void STSimView::slot_run_finished(bool result) { Q_UNUSED(result) updatePlots(); if (!ui.blockview->block()) { if (currentBlockNumber()>0) { //setCurrentBlockNumber(0); } } }
// ----------------------------------------------------------------------------- // // ----------------------------------------------------------------------------- void StatsGenODFWidget::extractStatsData(int index, StatsData* statsData, unsigned int phaseType) { VectorOfFloatArray arrays; if(phaseType == DREAM3D::PhaseType::PrimaryPhase) { PrimaryStatsData* pp = PrimaryStatsData::SafePointerDownCast(statsData); arrays = pp->getODF_Weights(); } if(phaseType == DREAM3D::PhaseType::PrecipitatePhase) { PrecipitateStatsData* pp = PrecipitateStatsData::SafePointerDownCast(statsData); arrays = pp->getODF_Weights(); } if(phaseType == DREAM3D::PhaseType::TransformationPhase) { TransformationStatsData* tp = TransformationStatsData::SafePointerDownCast(statsData); arrays = tp->getODF_Weights(); } if (arrays.size() > 0) { QVector<float> e1(static_cast<int>(arrays[0]->getNumberOfTuples())); ::memcpy( e1.data(), arrays[0]->getVoidPointer(0), sizeof(float)*e1.size() ); QVector<float> e2(static_cast<int>(arrays[1]->getNumberOfTuples())); ::memcpy( e2.data(), arrays[1]->getVoidPointer(0), sizeof(float)*e2.size() ); QVector<float> e3(static_cast<int>(arrays[2]->getNumberOfTuples())); ::memcpy( e3.data(), arrays[2]->getVoidPointer(0), sizeof(float)*e3.size() ); QVector<float> weights(static_cast<int>(arrays[3]->getNumberOfTuples())); ::memcpy( weights.data(), arrays[3]->getVoidPointer(0), sizeof(float)*weights.size() ); QVector<float> sigmas(static_cast<int>(arrays[4]->getNumberOfTuples())); ::memcpy( sigmas.data(), arrays[4]->getVoidPointer(0), sizeof(float)*sigmas.size() ); // Convert from Radians to Degrees for the Euler Angles for(int i = 0; i < e1.size(); ++i) { e1[i] = e1[i] * 180.0f / M_PI; e2[i] = e2[i] * 180.0f / M_PI; e3[i] = e3[i] * 180.0f / M_PI; } if(e1.size() > 0) { // Load the data into the table model m_ODFTableModel->setTableData(e1, e2, e3, weights, sigmas); } } // Write the MDF Data if we have that functionality enabled if (m_MDFWidget != NULL) { m_MDFWidget->extractStatsData(index, statsData, phaseType); } updatePlots(); }
ScorbotConsole::ScorbotConsole(OptionManager& mgr, const std::string& descrName, const std::string& tagName) : ModelComponent(mgr, descrName, tagName) { jointStringMap[ScorbotIce::Base] = "Base"; jointStringMap[ScorbotIce::Shoulder] = "Shoulder"; jointStringMap[ScorbotIce::Elbow] = "Elbow"; jointStringMap[ScorbotIce::Wrist1] = "Wrist1"; jointStringMap[ScorbotIce::Wrist2] = "Wrist2"; jointStringMap[ScorbotIce::Gripper] = "Gripper"; jointStringMap[ScorbotIce::Slider] = "Slider"; itsSettings = new QSettings("iLab", "ScorbotConsole"); itsMaxPlotLength = 100; int IceError = false; try { int argc = 1; char* argv[1]; argv[0] = new char[128]; sprintf(argv[0], "app-ScorbotConsole"); ic = Ice::initialize(argc, argv); Ice::ObjectPrx base = ic->stringToProxy( "ScorbotServer:default -p 10000 -h ihead"); itsScorbot = ScorbotIce::ScorbotPrx::checkedCast(base); if(!itsScorbot) throw "Invalid Proxy"; } catch(const Ice::Exception& ex) { std::cerr << ex << std::endl; IceError = true; } catch(const char* msg) { std::cerr << msg << std::endl; IceError = false; } if(IceError) exit(-1); itsScorbotThread = new ScorbotInterfaceThread(this,&itsScorbot); connect(itsScorbotThread, SIGNAL(gotGravityCompensation(float)), this, SLOT(gotGravityCompensation(float))); connect(itsScorbotThread, SIGNAL(gotEncoderVal(int, int)), this, SLOT(gotEncoderVal(int, int))); connect(itsScorbotThread, SIGNAL(gotPWMVal(int, float)), this, SLOT(gotPWMVal(int, float))); connect(itsScorbotThread, SIGNAL(gotTargetPos(int, int)), this, SLOT(gotTargetPos(int, int))); connect(itsScorbotThread, SIGNAL(updatedAllValues()), this, SLOT(updatePlots())); }
