mirror of
https://github.com/jkriege2/JKQtPlotter.git
synced 2024-11-16 02:25:50 +08:00
340 lines
12 KiB
C++
340 lines
12 KiB
C++
/*
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Copyright (c) 2008-2018 Jan W. Krieger (<jan@jkrieger.de>)
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This software is free software: you can redistribute it and/or modify
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it under the terms of the GNU Lesser General Public License (LGPL) as published by
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the Free Software Foundation, either version 2 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU Lesser General Public License (LGPL) for more details.
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You should have received a copy of the GNU Lesser General Public License (LGPL)
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "jkqtplotter/jkqtpgraphsparsedfunction.h"
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#include "jkqtplotter/jkqtpgraphs.h"
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#include "jkqtplotter/jkqtpbaseplotter.h"
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#include "jkqtplottertools/jkqtptools.h"
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#include <stdlib.h>
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#include <QDebug>
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#include <QElapsedTimer>
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#include <utility>
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JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraph(JKQTBasePlotter *parent):
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JKQTPXFunctionLineGraph(parent)
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{
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fdata.parser=new JKQTPMathParser();
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fdata.node=nullptr;
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fdata.varcount=0;
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function="";
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parameterColumn=-1;
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set_params(&fdata);
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set_plotFunction(&JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunction);
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efdata.parser=new JKQTPMathParser();
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efdata.node=nullptr;
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efdata.varcount=0;
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errorFunction="";
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errorParameterColumn=-1;
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set_errorParams(&efdata);
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set_errorPlotFunction(&JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunction);
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}
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JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraph(JKQTPLotter *parent):
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JKQTPXFunctionLineGraph(parent)
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{
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fdata.parser=new JKQTPMathParser();
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fdata.node=nullptr;
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fdata.varcount=0;
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function="";
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parameterColumn=-1;
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set_params(&fdata);
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set_plotFunction(&JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunction);
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efdata.parser=new JKQTPMathParser();
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efdata.node=nullptr;
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efdata.varcount=0;
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errorFunction="";
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errorParameterColumn=-1;
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set_errorParams(&efdata);
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set_errorPlotFunction(&JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunction);
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}
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JKQTPXParsedFunctionLineGraph::~JKQTPXParsedFunctionLineGraph()
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{
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if (fdata.node) delete fdata.node;
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delete fdata.parser;
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if (efdata.node) delete efdata.node;
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delete efdata.parser;
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}
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void JKQTPXParsedFunctionLineGraph::createPlotData(bool /*collectParams*/)
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{
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collectParameters();
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//QElapsedTimer timer;
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//timer.start();
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for (int i=0; i<fdata.varcount; i++) {
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fdata.parser->deleteVariable(std::string("p")+jkqtp_inttostr(i+1));
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}
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fdata.varcount=0;
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try {
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QVector<double>* parameters=static_cast<QVector<double>*>(params);
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if (parameters) {
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for (int i=0; i<parameters->size(); i++) {
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fdata.parser->addVariableDouble(std::string("p")+jkqtp_inttostr(fdata.varcount+1), parameters->at(i));
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fdata.varcount=fdata.varcount+1;
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}
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}
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fdata.parser->addVariableDouble(std::string("x"), 0.0);
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if (fdata.node) delete fdata.node;
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//qint64 t=timer.elapsed();
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//qDebug()<<"createPlotData(): adding variables: "<<t<<"ms";
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fdata.node=fdata.parser->parse(function.toStdString());
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//qDebug()<<"createPlotData(): parsing: "<<timer.elapsed()-t<<"ms";
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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}
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//qint64 t0=timer.elapsed();
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for (int i=0; i<efdata.varcount; i++) {
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efdata.parser->deleteVariable(std::string("p")+jkqtp_inttostr(i+1));
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}
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efdata.varcount=0;
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try {
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QVector<double>* errorParameters=static_cast<QVector<double>*>(errorParams);
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if (errorParameters) {
