/* Copyright (c) 2008-2022 Jan W. Krieger () This software is free software: you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License (LGPL) as published by the Free Software Foundation, either version 2.1 of the License, or (at your option) any later version. This program 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 Lesser General Public License (LGPL) for more details. You should have received a copy of the GNU Lesser General Public License (LGPL) along with this program. If not, see . */ #include #if (QT_VERSION >= QT_VERSION_CHECK(5, 0, 0)) #include #include #else #include #endif #include "jkqtplotter/jkqtplotter.h" #include "jkqtplotter.h" std::atomic JKQTPlotter::jkqtp_RESIZE_DELAY = 100; void JKQTPlotter::setGlobalResizeDelay(int delayMS) { jkqtp_RESIZE_DELAY=delayMS; } int JKQTPlotter::getGlobalResizeDelay() { return jkqtp_RESIZE_DELAY; } /************************************************************************************************************************** * JKQTPlotter **************************************************************************************************************************/ JKQTPlotter::JKQTPlotter(bool datastore_internal, QWidget* parent, JKQTPDatastore* datast): QWidget(parent, Qt::Widget), currentMouseDragAction(), lastWheelActionType(WheelActionType::None), lastWheelActionTimestamp(0), maxWheelEventSeriesTimestampDifference(300), doDrawing(false), plotter(nullptr), mouseDragingRectangle(false), mouseDragRectXStart(0), mouseDragRectXStartPixel(0), mouseDragRectXEndPixel(0), mouseDragRectYEndPixel(0), mouseDragRectXEnd(0), mouseDragRectYStart(0), mouseDragRectYStartPixel(0), mouseDragRectYEnd(0), mouseDragMarkers(), image(), oldImage(), menuSpecialContextMenu(nullptr),toolbar(nullptr), masterPlotterX(nullptr), masterPlotterY(nullptr), mousePosX(0), mousePosY(0), magnification(1), minSize(), contextMenu(nullptr), contextMenuMode(JKQTPContextMenuModes::jkqtpcmmStandardContextMenu), mouseContextX(0), mouseContextY(0), mouseLastClickX(0), mouseLastClickY(0), contextSubMenus(), plotterStyle(JKQTPGetSystemDefaultStyle()), resizeTimer(), registeredOverrideMouseDragActionModes(), actgrpMouseLeft(nullptr), actMouseLeftAsDefault(nullptr), actMouseLeftAsRuler(nullptr), actMouseMoveToolTip(nullptr), actMouseLeftAsZoomRect(nullptr), actMouseLeftAsPanView(nullptr) { initJKQTPlotterResources(); setParent(parent); connect(&resizeTimer, SIGNAL(timeout()), this, SLOT(delayedResizeEvent())); plotter=new JKQTBasePlotter(datastore_internal, this, datast); plotter->setEmittingSignalsEnabled(false); fixBasePlotterSettings(); connect(plotter, SIGNAL(plotUpdated()), this, SLOT(redrawPlot())); connect(plotter, SIGNAL(beforePlotScalingRecalculate()), this, SLOT(intBeforePlotScalingRecalculate())); connect(plotter, SIGNAL(zoomChangedLocally(double, double, double, double, JKQTBasePlotter*)), this, SLOT(pzoomChangedLocally(double, double, double, double, JKQTBasePlotter*))); image=createImageBuffer(); oldImage=image; // enable mouse-tracking, so mouseMoved-Events can be caught setMouseTracking(true); setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Expanding); actgrpMouseLeft=new QActionGroup(this); actMouseLeftAsDefault=actgrpMouseLeft->addAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_default.png"), tr("Default Tool")); actMouseLeftAsDefault->setToolTip(tr("switch back to the default mouse action/tool (left button, no modifiers)")); actMouseLeftAsDefault->setCheckable(true); actMouseLeftAsPanView=actgrpMouseLeft->addAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_drag.png"), tr("Pan View Tool")); actMouseLeftAsPanView->setToolTip(tr("switch on the pan view tool (left button, no modifiers)")); actMouseLeftAsPanView->setCheckable(true); actMouseLeftAsZoomRect=actgrpMouseLeft->addAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_zoomrect.png"), tr("Zoom Rectangle Tool")); actMouseLeftAsZoomRect->setToolTip(tr("switch on the zoom rectangle tool (left button, no modifiers)")); actMouseLeftAsZoomRect->setCheckable(true); actMouseLeftAsRuler=actgrpMouseLeft->addAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_ruler.png"), tr("Ruler Tool")); actMouseLeftAsRuler->setToolTip(tr("switch on the ruler tool (left button, no modifiers)")); actMouseLeftAsRuler->setCheckable(true); //actMouseLeftAsToolTip=actgrpMouseLeft->addAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_tooltip.png"), tr("Data Tooltip Tool")); //actMouseLeftAsToolTip->setToolTip(tr("switch on the data tooltip tool when moving the mouse (no modifiers)")); //actMouseLeftAsToolTip->setCheckable(true); actgrpMouseLeft->setExclusive(true); actMouseLeftAsDefault->setChecked(true); actMouseMoveToolTip=new QAction(QIcon(":/JKQTPlotter/jkqtp_mouseact_tooltip.png"), tr("Data Tooltip Tool")); actMouseMoveToolTip->setToolTip(tr("switch on the data tooltip tool when moving the mouse (no modifiers)")); actMouseMoveToolTip->setCheckable(true); actMouseMoveToolTip->setChecked(false); connect(actMouseLeftAsDefault, SIGNAL(triggered()), this, SLOT(resetMouseLeftAction())); connect(actMouseLeftAsRuler, SIGNAL(triggered()), this, SLOT(setMouseLeftActionAsRuler())); connect(actMouseLeftAsPanView, SIGNAL(triggered()), this, SLOT(setMouseLeftActionAsPanView())); connect(actMouseLeftAsZoomRect, SIGNAL(triggered()), this, SLOT(setMouseLeftActionAsZoomRect())); connect(actMouseMoveToolTip, SIGNAL(toggled(bool)), this, SLOT(setMouseMoveActionAsToolTip(bool))); toolbar=new JKVanishQToolBar(this); toolbar->clear(); toolbar->move(1,1); toolbar->hide(); toolbar->setAutoFillBackground(true); toolbar->addSeparator(); toolbar->addSeparator(); populateToolbar(toolbar); QSize s=QSize(plotterStyle.toolbarIconSize, plotterStyle.toolbarIconSize); toolbar->setIconSize(s); contextMenu=nullptr;//new QMenu(this); //move(32,32); resize(400,300); doDrawing=true; plotter->setEmittingSignalsEnabled(true); redrawPlot(); } JKQTPlotter::JKQTPlotter(JKQTPDatastore *datast, QWidget *parent): JKQTPlotter(false, parent, datast) { } JKQTPlotter::JKQTPlotter(QWidget *parent): JKQTPlotter(true, parent, nullptr) { } JKQTPlotter::~JKQTPlotter() { resetContextMenu(false); disconnect(plotter, SIGNAL(plotUpdated()), this, SLOT(redrawPlot())); disconnect(plotter, SIGNAL(beforePlotScalingRecalculate()), this, SLOT(intBeforePlotScalingRecalculate())); disconnect(plotter, SIGNAL(zoomChangedLocally(double, double, double, double, JKQTBasePlotter*)), this, SLOT(pzoomChangedLocally(double, double, double, double, JKQTBasePlotter*))); delete plotter; } void JKQTPlotter::fixBasePlotterSettings() { if (plotterStyle.usePaletteColors) { plotter->setBackgroundColor(palette().color(QPalette::Window)); } } JKQTPlotter::InternalBufferImageType JKQTPlotter::createImageBuffer() const { float scale=1.0; auto img=InternalBufferImageType(getImageBufferSize(&scale)); img.setDevicePixelRatio(scale); return img; } QSize JKQTPlotter::getImageBufferSize(float* scale_out) const { float imagewidth=width(); float imageheight=height()-getPlotYOffset(); /* * The following