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tdeedu/kmplot/kmplot/keditparametric.cpp

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/*
* KmPlot - a math. function plotter for the KDE-Desktop
*
* Copyright (C) 1998, 1999 Klaus-Dieter Möller
* 2000, 2002 kd.moeller@t-online.de
*
* This file is part of the KDE Project.
* KmPlot is part of the KDE-EDU Project.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
// TQt includes
#include <tqcheckbox.h>
// KDE includes
#include <tdeapplication.h>
#include <kcolorbutton.h>
#include <klineedit.h>
#include <klocale.h>
#include <kmessagebox.h>
#include <knuminput.h>
#include <kdebug.h>
// local includes
#include "keditparametric.h"
#include "keditparametric.moc"
#include "xparser.h"
#include "View.h"
KEditParametric::KEditParametric( XParser* parser, TQWidget* parent, const char* name ) :
QEditParametric( parent, name ), m_parser(parser)
{
connect( customMinRange, TQT_SIGNAL ( toggled(bool) ), this, TQT_SLOT( customMinRange_toggled(bool) ) );
connect( customMaxRange, TQT_SIGNAL ( toggled(bool) ), this, TQT_SLOT( customMaxRange_toggled(bool) ) );
m_updatedfunction = 0;
}
void KEditParametric::initDialog( int x_id, int y_id)
{
m_x_id = x_id;
m_y_id = y_id;
if( m_x_id == -1 ) clearWidgets();
else setWidgets();
}
void KEditParametric::clearWidgets()
{
kLineEditName->clear();
kLineEditXFunction->clear();
kLineEditYFunction->clear();
checkBoxHide->setChecked( false );
customMinRange->setChecked( false );
customMinRange->setChecked( false );
min->clear();
max->clear();
kIntNumInputLineWidth->setValue( m_parser->linewidth0 );
kColorButtonColor->setColor( m_parser->defaultColor(m_parser->getNextIndex() ) );
}
void KEditParametric::setWidgets()
{
Ufkt *ufkt = &m_parser->ufkt[ m_parser->ixValue(m_x_id) ];
TQString name, expression;
splitEquation( ufkt->fstr, name, expression );
kLineEditName->setText( name );
kLineEditXFunction->setText( expression );
splitEquation( m_parser->ufkt[ m_y_id ].fstr, name, expression );
kLineEditYFunction->setText( expression );
checkBoxHide->setChecked( !ufkt->f_mode );
if (ufkt->usecustomxmin)
{
customMinRange->setChecked(true);
min->setText( ufkt->str_dmin );
}
else
customMinRange->setChecked(false);
if (ufkt->usecustomxmax)
{
customMaxRange->setChecked(true);
max->setText( ufkt->str_dmax );
}
else
customMaxRange->setChecked(false);
kIntNumInputLineWidth->setValue( ufkt->linewidth );
kColorButtonColor->setColor( ufkt->color );
}
void KEditParametric::accept()
{
if ( kLineEditXFunction->text().contains('y') != 0 || kLineEditYFunction->text().contains('y') != 0)
{
KMessageBox::error( this, i18n( "Recursive function not allowed"));
kLineEditXFunction->setFocus();
kLineEditXFunction->selectAll();
return;
}
// find a name not already used
if( kLineEditName->text().isEmpty() )
{
TQString fname;
m_parser->fixFunctionName(fname, XParser::ParametricX, m_x_id);
int const pos = fname.find('(');
kLineEditName->setText(fname.mid(1,pos-1));
}
Ufkt tmp_ufkt;
tmp_ufkt.f_mode = !checkBoxHide->isChecked();
if( customMinRange->isChecked() )
{
tmp_ufkt.usecustomxmin = true;
