JKQtPlotter/lib/jkqtplotter/jkqtpbaseelements.cpp

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/*
Copyright (c) 2008-2019 Jan W. Krieger (<jan@jkrieger.de>)
2015-07-12 22:34:27 +08:00
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/>.
*/
#include "jkqtplotter/jkqtpbaseelements.h"
#include "jkqtplotter/jkqtpbaseplotter.h"
#include <QDebug>
#include <QDateTime>
#include <cfloat>
#include <QApplication>
//#undef SHOW_JKQTPLOTTER_DEBUG
//#define SHOW_JKQTPLOTTER_DEBUG
JKQTPCoordinateAxis::JKQTPCoordinateAxis(JKQTBasePlotter* parent): QObject(parent) {
this->parent=parent;
autoLabelDigits=true;
tickMode=def_tickMode=JKQTPLTMLinOrPower;
axisPrefix="";
scaleSign=1;
doUpdateScaling=true;
axismin=-10;
axismax=10;
axisabsoultemin=-DBL_MAX/100.0;
axisabsoultemax=DBL_MAX/100.0;
axisMinWidth=-1;
width=20;
scale=0;
offset=0;
inverted=false;
tickSpacing=0;
tickSpacingLog=10;
tickStart=0;
labelDigits=3;
autoAxisSpacing=def_autoAxisSpacing=true;
logAxis=def_logAxis=false;
minorTickLabelsEnabled=def_minorTickLabelsEnabled=false;
minorTickLabelFullNumber=def_minorTickLabelFullNumber=true;
logAxisBase=def_logAxisBase=10;
userTickSpacing=def_userTickSpacing=1;
userLogTickSpacing=def_userLogTickSpacing=10;
tickLabelAngle=def_tickLabelAngle=0;
labelType=def_labelType=JKQTPCALTexponent;
axisLabel="";
QFont f=QApplication::font();
labelPosition=def_labelPosition=JKQTPLabelCenter;
labelFont=def_labelFont=f.family(); //"Arial";
labelFontSize=def_labelFontSize=f.pointSizeF()+1; //12;
tickLabelFont=def_tickLabelFont=f.family(); //"Arial";
tickLabelFontSize=def_tickLabelFontSize=f.pointSizeF(); //10;
minorTickLabelFontSize=def_minorTickLabelFontSize=f.pointSizeF()*0.75; //10;
tickTimeFormat=def_tickTimeFormat=QLocale().timeFormat(QLocale::NarrowFormat);
tickDateFormat=def_tickDateFormat=QLocale().dateFormat(QLocale::NarrowFormat);
tickDateTimeFormat=def_tickDateTimeFormat=QLocale().dateTimeFormat(QLocale::NarrowFormat);
minTicks=def_minTicks=5;
minorTicks=def_minorTicks=1;
tickOutsideLength=def_tickOutsideLength=3;
minorTickOutsideLength=def_minorTickOutsideLength=1.5;
tickInsideLength=def_tickInsideLength=3;
minorTickInsideLength=def_minorTickInsideLength=1.5;
tickLabelDistance=def_tickLabelDistance=3;
labelDistance=def_labelDistance=5;
axisColor=def_axisColor=QColor("black");
showZeroAxis=def_showZeroAxis=true;
drawMode1=def_drawMode1=JKQTPCADMcomplete;
drawMode2=def_drawMode2=JKQTPCADMticks;
minorTickWidth=def_minorTickWidth=1;
tickWidth=def_tickWidth=1.5;
lineWidth=def_lineWidth=1.5;
lineWidthZeroAxis=def_lineWidthZeroAxis=1.5;
gridColor=def_gridColor=QColor("gray");
gridWidth=def_gridWidth=0.75;
gridStyle=def_gridStyle=Qt::DashLine;
drawGrid=def_drawGrid=true;
minorGridColor=def_minorGridColor=QColor("gray");
minorGridWidth=def_minorGridWidth=0.5;
minorGridStyle=def_minorGridStyle=Qt::DotLine;
drawMinorGrid=def_drawMinorGrid=false;
paramsChanged=true;
}
JKQTPCoordinateAxis::~JKQTPCoordinateAxis() {
}
void JKQTPCoordinateAxis::set_parent(JKQTBasePlotter* parent) {
this->parent=parent;
QObject::setParent(parent);
}
void JKQTPCoordinateAxis::update_plot() {
//if (paramsChanged) {
calcPlotScaling();
parent->update_plot();
//}
}
JKQTMathText* JKQTPCoordinateAxis::get_parent_mathText() {
return parent->get_mathText();
}
#define JKQTPPROPERTYloadFromAxis(settings, param) this->param=settings->param
void JKQTPCoordinateAxis::loadSettings(JKQTPCoordinateAxis* settings) {
JKQTPPROPERTYloadFromAxis(settings, showZeroAxis);
JKQTPPROPERTYloadFromAxis(settings, autoAxisSpacing);
JKQTPPROPERTYloadFromAxis(settings, minorTickLabelsEnabled);
JKQTPPROPERTYloadFromAxis(settings, logAxis);
JKQTPPROPERTYloadFromAxis(settings, inverted);
JKQTPPROPERTYloadFromAxis(settings, logAxisBase);
JKQTPPROPERTYloadFromAxis(settings, userTickSpacing);
JKQTPPROPERTYloadFromAxis(settings, userLogTickSpacing);
JKQTPPROPERTYloadFromAxis(settings, minorTickWidth);
JKQTPPROPERTYloadFromAxis(settings, tickWidth);
JKQTPPROPERTYloadFromAxis(settings, lineWidth);
JKQTPPROPERTYloadFromAxis(settings, lineWidthZeroAxis);
JKQTPPROPERTYloadFromAxis(settings, axisLabel);
JKQTPPROPERTYloadFromAxis(settings, labelFont);
JKQTPPROPERTYloadFromAxis(settings, labelFontSize);
JKQTPPROPERTYloadFromAxis(settings, tickLabelFont);
JKQTPPROPERTYloadFromAxis(settings, tickLabelFontSize);
JKQTPPROPERTYloadFromAxis(settings, minorTickLabelFontSize);
JKQTPPROPERTYloadFromAxis(settings, minorTickLabelFullNumber);
JKQTPPROPERTYloadFromAxis(settings, tickTimeFormat);
JKQTPPROPERTYloadFromAxis(settings, tickDateFormat);
JKQTPPROPERTYloadFromAxis(settings, tickDateTimeFormat);
JKQTPPROPERTYloadFromAxis(settings, minTicks);
JKQTPPROPERTYloadFromAxis(settings, minorTicks);
JKQTPPROPERTYloadFromAxis(settings, tickOutsideLength);
JKQTPPROPERTYloadFromAxis(settings, minorTickOutsideLength);
JKQTPPROPERTYloadFromAxis(settings, tickInsideLength);
JKQTPPROPERTYloadFromAxis(settings, minorTickInsideLength);
JKQTPPROPERTYloadFromAxis(settings, tickLabelDistance);
JKQTPPROPERTYloadFromAxis(settings, labelDistance);
JKQTPPROPERTYloadFromAxis(settings, gridWidth);
JKQTPPROPERTYloadFromAxis(settings, minorGridWidth);
JKQTPPROPERTYloadFromAxis(settings, drawGrid);
JKQTPPROPERTYloadFromAxis(settings, drawMinorGrid);
JKQTPPROPERTYloadFromAxis(settings, labelPosition);
JKQTPPROPERTYloadFromAxis(settings, labelType);
JKQTPPROPERTYloadFromAxis(settings, axisColor);
JKQTPPROPERTYloadFromAxis(settings, gridColor);
JKQTPPROPERTYloadFromAxis(settings, minorGridColor);
JKQTPPROPERTYloadFromAxis(settings, gridStyle);
JKQTPPROPERTYloadFromAxis(settings, minorGridStyle);
JKQTPPROPERTYloadFromAxis(settings, drawMode1);
JKQTPPROPERTYloadFromAxis(settings, drawMode2);
JKQTPPROPERTYloadFromAxis(settings, tickMode);
paramsChanged=true;
calcPlotScaling();
}
void JKQTPCoordinateAxis::clearAxisTickLabels() {
tickLabels.clear();
update_plot();
}
void JKQTPCoordinateAxis::addAxisTickLabel(double x, QString label) {
tickLabels.append(qMakePair(x, label));
update_plot();
}
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]));
}
update_plot();
}
void JKQTPCoordinateAxis::addAxisTickLabels(const double *x, const QStringList &label) {
for (int i=0; i<label.size(); i++) {
tickLabels.append(qMakePair(x[i], label[i]));
}
update_plot();
}
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]));
}
update_plot();
}
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]));
}
update_plot();
}
void JKQTPCoordinateAxis::loadSettings(QSettings& settings, QString group) {