code is to avoid low quality blur pixmap created via * QPainter, sample code is found in QAbstractItemViewPrivate::renderToPixmap method */ qreal scale = 1.0; const QWidget *window = this->window(); if (window) { const QWindow *windowHandle = window->windowHandle(); if (windowHandle) { scale = windowHandle->devicePixelRatio(); } } qDebug()<<"scale="<loadSettings(settings, group); plotterStyle.loadSettings(settings, group, JKQTPGetSystemDefaultStyle()); updateToolbar(); redrawPlot(); } void JKQTPlotter::saveSettings(QSettings& settings, const QString& group) const { plotterStyle.saveSettings(settings, group); plotter->saveSettings(settings, group); } void JKQTPlotter::fillInternalStructForToolTipOfClosestDataPoint(double x0, double y0, bool emitEvent) { bool foundAll=false; QList labels, titles; QList colors; QList posSyss; QList keymarkers; QList graphs; QList ds; double dbest=0; for (size_t i=0; igetGraphCount(); i++) { JKQTPPlotElement* g=getPlotter()->getGraph(i); bool found=false; QString label; QPointF posSys; double d=0; if (g && g->isVisible()) { QPointF pp; QString ll; double dist=g->hitTest(QPointF(x0, y0), &pp, &ll, JKQTPPlotElement::HitTestXY); if (JKQTPIsOKFloat(dist)) { if (!found || distgetTitle(); colors.clear(); colors<getKeyLabelColor(); posSyss.clear(); posSyss<generateKeyMarker(); graphs.clear(); graphs<getTitle(); colors<getKeyLabelColor(); posSyss<generateKeyMarker(); graphs<getTitle(); colors.clear(); colors<getKeyLabelColor(); posSyss.clear(); posSyss<generateKeyMarker(); graphs.clear(); graphs<x2p(posSyss[i].x())*magnification, getYAxis()->x2p(posSyss[i].y())*magnification).toPoint(); entries<<(titles[i]+": "+labels[i]); mouseDragMarkers<getTitle()<<" clicked("<pos()<<") ==> posSys="<0) { emit tooltipDisplayed(posSyss[0].x(), posSyss[0].y(), entries, graphs); } } } } void JKQTPlotter::paintUserAction() { if ((currentMouseDragAction.isValid() && mouseDragingRectangle) || (!currentMouseMoveAction.isEmpty())) { image=oldImage; if (image.width()>0 && image.height()>0 && !image.isNull()) { JKQTPEnhancedPainter painter(&image); #if (QT_VERSION < QT_VERSION_CHECK(6, 0, 0)) painter.setRenderHint(JKQTPEnhancedPainter::NonCosmeticDefaultPen, true); #endif painter.setRenderHint(JKQTPEnhancedPainter::Antialiasing, true); painter.setRenderHint(JKQTPEnhancedPainter::TextAntialiasing, true); painter.setPen(plotterStyle.userActionOverlayPen); if (jkqtp_approximatelyUnequal(mouseDragRectXEnd,mouseDragRectXStart) && jkqtp_approximatelyUnequal(mouseDragRectYEnd,mouseDragRectYStart)) { const double x1=plotter->x2p(mouseDragRectXStart)*magnification; const double y1=plotter->y2p(mouseDragRectYStart)*magnification; const double x2=plotter->x2p(mouseDragRectXEnd)*magnification; const double y2=plotter->y2p(mouseDragRectYEnd)*magnification; const double dx=x2-x1; const double dy=y2-y1; if (currentMouseDragAction.isValid() && mouseDragingRectangle) { if (currentMouseDragAction.mode==jkqtpmdaDrawRectangleForEvent) { painter.fillRect(QRectF(x1, y1, x2-x1, y2-y1), plotterStyle.userActionOverlayBrush); painter.setPen(plotterStyle.userActionOverlayPen); painter.drawRect(QRectF(x1, y1, x2-x1, y2-y1)); } else if (currentMouseDragAction.mode==jkqtpmdaZoomByRectangle) { double xmin=mouseDragRectXStart; double xmax=mouseDragRectXEnd; double ymin=mouseDragRectYStart; double ymax=mouseDragRectYEnd; plotter->correctXYRangeForAspectRatio(xmin,xmax,ymin,ymax); const double xz1=plotter->x2p(xmin)*magnification; const double yz1=plotter->y2p(ymin)*magnification; const double xz2=plotter->x2p(xmax)*magnification; const double yz2=plotter->y2p(ymax)*magnification; painter.fillRect(QRectF(xz1, yz1, xz2-xz1, yz2-yz1), plotterStyle.userActionOverlayBrush); painter.setPen(plotterStyle.userActionOverlayPen); painter.drawRect(QRectF(xz1, yz1, xz2-xz1, yz2-yz1)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawCircleForEvent) { painter.setPen(plotterStyle.userActionOverlayPen); painter.setBrush(plotterStyle.userActionOverlayBrush); painter.drawEllipse(QPointF(x1, y1), qMin(fabs(dx), fabs(dy)), qMin(fabs(dx), fabs(dy))); } else if (currentMouseDragAction.mode==jkqtpmdaDrawEllipseForEvent) { painter.setPen(plotterStyle.userActionOverlayPen); painter.setBrush(plotterStyle.userActionOverlayBrush); painter.drawEllipse(QPointF(x1, y1), fabs(dx), fabs(dy)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawLineForEvent) { painter.setPen(plotterStyle.userActionOverlayPen); painter.setBrush(plotterStyle.userActionOverlayBrush); painter.drawLine(QPointF(x1,y1), QPointF(x2,y2)); } else if (currentMouseDragAction.mode==jkqtpmdaRuler) { painter.setPen(plotterStyle.userActionOpaquePen); painter.setBrush(plotterStyle.userActionOpaqueBrush); painter.drawLine(QPointF(x1,y1), QPointF(x2,y1)); painter.drawLine(QPointF(x2,y1), QPointF(x2,y2)); painter.drawLine(QPointF(x1,y1), QPointF(x2,y2)); const double dxy=sqrt(jkqtp_sqr(mouseDragRectXEnd-mouseDragRectXStart)+jkqtp_sqr(mouseDragRectYEnd-mouseDragRectYStart)); const double alpha=atan2((mouseDragRectYEnd-mouseDragRectYStart), (mouseDragRectXEnd-mouseDragRectXStart))/JKQTPSTATISTICS_PI*180.0; const double dx=fabs(mouseDragRectXEnd-mouseDragRectXStart); const double dy=fabs(mouseDragRectYEnd-mouseDragRectYStart); painter.setBrush(plotterStyle.userActionOpaqueBrush); QString txt; double a=0,d=0,so=0,w=0; getPlotter()->getMathText()->setFontSize(plotterStyle.userActionFontSize); getPlotter()->getMathText()->setFontSpecial(plotterStyle.userActionFontName); txt=QString::fromStdString("\\delta_{x}="+jkqtp_floattolatexstr(dx, 3)); getPlotter()->getMathText()->parse(txt); getPlotter()->getMathText()->getSizeDetail(painter, w, a, d, so); if (y1>y2) { QRectF rec((x1+x2)/2.0-w/2.0, y1+2, w, a+d); painter.fillRect(rec, plotterStyle.userActionOpaqueBrush); getPlotter()->getMathText()->draw(painter, Qt::AlignTop, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } else { QRectF rec((x1+x2)/2.0-w/2.0, y1-2-a-d, w, a+d); painter.fillRect(rec, plotterStyle.userActionOpaqueBrush); getPlotter()->getMathText()->draw(painter, Qt::AlignBottom, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } txt=jkqtp_floattolatexqstr(dy, 3); getPlotter()->getMathText()->parse("\\delta_{y}="+txt); getPlotter()->getMathText()->getSizeDetail(painter, w, a, d, so); //double dyh=a+d; if (x2>x1) { QRectF rec(x2+2, (y1+y2)/2.0-(a+d)/2.0, w, a+d); painter.fillRect(rec, plotterStyle.userActionOpaqueBrush); getPlotter()->getMathText()->draw(painter, Qt::AlignVCenter|Qt::AlignLeft, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } else { QRectF rec(x2-2-w, (y1+y2)/2.0-(a+d)/2.0, w, a+d); painter.fillRect(rec, plotterStyle.userActionOpaqueBrush); getPlotter()->getMathText()->draw(painter, Qt::AlignVCenter|Qt::AlignRight, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } txt=QString::fromStdString("\\delta_{x,y}="+jkqtp_floattolatexstr(dxy)+", \\alpha="+jkqtp_floattolatexstr(alpha, 1)+"\\degree, \\stfrac{\\mathrm{d}y}{\\mathrm{d}x}="+jkqtp_floattolatexstr(dy/dx, 