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JKQtPlotter/lib/jkqtplotter/jkqtpbarchartelements.cpp

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- added stackable barcharts, incl. simple test program - organized barcharts into hor/ver that can in addition EITHER be stackable, or with error indicators - reorganized graphs (split jkqtpelements.h/.cpp into several files)
2018-11-25 21:53:26 +08:00
/*
Copyright (c) 2008-2018 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 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/>.
*/
reorganized library files into lib-subdirectory and modified tests, doc, ... accordingly
2018-11-26 03:25:44 +08:00
#include "jkqtplotter/jkqtpbarchartelements.h"
#include "jkqtplotter/jkqtpbaseplotter.h"
- added stackable barcharts, incl. simple test program - organized barcharts into hor/ver that can in addition EITHER be stackable, or with error indicators - reorganized graphs (split jkqtpelements.h/.cpp into several files)
2018-11-25 21:53:26 +08:00
#include <stdlib.h>
#include <QDebug>
#include <iostream>
reorganized library files into lib-subdirectory and modified tests, doc, ... accordingly
2018-11-26 03:25:44 +08:00
#include "jkqtplottertools/jkqtptools.h"
#include "jkqtplotter/jkqtpimageelements.h"
#include "jkqtplotter/jkqtpbaseelements.h"
#include "jkqtplotter/jkqtplotter.h"
- added stackable barcharts, incl. simple test program - organized barcharts into hor/ver that can in addition EITHER be stackable, or with error indicators - reorganized graphs (split jkqtpelements.h/.cpp into several files)
2018-11-25 21:53:26 +08:00
#define SmallestGreaterZeroCompare_xvsgz() if ((xvsgz>10.0*DBL_MIN)&&((smallestGreaterZero<10.0*DBL_MIN) || (xvsgz<smallestGreaterZero))) smallestGreaterZero=xvsgz;
JKQTPbarVerticalGraph::JKQTPbarVerticalGraph(JKQtBasePlotter* parent):
JKQTPxyGraph(parent)
{
baseline=0.0;
color=QColor("black");
fillColor=QColor("red");
style=Qt::SolidLine;
lineWidth=1;
fillStyle=Qt::SolidPattern;
width=0.9;
shift=0;
if (parent) { // get style settings from parent object
parentPlotStyle=parent->getNextStyle();
fillColor=parent->getPlotStyle(parentPlotStyle).color();
}
}
JKQTPbarVerticalGraph::JKQTPbarVerticalGraph(JKQtPlotter* parent):
JKQTPxyGraph(parent)
{
baseline=0.0;
color=QColor("black");
fillColor=QColor("red");
style=Qt::SolidLine;
lineWidth=1;
fillStyle=Qt::SolidPattern;
width=0.9;
shift=0;
if (parent) { // get style settings from parent object
parentPlotStyle=parent->getNextStyle();
fillColor=parent->getPlotStyle(parentPlotStyle).color();
}
}
void JKQTPbarVerticalGraph::drawKeyMarker(JKQTPEnhancedPainter& painter, QRectF& rect) {
painter.save();
QPen p=painter.pen();
QPen np(Qt::NoPen);
p.setColor(color);
p.setStyle(style);
QBrush b=painter.brush();
b.setColor(fillColor);
b.setStyle(fillStyle);
//int y=rect.top()+rect.height()/2.0;
painter.setPen(p);
painter.setBrush(b);
painter.drawRect(rect);
painter.restore();
}
QColor JKQTPbarVerticalGraph::getKeyLabelColor() {
return fillColor;
}
void JKQTPbarVerticalGraph::draw(JKQTPEnhancedPainter& painter) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaaot("JKQTPbarHorizontalGraph::draw");