JKQTPPROPERTYload(settings, group+axisPrefix, showZeroAxis, "show_zero_line", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, autoAxisSpacing, "auto_spacing", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, logAxis, "log", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickLabelsEnabled, "minorTickLabelsEnabled", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, inverted, "inverted", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, logAxisBase, "log_base", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, userTickSpacing, "tick_spacing", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, userLogTickSpacing, "log_tick_spacing", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickWidth, "minor_tick_width", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, tickWidth, "tick_width", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, lineWidth, "line_width", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, lineWidthZeroAxis, "line_width_zeroaxis", toDouble());
axisLabel=settings.value(group+axisPrefix+"axis_label", axisLabel).toString();
JKQTPPROPERTYload(settings, group+axisPrefix, labelFont, "label_font", toString());
JKQTPPROPERTYload(settings, group+axisPrefix, labelFontSize, "label_font_size", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, tickLabelFont, "tick_label_font", toString());
JKQTPPROPERTYload(settings, group+axisPrefix, tickLabelFontSize, "tick_label_font_size", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickLabelFontSize, "minor_tick_label_font_size", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickLabelFullNumber, "minor_tick_label_full_number", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, tickTimeFormat, "tick_time_format", toString());
JKQTPPROPERTYload(settings, group+axisPrefix, tickDateFormat, "tick_date_format", toString());
JKQTPPROPERTYload(settings, group+axisPrefix, tickDateTimeFormat, "tick_datetime_format", toString());
JKQTPPROPERTYload(settings, group+axisPrefix, minTicks, "min_ticks", toUInt());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTicks, "minor_ticks", toUInt());
JKQTPPROPERTYload(settings, group+axisPrefix, tickOutsideLength, "tick_outside_length", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickOutsideLength, "minor_tick_outside_length", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, tickInsideLength, "tick_inside_length", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorTickInsideLength, "minor_tick_inside_length", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, tickLabelDistance, "tick_label_distance", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, labelDistance, "label_distance", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, gridWidth, "grid_width", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, minorGridWidth, "minor_grid_width", toDouble());
JKQTPPROPERTYload(settings, group+axisPrefix, drawGrid, "draw_grid", toBool());
JKQTPPROPERTYload(settings, group+axisPrefix, drawMinorGrid, "draw_minor_grid", toBool());
labelPosition=String2JKQTPLabelPosition(settings.value(group+axisPrefix+"label_position", JKQTPLabelPosition2String(labelPosition)).toString());
labelType=String2JKQTPCALabelType(settings.value(group+axisPrefix+"label_type", JKQTPCALabelType2String(labelType)).toString());
axisColor=QColor(settings.value(group+axisPrefix+"color", jkqtp_QColor2String(axisColor)).toString());
gridColor=QColor(settings.value(group+axisPrefix+"grid_color", jkqtp_QColor2String(gridColor)).toString());
minorGridColor=QColor(settings.value(group+axisPrefix+"minor_grid_color", jkqtp_QColor2String(minorGridColor)).toString());
gridStyle=jkqtp_String2QPenStyle(settings.value(group+axisPrefix+"grid_style", jkqtp_QPenStyle2String(gridStyle)).toString());
minorGridStyle=jkqtp_String2QPenStyle(settings.value(group+axisPrefix+"minor_grid_style", jkqtp_QPenStyle2String(minorGridStyle)).toString());
drawMode1=String2JKQTPCADrawMode(settings.value(group+axisPrefix+"draw_mode1", JKQTPCADrawMode2String(drawMode1)).toString());
drawMode2=String2JKQTPCADrawMode(settings.value(group+axisPrefix+"draw_mode2", JKQTPCADrawMode2String(drawMode2)).toString());
tickMode=String2JKQTPLabelTickMode(settings.value(group+axisPrefix+"tick_mode", JKQTPLabelTickMode2String(tickMode)).toString());
paramsChanged=true;
calcPlotScaling();
}
void JKQTPCoordinateAxis::saveSettings(QSettings& settings, QString group) {
JKQTPPROPERTYsave(settings, group+axisPrefix, showZeroAxis, "show_zero_line");
JKQTPPROPERTYsave(settings, group+axisPrefix, autoAxisSpacing, "auto_spacing");
JKQTPPROPERTYsave(settings, group+axisPrefix, logAxis, "log");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickLabelsEnabled, "minorTickLabelsEnabled");
JKQTPPROPERTYsave(settings, group+axisPrefix, logAxisBase, "log_base");
JKQTPPROPERTYsave(settings, group+axisPrefix, userTickSpacing, "tick_spacing");
JKQTPPROPERTYsave(settings, group+axisPrefix, userLogTickSpacing, "log_tick_spacing");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickWidth, "minor_tick_width");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickWidth, "tick_width");
JKQTPPROPERTYsave(settings, group+axisPrefix, lineWidth, "line_width");
JKQTPPROPERTYsave(settings, group+axisPrefix, lineWidthZeroAxis, "line_width_zeroaxis");
settings.setValue(group+axisPrefix+"label", axisLabel);
JKQTPPROPERTYsave(settings, group+axisPrefix, labelFont, "label_font");
JKQTPPROPERTYsave(settings, group+axisPrefix, labelFontSize, "label_font_size");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickLabelFont, "tick_label_font");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickLabelFontSize, "tick_label_font_size");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickLabelFontSize, "minor_tick_label_font_size");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickLabelFullNumber, "minor_tick_label_full_number");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickTimeFormat, "tick_time_format");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickDateFormat, "tick_date_format");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickDateTimeFormat, "tick_datetime_format");
JKQTPPROPERTYsave(settings, group+axisPrefix, minTicks, "min_ticks");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTicks, "minor_ticks");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickOutsideLength, "tick_outside_length");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickOutsideLength, "minor_tick_outside_length");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickInsideLength, "tick_inside_length");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorTickInsideLength, "minor_tick_inside_length");
JKQTPPROPERTYsave(settings, group+axisPrefix, tickLabelDistance, "tick_label_distance");
JKQTPPROPERTYsave(settings, group+axisPrefix, labelDistance, "label_distance");
JKQTPPROPERTYsave(settings, group+axisPrefix, gridWidth, "grid_width");
JKQTPPROPERTYsave(settings, group+axisPrefix, minorGridWidth, "minor_grid_width");
JKQTPPROPERTYsave(settings, group+axisPrefix, drawGrid, "draw_grid");
JKQTPPROPERTYsave(settings, group+axisPrefix, drawMinorGrid, "draw_minor_grid");
if (labelPosition!=def_labelPosition) settings.setValue(group+axisPrefix+"label_position", JKQTPLabelPosition2String(labelPosition));
