QGCDataPlot2D.cc 22.7 KB
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/*=====================================================================

QGroundControl Open Source Ground Control Station

(c) 2009, 2010 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org>

This file is part of the QGROUNDCONTROL project

    QGROUNDCONTROL 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 3 of the License, or
    (at your option) any later version.

    QGROUNDCONTROL 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 QGROUNDCONTROL. If not, see <http://www.gnu.org/licenses/>.

======================================================================*/

/**
 * @file
 *   @brief Implementation of QGCDataPlot2D
 *   @author Lorenz Meier <mavteam@student.ethz.ch>
 *
 */
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#include <QFileDialog>
#include <QTemporaryFile>
#include <QMessageBox>
#include <QPrintDialog>
#include <QProgressDialog>
#include <QHBoxLayout>
#include <QSvgGenerator>
#include <QPrinter>
#include <QDesktopServices>
#include "QGCDataPlot2D.h"
#include "ui_QGCDataPlot2D.h"
#include "MG.h"
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#include "MainWindow.h"
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#include <cmath>

#include <QDebug>

QGCDataPlot2D::QGCDataPlot2D(QWidget *parent) :
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    QWidget(parent),
    plot(new IncrementalPlot()),
    logFile(NULL),
    ui(new Ui::QGCDataPlot2D)
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{
    ui->setupUi(this);

    // Add plot to ui
    QHBoxLayout* layout = new QHBoxLayout(ui->plotFrame);
    layout->addWidget(plot);
    ui->plotFrame->setLayout(layout);
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    ui->gridCheckBox->setChecked(plot->gridEnabled());
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    // Connect user actions
    connect(ui->selectFileButton, SIGNAL(clicked()), this, SLOT(selectFile()));
    connect(ui->saveCsvButton, SIGNAL(clicked()), this, SLOT(saveCsvLog()));
    connect(ui->reloadButton, SIGNAL(clicked()), this, SLOT(reloadFile()));
    connect(ui->savePlotButton, SIGNAL(clicked()), this, SLOT(savePlot()));
    connect(ui->printButton, SIGNAL(clicked()), this, SLOT(print()));
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    connect(ui->legendCheckBox, SIGNAL(clicked(bool)), plot, SLOT(showLegend(bool)));
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    connect(ui->symmetricCheckBox, SIGNAL(clicked(bool)), plot, SLOT(setSymmetric(bool)));
    connect(ui->gridCheckBox, SIGNAL(clicked(bool)), plot, SLOT(showGrid(bool)));
    connect(ui->regressionButton, SIGNAL(clicked()), this, SLOT(calculateRegression()));
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    connect(ui->style, SIGNAL(currentIndexChanged(QString)), plot, SLOT(setStyleText(QString)));
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}

void QGCDataPlot2D::reloadFile()
{
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    if (QFileInfo(fileName).isReadable()) {
        if (ui->inputFileType->currentText().contains("pxIMU") || ui->inputFileType->currentText().contains("RAW")) {
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            loadRawLog(fileName, ui->xAxis->currentText(), ui->yAxis->text());
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        } else if (ui->inputFileType->currentText().contains("CSV")) {
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            loadCsvLog(fileName, ui->xAxis->currentText(), ui->yAxis->text());
        }
    }
}

void QGCDataPlot2D::loadFile()
{
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    qDebug() << "DATA PLOT: Loading file:" << fileName;
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    if (QFileInfo(fileName).isReadable()) {
        if (ui->inputFileType->currentText().contains("pxIMU") || ui->inputFileType->currentText().contains("RAW")) {
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            loadRawLog(fileName);
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        } else if (ui->inputFileType->currentText().contains("CSV")) {
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            loadCsvLog(fileName);
        }
    }
}

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void QGCDataPlot2D::loadFile(QString file)
{
    fileName = file;
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    if (QFileInfo(fileName).isReadable()) {
        if (fileName.contains(".raw") || fileName.contains(".imu")) {
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            loadRawLog(fileName);
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        } else if (fileName.contains(".txt") || fileName.contains(".csv") || fileName.contains(".csv")) {
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            loadCsvLog(fileName);
        }
    }
}