#endif
if (parent==nullptr) return;
JKQTPdatastore* datastore=parent->getDatastore();
if (datastore==nullptr) return;
drawErrorsBefore(painter);
QPen p=painter.pen();
p.setColor(color);
p.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, lineWidth*parent->get_lineWidthMultiplier())));
p.setStyle(style);
p.setJoinStyle(Qt::RoundJoin);
QBrush b=painter.brush();
b.setColor(fillColor);
b.setStyle(fillStyle);
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
int imin=0;
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end+1, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
painter.save();
// double x0=xAxis->x2p(0);
// if (parent->getXAxis()->isLogAxis()) x0=xAxis->x2p(parent->getXAxis()->getMin());
double y0=yAxis->x2p(0);
if (parent->getYAxis()->isLogAxis()) y0=yAxis->x2p(parent->getYAxis()->getMin());
double delta=1;
double deltap=0;
double deltam=0;
intSortData();
const bool hasStackPar=hasStackParent();
for (int iii=imin; iii<imax; iii++) {
int i=qBound(imin, getDataIndex(iii), imax);
double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
long long sr=datastore->getNextLowerIndex(xColumn, i, datarange_start, datarange_end);
long long lr=datastore->getNextHigherIndex(xColumn, i, datarange_start, datarange_end);
double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
double yv0=y0;
if (!qFuzzyIsNull(baseline)) yv0=yAxis->x2p(baseline);
if (hasStackPar) {
double stackLastY=getParentStackedMax(i);
const double yvold=yv;
yv0=yAxis->x2p(stackLastY)-(get_lineWidth());
yv=stackLastY+yvold;
}
if (sr<0 && lr<0) { // only one x-value
deltam=0.5;
deltap=0.5;
} else if (lr<0) { // the right-most x-value
deltap=deltam=fabs(xv-datastore->get(xColumn,sr))/2.0;
} else if (sr<0) { // the left-most x-value
deltam=deltap=fabs(datastore->get(xColumn,lr)-xv)/2.0;
} else {
deltam=fabs(xv-datastore->get(xColumn,sr))/2.0;
deltap=fabs(datastore->get(xColumn,lr)-xv)/2.0;
}
//std::cout<<iii<<", \t"<<i<<", \t"<<sr<<", \t"<<lr<<", \t"<<deltam<<", \t"<<deltap<<"\n\n";
delta=deltap+deltam;
if (JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(yv)) {
double x=xAxis->x2p(xv+shift*delta-width*deltam);
double y=yAxis->x2p(yv);
double xx=xAxis->x2p(xv+shift*delta+width*deltap);
double yy=yv0;
//std::cout<<"delta="<<delta<<" x="<<x<<" y="<<y<<" xx="<<xx<<" yy="<<yy<<std::endl;
if (yy<y) { qSwap(y,yy); }
if (JKQTPIsOKFloat(x) && JKQTPIsOKFloat(xx) && JKQTPIsOKFloat(y) && JKQTPIsOKFloat(yy)) {
painter.setBrush(b);
painter.setPen(p);
QRectF r(QPointF(x, y), QPointF(xx, yy));
painter.drawRect(r);
}
}
}
painter.restore();
drawErrorsAfter(painter);
}
bool JKQTPbarVerticalGraph::getXMinMax(double& minx, double& maxx, double& smallestGreaterZero) {
bool start=true;
minx=0;
maxx=0;
smallestGreaterZero=0;
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
long long sr=datastore->getNextLowerIndex(xColumn, i, datarange_start, datarange_end);
long long lr=datastore->getNextHigherIndex(xColumn, i, datarange_start, datarange_end);
double delta, deltap, deltam;
if (sr<0 && lr<0) { // only one x-value
deltam=0.5;
deltap=0.5;
} else if (lr<0) { // the right-most x-value
