void displayLoop(socket_ptr sock) { for(;;) { if(!messageQueue->empty()) { if(!isOwnMessage(messageQueue->front())) { cout << "\n" + *(messageQueue->front()) << endl; } messageQueue->pop(); } boost::this_thread::sleep( boost::posix_time::millisec(50)); } }
void displayLoop(socket_ptr sock) { for(;;) { if(!messageQueue->empty()) { if(!isOwnMessage(messageQueue->front())) { cout << "\n" + *(messageQueue->front()); mainMutex.lock(); recvMessage.insert(0,*(messageQueue->front())); mainMutex.unlock(); } messageQueue->pop(); } boost::this_thread::sleep( boost::posix_time::millisec(1000)); } }
void displayLoop(socket_ptr sock) { for(;;) { if(!messageQueue->empty()) { if(!isOwnMessage(messageQueue->front())) { string strTemp = *(messageQueue->front()); cerr << "message received:" << strTemp.c_str() << ":\n"; mainMutex.lock(); recvMessage.clear(); recvMessage.append(strTemp.c_str()); mainMutex.unlock(); } messageQueue->pop(); } boost::this_thread::sleep( boost::posix_time::millisec(50)); } }
void responseLoop() { for(;;) { if(!messageQueue->empty()) { auto message = messageQueue->front(); mtx.lock(); for(auto& clientSock : *clientList) { clientSock->write_some(buffer(*(message->begin()->second), bufSize)); } mtx.unlock(); mtx.lock(); messageQueue->pop(); mtx.unlock(); } boost::this_thread::sleep( boost::posix_time::millisec(sleepLen::lon)); } }