/**
 * This function brings up a file name dialog and exports to either PDF or SVG, depending on the filename
 */
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void QGCDataPlot2D::savePlot()
{
    QString fileName = "plot.svg";
    fileName = QFileDialog::getSaveFileName(
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                   this, "Export File Name", QDesktopServices::storageLocation(QDesktopServices::DesktopLocation),
                   "PDF Documents (*.pdf);;SVG Images (*.svg)");
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    if (!fileName.contains(".")) {
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        // .pdf is default extension
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        fileName.append(".pdf");
    }

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    while(!(fileName.endsWith(".svg") || fileName.endsWith(".pdf"))) {
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        QMessageBox msgBox;
        msgBox.setIcon(QMessageBox::Critical);
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        msgBox.setText("Unsuitable file extension for PDF or SVG");
        msgBox.setInformativeText("Please choose .pdf or .svg as file extension. Click OK to change the file extension, cancel to not save the file.");
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        msgBox.setStandardButtons(QMessageBox::Ok | QMessageBox::Cancel);
        msgBox.setDefaultButton(QMessageBox::Ok);
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        // Abort if cancelled
        if(msgBox.exec() == QMessageBox::Cancel) return;
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        fileName = QFileDialog::getSaveFileName(
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                       this, "Export File Name", QDesktopServices::storageLocation(QDesktopServices::DesktopLocation),
                       "PDF Documents (*.pdf);;SVG Images (*.svg)");
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    }

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    if (fileName.endsWith(".pdf")) {
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        exportPDF(fileName);
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    } else if (fileName.endsWith(".svg")) {
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        exportSVG(fileName);
    }
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}


void QGCDataPlot2D::print()
{
    QPrinter printer(QPrinter::HighResolution);
    //    printer.setOutputFormat(QPrinter::PdfFormat);
    //    //QPrinter printer(QPrinter::HighResolution);
    //    printer.setOutputFileName(fileName);

    QString docName = plot->title().text();
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    if ( !docName.isEmpty() ) {
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        docName.replace (QRegExp (QString::fromLatin1 ("\n")), tr (" -- "));
        printer.setDocName (docName);
    }

    printer.setCreator("QGroundControl");
    printer.setOrientation(QPrinter::Landscape);

    QPrintDialog dialog(&printer);
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    if ( dialog.exec() ) {
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        plot->setStyleSheet("QWidget { background-color: #FFFFFF; color: #000000; background-clip: border; font-size: 10pt;}");
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        plot->setCanvasBackground(Qt::white);
        QwtPlotPrintFilter filter;
        filter.color(Qt::white, QwtPlotPrintFilter::CanvasBackground);
        filter.color(Qt::black, QwtPlotPrintFilter::AxisScale);
        filter.color(Qt::black, QwtPlotPrintFilter::AxisTitle);
        filter.color(Qt::black, QwtPlotPrintFilter::MajorGrid);
        filter.color(Qt::black, QwtPlotPrintFilter::MinorGrid);
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        if ( printer.colorMode() == QPrinter::GrayScale ) {
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            int options = QwtPlotPrintFilter::PrintAll;
            options &= ~QwtPlotPrintFilter::PrintBackground;
            options |= QwtPlotPrintFilter::PrintFrameWithScales;
            filter.setOptions(options);
        }
        plot->print(printer, filter);
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        plot->setStyleSheet("QWidget { background-color: #050508; color: #DDDDDF; background-clip: border; font-size: 11pt;}");
        //plot->setCanvasBackground(QColor(5, 5, 8));
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    }
}

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void QGCDataPlot2D::exportPDF(QString fileName)
{
    QPrinter printer;
    printer.setOutputFormat(QPrinter::PdfFormat);
    printer.setOutputFileName(fileName);
    //printer.setFullPage(true);
    printer.setPageMargins(10.0, 10.0, 10.0, 10.0, QPrinter::Millimeter);
    printer.setPageSize(QPrinter::A4);