deltap=deltam=fabs(xv-datastore->get(xColumn,sr))/2.0;
} else if (sr<0) { // the left-most x-value
deltam=deltap=fabs(datastore->get(xColumn,lr)-xv)/2.0;
} else {
deltam=fabs(xv-datastore->get(xColumn,sr))/2.0;
deltap=fabs(datastore->get(xColumn,lr)-xv)/2.0;
}
delta=deltap+deltam;
if (JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(delta) ) {
if (start || xv+shift*delta+width*delta/2.0>maxx) maxx=xv+shift*delta+width*delta/2.0;
if (start || xv+shift*delta-width*delta/2.0<minx) minx=xv+shift*delta-width*delta/2.0;
double xvsgz;
xvsgz=xv+shift*delta+width*delta/2.0; SmallestGreaterZeroCompare_xvsgz();
xvsgz=xv+shift*delta-width*delta/2.0; SmallestGreaterZeroCompare_xvsgz();
start=false;
}
}
return !start;
}
bool JKQTPbarVerticalGraph::getYMinMax(double& miny, double& maxy, double& smallestGreaterZero) {
miny=0;
maxy=0;
smallestGreaterZero=0;
if (baseline>0) {
smallestGreaterZero=baseline;
miny=baseline;
maxy=baseline;
}
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double stack=0;
double yv=baseline;
if (!isHorizontal()) {
stack=getParentStackedMax(i);
yv=stack;
}
if (JKQTPIsOKFloat(yv)) {
if (yv>maxy) maxy=yv;
if (yv<miny) miny=yv;
double xvsgz;
xvsgz=yv; SmallestGreaterZeroCompare_xvsgz();
}
yv=stack+datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
if (JKQTPIsOKFloat(yv)) {
if (yv>maxy) maxy=yv;
if (yv<miny) miny=yv;
double xvsgz;
xvsgz=yv; SmallestGreaterZeroCompare_xvsgz();
}
}
return true;
}
void JKQTPbarVerticalGraph::autoscaleBarWidthAndShift(double maxWidth, double shrinkFactor)
{
if (parent) {
double cntH=0;
for (size_t i=0; i<parent->getGraphCount(); i++) {
JKQTPgraph* g=parent->getGraph(i);
JKQTPbarVerticalGraph* gb=qobject_cast<JKQTPbarVerticalGraph*>(g);
if (gb && gb->isHorizontal()==isHorizontal()) {
cntH++;
}
}
double widthH=1.0/cntH*maxWidth*shrinkFactor;
double dH=maxWidth/(cntH);
double h=0.1+dH/2.0;
for (size_t i=0; i<parent->getGraphCount(); i++) {
JKQTPgraph* g=parent->getGraph(i);
JKQTPbarVerticalGraph* gb=qobject_cast<JKQTPbarVerticalGraph*>(g);
if (gb && gb->isHorizontal()==isHorizontal()) {
if (cntH>1) {
gb->width=widthH;
gb->shift=h-0.5;
h=h+dH;
} else {
gb->width=maxWidth;
gb->shift=0.0;
}
}
}
}
}
void JKQTPbarVerticalGraph::autoscaleBarWidthAndShiftSeparatedGroups(double groupWidth) {
autoscaleBarWidthAndShift(groupWidth, 1);
}
JKQTPbarHorizontalGraph::JKQTPbarHorizontalGraph(JKQtBasePlotter *parent):
JKQTPbarVerticalGraph(parent)
{
}
JKQTPbarHorizontalGraph::JKQTPbarHorizontalGraph(JKQtPlotter *parent):
JKQTPbarVerticalGraph(parent)
{
}
void JKQTPbarHorizontalGraph::draw(JKQTPEnhancedPainter& painter) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaaot("JKQTPbarVerticalGraph::draw");
#endif
if (parent==nullptr) return;
JKQTPdatastore* datastore=parent->getDatastore();
if (datastore==nullptr) return;
drawErrorsBefore(painter);
QPen p=painter.pen();
p.setColor(color);
p.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, lineWidth*parent->get_lineWidthMultiplier())));
p.setStyle(style);
p.setJoinStyle(Qt::RoundJoin);
QBrush b=painter.brush();
b.setColor(fillColor);
b.setStyle(fillStyle);
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