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for (int i=0; i<errorParameters->size(); i++) {
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efdata.parser->addVariableDouble(std::string("p")+jkqtp_inttostr(efdata.varcount+1), errorParameters->at(i));
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efdata.varcount=efdata.varcount+1;
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}
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}
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efdata.parser->addVariableDouble(std::string("x"), 0.0);
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if (efdata.node) delete efdata.node;
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//qint64 t=timer.elapsed();
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//qDebug()<<"createPlotData(): adding variables: "<<t-t0<<"ms";
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efdata.node=efdata.parser->parse(errorFunction.toStdString());
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//qDebug()<<"createPlotData(): parsing: "<<timer.elapsed()-t<<"ms";
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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}
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set_params(&fdata);
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set_plotFunction(JKQTPXParsedFunctionLineGraphFunction);
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set_errorParams(&efdata);
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set_errorPlotFunction(JKQTPXParsedFunctionLineGraphFunction);
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//qint64 t=timer.elapsed();
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JKQTPXFunctionLineGraph::createPlotData(false);
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//qDebug()<<"createPlotData(): JKQTPXFunctionLineGraph::createPlotData(): "<<timer.elapsed()-t<<"ms";
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/*int count=0;
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doublePair* d=data;
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while (d!=nullptr) {
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count++;
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d=d->next;
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}
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qDebug()<<"refined to "<<count<<" daatapoints";*/
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}
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double JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunction(double x, void* data) {
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JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunctionData* d=(JKQTPXParsedFunctionLineGraph::JKQTPXParsedFunctionLineGraphFunctionData*)data;
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if (d && d->parser && d->node) {
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try {
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d->parser->addVariableDouble("x", x);
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JKQTPMathParser::jkmpResult r=d->node->evaluate();
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if (r.isValid) {
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if (r.type==JKQTPMathParser::jkmpBool) {
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return r.boolean?1.0:0.0;
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} else if (r.type==JKQTPMathParser::jkmpDouble) {
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return r.num;
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}
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}
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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/*ok= QMessageBox::critical(this, tr("QuickFit-table"),
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tr("An error occured while parsing the expression '%1' in cell (row, column)=(%3, %4):\n%2\n\n\"OK\" will still go on evaluating\n\"Cancel\" will cancel evaluation for the rest of the cells.").arg(dlgMathExpression->getExpression()).arg(E.what()).arg(row).arg(column),
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QMessageBox::Ok|QMessageBox::Cancel, QMessageBox::Ok)==QMessageBox::Ok;*/
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}
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}
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return NAN;
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}
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JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraph(JKQTBasePlotter *parent):
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JKQTPYFunctionLineGraph(parent)
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{
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fdata.parser=new JKQTPMathParser();
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fdata.node=nullptr;
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fdata.varcount=0;
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function="";
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parameterColumn=-1;
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set_params(&fdata);
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set_plotFunction(&JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunction);
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efdata.parser=new JKQTPMathParser();
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efdata.node=nullptr;
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efdata.varcount=0;
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errorFunction="";
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errorParameterColumn=-1;
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set_errorParams(&efdata);
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set_errorPlotFunction(&JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunction);
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}
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JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraph(JKQTPLotter *parent):
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JKQTPYFunctionLineGraph(parent)
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{
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fdata.parser=new JKQTPMathParser();
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fdata.node=nullptr;
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fdata.varcount=0;
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function="";
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parameterColumn=-1;
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set_params(&fdata);
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set_plotFunction(&JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunction);
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efdata.parser=new JKQTPMathParser();
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efdata.node=nullptr;
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efdata.varcount=0;
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errorFunction="";
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errorParameterColumn=-1;
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set_errorParams(&efdata);
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set_errorPlotFunction(&JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunction);
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}
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JKQTPYParsedFunctionLineGraph::~JKQTPYParsedFunctionLineGraph()
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{
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if (fdata.node) delete fdata.node;
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delete fdata.parser;
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if (efdata.node) delete efdata.node;
