JKQtPlotter/lib/jkqtplotter/jkqtpcoordinateaxes.cpp

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/*
Copyright (c) 2008-2019 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/jkqtpcoordinateaxes.h"
#include "jkqtplotter/jkqtpbaseplotter.h"
#include "jkqtcommon/jkqtpdrawingtools.h"
#include <QDebug>
#include <QDateTime>
#include <cfloat>
#include <QApplication>
//#undef SHOW_JKQTPLOTTER_DEBUG
//#define SHOW_JKQTPLOTTER_DEBUG
JKQTPCoordinateAxis::JKQTPCoordinateAxis(JKQTBasePlotter* _parent):
QObject(_parent),
paramsChanged(true),
doUpdateScaling(true),
tickLabels(),
parent(_parent),
axismin(-10),
axismax(10),
axisabsoultemin(-DBL_MAX/100.),
axisabsoultemax(DBL_MAX/100.0),
axisStyle(),
axisMinWidth(-1),
width(20),
scale(0),
offset(0),
inverted(false),
tickStart(1),
autoAxisSpacing(true),
logAxis(false),
logAxisBase(10),
userTickSpacing(1),
userLogTickSpacing(10),
tickSpacing(0),
tickSpacingLog(10),
axisLabel(),
axisPrefix(),
scaleSign(1)
{
}
JKQTPCoordinateAxis::~JKQTPCoordinateAxis() {
}
void JKQTPCoordinateAxis::setParent(JKQTBasePlotter* parent) {
this->parent=parent;
QObject::setParent(parent);
}
void JKQTPCoordinateAxis::redrawPlot() {
//if (paramsChanged) {
calcPlotScaling();
parent->redrawPlot();
//}
}
JKQTMathText* JKQTPCoordinateAxis::getParentMathText() {
return parent->getMathText();
}
void JKQTPCoordinateAxis::clearAxisTickLabels() {
tickLabels.clear();
redrawPlot();
}
void JKQTPCoordinateAxis::addAxisTickLabel(double x, const QString& label) {
tickLabels.append(qMakePair(x, label));
redrawPlot();
}
void JKQTPCoordinateAxis::addAxisTickLabels(const QVector<double> &x, const QStringList &label) {
for (int i=0; i<qMin(x.size(), label.size()); i++) {
tickLabels.append(qMakePair(x[i], label[i]));
}
redrawPlot();
}
void JKQTPCoordinateAxis::addAxisTickLabels(const double *x, const QStringList &label) {
for (int i=0; i<label.size(); i++) {
tickLabels.append(qMakePair(x[i], label[i]));
}
redrawPlot();
}
void JKQTPCoordinateAxis::addAxisTickLabels(const QVector<double> &x, const QString *label) {
for (int i=0; i<x.size(); i++) {
tickLabels.append(qMakePair(x[i], label[i]));
}
redrawPlot();
}
void JKQTPCoordinateAxis::addAxisTickLabels(const double *x, const QString *label, int items) {
for (int i=0; i<items; i++) {
tickLabels.append(qMakePair(x[i], label[i]));
}
redrawPlot();
}
void JKQTPCoordinateAxis::loadSettings(const QSettings& settings, const QString& group) {
autoAxisSpacing=settings.value(group+axisPrefix+"auto_spacing").toBool();
logAxis=settings.value(group+axisPrefix+"log").toBool();
inverted=settings.value(group+axisPrefix+"inverted").toBool();
logAxisBase=settings.value(group+axisPrefix+"log_base").toDouble();
userTickSpacing=settings.value(group+axisPrefix+"tick_spacing").toDouble();
userLogTickSpacing=settings.value(group+axisPrefix+"log_tick_spacing").toDouble();
axisLabel=settings.value(group+axisPrefix+"axis_label", axisLabel).toString();
axisStyle.loadSettings(settings, group+axisPrefix);
paramsChanged=true;
calcPlotScaling();
}
void JKQTPCoordinateAxis::saveSettings(QSettings& settings, const QString& group) const {
settings.setValue(group+axisPrefix+"auto_spacing", autoAxisSpacing);
settings.setValue(group+axisPrefix+"log", logAxis);
settings.setValue(group+axisPrefix+"log_base", logAxisBase);
settings.setValue(group+axisPrefix+"tick_spacing", userTickSpacing);
settings.setValue(group+axisPrefix+"log_tick_spacing", userLogTickSpacing);
settings.setValue(group+axisPrefix+"label", axisLabel);
axisStyle.saveSettings(settings, group+axisPrefix);
}
double JKQTPCoordinateAxis::calcLinearTickSpacing() {
if (axisStyle.labelType==JKQTPCALTdate) {
QDateTime dt;
dt.setMSecsSinceEpoch(0);
//qDebug()<<" dt="<<dt;
dt=dt.addYears(1);
//qDebug()<<dt;
double deltaDT=dt.toMSecsSinceEpoch();
//qDebug()<<dt<<dt.toMSecsSinceEpoch()<<deltaDT;
int level=0;
double TickSpacing=deltaDT;
QVector<double> tickbase;
tickbase<<1<< 2<< 5<<10<<20<<50<<100<<200<<500<<1000;
//qDebug()<<"startexponent="<<startexponent<<" width="<<width;
unsigned int current_tickbase=tickbase.size();
unsigned int tick_count=0;
int cnt=0;
do {
if (current_tickbase==0) {
level++;
if (level==1) {
dt.setMSecsSinceEpoch(0);
dt=dt.addMonths(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<< 6<<12;
} else if (level==2) {
dt.setMSecsSinceEpoch(0);
dt=dt.addDays(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<< 6<<12;
} else if (level>=3) {
break;
}
current_tickbase=tickbase.size()-1;
} else current_tickbase--;
TickSpacing=tickbase[current_tickbase]*deltaDT;
tick_count=(unsigned int)round(width/TickSpacing);
//qDebug()<<"current_tickbase="<<tickbase[current_tickbase]<<" level="<<level<<" tTickSpacing="<<TickSpacing<<" deltaDT="<<deltaDT<<" tick_count="<<tick_count;
cnt++;
} while (level<=3 && tick_count<axisStyle.minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/static_cast<double>(axisStyle.minTicks);
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else if (axisStyle.labelType==JKQTPCALTdatetime) {
QDateTime dt;
dt.setMSecsSinceEpoch(0);
//qDebug()<<" dt="<<dt;
dt=dt.addYears(1);
//qDebug()<<dt;
double deltaDT=dt.toMSecsSinceEpoch();
//qDebug()<<dt<<dt.toMSecsSinceEpoch()<<deltaDT;
int level=0;
double TickSpacing=deltaDT;
QVector<double> tickbase;
tickbase<<1<< 2<< 5<<10<<20<<50<<100<<200<<500<<1000;
//qDebug()<<"startexponent="<<startexponent<<" width="<<width;
unsigned int current_tickbase=tickbase.size();
unsigned int tick_count=0;
int cnt=0;
do {
if (current_tickbase==0) {
level++;
if (level==1) {
dt.setMSecsSinceEpoch(0);
dt=dt.addMonths(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<< 6<<12;
} else if (level==2) {
dt.setMSecsSinceEpoch(0);
dt=dt.addDays(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<< 6<<12;
} else if (level==3) {
dt.setMSecsSinceEpoch(0);
dt=dt.addSecs(60*60);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<< 6<<12<<24;
} else if (level==4) {
dt.setMSecsSinceEpoch(0);
dt=dt.addSecs(60);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<<5<<15<<20<<30<<45<<60<<120;
} else if (level==5) {
dt.setMSecsSinceEpoch(0);
dt=dt.addSecs(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<<5<<15<<20<<30<<45<<60<<120;
} else if (level>=6) {
break;
}
current_tickbase=tickbase.size()-1;
} else current_tickbase--;
TickSpacing=tickbase[current_tickbase]*deltaDT;
tick_count=(unsigned int)round(width/TickSpacing);
//qDebug()<<"current_tickbase="<<tickbase[current_tickbase]<<" level="<<level<<" tTickSpacing="<<TickSpacing<<" deltaDT="<<deltaDT<<" tick_count="<<tick_count;
cnt++;
} while (level<6 && tick_count<axisStyle.minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/static_cast<double>(axisStyle.minTicks);
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else if (axisStyle.labelType==JKQTPCALTtime) {
QDateTime dt;
dt.setMSecsSinceEpoch(0);
//qDebug()<<" dt="<<dt;
dt=dt.addSecs(60*60);
//qDebug()<<dt;
double deltaDT=dt.toMSecsSinceEpoch();
//qDebug()<<dt<<dt.toMSecsSinceEpoch()<<deltaDT;
int level=0;
double TickSpacing=deltaDT;
QVector<double> tickbase;
tickbase<<1<< 2<< 5<<10<<20<<50<<100<<200<<500<<1000;
//qDebug()<<"startexponent="<<startexponent<<" width="<<width;
unsigned int current_tickbase=tickbase.size();
unsigned int tick_count=0;
int cnt=0;
do {
if (current_tickbase==0) {
level++;
if (level==1) {
dt.setMSecsSinceEpoch(0);
dt=dt.addSecs(60);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<<5<<15<<20<<30<<45<<60<<120;
} else if (level==2) {
dt.setMSecsSinceEpoch(0);
dt=dt.addSecs(1);
deltaDT=dt.toMSecsSinceEpoch();
tickbase.clear();
tickbase<<1<< 2<<5<<15<<20<<30<<45<<60<<120;
} else if (level>=3) {
break;
}
current_tickbase=tickbase.size()-1;
} else current_tickbase--;
TickSpacing=tickbase[current_tickbase]*deltaDT;
tick_count=(unsigned int)round(width/TickSpacing);
