// Copyright (C) 2003 Dominique Devriese // 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. // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU General Public License for more details. // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA // 02110-1301, USA. #include "transform_types.h" #include "bogus_imp.h" #include "point_imp.h" #include "line_imp.h" #include "other_imp.h" #include "polygon_imp.h" #include "../misc/coordinate.h" #include "../misc/kigtransform.h" #include static const ArgsParser::spec argsspecTranslation[] = { { ObjectImp::stype(), I18N_NOOP("Translate this object"), I18N_NOOP( "Select the object to translate..." ), false }, { VectorImp::stype(), I18N_NOOP("Translate by this vector"), I18N_NOOP( "Select the vector to translate by..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( TranslatedType ) TranslatedType::TranslatedType() : ArgsParserObjectType( "Translation", argsspecTranslation, 2 ) { } TranslatedType::~TranslatedType() { } const TranslatedType* TranslatedType::instance() { static const TranslatedType t; return &t; } ObjectImp* TranslatedType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate dir = static_cast( args[1] )->dir(); Transformation t = Transformation::translation( dir ); return args[0]->transform( t ); } static const ArgsParser::spec argsspecPointReflection[] = { { ObjectImp::stype(), I18N_NOOP( "Reflect this object" ), I18N_NOOP( "Select the object to reflect..." ), false }, { PointImp::stype(), I18N_NOOP( "Reflect in this point" ), I18N_NOOP( "Select the point to reflect in..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( PointReflectionType ) PointReflectionType::PointReflectionType() : ArgsParserObjectType( "PointReflection", argsspecPointReflection, 2 ) { } PointReflectionType::~PointReflectionType() { } const PointReflectionType* PointReflectionType::instance() { static const PointReflectionType t; return &t; } ObjectImp* PointReflectionType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate center = static_cast( args[1] )->coordinate(); Transformation t = Transformation::pointReflection( center ); return args[0]->transform( t ); } static const ArgsParser::spec argsspecLineReflection[] = { { ObjectImp::stype(), I18N_NOOP( "Reflect this object" ), I18N_NOOP( "Select the object to reflect..." ), false }, { AbstractLineImp::stype(), I18N_NOOP( "Reflect in this line" ), I18N_NOOP( "Select the line to reflect in..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( LineReflectionType ) LineReflectionType::LineReflectionType() : ArgsParserObjectType( "LineReflection", argsspecLineReflection, 2 ) { } LineReflectionType::~LineReflectionType() { } const LineReflectionType* LineReflectionType::instance() { static const LineReflectionType t; return &t; } ObjectImp* LineReflectionType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; LineData d = static_cast( args[1] )->data(); Transformation t = Transformation::lineReflection( d ); return args[0]->transform( t ); } static const ArgsParser::spec argsspecRotation[] = { { ObjectImp::stype(), I18N_NOOP( "Rotate this object" ), I18N_NOOP( "Select the object to rotate..." ), false }, { PointImp::stype(), I18N_NOOP( "Rotate around this point" ), I18N_NOOP( "Select the center point of the rotation..." ), false }, { AngleImp::stype(), I18N_NOOP( "Rotate by this angle" ), I18N_NOOP( "Select the angle of the rotation..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( RotationType ) RotationType::RotationType() : ArgsParserObjectType( "Rotation", argsspecRotation, 3 ) { } RotationType::~RotationType() { } const RotationType* RotationType::instance() { static const RotationType t; return &t; } ObjectImp* RotationType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate center = static_cast( args[1] )->coordinate(); double angle = static_cast( args[2] )->size(); return args[0]->transform( Transformation::rotation( angle, center ) ); } static const ArgsParser::spec argsspecScalingOverCenter[] = { { ObjectImp::stype(), I18N_NOOP( "Scale this object" ), I18N_NOOP( "Select the object to scale..." ), false }, { PointImp::stype(), I18N_NOOP( "Scale with this center" ), I18N_NOOP( "Select the center point of the scaling..." ), false }, { SegmentImp::stype(), I18N_NOOP( "Scale by the length of this segment" ), I18N_NOOP( "Select a segment whose length is the factor of the scaling..