tmp_ufkt.str_dmin = min->text();
tmp_ufkt.dmin = m_parser->eval( min->text() );
if ( m_parser->parserError())
{
min->setFocus();
min->selectAll();
return;
}
}
else
tmp_ufkt.usecustomxmin = false;
if( customMaxRange->isChecked() )
{
tmp_ufkt.usecustomxmax = true;
tmp_ufkt.str_dmax = max->text();
tmp_ufkt.dmax = m_parser->eval( max->text() );
if ( m_parser->parserError())
{
max->setFocus();
max->selectAll();
return;
}
if ( tmp_ufkt.usecustomxmin && tmp_ufkt.dmin >= tmp_ufkt.dmax)
{
KMessageBox::error(this,i18n("The minimum range value must be lower than the maximum range value"));
min->setFocus();
min->selectAll();
return;
}
}
else
tmp_ufkt.usecustomxmax = false;
tmp_ufkt.linewidth = kIntNumInputLineWidth->value();
tmp_ufkt.color = kColorButtonColor->color().rgb();
tmp_ufkt.f1_color = tmp_ufkt.f2_color = tmp_ufkt.integral_color = tmp_ufkt.color;
tmp_ufkt.integral_mode = 0;
tmp_ufkt.f1_mode = tmp_ufkt.f1_mode;
tmp_ufkt.f2_mode = 0;
tmp_ufkt.use_slider = -1;
Ufkt *added_ufkt;
if( m_x_id != -1 ) //when editing a function:
{
int const ix = m_parser->ixValue(m_x_id);
if ( ix == -1) //The function could have been deleted
{
KMessageBox::error(this,i18n("Function could not be found"));
return;
}
added_ufkt = &m_parser->ufkt[ix];
TQString old_fstr = added_ufkt->fstr;
added_ufkt->fstr = xFunction();
m_parser->reparse(added_ufkt); //reparse the funcion
if ( m_parser->parserError() != 0)
{
added_ufkt->fstr = old_fstr;
m_parser->reparse(added_ufkt);
raise();
kLineEditXFunction->setFocus();
kLineEditXFunction->selectAll();
return;
}
}
else
{
int const id = m_parser->addfkt( xFunction() );
if( id == -1 )
{
m_parser->parserError();
raise();
kLineEditXFunction->setFocus();
kLineEditXFunction->selectAll();
return;
}
added_ufkt = &m_parser->ufkt.last();
}
//save all settings in the function now when we know no errors have appeared
added_ufkt->f_mode = tmp_ufkt.f_mode;
added_ufkt->f1_mode = tmp_ufkt.f1_mode;
added_ufkt->f2_mode = tmp_ufkt.f2_mode;
added_ufkt->integral_mode = tmp_ufkt.integral_mode;
added_ufkt->integral_use_precision = tmp_ufkt.integral_use_precision;
added_ufkt->linewidth = tmp_ufkt.linewidth;
added_ufkt->f1_linewidth = tmp_ufkt.f1_linewidth;
added_ufkt->f2_linewidth = tmp_ufkt.f2_linewidth;
added_ufkt->integral_linewidth = tmp_ufkt.integral_linewidth;
added_ufkt->str_dmin = tmp_ufkt.str_dmin;
added_ufkt->str_dmax = tmp_ufkt.str_dmax;
added_ufkt->dmin = tmp_ufkt.dmin;
added_ufkt->dmax = tmp_ufkt.dmax;
added_ufkt->str_startx = tmp_ufkt.str_startx;
added_ufkt->str_starty = tmp_ufkt.str_starty;
added_ufkt->oldx = tmp_ufkt.oldx;
added_ufkt->starty = tmp_ufkt.starty;
added_ufkt->startx = tmp_ufkt.startx;
added_ufkt->integral_precision = tmp_ufkt.integral_precision;
added_ufkt->color = tmp_ufkt.color;
added_ufkt->f1_color = tmp_ufkt.f1_color;
added_ufkt->f2_color = tmp_ufkt.f2_color;
added_ufkt->integral_color = tmp_ufkt.integral_color;
added_ufkt->use_slider = tmp_ufkt.use_slider;
added_ufkt->usecustomxmin = tmp_ufkt.usecustomxmin;
added_ufkt->usecustomxmax = tmp_ufkt.usecustomxmax;
added_ufkt = 0;
if( m_y_id != -1 ) //when editing a function:
{
added_ufkt = &m_parser->ufkt[m_parser->ixValue(m_y_id)];
TQString old_fstr = added_ufkt->fstr;
added_ufkt->fstr = yFunction();
m_parser->reparse(added_ufkt); //reparse the funcion
if ( m_parser->parserError() != 0) //when something went wrong:
{
added_ufkt->fstr = old_fstr; //go back to the old expression
m_parser->reparse(added_ufkt); //reparse
raise();
kLineEditXFunction->setFocus();
kLineEditXFunction->selectAll();
return;
}
}
else
{
int const id = m_parser->addfkt( yFunction() );
if( id == -1 )
{
m_parser->parserError();
raise();
kLineEditXFunction->setFocus();
kLineEditXFunction->selectAll();
return;
}
added_ufkt = &m_parser->ufkt.last();
}
//save all settings in the function now when we now no errors have appeared
added_ufkt->f_mode = tmp_ufkt.f_mode;
added_ufkt->f1_mode = tmp_ufkt.f1_mode;
added_ufkt->f2_mode = tmp_ufkt.f2_mode;
added_ufkt->integral_mode = tmp_ufkt.integral_mode;
added_ufkt->integral_use_precision = tmp_ufkt.integral_use_precision;
added_ufkt->linewidth = tmp_ufkt.linewidth;
added_ufkt->f1_linewidth = tmp_ufkt.f1_linewidth;
added_ufkt->f2_linewidth = tmp_ufkt.f2_linewidth;
added_ufkt->integral_linewidth = tmp_ufkt.integral_linewidth;
added_ufkt->str_dmin = tmp_ufkt.str_dmin;
added_ufkt->str_dmax = tmp_ufkt.str_dmax;
added_ufkt->dmin = tmp_ufkt.dmin;
added_ufkt->dmax = tmp_ufkt.dmax;
added_ufkt->str_startx = tmp_ufkt.str_startx;
added_ufkt->str_starty = tmp_ufkt.str_starty;
added_ufkt->oldx = tmp_ufkt.oldx;
added_ufkt->starty = tmp_ufkt.starty;
added_ufkt->startx = tmp_ufkt.startx;
added_ufkt->integral_precision = tmp_ufkt.integral_precision;
added_ufkt->color = tmp_ufkt.color;
added_ufkt->f1_color = tmp_ufkt.f1_color;
added_ufkt->f2_color = tmp_ufkt.f2_color;
added_ufkt->integral_color = tmp_ufkt.integral_color;
added_ufkt->parameters = tmp_ufkt.parameters;
added_ufkt->use_slider = tmp_ufkt.use_slider;
added_ufkt->usecustomxmin = tmp_ufkt.usecustomxmin;
added_ufkt->usecustomxmax = tmp_ufkt.usecustomxmax;
m_updatedfunction = added_ufkt;
// call inherited method
QEditParametric::accept(); //update the function name in FktDlg
}
TQString KEditParametric::xFunction()
{
return "x" + kLineEditName->text() + "(t)=" + kLineEditXFunction->text();
}
void KEditParametric::splitEquation( const TQString equation, TQString &name, TQString &expression )
{
int start = 0;
if( equation[ 0 ] == 'x' || equation[ 0 ] == 'y' ) start++;
int length = equation.find( '(' ) - start;
name = equation.mid( start, length );
expression = equation.section( '=', 1, 1 );
}
TQString KEditParametric::yFunction()
{
return "y" + kLineEditName->text() + "(t)=" + kLineEditYFunction->text();
}
Ufkt * KEditParametric::functionItem()
{
return m_updatedfunction;
}
void KEditParametric::slotHelp()
{
kapp->invokeHelp( "", "kmplot" );
}
void KEditParametric::customMinRange_toggled(bool status)
{
if (status)
min->setEnabled(true);
else
min->setEnabled(false);
}
void KEditParametric::customMaxRange_toggled(bool status)
{
if (status)
max->setEnabled(true);
else
max->setEnabled(false);
}
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