if (labelType!=def_labelType) settings.setValue(group+axisPrefix+"label_type", JKQTPCALabelType2String(labelType));
if (axisColor!=def_axisColor) settings.setValue(group+axisPrefix+"color", jkqtp_QColor2String(axisColor));
if (drawMode1!=def_drawMode1) settings.setValue(group+axisPrefix+"draw_mode1", JKQTPCADrawMode2String(drawMode1));
if (drawMode2!=def_drawMode2) settings.setValue(group+axisPrefix+"draw_mode2", JKQTPCADrawMode2String(drawMode2));
if (tickMode!=def_tickMode) settings.setValue(group+axisPrefix+"tick_mode", JKQTPLabelTickMode2String(tickMode));
if (gridColor!=def_gridColor) settings.setValue(group+axisPrefix+"grid_color", jkqtp_QColor2String(gridColor));
if (minorGridColor!=def_minorGridColor) settings.setValue(group+axisPrefix+"minor_grid_style", jkqtp_QPenStyle2String(minorGridStyle));
if (gridStyle!=def_gridStyle) settings.setValue(group+axisPrefix+"grid_color", jkqtp_QColor2String(gridColor));
if (minorGridStyle!=def_minorGridStyle) settings.setValue(group+axisPrefix+"minor_grid_style", jkqtp_QPenStyle2String(minorGridStyle));
}
double JKQTPCoordinateAxis::calcLinearTickSpacing() {
if (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<minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/(double)minTicks;
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else if (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<minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/(double)minTicks;
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else if (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<minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/(double)minTicks;
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
} else {
double TickSpacing=1;
int startexponent=(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<minTicks && cnt<1000);
// the cnt variable exists for savety reasons to prevent an endless loop!
if (cnt>=1000) TickSpacing=width/(double)minTicks;
//qDebug()<<"TickSpacing="<<TickSpacing<<" cnt="<<cnt;
return TickSpacing;
}
}
double JKQTPCoordinateAxis::calcLogTickSpacing() {
double TickSpacing=logAxisBase;
if (fabs(log(axismax)-log(axismin))/log(logAxisBase)>2*minTicks) {
double power=1;
int cnt=0;
while (fabs(log(axismax)-log(axismin))/log(logAxisBase)/power>2*minTicks && cnt<1000) {
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<cnt<<power<<log(width)/log(logAxisBase)/power<<2*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=labelDigits;
bool remove_trail0=true;
QLocale loc=QLocale::system();
loc.setNumberOptions(QLocale::OmitGroupSeparator);
switch(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, 1e-300, 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(tickDateFormat);
}; break;
case JKQTPCALTtime: {
QDateTime dt;
dt.setMSecsSinceEpoch(uint64_t(data));
return dt.toString(tickTimeFormat);
}; break;
case JKQTPCALTdatetime: {
QDateTime dt;
dt.setMSecsSinceEpoch(uint64_t(data));
return dt.toString(tickDateTimeFormat);
}; break;
default:
return QString();
break;
}
/*
tickTimeFormat
tickDateFormat
tickDateTimeFormat
**/
return QString();
}
QString JKQTPCoordinateAxis::floattolabel(double data, int past_comma) {
bool remove_trail0=true;
QLocale loc=QLocale::system();
loc.setNumberOptions(QLocale::OmitGroupSeparator);
if (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 (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 (labelType==JKQTPCALTexponentCharacter) return QString(jkqtp_floattounitstr(data, past_comma, remove_trail0).c_str());
return "";
}
int JKQTPCoordinateAxis::calcLinearUnitDigits() {
if (!autoLabelDigits) return labelDigits;
int unitdigits=-1;
double minval=tickStart;
bool equals=true;
/*for (int i=0; i<20; i++) {
equals=equals || (floattolabel((minval+(double)i*tickSpacing), unitdigits)== floattolabel((minval+(double)(i+1)*tickSpacing), unitdigits));
}*/
while ((unitdigits<20) && equals) {
unitdigits++;
equals=false;
for (int i=-10; i<10; i++) {
QString l1=floattolabel((minval+(double)i*tickSpacing), unitdigits+2);
QString l2=floattolabel((minval+(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, (int)log10(axismin));
if (axismax<axismin) {
std::swap(axismin, axismax);
} else if (axismax==axismin) {
axismax=axismin+pow(10.0, (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=get_parent_plotoffset();
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<get_parent()->objectName()<<": inverted = "<<inverted;
//qDebug()<<get_parent()->objectName()<<": plotOffset = "<<plotOffset;
//qDebug()<<get_parent()->objectName()<<": plotWidth = "<<get_parent_plotwidth();
#endif
if (isLogAxis()) {
scale=get_parent_plotwidth()/(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=get_parent_plotwidth()/width;
if (scaleSign>0) {
offset=plotOffset-axismin*scale;
} else {
offset=plotOffset+axismax*scale;
}
}
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<get_parent()->objectName()<<": offset = "<<offset;
//qDebug()<<get_parent()->objectName()<<": scale = "<<scale;
//qDebug()<<get_parent()->objectName()<<": scaleSign = "<<scaleSign;
#endif
// now we try to find a suitable tick and grid line spacing so that
// between maxTicks and 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 (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 (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 (tickMode==JKQTPLTMPower) {
tickSpacing=1;
tickSpacingLog=calcLogTickSpacing();
tickStart=pow(logAxisBase, floor(log(axismin)/log(logAxisBase)));
}
labelDigits=calcLinearUnitDigits();
#ifdef SHOW_JKQTPLOTTER_DEBUG
//qDebug()<<" tickStart="<<tickStart<<"\n";
//qDebug()<<" tickSpacing="<<tickSpacing<<"\n";
//qDebug()<<" labelDigits="<<labelDigits<<"\n";
#endif
paramsChanged=false;
}
bool JKQTPCoordinateAxis::isLogAxis() const {
return logAxis || (tickMode==JKQTPLTMPower);
}
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();
update_plot();
}
}
void JKQTPCoordinateAxis::setNoAbsoluteRange() {
axisabsoultemin=-DBL_MAX;
axisabsoultemax=DBL_MAX;
setRange(axismin, axismax);
}
void JKQTPCoordinateAxis::set_tickSpacing(double __value) {
this->tickSpacing = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_axisMinWidth(double __value) {
this->axisMinWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_autoAxisSpacing(bool __value) {
this->autoAxisSpacing = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickLabelsEnabled(bool __value) {
this->minorTickLabelsEnabled = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_logAxis(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));
}
if (this->isLogAxis() && this->minorTicks==def_minorTicks) {
this->minorTicks=9;
}
update_plot();
}
void JKQTPCoordinateAxis::set_logAxisBase(double __value) {
this->logAxisBase = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_userTickSpacing(double __value) {
this->userTickSpacing = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_userLogTickSpacing(double __value) {