//qDebug()<<"current_tickbase="<<tickbase[current_tickbase]<<" level="<<level<<" tTickSpacing="<<TickSpacing<<" deltaDT="<<deltaDT<<" tick_count="<<tick_count;
cnt++;
} while (level<3 && tick_count<axisStyle.minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/static_cast<double>(axisStyle.minTicks);
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else {
double TickSpacing=1;
int startexponent=static_cast<int>(floor(log10(width)))+3;
double tickbase[]={1, 2, 2.5, 5, 10};
int tb_max=4;
//qDebug()<<"startexponent="<<startexponent<<" width="<<width;
int current_exponent=startexponent;
unsigned int current_tickbase=tb_max+1;
unsigned int tick_count=0;
int cnt=0;
do {
if (current_tickbase==0) {
current_tickbase=tb_max;
current_exponent--;
} else current_tickbase--;
TickSpacing=tickbase[current_tickbase]*pow(10,current_exponent);
tick_count=(unsigned int)round(width/TickSpacing);
//qDebug()<<"current_tickbase="<<tickbase[current_tickbase]<<" current_exponent="<<current_exponent<<" tTickSpacing="<<TickSpacing<<" tick_count="<<tick_count;
cnt++;
} while (tick_count<axisStyle.minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/static_cast<double>(axisStyle.minTicks);
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
}
}
double JKQTPCoordinateAxis::calcLogTickSpacing() {
double TickSpacing=logAxisBase;
if (fabs(log(axismax)-log(axismin))/log(logAxisBase)>2*axisStyle.minTicks) {
double power=1;
int cnt=0;
while (fabs(log(axismax)-log(axismin))/log(logAxisBase)/power>2*axisStyle.minTicks && cnt<1000) {
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<cnt<<power<<log(width)/log(logAxisBase)/power<<2*axisStyle.minTicks;
#endif
power++;
cnt++;
}
if (cnt<1000) TickSpacing=pow(logAxisBase, power);
}
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<"log-tick-spacing: "<<TickSpacing;
#endif
return TickSpacing;
}
QString JKQTPCoordinateAxis::floattolabel(double data) {
int past_comma=axisStyle.labelDigits;
bool remove_trail0=true;
QLocale loc=QLocale::system();
loc.setNumberOptions(QLocale::OmitGroupSeparator);
double belowIsZero=1e-300;
if (!getLogAxis()) {
belowIsZero=fabs(getMax()-getMin())*1e-6;
}
switch(axisStyle.labelType) {
case JKQTPCALTdefault: {
QString res=loc.toString(data, 'f', past_comma);
if (remove_trail0 && res.contains(QLocale::system().decimalPoint())) {
while (res.size()>0 && res[res.size()-1]=='0') {
res=res.left(res.size()-1);
}
if (res.size()>0 && res[res.size()-1]==loc.decimalPoint()) res=res.left(res.size()-1);
}
return res;
}; break;
case JKQTPCALTexponent: {
return QString(jkqtp_floattolatexstr(data, past_comma, remove_trail0, belowIsZero, pow(10, -past_comma), pow(10, past_comma+1)).c_str());
}; break;
case JKQTPCALTexponentCharacter: {
return QString(jkqtp_floattounitstr(data, past_comma, remove_trail0).c_str());
}; break;
case JKQTPCALTdate: {
QDateTime dt;
dt.setMSecsSinceEpoch(uint64_t(data));
return dt.toString(axisStyle.tickDateFormat);
}; break;
case JKQTPCALTtime: {
QDateTime dt;
dt.setMSecsSinceEpoch(uint64_t(data));
return dt.toString(axisStyle.tickTimeFormat);
}; break;
case JKQTPCALTdatetime: {
QDateTime dt;
dt.setMSecsSinceEpoch(uint64_t(data));
return dt.toString(axisStyle.tickDateTimeFormat);
}; break;
default:
return QString();
break;
}
/*
axisStyle.tickTimeFormat
axisStyle.tickDateFormat
axisStyle.tickDateTimeFormat
**/
return QString();
}
QString JKQTPCoordinateAxis::floattolabel(double data, int past_comma) {
bool remove_trail0=true;
QLocale loc=QLocale::system();
loc.setNumberOptions(QLocale::OmitGroupSeparator);
if (axisStyle.labelType==JKQTPCALTdefault) {
QString res=loc.toString(data, 'f', past_comma);//QString::number(data, 'f', past_comma);
if (remove_trail0 && res.contains(QLocale::system().decimalPoint())) {
while (res.size()>0 && res[res.size()-1]=='0') {
res=res.left(res.size()-1);
}
if (res.size()>0 && res[res.size()-1]==loc.decimalPoint()) res=res.left(res.size()-1);
}
return res;
} else if (axisStyle.labelType==JKQTPCALTexponent) return QString(jkqtp_floattolatexstr(data, past_comma, remove_trail0, 1e-300, pow(10, -past_comma), pow(10, past_comma+1)).c_str());
else if (axisStyle.labelType==JKQTPCALTexponentCharacter) return QString(jkqtp_floattounitstr(data, past_comma, remove_trail0).c_str());
return "";
}
int JKQTPCoordinateAxis::calcLinearUnitDigits() {
if (!axisStyle.autoLabelDigits) return axisStyle.labelDigits;
int unitdigits=-1;
double minval=tickStart;
bool equals=true;
/*for (int i=0; i<20; i++) {
equals=equals || (floattolabel((minval+static_cast<double>(i)*tickSpacing), unitdigits)== floattolabel((minval+static_cast<double>(i+1)*tickSpacing), unitdigits));
}*/
while ((unitdigits<20) && equals) {
unitdigits++;
equals=false;
for (int i=-10; i<10; i++) {
QString l1=floattolabel((minval+static_cast<double>(i)*tickSpacing), unitdigits+2);
QString l2=floattolabel((minval+static_cast<double>(i+1.0)*tickSpacing), unitdigits+2);
//qDebug()<<"unitdigits="<<unitdigits<<" l1="<<l1<<" l2="<<l2;
equals=equals || (l1==l2);
}
}
return unitdigits+2;
}
void JKQTPCoordinateAxis::calcPlotScaling(bool force) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTBasePlotter[%1]::calcPlotScaling()").arg(objectName()));
#endif
if (!doUpdateScaling) return;
if (!force && !paramsChanged) return;
if (axismin>axismax) {
std::swap(axismin, axismax);
} else if (axismax==axismin) {
axismax=axismin+1.0;
}
if (isLogAxis()) {
if (axismin<0) {
if (axismax>0) axismin=axismax/(logAxisBase*logAxisBase);
else axismin=1e-5;
}
if (axismax<=axismin) axismax=axismin*logAxisBase*logAxisBase;
//if (axismax<0) axismax=pow(10.0, ceil(log10(axismax-axismin)+1.0));
if (axismin<=0) axismin=1e-5;
if (axismax<=0) axismax=axismin+pow(10.0, static_cast<int>(log10(axismin)));
if (axismax<axismin) {
std::swap(axismin, axismax);
} else if (axismax==axismin) {
axismax=axismin+pow(10.0, static_cast<int>(log10(axismin)));
}
}
if (axismin>axismax) {
std::swap(axismin, axismax);
} else if (axismax==axismin) {
axismax=axismin+1.0;
}
// this is the x- and y-range spanned by the plot
width=fabs(axismax-axismin);
//qDebug()<<"calcPlotScaling():\n";
//qDebug()<<" width="<<width<<"\n";
double plotOffset=getParentPlotOffset();
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<getParent()->objectName()<<": inverted = "<<inverted;
//qDebug()<<getParent()->objectName()<<": plotOffset = "<<plotOffset;
//qDebug()<<getParent()->objectName()<<": plotWidth = "<<getParentPlotWidth();
#endif
if (isLogAxis()) {
scale=getParentPlotWidth()/(log(axismax)-log(axismin))*log(logAxisBase);
if (scaleSign>0) {
offset=plotOffset-log(axismin)/log(logAxisBase)*scale;
} else {
offset=plotOffset+log(axismax)/log(logAxisBase)*scale;
}
} else {
scale=getParentPlotWidth()/width;
if (scaleSign>0) {
offset=plotOffset-axismin*scale;
} else {
offset=plotOffset+axismax*scale;
}
}
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<getParent()->objectName()<<": offset = "<<offset;
//qDebug()<<getParent()->objectName()<<": scale = "<<scale;
//qDebug()<<getParent()->objectName()<<": scaleSign = "<<scaleSign;
#endif
// now we try to find a suitable tick and grid line spacing so that
// between maxTicks and axisStyle.minTicks ticks fit into twidth
// if autoXAxisSpacing/autoYAxisSpacing is false then the spacing properties
// are calculated from the user-supplied parameters currently there is no
// autoscaling for the logarithmic plots available
if (axisStyle.tickMode==JKQTPLTMLinOrPower) {
if (logAxis) {
tickSpacing=1;
tickSpacingLog=calcLogTickSpacing();
tickStart=pow(logAxisBase, floor(log(axismin)/log(logAxisBase)));
} else {
if (autoAxisSpacing) {
// autoscaling linear x-axis
tickSpacingLog=10;
tickSpacing=calcLinearTickSpacing();
} else {
// predefined scaling for linear x-axis
tickSpacing=userTickSpacing;
tickSpacingLog=userLogTickSpacing;
}
tickStart=floor(axismin/(tickSpacing))*tickSpacing;
}
} else if (axisStyle.tickMode==JKQTPLTMLin) {
if (autoAxisSpacing) {
// autoscaling linear x-axis
