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549 lines
16 KiB
549 lines
16 KiB
/*
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**************************************************************************
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description
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--------------------
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copyright : (C) 2000-2002 by Luis Carvalho
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email : lpassos@mail.telepac.pt
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**************************************************************************
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**************************************************************************
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License 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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* *
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**************************************************************************/
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#include "pmxmlhelper.h"
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#include "pmvector.h"
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#include "pmwarp.h"
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#include "pmwarpedit.h"
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#include "pmmemento.h"
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#include "pmenumproperty.h"
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#include <klocale.h>
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const PMVector directionDefault = PMVector( 1.0, 0.0, 0.0 );
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const PMVector offsetDefault = PMVector( 0.0, 0.0, 0.0 );
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const PMVector flipDefault = PMVector( 0.0, 0.0, 0.0 );
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const PMVector locationDefault = PMVector( 0.0, 0.0, 0.0 );
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const double radiusDefault = 0;
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const double strengthDefault = 0;
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const double falloffDefault = 0;
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const bool inverseDefault = false;
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const PMVector repeatDefault = PMVector( 0.0, 0.0, 0.0 );
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const PMVector turbulenceDefault = PMVector( 0.0, 0.0, 0.0 );
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const PMVector valueVectorDefault = PMVector( 0.0, 0.0, 0.0 );
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const int octavesDefault = 6;
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const double omegaDefault = 0.5;
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const double lambdaDefault = 2.0;
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const PMVector orientationDefault = PMVector( 0.0, 0.0, 1.0 );
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const double distExpDefault = 0.0;
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const double majorRadiusDefault = 1.0;
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PMDefinePropertyClass( PMWarp, PMWarpProperty );
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PMDefineEnumPropertyClass( PMWarp, PMWarp::PMWarpType, PMWarpTypeProperty );
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PMMetaObject* PMWarp::s_pMetaObject = 0;
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PMObject* createNewWarp( PMPart* part )
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{
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return new PMWarp( part );
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}
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PMWarp::PMWarp( PMPart* part )
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: Base( part )
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{
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m_warpType = PMWarp::Repeat;
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m_direction = directionDefault;
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m_offset = offsetDefault;
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m_flip = flipDefault;
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m_location = locationDefault;
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m_radius = radiusDefault;
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m_strength = strengthDefault;
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m_falloff = falloffDefault;
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m_inverse = inverseDefault;
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m_repeat = repeatDefault;
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m_turbulence = turbulenceDefault;
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m_valueVector = valueVectorDefault;
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m_octaves = octavesDefault;
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m_omega = omegaDefault;
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m_lambda = lambdaDefault;
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m_orientation = orientationDefault;
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m_distExp = distExpDefault;
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m_majorRadius = majorRadiusDefault;
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}
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PMWarp::PMWarp( const PMWarp& w )
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: Base( w )
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{
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m_warpType = w.m_warpType;
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m_direction = w.m_direction;
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m_offset = w.m_offset;
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m_flip = w.m_flip;
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m_location = w.m_location;
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m_radius = w.m_radius;
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m_strength = w.m_strength;
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m_falloff = w.m_falloff;
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m_inverse = w.m_inverse;
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m_repeat = w.m_repeat;
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m_turbulence = w.m_turbulence;
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m_valueVector = w.m_valueVector;
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m_octaves = w.m_octaves;
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m_omega = w.m_omega;
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m_lambda = w.m_lambda;
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m_orientation = w.m_orientation;
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m_distExp = w.m_distExp;
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m_majorRadius = w.m_majorRadius;
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}
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PMWarp::~PMWarp( )
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{
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}
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TQString PMWarp::description( ) const
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{
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return i18n( "warp" );
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}
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void PMWarp::serialize( TQDomElement& e, TQDomDocument& /*doc*/ ) const
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{
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bool mapping = false;
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switch( m_warpType )
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{
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case PMWarp::Repeat:
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e.setAttribute( "warp_type", "repeat");