CFrequencyPlotContainer::CFrequencyPlotContainer(QWidget *pParent) : QWidget(pParent), mpRegistry(0), mpVBoxLayout(new QVBoxLayout(this)), mpTimer(new QTimer(this)) { setLayout(mpVBoxLayout); mpVBoxLayout->setSpacing(2); mpVBoxLayout->addStretch(1); /// update function of the plot is called periodically connect(mpTimer, SIGNAL(timeout()), this, SLOT(updatePlots())); // start update timer mpTimer->start(500); };
MainWindow::MainWindow(QWidget *parent) : QMainWindow(parent), ui(new Ui::MainWindow) { ui->setupUi(this); simulator = new RSTrainSimulator(); number_of_vehicles = 0; train_pos = 0; ui->plotArea->setHorizontalScrollBarPolicy(Qt::ScrollBarAsNeeded); ui->plotArea->setVerticalScrollBarPolicy(Qt::ScrollBarAsNeeded); getter = simulator->getGetterAndLogger(); timer = new QTimer(); connect(timer, SIGNAL(timeout()), this, SLOT(updatePlots())); plotList = new QStringList; plotList->clear(); }
void STSimView::slot_scrollbar_value_changed() { m_current_block_number=ui.scrollbar->value(); updatePlots(); }
void STSimView::setCurrentBlockNumber(long val) { m_current_block_number=val; ui.scrollbar->setValue(m_current_block_number); updatePlots(); }
void Server::readFromStdout() { info = (QString)systemInfo->readAllStandardOutput(); //strip off unnecessary output info.remove(0, 21); info.chop(3); if(!initialised) { //get the user name from the remote machine QString userName = info.section(":", 7, 7); userName.remove(0, 1); userName.chop(16); //indication of old yarp version where server does not recognise --sysinfo flag if(userName=="") { info.clear(); supportedYarpVersion = false; } else { supportedYarpVersion = true; } initialised = true; } //add modules to server information QString moduleInfo; moduleInfo.append("Aquila modules: "); for(int i=0; i<modules.size(); i++) { moduleInfo.append(modules.at(i) + QString(" ")); } if(modules.size()==0) { moduleInfo.append("no modules detected"); } info.prepend(moduleInfo + QString("\n\n")); //show warning message in case the server runs unsupported yarp version if(!supportedYarpVersion) { info.append("This system appears to be running an older version of YARP that is not fully supported.\nPlease make sure that you run at least version "); info.append(minimumYarpVersion); stopAutoUpdate(); } //set the text ui->textEdit_generalInfo->setText(info); //retrieve cpu and memory usage QString tmp = info; tmp.remove(0, tmp.indexOf("Cpu load Ins.: ")+15); tmp.remove(tmp.indexOf("\n"), tmp.size()); cpuUsage = tmp.toInt(); tmp = info; tmp.remove(0, tmp.indexOf("Memory total : ")+15); tmp.remove(tmp.indexOf("M"), tmp.size()); totalMemory = tmp.toInt(); tmp = info; tmp.remove(0, tmp.indexOf("Memory free : ")+15); tmp.remove(tmp.indexOf("M"), tmp.size()); freeMemory = tmp.toInt(); //update cpu and memory usage plots updatePlots(); }
void IndirectFitPlotPresenter::updatePlotSpectrum(int spectrum) { m_view->setPlotSpectrum(spectrum); setActiveSpectrum(static_cast<std::size_t>(spectrum)); updatePlots(); updateFitRangeSelector(); }