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ScalingOverCenterType ) ScalingOverCenterType::ScalingOverCenterType() : ArgsParserObjectType( "ScalingOverCenter", argsspecScalingOverCenter, 3 ) { } ScalingOverCenterType::~ScalingOverCenterType() { } const ScalingOverCenterType* ScalingOverCenterType::instance() { static const ScalingOverCenterType t; return &t; } ObjectImp* ScalingOverCenterType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate center = static_cast( args[1] )->coordinate(); double ratio = static_cast( args[2] )->length(); return args[0]->transform( Transformation::scalingOverPoint( ratio, center ) ); } static const ArgsParser::spec argsspecScalingOverCenter2[] = { { ObjectImp::stype(), I18N_NOOP( "Scale this object" ), I18N_NOOP( "Select the object to scale..." ), false }, { PointImp::stype(), I18N_NOOP( "Scale with this center" ), I18N_NOOP( "Select the center point of the scaling..." ), false }, { SegmentImp::stype(), I18N_NOOP( "Scale the length of this segment..." ), I18N_NOOP( "Select the first of two segments whose ratio is the factor of the scaling..." ), false }, { SegmentImp::stype(), I18N_NOOP( "...to the length of this other segment" ), I18N_NOOP( "Select the second of two segments whose ratio is the factor of the scaling..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ScalingOverCenter2Type ) ScalingOverCenter2Type::ScalingOverCenter2Type() : ArgsParserObjectType( "ScalingOverCenter2", argsspecScalingOverCenter2, 4 ) { } ScalingOverCenter2Type::~ScalingOverCenter2Type() { } const ScalingOverCenter2Type* ScalingOverCenter2Type::instance() { static const ScalingOverCenter2Type t; return &t; } ObjectImp* ScalingOverCenter2Type::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate center = static_cast( args[1] )->coordinate(); double ratio = static_cast( args[3] )->length()/ static_cast( args[2] )->length(); return args[0]->transform( Transformation::scalingOverPoint( ratio, center ) ); } static const ArgsParser::spec argsspecScalingOverLine[] = { { ObjectImp::stype(), I18N_NOOP( "Scale this object" ), I18N_NOOP( "Select the object to scale" ), false }, { AbstractLineImp::stype(), I18N_NOOP( "Scale over this line" ), I18N_NOOP( "Select the line to scale over" ), false }, { SegmentImp::stype(), I18N_NOOP( "Scale by the length of this segment" ), I18N_NOOP( "Select a segment whose length is the factor for the scaling" ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ScalingOverLineType ) ScalingOverLineType::ScalingOverLineType() : ArgsParserObjectType( "ScalingOverLine", argsspecScalingOverLine, 3 ) { } ScalingOverLineType::~ScalingOverLineType() { } const ScalingOverLineType* ScalingOverLineType::instance() { static const ScalingOverLineType t; return &t; } ObjectImp* ScalingOverLineType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; LineData line = static_cast( args[1] )->data(); double ratio = static_cast( args[2] )->length(); return args[0]->transform( Transformation::scalingOverLine( ratio, line ) ); } static const ArgsParser::spec argsspecScalingOverLine2[] = { { ObjectImp::stype(), I18N_NOOP( "Scale this object" ), I18N_NOOP( "Select the object to scale" ), false }, { AbstractLineImp::stype(), I18N_NOOP( "Scale over this line" ), I18N_NOOP( "Select the line to scale over" ), false }, { SegmentImp::stype(), I18N_NOOP( "Scale the length of this segment..." ), I18N_NOOP( "Select the first of two segments whose ratio is the factor for the scaling" ), false }, { SegmentImp::stype(), I18N_NOOP( "...to the length of this segment" ), I18N_NOOP( "Select the second of two segments whose ratio is the factor for the scaling" ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ScalingOverLine2Type ) ScalingOverLine2Type::ScalingOverLine2Type() : ArgsParserObjectType( "ScalingOverLine2", argsspecScalingOverLine2, 4 ) { } ScalingOverLine2Type::~ScalingOverLine2Type() { } const ScalingOverLine2Type* ScalingOverLine2Type::instance() { static const ScalingOverLine2Type t; return &t; } ObjectImp* ScalingOverLine2Type::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; LineData line = static_cast( args[1] )->data(); double ratio = static_cast( args[3] )->length()/ static_cast( args[2] )->length(); return args[0]->transform( Transformation::scalingOverLine( ratio, line ) ); } static const ArgsParser::spec argsspecProjectiveRotation[] = { { ObjectImp::stype(), I18N_NOOP( "Projectively rotate this object" ), I18N_NOOP( "Select the object to rotate projectively" ), false }, { RayImp::stype(), I18N_NOOP( "Projectively rotate with this half-line" ), I18N_NOOP( "Select the half line of the projective rotation that you want to apply to the object" ), false }, { AngleImp::stype(), I18N_NOOP( "Projectively rotate by this angle" ), I18N_NOOP( "Select the angle of the projective rotation that you want to apply to the object" ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ProjectiveRotationType ) ProjectiveRotationType::ProjectiveRotationType() : ArgsParserObjectType( "ProjectiveRotation", argsspecProjectiveRotation, 3 ) { } ProjectiveRotationType::~ProjectiveRotationType() { } const ProjectiveRotationType* ProjectiveRotationType::instance() { static const ProjectiveRotationType t; return &t; } ObjectImp* ProjectiveRotationType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; const RayImp* ray = static_cast( args[1] ); Coordinate c1 = ray->data().a; Coordinate dir = ray->data().dir().normalize(); double alpha = static_cast( args[2] )->size(); return args[0]->transform( Transformation::projectiveRotation( alpha, dir, c1 ) ); } static const ArgsParser::spec argsspecHarmonicHomology[] = { { ObjectImp::stype(), I18N_NOOP( "Harmonic Homology of this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PointImp::stype(), I18N_NOOP( "Harmonic Homology with this center" ), I18N_NOOP( "Select the center point of the harmonic homology..." ), false }, { AbstractLineImp::stype(), I18N_NOOP( "Harmonic Homology with this axis" ), I18N_NOOP( "Select the axis of the harmonic homology..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( HarmonicHomologyType ) HarmonicHomologyType::HarmonicHomologyType() : ArgsParserObjectType( "HarmonicHomology", argsspecHarmonicHomology, 3 ) { } HarmonicHomologyType::~HarmonicHomologyType() { } const HarmonicHomologyType* HarmonicHomologyType::instance() { static const HarmonicHomologyType t; return &t; } ObjectImp* HarmonicHomologyType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate center = static_cast( args[1] )->coordinate(); LineData axis = static_cast( args[2] )->data(); return args[0]->transform( Transformation::harmonicHomology( center, axis ) ); } static const ArgsParser::spec argsspecAffinityB2Tr[] = { { ObjectImp::stype(), I18N_NOOP( "Generic affinity of this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PolygonImp::stype3(), I18N_NOOP( "Map this triangle" ), I18N_NOOP( "Select the triangle that has to be transformed onto a given triangle..." ), false }, { PolygonImp::stype3(), I18N_NOOP( "onto this other triangle" ), I18N_NOOP( "Select the triangle that is the image by the affinity of the first triangle..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( AffinityB2TrType ) AffinityB2TrType::AffinityB2TrType() : ArgsParserObjectType( "AffinityB2Tr", argsspecAffinityB2Tr, 3 ) { } AffinityB2TrType::~AffinityB2TrType() { } const AffinityB2TrType* AffinityB2TrType::instance() { static const AffinityB2TrType t; return &t; } ObjectImp* AffinityB2TrType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; std::vector frompoints = static_cast( args[1] )->points(); std::vector topoints = static_cast( args[2] )->points(); bool valid = true; Transformation t = Transformation::affinityGI3P( frompoints, topoints, valid ); if (valid == false) return new InvalidImp; return args[0]->transform( t ); } static const ArgsParser::spec argsspecAffinityGI3P[] = { { ObjectImp::stype(), I18N_NOOP( "Generic affinity of this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PointImp::stype(), I18N_NOOP( "First of 3 starting points" ), I18N_NOOP( "Select the first of the three starting points of the generic affinity..." ), false }, { PointImp::stype(), I18N_NOOP( "Second of 3 starting points" ), I18N_NOOP( "Select the second of the three starting points of the generic affinity..." ), false }, { PointImp::stype(), I18N_NOOP( "Third of 3 starting points" ), I18N_NOOP( "Select the third of the three starting points of the generic affinity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of first point" ), I18N_NOOP( "Select the first of the three end points of the generic affinity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of second point" ), I18N_NOOP( "Select the second of the three end points of the generic affinity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of third point" ), I18N_NOOP( "Select the third of the three end points of the generic affinity..." ), false }, }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( AffinityGI3PType ) AffinityGI3PType::AffinityGI3PType() : ArgsParserObjectType( "AffinityGI3P", argsspecAffinityGI3P, 7 ) { } AffinityGI3PType::~AffinityGI3PType() { } const AffinityGI3PType* AffinityGI3PType::instance() { static const AffinityGI3PType t; return &t; } ObjectImp* AffinityGI3PType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; std::vector frompoints; std::vector topoints; for ( uint i = 0; i < 3; ++i ) { frompoints.push_back( static_cast( args[i+1] )->coordinate() ); topoints.push_back( static_cast( args[i+4] )->coordinate() ); } bool valid = true; Transformation t = Transformation::affinityGI3P( frompoints, topoints, valid ); if (valid == false) return new InvalidImp; return args[0]->transform( t ); } static const ArgsParser::spec argsspecProjectivityB2Qu[] = { { ObjectImp::stype(), I18N_NOOP( "Generic projective transformation of this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PolygonImp::stype4(), I18N_NOOP( "Map this quadrilateral" ), I18N_NOOP( "Select the quadrilateral that has to be transformed onto a given quadrilateral..." ), false }, { PolygonImp::stype4(), I18N_NOOP( "onto this other quadrilateral" ), I18N_NOOP( "Select the quadrilateral that is the image by the projective transformation of the first quadrilateral..