Subversion Repositories seema-scanner

#include "SMScanner.h"
#include "ui_SMScanner.h"

#include <QMetaObject>

SMScanner::SMScanner(QWidget *parent) :QMainWindow(parent), ui(new Ui::SMScanner),
                                        calibrationReviewMode(false), captureReviewMode(false){
    ui->setupUi(this);

    // Register metatypes
    qRegisterMetaType<cv::Mat>("cv::Mat");
    qRegisterMetaType< std::vector<cv::Mat> >("std::vector<cv::Mat>");
    qRegisterMetaType<SMCalibrationSet>("SMCalibrationSet");
    qRegisterMetaType<SMCalibrationParameters>("SMCalibrationParameters");
    qRegisterMetaTypeStreamOperators<SMCalibrationParameters>("SMCalibrationParameters");
    qRegisterMetaType< std::vector<SMCalibrationSet> >("std::vector<SMCalibrationSet>");
    qRegisterMetaType<SMFrameSequence>("SMFrameSequence");

    // Restore geometry
    this->restoreGeometry(settings.value("geometry/mainwindow").toByteArray());
    this->restoreState(settings.value("state/mainwindow").toByteArray());

    // Set up threads
    captureWorker = new SMCaptureWorker;
    captureWorkerThread = new QThread(this);
    captureWorkerThread->setObjectName("captureWorkerThread");
    captureWorker->moveToThread(captureWorkerThread);
    captureWorkerThread->start();

    // Connections
    connect(captureWorker, SIGNAL(newFrame(unsigned int, cv::Mat)), this, SLOT(onReceiveFrame(unsigned int, cv::Mat)));
    connect(captureWorker, SIGNAL(newCalibrationSet(SMCalibrationSet)), this, SLOT(onReceiveCalibrationSet(SMCalibrationSet)));
    connect(captureWorker, SIGNAL(newFrameSequence(SMFrameSequence)), this, SLOT(onReceiveFrameSequence(SMFrameSequence)));

    // Start capturing
    QMetaObject::invokeMethod(captureWorker, "setup");
    QMetaObject::invokeMethod(captureWorker, "doWork");

}

void SMScanner::onReceiveFrame(unsigned int camId, cv::Mat frame){

    if(camId == 0){
        if(!calibrationReviewMode)
            ui->calibrationCamera0Widget->showImageCV(frame);
        if(!captureReviewMode)
            ui->captureCamera0Widget->showImageCV(frame);
    } else if(camId == 1){
        if(!calibrationReviewMode)
            ui->calibrationCamera1Widget->showImageCV(frame);
        if(!captureReviewMode)
            ui->captureCamera1Widget->showImageCV(frame);
    }
}

void SMScanner::on_actionPreferences_triggered(){

    preferenceDialog.show();
}

void SMScanner::closeEvent(QCloseEvent *event){

    // Stop capturing thread
    connect(captureWorker, SIGNAL(finished()), captureWorker, SLOT(deleteLater()));
    connect(captureWorker, SIGNAL(finished()), captureWorkerThread, SLOT(quit()));
    QMetaObject::invokeMethod(captureWorker, "stopWork");
    captureWorkerThread->quit();
    captureWorkerThread->wait();

    // Save window geometry
    settings.setValue("geometry/mainwindow", this->saveGeometry());
    settings.setValue("state/mainwindow", this->saveState());

    event->accept();

}

SMScanner::~SMScanner(){
    delete ui;
}

void SMScanner::on_singleCalibrationButton_clicked(){

    // If in review mode, go back to aquisition mode
    if(calibrationReviewMode){
        ui->calibrationListWidget->clearSelection();
        ui->singleCalibrationButton->setText("Single Aquisition");
        ui->batchCalibrationButton->setText("Batch Aquisition");
        calibrationReviewMode = false;
        return;
    }

    QMetaObject::invokeMethod(captureWorker, "acquireCalibrationSet", Q_ARG(float, -1.0));

}

void SMScanner::on_calibrationRotationDial_sliderReleased(){

    float angle = ui->calibrationRotationDial->value();
    std::cout << "Rotation stage target: " << angle << std::endl;
    QMetaObject::invokeMethod(captureWorker, "rotateTo", Q_ARG(float, angle));

    ui->captureRotationDial->setValue(ui->calibrationRotationDial->value());
}

void SMScanner::onReceiveCalibrationSet(SMCalibrationSet calibrationSet){
    calibrationData.push_back(calibrationSet);

    // Add identifier to list
    QListWidgetItem* item = new QListWidgetItem(QString("Set %1 -- %2 deg").arg(ui->calibrationListWidget->count()).arg(calibrationSet.rotationAngle), ui->calibrationListWidget);
    item->setFlags(item->flags() | Qt::ItemIsUserCheckable);
    item->setCheckState(Qt::Checked);
    ui->calibrationListWidget->addItem(item);

    // Set enabled checkmark
    if(calibrationData.size() >= 2)
        ui->calibrateButton->setEnabled(true);
}

void SMScanner::on_calibrateButton_clicked(){


    // set checked flags
    for(int i=0; i<calibrationData.size(); i++){
        calibrationData[i].checked = (ui->calibrationListWidget->item(i)->checkState() == Qt::Checked);
    }

//    SMCalibrationWorker calibrationWorker;
//    calibrationWorker.performCalibration(calibrationData);

