thread, pthread_self())) pthread_join(thread, 0); } template<typename ThreadOwner> void* create_thread(void* _this) { ThreadOwner* owner = static_cast<ThreadOwner*>(_this); (*owner)(); return 0; } template<typename ThreadOwner> void Thread::create(ThreadOwner* owner) { Thread::Attributes attributes; pthread_create(&thread, &attributes, create_thread<ThreadOwner>, owner); } template<typename Container> class Consumer { public: Consumer(Queue<Container>& _queue) : queue(_queue) {thread.create(this);} public: void operator()(); private: Queue<Container>& queue; Thread thread; }; template<typename Container> void Consumer<Container>::operator()() { for (int j = insert_values * iterations; j > 0;) { Container container; queue.swap(container); j -= container.size(); } } template<typename TestType> struct Value : public std::pair<TestType, TestType> { Value() : std::pair<TestType, TestType>(0, 0) { } inline Value operator++() {return ++this->first, *this;} inline operator TestType() const {return this->first;} }; template<typename Container> class ProducerConsumer : private Queue<Container> { public: ProducerConsumer() {thread.create(this);} public: void operator()(); private: Thread thread; }; template<typename Container> void ProducerConsumer<Container>::operator()() { Consumer<Container> consumer(*this); Value<test_type> test_value; for (int j = insert_values * iterations; j-- > 0;) this->push_back(++test_value); } template<typename Container, int Iter> void do_loop() { ProducerConsumer<Container> pc1; ProducerConsumer<Container> pc2; } int main() { #ifdef TEST_T1 #define thread_type true #endif typedef __gnu_test::maps<test_type, thread_type>::type map_typelist; typedef __gnu_test::sets<test_type, thread_type>::type set_typelist; typedef __gnu_cxx::append<map_typelist, set_typelist>::type container_types; typedef test_sequence<thread_type> test_type; test_type test("producer_consumer_associative"); __gnu_cxx::apply<test_type, container_types> applier; applier(test); return 0; }