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/*
**************************************************************************
description
--------------------
copyright : (C) 2003 by Leon Pennington
email : [email protected]
**************************************************************************
**************************************************************************
* *
* 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. *
* *
**************************************************************************/
#include "pmradiosityedit.h"
#include "pmradiosity.h"
#include "pmlineedits.h"
#include <layout.h>
#include <tqlabel.h>
#include <tqcheckbox.h>
#include <klocale.h>
#include <kdialog.h>
#include <kmessagebox.h>
PMRadiosityEdit::PMRadiosityEdit( TQWidget* parent, const char* name )
: Base( parent, name )
{
m_pDisplayedObject = 0;
}
void PMRadiosityEdit::createTopWidgets( )
{
TQHBoxLayout* hl;
TQGridLayout *gl;
TQLabel* lbl;
Base::createTopWidgets( );
hl = new TQHBoxLayout( topLayout( ) );
gl = new TQGridLayout( hl, 15, 2 );
lbl = new TQLabel( i18n( "Adc bailout:" ), this );
m_pAdcBailout = new PMFloatEdit( this );
m_pAdcBailout->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 0, 0 );
gl->addWidget( m_pAdcBailout, 0, 1 );
m_pAlwaysSample = new TQCheckBox( i18n( "Always sample" ), this );
gl->addMultiCellWidget( m_pAlwaysSample, 1, 1, 0, 1 );
lbl = new TQLabel( i18n( "Brightness:" ), this );
m_pBrightness = new PMFloatEdit( this );
m_pBrightness->setValidation( true, 0, false, 0 );
gl->addWidget( lbl, 2, 0 );
gl->addWidget( m_pBrightness, 2, 1 );
lbl = new TQLabel( i18n( "Count:" ), this );
m_pCount = new PMIntEdit( this );
m_pCount->setValidation( true, 0, true, 1600 );
gl->addWidget( lbl, 3, 0 );
gl->addWidget( m_pCount, 3, 1 );
lbl = new TQLabel( i18n( "Error boundary:" ), this );
m_pErrorBound = new PMFloatEdit( this );
m_pErrorBound->setValidation( true, 0, false, 0 );
gl->addWidget( lbl, 4, 0 );
gl->addWidget( m_pErrorBound, 4, 1 );
lbl = new TQLabel( i18n( "Gray threshold:" ), this );
m_pGrayThreshold = new PMFloatEdit( this );
m_pGrayThreshold->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 5, 0 );
gl->addWidget( m_pGrayThreshold, 5, 1 );
lbl = new TQLabel( i18n( "Low error factor:" ), this );
m_pLowErrorFactor = new PMFloatEdit( this );
m_pLowErrorFactor->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 6, 0 );
gl->addWidget( m_pLowErrorFactor, 6, 1 );
lbl = new TQLabel( i18n( "Maximum sample:" ), this );
m_pMaxSample = new PMFloatEdit( this );
m_pMaxSample->setValidation( true, -1, false, 0 );
gl->addWidget( lbl, 7, 0 );
gl->addWidget( m_pMaxSample, 7, 1 );
m_pMedia = new TQCheckBox( i18n( "Media" ), this );
gl->addMultiCellWidget( m_pMedia, 8, 8, 0, 1 );
lbl = new TQLabel( i18n( "Minimum reuse:" ), this );
m_pMinimumReuse = new PMFloatEdit( this );
m_pMinimumReuse->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 9, 0 );
gl->addWidget( m_pMinimumReuse, 9, 1 );
lbl = new TQLabel( i18n( "Nearest count:" ), this );
m_pNearestCount = new PMIntEdit( this );
m_pNearestCount->setValidation( true, 0, true, 20 );
gl->addWidget( lbl, 10, 0 );
gl->addWidget( m_pNearestCount, 10, 1 );
m_pNormal = new TQCheckBox( i18n( "Normal" ), this );
gl->addMultiCellWidget( m_pNormal, 11, 11, 0, 1 );
lbl = new TQLabel( i18n( "Pretrace start:" ), this );
m_pPretraceStart = new PMFloatEdit( this );
m_pPretraceStart->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 12, 0 );
gl->addWidget( m_pPretraceStart, 12, 1 );
lbl = new TQLabel( i18n( "Pretrace end:" ), this );
m_pPretraceEnd = new PMFloatEdit( this );
m_pPretraceEnd->setValidation( true, 0, true, 1 );
gl->addWidget( lbl, 13, 0 );
gl->addWidget( m_pPretraceEnd, 13, 1 );
lbl = new TQLabel( i18n( "Recursion limit:" ), this );
m_pRecursionLimit = new PMIntEdit( this );
m_pRecursionLimit->setValidation( true, 1, true, 20 );
gl->addWidget( lbl, 14, 0 );
gl->addWidget( m_pRecursionLimit, 14, 1 );
hl->addStretch( 1 );
