void CIPCamGeniusDlg::OnBnClickedButtonSetNetwork() { POSITION pos = m_list_cameras.GetFirstSelectedItemPosition(); int idx = m_list_cameras.GetNextSelectedItem(pos); if (idx < 0) { msgbox("ÇëÏÈÑ¡ÔñÉãÏñ»ú"); return; } IPCameraInfo info = network_controller.vec_info[idx]; IPCameraInfo info_ori = info; CNetworkSettingDlg dlg; dlg.setIP(info.ip); dlg.setPortHTTP(info.port_http); dlg.setPortRTSP(info.port_rtsp); dlg.setMask(info.mask); dlg.setGateway(info.gateway); if (dlg.DoModal() == IDOK) { strcpy(info.ip, dlg.getIP()); strcpy(info.gateway, dlg.getGateway()); strcpy(info.mask, dlg.getMask()); info.port_http = dlg.getPortHTTP(); info.port_rtsp = dlg.getPortRTSP(); network_controller.camera_adapters[info.adapter_idx]->set_network(info, info_ori); reset_network(); } }
void Workspace::execute(Parser &parser) { if(parser.command.compare("demo") == 0) { ConsolePrinter::instance().feedback_rewrite( "Starting Demo... "); // run_tests(); return; } // classic network else if(parser.command.compare("cn") == 0) { NNInfo_uptr ret = classic_network(parser, networks); if(ret->result == NNOK) { ConsolePrinter::instance().network_write_nets(networks); } else { ConsolePrinter::instance().feedback_rewrite(ret->message); } return; } else if(parser.command.compare("use") == 0) { NNInfo_uptr ret = use_network(parser, networks, current_network); if(ret->result == NNOK) { ConsolePrinter::instance().network_write_active(current_network); } else { ConsolePrinter::instance().feedback_rewrite(ret->message); } return; } else if(parser.command.compare("set_io") == 0) { NNInfo_uptr ret = set_io(parser, networks, current_network); if(ret->result == NNOK) { ConsolePrinter::instance().feedback_rewrite("Input and Output loaded"); } else { ConsolePrinter::instance().feedback_rewrite(ret->message); } return; } else if(parser.command.compare("train") == 0) { NNInfo_uptr ret = train_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } return; } else if(parser.command.compare("eval") == 0) { NNInfo_uptr ret = eval_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } else { std::unique_ptr<double[]> out = current_network->get_output(); size_t out_len = current_network->output_layer_size_; // TODO: // Do not output from here. for(size_t ii = 0; ii < out_len; ii++) { std::string outstr = "Output "; double val = out[ii]*current_network->output_scale; outstr.append(std::to_string(ii)) .append(": Value: ") .append(std::to_string(val)); ConsolePrinter::instance().feedback_write(outstr); } } return; } else if(parser.command.compare("exit") == 0) { abort(); } else if(parser.command.compare("scale") == 0) { NNInfo_uptr ret = scale_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } else { ConsolePrinter::instance().feedback_rewrite("Scales set"); } return; } else if(parser.command.compare("plotSquare") == 0) { // NNInfo_uptr ret = plot_square(parser, current_network); // if(ret->result != NNOK) // { // ConsolePrinter::instance().feedback_rewrite(ret->message); // } // else // { // ConsolePrinter::instance().feedback_rewrite("Plot complete"); // } return; } else if(parser.command.compare("reset") == 0) { NNInfo_uptr ret = reset_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } else { ConsolePrinter::instance().feedback_rewrite("Weights are reset"); } return; } else if(parser.command.compare("retrain") == 0) { NNInfo_uptr ret = retrain_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } return; } else if(parser.command.compare("validate") == 0) { NNInfo_uptr ret = validate_network(parser, current_network); if(ret->result != NNOK) { ConsolePrinter::instance().feedback_rewrite(ret->message); } else { ConsolePrinter::instance().feedback_rewrite("Output file written"); } return; } else { std::string result = "Unrecognized command: "; result.append(parser.command).append(". Try demo"); ConsolePrinter::instance().feedback_rewrite(result); } }
