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#include <cmath>
#include <iostream>
#include <memory>
#include <string>
#include <QApplication>
#include <QtQml>
#include <QQmlApplicationEngine>
#include <QSurfaceFormat>
#include "main.h"
#include "mp.h"
#include "continuouscolorscale.h"
#include "scatterplot.h"
#include "voronoisplat.h"
#include "historygraph.h"
#include "barchart.h"
#include "colormap.h"
#include "interactionhandler.h"
#include "selectionhandler.h"
#include "projectionobserver.h"
#include "skelft.h"
static QObject *mainProvider(QQmlEngine *engine, QJSEngine *scriptEngine)
{
Q_UNUSED(engine)
Q_UNUSED(scriptEngine)
return Main::instance();
}
arma::uvec extractCPs(const arma::mat &X)
{
int numCPs = (int) (3 * sqrt(X.n_rows));
return arma::randi<arma::uvec>(numCPs, arma::distr_param(0, X.n_rows - 1));
}
int main(int argc, char **argv)
{
QApplication app(argc, argv);
app.setApplicationName("pm");
app.setApplicationVersion("1.0");
// app.setAttribute(Qt::AA_ShareOpenGLContexts);
QCommandLineParser parser;
parser.setApplicationDescription("Interactive multidimensional projections.");
parser.addHelpOption();
parser.addVersionOption();
parser.addPositionalArgument("dataset", "Dataset filename (.tbl file)");
QCommandLineOption indicesFileOutputOption(QStringList() << "i" << "indices",
"Filename to store the control points' indices. Omitting this option disables saving indices.",
"filename");
parser.addOption(indicesFileOutputOption);
QCommandLineOption cpFileOutputOption(QStringList() << "c" << "cpoints",
"Filename to store the control points' map. Omitting this option disables saving this map.",
"filename");
parser.addOption(cpFileOutputOption);
parser.process(app);
QStringList args = parser.positionalArguments();
if (args.size() != 1) {
parser.showHelp(1);
}
Main *m = Main::instance();
m->loadDataset(args[0].toStdString());
arma::mat X = m->X();
arma::vec labels = m->labels();
arma::uvec cpIndices;
arma::mat Ys;
QString indicesFilename;
if (parser.isSet(indicesFileOutputOption)) {
indicesFilename = parser.value(indicesFileOutputOption);
}
QFile indicesFile(indicesFilename);
if (indicesFile.exists()) {
m->setIndicesSavePath(indicesFilename);
cpIndices.load(indicesFilename.toStdString(), arma::raw_ascii);
} else {
cpIndices = extractCPs(X);
}
arma::sort(cpIndices);
QString cpFilename;
if (parser.isSet(cpFileOutputOption)) {
cpFilename = parser.value(cpFileOutputOption);
}
QFile cpFile(cpFilename);
if (cpFile.exists()) {
m->setCPSavePath(cpFilename);
Ys.load(cpFilename.toStdString(), arma::raw_ascii);
} else {
Ys.set_size(cpIndices.n_elem, 2);
mp::forceScheme(mp::dist(X.rows(cpIndices)), Ys);
}
if (cpIndices.n_elem != Ys.n_rows) {
std::cerr << "The number of CP indices and the CP map do not match." << std::endl;
return 1;
}
m->setCPIndices(cpIndices);
m->setCP(Ys);
qmlRegisterType<Scatterplot>("PM", 1, 0, "Scatterplot");
qmlRegisterType<HistoryGraph>("PM", 1, 0, "HistoryGraph");
qmlRegisterType<BarChart>("PM", 1, 0, "BarChart");
qmlRegisterType<VoronoiSplat>("PM", 1, 0, "VoronoiSplat");
qmlRegisterType<Colormap>("PM", 1, 0, "Colormap");
qmlRegisterType<InteractionHandler>("PM", 1, 0, "InteractionHandler");
qmlRegisterSingletonType<Main>("PM", 1, 0, "Main", mainProvider);
// Set up multisampling
QSurfaceFormat fmt;
fmt.setRenderableType(QSurfaceFormat::OpenGL);
fmt.setVersion(4, 5);
fmt.setRedBufferSize(8);
fmt.setGreenBufferSize(8);
fmt.setBlueBufferSize(8);
fmt.setAlphaBufferSize(8);
fmt.setSamples(8);
QSurfaceFormat::setDefaultFormat(fmt);
QQmlApplicationEngine engine(QUrl("qrc:///main_view.qml"));
m->cpPlot = engine.rootObjects()[0]->findChild<Scatterplot *>("cpPlot");
m->cpPlot->setAcceptedMouseButtons(Qt::LeftButton | Qt::MiddleButton | Qt::RightButton);
m->rpPlot = engine.rootObjects()[0]->findChild<Scatterplot *>("rpPlot");
m->splat = engine.rootObjects()[0]->findChild<VoronoiSplat *>("splat");
skelft2DInitialization(m->splat->width());
m->colormap = engine.rootObjects()[0]->findChild<Colormap *>("colormap");
// Keep track of the current cp (in order to save them later, if requested)
QObject::connect(m->cpPlot, SIGNAL(xyChanged(const arma::mat &)),
m, SLOT(setCP(const arma::mat &)));