1)); getPlotter()->getMathText()->parse(txt); getPlotter()->getMathText()->getSizeDetail(painter, w, a, d, so); if (x2getMathText()->draw(painter,Qt::AlignTop|Qt::AlignLeft, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } else { QRectF rec((x1+x2)/2.0-w, (y1+y2)/2.0-(a+d)/2.0, w, a+d); painter.fillRect(rec, plotterStyle.userActionOpaqueBrush); getPlotter()->getMathText()->draw(painter,Qt::AlignTop|Qt::AlignRight, rec, getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); } } } if ((currentMouseDragAction.isValid() && currentMouseDragAction.mode==jkqtpmdaToolTipForClosestDataPoint) || currentMouseMoveAction.contains(jkqtpmmaToolTipForClosestDataPoint)) { if (mouseDragMarkers.size()>0) { const int markerD=getCurrentPlotterStyle().userActionMarkerDiameter; if (getCurrentPlotterStyle().userActionMarkerType==jkqtpuamtCircle) { painter.setBrush(plotterStyle.userActionMarkerBrush); painter.setPen(plotterStyle.userActionMarkerPen); painter.drawEllipse(QRectF(mouseDragMarkers[0].pos.x()-markerD/2, mouseDragMarkers[0].pos.y()-markerD/2, markerD, markerD)); } else if (getCurrentPlotterStyle().userActionMarkerType==jkqtpuamtCrossHair) { painter.setBrush(plotterStyle.userActionMarkerBrush); painter.setPen(plotterStyle.userActionMarkerPen); painter.drawLine(QLineF(plotter->getInternalPlotBorderLeft(), mouseDragMarkers[0].pos.y(), image.width()-plotter->getInternalPlotBorderRight(), mouseDragMarkers[0].pos.y())); painter.drawLine(QLineF(mouseDragMarkers[0].pos.x(), plotter->getInternalPlotBorderTop(), mouseDragMarkers[0].pos.x(), image.height()-plotter->getInternalPlotBorderBottom())); } else if (getCurrentPlotterStyle().userActionMarkerType==jkqtpuamtCircleAndCrossHair) { painter.setBrush(plotterStyle.userActionMarkerBrush); painter.setPen(plotterStyle.userActionMarkerPen); painter.drawEllipse(QRectF(mouseDragMarkers[0].pos.x()-markerD/2, mouseDragMarkers[0].pos.y()-markerD/2, markerD, markerD)); painter.drawLine(QLineF(plotter->getInternalPlotBorderLeft(), mouseDragMarkers[0].pos.y(), mouseDragMarkers[0].pos.x()-markerD/2, mouseDragMarkers[0].pos.y())); painter.drawLine(QLineF(image.width()-plotter->getInternalPlotBorderRight(), mouseDragMarkers[0].pos.y(), mouseDragMarkers[0].pos.x()+markerD/2, mouseDragMarkers[0].pos.y())); painter.drawLine(QLineF(mouseDragMarkers[0].pos.x(), plotter->getInternalPlotBorderTop(), mouseDragMarkers[0].pos.x(), mouseDragMarkers[0].pos.y()-markerD/2)); painter.drawLine(QLineF(mouseDragMarkers[0].pos.x(), image.height()-plotter->getInternalPlotBorderBottom(), mouseDragMarkers[0].pos.x(), mouseDragMarkers[0].pos.y()+markerD/2)); } const int xoffset=qMax(markerD*3/2,16); const int x0=mouseDragMarkers[0].pos.x()+xoffset; QRectF rall(0,0,0,0); double y=mouseDragMarkers[0].pos.y(); QVector rects; QVector txts; QVector colors; const int txtoffset=4; double ascent=0,descent=0,strikeout=0,width=0; getPlotter()->getMathText()->setFontSize(plotterStyle.userActionFontSize); getPlotter()->getMathText()->setFontSpecial(plotterStyle.userActionFontName); for (auto& m: mouseDragMarkers) { QString txt="\\textcolor{"+jkqtp_QColor2String(m.color)+"}{"+m.title+": "+m.label+"}"; getPlotter()->getMathText()->parse(txt); getPlotter()->getMathText()->getSizeDetail(painter, width, ascent, descent, strikeout); double txtheight=ascent+descent; QRectF rec(x0+txtoffset, y, width+1, txtheight+1); if (rall.width()*rall.height()<=0) { rall=rec.toRect(); } else { rall.setBottom(rall.bottom()+txtheight+ascent/4); rall.setRight(qMax(rall.right(), rec.right())); } rects << rec; txts<image.width()) { rall.moveLeft(mouseDragMarkers[0].pos.x()-rall.width()-xoffset); for (auto& r: rects) { r.moveLeft(rall.left()+txtoffset); } } if (rall.bottom()>image.height()) { double oldY=rall.y(); rall.moveTop(image.height()-rall.height()); for (auto& r: rects) { r.moveTop(r.y()-(oldY-rall.y())); } } //qDebug()<<"rall="<getMathText()->parse(txts[i]); getPlotter()->getMathText()->draw(painter, Qt::AlignTop|Qt::AlignLeft, rects[i], getPlotter()->getCurrentPlotterStyle().debugShowTextBoxes); QStringList el=getPlotter()->getMathText()->getErrorList(); if (el.size()>0) { qDebug()<<"error parsing LaTeX string fo tooltip ("<p2x(event->pos().x()/magnification); mousePosY=plotter->p2y((event->pos().y()-getPlotYOffset())/magnification); update(); } if (plotterStyle.toolbarEnabled && (!plotterStyle.toolbarAlwaysOn) && (!toolbar->isVisible())) { // decide whether to display toolbar int y1=10; if (event->pos().y()/magnification>=0 && event->pos().y()/magnification<=y1) { toolbar->show(); toolbar->move(1,1); } } if (!plotterStyle.toolbarEnabled) { toolbar->hide(); } currentMouseMoveAction.clear(); if (currentMouseDragAction.isValid()) { if (( (currentMouseDragAction.mode==jkqtpmdaZoomByRectangle) || (currentMouseDragAction.mode==jkqtpmdaDrawRectangleForEvent) || (currentMouseDragAction.mode==jkqtpmdaDrawCircleForEvent) || (currentMouseDragAction.mode==jkqtpmdaDrawEllipseForEvent) || (currentMouseDragAction.mode==jkqtpmdaScribbleForEvents) || (currentMouseDragAction.mode==jkqtpmdaToolTipForClosestDataPoint) || (currentMouseDragAction.mode==jkqtpmdaRuler) || (currentMouseDragAction.mode==jkqtpmdaPanPlotOnMove) || (currentMouseDragAction.mode==jkqtpmdaPanPlotOnRelease) || (currentMouseDragAction.mode==jkqtpmdaDrawLineForEvent) ) && mouseDragingRectangle) { if (currentMouseDragAction.mode==jkqtpmdaScribbleForEvents || currentMouseDragAction.mode==jkqtpmdaPanPlotOnMove) { // start is last event position mouseDragRectXStart=mouseDragRectXEnd; mouseDragRectYStart=mouseDragRectYEnd; mouseDragRectXStartPixel=mouseDragRectXEndPixel; mouseDragRectYStartPixel=mouseDragRectYEndPixel; } mouseDragRectXEnd=plotter->p2x(event->pos().x()/magnification); mouseDragRectYEnd=plotter->p2y((event->pos().y()-getPlotYOffset())/magnification); mouseDragRectXEndPixel=event->pos().x(); mouseDragRectYEndPixel=event->pos().y(); if (currentMouseDragAction.mode==jkqtpmdaToolTipForClosestDataPoint) { fillInternalStructForToolTipOfClosestDataPoint(mouseDragRectXEnd, mouseDragRectYEnd); } if (currentMouseDragAction.mode==jkqtpmdaRuler) { emit rulerDisplayed(mouseDragRectXStart, mouseDragRectYStart, mouseDragRectXEnd, mouseDragRectYEnd, event->modifiers()); } paintUserAction(); event->accept(); //std::cout<correctXYRangeForAspectRatio(xmin,xmax,ymin,ymax); emit plotNewZoomRectangle(xmin,xmax,ymin,ymax, event->modifiers()); //emit plotNewZoomRectangle(mouseDragRectXStart, mouseDragRectXEnd, mouseDragRectYStart, mouseDragRectYEnd, event->modifiers()); } if ((currentMouseDragAction.mode==jkqtpmdaScribbleForEvents) && (jkqtp_approximatelyUnequal(mouseDragRectXStart,mouseDragRectXEnd) || jkqtp_approximatelyUnequal(mouseDragRectYStart,mouseDragRectYEnd)) ) { emit userScribbleClick(mouseDragRectXEnd, mouseDragRectYEnd, event->modifiers(), false, false); } if ((currentMouseDragAction.mode==jkqtpmdaPanPlotOnMove) && (jkqtp_approximatelyUnequal(mouseDragRectXStart,mouseDragRectXEnd) || jkqtp_approximatelyUnequal(mouseDragRectYStart,mouseDragRectYEnd)) ) { QRectF