    QString docName = plot->title().text();
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    if ( !docName.isEmpty() ) {
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        docName.replace (QRegExp (QString::fromLatin1 ("\n")), tr (" -- "));
        printer.setDocName (docName);
    }

    printer.setCreator("QGroundControl");
    printer.setOrientation(QPrinter::Landscape);

    plot->setStyleSheet("QWidget { background-color: #FFFFFF; color: #000000; background-clip: border; font-size: 10pt;}");
    //        plot->setCanvasBackground(Qt::white);
    //        QwtPlotPrintFilter filter;
    //        filter.color(Qt::white, QwtPlotPrintFilter::CanvasBackground);
    //        filter.color(Qt::black, QwtPlotPrintFilter::AxisScale);
    //        filter.color(Qt::black, QwtPlotPrintFilter::AxisTitle);
    //        filter.color(Qt::black, QwtPlotPrintFilter::MajorGrid);
    //        filter.color(Qt::black, QwtPlotPrintFilter::MinorGrid);
    //        if ( printer.colorMode() == QPrinter::GrayScale )
    //        {
    //            int options = QwtPlotPrintFilter::PrintAll;
    //            options &= ~QwtPlotPrintFilter::PrintBackground;
    //            options |= QwtPlotPrintFilter::PrintFrameWithScales;
    //            filter.setOptions(options);
    //        }
    plot->print(printer);//, filter);
    plot->setStyleSheet("QWidget { background-color: #050508; color: #DDDDDF; background-clip: border; font-size: 11pt;}");
    //plot->setCanvasBackground(QColor(5, 5, 8));
}

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void QGCDataPlot2D::exportSVG(QString fileName)
{
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    if ( !fileName.isEmpty() ) {
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        plot->setStyleSheet("QWidget { background-color: #FFFFFF; color: #000000; background-clip: border; font-size: 10pt;}");
        //plot->setCanvasBackground(Qt::white);
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        QSvgGenerator generator;
        generator.setFileName(fileName);
        generator.setSize(QSize(800, 600));

        QwtPlotPrintFilter filter;
        filter.color(Qt::white, QwtPlotPrintFilter::CanvasBackground);
        filter.color(Qt::black, QwtPlotPrintFilter::AxisScale);
        filter.color(Qt::black, QwtPlotPrintFilter::AxisTitle);
        filter.color(Qt::black, QwtPlotPrintFilter::MajorGrid);
        filter.color(Qt::black, QwtPlotPrintFilter::MinorGrid);

        plot->print(generator, filter);
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        plot->setStyleSheet("QWidget { background-color: #050508; color: #DDDDDF; background-clip: border; font-size: 11pt;}");
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    }
}

/**
 * Selects a filename and attempts immediately to load it.
 */
void QGCDataPlot2D::selectFile()
{
    // Let user select the log file name
    //QDate date(QDate::currentDate());
    // QString("./pixhawk-log-" + date.toString("yyyy-MM-dd") + "-" + QString::number(logindex) + ".log")
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    if (ui->inputFileType->currentText().contains("pxIMU") || ui->inputFileType->currentText().contains("RAW")) {
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        fileName = QFileDialog::getOpenFileName(this, tr("Specify log file name"), QString(), "Logfile (*.imu *.raw)");
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    } else {
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        fileName = QFileDialog::getOpenFileName(this, tr("Specify log file name"), QString(), "Logfile (*.csv *.txt *.log)");
    }

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    // Store reference to file

    QFileInfo fileInfo(fileName);

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    if (!fileInfo.isReadable()) {
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        QMessageBox msgBox;
        msgBox.setIcon(QMessageBox::Critical);
        msgBox.setText("Could not open file");
        msgBox.setInformativeText(tr("The file is owned by user %1. Is the file currently used by another program?").arg(fileInfo.owner()));
        msgBox.setStandardButtons(QMessageBox::Ok);
        msgBox.setDefaultButton(QMessageBox::Ok);
        msgBox.exec();
        ui->filenameLabel->setText(tr("Could not open %1").arg(fileInfo.baseName()+"."+fileInfo.completeSuffix()));
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    } else {
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        ui->filenameLabel->setText(tr("Opened %1").arg(fileInfo.completeBaseName()+"."+fileInfo.completeSuffix()));
        // Open and import the file
        loadFile();
    }