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ProjectivityB2QuType ) ProjectivityB2QuType::ProjectivityB2QuType() : ArgsParserObjectType( "ProjectivityB2Qu", argsspecProjectivityB2Qu, 3 ) { } ProjectivityB2QuType::~ProjectivityB2QuType() { } const ProjectivityB2QuType* ProjectivityB2QuType::instance() { static const ProjectivityB2QuType t; return &t; } ObjectImp* ProjectivityB2QuType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; std::vector frompoints = static_cast( args[1] )->points(); std::vector topoints = static_cast( args[2] )->points(); bool valid = true; Transformation t = Transformation::projectivityGI4P( frompoints, topoints, valid ); if (valid == false) return new InvalidImp; return args[0]->transform( t ); } static const ArgsParser::spec argsspecProjectivityGI4P[] = { { ObjectImp::stype(), I18N_NOOP( "Generic projective transformation of this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PointImp::stype(), I18N_NOOP( "First of 4 starting points" ), I18N_NOOP( "Select the first of the four starting points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Second of 4 starting points" ), I18N_NOOP( "Select the second of the four starting points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Third of 4 starting points" ), I18N_NOOP( "Select the third of the four starting points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Fourth of 4 starting points" ), I18N_NOOP( "Select the fourth of the four starting points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of first point" ), I18N_NOOP( "Select the first of the four end points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of second point" ), I18N_NOOP( "Select the second of the four end points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of third point" ), I18N_NOOP( "Select the third of the four end points of the generic projectivity..." ), false }, { PointImp::stype(), I18N_NOOP( "Transformed position of fourth point" ), I18N_NOOP( "Select the fourth of the four end points of the generic projectivity..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ProjectivityGI4PType ) ProjectivityGI4PType::ProjectivityGI4PType() : ArgsParserObjectType( "ProjectivityGI4P", argsspecProjectivityGI4P, 9 ) { } ProjectivityGI4PType::~ProjectivityGI4PType() { } const ProjectivityGI4PType* ProjectivityGI4PType::instance() { static const ProjectivityGI4PType t; return &t; } ObjectImp* ProjectivityGI4PType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; std::vector frompoints; std::vector topoints; for ( uint i = 0; i < 4; ++i ) { frompoints.push_back( static_cast( args[i+1] )->coordinate() ); topoints.push_back( static_cast( args[i+5] )->coordinate() ); } bool valid = true; Transformation t = Transformation::projectivityGI4P( frompoints, topoints, valid ); if (valid == false) return new InvalidImp; return args[0]->transform( t ); } static const ArgsParser::spec argsspecCastShadow[] = { { ObjectImp::stype(), I18N_NOOP( "Cast the shadow of this object" ), I18N_NOOP( "Select the object of which you want to construct the shadow..." ), false }, { PointImp::stype(), I18N_NOOP( "Cast a shadow from this light source" ), I18N_NOOP( "Select the light source from which the shadow should originate..." ), false }, { AbstractLineImp::stype(), I18N_NOOP( "Cast a shadow on the horizon represented by this line" ), I18N_NOOP( "Select the horizon for the shadow..