void CIPCamGeniusDlg::OnBnClickedButtonRefreshNetwork() { reset_network(); }
void CIPCamGeniusDlg::OnBnClickedButtonOnekeyConfig() { POSITION pos = m_list_cameras.GetFirstSelectedItemPosition(); int idx = m_list_cameras.GetNextSelectedItem(pos); if (idx < 0) { msgbox("ÇëÏÈÑ¡ÔñÉãÏñ»ú"); return; } IPCameraInfo info = network_controller.vec_info[idx]; IPCameraInfo info_ori = info; UPNPMap ipmap_http(info.ip, info.port_http), ipmap_rtsp(info.ip, info.port_rtsp); unsigned short eport_http = 0, eport_rtsp = 0, iport_http = 0, iport_rtsp = 0; Gateway *p_gateway = &network_controller.gateway; if (network_controller.gateway.isError()) { msgbox(_T("ÎÞ·¨»ñÈ¡Íø¹ØÐÅÏ¢£¡")); return; } if (!network_controller.gateway.isReady()) { msgbox(_T("ÕýÔÚ»ñÈ¡Íø¹ØÐÅÏ¢£¬ÇëÉÔºóÔÙÊÔ£¡")); return; } CString subnetMask = network_controller.gateway.getSubnetMask(); CString gatewayAddr = network_controller.gateway.getGatewayAddress(); if (calculateSubnetAddress(gatewayAddr, subnetMask) != calculateSubnetAddress(info.gateway, info.mask)) { msgbox(_T("ÉãÏñ»ú²»´¦ÓÚµ±Ç°×ÓÍø£¬ÇëÏȽøÐÐÍøÂçÉèÖã¡")); return; } p_gateway->getUPnPMap(ipmap_http, eport_http); p_gateway->getUPnPMap(ipmap_rtsp, eport_rtsp); if (eport_http && (eport_rtsp || !info.port_rtsp)) { msgbox("¶Ë¿ÚÓ³ÉäÎÞÐèÅäÖã¡"); return; } if (!eport_http || info.port_rtsp && !eport_rtsp) { if (!p_gateway->getNextAvailableTCPPorts(info.port_http, info.port_rtsp, eport_http, eport_rtsp)) { if (AfxMessageBox("¶Ë¿ÚÓ³ÉäÒÑÂú£¬ÊÇ·ñÇ¿ÖƸ²¸Ç£¿", MB_OKCANCEL) == IDCANCEL) { msgbox("¶Ë¿ÚÓ³Éäʧ°Ü£¡"); return; } p_gateway->addTCPPortMapping(info.ip, info.port_http, info.port_http); if (info.port_rtsp) p_gateway->addTCPPortMapping(info.ip, info.port_rtsp, info.port_rtsp); msgbox("¶Ë¿ÚÓ³ÉäÍê±Ï£¡"); reset_network(); return; } if (eport_http == info.port_http && (!info.port_rtsp || eport_rtsp == info.port_rtsp)) { p_gateway->addTCPPortMapping(info.ip, info.port_http, info.port_http); p_gateway->addTCPPortMapping(info.ip, info.port_rtsp, info.port_rtsp); msgbox("¶Ë¿ÚÓ³ÉäÍê±Ï£¡"); reset_network(); return; } else { int opt; iport_http = info.port_http; iport_rtsp = info.port_rtsp; CRadioUPnPMapDialog radio_upnp_map(&opt, &iport_http, &eport_http, &iport_rtsp, &eport_rtsp); if (radio_upnp_map.DoModal() == IDCANCEL) { msgbox("¶Ë¿ÚÓ³Éäʧ°Ü£¡"); return; } if (opt == CRadioUPnPMapDialog::COVER) { p_gateway->addTCPPortMapping(info.ip, info.port_http, info.port_http); if (info.port_rtsp) p_gateway->addTCPPortMapping(info.ip, info.port_rtsp, info.port_rtsp); msgbox("¶Ë¿ÚÓ³ÉäÍê±Ï£¡"); reset_network(); return; } else { int index = info.adapter_idx; p_gateway->addTCPPortMapping(info.ip, iport_http, eport_http); if (info.port_rtsp) p_gateway->addTCPPortMapping(info.ip, iport_rtsp, eport_rtsp); info.port_http = iport_http; info.port_rtsp = iport_rtsp; network_controller.camera_adapters[index]->set_network(info, info_ori); msgbox("¶Ë¿ÚÓ³ÉäÍê±Ï£¡"); reset_network(); return; } } } }