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e.setAttribute( "direction", m_direction.serializeXML( ) );
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e.setAttribute( "offset", m_offset.serializeXML( ) );
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e.setAttribute( "flip", m_flip.serializeXML( ) );
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break;
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case PMWarp::BlackHole:
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e.setAttribute( "warp_type", "black hole");
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e.setAttribute( "location", m_location.serializeXML( ) );
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e.setAttribute( "radius", m_radius );
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e.setAttribute( "strength", m_strength );
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e.setAttribute( "falloff", m_falloff );
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e.setAttribute( "inverse", m_inverse );
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e.setAttribute( "repeat", m_repeat.serializeXML( ) );
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e.setAttribute( "turbulence", m_turbulence.serializeXML( ) );
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break;
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case PMWarp::Turbulence:
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e.setAttribute( "warp_type", "turbulence");
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e.setAttribute( "turbulence", m_valueVector.serializeXML( ) );
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e.setAttribute( "octaves", m_octaves );
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e.setAttribute( "omega", m_omega );
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e.setAttribute( "lambda", m_lambda );
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break;
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case PMWarp::Cylindrical:
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mapping = true;
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e.setAttribute( "warp_type", "cylindrical" );
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break;
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case PMWarp::Spherical:
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mapping = true;
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e.setAttribute( "warp_type", "spherical" );
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break;
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case PMWarp::Toroidal:
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mapping = true;
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e.setAttribute( "warp_type", "toroidal" );
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e.setAttribute( "major_radius", m_majorRadius );
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break;
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case PMWarp::Planar:
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mapping = true;
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e.setAttribute( "warp_type", "planar" );
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break;
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}
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if ( mapping )
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{
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e.setAttribute( "orientation", m_orientation.serializeXML( ) );
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e.setAttribute( "dist_exp", m_distExp );
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}
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}
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void PMWarp::readAttributes( const PMXMLHelper& h )
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{
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bool mapping = false;
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TQString str = h.stringAttribute( "warp_type", "repeat" );
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if( str == "repeat" )
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{
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m_warpType = PMWarp::Repeat;
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m_direction = h.vectorAttribute( "direction", directionDefault );
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m_offset = h.vectorAttribute( "offset", offsetDefault );
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m_flip = h.vectorAttribute( "flip", flipDefault );
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}
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else if( str == "black hole" )
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{
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m_warpType = PMWarp::BlackHole;
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m_location = h.vectorAttribute( "location", locationDefault );
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m_radius = h.doubleAttribute( "radius", radiusDefault );
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m_strength = h.doubleAttribute( "strength", strengthDefault );
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m_falloff = h.doubleAttribute( "falloff", falloffDefault );
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m_inverse = h.boolAttribute( "inverse", inverseDefault );
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m_repeat = h.vectorAttribute( "repeat", repeatDefault );
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m_turbulence = h.vectorAttribute( "turbulence", turbulenceDefault );
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}
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else if( str == "turbulence" )
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{
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m_warpType = PMWarp::Turbulence;
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m_valueVector = h.vectorAttribute( "turbulence", valueVectorDefault );
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m_octaves = h.intAttribute( "octaves", octavesDefault );
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m_omega = h.doubleAttribute( "omega", omegaDefault );
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m_lambda = h.doubleAttribute( "lambda", lambdaDefault );
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}
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else if( str == "cylindrical" )
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{
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mapping = true;
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m_warpType = PMWarp::Cylindrical;
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}
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else if( str == "spherical" )
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{
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mapping = true;
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m_warpType = PMWarp::Spherical;
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}
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else if( str == "toroidal" )
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{
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mapping = true;
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m_warpType = PMWarp::Toroidal;
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m_majorRadius = h.doubleAttribute( "major_radius", majorRadiusDefault );
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}
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else if( str == "planar" )
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{
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mapping = true;
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m_warpType = PMWarp::Planar;
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}
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if( mapping )
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{
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m_orientation = h.vectorAttribute( "orientation", orientationDefault );