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delete efdata.parser;
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}
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void JKQTPYParsedFunctionLineGraph::createPlotData(bool /*collectParams*/)
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{
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collectParameters();
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//QElapsedTimer timer;
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//timer.start();
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for (int i=0; i<fdata.varcount; i++) {
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fdata.parser->deleteVariable(std::string("p")+jkqtp_inttostr(i+1));
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}
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fdata.varcount=0;
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try {
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QVector<double>* parameters=static_cast<QVector<double>*>(params);
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if (parameters) {
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for (int i=0; i<parameters->size(); i++) {
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fdata.parser->addVariableDouble(std::string("p")+jkqtp_inttostr(fdata.varcount+1), parameters->at(i));
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fdata.varcount=fdata.varcount+1;
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}
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}
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fdata.parser->addVariableDouble(std::string("x"), 0.0);
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fdata.parser->addVariableDouble(std::string("y"), 0.0);
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if (fdata.node) delete fdata.node;
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//qint64 t=timer.elapsed();
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//qDebug()<<"createPlotData(): adding variables: "<<t<<"ms";
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fdata.node=fdata.parser->parse(function.toStdString());
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//qDebug()<<"createPlotData(): parsing: "<<timer.elapsed()-t<<"ms";
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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}
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//qint64 t0=timer.elapsed();
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for (int i=0; i<efdata.varcount; i++) {
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efdata.parser->deleteVariable(std::string("p")+jkqtp_inttostr(i+1));
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}
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efdata.varcount=0;
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try {
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QVector<double>* errorParameters=static_cast<QVector<double>*>(errorParams);
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if (errorParameters) {
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for (int i=0; i<errorParameters->size(); i++) {
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efdata.parser->addVariableDouble(std::string("p")+jkqtp_inttostr(efdata.varcount+1), errorParameters->at(i));
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efdata.varcount=efdata.varcount+1;
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}
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}
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efdata.parser->addVariableDouble(std::string("x"), 0.0);
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efdata.parser->addVariableDouble(std::string("y"), 0.0);
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if (efdata.node) delete efdata.node;
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//qint64 t=timer.elapsed();
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//qDebug()<<"createPlotData(): adding variables: "<<t-t0<<"ms";
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efdata.node=efdata.parser->parse(errorFunction.toStdString());
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//qDebug()<<"createPlotData(): parsing: "<<timer.elapsed()-t<<"ms";
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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}
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set_params(&fdata);
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set_plotFunction(JKQTPYParsedFunctionLineGraphFunction);
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set_errorParams(&efdata);
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set_errorPlotFunction(JKQTPYParsedFunctionLineGraphFunction);
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//qint64 t=timer.elapsed();
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JKQTPYFunctionLineGraph::createPlotData(false);
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//qDebug()<<"createPlotData(): JKQTPYFunctionLineGraph::createPlotData(): "<<timer.elapsed()-t<<"ms";
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/*int count=0;
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doublePair* d=data;
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while (d!=nullptr) {
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count++;
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d=d->next;
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}
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qDebug()<<"refined to "<<count<<" daatapoints";*/
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}
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double JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunction(double x, void* data) {
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JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunctionData* d=(JKQTPYParsedFunctionLineGraph::JKQTPYParsedFunctionLineGraphFunctionData*)data;
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if (d && d->parser && d->node) {
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try {
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d->parser->addVariableDouble("x", x);
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d->parser->addVariableDouble("y", x);
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JKQTPMathParser::jkmpResult r=d->node->evaluate();
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if (r.isValid) {
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if (r.type==JKQTPMathParser::jkmpBool) {
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return r.boolean?1.0:0.0;
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} else if (r.type==JKQTPMathParser::jkmpDouble) {
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return r.num;
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}
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}
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} catch(std::exception& /*E*/) {
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//qDebug()<<QString("parser error: %1").arg(E.what());
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/*ok= QMessageBox::critical(this, tr("QuickFit-table"),
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tr("An error occured while parsing the expression '%1' in cell (row, column)=(%3, %4):\n%2\n\n\"OK\" will still go on evaluating\n\"Cancel\" will cancel evaluation for the rest of the cells.").arg(dlgMathExpression->getExpression()).arg(E.what()).arg(row).arg(column),
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QMessageBox::Ok|QMessageBox::Cancel, QMessageBox::Ok)==QMessageBox::Ok;*/
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}
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}
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return NAN;
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}
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