}

void QGCDataPlot2D::loadRawLog(QString file, QString xAxisName, QString yAxisFilter)
{
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    Q_UNUSED(xAxisName);
    Q_UNUSED(yAxisFilter);
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    if (logFile != NULL) {
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        logFile->close();
        delete logFile;
    }
    // Postprocess log file
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    logFile = new QTemporaryFile("qt_qgc_temp_log.XXXXXX.csv");
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    compressor = new LogCompressor(file, logFile->fileName());
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    connect(compressor, SIGNAL(logProcessingStatusChanged(QString)), MainWindow::instance(), SLOT(showStatusMessage(QString)));
    connect(compressor, SIGNAL(finishedFile(QString)), this, SLOT(loadFile(QString)));
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    compressor->startCompression();
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}

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/**
 * This function loads a CSV file into the plot. It tries to assign the dimension names
 * based on the first data row and tries to guess the separator char.
 *
 * @param file Name of the file to open
 * @param xAxisName Optional paramater. If given, the x axis dimension will be selected to match this string
 * @param yAxisFilter Optional parameter. If given, only data dimension names present in the filter string will be
 *        plotted
 *
 * @code
 *
 * QString file = "/home/user/datalog.txt"; // With header: x<tab>y<tab>z
 * QString xAxis = "x";
 * QString yAxis = "z";
 *
 * // Plotted result will be x vs z with y ignored.
 * @endcode
 */
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void QGCDataPlot2D::loadCsvLog(QString file, QString xAxisName, QString yAxisFilter)
{
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    if (logFile != NULL) {
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        logFile->close();
        delete logFile;
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        curveNames.clear();
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    }
    logFile = new QFile(file);

    // Load CSV data
    if (!logFile->open(QIODevice::ReadOnly | QIODevice::Text))
        return;

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    // Set plot title
    if (ui->plotTitle->text() != "") plot->setTitle(ui->plotTitle->text());
    if (ui->plotXAxisLabel->text() != "") plot->setAxisTitle(QwtPlot::xBottom, ui->plotXAxisLabel->text());
    if (ui->plotYAxisLabel->text() != "") plot->setAxisTitle(QwtPlot::yLeft, ui->plotYAxisLabel->text());

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    // Extract header

    // Read in values
    // Find all keys
    QTextStream in(logFile);

    // First line is header
    QString header = in.readLine();

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    bool charRead = false;
    QString separator = "";
    QList<QChar> sepCandidates;
    sepCandidates << '\t';
    sepCandidates << ',';
    sepCandidates << ';';
    sepCandidates << ' ';
    sepCandidates << '~';
    sepCandidates << '|';

    // Iterate until separator is found
    // or full header is parsed
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    for (int i = 0; i < header.length(); i++) {
        if (sepCandidates.contains(header.at(i))) {
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            // Separator found
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            if (charRead) {
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                separator += header[i];
            }
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        } else {
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            // Char found
            charRead = true;
            // If the separator is not empty, this char
            // has been read after a separator, so detection
            // is now complete
            if (separator != "") break;
        }
    }

    QString out = separator;
    out.replace("\t", "<tab>");
    ui->filenameLabel->setText(file.split("/").last().split("\\").last()+" Separator: \""+out+"\"");
    //qDebug() << "READING CSV:" << header;
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    // Clear plot
    plot->removeData();

    QVector<double> xValues;
    QMap<QString, QVector<double>* > yValues;

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    curveNames.append(header.split(separator, QString::SkipEmptyParts));
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    QString curveName;

    // Clear UI elements
    ui->xAxis->clear();
    ui->yAxis->clear();
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    ui->xRegressionComboBox->clear();
    ui->yRegressionComboBox->clear();
    ui->regressionOutput->clear();
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    int curveNameIndex = 0;

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    //int xValueIndex = curveNames.indexOf(xAxisName);

