/* This file is part of the KDE project Copyright (C) 2001,2002,2003,2004 Laurent Montel This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library 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 Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; see the file COPYING.LIB. If not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301, USA. */ #include "kchartParameterConfigPage.h" #include "kchartParameterConfigPage.moc" #include #include #include #include #include #include #include #include #include #include #include #include #include "kdchart/KDChartAxisParams.h" #include "kchart_params.h" namespace KChart { KChartParameterConfigPage::KChartParameterConfigPage( KChartParams* params, TQWidget* parent ) : TQWidget( parent ),_params( params ) { // toplevel layout TQVBoxLayout* toplevel = new TQVBoxLayout( this, 10 ); TQGridLayout* layout = new TQGridLayout( 1, 3 ); toplevel->addLayout( layout ); // The "Parameters" button group TQButtonGroup* gb1 = new TQButtonGroup( 0, Qt::Vertical, i18n("Parameters"), this ); gb1->layout()->setSpacing(KDialog::spacingHint()); gb1->layout()->setMargin(KDialog::marginHint()); TQGridLayout *grid1 = new TQGridLayout(gb1->layout(),9,1); grid = new TQCheckBox( i18n( "Grid" ), gb1 ); TQWhatsThis::add(grid, i18n("If this is checked, the grid is shown. If you uncheck this option, the grid will not be displayed anymore.")); grid1->addWidget(grid, 0, 0); //gb1->insert(grid); yaxis = new TQCheckBox( i18n( "Y-axis" ), gb1); TQWhatsThis::add(yaxis, i18n("If this is checked, the Y-axis is shown. If you uncheck this option, the Y-axis and the Y grid lines will not be displayed anymore.")); connect( yaxis, TQT_SIGNAL( clicked() ), this, TQT_SLOT( axisChanged() ) ); grid1->addWidget(yaxis, 1, 0); //gb1->insert(yaxis); xaxis = new TQCheckBox( i18n( "X-axis" ), gb1 ); TQWhatsThis::add(xaxis, i18n("If this is checked, the X-axis is shown. If you uncheck this option, the X-axis and the X grid lines will not be displayed anymore.")); connect( xaxis, TQT_SIGNAL( clicked() ), this, TQT_SLOT( axisChanged() ) ); grid1->addWidget(xaxis, 2, 0); //gb1->insert(xaxis); #if 0 xlabel = new TQCheckBox( i18n( "Has X-label" ), gb1 ); grid1->addWidget(xlabel,3,0); yaxis2 = new TQCheckBox( i18n( "Y-axis 2" ), gb1 ); grid1->addWidget(yaxis2,4,0); #endif #if 0 // Moved to the Line page lineMarker = new TQCheckBox( i18n( "Line marker" ), gb1 ); grid1->addWidget(lineMarker, 4, 0); #endif #if 0 llabel = new TQCheckBox( i18n( "Legend" ), gb1 ); grid1->addWidget(llabel,6,0); #endif // The "Settings" button group TQButtonGroup* gb2 = new TQButtonGroup( 0, Qt::Vertical, i18n("Settings"), this ); gb2->layout()->setSpacing(KDialog::spacingHint()); gb2->layout()->setMargin(KDialog::marginHint()); TQGridLayout *grid2 = new TQGridLayout(gb2->layout(),8,1); TQBoxLayout * l = new TQVBoxLayout( grid2 ); TQHBoxLayout * top = new TQHBoxLayout( l ); // The X axis title TQLabel *tmpLabel = new TQLabel( i18n( "X-title:" ), gb2 ); top->addWidget(tmpLabel); // The Y axis title tmpLabel = new TQLabel( i18n( "Y-title:" ), gb2 ); top->addWidget(tmpLabel); TQHBoxLayout * bottom = new TQHBoxLayout( l ); xtitle= new TQLineEdit( gb2 ); TQWhatsThis::add(xtitle, i18n("Write the title for the X-axis here, if you want a title. The color for this title is set in the Colors tab, in the same dialog, and the font is set in the Font tab.")); bottom->addWidget(xtitle); ytitle= new TQLineEdit( gb2 ); TQWhatsThis::add(ytitle, i18n("Write the title for the Y-axis here, if you want a title. The color for this title is set in the Colors tab, in the same dialog, and the font is set in the Font tab.")); bottom->addWidget(ytitle); // Linear or logarithmic scale TQVButtonGroup *scaletype = new TQVButtonGroup(i18n("Scale Types"), gb2); lin = new TQRadioButton( i18n("Linear scale"), scaletype); TQWhatsThis::add(lin, i18n("This sets the Y-axis to be linear. This is default.")); log = new TQRadioButton( i18n("Logarithmic scale"), scaletype); TQWhatsThis::add(log, i18n("This sets the Y-axis to be logarithmic.")); grid2->addWidget(scaletype, 1, 0); // Decimal precision TQVButtonGroup *precision = new TQVButtonGroup(i18n("Precision for Numerical Left Axis"), gb2); grid2->addWidget(precision, 2, 0); TQRadioButton * automatic_precision = new TQRadioButton( i18n("Automatic precision"), precision); TQWhatsThis::add(automatic_precision, i18n("This sets the precision as automatic which means that KChart decides what precision to apply.")); automatic_precision->setChecked(true); max = new TQRadioButton( i18n("Decimal precision:"), precision); TQWhatsThis::add(max, i18n("This sets the Y-axis precision. For example, if you choose a precision of 2, the value 5 will be displayed as 5.00 alongside the Y-axis.")); connect(automatic_precision, TQT_SIGNAL(toggled(bool)), this, TQT_SLOT(automatic_precision_toggled(bool)) ); maximum_length = new TQSpinBox(0, 15, 1, precision ); TQWhatsThis::add(maximum_length, i18n("Set the precision you want to display for the Y-axis, if you choose Decimal precision. The range is 0 to 15; 2 being the default.")); maximum_length->setValue(2); #if 0 tmpLabel = new TQLabel( i18n( "Y-label format:" ), gb2 ); grid2->addWidget(tmpLabel,0,1); ylabel_fmt= new TQLineEdit( gb2 ); ylabel_fmt->setMaximumWidth(130); grid2->addWidget(ylabel_fmt,1,1); ylabel_fmt->setEnabled(false); tmpLabel = new TQLabel( i18n( "Y-title 2:" ), gb2 ); grid2->addWidget(tmpLabel,2,1); ytitle2= new TQLineEdit( gb2 ); ytitle2->setMaximumWidth(130); grid2->addWidget(ytitle2,3,1); tmpLabel = new TQLabel( i18n( "Y-label format 2:" ), gb2 ); grid2->addWidget(tmpLabel,4,1); ylabel2_fmt= new TQLineEdit( gb2 ); ylabel2_fmt->setMaximumWidth(130); grid2->addWidget(ylabel2_fmt,5,1); #endif layout->addWidget(gb1,0,0); layout->addWidget(gb2,0,1); #if 0 grid1->activate(); grid2->activate(); #endif /*connect( grid, TQT_SIGNAL( toggled( bool ) ), this, TQT_SLOT( changeState( bool ) ) );*/ /*connect( xaxis, TQT_SIGNAL( toggled( bool ) ), this, TQT_SLOT( changeXaxisState( bool ) ) );*/ } void KChartParameterConfigPage::changeXaxisState(bool /*state*/) { #if 0 if(state) xlabel->setEnabled(true); else xlabel->setEnabled(false); #endif } void KChartParameterConfigPage::init() { // PENDING(kalle) adapt these to KDChart // grid->setChecked(_params->grid); // xlabel->setChecked(_params->hasxlabel); grid->setChecked(_params->showGrid()); xaxis->setChecked(_params->axisVisible(KDChartAxisParams::AxisPosBottom)); yaxis->setChecked(_params->axisVisible(KDChartAxisParams::AxisPosLeft)); #if 0 llabel->setChecked(_params->legendPosition()!=KDChartParams::NoLegend); #endif #if 0 if ( _params->chartType() == KDChartParams::Line ) { lineMarker->setEnabled(true); lineMarker->setChecked(_params->lineMarker()); } else { lineMarker->setEnabled(false); lineMarker->setChecked(false); } #endif // PENDING(kalle) Adapt this // if(_params->has_yaxis2()) // { // yaxis2->setChecked(_params->yaxis2); // int len=_params->ylabel2_fmt.length(); // ylabel2_fmt->setText(_params->ylabel2_fmt.right(len-3)); // ytitle2->setText(_params->ytitle2); // } // else #if 0 { yaxis2->setEnabled(false); ylabel2_fmt->setEnabled(false); ytitle2->setEnabled(false); } // PENDING(kalle) Adapt this // xtitle->setText(_params->xtitle); // ytitle->setText(_params->ytitle); // int len=_params->ylabel_fmt.length(); // ylabel_fmt->setText(_params->ylabel_fmt.right(len-3)); // if(_params->xaxis) // xlabel->setEnabled(true); // else