this->userLogTickSpacing = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelType(JKQTPCALabelType __value) {
this->labelType = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickMode(JKQTPLabelTickMode __value)
{
this->tickMode = __value;
this->paramsChanged=true;
set_logAxis(this->logAxis);
}
void JKQTPCoordinateAxis::set_tickMode(int __value) {
set_tickMode(JKQTPLabelTickMode(__value));
}
void JKQTPCoordinateAxis::set_axisLabel(QString __value) {
this->axisLabel = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelPosition(JKQTPLabelPosition __value) {
this->labelPosition = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelFont(QString __value) {
this->labelFont = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelFontSize(double __value) {
this->labelFontSize = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickLabelFont(QString __value) {
this->tickLabelFont = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickTimeFormat(QString __value) {
this->tickTimeFormat = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickDateFormat(QString __value) {
this->tickDateFormat = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickDateTimeFormat(QString __value) {
this->tickDateTimeFormat = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickLabelFontSize(double __value) {
this->tickLabelFontSize = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickLabelFontSize(double __value) {
this->minorTickLabelFontSize = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickLabelFullNumber(bool __value) {
this->minorTickLabelFullNumber = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minTicks(unsigned int __value) {
this->minTicks = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTicks(unsigned int __value) {
this->minorTicks = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTicks(int __value) {
this->minorTicks = qMax(int(0), __value);
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickOutsideLength(double __value) {
this->tickOutsideLength = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickOutsideLength(double __value) {
this->minorTickOutsideLength = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickInsideLength(double __value) {
this->tickInsideLength = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickInsideLength(double __value) {
this->minorTickInsideLength = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_axisColor(QColor __value) {
this->axisColor = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_showZeroAxis(bool __value) {
this->showZeroAxis = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_inverted(bool __value) {
this->inverted = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_gridColor(QColor __value) {
this->gridColor = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorGridColor(QColor __value) {
this->minorGridColor = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_gridWidth(double __value) {
this->gridWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_gridStyle(Qt::PenStyle __value) {
this->gridStyle = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorGridWidth(double __value) {
this->minorGridWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorGridStyle(Qt::PenStyle __value) {
this->minorGridStyle = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_drawMode1(JKQTPCADrawMode __value) {
this->drawMode1 = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_drawMode2(JKQTPCADrawMode __value) {
this->drawMode2 = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_minorTickWidth(double __value) {
this->minorTickWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickWidth(double __value) {
this->tickWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_lineWidth(double __value) {
this->lineWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_lineWidthZeroAxis(double __value) {
this->lineWidthZeroAxis = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickLabelDistance(double __value) {
this->tickLabelDistance = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelDistance(double __value) {
this->labelDistance = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_labelDigits(int __value) {
this->labelDigits = __value;
this->paramsChanged=true;
this->autoLabelDigits=false;
update_plot();
}
void JKQTPCoordinateAxis::set_drawGrid(bool __value) {
this->drawGrid = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_drawMinorGrid(bool __value) {
this->drawMinorGrid = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPCoordinateAxis::set_tickLabelAngle(double __value) {
this->tickLabelAngle = __value;
this->paramsChanged=true;
update_plot();
}
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();
update_plot();*/
}
double JKQTPCoordinateAxis::getNextLabelDistance(double x) {
if (tickMode==JKQTPLTMLinOrPower) {
if (logAxis) {
return x*tickSpacingLog;
} else {
return tickSpacing;
}
} else if (tickMode==JKQTPLTMLin) {
return tickSpacing;
} else if (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 (tickMode==JKQTPLTMLinOrPower) {
if (logAxis) {
x*=tickSpacingLog;
} else {
x=x+tickSpacing;
}
} else if (tickMode==JKQTPLTMLin) {
x=x+tickSpacing;
} else if (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(tickLabelFont);
f.setPointSizeF(tickLabelFontSize*parent->get_fontSizeMultiplier());
QFontMetricsF fm(f);
//get_parent_mathText()->set_fontSize(f.pointSizeF());
//get_parent_mathText()->set_fontRoman(f.family());
bool first=true;
int cnt=0;
while (getNextLabel(x, label, first) && cnt<50) {
double width, ascent, descent, strikeoutPos;
/*if (label.contains("\\") || label.contains("$") || label.contains("^") || label.contains("_")) {
get_parent_mathText()->parse(label);
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
} else {
width=fm.width(label);
ascent=fm.ascent();
descent=fm.descent();
strikeoutPos=fm.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 (tickLabelAngle!=0) {
QRectF r(0,0,w,h);
return jkqtpRotateRect(r, tickLabelAngle).boundingRect().size();
} else {
return QSizeF(w, h);
}
}
JKQTPVerticalAxis::JKQTPVerticalAxis(JKQTBasePlotter* parent):
JKQTPCoordinateAxis(parent)
{
//axisPrefix="yaxis_";
scaleSign=-1;
}
double JKQTPVerticalAxis::get_parent_plotwidth() const {
return parent->get_plotHeight();
}
double JKQTPVerticalAxis::get_parent_plotoffset() const {
return parent->get_iplotBorderTop();
}
QSize JKQTPVerticalAxis::getSize1(JKQTPEnhancedPainter& painter) {
if (drawMode1==JKQTPCADMnone || drawMode1==JKQTPCADMline) return QSize(0, get_parent_plotwidth());
if (drawMode1==JKQTPCADMticks) return QSize(parent->pt2px(painter, tickOutsideLength), get_parent_plotwidth());
// find out the maximum width over all visible plot labels
double tlwidth=getMaxTickLabelSize(painter).width();
if (drawMode1==JKQTPCADMticksAndLabels) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth, get_parent_plotwidth());
// find out size of axis label
/*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double lwidth=get_parent_mathText()->getSize(painter).height();*/