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( CastShadowType ) CastShadowType::CastShadowType() : ArgsParserObjectType( "CastShadow", argsspecCastShadow, 3 ) { } CastShadowType::~CastShadowType() { } const CastShadowType* CastShadowType::instance() { static const CastShadowType t; return &t; } ObjectImp* CastShadowType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate lightsrc = static_cast( args[1] )->coordinate(); LineData d = static_cast( args[2] )->data(); return args[0]->transform( Transformation::castShadow( lightsrc, d ) ); } const ObjectImpType* TranslatedType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* PointReflectionType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* LineReflectionType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* RotationType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ScalingOverCenterType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ScalingOverCenter2Type::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ScalingOverLineType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ScalingOverLine2Type::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ProjectiveRotationType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* HarmonicHomologyType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* AffinityB2TrType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* AffinityGI3PType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ProjectivityB2QuType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* ProjectivityGI4PType::resultId() const { return ObjectImp::stype(); } const ObjectImpType* CastShadowType::resultId() const { return ObjectImp::stype(); } bool TranslatedType::isTransform() const { return true; } bool PointReflectionType::isTransform() const { return true; } bool LineReflectionType::isTransform() const { return true; } bool RotationType::isTransform() const { return true; } bool ScalingOverCenterType::isTransform() const { return true; } bool ScalingOverCenter2Type::isTransform() const { return true; } bool ScalingOverLineType::isTransform() const { return true; } bool ScalingOverLine2Type::isTransform() const { return true; } bool ProjectiveRotationType::isTransform() const { return true; } bool HarmonicHomologyType::isTransform() const { return true; } bool AffinityB2TrType::isTransform() const { return true; } bool AffinityGI3PType::isTransform() const { return true; } bool ProjectivityB2QuType::isTransform() const { return true; } bool ProjectivityGI4PType::isTransform() const { return true; } bool CastShadowType::isTransform() const { return true; } static const ArgsParser::spec argsspecApplyTransformation[] = { { ObjectImp::stype(), I18N_NOOP( "Transform this object" ), "SHOULD NOT BE SEEN", false }, { TransformationImp::stype(), I18N_NOOP( "Transform using this transformation" ), "SHOULD NOT BE SEEN", false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( ApplyTransformationObjectType ) ApplyTransformationObjectType::ApplyTransformationObjectType() : ArgsParserObjectType( "ApplyTransformation", argsspecApplyTransformation, 2 ) { } ApplyTransformationObjectType::~ApplyTransformationObjectType() { } const ApplyTransformationObjectType* ApplyTransformationObjectType::instance() { static const ApplyTransformationObjectType t; return &t; } ObjectImp* ApplyTransformationObjectType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; return args[0]->transform( static_cast( args[1] )->data() ); } const ObjectImpType* ApplyTransformationObjectType::resultId() const { return ObjectImp::stype(); } bool ApplyTransformationObjectType::isTransform() const { return true; } bool SimilitudeType::isTransform() const { return true; } const ObjectImpType* SimilitudeType::resultId() const { return ObjectImp::stype(); } const SimilitudeType* SimilitudeType::instance() { static const SimilitudeType t; return &t; } ObjectImp* SimilitudeType::calc( const Args& args, const KigDocument& ) const { if ( ! margsparser.checkArgs( args ) ) return new InvalidImp; Coordinate c = static_cast( args[1] )->coordinate(); Coordinate a = static_cast( args[2] )->coordinate(); Coordinate b = static_cast( args[3] )->coordinate(); a -= c; b -= c; double factor = sqrt( b.squareLength()/a.squareLength() ); double theta = atan2( b.y, b.x ) - atan2( a.y, a.x ); return args[0]->transform( Transformation::similitude( c, theta, factor ) ); } SimilitudeType::~SimilitudeType() { } static const ArgsParser::spec argsspecSimilitude[] = { { ObjectImp::stype(), I18N_NOOP( "Apply a similitude to this object" ), I18N_NOOP( "Select the object to transform..." ), false }, { PointImp::stype(), I18N_NOOP( "Apply a similitude with this center" ), I18N_NOOP( "Select the center for the similitude..." ), false }, { PointImp::stype(), I18N_NOOP( "Apply a similitude mapping this point onto another point" ), I18N_NOOP( "Select the point which the similitude should map onto another point..." ), false }, { PointImp::stype(), I18N_NOOP( "Apply a similitude mapping a point onto this point" ), I18N_NOOP( "Select the point onto which the similitude should map the first point..." ), false } }; KIG_INSTANTIATE_OBJECT_TYPE_INSTANCE( SimilitudeType ) SimilitudeType::SimilitudeType() : ArgsParserObjectType( "Similitude", argsspecSimilitude, 4 ) { }