zoomRect= QRectF(QPointF(plotter->x2p(getXAxis()->getMin()),plotter->y2p(getYAxis()->getMax())), QPointF(plotter->x2p(getXAxis()->getMax()),plotter->y2p(getYAxis()->getMin()))); if ( (mouseLastClickX/magnificationgetInternalPlotBorderLeft()) || (mouseLastClickX/magnification>plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) ) { zoomRect.translate(0, mouseDragRectYStartPixel-mouseDragRectYEndPixel); } else if (((mouseLastClickY-getPlotYOffset())/magnificationgetInternalPlotBorderTop()) || ((mouseLastClickY-getPlotYOffset())/magnification>plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { zoomRect.translate(mouseDragRectXStartPixel-mouseDragRectXEndPixel, 0); } else { zoomRect.translate(mouseDragRectXStartPixel-mouseDragRectXEndPixel, mouseDragRectYStartPixel-mouseDragRectYEndPixel); } setXY(plotter->p2x(zoomRect.left()), plotter->p2x(zoomRect.right()), plotter->p2y(zoomRect.bottom()), plotter->p2y(zoomRect.top()), true); } } else { event->accept(); /*if (emitSignals)*/ //emit plotMouseMove(x, y); } } else if (event->buttons()==Qt::NoButton) { bool foundIT=false; auto actionIT=findMatchingMouseMoveAction(event->modifiers(), &foundIT); if (foundIT) { // we found a matching action currentMouseMoveAction.insert(actionIT.value()); if(actionIT.value()==jkqtpmmaToolTipForClosestDataPoint){ mouseDragRectXStart=plotter->p2x(event->pos().x()/magnification); mouseDragRectYStart=plotter->p2y((event->pos().y()-getPlotYOffset())/magnification); mouseDragRectXStartPixel=event->pos().x(); mouseDragRectYStartPixel=event->pos().y(); fillInternalStructForToolTipOfClosestDataPoint(plotter->p2x(event->pos().x()/magnification), plotter->p2y((event->pos().y()-getPlotYOffset())/magnification)); } paintUserAction(); } } // emit move signal, if event occured inside plot only if ( (event->pos().x()/magnification>=plotter->getInternalPlotBorderLeft()) && (event->pos().x()/magnification<=plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) && ((event->pos().y()-getPlotYOffset())/magnification>=plotter->getInternalPlotBorderTop()) && ((event->pos().y()-getPlotYOffset())/magnification<=plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { emit plotMouseMove(plotter->p2x(event->pos().x()/magnification), plotter->p2y((event->pos().y()-getPlotYOffset())/magnification)); } updateCursor(); } void JKQTPlotter::mousePressEvent ( QMouseEvent * event ){ currentMouseDragAction.clear(); mouseDragMarkers.clear(); bool foundIT=false; auto actionIT=findMatchingMouseDragAction(event->button(), event->modifiers(), &foundIT); if (foundIT) { // we found a matching action mouseLastClickX=event->pos().x(); mouseLastClickY=event->pos().y(); mouseDragRectXStart=plotter->p2x(event->pos().x()/magnification); mouseDragRectYStart=plotter->p2y((event->pos().y()-getPlotYOffset())/magnification); mouseDragRectXEndPixel=mouseDragRectXStartPixel=event->pos().x(); mouseDragRectYEndPixel=mouseDragRectYStartPixel=event->pos().y(); currentMouseDragAction=MouseDragAction(actionIT.key().first, actionIT.key().second, actionIT.value()); mouseDragingRectangle=true; oldImage=image; if (currentMouseDragAction.mode==jkqtpmdaScribbleForEvents) emit userScribbleClick(mouseDragRectXStart, mouseDragRectYStart, event->modifiers(), true, false); event->accept(); } else if (event->button()==Qt::RightButton && event->modifiers()==Qt::NoModifier && contextMenuMode!=jkqtpcmmNoContextMenu) { mouseLastClickX=event->pos().x(); mouseLastClickY=event->pos().y(); openContextMenu(event->pos().x(), event->pos().y()); event->accept(); } // emit clicked signal, if event occured inside plot only if ( (event->pos().x()/magnification>=plotter->getInternalPlotBorderLeft()) && (event->pos().x()/magnification<=plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) && ((event->pos().y()-getPlotYOffset())/magnification>=plotter->getInternalPlotBorderTop()) && ((event->pos().y()-getPlotYOffset())/magnification<=plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { emit plotMouseClicked(plotter->p2x(event->pos().x()/magnification), plotter->p2y((event->pos().y()-getPlotYOffset())/magnification), event->modifiers(), event->button()); event->accept(); } updateCursor(); if (foundIT && actionIT.value()==jkqtpmdaToolTipForClosestDataPoint) { fillInternalStructForToolTipOfClosestDataPoint(mouseDragRectXStart, mouseDragRectYStart); paintUserAction(); } } void JKQTPlotter::mouseReleaseEvent ( QMouseEvent * event ){ if ((event->flags()&Qt::MouseEventCreatedDoubleClick)==Qt::MouseEventCreatedDoubleClick) { return; } if (currentMouseDragAction.isValid()) { mouseDragRectXEnd=plotter->p2x(event->pos().x()/magnification); mouseDragRectYEnd=plotter->p2y((event->pos().y()-getPlotYOffset())/magnification); mouseDragRectXEndPixel=event->pos().x(); mouseDragRectYEndPixel=event->pos().y(); image=oldImage; //update(); mouseDragingRectangle=false; double x1=mouseDragRectXStart; double y1=mouseDragRectYStart; double x2=mouseDragRectXEnd; double y2=mouseDragRectYEnd; if (jkqtp_approximatelyUnequal(mouseDragRectXStart,mouseDragRectXEnd) && jkqtp_approximatelyUnequal(mouseDragRectYStart,mouseDragRectYEnd)) { if (currentMouseDragAction.mode==jkqtpmdaZoomByRectangle) { double xmin=mouseDragRectXStart; double xmax=mouseDragRectXEnd; double ymin=mouseDragRectYStart; double ymax=mouseDragRectYEnd; plotter->correctXYRangeForAspectRatio(xmin,xmax,ymin,ymax); emit zoomChangedLocally(xmin, xmax, ymin, ymax, this); plotter->setXY(xmin, xmax, ymin, ymax, true); } else if (currentMouseDragAction.mode==jkqtpmdaPanPlotOnRelease) { QRectF zoomRect= QRectF(QPointF(plotter->x2p(getXAxis()->getMin()),plotter->y2p(getYAxis()->getMax())), QPointF(plotter->x2p(getXAxis()->getMax()),plotter->y2p(getYAxis()->getMin()))); if ( (mouseLastClickX/magnificationgetInternalPlotBorderLeft()) || (mouseLastClickX/magnification>plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) ) { zoomRect.translate(0, mouseDragRectYStartPixel-mouseDragRectYEndPixel); } else if (((mouseLastClickY-getPlotYOffset())/magnificationgetInternalPlotBorderTop()) || ((mouseLastClickY-getPlotYOffset())/magnification>plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { zoomRect.translate(mouseDragRectXStartPixel-mouseDragRectXEndPixel, 0); } else { zoomRect.translate(mouseDragRectXStartPixel-mouseDragRectXEndPixel, mouseDragRectYStartPixel-mouseDragRectYEndPixel); } setXY(plotter->p2x(zoomRect.left()), plotter->p2x(zoomRect.right()), plotter->p2y(zoomRect.bottom()), plotter->p2y(zoomRect.top()), true); } else if (currentMouseDragAction.mode==jkqtpmdaDrawRectangleForEvent) { emit userRectangleFinished(x1, y1, x2-x1, y2-y1, event->modifiers()); } else if (currentMouseDragAction.mode==jkqtpmdaDrawCircleForEvent) { emit userCircleFinished(x1, y1, qMin(fabs(x2-x1), fabs(y2-y1)), event->modifiers()); } else if (currentMouseDragAction.mode==jkqtpmdaDrawEllipseForEvent) { emit userEllipseFinished(x1, y1, fabs(x2-x1), fabs(y2-y1), event->modifiers()); } else if (currentMouseDragAction.mode==jkqtpmdaDrawLineForEvent) { emit userLineFinished(x1, y1, x2, y2, event->modifiers()); } } if (currentMouseDragAction.mode!