double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height();
if (drawMode1==JKQTPCADMcomplete) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth, get_parent_plotwidth());
return QSize(0,0);
}
QSize JKQTPVerticalAxis::getSize2(JKQTPEnhancedPainter& painter) {
if (drawMode2==JKQTPCADMnone || drawMode2==JKQTPCADMline) return QSize(0, get_parent_plotwidth());
if (drawMode2==JKQTPCADMticks) return QSize(parent->pt2px(painter, tickOutsideLength),get_parent_plotwidth());
// find out the maximum width over all visible plot labels
double tlwidth=getMaxTickLabelSize(painter).width();
if (drawMode2==JKQTPCADMticksAndLabels) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth, get_parent_plotwidth());
// find out size of axis label
/*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double lwidth=get_parent_mathText()->getSize(painter).height();*/
double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height();
if (drawMode2==JKQTPCADMcomplete) return QSize(parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth, get_parent_plotwidth());
return QSize(0,0);
}
double JKQTPVerticalAxis::get_parent_otheraxis_offset() const {
return parent->x2p(parent->getXMin());
}
double JKQTPVerticalAxis::get_parent_otheraxis_width() const {
return fabs(parent->x2p(parent->getXMax())-parent->x2p(parent->getXMin()));
}
bool JKQTPVerticalAxis::get_parent_otheraxis_inverted() const
{
return parent->get_xAxis()->get_inverted();
}
void JKQTPVerticalAxis::drawGrids(JKQTPEnhancedPainter& painter) {
//qDebug()<<" start JKQTPVerticalAxis::drawGrids(";
painter.save();
QPen pg=painter.pen();
pg.setColor(gridColor);
pg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, gridWidth*parent->get_lineWidthMultiplier())));
pg.setStyle(gridStyle);
QPen pmg=painter.pen();
pmg.setColor(minorGridColor);
pmg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH,parent->pt2px(painter, minorGridWidth*parent->get_lineWidthMultiplier())));
pmg.setStyle(minorGridStyle);
//double top=x2p(axismax);
//double bottom=x2p(axismin);
double left=0;
double right=0;
if (get_parent_otheraxis_inverted()) {
left=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//;
right=get_parent_otheraxis_offset();//;
} else {
left=get_parent_otheraxis_offset();//;
right=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//;
}
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/(double)(minorTicks+1);
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" minorTicks="<<minorTicks;
//painter.setPen(pg);
//qDebug()<<" 1";
if (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) && drawMinorGrid && (minorTicks>0) && (fabs(right-left)>0)) {
//qDebug()<<" 3.1";
double mx=x+mtdist;
//qDebug()<<" 3.2";
for (int i=0; i<(int)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);
painter.restore();
//qDebug()<<" end JKQTPVerticalAxis::drawGrids(";
}
void JKQTPVerticalAxis::drawTickLabel1(JKQTPEnhancedPainter &painter, double xx, double yy, const QString& label, double fontSize)
{
get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
get_parent_mathText()->parse(label);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) {
double lx=xx-parent->pt2px(painter, minorTickOutsideLength+tickLabelDistance)-width;
if (tickLabelAngle==90) {
painter.save();
painter.translate(lx+width-1.25*strikeoutPos, yy-width/2.0);
painter.rotate(tickLabelAngle);
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else if (tickLabelAngle==-90) {
painter.save();
painter.translate(lx+width-0.25*strikeoutPos, yy+width/2.0);
painter.rotate(tickLabelAngle);
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else if (tickLabelAngle!=0) {
painter.save();
if (tickLabelAngle>0) {
painter.translate(lx-strikeoutPos+(width)*(1.0-cos(fabs(tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos-width*sin(fabs(tickLabelAngle)/180.0*M_PI));
painter.rotate(tickLabelAngle);
} else {
painter.translate(lx+strikeoutPos+(width-strikeoutPos)*(1.0-cos(fabs(tickLabelAngle)/180.0*M_PI)), yy+strikeoutPos+width*sin(fabs(tickLabelAngle)/180.0*M_PI));
painter.rotate(tickLabelAngle);
}
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->draw(painter, lx, yy+strikeoutPos);
}
}
}
void JKQTPVerticalAxis::drawTickLabel2(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize)
{
get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
get_parent_mathText()->parse(label);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) {
double lx=xx+parent->pt2px(painter, tickOutsideLength+tickLabelDistance);
if (tickLabelAngle==90) {
painter.save();
painter.translate(lx+descent, yy-width/2.0);
painter.rotate(tickLabelAngle);
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else if (tickLabelAngle==-90) {
painter.save();
painter.translate(lx+ascent, yy+width/2.0);
painter.rotate(tickLabelAngle);
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else if (tickLabelAngle!=0) {
painter.save();
double shiftx=0;
if (tickLabelAngle>0) {
shiftx=strikeoutPos*sin(fabs(tickLabelAngle)/180.0*M_PI);
} else {
}
painter.translate(lx+shiftx, yy+strikeoutPos);
painter.rotate(-tickLabelAngle);
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->draw(painter, lx, yy+strikeoutPos);
}
}
}
void JKQTPVerticalAxis::drawAxes(JKQTPEnhancedPainter& painter) {
// 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 (get_parent_otheraxis_inverted()) {
left=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//;
right=get_parent_otheraxis_offset();//;
} else {
left=get_parent_otheraxis_offset();//;
right=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//;
}
//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();
QPen pmain=painter.pen();
pmain.setColor(axisColor);
pmain.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, lineWidth*parent->get_lineWidthMultiplier())));
pmain.setStyle(Qt::SolidLine);
QPen ptick=pmain;
ptick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, tickWidth*parent->get_lineWidthMultiplier())));
QPen pmtick=ptick;
pmtick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorTickWidth*parent->get_lineWidthMultiplier())));
get_parent_mathText()->set_fontSize(tickLabelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
painter.setPen(pmain);
// plot thick axis at y==0
if (showZeroAxis && (0>axismin) && (0<axismax)) {
QPen pmain1=pmain;
pmain1.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, lineWidthZeroAxis*parent->get_lineWidthMultiplier())));
painter.setPen(pmain1);
QLineF l(left-parent->pt2px(painter, tickOutsideLength), x2p(0), right+parent->pt2px(painter, tickOutsideLength), x2p(0));
painter.drawLine(l);
painter.setPen(pmain);
}
// draw thick axis lines, left and/or right
if (drawMode1!=JKQTPCADMnone) {
QLineF l(left, x2p(axismin), left, x2p(axismax));
painter.drawLine(l);
}
if (drawMode2!=JKQTPCADMnone) {
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;
while (getNextLabel(x, label, first) && cnt<200) {
