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author | toma <toma@283d02a7-25f6-0310-bc7c-ecb5cbfe19da> | 2009-11-25 17:56:58 +0000 |
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committer | toma <toma@283d02a7-25f6-0310-bc7c-ecb5cbfe19da> | 2009-11-25 17:56:58 +0000 |
commit | 47d455dd55be855e4cc691c32f687f723d9247ee (patch) | |
tree | 52e236aaa2576bdb3840ebede26619692fed6d7d /kpovmodeler/pmpovray31serialization.cpp | |
download | tdegraphics-47d455dd55be855e4cc691c32f687f723d9247ee.tar.gz tdegraphics-47d455dd55be855e4cc691c32f687f723d9247ee.zip |
Copy the KDE 3.5 branch to branches/trinity for new KDE 3.5 features.
BUG:215923
git-svn-id: svn://anonsvn.kde.org/home/kde/branches/trinity/kdegraphics@1054174 283d02a7-25f6-0310-bc7c-ecb5cbfe19da
Diffstat (limited to 'kpovmodeler/pmpovray31serialization.cpp')
-rw-r--r-- | kpovmodeler/pmpovray31serialization.cpp | 2199 |
1 files changed, 2199 insertions, 0 deletions
diff --git a/kpovmodeler/pmpovray31serialization.cpp b/kpovmodeler/pmpovray31serialization.cpp new file mode 100644 index 00000000..dd4b7603 --- /dev/null +++ b/kpovmodeler/pmpovray31serialization.cpp @@ -0,0 +1,2199 @@ +/* +************************************************************************** + description + -------------------- + copyright : (C) 2003 by Andreas Zehender + 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 "pmpovray31serialization.h" +#include "pmoutputdevice.h" +#include "pmallobjects.h" + +const double c_defaultPatchFlatness = 0; + +void PMPov31SerBicubicPatch( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBicubicPatch* o = ( PMBicubicPatch* ) object; + + int u, v; + QString str, line; + dev->objectBegin( "bicubic_patch" ); + + dev->writeName( object->name( ) ); + + str.setNum( o->patchType( ) ); + dev->writeLine( "type " + str ); + if( !approx( o->flatness( ), c_defaultPatchFlatness ) ) + { + str.setNum( o->flatness( ) ); + dev->writeLine( "flatness " + str ); + } + str.setNum( o->uSteps( ) ); + dev->writeLine( "u_steps " + str ); + str.setNum( o->vSteps( ) ); + dev->writeLine( "v_steps " + str ); + + for( v = 0; v < 4; v++ ) + { + line = o->controlPoint( v*4 ).serialize( ); + for( u = 1; u < 4; u++ ) + line += QString( ", " ) + o->controlPoint( u+4*v ).serialize( ); + if( v != 3 ) + line += ","; + dev->writeLine( line ); + } + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerBlendMapModifiers( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMBlendMapModifiers* o = ( PMBlendMapModifiers* ) object; + + QString str; + + if( o->isFrequencyEnabled( ) ) + { + str.setNum( o->frequency( ) ); + dev->writeLine( "frequency " + str ); + } + + if( o->isPhaseEnabled( ) ) + { + str.setNum( o->phase( ) ); + dev->writeLine( "phase " + str ); + } + + if( o->isWaveFormEnabled( ) ) + { + switch( o->waveFormType( ) ) + { + case PMBlendMapModifiers::RampWave: + dev->writeLine( "ramp_wave" ); + break; + case PMBlendMapModifiers::TriangleWave: + dev->writeLine( "triangle_wave" ); + break; + case PMBlendMapModifiers::SineWave: + dev->writeLine( "sine_wave" ); + break; + case PMBlendMapModifiers::ScallopWave: + dev->writeLine( "scallop_wave" ); + break; + case PMBlendMapModifiers::CubicWave: + dev->writeLine( "cubic_wave" ); + break; + case PMBlendMapModifiers::PolyWave: + str.setNum( o->waveFormExponent( ) ); + dev->writeLine( "poly_wave " + str ); + break; + } + } +} + +void PMPov31SerBlob( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBlob* o = ( PMBlob* ) object; + + dev->objectBegin( "blob" ); + + dev->writeName( object->name( ) ); + dev->writeLine( QString( "threshold %1" ).arg( o->threshold( ) ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + + if( o->sturm( ) ) + dev->writeLine( "sturm" ); + if( o->hierarchy( ) ) + dev->writeLine( "hierarchy" ); + + dev->objectEnd( ); +} + +void PMPov31SerBlobCylinder( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBlobCylinder* o = ( PMBlobCylinder* ) object; + + dev->objectBegin( "cylinder" ); + + dev->writeName( object->name( ) ); + QString str1; + str1.setNum( o->radius( ) ); + dev->writeLine( o->end1( ).serialize( ) + ", " + o->end2( ).serialize( ) + + ", " + str1 + "," ); + dev->writeLine( QString( "strength %1" ).arg( o->strength( ) ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerBlobSphere( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBlobSphere* o = ( PMBlobSphere* ) object; + + dev->objectBegin( "sphere" ); + dev->writeName( object->name( ) ); + dev->writeLine( o->centre( ).serialize( ) + QString( ", %1," ).arg( o->radius( ) ) ); + dev->writeLine( QString( "strength %1" ).arg( o->strength( ) ) ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerBoundedBy( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBoundedBy* o = ( PMBoundedBy* ) object; + + dev->objectBegin( "bounded_by" ); + if( o->clippedBy( ) ) + dev->writeLine( "clipped_by" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerBox( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMBox* o = ( PMBox* ) object; + + dev->objectBegin( "box" ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->corner1( ).serialize( ) + ", " + o->corner2( ).serialize( ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerBumpMap( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMBumpMap* o = ( PMBumpMap* ) object; + + QString str1; + + dev->objectBegin( "bump_map" ); + + switch( o->bitmapType( ) ) + { + case PMBumpMap::BitmapGif: + dev->writeLine( "gif" ); + break; + case PMBumpMap::BitmapTga: + dev->writeLine( "tga" ); + break; + case PMBumpMap::BitmapIff: + dev->writeLine( "iff" ); + break; + case PMBumpMap::BitmapPpm: + dev->writeLine( "ppm" ); + break; + case PMBumpMap::BitmapPgm: + dev->writeLine( "pgm" ); + break; + case PMBumpMap::BitmapPng: + dev->writeLine( "png" ); + break; + case PMBumpMap::BitmapJpeg: + dev->writeLine( "jpeg" ); + break; + case PMBumpMap::BitmapTiff: + dev->writeLine( "tiff" ); + break; + case PMBumpMap::BitmapSys: + dev->writeLine( "sys" ); + break; + } + + dev->writeLine( "\"" + o->bitmapFile( ) + "\"" ); + + if( o->isOnceEnabled( ) ) + dev->writeLine( "once" ); + + switch( o->mapType( ) ) + { + case PMBumpMap::MapPlanar: + dev->writeLine( "map_type 0" ); + break; + case PMBumpMap::MapSpherical: + dev->writeLine( "map_type 1" ); + break; + case PMBumpMap::MapCylindrical: + dev->writeLine( "map_type 2" ); + break; + case PMBumpMap::MapToroidal: + dev->writeLine( "map_type 5" ); + break; + } + switch( o->interpolateType( ) ) + { + case PMBumpMap::InterpolateBilinear: + dev->writeLine( "interpolate 2" ); + break; + case PMBumpMap::InterpolateNormalized: + dev->writeLine( "interpolate 4" ); + break; + default: + break; + } + + if( o->isUseIndexEnabled( ) ) + dev->writeLine( "use_index" ); + + if( o->bumpSize( ) ) + { + str1.setNum( o->bumpSize( ) ); + dev->writeLine( "bump_size " + str1 ); + } + + dev->objectEnd( ); +} + +void PMPov31SerCamera( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMCamera* o = ( PMCamera* ) object; + + dev->objectBegin( "camera" ); + QString str; + + dev->writeName( object->name( ) ); + + if( o->cameraType( ) == PMCamera::Cylinder ) + { + str.setNum( o->cylinderType( ) ); + dev->writeLine( "cylinder " + str ); + } + else + dev->writeLine( o->cameraTypeToString( o->cameraType( ) ) ); + + dev->writeLine( "location " + o->location( ).serialize( ) ); + dev->writeLine( "sky " + o->sky( ).serialize( ) ); + dev->writeLine( "direction " + o->direction( ).serialize( ) ); + dev->writeLine( "right " + o->right( ).serialize( ) ); + dev->writeLine( "up " + o->up( ).serialize( ) ); + dev->writeLine( "look_at " + o->lookAt( ).serialize( ) ); + + if( ( o->cameraType( ) != PMCamera::Orthographic ) && + ( o->cameraType( ) != PMCamera::Omnimax ) && + ( o->cameraType( ) != PMCamera::Panoramic ) && o->isAngleEnabled( ) ) + { + str.setNum( o->angle( ) ); + dev->writeLine( "angle " + str ); + } + if( o->isFocalBlurEnabled( ) && ( o->cameraType( ) == PMCamera::Perspective ) ) + { + str.setNum( o->aperture( ) ); + dev->writeLine( "aperture " + str ); + str.setNum( o->blurSamples( ) ); + dev->writeLine( "blur_samples " + str ); + dev->writeLine( "focal_point " + o->focalPoint( ).serialize( ) ); + str.setNum( o->confidence( ) ); + dev->writeLine( "confidence " + str ); + str.setNum( o->variance( ) ); + dev->writeLine( "variance " + str ); + } + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerClippedBy( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMClippedBy* o = ( PMClippedBy* ) object; + + dev->objectBegin( "clipped_by" ); + if( o->boundedBy( ) ) + dev->writeLine( "bounded_by" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerComment( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMComment* o = ( PMComment* ) object; + + dev->writeComment( o->text( ) ); +} + +void PMPov31SerCompositeObject( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMCompositeObject* o = ( PMCompositeObject* ) object; + + PMObject* tmp; + + for( tmp = o->firstChild( ); tmp; tmp = tmp->nextSibling( ) ) + if( tmp->exportPovray( ) ) + dev->serialize( tmp ); +} + +void PMPov31SerCone( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMCone* o = ( PMCone* ) object; + + dev->objectBegin( "cone" ); + + dev->writeName( object->name( ) ); + QString str1; + str1.setNum( o->radius1( ) ); + dev->writeLine( o->end1( ).serialize( ) + ", " + str1 + "," ); + str1.setNum( o->radius2( ) ); + dev->writeLine( o->end2( ).serialize( ) + ", " + str1 ); + if( o->open( ) ) + dev->writeLine( QString( "open" ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerCSG( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMCSG* o = ( PMCSG* ) object; + + switch( o->csgType( ) ) + { + case PMCSG::CSGUnion: + dev->objectBegin( "union" ); + break; + case PMCSG::CSGIntersection: + dev->objectBegin( "intersection" ); + break; + case PMCSG::CSGDifference: + dev->objectBegin( "difference" ); + break; + case PMCSG::CSGMerge: + dev->objectBegin( "merge" ); + break; + } + + dev->writeName( object->name( ) ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerCylinder( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMCylinder* o = ( PMCylinder* ) object; + + dev->objectBegin( "cylinder" ); + + dev->writeName( object->name( ) ); + QString str1; + str1.setNum( o->radius( ) ); + dev->writeLine( o->end1( ).serialize( ) + ", " + o->end2( ).serialize( ) + + ", " + str1 ); + if( o->open( ) ) + dev->writeLine( QString( "open" ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerDeclare( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMDeclare* o = ( PMDeclare* ) object; + + if( o->firstChild( ) ) + { + dev->declareBegin( o->id( ) ); + dev->callSerialization( object, metaObject->superClass( ) ); + } +} + +void PMPov31SerDensity( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + bool bObject = true; + if( object->parent( ) ) + if( object->parent( )->type( ) == "DensityMap" ) + bObject = false; + + if( bObject ) + dev->objectBegin( "density" ); + dev->callSerialization( object, metaObject->superClass( ) ); + if( bObject ) + dev->objectEnd( ); +} + +void PMPov31SerDisc( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMDisc* o = ( PMDisc* ) object; + + dev->objectBegin( "disc" ); + + dev->writeName( object->name( ) ); + QString str1, str2; + str1.setNum( o->radius( ) ); + if( o->radius( ) != 0.0 ) + { + str2.setNum( o->holeRadius( ) ); + dev->writeLine( o->center( ).serialize( ) + "," + o->normal( ).serialize( ) + ", " + str1 + "," + str2 ); + } + else + { + dev->writeLine( o->center( ).serialize( ) + "," + o->normal( ).serialize( ) + ", " + str1 ); + } + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerFinish( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMFinish* o = ( PMFinish* ) object; + + QString str1; + + dev->objectBegin( "finish" ); + + dev->callSerialization( object, metaObject->superClass( ) ); + + if( o->isAmbientEnabled( ) ) + dev->writeLine( "ambient " + o->ambientColor( ).serialize( ) ); + if( o->isDiffuseEnabled( ) ) + { + str1.setNum( o->diffuse( ) ); + dev->writeLine( "diffuse " + str1 ); + } + if( o->isBrillianceEnabled( ) ) + { + str1.setNum( o->brilliance( ) ); + dev->writeLine( "brilliance " + str1 ); + } + if( o->isPhongEnabled( ) ) + { + str1.setNum( o->phong( ) ); + dev->writeLine( "phong " + str1 ); + } + if( o->isPhongSizeEnabled( ) ) + { + str1.setNum( o->phongSize( ) ); + dev->writeLine( "phong_size " + str1 ); + } + if( o->isMetallicEnabled( ) ) + { + str1.setNum( o->metallic( ) ); + dev->writeLine( "metallic " + str1 ); + } + if( o->isSpecularEnabled( ) ) + { + str1.setNum( o->specular( ) ); + dev->writeLine( "specular " + str1 ); + } + if( o->isRoughnessEnabled( ) ) + { + str1.setNum( o->roughness( ) ); + dev->writeLine( "roughness " + str1 ); + } + if( o->isReflectionEnabled( ) ) + { + dev->writeLine( "reflection " + o->reflectionColor( ).serialize( ) ); + } + if( o->isExponentEnabled( ) ) + { + str1.setNum( o->reflectionExponent( ) ); + dev->writeLine( "reflection_exponent " + str1 ); + } + if( o->irid( ) ) + { + str1.setNum( o->iridAmount( ) ); + dev->writeLine( "irid { " + str1 ); + str1.setNum( o->iridThickness( ) ); + dev->writeLine( "thickness " + str1 ); + str1.setNum( o->iridTurbulence( ) ); + dev->writeLine( "turbulence " + str1 + " } " ); + } + if( o->isCrandEnabled( ) ) + { + str1.setNum( o->crand( ) ); + dev->writeLine( "crand " + str1 ); + } + dev->objectEnd( ); +} + +const int c_defaultFogOctaves = 6; +const double c_defaultFogLambda = 2.0; +const double c_defaultFogOmega = 0.5; +const double c_defaultFogTurbDepth = 0.5; + +void PMPov31SerFog( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMFog* o = ( PMFog* ) object; + + QString str; + + dev->objectBegin( "fog" ); + + // Serialize the name of this object + dev->writeName( object->name( ) ); + + // Serialize a possible link + if( o->linkedObject( ) ) + { + if( o->linkedObject( )->firstChild( ) ) + dev->writeLine( o->linkedObject( )->id( ) ); + else + { + QString text; + text = o->name( ); + if( text.isEmpty( ) ) + text = o->description( ); + + dev->writeComment( QString( "No prototype for %1" ).arg( text ) ); + } + } + + str.setNum( o->fogType( ) ); + dev->writeLine( "fog_type " + str ); + + str.setNum( o->distance( ) ); + dev->writeLine( "distance " + str ); + dev->writeLine( " " + o->color( ).serialize( ) + " " ); + if( o->isTurbulenceEnabled( ) ) + { + dev->writeLine( "turbulence " + o->valueVector( ).serialize( ) ); + if( o->octaves( ) != c_defaultFogOctaves ) + { + str.setNum(o->octaves( )); + dev->writeLine( "octaves " + str ); + } + if( o->omega( ) != c_defaultFogOmega ) + { + str.setNum(o->omega( )); + dev->writeLine( "omega " + str ); + } + if( o->lambda( ) != c_defaultFogLambda ) + { + str.setNum(o->lambda( )); + dev->writeLine( "lambda " + str ); + } + if( o->depth( ) != c_defaultFogTurbDepth ) + { + str.setNum(o->depth( )); + dev->writeLine( "turb_depth " + str ); + } + } + if( o->fogType( ) == 2 ) + { + // Serialize ground fog variables + str.setNum( o->fogOffset( ) ); + dev->writeLine( "fog_offset " + str ); + str.setNum( o->fogAlt( ) ); + dev->writeLine( "fog_alt " + str ); + dev->writeLine( "up " + o->up( ).serialize( ) ); + } + // Serialize the children of this object + dev->callSerialization( object, object->metaObject( )->superClass( )->superClass( ) ); + dev->objectEnd( ); +} + +const double c_defaultGlobalSettingsAdcBailout = 1.0 / 255.0; +const PMColor c_defaultGlobalSettingsAmbientLight = PMColor( 1.0, 1.0, 1.0, 0.0, 0.0 ); +const double c_defaultGlobalSettingsAssumedGamma = 0.0; +const bool c_defaultGlobalSettingsHfGray16 = false; +const PMColor c_defaultGlobalSettingsIridWaveLength = PMColor( 0.25, 0.18, 0.14, 0.0, 0.0 ); +const int c_defaultGlobalSettingsMaxIntersections = 0; // ??? +const int c_defaultGlobalSettingsMaxTraceLevel = 0; // ??? +const int c_defaultGlobalSettingsNumberWaves = 10; +const bool c_defaultGlobalSettingsRadiosity = false; +const double c_defaultGlobalSettingsBrightness = 1.0; +const int c_defaultGlobalSettingsCount = 35; +const double c_defaultGlobalSettingsDistanceMaximum = 0; // ??? +const double c_defaultGlobalSettingsErrorBound = 1.8; +const double c_defaultGlobalSettingsGrayThreshold = 0.0; +const double c_defaultGlobalSettingsLowErrorFactor = 0.5; +const double c_defaultGlobalSettingsMinimumReuse = 0.015; +const int c_defaultGlobalSettingsNearestCount = 5; +const int c_defaultGlobalSettingsRecursionLimit = 2; + +void PMPov31SerGlobalSettings( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMGlobalSettings* o = ( PMGlobalSettings* ) object; + + QString str1; + + dev->objectBegin( "global_settings" ); + + if( o->adcBailout( ) != c_defaultGlobalSettingsAdcBailout ) + { + str1.setNum( o->adcBailout( ) ); + dev->writeLine( "adc_bailout " + str1 ); + } + if( o->ambientLight( ) != c_defaultGlobalSettingsAmbientLight ) + dev->writeLine( "ambient_light " + o->ambientLight( ).serialize( ) ); + if( o->assumedGamma( ) != c_defaultGlobalSettingsAssumedGamma ) + { + str1.setNum( o->assumedGamma( ) ); + dev->writeLine( "assumed_gamma " + str1 ); + } + if( o->hfGray16( ) != c_defaultGlobalSettingsHfGray16 ) + { + if( o->hfGray16( ) ) + dev->writeLine( "hf_gray_16 on" ); + else + dev->writeLine( "hf_gray_16 off" ); + } + if( o->iridWaveLength( ) != c_defaultGlobalSettingsIridWaveLength ) + dev->writeLine( "irid_wavelength " + o->iridWaveLength( ).serialize( ) ); + if( o->maxTraceLevel( ) != c_defaultGlobalSettingsMaxTraceLevel ) + { + str1.setNum( o->maxTraceLevel( ) ); + dev->writeLine( "max_trace_level " + str1 ); + } + if( o->maxIntersections( ) != c_defaultGlobalSettingsMaxIntersections ) + { + str1.setNum( o->maxIntersections( ) ); + dev->writeLine( "max_intersections " + str1 ); + } + if( o->numberWaves( ) != c_defaultGlobalSettingsNumberWaves ) + { + str1.setNum( o->numberWaves( ) ); + dev->writeLine( "number_of_waves " + str1 ); + } + if( o->isRadiosityEnabled( ) ) + { + dev->objectBegin( "radiosity" ); + if( o->brightness( ) != c_defaultGlobalSettingsBrightness ) + { + str1.setNum( o->brightness( ) ); + dev->writeLine( "brightness " + str1 ); + } + if( o->count( ) != c_defaultGlobalSettingsCount ) + { + str1.setNum( o->count( ) ); + dev->writeLine( "count " + str1 ); + } + if( o->distanceMaximum( ) != c_defaultGlobalSettingsDistanceMaximum ) + { + str1.setNum( o->distanceMaximum( ) ); + dev->writeLine( "distance_maximum " + str1 ); + } + if( o->errorBound( ) != c_defaultGlobalSettingsErrorBound ) + { + str1.setNum( o->errorBound( ) ); + dev->writeLine( "error_bound " + str1 ); + } + if( o->grayThreshold( ) != c_defaultGlobalSettingsGrayThreshold ) + { + str1.setNum( o->grayThreshold( ) ); + dev->writeLine( "gray_threshold " + str1 ); + } + if( o->lowErrorFactor( ) != c_defaultGlobalSettingsLowErrorFactor ) + { + str1.setNum( o->lowErrorFactor( ) ); + dev->writeLine( "low_error_factor " + str1 ); + } + if( o->minimumReuse( ) != c_defaultGlobalSettingsMinimumReuse ) + { + str1.setNum( o->minimumReuse( ) ); + dev->writeLine( "minimuo->reuse( ) " + str1 ); + } + if( o->nearestCount( ) != c_defaultGlobalSettingsNearestCount ) + { + str1.setNum( o->nearestCount( ) ); + dev->writeLine( "nearest_count " + str1 ); + } + if( o->recursionLimit( ) != c_defaultGlobalSettingsRecursionLimit ) + { + str1.setNum( o->recursionLimit( ) ); + dev->writeLine( "recursion_limit " + str1 ); + } + dev->objectEnd( ); + } + dev->objectEnd( ); +} + +void PMPov31SerGraphicalObject( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMGraphicalObject* o = ( PMGraphicalObject* ) object; + + dev->callSerialization( object, metaObject->superClass( ) ); + if( o->noShadow( ) ) + dev->writeLine( "no_shadow" ); +} + +void PMPov31SerHeightField( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMHeightField* o = ( PMHeightField* ) object; + + dev->objectBegin( "height_field" ); + + dev->writeName( object->name( ) ); + + dev->writeLine( o->typeToString( o->heightFieldType( ) ) + " \"" + o->fileName( ) + "\"" ); + if( o->waterLevel( ) > 0.0 ) + dev->writeLine( QString( "water_level %1" ).arg( o->waterLevel( ) ) ); + if( !o->hierarchy( ) ) + dev->writeLine( "hierarchy off" ); + if( o->smooth( ) ) + dev->writeLine( "smooth" ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerImageMap( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMImageMap* o = ( PMImageMap* ) object; + + typedef QValueList<PMPaletteValue> PMPaletteValueList; + PMPaletteValueList values; + PMPaletteValueList::ConstIterator tmpPalette; + QString str1, str2; + + dev->objectBegin( "image_map" ); + + switch( o->bitmapType( ) ) + { + case PMImageMap::BitmapGif: + dev->writeLine( "gif" ); + break; + case PMImageMap::BitmapTga: + dev->writeLine( "tga" ); + break; + case PMImageMap::BitmapIff: + dev->writeLine( "iff" ); + break; + case PMImageMap::BitmapPpm: + dev->writeLine( "ppm" ); + break; + case PMImageMap::BitmapPgm: + dev->writeLine( "pgm" ); + break; + case PMImageMap::BitmapPng: + dev->writeLine( "png" ); + break; + case PMImageMap::BitmapJpeg: + dev->writeLine( "jpeg" ); + break; + case PMImageMap::BitmapTiff: + dev->writeLine( "tiff" ); + break; + case PMImageMap::BitmapSys: + dev->writeLine( "sys" ); + break; + } + + dev->writeLine( "\"" + o->bitmapFile( ) + "\"" ); + + values = o->filters( ); + for( tmpPalette = values.begin( ); tmpPalette != values.end( ); ++tmpPalette ) + { + str1.setNum( ( *tmpPalette ).index( ) ); + str2.setNum( ( *tmpPalette ).value( ) ); + dev->writeLine( "filter " + str1 + ", " + str2 ); + } + + values = o->transmits( ); + for( tmpPalette = values.begin( ); tmpPalette != values.end( ); ++tmpPalette ) + { + str1.setNum( ( *tmpPalette ).index( ) ); + str2.setNum( ( *tmpPalette ).value( ) ); + dev->writeLine( "transmit " + str1 + ", " + str2 ); + } + + if( o->isFilterAllEnabled( ) ) + { + str1.setNum( o->filterAll( ) ); + dev->writeLine( "filter all " + str1 ); + } + + if( o->isTransmitAllEnabled( ) ) + { + str1.setNum( o->transmitAll( ) ); + dev->writeLine( "transmit all " + str1 ); + } + + if( o->isOnceEnabled( ) ) + dev->writeLine( "once" ); + + switch( o->mapType( ) ) + { + case PMImageMap::MapPlanar: + dev->writeLine( "map_type 0" ); + break; + case PMImageMap::MapSpherical: + dev->writeLine( "map_type 1" ); + break; + case PMImageMap::MapCylindrical: + dev->writeLine( "map_type 2" ); + break; + case PMImageMap::MapToroidal: + dev->writeLine( "map_type 5" ); + break; + } + switch( o->interpolateType( ) ) + { + case PMImageMap::InterpolateBilinear: + dev->writeLine( "interpolate 2" ); + break; + case PMImageMap::InterpolateNormalized: + dev->writeLine( "interpolate 4" ); + break; + default: + break; + } + + dev->objectEnd( ); +} + +void PMPov31SerInterior( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMInterior* o = ( PMInterior* ) object; + + QString str1; + + dev->objectBegin( "interior" ); + dev->callSerialization( object, metaObject->superClass( ) ); + + if( o->isIorEnabled( ) ) + { + str1.setNum( o->ior( ) ); + dev->writeLine( "ior " + str1 ); + } + if( o->isCausticsEnabled( ) ) + { + str1.setNum( o->caustics( ) ); + dev->writeLine( "caustics " + str1 ); + } + if( o->isFadeDistanceEnabled( ) ) + { + str1.setNum( o->fadeDistance( ) ); + dev->writeLine( "fade_distance " + str1 ); + } + if( o->isFadeDistanceEnabled( ) ) + { + str1.setNum( o->fadeDistance( ) ); + dev->writeLine( "fade_distance " + str1 ); + } + dev->objectEnd( ); +} + +void PMPov31SerJuliaFractal( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMJuliaFractal* o = ( PMJuliaFractal* ) object; + + dev->objectBegin( "julia_fractal" ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->juliaParameter( ).serialize( ) ); + dev->writeLine( o->algebraTypeToString( o->algebraType( ) ) ); + + if( o->functionType( ) == PMJuliaFractal::FTpwr ) + dev->writeLine( QString( "pwr(%1, %2)" ).arg( o->exponent( )[0] ). + arg( o->exponent( )[1] ) ); + else + dev->writeLine( o->functionTypeToString( o->functionType( ) ) ); + + dev->writeLine( QString( "max_iteration %1" ).arg( o->maximumIterations( ) ) ); + dev->writeLine( QString( "precision %1" ).arg( o->precision( ) ) ); + dev->writeLine( QString( "slice %1, %2" ).arg( o->sliceNormal( ).serialize( ) ) + .arg( o->sliceDistance( ) ) ); + + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerLathe( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMLathe* o = ( PMLathe* ) object; + + dev->objectBegin( "lathe" ); + + dev->writeName( object->name( ) ); + + switch( o->splineType( ) ) + { + case PMLathe::LinearSpline: + dev->writeLine( "linear_spline" ); + break; + case PMLathe::QuadraticSpline: + dev->writeLine( "quadratic_spline" ); + break; + case PMLathe::CubicSpline: + dev->writeLine( "cubic_spline" ); + break; + case PMLathe::BezierSpline: + dev->writeLine( "bezier_spline" ); + break; + } + + int num = o->points( ).count( ); + dev->writeLine( QString( "%1," ).arg( num ) ); + + bool first = true; + QValueList<PMVector> points = o->points( ); + QValueList<PMVector>::ConstIterator it = points.begin( ); + for( ; it != points.end( ); ++it ) + { + if( !first ) + dev->write( ", " ); + dev->write( ( *it ).serialize( ) ); + first = false; + } + dev->writeLine( "" ); + + if( o->sturm( ) ) + dev->writeLine( "sturm" ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +const double c_defaultLightTightness = 10; +const int c_defaultLightAdaptive = 0; + +void PMPov31SerLight( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMLight* o = ( PMLight* ) object; + + dev->objectBegin( QString( "light_source" ) ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->location( ).serialize( ) + ", " + o->color( ).serialize( ) ); + + if( o->lightType( ) == PMLight::SpotLight ) + dev->writeLine( QString( "spotlight" ) ); + else if( o->lightType( ) == PMLight::CylinderLight ) + dev->writeLine( QString( "cylinder" ) ); + else if( o->lightType( ) == PMLight::ShadowlessLight ) + dev->writeLine( QString( "shadowless" ) ); + + if( ( o->lightType( ) == PMLight::SpotLight ) || + ( o->lightType( ) == PMLight::CylinderLight ) ) + { + dev->writeLine( QString( "radius %1" ).arg( o->radius( ) ) ); + dev->writeLine( QString( "falloff %1" ).arg( o->falloff( ) ) ); + if( o->tightness( ) != c_defaultLightTightness ) + dev->writeLine( QString( "tightness %1" ).arg( o->tightness( ) ) ); + dev->writeLine( QString( "point_at " ) + o->pointAt( ).serialize( ) ); + } + + if( o->isAreaLight( ) ) + { + dev->writeLine( QString( "area_light " ) + o->axis1( ).serialize( ) + + QString( ", " ) + o->axis2( ).serialize( ) + + QString( ", %1, %2" ).arg( o->size1( ) ).arg( o->size2( ) ) ); + if( o->adaptive( ) != c_defaultLightAdaptive ) + dev->writeLine( QString( "adaptive %1" ).arg( o->adaptive( ) ) ); + if( o->jitter( ) ) + dev->writeLine( QString( "jitter" ) ); + } + + if( o->fading( ) ) + { + dev->writeLine( QString( "fade_distance %1" ).arg( o->fadeDistance( ) ) ); + dev->writeLine( QString( "fade_power %1" ).arg( o->fadePower( ) ) ); + } + + if( !o->mediaInteraction( ) ) + dev->writeLine( QString( "media_interaction off" ) ); + if( !o->mediaAttenuation( ) ) + dev->writeLine( QString( "media_attenuation off" ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerListPattern( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMListPattern* o = ( PMListPattern* ) object; + + QString str1; + + switch( o->listType( ) ) + { + case PMListPattern::ListPatternBrick: + dev->writeLine( "brick" ); + break; + case PMListPattern::ListPatternChecker: + dev->writeLine( "checker " ); + break; + case PMListPattern::ListPatternHexagon: + dev->writeLine( "hexagon " ); + break; + } + + dev->callSerialization( object, metaObject->superClass( ) ); + + if( o->listType( ) == PMListPattern::ListPatternBrick ) + { + dev->writeLine( "brick_size " + + o->brickSize( ).serialize( ) ); + str1.setNum( o->mortar( ) ); + dev->writeLine( "mortar " + str1 ); + } +} + +void PMPov31SerTextureList( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerPigmentList( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerColorList( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerDensityList( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerNormalList( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMNormalList* o = ( PMNormalList* ) object; + + QString str1; + + switch( o->listType( ) ) + { + case PMNormalList::ListPatternBrick: + dev->writeLine( "brick " ); + break; + case PMNormalList::ListPatternChecker: + dev->writeLine( "checker " ); + break; + case PMNormalList::ListPatternHexagon: + dev->writeLine( "hexagon " ); + break; + } + if( o->depth( ) ) + { + str1.setNum( o->depth( ) ); + dev->writeLine( str1 ); + } + if( o->listType( ) == PMNormalList::ListPatternBrick ) + { + dev->writeLine( "brick_size " + + o->brickSize( ).serialize( ) ); + str1.setNum( o->mortar( ) ); + dev->writeLine( "mortar " + str1 ); + } +} + +void PMPov31SerLooksLike( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "looks_like" ); + dev->writeName( object->name( ) ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerMaterial( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "material" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerMaterialMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMMaterialMap* o = ( PMMaterialMap* ) object; + + QString str1; + + dev->objectBegin( "material_map" ); + + switch( o->bitmapType( ) ) + { + case PMMaterialMap::BitmapGif: + dev->writeLine( "gif" ); + break; + case PMMaterialMap::BitmapTga: + dev->writeLine( "tga" ); + break; + case PMMaterialMap::BitmapIff: + dev->writeLine( "iff" ); + break; + case PMMaterialMap::BitmapPpm: + dev->writeLine( "ppm" ); + break; + case PMMaterialMap::BitmapPgm: + dev->writeLine( "pgm" ); + break; + case PMMaterialMap::BitmapPng: + dev->writeLine( "png" ); + break; + case PMMaterialMap::BitmapJpeg: + dev->writeLine( "jpeg" ); + break; + case PMMaterialMap::BitmapTiff: + dev->writeLine( "tiff" ); + break; + case PMMaterialMap::BitmapSys: + dev->writeLine( "sys" ); + break; + } + + dev->writeLine( "\"" + o->bitmapFile( ) + "\"" ); + + if( o->isOnceEnabled( ) ) + dev->writeLine( "once" ); + + switch( o->mapType( ) ) + { + case PMMaterialMap::MapPlanar: + dev->writeLine( "map_type 0" ); + break; + case PMMaterialMap::MapSpherical: + dev->writeLine( "map_type 1" ); + break; + case PMMaterialMap::MapCylindrical: + dev->writeLine( "map_type 2" ); + break; + case PMMaterialMap::MapToroidal: + dev->writeLine( "map_type 5" ); + break; + } + switch( o->interpolateType( ) ) + { + case PMMaterialMap::InterpolateBilinear: + dev->writeLine( "interpolate 2" ); + break; + case PMMaterialMap::InterpolateNormalized: + dev->writeLine( "interpolate 4" ); + break; + default: + break; + } + + dev->callSerialization( object, metaObject->superClass( ) ); + + dev->objectEnd( ); +} + +const int c_defaultMediaIntervals = 10; +const int c_defaultMediaSamplesMin = 1; +const int c_defaultMediaSamplesMax = 1; +const double c_defaultMediaConfidence = 0.9; +const double c_defaultMediaVariance = 0.0078125; +const double c_defaultMediaRatio = 0.9; +const double c_defaultMediaScatteringEccentricity = 0; +const double c_defaultMediaScatteringExtinction = 1.0; + +void PMPov31SerMedia( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMMedia* o = ( PMMedia* ) object; + + QString str1; + QString str2; + + dev->objectBegin( "media" ); + dev->callSerialization( object, metaObject->superClass( ) ); + if( o->intervals( ) != c_defaultMediaIntervals ) + { + str1.setNum( o->intervals( ) ); + dev->writeLine( "intervals " + str1 ); + } + if( o->samplesMin( ) != c_defaultMediaSamplesMin || + o->samplesMax( ) != c_defaultMediaSamplesMax ) + { + str1.setNum( o->samplesMin( ) ); + str2.setNum( o->samplesMax( ) ); + dev->writeLine( "samples " + str1 + "," + str2 ); + } + if( o->confidence( ) != c_defaultMediaConfidence ) + { + str1.setNum( o->confidence( ) ); + dev->writeLine( "confidence " + str1 ); + } + if( o->variance( ) != c_defaultMediaVariance ) + { + str1.setNum( o->variance( ) ); + dev->writeLine( "variance " + str1 ); + } + if( o->ratio( ) != c_defaultMediaRatio ) + { + str1.setNum( o->ratio( ) ); + dev->writeLine( "ratio " + str1 ); + } + if( o->isAbsorptionEnabled( ) ) + { + dev->writeLine( "absorption " + o->absorption( ).serialize( ) ); + } + if( o->isEmissionEnabled( ) ) + { + dev->writeLine( "emission " + o->emission( ).serialize( ) ); + } + if( o->isScatteringEnabled( ) ) + { + dev->objectBegin( "scattering" ); + str1.setNum( o->scatteringType( ) ); + dev->writeLine( str1 + ", " + o->scatteringColor( ).serialize( ) ); + if( o->scatteringType( ) == 5 && o->scatteringEccentricity( ) + != c_defaultMediaScatteringEccentricity ) + { + str1.setNum( o->scatteringEccentricity( ) ); + dev->writeLine( "eccentricity " + str1 ); + } + if( o->scatteringExtinction( ) != c_defaultMediaScatteringExtinction ) + { + str1.setNum( o->scatteringExtinction( ) ); + dev->writeLine( "extinction " + str1 ); + } + dev->objectEnd( ); + } + dev->objectEnd( ); +} + +void PMPov31SerNamedObject( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerNormal( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMNormal* o = ( PMNormal* ) object; + + QString str1; + bool bObject = true; + + if( o->parent( ) ) + if( o->parent( )->type( ) == "NormalMap" ) + bObject = false; + + if( bObject ) + dev->objectBegin( "normal" ); + dev->callSerialization( object, metaObject->superClass( ) ); + if( o->isBumpSizeEnabled( ) ) + { + str1.setNum( o->bumpSize( ) ); + dev->writeLine( "bump_size " + str1 ); + } + if( bObject ) + dev->objectEnd( ); +} + +void PMPov31SerObjectLink( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMObjectLink* o = ( PMObjectLink* ) object; + + bool writeComment = true; + if( o->linkedObject( ) ) + { + if( o->linkedObject( )->firstChild( ) ) + { + dev->objectBegin( "object" ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->linkedObject( )->id( ) ); + dev->callSerialization( object, metaObject->superClass( ) ); + writeComment = false; + + dev->objectEnd( ); + } + } + if( writeComment ) + { + QString text; + text = o->name( ); + if( text.isEmpty( ) ) + text = o->description( ); + + dev->writeComment( QString( "No prototype for %1" ).arg( text ) ); + } +} + +const int c_defaultPatternOctaves = 6; +const double c_defaultPatternOmega = 0.5; +const double c_defaultPatternLambda = 2.0; + +void PMPov31SerPattern( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMPattern* o = ( PMPattern* ) object; + + QString str; + + // pattern type + switch( o->patternType( ) ) + { + case PMPattern::PatternAgate: + dev->writeLine( "agate" ); + break; + case PMPattern::PatternAverage: + dev->writeLine( "average" ); + break; + case PMPattern::PatternBoxed: + dev->writeLine( "boxed" ); + break; + case PMPattern::PatternBozo: + dev->writeLine( "bozo" ); + break; + case PMPattern::PatternBumps: + dev->writeLine( "bumps" ); + break; + case PMPattern::PatternCrackle: + dev->writeLine( "crackle" ); + break; + case PMPattern::PatternCylindrical: + dev->writeLine( "cylindrical" ); + break; + case PMPattern::PatternDensity: + dev->writeLine( "density_file df3 \"" + o->densityFile( ) + "\""); + break; + case PMPattern::PatternDents: + dev->writeLine( "dents" ); + break; + case PMPattern::PatternGradient: + dev->writeLine( "gradient " + o->gradient( ).serialize( ) ); + break; + case PMPattern::PatternGranite: + dev->writeLine( "granite" ); + break; + case PMPattern::PatternLeopard: + dev->writeLine( "leopard" ); + break; + case PMPattern::PatternMandel: + str.setNum( o->maxIterations( ) ); + dev->writeLine( "mandel " + str ); + break; + case PMPattern::PatternMarble: + dev->writeLine( "marble" ); + break; + case PMPattern::PatternOnion: + dev->writeLine( "onion" ); + break; + case PMPattern::PatternPlanar: + dev->writeLine( "planar" ); + break; + case PMPattern::PatternQuilted: + dev->writeLine( "quilted" ); + break; + case PMPattern::PatternRadial: + dev->writeLine( "radial" ); + break; + case PMPattern::PatternRipples: + dev->writeLine( "ripples" ); + break; + case PMPattern::PatternSpherical: + dev->writeLine( "spherical" ); + break; + case PMPattern::PatternSpiral1: + str.setNum( o->spiralNumberArms( ) ); + dev->writeLine( "spiral1 " + str ); + break; + case PMPattern::PatternSpiral2: + str.setNum( o->spiralNumberArms( ) ); + dev->writeLine( "spiral2 " + str ); + break; + case PMPattern::PatternSpotted: + dev->writeLine( "spotted" ); + break; + case PMPattern::PatternWaves: + dev->writeLine( "waves" ); + break; + case PMPattern::PatternWood: + dev->writeLine( "wood" ); + break; + case PMPattern::PatternWrinkles: + dev->writeLine( "wrinkles" ); + break; + default: + break; + } + // depth + if( o->parent( ) ) + { + if( o->depth( ) && o->parent( )->type( ) == "Normal" ) + { + str.setNum( o->depth( ) ); + dev->writeLine( str ); + } + } + // modifiers + switch( o->patternType( ) ) + { + case PMPattern::PatternAgate: + str.setNum( o->agateTurbulence( ) ); + dev->writeLine( "agate_turb " + str ); + break; + case PMPattern::PatternDensity: + str.setNum( o->densityInterpolate( ) ); + dev->writeLine( "interpolate " + str ); + break; + case PMPattern::PatternQuilted: + str.setNum( o->quiltControl0( ) ); + dev->writeLine( "control0 " + str ); + str.setNum( o->quiltControl1( ) ); + dev->writeLine( "control1 " + str ); + break; + default: + break; + } + if( o->isTurbulenceEnabled( ) ) + { + dev->writeLine( "turbulence " + o->valueVector( ).serialize( ) ); + if( o->octaves( ) != c_defaultPatternOctaves ) + { + str.setNum( o->octaves( ) ); + dev->writeLine( "octaves " + str ); + } + if( o->omega( ) != c_defaultPatternOmega ) + { + str.setNum( o->omega( ) ); + dev->writeLine( "omega " + str ); + } + if( o->lambda( ) != c_defaultPatternLambda ) + { + str.setNum( o->lambda( ) ); + dev->writeLine( "lambda " + str ); + } + } +} + +void PMPov31SerPigment( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMPigment* o = ( PMPigment* ) object; + + bool bObject = true; + if( o->parent( ) ) + if( o->parent( )->type( ) == "PigmentMap" ) + bObject = false; + + if( bObject ) + dev->objectBegin( "pigment" ); + dev->callSerialization( object, metaObject->superClass( ) ); + if( bObject ) + dev->objectEnd( ); +} + +void PMPov31SerPlane( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMPlane* o = ( PMPlane* ) object; + + dev->objectBegin( "plane" ); + + dev->writeName( object->name( ) ); + QString str1; + str1.setNum( o->distance( ) ); + dev->writeLine( o->normal( ).serialize( ) + ", " + str1 ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerPolynom( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMPolynom* o = ( PMPolynom* ) object; + PMVector coefficients = o->coefficients( ); + + if( o->polynomOrder( ) == 2 ) + dev->objectBegin( "quadric" ); + else if( o->polynomOrder( ) == 3 ) + dev->objectBegin( "cubic" ); + else if( o->polynomOrder( ) == 4 ) + dev->objectBegin( "quartic" ); + else + dev->objectBegin( "poly" ); + + dev->writeName( object->name( ) ); + + if( o->polynomOrder( ) == 2 ) + { + dev->writeLine( QString( "<%1, %2, %3>," ).arg( coefficients[0] ) + .arg( coefficients[4] ).arg( coefficients[7] ) ); + dev->writeLine( QString( "<%1, %2, %3>," ).arg( coefficients[1] ) + .arg( coefficients[2] ).arg( coefficients[5] ) ); + dev->writeLine( QString( "<%1, %2, %3>, %4" ).arg( coefficients[3] ) + .arg( coefficients[6] ).arg( coefficients[8] ) + .arg( coefficients[9] ) ); + } + else + { + if( o->polynomOrder( ) > 4 ) + dev->writeLine( QString( "%1," ).arg( o->polynomOrder( ) ) ); + + int size = coefficients.size( ); + + int i; + QString hlp; + + dev->write( "<" ); + for( i = 0; i < size; i++ ) + { + hlp.setNum( coefficients[i] ); + dev->write( hlp ); + + if( i != ( size - 1 ) ) + { + dev->write( ", " ); + if( ( ( i + 1 ) % 5 ) == 0 ) + dev->writeLine( "" ); + } + } + dev->writeLine( ">" ); + if( o->sturm( ) ) + dev->writeLine( "sturm" ); + } + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerPovrayMatrix( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMPovrayMatrix* o = ( PMPovrayMatrix* ) object; + + dev->writeLine( QString( "matrix < %1, %2, %3," ).arg( o->values( )[0] ) + .arg( o->values( )[1] ).arg( o->values( )[2] ) ); + dev->writeLine( QString( " %1, %2, %3," ).arg( o->values( )[3] ) + .arg( o->values( )[4] ).arg( o->values( )[5] ) ); + dev->writeLine( QString( " %1, %2, %3," ).arg( o->values( )[6] ) + .arg( o->values( )[7] ).arg( o->values( )[8] ) ); + dev->writeLine( QString( " %1, %2, %3 >" ).arg( o->values( )[9] ) + .arg( o->values( )[10] ).arg( o->values( )[11] ) ); +} + +void PMPov31SerPrism( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMPrism* o = ( PMPrism* ) object; + + dev->objectBegin( "prism" ); + + dev->writeName( object->name( ) ); + + switch( o->splineType( ) ) + { + case PMPrism::LinearSpline: + dev->writeLine( "linear_spline" ); + break; + case PMPrism::QuadraticSpline: + dev->writeLine( "quadratic_spline" ); + break; + case PMPrism::CubicSpline: + dev->writeLine( "cubic_spline" ); + break; + case PMPrism::BezierSpline: + dev->writeLine( "bezier_spline" ); + break; + } + switch( o->sweepType( ) ) + { + case PMPrism::LinearSweep: + dev->writeLine( "linear_sweep" ); + break; + case PMPrism::ConicSweep: + dev->writeLine( "conic_sweep" ); + break; + } + dev->writeLine( QString( "%1, %2," ).arg( o->height1( ) ).arg( o->height2( ) ) ); + + // count number of points + QValueList< QValueList<PMVector> > points = o->points( ); + QValueList< QValueList<PMVector> >::ConstIterator spit = points.begin( ); + int lines = 0; + for( ; spit != points.end( ); ++spit ) + { + if( o->splineType( ) != PMPrism::BezierSpline ) + lines += ( *spit ).count( ) + 1; + else + lines += ( *spit ).count( ) / 3 * 4; + } + dev->writeLine( QString( "%1," ).arg( lines ) ); + + for( spit = points.begin( ); spit != points.end( ); ++spit ) + { + bool first = true; + + QValueList<PMVector> fullPoints = o->expandedPoints( *spit ); + QValueList<PMVector>::ConstIterator it = fullPoints.begin( ); + + for( ; it != fullPoints.end( ); ++it ) + { + if( !first ) + dev->write( ", " ); + dev->write( ( *it ).serialize( ) ); + first = false; + } + QValueList< QValueList<PMVector> >::ConstIterator spit2 = spit; + spit2++; + if( spit2 != points.end( ) ) + dev->write( "," ); + dev->writeLine( "" ); + } + + if( o->open( ) ) + dev->writeLine( "open" ); + if( o->sturm( ) ) + dev->writeLine( "sturm" ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerQuickColor( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMQuickColor* o = ( PMQuickColor* ) object; + + dev->writeLine( "quick_color " + o->color( ).serialize( ) ); +} + +void PMPov31SerRainbow( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMRainbow* o = ( PMRainbow* ) object; + + QString str1; + + dev->objectBegin( "rainbow" ); + dev->callSerialization( object, metaObject->superClass( ) ); + + if( o->isDirectionEnabled( ) ) + dev->writeLine( "direction " + o->direction( ).serialize( ) ); + if( o->isAngleEnabled( ) ) + { + str1.setNum( o->angle( ) ); + dev->writeLine( "angle " + str1 ); + } + if( o->isWidthEnabled( ) ) + { + str1.setNum( o->width( ) ); + dev->writeLine( "width " + str1 ); + } + if( o->isDistanceEnabled( ) ) + { + str1.setNum( o->distance( ) ); + dev->writeLine( "distance " + str1 ); + } + if( o->isJitterEnabled( ) ) + { + str1.setNum( o->jitter( ) ); + dev->writeLine( "jitter " + str1 ); + } + if( o->isUpEnabled( ) ) + dev->writeLine( "up " + o->up( ).serialize( ) ); + if( o->isArcAngleEnabled( ) ) + { + str1.setNum( o->arcAngle( ) ); + dev->writeLine( "arc_angle " + str1 ); + } + if( o->isFalloffAngleEnabled( ) ) + { + str1.setNum( o->falloffAngle( ) ); + dev->writeLine( "falloff_angle " + str1 ); + } + dev->objectEnd( ); +} + +void PMPov31SerRaw( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMRaw* o = ( PMRaw* ) object; + + dev->writeLine( "//*PMRawBegin" ); + + QString tmp = o->code( ); + QTextStream str( &tmp, IO_ReadOnly ); + while( !str.atEnd( ) ) + dev->writeLine( str.readLine( ) ); + + dev->writeLine( "//*PMRawEnd" ); +} + +void PMPov31SerRotate( const PMObject* object, const PMMetaObject*, PMOutputDevice* dev ) +{ + PMRotate* o = ( PMRotate* ) object; + PMVector rotate = o->rotation( ); + + QString vector; + QTextStream str( &vector, IO_WriteOnly ); + int i; + bool z[3]; + + for( i = 0; i < 3; i++ ) + z[i] = approxZero( rotate[i] ); + if( !z[0] && z[1] && z[2] ) + { + str << "x*"; + i = 0; + } + else if( z[0] && !z[1] && z[2] ) + { + str << "y*"; + i = 1; + } + else if( z[0] && z[1] && !z[2] ) + { + str << "z*"; + i = 2; + } + + if( i < 3 ) + { + if( rotate[i] > 0 ) + str << rotate[i]; + else + str << "(" << rotate[i] << ")"; + } + else + { + str << '<'; + for( i = 0; i < 3; i++ ) + { + if( i > 0 ) + str << ", "; + str << rotate[i]; + } + str << '>'; + } + + dev->writeLine( "rotate " + vector ); +} + +void PMPov31SerScale( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMScale* o = ( PMScale* ) object; + PMVector scale = o->scale( ); + + if( approx( scale[0], scale[1] ) && + approx( scale[1], scale[2] ) ) + dev->writeLine( QString( "scale %1" ).arg( scale[0] ) ); + else + dev->writeLine( "scale " + scale.serialize( ) ); +} + +void PMPov31SerScene( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerSkySphere( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "sky_sphere" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerSlope( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMSlope* o = ( PMSlope* ) object; + + QString str1,str2; + + str1.setNum(o->height( )); + str2.setNum(o->slope( )); + + dev->writeLine( "<" + str1 + ", " + str2 + ">" ); +} + +void PMPov31SerSolidColor( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMSolidColor* o = ( PMSolidColor* ) object; + + dev->writeLine( o->color( ).serialize( true ) ); +} + +void PMPov31SerSolidObject( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMSolidObject* o = ( PMSolidObject* ) object; + + dev->callSerialization( object, metaObject->superClass( ) ); + switch( o->hollow( ) ) + { + case PMTrue: + dev->writeLine( "hollow" ); + break; + case PMFalse: + dev->writeLine( "hollow false" ); + break; + case PMUnspecified: + break; + } + if( o->inverse( ) ) + dev->writeLine( "inverse" ); +} + +void PMPov31SerSurfaceOfRevolution( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMSurfaceOfRevolution* o = ( PMSurfaceOfRevolution* ) object; + + dev->objectBegin( "sor" ); + + dev->writeName( object->name( ) ); + + int num = o->points( ).count( ); + dev->writeLine( QString( "%1," ).arg( num ) ); + + bool first = true; + QValueList<PMVector> points = o->points( ); + QValueList<PMVector>::ConstIterator it = points.begin( ); + for( ; it != points.end( ); ++it ) + { + if( !first ) + dev->write( ", " ); + dev->write( ( *it ).serialize( ) ); + first = false; + } + dev->writeLine( "" ); + + if( o->open( ) ) + dev->writeLine( "open" ); + if( o->sturm( ) ) + dev->writeLine( "sturm" ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerSphere( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMSphere* o = ( PMSphere* ) object; + + dev->objectBegin( "sphere" ); + dev->writeName( object->name( ) ); + QString str; + str.setNum( o->radius( ) ); + dev->writeLine( o->centre( ).serialize( ) + ", " + str ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerSuperquadricEllipsoid( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMSuperquadricEllipsoid* o = ( PMSuperquadricEllipsoid* ) object; + + dev->objectBegin( "superellipsoid" ); + + dev->writeName( object->name( ) ); + dev->writeLine( QString( "<%1, %2>" ).arg( o->eastWestExponent( ) ) + .arg( o->northSouthExponent( ) ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerText( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMText* o = ( PMText* ) object; + + dev->objectBegin( "text" ); + + dev->writeName( object->name( ) ); + dev->writeLine( QString( "ttf \"" ) + o->font( ) + "\"" ); + dev->writeLine( PMOutputDevice::escapeAndQuoteString( o->text( ) ) ); + dev->writeLine( QString( "%1, " ).arg( o->thickness( ) ) + + o->offset( ).serialize( ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerTexture( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMTexture* o = ( PMTexture* ) object; + + bool bObject = true; + if( o->parent( ) ) + if( o->parent( )->type( ) == "TextureMap" ) + bObject = false; + + if( bObject ) + dev->objectBegin( "texture" ); + dev->callSerialization( object, metaObject->superClass( ) ); + if( bObject ) + dev->objectEnd( ); +} + +void PMPov31SerTextureBase( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMTextureBase* o = ( PMTextureBase* ) object; + + dev->writeName( object->name( ) ); + + PMDeclare* linkedObject = o->linkedObject( ); + + if( linkedObject) + { + if( linkedObject->firstChild( ) ) + dev->writeLine( linkedObject->id( ) ); + else + { + QString text; + text = o->name( ); + if( text.isEmpty( ) ) + text = o->description( ); + + dev->writeComment( QString( "No prototype for %1" ).arg( text ) ); + } + } + + dev->callSerialization( object, metaObject->superClass( ) ); +} + +void PMPov31SerTextureMapBase( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMTextureMapBase* o = ( PMTextureMapBase* ) object; + + QValueList<double> mapValues = o->mapValues( ); + QValueList<double>::ConstIterator it = mapValues.begin( ); + PMObject* c = o->firstChild( ); + double value = 0.0; + + /* Take care of a possible link */ + if( o->linkedObject( ) ) + { + if( o->linkedObject( )->firstChild( ) ) + dev->writeLine( o->linkedObject( )->id( ) ); + else + { + QString text; + text = o->name( ); + if( text.isEmpty( ) ) + text = o->description( ); + + dev->writeComment( QString( "No prototype for %1" ).arg( text ) ); + } + } + + /* Serialize the map */ + for( ; c; c = c->nextSibling( ) ) + { + if( c->type( ) == o->mapType( ) ) + { + value = 1.0; + if( it != mapValues.end( ) ) + value = *it; + dev->write( QString( "[ %1 " ).arg( value ) ); + dev->serialize( c ); + dev->writeLine( "]" ); + ++it; + } + } +} + +void PMPov31SerTextureMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "texture_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerPigmentMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "pigment_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerColorMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "color_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerNormalMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "normal_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerSlopeMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "slope_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerDensityMap( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->objectBegin( "density_map" ); + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerTorus( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMTorus* o = ( PMTorus* ) object; + + dev->objectBegin( "torus" ); + dev->writeName( object->name( ) ); + QString strMinor; + QString strMajor; + strMinor.setNum( o->minorRadius( ) ); + strMajor.setNum( o->majorRadius( ) ); + + dev->writeLine(strMajor + ", " + strMinor); + if( o->sturm( ) ) + dev->writeLine( QString( "sturm" ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); +} + +void PMPov31SerTranslate( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMTranslate* o = ( PMTranslate* ) object; + + QString vector; + QTextStream str( &vector, IO_WriteOnly ); + int i; + bool z[3]; + PMVector move = o->translation( ); + + for( i = 0; i < 3; i++ ) + z[i] = approxZero( move[i] ); + if( !z[0] && z[1] && z[2] ) + { + str << "x*"; + i = 0; + } + else if( z[0] && !z[1] && z[2] ) + { + str << "y*"; + i = 1; + } + else if( z[0] && z[1] && !z[2] ) + { + str << "z*"; + i = 2; + } + + if( i < 3 ) + { + if( move[i] > 0 ) + str << move[i]; + else + str << "(" << move[i] << ")"; + } + else + { + str << '<'; + for( i = 0; i < 3; i++ ) + { + if( i > 0 ) + str << ", "; + str << move[i]; + } + str << '>'; + } + + dev->writeLine( "translate " + vector ); +} + +void PMPov31SerTriangle( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + PMTriangle* o = ( PMTriangle* ) object; + + if( o->isSmoothTriangle( ) ) + { + dev->objectBegin( "smooth_triangle" ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->point( 0 ).serialize( ) + ", " + o->normal( 0 ).serialize( ) + "," ); + dev->writeLine( o->point( 1 ).serialize( ) + ", " + o->normal( 1 ).serialize( ) + "," ); + dev->writeLine( o->point( 2 ).serialize( ) + ", " + o->normal( 2 ).serialize( ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); + } + else + { + dev->objectBegin( "triangle" ); + + dev->writeName( object->name( ) ); + dev->writeLine( o->point( 0 ).serialize( ) + ", " + o->point( 1 ).serialize( ) + + ", " + o->point( 2 ).serialize( ) ); + + dev->callSerialization( object, metaObject->superClass( ) ); + dev->objectEnd( ); + } +} + + +const PMVector c_warpDirectionDefault = PMVector( 1.0, 0.0, 0.0 ); +const PMVector c_warpOffsetDefault = PMVector( 0.0, 0.0, 0.0 ); +const PMVector c_warpFlipDefault = PMVector( 0.0, 0.0, 0.0 ); +const PMVector c_warpLocationDefault = PMVector( 0.0, 0.0, 0.0 ); +const double c_warpRadiusDefault = 0; +const double c_warpStrengthDefault = 0; +const double c_warpFalloffDefault = 0; +const bool c_warpInverseDefault = false; +const PMVector c_warpRepeatDefault = PMVector( 0.0, 0.0, 0.0 ); +const PMVector c_warpTurbulenceDefault = PMVector( 0.0, 0.0, 0.0 ); +const PMVector c_warpValueVectorDefault = PMVector( 0.0, 0.0, 0.0 ); +const int c_warpOctavesDefault = 6; +const double c_warpOmegaDefault = 0.5; +const double c_warpLambdaDefault = 2.0; + +void PMPov31SerWarp( const PMObject* object, const PMMetaObject* , PMOutputDevice* dev ) +{ + PMWarp* o = ( PMWarp* ) object; + + QString str1; + + dev->objectBegin( "warp" ); + switch( o->warpType( ) ) + { + case PMWarp::Repeat: + dev->writeLine( "repeat" ); + dev->writeLine( o->direction( ).serialize( ) ); + dev->writeLine( "offset " + o->offset( ).serialize( ) ); + dev->writeLine( "flip " + o->flip( ).serialize( ) ); + break; + case PMWarp::BlackHole: + dev->writeLine( "black_hole" ); + dev->writeLine( o->location( ).serialize( ) ); + str1.setNum(o->radius( )); + dev->writeLine( ", " + str1 ); + if( o->strength( ) != c_warpStrengthDefault ) + { + str1.setNum( o->strength( )); + dev->writeLine( "strength " + str1 ); + } + if( o->falloff( ) != c_warpFalloffDefault ) + { + str1.setNum( o->falloff( )); + dev->writeLine( "falloff " + str1 ); + } + if( o->inverse( ) != c_warpInverseDefault ) + { + if( o->inverse( ) ) dev->writeLine( "inverse" ); + } + if( o->repeat( ) != c_warpRepeatDefault ) + { + dev->writeLine( "repeat " + o->repeat( ).serialize( ) ); + } + if( o->turbulence( ) != c_warpTurbulenceDefault ) + { + dev->writeLine( "turbulence " + o->turbulence( ).serialize( ) ); + } + break; + case PMWarp::Turbulence: + dev->writeLine( "turbulence " + o->valueVector( ).serialize( ) ); + if( o->octaves( ) != c_warpOctavesDefault ) + { + str1.setNum(o->octaves( )); + dev->writeLine( "octaves " + str1 ); + } + if( o->omega( ) != c_warpOmegaDefault ) + { + str1.setNum( o->omega( ) ); + dev->writeLine( "omega " + str1 ); + } + if( o->lambda( ) != c_warpLambdaDefault ) + { + str1.setNum( o->lambda( ) ); + dev->writeLine( "lambda " + str1 ); + } + break; + default: + break; + } + dev->objectEnd( ); +} + +void PMPov31SerDetailObject( const PMObject* object, const PMMetaObject* metaObject, PMOutputDevice* dev ) +{ + dev->callSerialization( object, metaObject->superClass( ) ); +} |