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450 lines
13 KiB
450 lines
13 KiB
/*
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**************************************************************************
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description
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--------------------
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copyright : (C) 2002 by Andreas Zehender
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email : zehender@kde.org
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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 "pmjuliafractal.h"
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#include "pmxmlhelper.h"
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#include "pmjuliafractaledit.h"
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#include "pmmemento.h"
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#include "pmviewstructure.h"
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#include "pm3dcontrolpoint.h"
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#include "pmenumproperty.h"
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#include <klocale.h>
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const PMVector c_defaultJuliaParameter = PMVector( -0.083, 0.0, -0.83, -0.025 );
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const PMVector c_defaultSliceNormal = PMVector( 0.0, 0.0, 0.0, 1.0 );
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const double c_defaultSliceDistance = 0.0;
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const int c_defaultMaxIterations = 20;
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const PMJuliaFractal::AlgebraType c_defaultAlgebraType = PMJuliaFractal::Quaternion;
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const TQString c_defaultAlgebraString = "quaternion";
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const PMJuliaFractal::FunctionType c_defaultFunctionType = PMJuliaFractal::FTsqr;
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const TQString c_defaultFunctionString = "sqr";
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const PMVector c_defaultExponent = PMVector( 0.0, 0.0 );
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const double c_defaultPrecision = 20.0;
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PMDefinePropertyClass( PMJuliaFractal, PMJuliaFractalProperty );
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PMDefineEnumPropertyClass( PMJuliaFractal, PMJuliaFractal::AlgebraType,
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PMAlgebraTypeProperty );
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PMDefineEnumPropertyClass( PMJuliaFractal, PMJuliaFractal::FunctionType,
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PMFunctionTypeProperty );
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PMMetaObject* PMJuliaFractal::s_pMetaObject = 0;
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PMObject* createNewJuliaFractal( PMPart* part )
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{
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return new PMJuliaFractal( part );
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}
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PMJuliaFractal::PMJuliaFractal( PMPart* part )
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: Base( part )
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{
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m_juliaParameter = c_defaultJuliaParameter;
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m_algebraType = c_defaultAlgebraType;
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m_functionType = c_defaultFunctionType;
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m_maxIterations = c_defaultMaxIterations;
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m_precision = c_defaultPrecision;
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m_sliceNormal = c_defaultSliceNormal;
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m_sliceDistance = c_defaultSliceDistance;
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m_exponent = c_defaultExponent;
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}
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PMJuliaFractal::PMJuliaFractal( const PMJuliaFractal& f )
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: Base( f )
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{
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m_juliaParameter = f.m_juliaParameter;
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m_algebraType = f.m_algebraType;
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m_functionType = f.m_functionType;
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m_maxIterations = f.m_maxIterations;
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m_precision = f.m_precision;
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m_sliceNormal = f.m_sliceNormal;
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m_sliceDistance = f.m_sliceDistance;
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m_exponent = f.m_exponent;
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}
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PMJuliaFractal::~PMJuliaFractal( )
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{
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}
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TQString PMJuliaFractal::description( ) const
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{
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return i18n( "julia fractal" );
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}
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void PMJuliaFractal::serialize( TQDomElement& e, TQDomDocument& doc ) const
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{
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e.setAttribute( "julia_parameter", m_juliaParameter.serializeXML( ) );
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e.setAttribute( "algebra_type", algebraTypeToString( m_algebraType ) );
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e.setAttribute( "function_type", functionTypeToString( m_functionType ) );
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e.setAttribute( "max_iterations", m_maxIterations );
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e.setAttribute( "precision", m_precision );
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e.setAttribute( "slice_normal", m_sliceNormal.serializeXML( ) );
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e.setAttribute( "slice_distance", m_sliceDistance );
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e.setAttribute( "exponent", m_exponent.serializeXML( ) );
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Base::serialize( e, doc );
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}
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void PMJuliaFractal::readAttributes( const PMXMLHelper& h )
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{
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m_juliaParameter = h.vectorAttribute( "julia_parameter", c_defaultJuliaParameter );
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m_algebraType = stringToAlgebraType( h.stringAttribute( "algebra_type", c_defaultAlgebraString ) );
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m_functionType = stringToFunctionType( h.stringAttribute( "function_type", c_defaultFunctionString ) );
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m_maxIterations = h.intAttribute( "max_iterations", c_defaultMaxIterations );
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m_precision = h.doubleAttribute( "precision", c_defaultPrecision );
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m_sliceNormal = h.vectorAttribute( "slice_normal", c_defaultSliceNormal );
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m_sliceDistance = h.doubleAttribute( "slice_distance", c_defaultSliceDistance );
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m_exponent = h.vectorAttribute( "exponent", c_defaultExponent );
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Base::readAttributes( h );
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}
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PMMetaObject* PMJuliaFractal::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( "JuliaFractal", Base::tqmetaObject( ),
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createNewJuliaFractal );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "juliaParameter", &PMJuliaFractal::setJuliaParameter,
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&PMJuliaFractal::juliaParameter ) );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "maximumIterations", &PMJuliaFractal::setMaximumIterations,
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&PMJuliaFractal::maximumIterations ) );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "precision", &PMJuliaFractal::setPrecision,
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&PMJuliaFractal::precision ) );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "sliceNormal", &PMJuliaFractal::setSliceNormal,
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&PMJuliaFractal::sliceNormal ) );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "sliceDistance", &PMJuliaFractal::setSliceDistance,
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&PMJuliaFractal::sliceDistance ) );
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s_pMetaObject->addProperty(