int imin=0;
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end+1, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
double x0=xAxis->x2p(0);
if (parent->getXAxis()->isLogAxis()) x0=xAxis->x2p(parent->getXAxis()->getMin());
// double y0=yAxis->x2p(0);
// if (parent->getYAxis()->isLogAxis()) y0=yAxis->x2p(parent->getYAxis()->getMin());
double delta=1;
double deltap=0;
double deltam=0;
painter.save();
intSortData();
const bool hasStackPar=hasStackParent();
for (int iii=imin; iii<imax; iii++) {
int i=qBound(imin, getDataIndex(iii), imax);
double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
long long sr=datastore->getNextLowerIndex(yColumn, i, datarange_start, datarange_end);
long long lr=datastore->getNextHigherIndex(yColumn, i, datarange_start, datarange_end);
double xv0=x0;
if (!qFuzzyIsNull(baseline)) xv0=xAxis->x2p(baseline);
if (hasStackPar) {
double stackLastX=getParentStackedMax(i);
const double xvold=xv;
xv0=xAxis->x2p(stackLastX)+(get_lineWidth());
xv=stackLastX+xvold;
}
if (sr<0 && lr<0) { // only one y-value
deltam=0.5;
deltap=0.5;
} else if (lr<0) { // the right-most y-value
deltap=deltam=fabs(yv-datastore->get(yColumn,sr))/2.0;
} else if (sr<0) { // the left-most y-value
deltam=deltap=fabs(datastore->get(yColumn,lr)-yv)/2.0;
} else {
deltam=fabs(yv-datastore->get(yColumn,sr))/2.0;
deltap=fabs(datastore->get(yColumn,lr)-yv)/2.0;
}
delta=deltap+deltam;
if (JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(yv)) {
double x=xv0;
if (!qFuzzyIsNull(baseline)) x=xAxis->x2p(baseline);
double y=yAxis->x2p(yv+shift*delta+width*deltap);
double xx=xAxis->x2p(xv);
double yy=yAxis->x2p(yv+shift*delta-width*deltam);
if (x>xx) { qSwap(x,xx); }
//qDebug()<<"delta="<<delta<<" x="<<x<<" y="<<y<<" xx="<<xx<<" yy="<<yy;
//qDebug()<<"xv="<<xv<<" x0="<<x0<<" x="<<x<<"..."<<xx;
if (JKQTPIsOKFloat(x) && JKQTPIsOKFloat(xx) && JKQTPIsOKFloat(y) && JKQTPIsOKFloat(yy)) {
painter.setBrush(b);
painter.setPen(p);
QRectF r(QPointF(x, y), QPointF(xx, yy));
painter.drawRect(r);
}
}
}
painter.restore();
drawErrorsAfter(painter);
}
bool JKQTPbarHorizontalGraph::getXMinMax(double& minx, double& maxx, double& smallestGreaterZero) {
minx=0;
maxx=0;
smallestGreaterZero=0;
if (baseline>0) {
smallestGreaterZero=baseline;
minx=baseline;
maxx=baseline;
}
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(xColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double stack=0;
double xv=baseline;
if (isHorizontal()) {
stack=getParentStackedMax(i);
xv=stack;
}
if (JKQTPIsOKFloat(xv)) {
if (xv>maxx) maxx=xv;
if (xv<minx) minx=xv;
double xvsgz;
xvsgz=xv; SmallestGreaterZeroCompare_xvsgz();
}
xv=stack+datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i));
if (JKQTPIsOKFloat(xv)) {
if (xv>maxx) maxx=xv;
if (xv<minx) minx=xv;
double xvsgz;
xvsgz=xv; SmallestGreaterZeroCompare_xvsgz();
}
}
return true;
}
bool JKQTPbarHorizontalGraph::getYMinMax(double& miny, double& maxy, double& smallestGreaterZero) {
bool start=true;
miny=0;
maxy=0;
smallestGreaterZero=0;
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
double delta, deltap, deltam;