double mtdist=getNextLabelDistance(x)/(double)(minorTicks+1);
double xleft=-1000000;
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" minorTicks="<<minorTicks;
if (drawMode1==JKQTPCADMticks || drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) {
//painter.setPen(ptick);
if ((x<=axismax) && (x>=axismin)) {
QLineF l(left-parent->pt2px(painter, tickOutsideLength), xx, left+parent->pt2px(painter, tickInsideLength), xx);
if (l.length()>0) lines_ptick.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=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, minorTickOutsideLength), mxx, left+parent->pt2px(painter, minorTickInsideLength), mxx);
if (l.length()>0) lines_pmtick.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (minorTickLabelsEnabled) {
if (minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel1(painter, left, mxx, minorlabel, minorTickLabelFontSize);
//drawTickLabel2(painter, right, xx, minorlabel, minorTickLabelFontSize);
}
}
mx=mx+mtdist;
}
}
}
if (drawMode2==JKQTPCADMticks || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) {
//painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(right-parent->pt2px(painter, tickInsideLength), xx, right+parent->pt2px(painter, tickOutsideLength), xx);
if (l.length()>0) lines_ptick2.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=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, minorTickInsideLength), mxx, xleft=(right+parent->pt2px(painter, minorTickOutsideLength)), mxx);
if (l.length()>0) lines_pmtick2.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (minorTickLabelsEnabled) {
if (minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
//drawTickLabel1(painter, left, xx, minorlabel, minorTickLabelFontSize);
drawTickLabel2(painter, xleft, mxx, minorlabel, minorTickLabelFontSize);
}
}
mx=mx+mtdist;
}
}
}
if ((label!="") && (x<=axismax && x>=axismin) && (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete)) {
drawTickLabel1(painter, left, xx, label, tickLabelFontSize);
drawTickLabel2(painter, right, xx, label, tickLabelFontSize);
}
first=false;
cnt++;
}
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() && (drawMode1==JKQTPCADMcomplete)) {
get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
QRect rect(0,0, get_parent_plotwidth(), ascent+descent);//plotBorderLeft-30);
painter.save();
painter.translate(QPointF(left-parent->pt2px(painter, tickOutsideLength+tickLabelDistance+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(labelPosition) {
case JKQTPLabelMax:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
painter.resetTransform();
painter.restore();
}
if (!axisLabel.isEmpty() && (drawMode2==JKQTPCADMcomplete)) {
get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
QRect rect(0,0, get_parent_plotwidth(), get_parent_mathText()->getSize(painter).height());//plotBorderLeft-30);
painter.save();
painter.translate(QPointF(right+parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+labelMax.width(), bottom));
painter.rotate(-90);
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(labelPosition) {
case JKQTPLabelMax:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
//painter.resetTransform();
painter.restore();
}
painter.restore();
//qDebug()<<" end JKQTPVerticalAxis::drawAxes(";
}
JKQTPVerticalIndependentAxis::JKQTPVerticalIndependentAxis(double axisOffset, double axisWidth, double otherAxisOffset, double otherAxisWidth, JKQTBasePlotter* parent):
JKQTPVerticalAxis(parent)
{
this->axisOffset=axisOffset;
this->axisWidth=axisWidth;
this->otherAxisOffset=otherAxisOffset;
this->otherAxisWidth=otherAxisWidth;
this->otherAxisInverted=false;
}
void JKQTPVerticalIndependentAxis::set_axisOffset(double __value) {
this->axisOffset = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPVerticalIndependentAxis::set_axisWidth(double __value) {
this->axisWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPVerticalIndependentAxis::set_otherAxisOffset(double __value) {
this->otherAxisOffset = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPVerticalIndependentAxis::set_otherAxisWidth(double __value) {
this->otherAxisWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPVerticalIndependentAxis::set_otherAxisInverted(bool __value) {
this->otherAxisInverted = __value;
this->paramsChanged=true;
update_plot();
}
double JKQTPVerticalIndependentAxis::get_parent_plotwidth() const { return axisWidth; }
double JKQTPVerticalIndependentAxis::get_parent_plotoffset() const { return axisOffset; }
double JKQTPVerticalIndependentAxis::get_parent_otheraxis_width() const { return otherAxisWidth; }
bool JKQTPVerticalIndependentAxis::get_parent_otheraxis_inverted() const { return otherAxisInverted; }
double JKQTPVerticalIndependentAxis::get_parent_otheraxis_offset() const { return otherAxisOffset; }
JKQTPHorizontalAxis::JKQTPHorizontalAxis(JKQTBasePlotter* parent):
JKQTPCoordinateAxis(parent)
{
//axisPrefix="xaxis_";
scaleSign=1;
}
double JKQTPHorizontalAxis::get_parent_plotwidth() const {
return parent->get_plotWidth();
}
double JKQTPHorizontalAxis::get_parent_plotoffset() const {
return parent->get_iplotBorderLeft();
}
QSize JKQTPHorizontalAxis::getSize1(JKQTPEnhancedPainter& painter) {
if (drawMode1==JKQTPCADMnone || drawMode1==JKQTPCADMline) return QSize(get_parent_plotwidth(), 0);
if (drawMode1==JKQTPCADMticks) return QSize(get_parent_plotwidth(), parent->pt2px(painter, tickOutsideLength));
// find out the maximum width over all visible plot labels
double tlwidth=getMaxTickLabelSize(painter).height();
if (drawMode1==JKQTPCADMticksAndLabels) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth);
// find out size of axis label
/*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double lwidth=get_parent_mathText()->getSize(painter).height();*/
double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height();
if (drawMode1==JKQTPCADMcomplete) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth);
return QSize(0,0);
}
QSize JKQTPHorizontalAxis::getSize2(JKQTPEnhancedPainter& painter) {
if (drawMode2==JKQTPCADMnone || drawMode2==JKQTPCADMline) return QSize(get_parent_plotwidth(), 0);
if (drawMode2==JKQTPCADMticks) return QSize(get_parent_plotwidth(), parent->pt2px(painter, tickOutsideLength));
// find out the maximum width over all visible plot labels
double tlwidth=getMaxTickLabelSize(painter).height();
if (drawMode2==JKQTPCADMticksAndLabels) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance)+tlwidth);
// find out size of axis label
/*get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double lwidth=get_parent_mathText()->getSize(painter).height();*/
double lwidth=parent->getTextSizeSize(labelFont, labelFontSize*parent->get_fontSizeMultiplier(), axisLabel, painter).height();
if (drawMode2==JKQTPCADMcomplete) return QSize(get_parent_plotwidth(),parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+tlwidth+lwidth);
return QSize(0,0);
}