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new PMJuliaFractalProperty( "exponent", &PMJuliaFractal::setExponent,
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&PMJuliaFractal::exponent ) );
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PMAlgebraTypeProperty* ap = new PMAlgebraTypeProperty(
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"algebraType", &PMJuliaFractal::setAlgebraType, &PMJuliaFractal::algebraType );
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ap->addEnumValue( "Quaternion", Quaternion );
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ap->addEnumValue( "Hypercomplex", Hypercomplex );
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s_pMetaObject->addProperty( ap );
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PMFunctionTypeProperty* fp = new PMFunctionTypeProperty(
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"functionType", &PMJuliaFractal::setFunctionType, &PMJuliaFractal::functionType );
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fp->addEnumValue( "sqr", FTsqr );
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fp->addEnumValue( "cube", FTcube );
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fp->addEnumValue( "exp", FTexp );
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fp->addEnumValue( "reciprocal", FTreciprocal );
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fp->addEnumValue( "sin", FTsin );
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fp->addEnumValue( "asin", FTasin );
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fp->addEnumValue( "sinh", FTsinh );
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fp->addEnumValue( "asinh", FTasinh );
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fp->addEnumValue( "cos", FTcos );
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fp->addEnumValue( "acos", FTacos );
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fp->addEnumValue( "cosh", FTcosh );
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fp->addEnumValue( "acosh", FTacosh );
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fp->addEnumValue( "tan", FTtan );
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fp->addEnumValue( "atan", FTatan );
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fp->addEnumValue( "tanh", FTtanh );
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fp->addEnumValue( "atanh", FTatanh );
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fp->addEnumValue( "log", FTlog );
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fp->addEnumValue( "pwr", FTpwr );
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s_pMetaObject->addProperty( fp );
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}
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return s_pMetaObject;
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}
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void PMJuliaFractal::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 PMJuliaFractal::setJuliaParameter( const PMVector& p )
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{
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if( p != m_juliaParameter )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMJuliaParameterID, m_juliaParameter );
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m_juliaParameter = p;
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m_juliaParameter.resize( 4 );
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}
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}
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void PMJuliaFractal::setAlgebraType( PMJuliaFractal::AlgebraType t )
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{
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if( m_algebraType != t )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMAlgebraTypeID, m_algebraType );
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m_algebraType = t;
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}
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}
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void PMJuliaFractal::setFunctionType( PMJuliaFractal::FunctionType t )
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{
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if( m_functionType != t )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMFunctionTypeID, m_functionType );
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m_functionType = t;
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}
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}
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void PMJuliaFractal::setMaximumIterations( int max )
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{
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if( max <= 0 )
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{
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kdError( PMArea ) << "max <= 0 in PMJuliaFractal::setMaximumIterations\n";
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max = 20;
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}
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if( m_maxIterations != max )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMMaxIterationsID, m_maxIterations );
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m_maxIterations = max;
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}
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}
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void PMJuliaFractal::setPrecision( double p )
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{
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if( p < 1.0 )
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{
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kdError( PMArea ) << "p < 1.0 in PMJuliaFractal::setPrecision\n";
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p = 1.0;
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}
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if( m_precision != p )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMPrecisionID, m_precision );
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m_precision = p;
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}
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}
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void PMJuliaFractal::setSliceNormal( const PMVector& n )
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{
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if( m_sliceNormal != n )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMSliceNormalID, m_sliceNormal );
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m_sliceNormal = n;
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m_sliceNormal.resize( 4 );
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}
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}
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void PMJuliaFractal::setSliceDistance( double d )
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{
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if( m_sliceDistance != d )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMSliceDistanceID, m_sliceDistance );
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m_sliceDistance = d;
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}
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}
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void PMJuliaFractal::setExponent( const PMVector& e )
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{
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if( m_exponent != e )
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{
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if( m_pMemento )
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m_pMemento->addData( s_pMetaObject, PMExponentID, m_exponent );
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m_exponent = e;
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m_exponent.resize( 2 );
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}
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}
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PMDialogEditBase* PMJuliaFractal::editWidget( TQWidget* tqparent ) const
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{
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return new PMJuliaFractalEdit( tqparent );
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}
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void PMJuliaFractal::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 PMJuliaParameterID:
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setJuliaParameter( data->vectorData( ) );
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break;
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case PMAlgebraTypeID:
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setAlgebraType( ( AlgebraType ) data->intData( ) );
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break;
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case PMFunctionTypeID:
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setFunctionType( ( FunctionType ) data->intData( ) );
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break;
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case PMMaxIterationsID:
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setMaximumIterations( data->intData( ) );
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break;
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case PMPrecisionID:
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setPrecision( data->doubleData( ) );
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break;