tickSpacingLog=10;
tickSpacing=calcLinearTickSpacing();
} else {
// predefined scaling for linear x-axis
tickSpacing=userTickSpacing;
tickSpacingLog=userLogTickSpacing;
}
tickStart=floor(axismin/(tickSpacing))*tickSpacing;
} else if (axisStyle.tickMode==JKQTPLTMPower) {
tickSpacing=1;
tickSpacingLog=calcLogTickSpacing();
tickStart=pow(logAxisBase, floor(log(axismin)/log(logAxisBase)));
}
axisStyle.labelDigits=calcLinearUnitDigits();
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<" tickStart="<<tickStart<<"\n";
//qDebug()<<" tickSpacing="<<tickSpacing<<"\n";
//qDebug()<<" labelDigits="<<axisStyle.labelDigits<<"\n";
#endif
paramsChanged=false;
}
bool JKQTPCoordinateAxis::isLogAxis() const {
return logAxis || (axisStyle.tickMode==JKQTPLTMPower);
}
const JKQTPCoordinateAxisStyle &JKQTPCoordinateAxis::getCurrentAxisStyle() const
{
return axisStyle;
}
void JKQTPCoordinateAxis::setCurrentAxisStyle(const JKQTPCoordinateAxisStyle &style)
{
axisStyle=style;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::loadCurrentAxisStyle(const QSettings &settings, const QString &group)
{
axisStyle.loadSettings(settings, group);
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::saveCurrentAxisStyle(QSettings &settings, const QString &group) const
{
axisStyle.saveSettings(settings, group);
}
void JKQTPCoordinateAxis::setRange(double aamin, double aamax) {
double oldamin=axismin;
double oldamax=axismax;
double amin=aamin;
double amax=aamax;
if (axisMinWidth>0 && fabs(amax-amin)<axisMinWidth) {
amax=amin+axisMinWidth;
}
axismin=amin;
axismax=amax;
if (amin<axisabsoultemin) axismin=axisabsoultemin;
if (amax>axisabsoultemax) axismax=axisabsoultemax;
if (axismin>axismax) {
axismin=amax;
axismax=amin;
}
if (isLogAxis()) {
if (axismin<=0) axismin=1e-306;
if (axismax<=0) axismax=1e-306;
if (fabs(axismin-axismax)<1e-306) {
axismax=10;
axismin=0.1;
}
}
if (axisMinWidth>0 && fabs(axismax-axismin)<axisMinWidth) {
axismax=axismin+axisMinWidth;
}
if (fabs(axismax-axismin)<1e-308) {
axismax=axismin+1;
}
if (oldamin!=axismin || oldamax!=axismax) {
paramsChanged=true;
calcPlotScaling();
redrawPlot();
}
}
void JKQTPCoordinateAxis::setNoAbsoluteRange() {
axisabsoultemin=-DBL_MAX;
axisabsoultemax=DBL_MAX;
setRange(axismin, axismax);
}
void JKQTPCoordinateAxis::setTickSpacing(double __value) {
this->tickSpacing = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setAxisMinWidth(double __value) {
this->axisMinWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setAutoAxisSpacing(bool __value) {
this->autoAxisSpacing = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickLabelsEnabled(bool __value) {
this->axisStyle.minorTickLabelsEnabled = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLogAxis(bool __value)
{
this->logAxis = __value;
this->paramsChanged=true;
if (this->isLogAxis()) {
if (axismin<0) axismin=pow(10.0, floor(log(axismax-axismin)/log(10.0)-1.0));
if (axismax<0) axismax=pow(10.0, floor(log(axismax-axismin)/log(10.0)+1.0));
}
redrawPlot();
}
void JKQTPCoordinateAxis::setLogAxisBase(double __value) {
this->logAxisBase = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setUserTickSpacing(double __value) {
this->userTickSpacing = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setUserLogTickSpacing(double __value) {
this->userLogTickSpacing = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLabelType(JKQTPCALabelType __value) {
this->axisStyle.labelType = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickMode(JKQTPLabelTickMode __value)
{
this->axisStyle.tickMode = __value;
this->paramsChanged=true;
setLogAxis(this->logAxis);
}
void JKQTPCoordinateAxis::setTickMode(int __value) {
setTickMode(JKQTPLabelTickMode(__value));
}
void JKQTPCoordinateAxis::setAxisLabel(const QString& __value) {
this->axisLabel = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLabelPosition(JKQTPLabelPosition __value) {
this->axisStyle.labelPosition = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLabelFontSize(double __value) {
this->axisStyle.labelFontSize = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickTimeFormat(const QString& __value) {
this->axisStyle.tickTimeFormat = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickDateFormat(const QString& __value) {
this->axisStyle.tickDateFormat = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickDateTimeFormat(const QString& __value) {
this->axisStyle.tickDateTimeFormat = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickLabelFontSize(double __value) {
this->axisStyle.tickLabelFontSize = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickLabelFontSize(double __value) {
this->axisStyle.minorTickLabelFontSize = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickLabelFullNumber(bool __value) {
this->axisStyle.minorTickLabelFullNumber = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinTicks(unsigned int __value) {
this->axisStyle.minTicks = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTicks(unsigned int __value) {
this->axisStyle.minorTicks = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTicks(int __value) {
this->axisStyle.minorTicks = qMax(int(0), __value);
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickOutsideLength(double __value) {
this->axisStyle.tickOutsideLength = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickOutsideLength(double __value) {
this->axisStyle.minorTickOutsideLength = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickInsideLength(double __value) {
this->axisStyle.tickInsideLength = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickInsideLength(double __value) {
this->axisStyle.minorTickInsideLength = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setAxisColor(const QColor& __value) {
this->axisStyle.axisColor = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setShowZeroAxis(bool __value) {
this->axisStyle.showZeroAxis = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setInverted(bool __value) {
this->inverted = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setGridColor(const QColor& __value) {
this->axisStyle.gridColor = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorGridColor(const QColor& __value) {
this->axisStyle.minorGridColor = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setGridWidth(double __value) {
this->axisStyle.gridWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setGridStyle(Qt::PenStyle __value) {
this->axisStyle.gridStyle = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorGridWidth(double __value) {
this->axisStyle.minorGridWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorGridStyle(Qt::PenStyle __value) {
this->axisStyle.minorGridStyle = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setDrawMode1(JKQTPCADrawMode __value) {
this->axisStyle.drawMode1 = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setDrawMode2(JKQTPCADrawMode __value) {
this->axisStyle.drawMode2 = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setMinorTickWidth(double __value) {
this->axisStyle.minorTickWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickWidth(double __value) {
this->axisStyle.tickWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLineWidth(double __value) {
this->axisStyle.lineWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLineWidthZeroAxis(double __value) {
this->axisStyle.lineWidthZeroAxis = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickLabelDistance(double __value) {
this->axisStyle.tickLabelDistance = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLabelDistance(double __value) {
this->axisStyle.labelDistance = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setLabelDigits(int __value) {
this->axisStyle.labelDigits = __value;
this->paramsChanged=true;
this->axisStyle.autoLabelDigits=false;
redrawPlot();
}
void JKQTPCoordinateAxis::setDrawGrid(bool __value) {
