void register_ClampedLinearCostFunction1D_class(){
{ //::osg::ClampedLinearCostFunction1D
typedef bp::class_< osg::ClampedLinearCostFunction1D > ClampedLinearCostFunction1D_exposer_t;
ClampedLinearCostFunction1D_exposer_t ClampedLinearCostFunction1D_exposer = ClampedLinearCostFunction1D_exposer_t( "ClampedLinearCostFunction1D", bp::init< bp::optional< double, double, unsigned int > >(( bp::arg("cost0")=0.0, bp::arg("dcost_di")=0.0, bp::arg("min_input")=(unsigned int)(0) )) );
bp::scope ClampedLinearCostFunction1D_scope( ClampedLinearCostFunction1D_exposer );
bp::implicitly_convertible< double, osg::ClampedLinearCostFunction1D >();
{ //::osg::ClampedLinearCostFunction1D::operator()
typedef double ( ::osg::ClampedLinearCostFunction1D::*__call___function_type)( unsigned int ) const;
ClampedLinearCostFunction1D_exposer.def(
"__call__"
, __call___function_type( &::osg::ClampedLinearCostFunction1D::operator() )
, ( bp::arg("input") ) );
}
{ //::osg::ClampedLinearCostFunction1D::set
typedef void ( ::osg::ClampedLinearCostFunction1D::*set_function_type)( double,double,unsigned int ) ;
ClampedLinearCostFunction1D_exposer.def(
"set"
, set_function_type( &::osg::ClampedLinearCostFunction1D::set )
, ( bp::arg("cost0"), bp::arg("dcost_di"), bp::arg("min_input") ) );
}
ClampedLinearCostFunction1D_exposer.def_readwrite( "_cost0", &osg::ClampedLinearCostFunction1D::_cost0 );
ClampedLinearCostFunction1D_exposer.def_readwrite( "_dcost_di", &osg::ClampedLinearCostFunction1D::_dcost_di );
ClampedLinearCostFunction1D_exposer.def_readwrite( "_min_input", &osg::ClampedLinearCostFunction1D::_min_input );
}
}
void register_Vec3us_class(){
{ //::osg::Vec3us
typedef bp::class_< osg::Vec3us > Vec3us_exposer_t;
Vec3us_exposer_t Vec3us_exposer = Vec3us_exposer_t( "Vec3us", bp::init< >("\n Constructor that sets all components of the vector to zero\n") );
bp::scope Vec3us_scope( Vec3us_exposer );
bp::scope().attr("num_components") = (int)osg::Vec3us::num_components;
Vec3us_exposer.def( bp::init< short unsigned int, short unsigned int, short unsigned int >(( bp::arg("r"), bp::arg("g"), bp::arg("b") )) );
Vec3us_exposer.def( bp::self != bp::self );
Vec3us_exposer.def( bp::self * bp::other< short unsigned int >() );
Vec3us_exposer.def( bp::self * bp::self );
Vec3us_exposer.def( bp::self *= bp::other< short unsigned int >() );
Vec3us_exposer.def( bp::self + bp::self );
Vec3us_exposer.def( bp::self += bp::self );
Vec3us_exposer.def( bp::self - bp::self );
Vec3us_exposer.def( bp::self -= bp::self );
Vec3us_exposer.def( bp::self / bp::other< short unsigned int >() );
Vec3us_exposer.def( bp::self /= bp::other< short unsigned int >() );
Vec3us_exposer.def( bp::self < bp::self );
Vec3us_exposer.def( bp::self == bp::self );
{ //::osg::Vec3us::operator[]
typedef short unsigned int & ( ::osg::Vec3us::*__getitem___function_type )( unsigned int ) ;
Vec3us_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec3us::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Vec3us::operator[]
typedef short unsigned int ( ::osg::Vec3us::*__getitem___function_type )( unsigned int ) const;
Vec3us_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec3us::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Vec3us::set
typedef void ( ::osg::Vec3us::*set_function_type )( short unsigned int,short unsigned int,short unsigned int ) ;
Vec3us_exposer.def(
"set"
, set_function_type( &::osg::Vec3us::set )
, ( bp::arg("r"), bp::arg("g"), bp::arg("b") ) );
}
{ //::osg::Vec3us::set
typedef void ( ::osg::Vec3us::*set_function_type )( ::osg::Vec3us const & ) ;
Vec3us_exposer.def(
"set"
, set_function_type( &::osg::Vec3us::set )
, ( bp::arg("rhs") ) );
}