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m_distExp = h.doubleAttribute( "dist_exp", distExpDefault );
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}
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}
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PMMetaObject* PMWarp::tqmetaObject( ) const
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{
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if( !s_pMetaObject )
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{
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s_pMetaObject = new PMMetaObject( "Warp", Base::tqmetaObject( ),
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createNewWarp );
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PMWarpTypeProperty* p = new PMWarpTypeProperty(
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"warpType", &PMWarp::setWarpType, &PMWarp::warpType );
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p->addEnumValue( "Repeat", Repeat );
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p->addEnumValue( "BlackHole", BlackHole );
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p->addEnumValue( "Turbulence", Turbulence );
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p->addEnumValue( "Cylindrical", Cylindrical );
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p->addEnumValue( "Spherical", Spherical );
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p->addEnumValue( "Toroidal", Toroidal );
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p->addEnumValue( "Planar", Planar );
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s_pMetaObject->addProperty( p );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "direction", &PMWarp::setDirection, &PMWarp::direction ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "offset", &PMWarp::setOffset, &PMWarp::offset ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "flip", &PMWarp::setFlip, &PMWarp::flip ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "location", &PMWarp::setLocation, &PMWarp::location ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "radius", &PMWarp::setRadius, &PMWarp::radius ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "strength", &PMWarp::setStrength, &PMWarp::strength ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "falloff", &PMWarp::setFalloff, &PMWarp::falloff ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "inverse", &PMWarp::setInverse, &PMWarp::inverse ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "repeat", &PMWarp::setRepeat, &PMWarp::repeat ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "turbulence", &PMWarp::setTurbulence, &PMWarp::turbulence ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "valueVector", &PMWarp::setValueVector, &PMWarp::valueVector ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "octaves", &PMWarp::setOctaves, &PMWarp::octaves ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "omega", &PMWarp::setOmega, &PMWarp::omega ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "lambda", &PMWarp::setLambda, &PMWarp::lambda ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "orientation", &PMWarp::setOrientation, &PMWarp::orientation ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "dist_exp", &PMWarp::setDistExp, &PMWarp::distExp ) );
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s_pMetaObject->addProperty(
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new PMWarpProperty( "major_radius", &PMWarp::setMajorRadius, &PMWarp::majorRadius ) );
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}
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return s_pMetaObject;
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}
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void PMWarp::cleanUp( ) const
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{
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if( s_pMetaObject )
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{
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delete s_pMetaObject;
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s_pMetaObject = 0;
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}
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Base::cleanUp( );
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}
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void PMWarp::setWarpType( PMWarpType c )
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{
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if( c != m_warpType )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMWarpTypeID, m_warpType );
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m_warpType = c;
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}
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}
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void PMWarp::setDirection( const PMVector& c )
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{
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if( c != m_direction )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMDirectionID, m_direction );
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m_direction = c;
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}
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}
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void PMWarp::setOffset( const PMVector& c )
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{
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if( c != m_offset )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMOffsetID, m_offset );
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m_offset = c;
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}
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}
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void PMWarp::setFlip( const PMVector& c )
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{
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if( c != m_flip )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMFlipID, m_flip );
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m_flip = c;
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}
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}
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void PMWarp::setLocation( const PMVector& c )
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{
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if( c != m_location )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMLocationID, m_location );
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m_location = c;
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}
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}
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void PMWarp::setRadius( const double c )
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{
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if( c != m_radius )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMRadiusID, m_radius );
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m_radius = c;
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}
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}
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void PMWarp::setStrength( const double c )
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{
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if( c != m_strength )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMStrengthID, m_strength );
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m_strength = c;
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}
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}
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void PMWarp::setFalloff( const double c )
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{
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if( c != m_falloff )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMFalloffID, m_falloff );
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m_falloff = c;
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}
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}
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void PMWarp::setInverse( const bool c )
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{
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if( c != m_inverse )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMInverseID, m_inverse );