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case PMSliceNormalID:
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setSliceNormal( data->vectorData( ) );
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break;
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case PMSliceDistanceID:
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setSliceDistance( data->doubleData( ) );
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break;
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case PMExponentID:
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setExponent( data->vectorData( ) );
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break;
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default:
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kdError( PMArea ) << "Wrong ID in PMJuliaFractal::restoreMemento\n";
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break;
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}
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}
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}
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Base::restoreMemento( s );
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}
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TQString PMJuliaFractal::functionTypeToString( PMJuliaFractal::FunctionType t )
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{
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TQString result = "sqr";
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switch( t )
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{
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case FTsqr:
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result = "sqr";
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break;
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case FTcube:
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result = "cube";
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break;
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case FTexp:
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result = "exp";
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break;
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case FTreciprocal:
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result = "reciprocal";
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break;
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case FTsin:
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result = "sin";
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break;
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case FTasin:
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result = "asin";
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break;
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case FTsinh:
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result = "sinh";
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break;
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case FTasinh:
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result = "asinh";
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break;
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case FTcos:
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result = "cos";
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break;
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case FTacos:
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result = "acos";
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break;
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case FTcosh:
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result = "cosh";
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break;
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case FTacosh:
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result = "acosh";
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break;
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case FTtan:
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result = "tan";
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break;
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case FTatan:
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result = "atan";
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break;
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case FTtanh:
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result = "tanh";
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break;
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case FTatanh:
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result = "atanh";
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break;
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case FTlog:
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result = "log";
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break;
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case FTpwr:
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result = "pwr";
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break;
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}
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return result;
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}
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PMJuliaFractal::FunctionType PMJuliaFractal::stringToFunctionType( const TQString& str )
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{
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FunctionType t = c_defaultFunctionType;
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if( str == "sqr" )
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t = FTsqr;
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else if( str == "cube" )
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t = FTcube;
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else if( str == "exp" )
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t = FTexp;
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else if( str == "reciprocal" )
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t = FTreciprocal;
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else if( str == "sin" )
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t = FTsin;
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else if( str == "asin" )
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t = FTasin;
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else if( str == "sinh" )
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t = FTsinh;
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else if( str == "asinh" )
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t = FTasinh;
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else if( str == "cos" )
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t = FTcos;
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else if( str == "acos" )
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t = FTacos;
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else if( str == "cosh" )
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t = FTcosh;
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else if( str == "acosh" )
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t = FTacosh;
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else if( str == "tan" )
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t = FTtan;
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else if( str == "atan" )
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t = FTatan;
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else if( str == "tanh" )
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t = FTtanh;
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else if( str == "atanh" )
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t = FTatanh;
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else if( str == "log" )
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t = FTlog;
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else if( str == "pwr" )
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t = FTpwr;
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return t;
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}
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TQString PMJuliaFractal::algebraTypeToString( PMJuliaFractal::AlgebraType t )
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{
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TQString result;
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if( t == Quaternion )
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result = "quaternion";
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else
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result = "hypercomplex";
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return result;
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}
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PMJuliaFractal::AlgebraType PMJuliaFractal::stringToAlgebraType( const TQString& str )
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{
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AlgebraType t = c_defaultAlgebraType;
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if( str == "quaternion" )
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t = Quaternion;
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else if( str == "hypercomplex" )
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t = Hypercomplex;
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return t;
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}
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