    QString xAxisFilter;
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    if (xAxisName == "") {
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        xAxisFilter = curveNames.first();
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    } else {
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        xAxisFilter = xAxisName;
    }
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    foreach(curveName, curveNames) {
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        // Add to plot x axis selection
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        ui->xAxis->addItem(curveName);
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        // Add to regression selection
        ui->xRegressionComboBox->addItem(curveName);
        ui->yRegressionComboBox->addItem(curveName);
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        if (curveName != xAxisFilter) {
            if ((yAxisFilter == "") || yAxisFilter.contains(curveName)) {
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                yValues.insert(curveName, new QVector<double>());
                // Add separator starting with second item
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                if (curveNameIndex > 0 && curveNameIndex < curveNames.count()) {
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                    ui->yAxis->setText(ui->yAxis->text()+"|");
                }
                ui->yAxis->setText(ui->yAxis->text()+curveName);
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                curveNameIndex++;
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            }
        }
    }

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    // Select current axis in UI
    ui->xAxis->setCurrentIndex(curveNames.indexOf(xAxisFilter));

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    // Read data

    double x,y;

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    while (!in.atEnd()) {
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        QString line = in.readLine();

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        QStringList values = line.split(separator, QString::SkipEmptyParts);
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        foreach(curveName, curveNames) {
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            bool okx;
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            if (curveName == xAxisFilter) {
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                // X  AXIS HANDLING
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                // Take this value as x if it is selected
                x = values.at(curveNames.indexOf(curveName)).toDouble(&okx);
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                xValues.append(x);// - 1270125570000ULL);
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            } else {
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                // Y  AXIS HANDLING

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                if(yAxisFilter == "" || yAxisFilter.contains(curveName)) {
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                    // Only append y values where a valid x value is present
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                    if (yValues.value(curveName)->count() == xValues.count() - 1) {
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                        bool oky;
                        int curveNameIndex = curveNames.indexOf(curveName);
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                        if (values.count() > curveNameIndex) {
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                            y = values.at(curveNameIndex).toDouble(&oky);
                            yValues.value(curveName)->append(y);
                        }
                    }
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                }
            }
        }
    }

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    // Add data array of each curve to the plot at once (fast)
    // Iterates through all x-y curve combinations
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    for (int i = 0; i < yValues.count(); i++) {
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        plot->appendData(yValues.keys().at(i), xValues.data(), yValues.values().at(i)->data(), xValues.count());
    }
    plot->setStyleText(ui->style->currentText());
}

bool QGCDataPlot2D::calculateRegression()
{
    // TODO Add support for quadratic / cubic curve fitting
    return calculateRegression(ui->xRegressionComboBox->currentText(), ui->yRegressionComboBox->currentText(), "linear");
}

/**
 * @param xName Name of the x dimension
 * @param yName Name of the y dimension
 * @param method Regression method, either "linear", "quadratic" or "cubic". Only linear is supported at this point
 */
bool QGCDataPlot2D::calculateRegression(QString xName, QString yName, QString method)
{
    bool result = false;
    QString function;
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    if (xName != yName) {
        if (QFileInfo(fileName).isReadable()) {
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            loadCsvLog(fileName, xName, yName);
            ui->xRegressionComboBox->setCurrentIndex(curveNames.indexOf(xName));
            ui->yRegressionComboBox->setCurrentIndex(curveNames.indexOf(yName));
        }
        const int size = 100000;
        double x[size];
        double y[size];
        int copied = plot->data(yName, x, y, size);

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        if (method == "linear") {
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            double a;  // Y-axis crossing
            double b;  // Slope
            double r;  // Regression coefficient
            int lin = linearRegression(x, y, copied, &a, &b, &r);
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            if(lin == 1) {
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                function = tr("%1 = %2 * %3 + %4 | R-coefficient: %5").arg(yName, QString::number(b), xName, QString::number(a), QString::number(r));

                // Plot curve
                // y-axis crossing (x = 0)
                // Set plotting to lines only
                plot->appendData(tr("regression %1-%2").arg(xName, yName), 0.0, a);
                plot->setStyleText("lines");
                // x-value of the current rightmost x position in the plot
                plot->appendData(tr("regression %1-%2").arg(xName, yName), plot->invTransform(QwtPlot::xBottom, plot->width() - plot->width()*0.08f), (a + b*plot->invTransform(QwtPlot::xBottom, plot->width() - plot->width() * 0.08f)));
                result = true;
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            } else {
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                function = tr("Linear regression failed. (Limit: %1 data points. Try with less)").arg(size);
                result = false;
            }
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        } else if (method == "quadratic") {
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        } else if (method == "cubic") {
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        } else {
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            function = tr("Regression method %1 not found").arg(method);
            result = false;
        }
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    } else {
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        // xName == yName
        function = tr("Please select different X and Y dimensions, not %1 = %2").arg(xName, yName);
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    }
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    ui->regressionOutput->setText(function);
    return result;
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}