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m_inverse = c;
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}
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}
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void PMWarp::setRepeat( const PMVector& c )
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{
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if( c != m_repeat )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMRepeatID, m_repeat );
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m_repeat = c;
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}
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}
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void PMWarp::setTurbulence( const PMVector& c )
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{
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if( c != m_turbulence )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMTurbulenceID, m_turbulence );
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m_turbulence = c;
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}
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}
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void PMWarp::setValueVector( const PMVector& c )
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{
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if( c != m_valueVector )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMValueVectorID, m_valueVector );
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m_valueVector = c;
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}
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}
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void PMWarp::setOctaves( const int c )
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{
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if( c != m_octaves )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMOctavesID, m_octaves );
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m_octaves = c;
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}
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}
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void PMWarp::setOmega( const double c )
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{
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if( c != m_omega )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMOmegaID, m_omega );
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m_omega = c;
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}
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}
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void PMWarp::setLambda( const double c )
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{
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if( c != m_lambda )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMLambdaID, m_lambda );
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m_lambda = c;
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}
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}
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void PMWarp::setOrientation( const PMVector& v )
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{
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if ( v != m_orientation )
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{
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if ( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMOrientationID, m_orientation );
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m_orientation = v;
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}
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}
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void PMWarp::setDistExp( const double c )
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{
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if ( c != m_distExp )
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{
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if ( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMDistExpID, m_distExp );
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m_distExp = c;
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}
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}
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void PMWarp::setMajorRadius( const double c )
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{
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if ( c != m_majorRadius )
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{
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if ( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMMajorRadiusID, m_majorRadius );
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m_majorRadius = c;
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}
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}
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PMDialogEditBase* PMWarp::editWidget( TQWidget* parent ) const
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{
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return new PMWarpEdit( parent );
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}
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void PMWarp::restoreMemento( PMMemento* s )
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{
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PMMementoDataIterator it( s );
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PMMementoData* data;
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for( ; it.current( ); ++it )
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{
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data = it.current( );
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if( data->objectType( ) == s_pMetaObject )
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{
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switch( data->valueID( ) )
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{
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case PMWarpTypeID:
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setWarpType( ( PMWarpType )data->intData( ) );
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break;
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case PMDirectionID:
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setDirection( data->vectorData( ) );
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break;
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case PMOffsetID:
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setOffset( data->vectorData( ) );
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break;
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case PMFlipID:
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setFlip( data->vectorData( ) );
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break;
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case PMLocationID:
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setLocation( data->vectorData( ) );
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break;
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|
case PMRadiusID:
|
|
setRadius( data->doubleData( ) );
|
|
break;
|
|
case PMStrengthID:
|
|
setStrength( data->doubleData( ) );
|
|
break;
|
|
case PMFalloffID:
|
|
setFalloff( data->doubleData( ) );
|
|
break;
|
|
case PMInverseID:
|
|
setInverse( data->boolData( ) );
|
|
break;
|
|
case PMRepeatID:
|
|
setRepeat( data->vectorData( ) );
|
|
break;
|
|
case PMTurbulenceID:
|
|
setTurbulence( data->vectorData( ) );
|
|
break;
|
|
case PMValueVectorID:
|
|
setValueVector( data->vectorData( ) );
|
|
break;
|
|
case PMOctavesID:
|
|
setOctaves( data->intData( ) );
|
|
break;
|
|
case PMOmegaID:
|
|
setOmega( data->doubleData( ) );
|
|
break;
|
|
case PMLambdaID:
|
|
setLambda( data->doubleData( ) );
|
|
break;
|
|
case PMOrientationID:
|
|
setOrientation( data->vectorData( ) );
|
|
break;
|
|
case PMDistExpID:
|
|
setDistExp( data->doubleData( ) );
|
|
break;
|
|
case PMMajorRadiusID:
|
|
setMajorRadius( data->doubleData( ) );
|
|
break;
|
|
default:
|
|
kdError( PMArea ) << "Wrong ID in PMWarp::restoreMemento\n";
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
Base::restoreMemento( s );
|
|
}
|