=jkqtpmdaZoomByRectangle && currentMouseDragAction.mode!=jkqtpmdaRuler && currentMouseDragAction.mode!=jkqtpmdaToolTipForClosestDataPoint) { update(); } if (currentMouseDragAction.mode==jkqtpmdaScribbleForEvents) { emit userScribbleClick(x1, y1, event->modifiers(), false, true); } event->accept(); } resetCurrentMouseDragAction(); } void JKQTPlotter::resetCurrentMouseDragAction () { mouseDragingRectangle=false; currentMouseDragAction.clear(); updateCursor(); } void JKQTPlotter::mouseDoubleClickEvent ( QMouseEvent * event ){ bool foundIT=false; JKQTPMouseDoubleClickActionsHashMapIterator itAction=findMatchingMouseDoubleClickAction(event->button(), event->modifiers(), &foundIT); if (foundIT) { // we found an action to perform on this double-click if (itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickOpensContextMenu) { openStandardContextMenu(event->pos().x(), event->pos().y()); } else if (itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickOpensSpecialContextMenu) { openSpecialContextMenu(event->pos().x(), event->pos().y()); } else if (itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickZoomsIn || itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickZoomsOut) { double factor=4.0; if (itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickZoomsOut) factor=1; double xmin=plotter->p2x(static_cast(event->pos().x())/magnification-static_cast(plotter->getPlotWidth())/factor); double xmax=plotter->p2x(static_cast(event->pos().x())/magnification+static_cast(plotter->getPlotWidth())/factor); double ymin=plotter->p2y(static_cast(event->pos().y())/magnification-static_cast(getPlotYOffset())+static_cast(plotter->getPlotHeight())/factor); double ymax=plotter->p2y(static_cast(event->pos().y())/magnification-static_cast(getPlotYOffset())-static_cast(plotter->getPlotHeight())/factor); if ( (event->pos().x()/magnificationgetInternalPlotBorderLeft()) || (event->pos().x()/magnification>plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) ) { xmin=getXMin(); xmax=getXMax(); } else if (((event->pos().y()-getPlotYOffset())/magnificationgetInternalPlotBorderTop()) || ((event->pos().y()-getPlotYOffset())/magnification>plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { ymin=getYMin(); ymax=getYMax(); } plotter->setXY(xmin, xmax, ymin, ymax, true); update(); } else if (itAction.value()==JKQTPMouseDoubleClickActions::jkqtpdcaClickMovesViewport) { QRectF zoomRect= QRectF(QPointF(plotter->x2p(getXAxis()->getMin()),plotter->y2p(getYAxis()->getMax())), QPointF(plotter->x2p(getXAxis()->getMax()),plotter->y2p(getYAxis()->getMin()))); if ( (event->pos().x()/magnificationgetInternalPlotBorderLeft()) || (event->pos().x()/magnification>plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) ) { zoomRect.moveCenter(QPointF(zoomRect.center().x(), event->pos().y())); } else if (((event->pos().y()-getPlotYOffset())/magnificationgetInternalPlotBorderTop()) || ((event->pos().y()-getPlotYOffset())/magnification>plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { zoomRect.moveCenter(QPointF(event->pos().x(), zoomRect.center().y())); } else { zoomRect.moveCenter(QPointF(event->pos().x(), event->pos().y())); } setXY(plotter->p2x(zoomRect.left()), plotter->p2x(zoomRect.right()), plotter->p2y(zoomRect.bottom()), plotter->p2y(zoomRect.top()), true); } } // only react on double clicks inside the widget if ( (event->pos().x()/magnification>=plotter->getInternalPlotBorderLeft()) && (event->pos().x()/magnification<=plotter->getPlotWidth()+plotter->getInternalPlotBorderLeft()) && ((event->pos().y()-getPlotYOffset())/magnification>=plotter->getInternalPlotBorderTop()) && ((event->pos().y()-getPlotYOffset())/magnification<=plotter->getPlotHeight()+plotter->getInternalPlotBorderTop()) ) { mouseLastClickX=event->pos().x(); mouseLastClickY=event->pos().y(); emit plotMouseDoubleClicked(plotter->p2x(event->pos().x()/magnification), plotter->p2y((event->pos().y()-getPlotYOffset())/magnification), event->modifiers(), event->button()); } event->accept(); updateCursor(); currentMouseDragAction.clear(); } void JKQTPlotter::keyReleaseEvent(QKeyEvent *event) { QWidget::keyPressEvent(event); if (event->key()==Qt::Key_Escape && event->modifiers()==Qt::NoModifier) { if (mouseDragingRectangle || currentMouseDragAction.isValid()) { mouseDragingRectangle=false; image=oldImage; currentMouseDragAction.clear(); update(); event->accept(); } } updateCursor(); } void JKQTPlotter::wheelEvent ( QWheelEvent * event ) { #if (QT_VERSION >= QT_VERSION_CHECK(5, 15, 0)) const double wheel_x=event->position().x(); const double wheel_y=event->position().y(); #else const double wheel_x=event->pos().x(); const double wheel_y=event->pos().y(); #endif const QPoint angleDelta=event->angleDelta(); QRectF zoomRect= QRectF(QPointF(plotter->x2p(getXAxis()->getMin()),plotter->y2p(getYAxis()->getMax())), QPointF(plotter->x2p(getXAxis()->getMax()),plotter->y2p(getYAxis()->getMin()))); #if (QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)) //qDebug()<<"wheelEvent: "<type()<<"["<deviceType()<<", "<device()->name()<<", "<device()->seatName()<<", "<device()->capabilities()<<", "<pointingDevice()->pointerType()<<", "<timestamp()<<"], "<phase()<<", "<modifiers()<<", "<pixelDelta()<<", "<inverted()<<", "<source()<<", "<buttons(); #else //qDebug()<<"wheelEvent: "<type()<<", "<timestamp()<<", "<phase()<<", "<modifiers()<<", "<pixelDelta()<<", "<inverted()<<", "<source()<<", "<buttons(); #endif bool foundIT=false; auto itAction=findMatchingMouseWheelAction(event->modifiers(), &foundIT); WheelActionType acTodo=WheelActionType::None; QPointF d(0,0); // for acPan, the shift of the ROI double factor=1; // for zooming, the zoom-factor if (foundIT) { if (itAction.value()==JKQTPMouseWheelActions::jkqtpmwaZoomByWheel) { acTodo=WheelActionType::Zoom; if (abs(angleDelta.y())>30 && angleDelta.x()==0) { factor=pow(2.0, 1.0*static_cast(angleDelta.y())/120.0); } else if (abs(angleDelta.x())>30 && angleDelta.y()==0) { factor=pow(2.0, 1.0*static_cast(angleDelta.x())/120.0); } } else if (itAction.value()==JKQTPMouseWheelActions::jkqtpmwaZoomByWheelAndTrackpadPan) { // this heuristics recognizes pan-gestures on a track-pad. // These are converted by Qt to wheelEvents with small angleDelta()-Values // typical angleDelta values are 120 (1/10 degree) or above, here we use 30 // to accomodate for finer resolved mouse-wheels // // unfortunately there is no other way to distinguish these cases, as Qt does not transport // the source of the QWheelEvent! const bool doPan=(abs(angleDelta.x())<30 && abs(angleDelta.y())<30); // in addition when the last wheelEvent was a pan-Event and the current is close in time (less than maxWheelEventSeriesTimestampDifference Milliseconds), // but now we classify a zoom-event we assume there was an acceleration in panning, that leads to angleDelta() larger than the // limit of 30 above ... in this we still force another PANNING! const bool forcePan=(!doPan && lastWheelActionType==WheelActionType::Pan && (event->timestamp()-lastWheelActionTimestamp)30 && angleDelta.x()==0) { factor=pow(2.0, 1.0*static_cast(angleDelta.y())/120.0); } else if (abs(angleDelta.x())>30 && angleDelta.y()==0) { factor=pow(2.0, 1.0*static_cast(angleDelta.x())/120.0); } } } else if (itAction.value()==JKQTPMouseWheelActions::jkqtpmwaPanByWheel) { acTodo=WheelActionType::Pan; d=QPointF(angleDelta.x()/120.0*zoomRect.width()/10.0, angleDelta.y()/120.0*zoomRect.height()/10.0); // maximum shoft is 100 Pixels in either direction d.setX(jkqtp_bounded(-100, d.x(), 100)); d.setY(jkqtp_bounded(-100, d.y(), 100)); // minimmum shift is 10 pixels, unles |shift|<1 if (d.x()>=1 && d.x()<10) d.setX(10); if (d.x()<=-1 && d.x()>-10) d.setX(-10); if (d.y()>=1 && d.y()<10) d.setY(10); if (d.y()<=-1 && d.y()>-10) d.setY(-10); } } //qDebug()<<" action: "<type()<<", "<isAccepted(); return QWidget::event(event); } int JKQTPlotter::getPlotYOffset() const { int plotYOffset=0; if (plotterStyle.displayMousePosition) { plotYOffset=plotYOffset+QFontMetrics(font()).height()+2; } if (plotterStyle.toolbarEnabled && plotterStyle.toolbarAlwaysOn) { plotYOffset=plotYOffset+toolbar->height(); } return plotYOffset; } void JKQTPlotter::initContextMenu() { resetContextMenu(true); contextMenu->addAction(plotter->getActionSaveData()); contextMenu->addAction(plotter->getActionSavePlot()); #ifndef JKQTPLOTTER_COMPILE_WITHOUT_PRINTSUPPORT contextMenu->addAction(plotter->getActionPrint()); #endif contextMenu->addSeparator(); contextMenu->addAction(plotter->getActionCopyPixelImage()); contextMenu->addAction(plotter->getActionCopyData()); contextMenu->addAction(plotter->getActionCopyMatlab()); contextMenu->addSeparator(); contextMenu->addAction(plotter->getActionShowPlotData()); contextMenu->addSection(tr("Zooming")); contextMenu->addAction(plotter->getActionZoomAll()); contextMenu->addAction(plotter->getActionZoomIn()); contextMenu->addAction(plotter->getActionZoomOut()); contextMenu->addSeparator(); contextMenu->addAction(actMouseMoveToolTip); contextMenu->addSection(tr("left mouse button tool")); contextMenu->addAction(actMouseLeftAsDefault); contextMenu->addAction(actMouseLeftAsPanView); contextMenu->addAction(actMouseLeftAsZoomRect); contextMenu->addAction(actMouseLeftAsRuler); contextMenu->addSeparator(); QMenu* menVisibleGroup=new QMenu(tr("Graph Visibility"), contextMenu); for (size_t i=0; igetGraphCount(); i++) { QString tit=getPlotter()->getGraph(i)->getTitle(); if (tit.isEmpty()) tit=tr("Graph %1").arg(static_cast(i)); QAction* act=new QAction(tit, menVisibleGroup); act->setCheckable(true); act->setChecked(getPlotter()->getGraph(i)->isVisible()); const qreal dpr = devicePixelRatioF(); QPixmap pix=QPixmap::fromImage(getPlotter()->getGraph(i)->generateKeyMarker(QSize(16,16)*dpr)); pix.setDevicePixelRatio(dpr); act->setIcon(QIcon(pix)); act->setData(static_cast(i)); connect(act, SIGNAL(toggled(bool)), this, SLOT(reactGraphVisible(bool))); menVisibleGroup->addAction(act); } contextMenu->addMenu(menVisibleGroup); if (actions().size()>0) { contextMenu->addSeparator(); contextMenu->addActions(actions()); } bool hasSep=false; JKQTBasePlotter::AdditionalActionsMap lst=getPlotter()->getLstAdditionalPlotterActions(); JKQTBasePlotter::AdditionalActionsMapIterator it(lst); while (it.hasNext()) { it.next(); if (it.value().size()>0) { bool hasMenu=false; for (int i=0; iaddSeparator(); hasSep=true; } hasMenu=true; } contextSubMenus.last()->addAction(it.value().at(i)); } } if (hasMenu) { contextMenu->addMenu(contextSubMenus.last()); } } } modifyContextMenu(contextMenu); } void JKQTPlotter::updateCursor() { if (!currentMouseDragAction.isValid()) { if (currentMouseMoveAction.contains(jkqtpmmaToolTipForClosestDataPoint)) { setCursor(QCursor(Qt::CrossCursor)); } else { setCursor(QCursor(Qt::ArrowCursor)); } } else { if (currentMouseDragAction.mode==jkqtpmdaZoomByRectangle) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_zoom.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_zoom_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawRectangleForEvent) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_rectangle.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_rectangle_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaPanPlotOnMove || currentMouseDragAction.mode==jkqtpmdaPanPlotOnRelease) { setCursor(QCursor(Qt::ClosedHandCursor)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawCircleForEvent) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_circle.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_circle_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawEllipseForEvent) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_ellipse.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_ellipse_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaDrawLineForEvent) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_line.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_line_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaScribbleForEvents) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_scribble.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_scribble_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else if (currentMouseDragAction.mode==jkqtpmdaToolTipForClosestDataPoint) { setCursor(QCursor(Qt::CrossCursor)); } else if (currentMouseDragAction.mode==jkqtpmdaRuler) { static QBitmap cursor(":/JKQTPlotter/jkqtp_cursor_line.png"); static QBitmap mask(":/JKQTPlotter/jkqtp_cursor_line_mask.png"); setCursor(QCursor(cursor, mask, 9, 14)); } else { setCursor(QCursor(Qt::ArrowCursor)); } } } void JKQTPlotter::synchronizeXAxis(double newxmin, double newxmax, double /*newymin*/, double /*newymax*/, JKQTPlotter * /*sender*/) { setX(newxmin, newxmax); } void JKQTPlotter::synchronizeYAxis(double /*newxmin*/, double /*newxmax*/, double newymin, double newymax, JKQTPlotter * /*sender*/) { setY(newymin, newymax); } void JKQTPlotter::synchronizeXYAxis(double newxmin, double newxmax, double newymin, double newymax, JKQTPlotter * /*sender*/) { setXY(newxmin, newxmax, newymin, newymax); } void JKQTPlotter::redrawPlot() { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot(QString("JKQTPlotter::redrawPlot()")); #endif if (!doDrawing) return; disconnect(plotter, SIGNAL(plotUpdated()), this, SLOT(redrawPlot())); plotter->setWidgetSize(jkqtp_roundTo(width()/magnification), jkqtp_roundTo(height()/magnification-getPlotYOffset())); JKQTPEnhancedPainter painter(&image); if (painter.isActive()) { painter.scale(magnification, magnification); //QTime t; //t.start(); plotter->drawNonGrid(painter, QPoint(0,0));//, QRect(QPoint(0,0), QSize(plotter->getPlotWidth(), plotter->getPlotHeight()))); //qDebug()<<"drawNonGrid"<isActive()) { //std::cout<<"getPlotYOffset()="<save(); p->setBrush(palette().brush(QPalette::Window)); p->setPen(palette().color(QPalette::Window)); p->drawRect(geometry()); p->restore(); if (plotterStyle.displayMousePosition ) { p->drawText(QPointF(plotter->getInternalPlotBorderLeft(), getPlotYOffset()-1), plotterStyle.mousePositionTemplate.arg(mousePosX).arg(mousePosY)); } const QSize