    // Set up calibration thread
    calibrationWorker = new SMCalibrationWorker;
    calibrationWorkerThread = new QThread(this);
    calibrationWorkerThread->setObjectName("calibrationWorkerThread");
    calibrationWorker->moveToThread(captureWorkerThread);
    calibrationWorkerThread->start();

    // Connections
    connect(calibrationWorker, SIGNAL(newSetProcessed(int)), this, SLOT(onCalibrationSetProcessed(int)));
    connect(calibrationWorker, SIGNAL(newFrameResult(int,int,cv::Mat)), this, SLOT(onCalibrationFrameResult(int,int,cv::Mat)));
    connect(calibrationWorker, SIGNAL(done()), this, SLOT(onCalibrationDone()));
    connect(calibrationWorker, SIGNAL(done()), calibrationWorkerThread, SLOT(quit()));
    connect(calibrationWorker, SIGNAL(done()), calibrationWorker, SLOT(deleteLater()));

    // Start capturing
    QMetaObject::invokeMethod(calibrationWorker, "performCalibration", Q_ARG(std::vector<SMCalibrationSet>, calibrationData));

}

void SMScanner::onCalibrationSetProcessed(int idx){

    ui->calibrationListWidget->setCurrentRow(idx);
}

void SMScanner::onCalibrationDone(){

    std::cout << "Calibration done!" << std::endl;

}

void SMScanner::on_calibrationListWidget_itemSelectionChanged(){

    // if selection is just cleared
    if(ui->calibrationListWidget->selectedItems().empty())
        return;

    int currentRow = ui->calibrationListWidget->currentRow();

    calibrationReviewMode = true;
    ui->singleCalibrationButton->setText("Live View");
    ui->batchCalibrationButton->setText("Live View");

    if(!calibrationData[currentRow].frame0Result.empty())
        ui->calibrationCamera0Widget->showImageCV(calibrationData[currentRow].frame0Result);
    else
        ui->calibrationCamera0Widget->showImageCV(calibrationData[currentRow].frame0);

    if(!calibrationData[currentRow].frame1Result.empty())
        ui->calibrationCamera1Widget->showImageCV(calibrationData[currentRow].frame1Result);
    else
        ui->calibrationCamera1Widget->showImageCV(calibrationData[currentRow].frame1);

//     std::cout << "on_calibrationListWidget_itemSelectionChanged" << std::endl;
}

void SMScanner::onCalibrationFrameResult(int idx, int camID, cv::Mat result){

    std::cout << "onCalibrationFrameResult " << idx << camID << std::endl;

    if(camID == 0)
        calibrationData[idx].frame0Result = result;
    else if(camID == 1)
        calibrationData[idx].frame1Result = result;

}

void SMScanner::on_singleCaptureButton_clicked(){

    // If in review mode, go back to aquisition mode
    if(captureReviewMode){
        ui->captureTreeWidget->clearSelection();
        ui->singleCaptureButton->setText("Single Aquisition");
        ui->batchCaptureButton->setText("Batch Aquisition");
        captureReviewMode = false;
        return;
    }

    QMetaObject::invokeMethod(captureWorker, "acquireFrameSequence", Q_ARG(float, -1.0));

}


void SMScanner::on_captureRotationDial_sliderReleased(){

    float angle = ui->captureRotationDial->value();
    std::cout << "Rotation stage target: " << angle << std::endl;
    QMetaObject::invokeMethod(captureWorker, "rotateTo", Q_ARG(float, angle));

    ui->calibrationRotationDial->setValue(ui->captureRotationDial->value());
}

void SMScanner::onReceiveFrameSequence(SMFrameSequence frameSequence){

    captureData.push_back(frameSequence);

    int idx = captureData.size()-1;

    // Add identifier to list
    QTreeWidgetItem* item = new QTreeWidgetItem(ui->captureTreeWidget);
    item->setText(0, QString("Frame Sequence %1 -- %2 deg").arg(idx).arg(frameSequence.rotationAngle));
    item->setFlags(item->flags() | Qt::ItemIsUserCheckable);
    item->setData(0, Qt::UserRole, QPoint(idx, -1));
    item->setCheckState(0, Qt::Checked);
    //ui->captureTreeWidget->addItem(item);

    for(int i=0; i<frameSequence.frames0.size(); i++){
        QTreeWidgetItem* subItem = new QTreeWidgetItem(item);
        subItem->setText(0, QString("frames %1").arg(i));
        subItem->setData(0, Qt::UserRole, QPoint(idx, i));
    }
}

void SMScanner::on_captureTreeWidget_itemSelectionChanged(){

    // if selection is just cleared
    if(ui->captureTreeWidget->selectedItems().empty())
        return;

    QTreeWidgetItem *item = ui->captureTreeWidget->currentItem();

    captureReviewMode = true;

    ui->singleCaptureButton->setText("Live View");
    ui->batchCaptureButton->setText("Live View");

    QPoint idx = item->data(0, Qt::UserRole).toPoint();

    if(idx.y() != -1){
        ui->captureCamera0Widget->showImageCV(captureData[idx.x()].frames0[idx.y()]);
        ui->captureCamera1Widget->showImageCV(captureData[idx.x()].frames1[idx.y()]);
    }

//     std::cout << "on_captureTreeWidget_itemSelectionChanged" << std::endl;
}