{ //property "x"[fget=::osg::Vec3us::x]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"x"
, bp::make_function(
fget( &::osg::Vec3us::x )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "x"[fget=::osg::Vec3us::x]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"x"
, fget( &::osg::Vec3us::x ) );
}
{ //property "y"[fget=::osg::Vec3us::y]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"y"
, bp::make_function(
fget( &::osg::Vec3us::y )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "y"[fget=::osg::Vec3us::y]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"y"
, fget( &::osg::Vec3us::y ) );
}
{ //property "z"[fget=::osg::Vec3us::z]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"z"
, bp::make_function(
fget( &::osg::Vec3us::z )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "z"[fget=::osg::Vec3us::z]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"z"
, fget( &::osg::Vec3us::z ) );
}
{ //property "r"[fget=::osg::Vec3us::r]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"r"
, bp::make_function(
fget( &::osg::Vec3us::r )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "r"[fget=::osg::Vec3us::r]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"r"
, fget( &::osg::Vec3us::r ) );
}
{ //property "g"[fget=::osg::Vec3us::g]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"g"
, bp::make_function(
fget( &::osg::Vec3us::g )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "g"[fget=::osg::Vec3us::g]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"g"
, fget( &::osg::Vec3us::g ) );
}
{ //property "b"[fget=::osg::Vec3us::b]
typedef short unsigned int & ( ::osg::Vec3us::*fget )( ) ;
Vec3us_exposer.add_property(
"b"
, bp::make_function(
fget( &::osg::Vec3us::b )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "b"[fget=::osg::Vec3us::b]
typedef short unsigned int ( ::osg::Vec3us::*fget )( ) const;
Vec3us_exposer.add_property(
"b"
, fget( &::osg::Vec3us::b ) );
}
Vec3us_exposer.def(bp::indexing::container_suite<
osg::Vec3us,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Vec3us, osg::Vec3us::value_type, osg::Vec3us::num_components> >());
}
}
void register_Vec2d_class(){
{ //::osg::Vec2d
typedef bp::class_< osg::Vec2d > Vec2d_exposer_t;
Vec2d_exposer_t Vec2d_exposer = Vec2d_exposer_t( "Vec2d", "\n General purpose double pair, uses include representation of\n texture coordinates.\n No support yet added for double * Vec2d - is it necessary?\n Need to define a non-member non-friend operator* etc.\n BTW: Vec2d * double is okay\n", bp::init< >("\n Constructor that sets all components of the vector to zero\n") );
bp::scope Vec2d_scope( Vec2d_exposer );
bp::scope().attr("num_components") = (int)osg::Vec2d::num_components;
Vec2d_exposer.def( bp::init< double, double >(( bp::arg("x"), bp::arg("y") )) );
Vec2d_exposer.def( bp::init< osg::Vec2f const & >(( bp::arg("vec") )) );
bp::implicitly_convertible< osg::Vec2f const &, osg::Vec2d >();
{ //::osg::Vec2d::isNaN
typedef bool ( ::osg::Vec2d::*isNaN_function_type )( ) const;
Vec2d_exposer.def(
"isNaN"
, isNaN_function_type( &::osg::Vec2d::isNaN )
, "\n Returns true if at least one component has value NaN.\n" );
}
{ //::osg::Vec2d::length
typedef double ( ::osg::Vec2d::*length_function_type )( ) const;
Vec2d_exposer.def(
"length"
, length_function_type( &::osg::Vec2d::length )
, "\n Length of the vector = sqrt( vec . vec )\n" );
}
{ //::osg::Vec2d::length2
typedef double ( ::osg::Vec2d::*length2_function_type )( ) const;
Vec2d_exposer.def(
"length2"
, length2_function_type( &::osg::Vec2d::length2 )
, "\n Length squared of the vector = vec . vec\n" );
}
{ //::osg::Vec2d::normalize
typedef double ( ::osg::Vec2d::*normalize_function_type )( ) ;
Vec2d_exposer.def(
"normalize"