xlabel->setEnabled(false); #endif xtitle->setText( _params->axisTitle( KDChartAxisParams::AxisPosBottom) ); ytitle->setText( _params->axisTitle( KDChartAxisParams::AxisPosLeft) ); axisChanged(); // Linear / logarithmic Y axis if ( _params->axisParams( KDChartAxisParams::AxisPosLeft ).axisCalcMode() == KDChartAxisParams::AxisCalcLinear ) lin->setChecked(true); else log->setChecked(true); if ( _params->axisParams( KDChartAxisParams::AxisPosLeft ).axisDigitsBehindComma() == KDCHART_AXIS_LABELS_AUTO_DIGITS ) maximum_length->setEnabled(false); else { max->setChecked(true); maximum_length->setValue( _params->axisParams( KDChartAxisParams::AxisPosLeft ).axisDigitsBehindComma() ); } } void KChartParameterConfigPage::apply() { #if 0 _params->setLegendPosition(llabel->isChecked() ? KDChartParams::LegendRight : KDChartParams::NoLegend); #endif _params->setAxisVisible(KDChartAxisParams::AxisPosBottom,xaxis->isChecked()); _params->setAxisVisible(KDChartAxisParams::AxisPosLeft,yaxis->isChecked()); _params->setAxisShowGrid(KDChartAxisParams::AxisPosLeft, grid->isChecked() ); _params->setAxisShowGrid(KDChartAxisParams::AxisPosBottom, grid->isChecked() ); _params->setAxisTitle( KDChartAxisParams::AxisPosBottom, xtitle->text() ); _params->setAxisTitle( KDChartAxisParams::AxisPosLeft, ytitle->text() ); // PENDING(kalle) Adapt this // _params->border=border->isChecked(); // _params->llabel=llabel->isChecked(); // if(xaxis->isChecked()) // _params->hasxlabel=xlabel->isChecked(); // if(_params->has_yaxis2()) // { // _params->yaxis2=yaxis2->isChecked(); // if(!ylabel2_fmt->text().isEmpty()) // _params->ylabel2_fmt="%g "+ylabel2_fmt->text(); // _params->ytitle2=ytitle2->text(); // } // PENDING(kalle) Adapt this // if(grid->isChecked()) // _params->shelf=shelf->isChecked(); // _params->xtitle=xtitle->text(); // _params->ytitle=ytitle->text(); // if(!ylabel_fmt->text().isEmpty()) // _params->ylabel_fmt="%g "+ylabel_fmt->text(); // PENDING(kalle) Adapt this // if(annotation->text().isEmpty()) { // if(_params->annotation) { // delete _params->annotation; // _params->annotation=0; // } // } // else // { // if(!_params->annotation) // _params->annotation=new KChartAnnotationType; // _params->annotation->note=annotation->text(); // _params->annotation->color=color->color(); // _params->annotation->point=element->value()-1; // _params->setAnnotationFont( annotationFont ); // } #if 0 if( _params->chartType() == KDChartParams::Line ) _params->setLineMarker(lineMarker->isChecked()); #endif // Set the scale for the Y axis (linear / logarithmic) { KDChartAxisParams params; params = _params->axisParams( KDChartAxisParams::AxisPosLeft ); if (lin->isChecked()) params.setAxisCalcMode(KDChartAxisParams::AxisCalcLinear); else { if(params.axisCalcMode() != KDChartAxisParams::AxisCalcLogarithmic) { // Since in this version of kdChart logarithmic scales only work for Line charts, // lets switch now _params->setChartType( KChartParams::Line ); } params.setAxisCalcMode(KDChartAxisParams::AxisCalcLogarithmic); } if ( maximum_length->isEnabled() ) params.setAxisDigitsBehindComma( maximum_length->value() ); else params.setAxisDigitsBehindComma( KDCHART_AXIS_LABELS_AUTO_DIGITS ); _params->setAxisParams( KDChartAxisParams::AxisPosLeft, params ); } } void KChartParameterConfigPage::automatic_precision_toggled(bool toggled) { if (toggled) maximum_length->setEnabled(false); else maximum_length->setEnabled(true); } void KChartParameterConfigPage::axisChanged() { if ( !xaxis->isChecked() || !yaxis->isChecked() ) { xtitle->setEnabled( false ); ytitle->setEnabled( false ); } else { xtitle->setEnabled( true ); ytitle->setEnabled( true ); } } } //KChart namespace