plotImageSize=getImageBufferSize(); if (image.size() != plotImageSize) { p->drawPixmap(QRect(QPoint(0, getPlotYOffset()), plotImageSize), image); } else { p->drawPixmap(QPoint(0, getPlotYOffset()), image); } } delete p; event->accept(); } void JKQTPlotter::resizeEvent(QResizeEvent *event) { #ifdef JKQTBP_AUTOTIMER JKQTPAutoOutputTimer jkaaot(QString("JKQTPlotter::resizeEvent()")); #endif //qDebug()<<"resizeEvent old="<hide(); } void JKQTPlotter::updateToolbar() { toolbar->setIconSize(QSize(plotterStyle.toolbarIconSize, plotterStyle.toolbarIconSize)); if (plotterStyle.toolbarEnabled) { if (plotterStyle.toolbarAlwaysOn) { toolbar->setToolbarVanishesEnabled(false); toolbar->show(); toolbar->move(1,1); } else { toolbar->setToolbarVanishesEnabled(true); } } else { toolbar->hide(); } update(); } QSize JKQTPlotter::minimumSizeHint() const { QSize m=QWidget::minimumSizeHint(); if (minSize.width()>m.width()) m.setWidth(minSize.width()); if (minSize.height()>m.height()) m.setHeight(minSize.height()); return m; } QSize JKQTPlotter::sizeHint() const { return QWidget::sizeHint(); } bool JKQTPlotter::isResizeTimerRunning() const { return resizeTimer.isActive(); } void JKQTPlotter::synchronizeToMaster(JKQTPlotter *master, JKQTBasePlotter::SynchronizationDirection synchronizeDirection, bool synchronizeAxisLength, bool synchronizeZoomingMasterToSlave, bool synchronizeZoomingSlaveToMaster) { if (masterPlotterX) disconnect(masterPlotterX->getPlotter(), SIGNAL(plotScalingRecalculated()), this, SLOT(masterPlotScalingRecalculated())); if (masterPlotterY) disconnect(masterPlotterY->getPlotter(), SIGNAL(plotScalingRecalculated()), this, SLOT(masterPlotScalingRecalculated())); if (master) plotter->synchronizeToMaster(master->getPlotter(), synchronizeDirection, synchronizeAxisLength, synchronizeZoomingMasterToSlave, synchronizeZoomingSlaveToMaster); if (synchronizeDirection==JKQTBasePlotter::sdXAxis || synchronizeDirection==JKQTBasePlotter::sdXYAxes) { masterPlotterX=master; if (masterPlotterX) connect(masterPlotterX->getPlotter(), SIGNAL(plotScalingRecalculated()), this, SLOT(masterPlotScalingRecalculated())); } if (synchronizeDirection==JKQTBasePlotter::sdYAxis || synchronizeDirection==JKQTBasePlotter::sdXYAxes) { masterPlotterY=master; if (masterPlotterY) connect(masterPlotterY->getPlotter(), SIGNAL(plotScalingRecalculated()), this, SLOT(masterPlotScalingRecalculated())); } redrawPlot(); } void JKQTPlotter::synchronizeXToMaster(JKQTPlotter *master, bool synchronizeAxisLength, bool synchronizeZoomingMasterToSlave, bool synchronizeZoomingSlaveToMaster) { synchronizeToMaster(master, JKQTBasePlotter::sdXAxis, synchronizeAxisLength, synchronizeZoomingMasterToSlave, synchronizeZoomingSlaveToMaster); } void JKQTPlotter::synchronizeYToMaster(JKQTPlotter *master, bool synchronizeAxisLength, bool synchronizeZoomingMasterToSlave, bool synchronizeZoomingSlaveToMaster) { synchronizeToMaster(master, JKQTBasePlotter::sdYAxis, synchronizeAxisLength, synchronizeZoomingMasterToSlave, synchronizeZoomingSlaveToMaster); } void JKQTPlotter::resetMasterSynchronization(JKQTBasePlotter::SynchronizationDirection synchronizeDirection) { synchronizeToMaster(nullptr, synchronizeDirection, false, false, false); } void JKQTPlotter::masterPlotScalingRecalculated() { //qDebug()<<"this="< masterPlotScalingRecalculated()"; redrawPlot(); } void JKQTPlotter::setGridPrinting(bool enabled) { plotter->setGridPrinting(enabled); } void JKQTPlotter::addGridPrintingPlotter(size_t x, size_t y, JKQTPlotter *plotterOther) { plotter->addGridPrintingPlotter(x,y,plotterOther->getPlotter()); } void JKQTPlotter::clearGridPrintingPlotters() { plotter->clearGridPrintingPlotters(); } void JKQTPlotter::setGridPrintingCurrentX(size_t x) { plotter->setGridPrintingCurrentX(x); } void JKQTPlotter::setGridPrintingCurrentY(size_t y) { plotter->setGridPrintingCurrentY(y); } void JKQTPlotter::setGridPrintingCurrentPos(size_t x, size_t y) { plotter->setGridPrintingCurrentPos(x,y); } bool JKQTPlotter::isPlotUpdateEnabled() const { return doDrawing; } void JKQTPlotter::pzoomChangedLocally(double newxmin, double newxmax, double newymin, double newymax, JKQTBasePlotter* /*sender*/) { emit zoomChangedLocally(newxmin, newxmax, newymin, newymax, this); minSize=QSizeF(plotter->getInternalPlotBorderLeft()+plotter->getInternalPlotBorderRight()+10, plotter->getInternalPlotBorderTop()+plotter->getInternalPlotBorderBottom()+10).toSize(); } void JKQTPlotter::intBeforePlotScalingRecalculate() { emit beforePlotScalingRecalculate(); } void JKQTPlotter::reactGraphVisible(bool visible) { QAction* act=dynamic_cast(sender()); if (act) { getPlotter()->setGraphVisible(act->data().toInt(), visible); } } void JKQTPlotter::setMouseLeftActionAsPanView() { setOverrideMouseDragAction(Qt::LeftButton, Qt::NoModifier, JKQTPMouseDragActions::jkqtpmdaPanPlotOnMove); } void JKQTPlotter::setMouseLeftActionAsZoomRect() { setOverrideMouseDragAction(Qt::LeftButton, Qt::NoModifier, JKQTPMouseDragActions::jkqtpmdaZoomByRectangle); } void JKQTPlotter::setMouseLeftActionAsRuler() { setOverrideMouseDragAction(Qt::LeftButton, Qt::NoModifier, JKQTPMouseDragActions::jkqtpmdaRuler); } void JKQTPlotter::setMouseLeftDragActionAsToolTip() { setOverrideMouseDragAction(Qt::LeftButton, Qt::NoModifier, JKQTPMouseDragActions::jkqtpmdaToolTipForClosestDataPoint); } void JKQTPlotter::resetMouseLeftAction() { resetOverrideMouseDragAction(Qt::LeftButton, Qt::NoModifier); } void JKQTPlotter::setMouseMoveActionAsToolTip(bool enabled) { if (enabled) { registerMouseMoveAction(Qt::NoModifier, JKQTPMouseMoveActions::jkqtpmmaToolTipForClosestDataPoint); } else { deregisterMouseMoveAction(Qt::NoModifier); } } void JKQTPlotter::setMouseActionToolbarActionsActive(bool __value) { actgrpMouseLeft->setVisible(__value); actMouseMoveToolTip->setVisible(__value); } QAction* JKQTPlotter::getActMouseLeftAsDefault() { return actMouseLeftAsDefault; } QAction *JKQTPlotter::getActMouseLeftAsZoomRect() { return actMouseLeftAsZoomRect; } QAction *JKQTPlotter::getActMouseLeftAsPanView() { return actMouseLeftAsPanView; } QAction* JKQTPlotter::getActMouseLeftAsRuler() { return actMouseLeftAsRuler; } const QAction* JKQTPlotter::getActMouseLeftAsDefault() const { return actMouseLeftAsDefault; } const QAction *JKQTPlotter::getActMouseLeftAsZoomRect() const { return actMouseLeftAsZoomRect; } const QAction *JKQTPlotter::getActMouseLeftAsPanView() const { return actMouseLeftAsPanView; } const QAction* JKQTPlotter::getActMouseLeftAsRuler() const { return actMouseLeftAsRuler; } const QAction* JKQTPlotter::getActMouseMoveToolTip() const { return actMouseMoveToolTip; } QAction* JKQTPlotter::getActMouseMoveToolTip() { return actMouseMoveToolTip; } void JKQTPlotter::setOverrideMouseDragAction(Qt::MouseButton button, Qt::KeyboardModifiers modifier, JKQTPMouseDragActions action) { registeredOverrideMouseDragActionModes.insert(QPair(button, modifier), action); } void JKQTPlotter::resetOverrideMouseDragAction(Qt::MouseButton button, Qt::KeyboardModifiers