, normalize_function_type( &::osg::Vec2d::normalize )
, "\n Normalize the vector so that it has length unity.\n Returns the previous length of the vector.\n" );
}
Vec2d_exposer.def( "as__scope_osg_scope_Vec2f", &osg::Vec2d::operator ::osg::Vec2f );
Vec2d_exposer.def( bp::self != bp::self );
Vec2d_exposer.def( bp::self * bp::self );
Vec2d_exposer.def( bp::self * bp::other< double >() );
Vec2d_exposer.def( bp::self *= bp::other< double >() );
Vec2d_exposer.def( bp::self + bp::self );
Vec2d_exposer.def( bp::self += bp::self );
Vec2d_exposer.def( bp::self - bp::self );
Vec2d_exposer.def( -bp::self );
Vec2d_exposer.def( bp::self -= bp::self );
Vec2d_exposer.def( bp::self / bp::other< double >() );
Vec2d_exposer.def( bp::self /= bp::other< double >() );
Vec2d_exposer.def( bp::self < bp::self );
Vec2d_exposer.def( bp::self == bp::self );
{ //::osg::Vec2d::operator[]
typedef double & ( ::osg::Vec2d::*__getitem___function_type )( int ) ;
Vec2d_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec2d::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Vec2d::operator[]
typedef double ( ::osg::Vec2d::*__getitem___function_type )( int ) const;
Vec2d_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec2d::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Vec2d::set
typedef void ( ::osg::Vec2d::*set_function_type )( double,double ) ;
Vec2d_exposer.def(
"set"
, set_function_type( &::osg::Vec2d::set )
, ( bp::arg("x"), bp::arg("y") ) );
}
{ //::osg::Vec2d::valid
typedef bool ( ::osg::Vec2d::*valid_function_type )( ) const;
Vec2d_exposer.def(
"valid"
, valid_function_type( &::osg::Vec2d::valid )
, "\n Returns true if all components have values that are not NaN.\n" );
}
{ //property "x"[fget=::osg::Vec2d::x]
typedef double & ( ::osg::Vec2d::*fget )( ) ;
Vec2d_exposer.add_property(
"x"
, bp::make_function(
fget( &::osg::Vec2d::x )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "x"[fget=::osg::Vec2d::x]
typedef double ( ::osg::Vec2d::*fget )( ) const;
Vec2d_exposer.add_property(
"x"
, fget( &::osg::Vec2d::x ) );
}
{ //property "y"[fget=::osg::Vec2d::y]
typedef double & ( ::osg::Vec2d::*fget )( ) ;
Vec2d_exposer.add_property(
"y"
, bp::make_function(
fget( &::osg::Vec2d::y )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "y"[fget=::osg::Vec2d::y]
typedef double ( ::osg::Vec2d::*fget )( ) const;
Vec2d_exposer.add_property(
"y"
, fget( &::osg::Vec2d::y ) );
}
Vec2d_exposer.def( bp::self_ns::str( bp::self ) );
Vec2d_exposer.def( bp::self_ns::str(bp::self) );
Vec2d_exposer.def(bp::indexing::container_suite<
osg::Vec2d,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Vec2d, osg::Vec2d::value_type, osg::Vec2d::num_components> >());
}
}
void register_Quat_class(){
{ //::osg::Quat
typedef bp::class_< osg::Quat > Quat_exposer_t;
Quat_exposer_t Quat_exposer = Quat_exposer_t( "Quat", "\n A quaternion class. It can be used to represent an orientation in 3D space.\n", bp::init< >() );
bp::scope Quat_scope( Quat_exposer );
Quat_exposer.def( bp::init< double, double, double, double >(( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") )) );
Quat_exposer.def( bp::init< osg::Vec4f const & >(( bp::arg("v") )) );
bp::implicitly_convertible< osg::Vec4f const &, osg::Quat >();
Quat_exposer.def( bp::init< osg::Vec4d const & >(( bp::arg("v") )) );
bp::implicitly_convertible< osg::Vec4d const &, osg::Quat >();
Quat_exposer.def( bp::init< double, osg::Vec3f const & >(( bp::arg("angle"), bp::arg("axis") )) );
Quat_exposer.def( bp::init< double, osg::Vec3d const & >(( bp::arg("angle"), bp::arg("axis") )) );
Quat_exposer.def( bp::init< double, osg::Vec3f const &, double, osg::Vec3f const &, double, osg::Vec3f const & >(( bp::arg("angle1"), bp::arg("axis1"), bp::arg("angle2"), bp::arg("axis2"), bp::arg("angle3"), bp::arg("axis3") )) );
