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JKQtPlotter/lib/jkqtplotter/graphs/jkqtpvectorfield.cpp

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/*
Copyright (c) 2008-2024 Jan W. Krieger (<jan@jkrieger.de>)
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 <http://www.gnu.org/licenses/>.
*/
#include "jkqtplotter/graphs/jkqtpvectorfield.h"
#include "jkqtplotter/jkqtpbaseplotter.h"
#include "jkqtplotter/jkqtplotter.h"
#include <QDebug>
#include <QDateTime>
#include "jkqtcommon/jkqtpdrawingtools.h"
#include "jkqtplotter/jkqtptools.h"
#define SmallestGreaterZeroCompare_xvsgz() if ((xvsgz>10.0*DBL_MIN)&&((smallestGreaterZero<10.0*DBL_MIN) || (xvsgz<smallestGreaterZero))) smallestGreaterZero=xvsgz;
JKQTPVectorFieldGraph::JKQTPVectorFieldGraph(JKQTBasePlotter *parent):
JKQTPXYAndVectorGraph(parent),
m_autoscaleLength(true),
m_autoscaleLengthFactor(0.9),
m_lengthScaleFactor(1),
m_anchorPoint(AnchorBottom)
{
initDecoratedLineStyle(parent, parentPlotStyle, JKQTPPlotStyleType::Default);
setTailDecoratorStyle(JKQTPNoDecorator);
setHeadDecoratorStyle(JKQTPFilledArrow);
setHeadDecoratorSizeFactor(getHeadDecoratorSizeFactor()/1.6);
setTailDecoratorSizeFactor(getTailDecoratorSizeFactor()/1.6);
}
JKQTPVectorFieldGraph::JKQTPVectorFieldGraph(JKQTPlotter *parent):
JKQTPVectorFieldGraph(parent->getPlotter())
{
}
void JKQTPVectorFieldGraph::draw(JKQTPEnhancedPainter &painter)
{
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaaot("JKQTPVectorFieldGraph::draw");
#endif
if (parent==nullptr) return;
const JKQTPDatastore* datastore=parent->getDatastore();
if (datastore==nullptr) return;
drawErrorsBefore(painter);
{
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
const QPen p=getLinePen(painter, parent);
painter.setPen(p);
painter.setBrush(p.color());
int imax=0;
int imin=0;
double scale=1;
if (getIndexRange(imin, imax)) {
// first determine (auto-scale) factor
if (m_autoscaleLength) {
double avgVecLength=0;
double NDatapoints=0;
double xmin=0, xmax=0,ymin=0,ymax=0;
for (int iii=imin; iii<imax; iii++) {
const int i=qBound(imin, getDataIndex(iii), imax);
const double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
const double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
const QPointF vecv=getVectorDxDy(i);
if (JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(yv) && JKQTPIsOKFloat(vecv)) {
avgVecLength+=sqrt(jkqtp_sqr(vecv.x())+jkqtp_sqr(vecv.y()));
if (NDatapoints==0) {
xmin=xmax=xv;
ymin=ymax=yv;
} else {
xmin=qMin(xmin,xv);
xmax=qMax(xmax,xv);
ymin=qMin(ymin,yv);
ymax=qMax(ymax,yv);
}
NDatapoints++;
}
}
avgVecLength/=NDatapoints;
const double plotsize=qMax(fabs(xmax-xmin),fabs(ymax-ymin));
const double aproxNPerSide=sqrt(NDatapoints);
scale=plotsize/aproxNPerSide/avgVecLength*m_autoscaleLengthFactor;
} else {
scale=m_lengthScaleFactor;
}
// now draw
for (int iii=imin; iii<imax; iii++) {
const int i=qBound(imin, getDataIndex(iii), imax);
const double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
const double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
const double x=transformX(xv);
const double y=transformY(yv);
const QPointF vecv=getVectorDxDy(i);
const QLineF l=[&]() {
switch (m_anchorPoint) {
case AnchorBottom: return QLineF(x,y,transformX(xv+scale*vecv.x()),transformY(yv+scale*vecv.y()));
case AnchorMid: return QLineF(transformX(xv-0.5*scale*vecv.x()),transformY(yv-0.5*scale*vecv.y()),transformX(xv+0.5*scale*vecv.x()),transformY(yv+0.5*scale*vecv.y()));
case AnchorTip: return QLineF(transformX(xv-scale*vecv.x()),transformY(yv-scale*vecv.y()), x,y);
}
return QLineF(JKQTP_NAN,JKQTP_NAN,JKQTP_NAN,JKQTP_NAN);
}();
if (JKQTPIsOKFloat(l)) {
JKQTPPlotDecoratedLine(painter,l, getTailDecoratorStyle(), calcTailDecoratorSize(p.widthF()), getHeadDecoratorStyle(), calcHeadDecoratorSize(p.widthF()));
}
}
}
}
drawErrorsAfter(painter);
}
void JKQTPVectorFieldGraph::drawKeyMarker(JKQTPEnhancedPainter &painter, const QRectF &rect)
{
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
const QPen p=getKeyLinePen(painter, rect, parent);
painter.setPen(p);
painter.setBrush(p.color());
const QLineF l(rect.left(), rect.bottom(), rect.right(), rect.top());
JKQTPPlotDecoratedLine(painter,l, getTailDecoratorStyle(), calcTailDecoratorSize(p.widthF()), getHeadDecoratorStyle(), calcHeadDecoratorSize(p.widthF()));
}
QColor JKQTPVectorFieldGraph::getKeyLabelColor() const
{
return getLineColor();
}
bool JKQTPVectorFieldGraph::getAutoscaleLength() const
{
return m_autoscaleLength;
}
void JKQTPVectorFieldGraph::setAutoscaleLength(bool newAutoscaleLength)
{
m_autoscaleLength = newAutoscaleLength;
}
double JKQTPVectorFieldGraph::getAutoscaleLengthFactor() const
{
return m_autoscaleLengthFactor;
}
void JKQTPVectorFieldGraph::setAutoscaleLengthFactor(double newAutoscaleLengthFactor)
{
m_autoscaleLengthFactor=newAutoscaleLengthFactor;
}
double JKQTPVectorFieldGraph::getLengthScaleFactor() const
{
return m_lengthScaleFactor;
}
void JKQTPVectorFieldGraph::setLengthScaleFactor(double newLengthScaleFactor)
{
m_lengthScaleFactor = newLengthScaleFactor;
}
JKQTPVectorFieldGraph::VectorAnchorPoint JKQTPVectorFieldGraph::getAnchorPoint() const
{
return m_anchorPoint;
}
void JKQTPVectorFieldGraph::setAnchorPoint(VectorAnchorPoint newAnchorPoint)
{
m_anchorPoint = newAnchorPoint;
}
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