long long sr=datastore->getNextLowerIndex(yColumn, i, datarange_start, datarange_end);
long long lr=datastore->getNextHigherIndex(yColumn, i, datarange_start, datarange_end);
if (sr<0 && lr<0) { // only one y-value
deltam=0.5;
deltap=0.5;
} else if (lr<0) { // the right-most y-value
deltap=deltam=fabs(yv-datastore->get(yColumn,sr))/2.0;
} else if (sr<0) { // the left-most y-value
deltam=deltap=fabs(datastore->get(yColumn,lr)-yv)/2.0;
} else {
deltam=fabs(yv-datastore->get(yColumn,sr))/2.0;
deltap=fabs(datastore->get(yColumn,lr)-yv)/2.0;
}
delta=deltap+deltam;
if (JKQTPIsOKFloat(yv) && JKQTPIsOKFloat(delta) ) {
if (start || yv+shift*delta+width*delta/2.0>maxy) maxy=yv+shift*delta+width*delta/2.0;
if (start || yv+shift*delta-width*delta/2.0<miny) miny=yv+shift*delta-width*delta/2.0;
double xvsgz;
xvsgz=yv+shift*delta+width*delta/2.0; SmallestGreaterZeroCompare_xvsgz();
xvsgz=yv+shift*delta-width*delta/2.0; SmallestGreaterZeroCompare_xvsgz();
start=false;
}
}
return !start;
}
bool JKQTPbarHorizontalGraph::isHorizontal() const
{
return true;
}
QBrush JKQTPbarVerticalGraph::getBrush(JKQTPEnhancedPainter& /*painter*/) const {
QBrush b;
b.setColor(fillColor);
b.setStyle(fillStyle);
return b;
}
QPen JKQTPbarVerticalGraph::getLinePen(JKQTPEnhancedPainter& painter) const {
QPen p;
p.setColor(color);
p.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH,parent->pt2px(painter, parent->get_lineWidthMultiplier()*lineWidth)));
p.setStyle(style);
p.setJoinStyle(Qt::RoundJoin);
p.setCapStyle(Qt::RoundCap);
return p;
}
Fix warning unreferenced formal parameter
2018-12-06 02:23:11 +08:00
double JKQTPbarVerticalGraph::getParentStackedMax(int /*index*/) const
- added stackable barcharts, incl. simple test program - organized barcharts into hor/ver that can in addition EITHER be stackable, or with error indicators - reorganized graphs (split jkqtpelements.h/.cpp into several files)
2018-11-25 21:53:26 +08:00
{
return false;
}
bool JKQTPbarVerticalGraph::hasStackParent() const
{
return false;
}
double JKQTPbarVerticalGraph::getStackedMax(int /*index*/) const
{
return baseline;
}
bool JKQTPbarVerticalGraph::isHorizontal() const
{
return false;
}
void JKQTPbarVerticalGraph::set_fillColor_and_darkenedColor(QColor fill, int colorDarker)
{
set_fillColor(fill);
set_color(fill.darker(colorDarker));
}
JKQTPbarHorizontalErrorGraph::JKQTPbarHorizontalErrorGraph(JKQtBasePlotter *parent):
JKQTPbarHorizontalGraph(parent), JKQTPxGraphErrors()
{
setErrorColorFromGraphColor(color);
}
JKQTPbarHorizontalErrorGraph::JKQTPbarHorizontalErrorGraph(JKQtPlotter *parent):
JKQTPbarHorizontalGraph(parent), JKQTPxGraphErrors()
{
setErrorColorFromGraphColor(color);
}
bool JKQTPbarHorizontalErrorGraph::usesColumn(int c)
{
return JKQTPbarHorizontalGraph::usesColumn(c)|| JKQTPxGraphErrors::errorUsesColumn(c);
}
bool JKQTPbarHorizontalErrorGraph::getXMinMax(double &minx, double &maxx, double &smallestGreaterZero)
{
if (xErrorColumn<0 || xErrorStyle==JKQTPnoError) {
return JKQTPbarHorizontalGraph::getXMinMax(minx, maxx, smallestGreaterZero);
} else {
bool start=false;
minx=0;
maxx=0;
smallestGreaterZero=0;
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double xvsgz;