Quat_exposer.def( bp::init< double, osg::Vec3d const &, double, osg::Vec3d const &, double, osg::Vec3d const & >(( bp::arg("angle1"), bp::arg("axis1"), bp::arg("angle2"), bp::arg("axis2"), bp::arg("angle3"), bp::arg("axis3") )) );
{ //::osg::Quat::asVec3
typedef ::osg::Vec3d ( ::osg::Quat::*asVec3_function_type )( ) const;
Quat_exposer.def(
"asVec3"
, asVec3_function_type( &::osg::Quat::asVec3 ) );
}
{ //::osg::Quat::asVec4
typedef ::osg::Vec4d ( ::osg::Quat::*asVec4_function_type )( ) const;
Quat_exposer.def(
"asVec4"
, asVec4_function_type( &::osg::Quat::asVec4 ) );
}
{ //::osg::Quat::conj
typedef ::osg::Quat ( ::osg::Quat::*conj_function_type )( ) const;
Quat_exposer.def(
"conj"
, conj_function_type( &::osg::Quat::conj )
, "\n Conjugate\n" );
}
{ //::osg::Quat::get
typedef void ( ::osg::Quat::*get_function_type )( ::osg::Matrixf & ) const;
Quat_exposer.def(
"get"
, get_function_type( &::osg::Quat::get )
, ( bp::arg("matrix") ) );
}
{ //::osg::Quat::get
typedef void ( ::osg::Quat::*get_function_type )( ::osg::Matrixd & ) const;
Quat_exposer.def(
"get"
, get_function_type( &::osg::Quat::get )
, ( bp::arg("matrix") ) );
}
{ //::osg::Quat::getRotate
typedef boost::python::tuple ( *getRotate_function_type )( ::osg::Quat const & );
Quat_exposer.def(
"getRotate"
, getRotate_function_type( &getRotate_7cd433cce0eabe855a9b774688d2845e )
, ( bp::arg("inst") )
, " Return the angle and vector represented by the quaternion." );
}
{ //::osg::Quat::inverse
typedef ::osg::Quat const ( ::osg::Quat::*inverse_function_type )( ) const;
Quat_exposer.def(
"inverse"
, inverse_function_type( &::osg::Quat::inverse )
, "\n Multiplicative inverse method: q^(-1) = q^*/(q.q^*)\n" );
}
{ //::osg::Quat::length
typedef double ( ::osg::Quat::*length_function_type )( ) const;
Quat_exposer.def(
"length"
, length_function_type( &::osg::Quat::length )
, "\n Length of the quaternion = sqrt( vec . vec )\n" );
}
{ //::osg::Quat::length2
typedef double ( ::osg::Quat::*length2_function_type )( ) const;
Quat_exposer.def(
"length2"
, length2_function_type( &::osg::Quat::length2 )
, "\n Length of the quaternion = vec . vec\n" );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( double,double,double,double ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("angle"), bp::arg("x"), bp::arg("y"), bp::arg("z") ) );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( double,::osg::Vec3f const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("angle"), bp::arg("vec") ) );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( double,::osg::Vec3d const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("angle"), bp::arg("vec") ) );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( double,::osg::Vec3f const &,double,::osg::Vec3f const &,double,::osg::Vec3f const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("angle1"), bp::arg("axis1"), bp::arg("angle2"), bp::arg("axis2"), bp::arg("angle3"), bp::arg("axis3") ) );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( double,::osg::Vec3d const &,double,::osg::Vec3d const &,double,::osg::Vec3d const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("angle1"), bp::arg("axis1"), bp::arg("angle2"), bp::arg("axis2"), bp::arg("angle3"), bp::arg("axis3") ) );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( ::osg::Vec3f const &,::osg::Vec3f const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("vec1"), bp::arg("vec2") )
, "\n Make a rotation Quat which will rotate vec1 to vec2.\n Generally take a dot product to get the angle between these\n and then use a cross product to get the rotation axis\n Watch out for the two special cases when the vectors\n are co-incident or opposite in direction.\n" );