this->axisStyle.drawGrid = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setDrawMinorGrid(bool __value) {
this->axisStyle.drawMinorGrid = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setTickLabelAngle(double __value) {
this->axisStyle.tickLabelAngle = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPCoordinateAxis::setAbsoluteRange(double amin, double amax) {
axisabsoultemin=amin;
axisabsoultemax=amax;
if (axisabsoultemin>axisabsoultemax) {
axisabsoultemin=amax;
axisabsoultemax=amin;
}
if (axisabsoultemin==axisabsoultemax) {
axisabsoultemax=axisabsoultemin+1;
}
setRange(axismin, axismax);
/*paramsChanged=true;
calcPlotScaling();
redrawPlot();*/
}
double JKQTPCoordinateAxis::getNextLabelDistance(double x) {
if (axisStyle.tickMode==JKQTPLTMLinOrPower) {
if (logAxis) {
return x*tickSpacingLog;
} else {
return tickSpacing;
}
} else if (axisStyle.tickMode==JKQTPLTMLin) {
return tickSpacing;
} else if (axisStyle.tickMode==JKQTPLTMPower) {
return x*tickSpacingLog;
}
return 0;
}
bool JKQTPCoordinateAxis::getNextLabel(double& x, QString& label, bool init) {
//qDebug()<<"start JKQTPCoordinateAxis::getNextLabel("<<x<<label<<init<<")";
label="";
if (tickLabels.size()<=0) {
if (init) {
x=tickStart;
label=floattolabel(x);
return true;
} else {
if (axisStyle.tickMode==JKQTPLTMLinOrPower) {
if (logAxis) {
x*=tickSpacingLog;
} else {
x=x+tickSpacing;
}
} else if (axisStyle.tickMode==JKQTPLTMLin) {
x=x+tickSpacing;
} else if (axisStyle.tickMode==JKQTPLTMPower) {
x*=tickSpacingLog;
}
}
if (x>=axismin && x<=axismax) {
label=floattolabel(x);
}
return (x<=axismax);
} else {
if (init) {
if (tickLabels.size()>0) {
x=tickLabels[0].first;
label=tickLabels[0].second;
}
return (tickLabels.size()>0);
} else {
for (int i=0; i<tickLabels.size(); i++) {
if (x==tickLabels[i].first && i+1<tickLabels.size()) {
if (x>=axismin && x<=axismax) {
label=tickLabels[i+1].second;
x=tickLabels[i+1].first;
return true;
} else {
return false;
}
}
}
}
}
return false;
}
QSizeF JKQTPCoordinateAxis::getMaxTickLabelSize(JKQTPEnhancedPainter& painter, double* ascent, double* descent) {
double w=0, h=0, a=0;
calcPlotScaling();
double x=tickStart;
QString label="";
getNextLabel(x, label, true);
QFont f;
f.setFamily(getParent()->getCurrentPlotterStyle().defaultFontName);
f.setPointSizeF(this->axisStyle.tickLabelFontSize*parent->getFontSizeMultiplier());
QFontMetricsF fm(f);
bool first=true;
int cnt=0;
while (getNextLabel(x, label, first) && cnt<50) {
double width, ascent, descent, strikeoutPos;
parent->getTextSizeDetail(f, label, painter, width, ascent, descent, strikeoutPos);
if (width>w) w=width;
if (ascent+descent>h) h=ascent+descent;
if (ascent>a) a=ascent;
first=false;
cnt++;
}
//qDebug()<<"getMaxTickLabelSize() = ["<<w<<", "<<h<<"]\n";
if (ascent) *ascent=a;
if (descent) *descent=h-a;
if (axisStyle.tickLabelAngle!=0) {
QRectF r(0,0,w,h);
return jkqtpRotateRect(r, axisStyle.tickLabelAngle).boundingRect().size();
} else {
return QSizeF(w, h);
}
}
JKQTPVerticalAxis::JKQTPVerticalAxis(JKQTBasePlotter* parent):
JKQTPCoordinateAxis(parent)
{
//axisPrefix="yaxis_";
scaleSign=-1;
if (parent) {
axisStyle=parent->getCurrentPlotterStyle().yAxisStyle;
} else {
axisStyle=JKQTPGetSystemDefaultBaseStyle().yAxisStyle;
}
}
double JKQTPVerticalAxis::getParentPlotWidth() const {
return parent->getPlotHeight();
}
double JKQTPVerticalAxis::getParentPlotOffset() const {
return parent->getInternalPlotBorderTop();
}
QSizeF JKQTPVerticalAxis::getSize1(JKQTPEnhancedPainter& painter) {
if (axisStyle.drawMode1==JKQTPCADMnone) return QSize(0,0);
double ptwidth=axisStyle.axisLineOffset;
double labwidth=0;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode1)) ptwidth+=axisStyle.tickOutsideLength;
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
ptwidth+=axisStyle.tickLabelDistance;
// find out the maximum width over all visible plot labels
labwidth+=getMaxTickLabelSize(painter).width();
}
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
ptwidth+=axisStyle.labelDistance;
// find out size of axis label
labwidth+=parent->getTextSizeSize(getParent()->getCurrentPlotterStyle().defaultFontName, axisStyle.labelFontSize*parent->getFontSizeMultiplier(), axisLabel, painter).height();
}
return QSizeF(parent->pt2px(painter, ptwidth)+labwidth, getParentPlotWidth());
}
QSizeF JKQTPVerticalAxis::getSize2(JKQTPEnhancedPainter& painter) {
if (axisStyle.drawMode2==JKQTPCADMnone) return QSize(0,0);
double ptwidth=axisStyle.axisLineOffset;
double labwidth=0;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode2)) ptwidth+=axisStyle.tickOutsideLength;
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
ptwidth+=axisStyle.tickLabelDistance;
// find out the maximum width over all visible plot labels
labwidth+=getMaxTickLabelSize(painter).width();
}
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
ptwidth+=axisStyle.labelDistance;
// find out size of axis label
labwidth+=parent->getTextSizeSize(getParent()->getCurrentPlotterStyle().defaultFontName, axisStyle.labelFontSize*parent->getFontSizeMultiplier(), axisLabel, painter).height();
}
return QSizeF(parent->pt2px(painter, ptwidth)+labwidth, getParentPlotWidth());
}
double JKQTPVerticalAxis::getParentOtheraxisOffset() const {
return parent->x2p(parent->getXMin());
}
double JKQTPVerticalAxis::getParentOtheraxisWidth() const {
return fabs(parent->x2p(parent->getXMax())-parent->x2p(parent->getXMin()));
}
bool JKQTPVerticalAxis::getParentOtheraxisInverted() const
{
return parent->getXAxis()->getInverted();
}
void JKQTPVerticalAxis::drawGrids(JKQTPEnhancedPainter& painter) {
//qDebug()<<" start JKQTPVerticalAxis::drawGrids(";
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen pg=painter.pen();
pg.setColor(axisStyle.gridColor);
pg.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.gridWidth*parent->getLineWidthMultiplier())));
pg.setStyle(axisStyle.gridStyle);
QPen pmg=painter.pen();
pmg.setColor(axisStyle.minorGridColor);
pmg.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH,parent->pt2px(painter, axisStyle.minorGridWidth*parent->getLineWidthMultiplier())));
pmg.setStyle(axisStyle.minorGridStyle);
//double top=x2p(axismax);
//double bottom=x2p(axismin);
double left=0;
double right=0;
if (getParentOtheraxisInverted()) {
left=getParentOtheraxisOffset()-getParentOtheraxisWidth();//;
right=getParentOtheraxisOffset();//;
} else {
left=getParentOtheraxisOffset();//;
right=getParentOtheraxisOffset()+getParentOtheraxisWidth();//;
}
double x=tickStart;
QString label="";
bool first=true;
// loop through all labels, as they are at the major ticks, do not draw more than 200 labels (prevent hang ups)
int cnt=0;
QVector<QLineF> lines_pg;
QVector<QLineF> lines_pmg;
while (getNextLabel(x, label, first) && (cnt<200)) {
double w=getNextLabelDistance(x);
double mtdist=w/static_cast<double>(axisStyle.minorTicks+1);
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" axisStyle.minorTicks="<<minorTicks;
//painter.setPen(pg);
//qDebug()<<" 1";
if (axisStyle.drawGrid && (x<axismax) && (x>axismin) && (fabs(left-right)>0)) {
QLineF l(left, xx, right, xx);
if (l.length()>0) lines_pg.append(l);//painter.drawLine(l);
}
//qDebug()<<" 2";
//painter.setPen(pmg);
//qDebug()<<" 3";
if ((tickLabels.size()<=0) && axisStyle.drawMinorGrid && (axisStyle.minorTicks>0) && (fabs(right-left)>0)) {
//qDebug()<<" 3.1";
double mx=x+mtdist;
//qDebug()<<" 3.2";
for (int i=0; i<static_cast<int>(axisStyle.minorTicks); i++) {
//qDebug()<<" 3.2.1";
double mxx=x2p(mx);
//qDebug()<<" 3.2.2";
if ((mx<axismax) && (mx>axismin) && (fabs(right-left)>0)) {
QLineF l(left, mxx, right, mxx);
if (l.length()>0) lines_pmg.append(l);//painter.drawLine(l);
}
//qDebug()<<" 3.2.3";
mx=mx+mtdist;
//qDebug()<<" 3.2.4";
}
}
first=false;
cnt++;
}
painter.setPen(pg);
painter.drawLines(lines_pg);
painter.setPen(pmg);
painter.drawLines(lines_pmg);
//qDebug()<<" end JKQTPVerticalAxis::drawGrids(";