connect( m_pAdcBailout, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pAlwaysSample, TQT_SIGNAL( clicked( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pBrightness, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pCount, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pErrorBound, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pGrayThreshold, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pLowErrorFactor, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pMaxSample, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pMedia, TQT_SIGNAL( clicked( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pMinimumReuse, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pNearestCount, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pNormal, TQT_SIGNAL( clicked( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pPretraceStart, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pPretraceEnd, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
connect( m_pRecursionLimit, TQT_SIGNAL( dataChanged( ) ), TQT_SIGNAL( dataChanged( ) ) );
}
void PMRadiosityEdit::displayObject( PMObject* o )
{
if( o->isA( "Radiosity" ) )
{
bool readOnly = o->isReadOnly( );
m_pDisplayedObject = ( PMRadiosity* ) o;
m_pAdcBailout->setValue( m_pDisplayedObject->adcBailout( ) );
m_pAdcBailout->setReadOnly( readOnly );
m_pAlwaysSample->setChecked( m_pDisplayedObject->alwaysSample( ) );
m_pAlwaysSample->setEnabled( !readOnly );
m_pBrightness->setValue( m_pDisplayedObject->brightness( ) );
m_pBrightness->setReadOnly( readOnly );
m_pCount->setValue( m_pDisplayedObject->count( ) );
m_pCount->setReadOnly( readOnly );
m_pErrorBound->setValue( m_pDisplayedObject->errorBound( ) );
m_pErrorBound->setReadOnly( readOnly );
m_pGrayThreshold->setValue( m_pDisplayedObject->grayThreshold( ) );
m_pGrayThreshold->setReadOnly( readOnly );
m_pLowErrorFactor->setValue( m_pDisplayedObject->lowErrorFactor( ) );
m_pLowErrorFactor->setReadOnly( readOnly );
m_pMaxSample->setValue( m_pDisplayedObject->maxSample( ) );
m_pMaxSample->setReadOnly( readOnly );
m_pMedia->setChecked( m_pDisplayedObject->media( ) );
m_pMedia->setEnabled( !readOnly );
m_pMinimumReuse->setValue( m_pDisplayedObject->minimumReuse( ) );
m_pMinimumReuse->setReadOnly( readOnly );
m_pNearestCount->setValue( m_pDisplayedObject->nearestCount( ) );
m_pNearestCount->setReadOnly( readOnly );
m_pNormal->setChecked( m_pDisplayedObject->normal( ) );
m_pNormal->setEnabled( !readOnly );
m_pPretraceStart->setValue( m_pDisplayedObject->pretraceStart( ) );
m_pPretraceStart->setReadOnly( readOnly );
m_pPretraceEnd->setValue( m_pDisplayedObject->pretraceEnd( ) );
m_pPretraceEnd->setReadOnly( readOnly );
m_pRecursionLimit->setValue( m_pDisplayedObject->recursionLimit( ) );
m_pRecursionLimit->setReadOnly( readOnly );
Base::displayObject( o );
}
else
kdError( PMArea ) << "PMRadiosityEdit: Can't display object\n";
}
void PMRadiosityEdit::saveContents( )
{
if( m_pDisplayedObject )
{
Base::saveContents( );
m_pDisplayedObject->setAdcBailout( m_pAdcBailout->value( ) );
m_pDisplayedObject->setAlwaysSample( m_pAlwaysSample->isChecked( ) );
m_pDisplayedObject->setBrightness( m_pBrightness->value( ) );
m_pDisplayedObject->setCount( m_pCount->value( ) );
m_pDisplayedObject->setErrorBound( m_pErrorBound->value( ) );
m_pDisplayedObject->setGrayThreshold( m_pGrayThreshold->value( ) );
m_pDisplayedObject->setLowErrorFactor( m_pLowErrorFactor->value( ) );
m_pDisplayedObject->setMaxSample( m_pMaxSample->value( ) );
m_pDisplayedObject->setMedia( m_pMedia->isChecked( ) );
m_pDisplayedObject->setMinimumReuse( m_pMinimumReuse->value( ) );
m_pDisplayedObject->setNearestCount( m_pNearestCount->value( ) );
m_pDisplayedObject->setNormal( m_pNormal->isChecked( ) );
m_pDisplayedObject->setPretraceStart( m_pPretraceStart->value( ) );
m_pDisplayedObject->setPretraceEnd( m_pPretraceEnd->value( ) );
m_pDisplayedObject->setRecursionLimit( m_pRecursionLimit->value( ) );
}
}
bool PMRadiosityEdit::isDataValid( )
{
if( !m_pAdcBailout->isDataValid( ) ) return false;
if( !m_pBrightness->isDataValid( ) ) return false;
if( !m_pCount->isDataValid( ) ) return false;
if( !m_pErrorBound->isDataValid( ) ) return false;
if( !m_pGrayThreshold->isDataValid( ) ) return false;
if( !m_pLowErrorFactor->isDataValid( ) ) return false;
if( !m_pMaxSample->isDataValid( ) ) return false;
if( !m_pMinimumReuse->isDataValid( ) ) return false;
if( !m_pNearestCount->isDataValid( ) ) return false;
if( !m_pPretraceStart->isDataValid( ) ) return false;
if( !m_pPretraceEnd->isDataValid( ) ) return false;
if( !m_pRecursionLimit->isDataValid( ) ) return false;
return Base::isDataValid( );
}
#include "pmradiosityedit.moc"
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