double xv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i))+getXErrorU(i, datastore);
double xvv=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(i))-getXErrorL(i, datastore);
if (JKQTPIsOKFloat(xv) && JKQTPIsOKFloat(xvv) ) {
if (start || xv>maxx) maxx=xv;
if (start || xv<minx) minx=xv;
xvsgz=xv; SmallestGreaterZeroCompare_xvsgz();
start=false;
if (start || xvv>maxx) maxx=xvv;
if (start || xvv<minx) minx=xvv;
xvsgz=xvv; SmallestGreaterZeroCompare_xvsgz();
start=false;
}
}
return !start;
}
}
void JKQTPbarHorizontalErrorGraph::drawErrorsAfter(JKQTPEnhancedPainter &painter)
{
if (sortData==JKQTPxyGraph::Unsorted) plotErrorIndicators(painter, parent, xAxis, yAxis, xColumn, yColumn, datarange_start, datarange_end, 0.0, shift);
else plotErrorIndicators(painter, parent, xAxis, yAxis, xColumn, yColumn, datarange_start, datarange_end, 0.0, shift, &sortedIndices);
}
JKQTPbarVerticalErrorGraph::JKQTPbarVerticalErrorGraph(JKQtBasePlotter *parent):
JKQTPbarVerticalGraph(parent), JKQTPyGraphErrors()
{
setErrorColorFromGraphColor(color);
}
JKQTPbarVerticalErrorGraph::JKQTPbarVerticalErrorGraph(JKQtPlotter *parent):
JKQTPbarVerticalGraph(parent), JKQTPyGraphErrors()
{
setErrorColorFromGraphColor(color);
}
bool JKQTPbarVerticalErrorGraph::usesColumn(int c)
{
return JKQTPbarVerticalGraph::usesColumn(c)|| JKQTPyGraphErrors::errorUsesColumn(c);
}
bool JKQTPbarVerticalErrorGraph::getYMinMax(double &miny, double &maxy, double &smallestGreaterZero)
{
if (yErrorColumn<0 || yErrorStyle==JKQTPnoError) {
miny=0;
maxy=0;
smallestGreaterZero=0;
if (baseline>0) {
smallestGreaterZero=baseline;
miny=baseline;
maxy=baseline;
}
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double yv=baseline;
if (JKQTPIsOKFloat(yv)) {
if (yv>maxy) maxy=yv;
if (yv<miny) miny=yv;
double xvsgz;
xvsgz=yv; SmallestGreaterZeroCompare_xvsgz();
}
yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i));
if (JKQTPIsOKFloat(yv)) {
if (yv>maxy) maxy=yv;
if (yv<miny) miny=yv;
double xvsgz;
xvsgz=yv; SmallestGreaterZeroCompare_xvsgz();
}
}
return true;
} else {
bool start=false;
miny=baseline;
maxy=baseline;
smallestGreaterZero=0;
if (baseline>0) {
smallestGreaterZero=baseline;
miny=baseline;
maxy=baseline;
}
if (parent==nullptr) return false;
JKQTPdatastore* datastore=parent->getDatastore();
int imin=0;
int imax=qMin(datastore->getColumn(static_cast<size_t>(xColumn)).getRows(), datastore->getColumn(static_cast<size_t>(yColumn)).getRows());
// interpret data ranges
if (datarange_start>-1) {
imin=qMin(datarange_start, static_cast<long long>(imax));
}
if (datarange_end>-1) {
imax=qMin(datarange_end, static_cast<long long>(imax));
}
if (imax<imin) {
int h=imin;
imin=imax;
imax=h;
}
if (imin<0) imin=0;
if (imax<0) imax=0;
for (int i=imin; i<imax; i++) {
double yv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i))+getYErrorU(i, datastore);
double yvv=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(i))-getYErrorL(i, datastore);
if (JKQTPIsOKFloat(yv) && JKQTPIsOKFloat(yvv) ) {
if (start || yv>maxy) maxy=yv;
if (start || yv<miny) miny=yv;
double xvsgz;
xvsgz=yv; SmallestGreaterZeroCompare_xvsgz();