/**
 * Linear regression (least squares) for n data points.
 * Computes:
 *
 * y = a * x + b
 *
 * @param x values on x axis
 * @param y corresponding values on y axis
 * @param n Number of values
 * @param a returned slope of line
 * @param b y-axis intersection
 * @param r regression coefficient. The larger the coefficient is, the better is
 *          the match of the regression.
 * @return 1 on success, 0 on failure (e.g. because of infinite slope)
 */
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int QGCDataPlot2D::linearRegression(double* x,double* y,int n,double* a,double* b,double* r)
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{
    int i;
    double sumx=0,sumy=0,sumx2=0,sumy2=0,sumxy=0;
    double sxx,syy,sxy;

    *a = 0;
    *b = 0;
    *r = 0;
    if (n < 2)
        return(FALSE);

    /* Conpute some things we need */
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    for (i=0; i<n; i++) {
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        sumx += x[i];
        sumy += y[i];
        sumx2 += (x[i] * x[i]);
        sumy2 += (y[i] * y[i]);
        sumxy += (x[i] * y[i]);
    }
    sxx = sumx2 - sumx * sumx / n;
    syy = sumy2 - sumy * sumy / n;
    sxy = sumxy - sumx * sumy / n;

    /* Infinite slope (b), non existant intercept (a) */
    if (fabs(sxx) == 0)
        return(FALSE);

    /* Calculate the slope (b) and intercept (a) */
    *b = sxy / sxx;
    *a = sumy / n - (*b) * sumx / n;

    /* Compute the regression coefficient */
    if (fabs(syy) == 0)
        *r = 1;
    else
        *r = sxy / sqrt(sxx * syy);

    return(TRUE);
}

void QGCDataPlot2D::saveCsvLog()
{
    QString fileName = "export.csv";
    fileName = QFileDialog::getSaveFileName(
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                   this, "Export CSV File Name", QDesktopServices::storageLocation(QDesktopServices::DesktopLocation),
                   "CSV file (*.csv);;Text file (*.txt)");
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    if (!fileName.contains(".")) {
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        // .csv is default extension
        fileName.append(".csv");
    }

597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639
    //    QFileInfo fileInfo(fileName);
    //
    //    // Check if we could create a new file in this directory
    //    QDir dir(fileInfo.absoluteDir());
    //    QFileInfo dirInfo(dir);
    //
    //    while(!(dirInfo.isWritable()))
    //    {
    //        QMessageBox msgBox;
    //        msgBox.setIcon(QMessageBox::Critical);
    //        msgBox.setText("File cannot be written, Operating System denies permission");
    //        msgBox.setInformativeText("Please choose a different file name or directory. Click OK to change the file, cancel to not save the file.");
    //        msgBox.setStandardButtons(QMessageBox::Ok | QMessageBox::Cancel);
    //        msgBox.setDefaultButton(QMessageBox::Ok);
    //        if(msgBox.exec() == QMessageBox::Cancel) break;
    //        fileName = QFileDialog::getSaveFileName(
    //                this, "Export CSV File Name", QDesktopServices::storageLocation(QDesktopServices::DesktopLocation),
    //            "CSV file (*.csv);;Text file (*.txt)");
    //    }

    bool success = logFile->copy(fileName);

    qDebug() << "Saved CSV log. Success: " << success;

    //qDebug() << "READE TO SAVE CSV LOG TO " << fileName;
}

QGCDataPlot2D::~QGCDataPlot2D()
{
    delete ui;
}

void QGCDataPlot2D::changeEvent(QEvent *e)
{
    QWidget::changeEvent(e);
    switch (e->type()) {
    case QEvent::LanguageChange:
        ui->retranslateUi(this);
        break;
    default:
        break;
    }
}