}
void JKQTPVerticalAxis::drawTickLabel1(JKQTPEnhancedPainter &painter, double xx, double yy, const QString& label, double fontSize)
{
getParentMathText()->setFontSize(fontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
getParentMathText()->parse(label);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
double lx=xx-parent->pt2px(painter, axisStyle.minorTickOutsideLength+axisStyle.tickLabelDistance)-width;
if (axisStyle.tickLabelAngle==90) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(lx+width-1.25*strikeoutPos, yy-width/2.0);
painter.rotate(axisStyle.tickLabelAngle);
getParentMathText()->draw(painter, 0,0);
} else if (axisStyle.tickLabelAngle==-90) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(lx+width-0.25*strikeoutPos, yy+width/2.0);
painter.rotate(axisStyle.tickLabelAngle);
getParentMathText()->draw(painter, 0,0);
} else if (axisStyle.tickLabelAngle!=0) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
if (axisStyle.tickLabelAngle>0) {
painter.translate(lx-strikeoutPos+(width)*(1.0-cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos-width*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI));
painter.rotate(axisStyle.tickLabelAngle);
} else {
painter.translate(lx+strikeoutPos+(width-strikeoutPos)*(1.0-cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos+width*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI));
painter.rotate(axisStyle.tickLabelAngle);
}
getParentMathText()->draw(painter, 0,0);
} else {
getParentMathText()->draw(painter, lx, yy+strikeoutPos);
}
}
}
void JKQTPVerticalAxis::drawTickLabel2(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize)
{
getParentMathText()->setFontSize(fontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
getParentMathText()->parse(label);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
double lx=xx+parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance);
if (axisStyle.tickLabelAngle==90) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(lx+descent, yy-width/2.0);
painter.rotate(axisStyle.tickLabelAngle);
getParentMathText()->draw(painter, 0,0);
} else if (axisStyle.tickLabelAngle==-90) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(lx+ascent, yy+width/2.0);
painter.rotate(axisStyle.tickLabelAngle);
getParentMathText()->draw(painter, 0,0);
} else if (axisStyle.tickLabelAngle!=0) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
double shiftx=0;
if (axisStyle.tickLabelAngle>0) {
shiftx=strikeoutPos*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI);
} else {
}
painter.translate(lx+shiftx, yy+strikeoutPos);
painter.rotate(-axisStyle.tickLabelAngle);
getParentMathText()->draw(painter, 0,0);
} else {
getParentMathText()->draw(painter, lx, yy+strikeoutPos);
}
}
}
void JKQTPVerticalAxis::drawAxes(JKQTPEnhancedPainter& painter) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes()").arg(objectName()));
#endif
// make shure all parameters are calculated correctly
calcPlotScaling();
// determine pixel coordinates of important positions
double top=x2p(axismax);
double bottom=x2p(axismin);
double left=0;
double right=0;
if (inverted) {
qSwap(top, bottom);
}
if (getParentOtheraxisInverted()) {
left=getParentOtheraxisOffset()-getParentOtheraxisWidth();//;
right=getParentOtheraxisOffset();//;
} else {
left=getParentOtheraxisOffset();//;
right=getParentOtheraxisOffset()+getParentOtheraxisWidth();//;
}
// move axes outside plot rectangle, if required
left-=parent->pt2px(painter, axisStyle.axisLineOffset);
right+=parent->pt2px(painter, axisStyle.axisLineOffset);
//qDebug()<<"JKQTPVerticalAxis:";
//qDebug()<<" left="<<left;
//qDebug()<<" right="<<right;
//qDebug()<<" top="<<top;
//qDebug()<<" bottom="<<bottom;
//qDebug()<<" scale="<<scale;
//qDebug()<<" offset="<<offset;
//qDebug()<<" x2p(0)="<<x2p(0);
//qDebug()<<" tickStart="<<tickStart;
if (std::isnan(left) || std::isnan(right) || std::isnan(top) || std::isnan(bottom)) return;
if (std::isinf(left) || std::isinf(right) || std::isinf(top) || std::isinf(bottom)) return;
//qDebug()<<" start JKQTPVerticalAxis::drawAxes(";
//qDebug()<<"drawing vertical axis ... range = ["<<axismin<<" .. "<<axismax<<"]\n";
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen pmain=painter.pen();
pmain.setColor(axisStyle.axisColor);
pmain.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.lineWidth*parent->getLineWidthMultiplier())));
pmain.setStyle(Qt::SolidLine);
QPen ptick=pmain;
ptick.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.tickWidth*parent->getLineWidthMultiplier())));
QPen pmtick=ptick;
pmtick.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.minorTickWidth*parent->getLineWidthMultiplier())));
getParentMathText()->setFontSize(this->axisStyle.tickLabelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
painter.setPen(pmain);
// plot thick axis at y==0
if (axisStyle.showZeroAxis && (0>axismin) && (0<axismax)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes(): 0Axis").arg(objectName()));
#endif
QPen pmain1=pmain;
pmain1.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.lineWidthZeroAxis*parent->getLineWidthMultiplier())));
pmain1.setColor(axisStyle.colorZeroAxis);
pmain1.setStyle(axisStyle.styleZeroAxis);
painter.setPen(pmain1);
QLineF l(left-parent->pt2px(painter, axisStyle.tickOutsideLength), x2p(0), right+parent->pt2px(painter, axisStyle.tickOutsideLength), x2p(0));
painter.drawLine(l);
painter.setPen(pmain);
}
// draw thick axis lines, left and/or right
if ( JKQTPCADrawModeHasLine(axisStyle.drawMode1)) {
QLineF l(left, x2p(axismin), left, x2p(axismax));
painter.drawLine(l);
}
if (JKQTPCADrawModeHasLine(axisStyle.drawMode2)) {
QLineF l(right, x2p(axismin), right, x2p(axismax));
painter.drawLine(l);
}
// plot minor and major ticks + tick labels
QSizeF labelMax=getMaxTickLabelSize(painter);
double x=tickStart;
QString label="";
bool first=true;
// loop through all labels, as they are at the major ticks
int cnt=0;
QVector<QLineF> lines_ptick, lines_ptick2;
QVector<QLineF> lines_pmtick, lines_pmtick2;
{
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes(): calcLabels").arg(objectName()));
#endif
while (getNextLabel(x, label, first) && cnt<200) {
double mtdist=getNextLabelDistance(x)/static_cast<double>(axisStyle.minorTicks+1);
double xleft=-1000000;
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" axisStyle.minorTicks="<<minorTicks;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode1)||JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
//painter.setPen(ptick);
if ((x<=axismax) && (x>=axismin)) {
QLineF l(left-parent->pt2px(painter, axisStyle.tickOutsideLength), xx, left+parent->pt2px(painter, axisStyle.tickInsideLength), xx);
if (l.length()>0) lines_ptick.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (axisStyle.minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=axisStyle.minorTicks;
if (isLogAxis()) {
if (mtdist>x) {
mx=mtdist;
} else {
minTickCnt--;
mx=2.0*mtdist;
}
}
for (int i=0; i<minTickCnt; i++) {
double mxx=x2p(mx);
//if (logAxis) qDebug()<<i<<" => "<<mx<<mxx<<apprLogTicks<<w<<minorTicks;
if (mx<=axismax && mx>=axismin) {
QLineF l(xleft=left-parent->pt2px(painter, axisStyle.minorTickOutsideLength), mxx, left+parent->pt2px(painter, axisStyle.minorTickInsideLength), mxx);
if (l.length()>0) lines_pmtick.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (axisStyle.minorTickLabelsEnabled&&JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
if (axisStyle.minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel1(painter, left, mxx, minorlabel, axisStyle.minorTickLabelFontSize);
//drawTickLabel2(painter, right, xx, minorlabel, axisStyle.minorTickLabelFontSize);
}
}
mx=mx+mtdist;
}
}
}
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode2)||JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
//painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(right-parent->pt2px(painter, axisStyle.tickInsideLength), xx, right+parent->pt2px(painter, axisStyle.tickOutsideLength), xx);
if (l.length()>0) lines_ptick2.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (axisStyle.minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=axisStyle.minorTicks;
if (isLogAxis()) {
if (mtdist>x) {
mx=mtdist;
} else {
minTickCnt--;
mx=2.0*mtdist;
}
}
for (int i=0; i<minTickCnt; i++) {
double mxx=x2p(mx);
if (mx<=axismax && mx>=axismin) {
QLineF l(right-parent->pt2px(painter, axisStyle.minorTickInsideLength), mxx, xleft=(right+parent->pt2px(painter, axisStyle.minorTickOutsideLength)), mxx);
if (l.length()>0) lines_pmtick2.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (axisStyle.minorTickLabelsEnabled) {
if (axisStyle.minorTickLabelFullNumber&&JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) val=mx;
QString minorlabel=floattolabel(val);
//drawTickLabel1(painter, left, xx, minorlabel, axisStyle.minorTickLabelFontSize);
drawTickLabel2(painter, xleft, mxx, minorlabel, axisStyle.minorTickLabelFontSize);
}
}
mx=mx+mtdist;
}
}
}
if ((label!="") && (x<=axismax && x>=axismin)) {
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) drawTickLabel1(painter, left, xx, label, this->axisStyle.tickLabelFontSize);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) drawTickLabel2(painter, right, xx, label, this->axisStyle.tickLabelFontSize);
}
first=false;
cnt++;
}
}
{
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes(): drawLines").arg(objectName()));
#endif
painter.setPen(ptick);
painter.drawLines(lines_ptick);
painter.drawLines(lines_ptick2);
painter.setPen(pmtick);
painter.drawLines(lines_pmtick);
painter.drawLines(lines_pmtick2);
}
// plot axis label
if (!axisLabel.isEmpty() && JKQTPCADrawModeHasAxisLabel(axisStyle.drawMode1)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes(): axisLabel1").arg(objectName()));
#endif
getParentMathText()->setFontSize(axisStyle.labelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->parse(axisLabel);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
QRectF rect(0,0, getParentPlotWidth(), ascent+descent);//plotBorderLeft-30);
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(QPointF(left-parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance+axisStyle.labelDistance)-descent-labelMax.width()-labelMax.height(), bottom));
painter.rotate(-90);
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(axisStyle.labelPosition) {
case JKQTPLabelMax:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("magenta");
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth/2.0);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
painter.drawRect(rect);
}
painter.resetTransform();
}
if (!axisLabel.isEmpty() && JKQTPCADrawModeHasAxisLabel(axisStyle.drawMode2)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPEnhancedPainter[%1]::drawAxes(): axisLabel2").arg(objectName()));
#endif
getParentMathText()->setFontSize(axisStyle.labelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->parse(axisLabel);
QRectF rect(0,0, getParentPlotWidth(), getParentMathText()->getSize(painter).height());//plotBorderLeft-30);
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(QPointF(right+parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance+axisStyle.labelDistance)+labelMax.width(), bottom));
painter.rotate(-90);
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(axisStyle.labelPosition) {
case JKQTPLabelMax:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("magenta");
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth/2.0);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
painter.drawRect(rect);
}
//painter.resetTransform();
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("cyan");
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth);
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
QSizeF s1, s2;
s1=getSize1(painter);
s2=getSize2(painter);
painter.drawRect(QRectF(QPointF(left-s1.width(), top), s1));
painter.drawRect(QRectF(QPointF(right, top), s2));
}
//qDebug()<<" end JKQTPVerticalAxis::drawAxes(";
}
JKQTPVerticalIndependentAxis::JKQTPVerticalIndependentAxis(double _axisOffset, double _axisWidth, double _otherAxisOffset, double _otherAxisWidth, JKQTBasePlotter* parent):
JKQTPVerticalAxis(parent),
axisOffset(_axisOffset),
axisWidth(_axisWidth),
otherAxisWidth(_otherAxisOffset),
otherAxisOffset(_otherAxisWidth),
otherAxisInverted(false)
{
if (parent) {
axisStyle=parent->getCurrentPlotterStyle().rightColorbarAxisStyle;
} else {
axisStyle=JKQTPGetSystemDefaultBaseStyle().rightColorbarAxisStyle;
}
}
void JKQTPVerticalIndependentAxis::setAxisOffset(double __value) {
this->axisOffset = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPVerticalIndependentAxis::setAxisWidth(double __value) {
this->axisWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPVerticalIndependentAxis::setOtherAxisOffset(double __value) {
this->otherAxisOffset = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPVerticalIndependentAxis::setOtherAxisWidth(double __value) {
this->otherAxisWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPVerticalIndependentAxis::setOtherAxisInverted(bool __value) {
this->otherAxisInverted = __value;
this->paramsChanged=true;
redrawPlot();
}
double JKQTPVerticalIndependentAxis::getParentPlotWidth() const { return axisWidth; }
double JKQTPVerticalIndependentAxis::getParentPlotOffset() const { return axisOffset; }
double JKQTPVerticalIndependentAxis::getParentOtheraxisWidth() const { return otherAxisWidth; }
bool JKQTPVerticalIndependentAxis::getParentOtheraxisInverted() const { return otherAxisInverted; }
double JKQTPVerticalIndependentAxis::getParentOtheraxisOffset() const { return otherAxisOffset; }
JKQTPHorizontalAxis::JKQTPHorizontalAxis(JKQTBasePlotter* parent):
JKQTPCoordinateAxis(parent)
{
//axisPrefix="xaxis_";
scaleSign=1;
if (parent) {
axisStyle=parent->getCurrentPlotterStyle().xAxisStyle;
} else {
axisStyle=JKQTPGetSystemDefaultBaseStyle().xAxisStyle;
}
}
double JKQTPHorizontalAxis::getParentPlotWidth() const {
return parent->getPlotWidth();
}
double JKQTPHorizontalAxis::getParentPlotOffset() const {
return parent->getInternalPlotBorderLeft();
}
QSizeF JKQTPHorizontalAxis::getSize1(JKQTPEnhancedPainter& painter) {
if (axisStyle.drawMode1==JKQTPCADMnone) return QSize(0,0);
double ptwidth=axisStyle.axisLineOffset;
double labwidth=0;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode1)) ptwidth+=axisStyle.tickOutsideLength;
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
ptwidth+=axisStyle.tickLabelDistance;
// find out the maximum width over all visible plot labels
labwidth+=getMaxTickLabelSize(painter).height();
}
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
ptwidth+=axisStyle.labelDistance;
// find out size of axis label
labwidth+=parent->getTextSizeSize(getParent()->getCurrentPlotterStyle().defaultFontName, axisStyle.labelFontSize*parent->getFontSizeMultiplier(), axisLabel, painter).height();
}
return QSizeF(getParentPlotWidth(), parent->pt2px(painter, ptwidth)+labwidth);
}
QSizeF JKQTPHorizontalAxis::getSize2(JKQTPEnhancedPainter& painter) {
if (axisStyle.drawMode2==JKQTPCADMnone) return QSize(0,0);
double ptwidth=axisStyle.axisLineOffset;
double labwidth=0;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode2)) ptwidth+=axisStyle.tickOutsideLength;
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
ptwidth+=axisStyle.tickLabelDistance;
// find out the maximum width over all visible plot labels
labwidth+=getMaxTickLabelSize(painter).height();
}
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
ptwidth+=axisStyle.labelDistance;
// find out size of axis label
labwidth+=parent->getTextSizeSize(getParent()->getCurrentPlotterStyle().defaultFontName, axisStyle.labelFontSize*parent->getFontSizeMultiplier(), axisLabel, painter).height();
}