modifier) { registeredOverrideMouseDragActionModes.remove(QPair(button, modifier)); } void JKQTPlotter::setContextMenuMode(JKQTPContextMenuModes mode) { contextMenuMode=mode; } QMenu *JKQTPlotter::getSpecialContextMenu() const { return this->menuSpecialContextMenu; } void JKQTPlotter::setSpecialContextMenu(QMenu *menu) { menuSpecialContextMenu=menu; if (menuSpecialContextMenu) { menuSpecialContextMenu->setParent(this); menuSpecialContextMenu->close(); } } double JKQTPlotter::getMouseContextX() const { return this->mouseContextX; } double JKQTPlotter::getMouseContextY() const { return this->mouseContextY; } int JKQTPlotter::getMouseLastClickX() const { return this->mouseLastClickX; } int JKQTPlotter::getMouseLastClickY() const { return this->mouseLastClickY; } JKQTPContextMenuModes JKQTPlotter::getContextMenuMode() const { return contextMenuMode; } const JKQTPlotterStyle &JKQTPlotter::getCurrentPlotterStyle() const { return plotterStyle; } void JKQTPlotter::setCurrentPlotterStyle(const JKQTPlotterStyle &style) { plotterStyle=style; updateToolbar(); redrawPlot(); } void JKQTPlotter::setCurrentPlotterStyle(const JKQTPlotterStyle &style, const JKQTBasePlotterStyle &baseStyle) { plotterStyle=style; plotter->setCurrentPlotterStyle(baseStyle); updateToolbar(); redrawPlot(); } void JKQTPlotter::loadCurrentPlotterStyle(const QSettings &settings, const QString &group, bool alsoLoadBaseStyle) { plotterStyle.loadSettings(settings, group); if (alsoLoadBaseStyle) plotter->loadCurrentPlotterStyle(settings, group); updateToolbar(); redrawPlot(); } void JKQTPlotter::saveCurrentPlotterStyle(QSettings &settings, const QString &group, bool alsoSaveBaseStyle) const { plotterStyle.saveSettings(settings, group); if (alsoSaveBaseStyle) plotter->saveCurrentPlotterStyle(settings, group); } void JKQTPlotter::setMagnification(double m) { magnification=m; redrawPlot(); } void JKQTPlotter::modifyContextMenu(QMenu * /*menu*/) { } void JKQTPlotter::populateToolbar(QToolBar *toolbar) const { toolbar->addAction(plotter->getActionSaveData()); toolbar->addAction(plotter->getActionSavePlot()); #ifndef JKQTPLOTTER_COMPILE_WITHOUT_PRINTSUPPORT toolbar->addAction(plotter->getActionPrint()); #endif toolbar->addSeparator(); toolbar->addAction(plotter->getActionCopyPixelImage()); toolbar->addAction(plotter->getActionCopyData()); toolbar->addAction(plotter->getActionCopyMatlab()); toolbar->addSeparator(); toolbar->addAction(plotter->getActionShowPlotData()); toolbar->addSeparator(); toolbar->addAction(plotter->getActionZoomAll()); toolbar->addAction(plotter->getActionZoomIn()); toolbar->addAction(plotter->getActionZoomOut()); toolbar->addSeparator(); toolbar->addAction(actMouseMoveToolTip); toolbar->addSeparator(); toolbar->addAction(actMouseLeftAsDefault); toolbar->addAction(actMouseLeftAsPanView); toolbar->addAction(actMouseLeftAsZoomRect); toolbar->addAction(actMouseLeftAsRuler); if (actions().size()>0) { toolbar->addSeparator(); toolbar->addActions(actions()); } } void JKQTPlotter::openContextMenu() { openContextMenu(mouseLastClickX, mouseLastClickY); } void JKQTPlotter::openContextMenu(int x, int y) { if (contextMenuMode==JKQTPContextMenuModes::jkqtpcmmStandardContextMenu) { openStandardContextMenu(x,y); } else if (contextMenuMode==JKQTPContextMenuModes::jkqtpcmmSpecialContextMenu) { openSpecialContextMenu(x,y); } else if (contextMenuMode==JKQTPContextMenuModes::jkqtpcmmStandardAndSpecialContextMenu) { openStandardAndSpecialContextMenu(x,y); } } void JKQTPlotter::openStandardContextMenu() { openStandardContextMenu(mouseLastClickX, mouseLastClickY); } void JKQTPlotter::resetContextMenu(bool createnew) { if (contextMenu) { contextMenu->close(); contextMenu->clear(); qDeleteAll(contextSubMenus); contextSubMenus.clear(); delete contextMenu; } if (createnew) { contextMenu=new QMenu(this); } else { contextMenu=nullptr; } } void JKQTPlotter::openStandardContextMenu(int x, int y) { //qDebug()<<"openContextMenu("<p2x(x/magnification); mouseContextY=plotter->p2y((y-getPlotYOffset())/magnification); initContextMenu(); contextMenu->popup(mapToGlobal(QPoint(x,y))); //qDebug()<<" -> "<size()<pos()<parent(); emit contextMenuOpened(mouseContextX, mouseContextY, contextMenu); //qDebug()<<"openContextMenu("<p2x(x/magnification); mouseContextY=plotter->p2y((y-getPlotYOffset())/magnification); menuSpecialContextMenu->close(); menuSpecialContextMenu->popup(mapToGlobal(QPoint(x,y))); menuSpecialContextMenu->resize(menuSpecialContextMenu->sizeHint()); //qDebug()<<" -> "<size()<pos()<parent(); emit contextMenuOpened(mouseContextX, mouseContextY, menuSpecialContextMenu); //qDebug()<<"openSpecialContextMenu("<p2x(x/magnification); mouseContextY=plotter->p2y((y-getPlotYOffset())/magnification); initContextMenu(); if (menuSpecialContextMenu) { contextMenu->addSeparator(); for (QAction* act: menuSpecialContextMenu->actions()) { contextMenu->addAction(act); } } contextMenu->popup(mapToGlobal(QPoint(x,y))); //qDebug()<<" -> "<size()<pos()<parent(); emit contextMenuOpened(mouseContextX, mouseContextY, contextMenu); //qDebug()<<"openContextMenu("<(button, modifiers)) { if (found) *found=true; return it; } ++it; } it=plotterStyle.registeredMouseDragActionModes.cbegin(); while (it!=plotterStyle.registeredMouseDragActionModes.cend() ) { if (it.key()==QPair(button, modifiers)) { if (found) *found=true; return it; } ++it; } return plotterStyle.registeredMouseDragActionModes.cend(); } JKQTPMouseDoubleClickActionsHashMapIterator JKQTPlotter::findMatchingMouseDoubleClickAction(Qt::MouseButton button, Qt::KeyboardModifiers modifiers, bool*found) const { if (found) *found=false; for (JKQTPMouseDoubleClickActionsHashMapIterator it=plotterStyle.registeredMouseDoubleClickActions.cbegin(); it!=plotterStyle.registeredMouseDoubleClickActions.cend(); ++it) { if (it.key()==QPair(button, modifiers)) { if (found) *found=true; return it; } } return plotterStyle.registeredMouseDoubleClickActions.cend(); } JKQTPMouseWheelActionsHashMapIterator JKQTPlotter::findMatchingMouseWheelAction(Qt::KeyboardModifiers modifiers, bool *found) const { if (found) *found=false; for (JKQTPMouseWheelActionsHashMapIterator it=plotterStyle.registeredMouseWheelActions.begin(); it!=plotterStyle.registeredMouseWheelActions.end(); ++it) { if (it.key()==modifiers) { if (found) *found=true; return it; } } return plotterStyle.registeredMouseWheelActions.end(); //return plotterStyle.registeredMouseWheelActions.find(modifiers); } JKQTPMouseMoveActionsHashMapIterator JKQTPlotter::findMatchingMouseMoveAction(Qt::KeyboardModifiers modifiers, bool *found) const { if (found) *found=false; for (JKQTPMouseMoveActionsHashMapIterator it=plotterStyle.registeredMouseMoveActions.begin(); it!=plotterStyle.registeredMouseMoveActions.end(); ++it) { if (it.key()==modifiers) { if (found) *found=true; return it; } } return plotterStyle.registeredMouseMoveActions.end(); //return plotterStyle.registeredMouseMoveActions.find(modifiers); } void JKQTPlotter::setPlotUpdateEnabled(bool enable) { doDrawing=enable; plotter->setEmittingSignalsEnabled(enable); //qDebug()<