double JKQTPHorizontalAxis::get_parent_otheraxis_offset() const {
return parent->y2p(parent->getYMax());
}
double JKQTPHorizontalAxis::get_parent_otheraxis_width() const {
return fabs(parent->y2p(parent->getYMax())-parent->y2p(parent->getYMin()));
}
bool JKQTPHorizontalAxis::get_parent_otheraxis_inverted() const
{
return parent->get_yAxis()->get_inverted();
}
void JKQTPHorizontalAxis::drawGrids(JKQTPEnhancedPainter& painter) {
painter.save();
//double right=x2p(axismax);
//double left=x2p(axismin);
double bottom=0;
double top=0;
if (get_parent_otheraxis_inverted()) {
top=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//;
bottom=get_parent_otheraxis_offset();//;
} else {
top=get_parent_otheraxis_offset();//;
bottom=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//;
}
QPen pg=painter.pen();
pg.setColor(gridColor);
pg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, gridWidth*parent->get_fontSizeMultiplier())));
pg.setStyle(gridStyle);
QPen pmg=painter.pen();
pmg.setColor(minorGridColor);
pmg.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorGridWidth*parent->get_lineWidthMultiplier())));
pmg.setStyle(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)/(double)(minorTicks+1);
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" minorTicks="<<minorTicks;
//painter.setPen(pg);
if (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) && drawMinorGrid && (minorTicks>0)) {
double mx=x+mtdist;
for (int i=0; i<(int)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);
painter.restore();
}
void JKQTPHorizontalAxis::drawTickLabel1(JKQTPEnhancedPainter &painter, double xx, double yy, const QString &label, double fontSize, double ascentMax, double /*descentMax*/)
{
get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
get_parent_mathText()->parse(label);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) {
double lx0=yy+parent->pt2px(painter, tickOutsideLength+tickLabelDistance);
double lx=lx0+ascentMax;
if (tickLabelAngle!=0) {
painter.save();
if (tickLabelAngle>0) {
painter.translate(xx-fabs(ascent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0+fabs(ascent*cos(tickLabelAngle/180.0*M_PI)));
painter.rotate(tickLabelAngle);
} else {
painter.translate(xx+fabs(ascent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0+ascent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))+fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI)));
painter.rotate(tickLabelAngle);
}
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->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)
{
get_parent_mathText()->set_fontSize(fontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
get_parent_mathText()->parse(label);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) {
double lx0=yy-parent->pt2px(painter, tickOutsideLength+tickLabelDistance);
double lx=lx0-descentMax;
if (tickLabelAngle!=0) {
painter.save();
if (tickLabelAngle>0) {
painter.translate(xx+fabs(descent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0-fabs(descent*cos(tickLabelAngle/180.0*M_PI)));
painter.rotate(-tickLabelAngle);
} else {
painter.translate(xx-fabs(descent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0-descent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))-fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI)));
painter.rotate(-tickLabelAngle);
}
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->draw(painter, xx-width/2.0, lx);
}
}
}
void JKQTPHorizontalAxis::drawAxes(JKQTPEnhancedPainter& painter) {
// 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 (get_parent_otheraxis_inverted()) {
top=get_parent_otheraxis_offset()-get_parent_otheraxis_width();//;
bottom=get_parent_otheraxis_offset();//;
} else {
top=get_parent_otheraxis_offset();//;
bottom=get_parent_otheraxis_offset()+get_parent_otheraxis_width();//;
}
//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();
QPen pmain=painter.pen();
pmain.setColor(axisColor);
pmain.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, lineWidth*parent->get_lineWidthMultiplier())));
pmain.setStyle(Qt::SolidLine);
QPen ptick=pmain;
ptick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, tickWidth*parent->get_lineWidthMultiplier())));
QPen pmtick=ptick;
pmtick.setWidthF(qMax(JKQTPLOTTER_ABS_MIN_LINEWIDTH, parent->pt2px(painter, minorTickWidth*parent->get_lineWidthMultiplier())));
get_parent_mathText()->set_fontSize(tickLabelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(tickLabelFont);
get_parent_mathText()->set_fontColor(axisColor);
painter.setPen(pmain);
// plot thick axis at y==0
if (showZeroAxis && (0>axismin) && (0<axismax)) {
QLineF l(x2p(0), bottom+parent->pt2px(painter, tickOutsideLength), x2p(0), top-parent->pt2px(painter, tickOutsideLength));
painter.drawLine(l);
}
// draw thick axis lines, left and/or right
if (drawMode1!=JKQTPCADMnone) {
QLineF l(x2p(axismin), bottom, x2p(axismax), bottom);
painter.drawLine(l);
}
if (drawMode2!=JKQTPCADMnone) {
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;
while (getNextLabel(x, label, first) && cnt<200) {
double mtdist=getNextLabelDistance(x)/(double)(minorTicks+1);
double xleft=-1000000;
double xx=x2p(x);
//qDebug()<<" tick @ x="<<x<<" label="<<label<<" mtdist="<<mtdist<<" minorTicks="<<minorTicks;
if (drawMode1==JKQTPCADMticks || drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) {
//painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(xx, bottom-parent->pt2px(painter, tickInsideLength), xx, bottom+parent->pt2px(painter, tickOutsideLength));
if (l.length()>0) lines_ptick.append(l);//painter.drawLine(l);
}
//painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=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, minorTickInsideLength), mxx, xleft=(bottom+parent->pt2px(painter, minorTickOutsideLength)));
if (l.length()>0) lines_pmtick.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (minorTickLabelsEnabled) {
if (minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel1(painter, mxx, xleft, minorlabel, minorTickLabelFontSize, ascentMax, descentMax);
//drawTickLabel2(painter, right, xx, minorlabel, minorTickLabelFontSize, ascentMax, descentMax);
}
/*double val= mx/pow(10.0,floor(log10(mx)));
if (isLogAxis() && minorTickLabelsEnabled && apprLogTicks<=2 && val>1.05) {
painter.save();
QFont f;
f.setFamily(tickLabelFont);
f.setPointSizeF(minorTickLabelFontSize*parent->get_fontSizeMultiplier());
painter.setFont(f);
painter.setPen(axisColor);
QFontMetrics fm(f);
QString str=QString::number(val);
double wid=fm.width(str);
double heig=fm.ascent();
painter.drawText(QPointF(mxx-wid/2.0, xleft+parent->pt2px(painter, minorTickOutsideLength)/2.0+heig), str);
painter.restore();
}*/
}
mx=mx+mtdist;
}
}
}
if (drawMode2==JKQTPCADMticks || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) {
painter.setPen(ptick);
if (x<=axismax && x>=axismin) {
QLineF l(xx, top-parent->pt2px(painter, tickOutsideLength), xx, top+parent->pt2px(painter, tickInsideLength));