return QSizeF(getParentPlotWidth(), parent->pt2px(painter, ptwidth)+labwidth);
}
double JKQTPHorizontalAxis::getParentOtheraxisOffset() const {
return parent->y2p(parent->getYMax());
}
double JKQTPHorizontalAxis::getParentOtheraxisWidth() const {
return fabs(parent->y2p(parent->getYMax())-parent->y2p(parent->getYMin()));
}
bool JKQTPHorizontalAxis::getParentOtheraxisInverted() const
{
return parent->getYAxis()->getInverted();
}
void JKQTPHorizontalAxis::drawGrids(JKQTPEnhancedPainter& painter) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
//double right=x2p(axismax);
//double left=x2p(axismin);
double bottom=0;
double top=0;
if (getParentOtheraxisInverted()) {
top=getParentOtheraxisOffset()-getParentOtheraxisWidth();//;
bottom=getParentOtheraxisOffset();//;
} else {
top=getParentOtheraxisOffset();//;
bottom=getParentOtheraxisOffset()+getParentOtheraxisWidth();//;
}
QPen pg=painter.pen();
pg.setColor(axisStyle.gridColor);
pg.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.gridWidth*parent->getFontSizeMultiplier())));
pg.setStyle(axisStyle.gridStyle);
QPen pmg=painter.pen();
pmg.setColor(axisStyle.minorGridColor);
pmg.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.minorGridWidth*parent->getLineWidthMultiplier())));
pmg.setStyle(axisStyle.minorGridStyle);
double x=tickStart;
QString label="";
bool first=true;
// loop through all labels, as they are at the major ticks
int cnt=0;
QVector<QLineF> lines_pg;
QVector<QLineF> lines_pmg;
while (getNextLabel(x, label, first) && cnt<200) {
double mtdist=getNextLabelDistance(x)/static_cast<double>(axisStyle.minorTicks+1);
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" axisStyle.minorTicks="<<minorTicks;
//painter.setPen(pg);
if (axisStyle.drawGrid && (x<axismax) && (x>axismin)) {
QLineF l(xx, bottom, xx, top);
if (l.length()>0) lines_pg.append(l);//painter.drawLine(l);
}
//painter.setPen(pmg);
if ((tickLabels.size()<=0) && axisStyle.drawMinorGrid && (axisStyle.minorTicks>0)) {
double mx=x+mtdist;
for (int i=0; i<static_cast<int>(axisStyle.minorTicks); i++) {
double mxx=x2p(mx);
if ((mx<axismax) && (mx>axismin)) {
QLineF l( mxx, bottom, mxx, top);
if (l.length()>0) lines_pmg.append(l);//painter.drawLine(l);
}
mx=mx+mtdist;
}
}
first=false;
cnt++;
}
painter.setPen(pg);
painter.drawLines(lines_pg);
painter.setPen(pmg);
painter.drawLines(lines_pmg);
}
void JKQTPHorizontalAxis::drawTickLabel1(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize, double ascentMax, double /*descentMax*/)
{
getParentMathText()->setFontSize(fontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
getParentMathText()->parse(label);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
double lx0=yy+parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance);
double lx=lx0+ascentMax;
if (axisStyle.tickLabelAngle!=0) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
if (axisStyle.tickLabelAngle>0) {
painter.translate(xx-fabs(ascent*sin(axisStyle.tickLabelAngle/180.0*M_PI)/2.0), lx0+fabs(ascent*cos(axisStyle.tickLabelAngle/180.0*M_PI)));
painter.rotate(axisStyle.tickLabelAngle);
} else {
painter.translate(xx+fabs(ascent*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)), lx0+ascent*fabs(cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI))+fabs(width*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)));
painter.rotate(axisStyle.tickLabelAngle);
}
getParentMathText()->draw(painter, 0,0);
} else {
getParentMathText()->draw(painter, xx-width/2.0, lx);
}
}
}
void JKQTPHorizontalAxis::drawTickLabel2(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize, double /*ascentMax*/, double descentMax)
{
getParentMathText()->setFontSize(fontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
getParentMathText()->parse(label);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
double lx0=yy-parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance);
double lx=lx0-descentMax;
if (axisStyle.tickLabelAngle!=0) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
if (axisStyle.tickLabelAngle>0) {
painter.translate(xx+fabs(descent*sin(axisStyle.tickLabelAngle/180.0*M_PI)/2.0), lx0-fabs(descent*cos(axisStyle.tickLabelAngle/180.0*M_PI)));
painter.rotate(-axisStyle.tickLabelAngle);
} else {
painter.translate(xx-fabs(descent*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)), lx0-descent*fabs(cos(fabs(axisStyle.tickLabelAngle)/180.0*M_PI))-fabs(width*sin(fabs(axisStyle.tickLabelAngle)/180.0*M_PI)));
painter.rotate(-axisStyle.tickLabelAngle);
}
getParentMathText()->draw(painter, 0,0);
} else {
getParentMathText()->draw(painter, xx-width/2.0, lx);
}
}
}
void JKQTPHorizontalAxis::drawAxes(JKQTPEnhancedPainter& painter) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes()").arg(objectName()));
#endif
// make shure all parameters are calculated correctly
calcPlotScaling();
// determine pixel coordinates of important positions
double right=x2p(axismax);
double left=x2p(axismin);
double bottom=0;
double top=0;
if (inverted) {
qSwap(left, right);
}
if (getParentOtheraxisInverted()) {
top=getParentOtheraxisOffset()-getParentOtheraxisWidth();//;
bottom=getParentOtheraxisOffset();//;
} else {
top=getParentOtheraxisOffset();//;
bottom=getParentOtheraxisOffset()+getParentOtheraxisWidth();//;
}
// move axes outside plot rectangle, if required
top-=parent->pt2px(painter, axisStyle.axisLineOffset);
bottom+=parent->pt2px(painter, axisStyle.axisLineOffset);
//qDebug()<<" left="<<left<<"\n";
//qDebug()<<" right="<<right<<"\n";
//qDebug()<<" top="<<top<<"\n";
//qDebug()<<" bottom="<<bottom<<"\n";
//qDebug()<<" scale="<<scale<<"\n";
//qDebug()<<" offset="<<offset<<"\n";
//qDebug()<<" x2p(0)="<<x2p(0);
//qDebug()<<" tickStart="<<tickStart<<"\n";
if (std::isnan(left) || std::isnan(right) || std::isnan(top) || std::isnan(bottom)) return;
if (std::isinf(left) || std::isinf(right) || std::isinf(top) || std::isinf(bottom)) return;
//qDebug()<<"drawing vertical axis ... range = ["<<axismin<<" .. "<<axismax<<"]\n";
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen pmain=painter.pen();
pmain.setColor(axisStyle.axisColor);
pmain.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.lineWidth*parent->getLineWidthMultiplier())));
pmain.setStyle(Qt::SolidLine);
QPen ptick=pmain;
ptick.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.tickWidth*parent->getLineWidthMultiplier())));
QPen pmtick=ptick;
pmtick.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.minorTickWidth*parent->getLineWidthMultiplier())));
getParentMathText()->setFontSize(this->axisStyle.tickLabelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->setFontColor(axisStyle.axisColor);
painter.setPen(pmain);
// plot thick axis at y==0
if (axisStyle.showZeroAxis && (0>axismin) && (0<axismax)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes(): 0Axis").arg(objectName()));
#endif
QPen pmain1=pmain;
pmain1.setWidthF(qMax(JKQTPlotterDrawingTools::ABS_MIN_LINEWIDTH, parent->pt2px(painter, axisStyle.lineWidthZeroAxis*parent->getLineWidthMultiplier())));
pmain1.setColor(axisStyle.colorZeroAxis);
pmain1.setStyle(axisStyle.styleZeroAxis);
painter.setPen(pmain1);
QLineF l(x2p(0), bottom+parent->pt2px(painter, axisStyle.tickOutsideLength), x2p(0), top-parent->pt2px(painter, axisStyle.tickOutsideLength));
painter.drawLine(l);
painter.setPen(pmain);
}
// draw thick axis lines, left and/or right
if (JKQTPCADrawModeHasLine(axisStyle.drawMode1)) {
QLineF l(x2p(axismin), bottom, x2p(axismax), bottom);
painter.drawLine(l);
}
if (JKQTPCADrawModeHasLine(axisStyle.drawMode2)) {
QLineF l(x2p(axismin), top, x2p(axismax), top);
painter.drawLine(l);
}
// plot minor and major ticks + tick labels
double ascentMax, descentMax;
QSizeF labelMax=getMaxTickLabelSize(painter, &ascentMax, &descentMax);
double x=tickStart;
QString label="";
bool first=true;
// loop through all labels, as they are at the major ticks
int cnt=0;