if (start || yvv>maxy) maxy=yvv;
if (start || yvv<miny) miny=yvv;
xvsgz=yvv; SmallestGreaterZeroCompare_xvsgz();
start=false;
}
}
return !start;
}
}
void JKQTPbarVerticalErrorGraph::drawErrorsAfter(JKQTPEnhancedPainter &painter)
{
//plotErrorIndicators(painter, parent, xAxis, yAxis, xColumn, yColumn, datarange_start, datarange_end, shift, 0.0);
if (sortData==JKQTPxyGraph::Unsorted) plotErrorIndicators(painter, parent, xAxis, yAxis, xColumn, yColumn, datarange_start, datarange_end, shift, 0.0);
else plotErrorIndicators(painter, parent, xAxis, yAxis, xColumn, yColumn, datarange_start, datarange_end, shift, 0, &sortedIndices);
}
JKQTPbarVerticalStackableGraph::JKQTPbarVerticalStackableGraph(JKQtBasePlotter *parent):
JKQTPbarVerticalGraph(parent), stackParent(nullptr)
{
}
JKQTPbarVerticalStackableGraph::JKQTPbarVerticalStackableGraph(JKQtPlotter *parent):
JKQTPbarVerticalGraph(parent), stackParent(nullptr)
{
}
void JKQTPbarVerticalStackableGraph::stackUpon(JKQTPbarVerticalStackableGraph *parentGraph)
{
stackParent=parentGraph;
}
void JKQTPbarVerticalStackableGraph::dontStackUpon()
{
stackParent=nullptr;
}
double JKQTPbarVerticalStackableGraph::getParentStackedMax(int index) const
{
if (stackParent) {
return stackParent->getStackedMax(index);
} else {
return 0.0;
}
}
bool JKQTPbarVerticalStackableGraph::hasStackParent() const
{
return stackParent!=nullptr;
}
const JKQTPbarVerticalStackableGraph *JKQTPbarVerticalStackableGraph::getStackParent() const
{
return stackParent;
}
double JKQTPbarVerticalStackableGraph::getStackedMax(int index) const
{
double height=0;
if (parent!=nullptr) {
JKQTPdatastore* datastore=parent->getDatastore();
height=datastore->get(static_cast<size_t>(yColumn),static_cast<size_t>(index));
}
if (stackParent==nullptr) {
return height;
} else {
return stackParent->getStackedMax(index)+height;
}
}
JKQTPbarHorizontalStackableGraph::JKQTPbarHorizontalStackableGraph(JKQtBasePlotter *parent):
JKQTPbarHorizontalGraph(parent), stackParent(nullptr)
{
}
JKQTPbarHorizontalStackableGraph::JKQTPbarHorizontalStackableGraph(JKQtPlotter *parent):
JKQTPbarHorizontalGraph(parent), stackParent(nullptr)
{
}
void JKQTPbarHorizontalStackableGraph::stackUpon(JKQTPbarHorizontalStackableGraph *parentGraph)
{
stackParent=parentGraph;
}
void JKQTPbarHorizontalStackableGraph::dontStackUpon()
{
stackParent=nullptr;
}
const JKQTPbarHorizontalStackableGraph *JKQTPbarHorizontalStackableGraph::getStackParent() const
{
return stackParent;
}
double JKQTPbarHorizontalStackableGraph::getStackedMax(int index) const
{
double height=0;
if (parent!=nullptr) {
JKQTPdatastore* datastore=parent->getDatastore();
height=datastore->get(static_cast<size_t>(xColumn),static_cast<size_t>(index));
}
if (stackParent==nullptr) {
return height;
} else {
return stackParent->getStackedMax(index)+height;
}
}
double JKQTPbarHorizontalStackableGraph::getParentStackedMax(int index) const
{
if (stackParent) {
return stackParent->getStackedMax(index);
} else {
return 0.0;
}
}
bool JKQTPbarHorizontalStackableGraph::hasStackParent() const
{
return stackParent!=nullptr;
}
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