if (l.length()>0) lines_ptick2.append(l);//painter.drawLine(l);
}
painter.setPen(pmtick);
if ((tickLabels.size()<=0) && (minorTicks>0)) {
double mx=x+mtdist;
int minTickCnt=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, minorTickOutsideLength), mxx, xleft=(top+parent->pt2px(painter, minorTickInsideLength)));
if (l.length()>0) lines_pmtick2.append(l);//painter.drawLine(l);
double val= mx/pow(logAxisBase,floor(log(mx)/log(logAxisBase)));
if (minorTickLabelsEnabled) {
if (minorTickLabelFullNumber) val=mx;
QString minorlabel=floattolabel(val);
drawTickLabel2(painter, mxx, xleft, minorlabel, minorTickLabelFontSize, ascentMax, descentMax);
//drawTickLabel2(painter, right, xx, minorlabel, minorTickLabelFontSize, ascentMax, descentMax);
}
/*
double val= mx/pow(10.0,floor(log10(mx)));
if (isLogAxis() && minorTickLabelsEnabled && apprLogTicks<=2 && val>1.05) {
painter.save();
QFont f;
f.setFamily(tickLabelFont);
f.setPointSizeF(minorTickLabelFontSize*parent->get_fontSizeMultiplier());
painter.setFont(f);
painter.setPen(axisColor);
QFontMetrics fm(f);
QString str=QString::number(val);
double wid=fm.width(str);
double heig=fm.ascent();
painter.drawText(QPointF(mxx-wid/2.0, xleft-parent->pt2px(painter, minorTickOutsideLength)/2.0), str);
painter.restore();
}*/
}
mx=mx+mtdist;
}
}
}
if ((label!="") && (x<=axismax && x>=axismin) && (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete || drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete)) {
drawTickLabel1(painter, xx, bottom, label, tickLabelFontSize, ascentMax, descentMax);
drawTickLabel2(painter, xx, top, label, tickLabelFontSize, ascentMax, descentMax);
/*
get_parent_mathText()->parse(label);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
if (drawMode1==JKQTPCADMticksAndLabels || drawMode1==JKQTPCADMcomplete) {
double lx0=bottom+parent->pt2px(painter, tickOutsideLength+tickLabelDistance);
double lx=lx0+ascentMax;
if (tickLabelAngle!=0) {
painter.save();
if (tickLabelAngle>0) {
painter.translate(xx-fabs(ascent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0+fabs(ascent*cos(tickLabelAngle/180.0*M_PI)));
painter.rotate(tickLabelAngle);
} else {
painter.translate(xx+fabs(ascent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0+ascent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))+fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI)));
painter.rotate(tickLabelAngle);
}
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->draw(painter, xx-width/2.0, lx);
}
}
if (drawMode2==JKQTPCADMticksAndLabels || drawMode2==JKQTPCADMcomplete) {
double lx0=top-parent->pt2px(painter, tickOutsideLength+tickLabelDistance);
double lx=lx0-descentMax;
if (tickLabelAngle!=0) {
painter.save();
if (tickLabelAngle>0) {
painter.translate(xx+fabs(descent*sin(tickLabelAngle/180.0*M_PI)/2.0), lx0-fabs(descent*cos(tickLabelAngle/180.0*M_PI)));
painter.rotate(-tickLabelAngle);
} else {
painter.translate(xx-fabs(descent*sin(fabs(tickLabelAngle)/180.0*M_PI)/2.0)-width*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI)), lx0-descent*fabs(cos(fabs(tickLabelAngle)/180.0*M_PI))-fabs(width*sin(fabs(tickLabelAngle)/180.0*M_PI)));
painter.rotate(-tickLabelAngle);
}
get_parent_mathText()->draw(painter, 0,0);
painter.restore();
} else {
get_parent_mathText()->draw(painter, xx-width/2.0, lx);
}
}*/
}
first=false;
cnt++;
}
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() && (drawMode1==JKQTPCADMcomplete)) {
get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
double width, ascent, descent, strikeoutPos;
get_parent_mathText()->getSizeDetail(painter, width, ascent, descent, strikeoutPos);
QRect rect(0,0, get_parent_plotwidth(), ascent+descent);//plotBorderLeft-30);
painter.save();
painter.translate(QPointF(left, bottom+parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)+labelMax.height()));
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(labelPosition) {
case JKQTPLabelMax:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
//painter.resetTransform();
painter.restore();
}
if (!axisLabel.isEmpty() && (drawMode2==JKQTPCADMcomplete)) {
get_parent_mathText()->set_fontSize(labelFontSize*parent->get_fontSizeMultiplier());
get_parent_mathText()->set_fontRoman(labelFont);
get_parent_mathText()->parse(axisLabel);
QRect rect(0,0, get_parent_plotwidth(), get_parent_mathText()->getSize(painter).height());//plotBorderLeft-30);
painter.save();
painter.translate(QPointF(left, top-parent->pt2px(painter, tickOutsideLength+tickLabelDistance+labelDistance)-labelMax.height()-rect.height()));
//JKQTPEnhancedPainter::RenderHints h=painter.renderHints();
//painter.drawRect(rect);
//painter.drawEllipse(-4, -4, 8, 8);
switch(labelPosition) {
case JKQTPLabelMax:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignRight, rect);
break;
case JKQTPLabelMin:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignLeft, rect);
break;
case JKQTPLabelCenter:
get_parent_mathText()->draw(painter, Qt::AlignBottom|Qt::AlignHCenter, rect);
break;
}
//painter.resetTransform();
painter.restore();
}
#ifdef SHOW_JKQTPLOTTER_DEBUG
QPen mp=QPen(QColor("blue"));
mp.setWidthF(3);
painter.setPen(mp);
painter.drawLine(QLineF(get_parent_plotoffset(), top, get_parent_plotoffset()+get_parent_plotwidth(), bottom));
painter.drawEllipse(QPointF(get_parent_plotoffset(), top), 5,5);
#endif
painter.restore();
}
JKQTPHorizontalIndependentAxis::JKQTPHorizontalIndependentAxis(double axisOffset, double axisWidth, double otherAxisOffset, double otherAxisWidth, JKQTBasePlotter* parent):
JKQTPHorizontalAxis(parent)
{
this->axisOffset=axisOffset;
this->axisWidth=axisWidth;
this->otherAxisOffset=otherAxisOffset;
this->otherAxisWidth=otherAxisWidth;
this->otherAxisInverted=false;
}
void JKQTPHorizontalIndependentAxis::set_axisOffset(double __value) {
this->axisOffset = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPHorizontalIndependentAxis::set_axisWidth(double __value) {
this->axisWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPHorizontalIndependentAxis::set_otherAxisOffset(double __value) {
this->otherAxisOffset = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPHorizontalIndependentAxis::set_otherAxisWidth(double __value) {
this->otherAxisWidth = __value;
this->paramsChanged=true;
update_plot();
}
void JKQTPHorizontalIndependentAxis::set_otherAxisInverted(bool __value) {
this->otherAxisInverted = __value;
this->paramsChanged=true;
update_plot();
}
double JKQTPHorizontalIndependentAxis::get_parent_plotwidth() const { return axisWidth; }
double JKQTPHorizontalIndependentAxis::get_parent_plotoffset() const { return axisOffset; }
double JKQTPHorizontalIndependentAxis::get_parent_otheraxis_width() const { return otherAxisWidth; }
bool JKQTPHorizontalIndependentAxis::get_parent_otheraxis_inverted() const { return otherAxisInverted; }
double JKQTPHorizontalIndependentAxis::get_parent_otheraxis_offset() const { return otherAxisOffset; }