QVector<QLineF> lines_ptick, lines_ptick2;
QVector<QLineF> lines_pmtick, lines_pmtick2;
{
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes(): calcLabels").arg(objectName()));
#endif
while (getNextLabel(x, label, first) && cnt<200) {
double mtdist=getNextLabelDistance(x)/static_cast<double>(axisStyle.minorTicks+1);
double xleft=-1000000;
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" axisStyle.minorTicks="<<minorTicks;
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode1)||JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
//painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(xx, bottom-parent->pt2px(painter, axisStyle.tickInsideLength), xx, bottom+parent->pt2px(painter, axisStyle.tickOutsideLength));
if (l.length()>0) lines_ptick.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (axisStyle.minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=axisStyle.minorTicks;
if (isLogAxis()) {
if (mtdist>x) {
mx=mtdist;
} else {
minTickCnt--;
mx=2.0*mtdist;
}
}
for (int i=0; i<minTickCnt; i++) {
double mxx=x2p(mx);
if (mx<=axismax && mx>=axismin) {
QLineF l( mxx, bottom-parent->pt2px(painter, axisStyle.minorTickInsideLength), mxx, xleft=(bottom+parent->pt2px(painter, axisStyle.minorTickOutsideLength)));
if (l.length()>0) lines_pmtick.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (axisStyle.minorTickLabelsEnabled && JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) {
if (axisStyle.minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel1(painter, mxx, xleft, minorlabel, axisStyle.minorTickLabelFontSize, ascentMax, descentMax);
}
}
mx=mx+mtdist;
}
}
}
if (JKQTPCADrawModeHasTicks(axisStyle.drawMode2)||JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(xx, top-parent->pt2px(painter, axisStyle.tickOutsideLength), xx, top+parent->pt2px(painter, axisStyle.tickInsideLength));
if (l.length()>0) lines_ptick2.append(l);//painter.drawLine(l);
}
painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (axisStyle.minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=axisStyle.minorTicks;
if (isLogAxis()) {
if (mtdist>x) {
mx=mtdist;
} else {
minTickCnt--;
mx=2.0*mtdist;
}
}
for (int i=0; i<minTickCnt; i++) {
double mxx=x2p(mx);
if (mx<=axismax && mx>=axismin) {
QLineF l( mxx, top-parent->pt2px(painter, axisStyle.minorTickOutsideLength), mxx, xleft=(top+parent->pt2px(painter, axisStyle.minorTickInsideLength)));
if (l.length()>0) lines_pmtick2.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (axisStyle.minorTickLabelsEnabled && JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) {
if (axisStyle.minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel2(painter, mxx, xleft, minorlabel, axisStyle.minorTickLabelFontSize, ascentMax, descentMax);
}
}
mx=mx+mtdist;
}
}
}
if ((label!="") && (x<=axismax && x>=axismin)) {
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode1)) drawTickLabel1(painter, xx, bottom, label, this->axisStyle.tickLabelFontSize, ascentMax, descentMax);
if (JKQTPCADrawModeHasTickLabels(axisStyle.drawMode2)) drawTickLabel2(painter, xx, top, label, this->axisStyle.tickLabelFontSize, ascentMax, descentMax);
}
first=false;
cnt++;
}
}
{
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes(): drawLines").arg(objectName()));
#endif
painter.setPen(ptick);
painter.drawLines(lines_ptick);
painter.drawLines(lines_ptick2);
painter.setPen(pmtick);
painter.drawLines(lines_pmtick);
painter.drawLines(lines_pmtick2);
}
// plot axis label
if (!axisLabel.isEmpty() && JKQTPCADrawModeHasAxisLabel(axisStyle.drawMode1)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes(): axisLabel1").arg(objectName()));
#endif
getParentMathText()->setFontSize(axisStyle.labelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->parse(axisLabel);
double width, ascent, descent, strikeoutPos;
getParentMathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
QRectF rect(0,0, getParentPlotWidth(), ascent+descent);//plotBorderLeft-30);
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(QPointF(left, bottom+parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance+axisStyle.labelDistance)+labelMax.height()));
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(axisStyle.labelPosition) {
case JKQTPLabelMax:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("magenta");
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth/2.0);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
painter.drawRect(rect);
}
//painter.resetTransform();
}
if (!axisLabel.isEmpty() && JKQTPCADrawModeHasAxisLabel(axisStyle.drawMode2)) {
#ifdef JKQTBP_AUTOTIMER
JKQTPAutoOutputTimer jkaat(QString("JKQTPHorizontalAxis[%1]::drawAxes(): axisLabel2").arg(objectName()));
#endif
getParentMathText()->setFontSize(axisStyle.labelFontSize*parent->getFontSizeMultiplier());
getParentMathText()->setFontRomanOrSpecial(getParent()->getCurrentPlotterStyle().defaultFontName);
getParentMathText()->parse(axisLabel);
QRectF rect(0,0, getParentPlotWidth(), getParentMathText()->getSize(painter).height());//plotBorderLeft-30);
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
painter.translate(QPointF(left, top-parent->pt2px(painter, axisStyle.tickOutsideLength+axisStyle.tickLabelDistance+axisStyle.labelDistance)-labelMax.height()-rect.height()));
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(axisStyle.labelPosition) {
case JKQTPLabelMax:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
getParentMathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("magenta");
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth/2.0);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
painter.drawRect(rect);
}
//painter.resetTransform();
}
if (getParent()->getCurrentPlotterStyle().debugShowRegionBoxes) {
painter.save(); auto __finalpaint=JKQTPFinally([&painter]() {painter.restore();});
QPen p("cyan");
QColor col=p.color(); col.setAlphaF(0.8); p.setColor(col);
p.setWidthF(getParent()->getCurrentPlotterStyle().debugRegionLineWidth);
painter.setPen(p);
painter.setBrush(QBrush(QColor(Qt::transparent)));
QSizeF s1,s2;
s1=getSize1(painter);
s2=getSize2(painter);
painter.drawRect(QRectF(QPointF(left, bottom), s1));
painter.drawRect(QRectF(QPointF(left, top-s2.height()), s2));
}
}
JKQTPHorizontalIndependentAxis::JKQTPHorizontalIndependentAxis(double _axisOffset, double _axisWidth, double _otherAxisOffset, double _otherAxisWidth, JKQTBasePlotter* parent):
JKQTPHorizontalAxis(parent),
axisOffset(_axisOffset),
axisWidth(_axisWidth),
otherAxisWidth(_otherAxisOffset),
otherAxisOffset(_otherAxisWidth),
otherAxisInverted(false)
{
if (parent) {
axisStyle=parent->getCurrentPlotterStyle().topColorbarAxisStyle;
} else {
axisStyle=JKQTPGetSystemDefaultBaseStyle().topColorbarAxisStyle;
}
}
void JKQTPHorizontalIndependentAxis::setAxisOffset(double __value) {
this->axisOffset = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPHorizontalIndependentAxis::setAxisWidth(double __value) {
this->axisWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPHorizontalIndependentAxis::setOtherAxisOffset(double __value) {
this->otherAxisOffset = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPHorizontalIndependentAxis::setOtherAxisWidth(double __value) {
this->otherAxisWidth = __value;
this->paramsChanged=true;
redrawPlot();
}
void JKQTPHorizontalIndependentAxis::setOtherAxisInverted(bool __value) {
this->otherAxisInverted = __value;
this->paramsChanged=true;
redrawPlot();
}
double JKQTPHorizontalIndependentAxis::getParentPlotWidth() const { return axisWidth; }
double JKQTPHorizontalIndependentAxis::getParentPlotOffset() const { return axisOffset; }
double JKQTPHorizontalIndependentAxis::getParentOtheraxisWidth() const { return otherAxisWidth; }
bool JKQTPHorizontalIndependentAxis::getParentOtheraxisInverted() const { return otherAxisInverted; }
double JKQTPHorizontalIndependentAxis::getParentOtheraxisOffset() const { return otherAxisOffset; }