QObject::connect(m->cpPlot, SIGNAL(xyInteractivelyChanged(const arma::mat &)),
m, SLOT(setCP(const arma::mat &)));
// Update projection as the cp are modified
InteractionHandler interactionHandler(X, cpIndices);
interactionHandler.setTechnique(InteractionHandler::TECHNIQUE_LAMP);
QObject::connect(m->cpPlot, SIGNAL(xyChanged(const arma::mat &)),
&interactionHandler, SLOT(setCP(const arma::mat &)));
QObject::connect(m->cpPlot, SIGNAL(xyInteractivelyChanged(const arma::mat &)),
&interactionHandler, SLOT(setCP(const arma::mat &)));
QObject::connect(&interactionHandler, SIGNAL(cpChanged(const arma::mat &)),
m->rpPlot, SLOT(setXY(const arma::mat &)));
QObject::connect(&interactionHandler, SIGNAL(cpChanged(const arma::mat &)),
m->splat, SLOT(setSites(const arma::mat &)));
// Connections between history graph and cp plot
//HistoryGraph *history = engine.rootObjects()[0]->findChild<HistoryGraph *>("history");
//QObject::connect(cpPlot, SIGNAL(xyInteractivelyChanged(const arma::mat &)),
// history, SLOT(addHistoryItem(const arma::mat &)));
//QObject::connect(history, SIGNAL(currentItemChanged(const arma::mat &)),
// cpPlot, SLOT(setXY(const arma::mat &)));
QObject::connect(m->rpPlot, SIGNAL(scaleChanged(const LinearScale<float> &, const LinearScale<float> &)),
m->cpPlot, SLOT(setScale(const LinearScale<float> &, const LinearScale<float> &)));
QObject::connect(m->splat, SIGNAL(colorScaleChanged(const ColorScale &)),
m->colormap, SLOT(setColorScale(const ColorScale &)));
m->cpBarChart = engine.rootObjects()[0]->findChild<BarChart *>("cpBarChart");
m->cpBarChart->setAcceptedMouseButtons(Qt::LeftButton);
m->setCPBarChartColorScale(Main::ColorScaleContinuous);
m->rpBarChart = engine.rootObjects()[0]->findChild<BarChart *>("rpBarChart");
m->rpBarChart->setAcceptedMouseButtons(Qt::LeftButton);
m->setRPBarChartColorScale(Main::ColorScaleContinuous);
// Linking between selections
SelectionHandler cpSelectionHandler(cpIndices.n_elem);
QObject::connect(m->cpPlot, SIGNAL(selectionInteractivelyChanged(const std::vector<bool> &)),
&cpSelectionHandler, SLOT(setSelection(const std::vector<bool> &)));
QObject::connect(m->cpBarChart, SIGNAL(selectionInteractivelyChanged(const std::vector<bool> &)),
&cpSelectionHandler, SLOT(setSelection(const std::vector<bool> &)));
QObject::connect(&cpSelectionHandler, SIGNAL(selectionChanged(const std::vector<bool> &)),
m->cpPlot, SLOT(setSelection(const std::vector<bool> &)));
//SelectionHandler rpSelectionHandler(X.n_rows - cpIndices.n_elem);
//QObject::connect(m->rpPlot, SIGNAL(selectionInteractivelyChanged(const std::vector<bool> &)),
// &rpSelectionHandler, SLOT(setSelection(const std::vector<bool> &)));
//QObject::connect(m->rpBarChart, SIGNAL(selectionInteractivelyChanged(const std::vector<bool> &)),
// &rpSelectionHandler, SLOT(setSelection(const std::vector<bool> &)));
//QObject::connect(&rpSelectionHandler, SIGNAL(selectionChanged(const std::vector<bool> &)),
// m->rpPlot, SLOT(setSelection(const std::vector<bool> &)));
ProjectionObserver projectionObserver(X, cpIndices);
m->projectionObserver = &projectionObserver;
QObject::connect(&interactionHandler, SIGNAL(cpChanged(const arma::mat &)),
m->projectionObserver, SLOT(setMap(const arma::mat &)));
//QObject::connect(m->projectionObserver, SIGNAL(valuesChanged(const arma::vec &)),
// m->rpPlot, SLOT(setColorData(const arma::vec &)));
QObject::connect(m->projectionObserver, SIGNAL(valuesChanged(const arma::vec &)),
m->splat, SLOT(setValues(const arma::vec &)));
QObject::connect(m->projectionObserver, SIGNAL(cpValuesChanged(const arma::vec &)),
m->cpBarChart, SLOT(setValues(const arma::vec &)));
//QObject::connect(m->projectionObserver, SIGNAL(rpValuesChanged(const arma::vec &)),
// m->rpBarChart, SLOT(setValues(const arma::vec &)));
m->setColormapColorScale(Main::ColorScaleContinuous);
m->setCPPlotColorScale(Main::ColorScaleContinuous);
m->setRPPlotColorScale(Main::ColorScaleContinuous);
m->setSplatColorScale(Main::ColorScaleContinuous);
m->cpPlot->setAutoScale(false);
m->cpPlot->setColorData(labels(cpIndices), false);
m->cpPlot->setXY(Ys, false);
m->cpPlot->update();
auto ret = app.exec();
skelft2DDeinitialization();
return ret;
}
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