}
{ //::osg::Quat::makeRotate
typedef void ( ::osg::Quat::*makeRotate_function_type )( ::osg::Vec3d const &,::osg::Vec3d const & ) ;
Quat_exposer.def(
"makeRotate"
, makeRotate_function_type( &::osg::Quat::makeRotate )
, ( bp::arg("vec1"), bp::arg("vec2") )
, "\n Make a rotation Quat which will rotate vec1 to vec2.\n Generally take a dot product to get the angle between these\n and then use a cross product to get the rotation axis\n Watch out for the two special cases of when the vectors\n are co-incident or opposite in direction.\n" );
}
{ //::osg::Quat::makeRotate_original
typedef void ( ::osg::Quat::*makeRotate_original_function_type )( ::osg::Vec3d const &,::osg::Vec3d const & ) ;
Quat_exposer.def(
"makeRotate_original"
, makeRotate_original_function_type( &::osg::Quat::makeRotate_original )
, ( bp::arg("vec1"), bp::arg("vec2") ) );
}
Quat_exposer.def( bp::self != bp::self );
Quat_exposer.def( bp::self * bp::other< double >() );
Quat_exposer.def( bp::self * bp::self );
Quat_exposer.def( bp::self * bp::other< osg::Vec3f >() );
Quat_exposer.def( bp::self * bp::other< osg::Vec3d >() );
Quat_exposer.def( bp::self *= bp::other< double >() );
Quat_exposer.def( bp::self *= bp::self );
Quat_exposer.def( bp::self + bp::self );
Quat_exposer.def( bp::self += bp::self );
Quat_exposer.def( bp::self - bp::self );
Quat_exposer.def( -bp::self );
Quat_exposer.def( bp::self -= bp::self );
Quat_exposer.def( bp::self / bp::other< double >() );
Quat_exposer.def( bp::self / bp::self );
Quat_exposer.def( bp::self /= bp::other< double >() );
Quat_exposer.def( bp::self /= bp::self );
Quat_exposer.def( bp::self < bp::self );
{ //::osg::Quat::operator=
typedef ::osg::Quat & ( ::osg::Quat::*assign_function_type )( ::osg::Quat const & ) ;
Quat_exposer.def(
"assign"
, assign_function_type( &::osg::Quat::operator= )
, ( bp::arg("v") )
, bp::return_self< >() );
}
Quat_exposer.def( bp::self == bp::self );
{ //::osg::Quat::operator[]
typedef double & ( ::osg::Quat::*__getitem___function_type )( int ) ;
Quat_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Quat::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Quat::operator[]
typedef double ( ::osg::Quat::*__getitem___function_type )( int ) const;
Quat_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Quat::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Quat::set
typedef void ( ::osg::Quat::*set_function_type )( double,double,double,double ) ;
Quat_exposer.def(
"set"
, set_function_type( &::osg::Quat::set )
, ( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") ) );
}
{ //::osg::Quat::set
typedef void ( ::osg::Quat::*set_function_type )( ::osg::Vec4f const & ) ;
Quat_exposer.def(
"set"
, set_function_type( &::osg::Quat::set )
, ( bp::arg("v") ) );
}
{ //::osg::Quat::set
typedef void ( ::osg::Quat::*set_function_type )( ::osg::Vec4d const & ) ;
Quat_exposer.def(
"set"
, set_function_type( &::osg::Quat::set )
, ( bp::arg("v") ) );
}
{ //::osg::Quat::set
typedef void ( ::osg::Quat::*set_function_type )( ::osg::Matrixf const & ) ;
Quat_exposer.def(
"set"
, set_function_type( &::osg::Quat::set )
, ( bp::arg("matrix") ) );
}
{ //::osg::Quat::set
typedef void ( ::osg::Quat::*set_function_type )( ::osg::Matrixd const & ) ;
Quat_exposer.def(
"set"
, set_function_type( &::osg::Quat::set )
, ( bp::arg("matrix") ) );
}
{ //::osg::Quat::slerp
typedef void ( ::osg::Quat::*slerp_function_type )( double,::osg::Quat const &,::osg::Quat const & ) ;
Quat_exposer.def(
"slerp"
, slerp_function_type( &::osg::Quat::slerp )
, ( bp::arg("t"), bp::arg("from"), bp::arg("to") )
, "\n Spherical Linear Interpolation.\n As t goes from 0 to 1, the Quat object goes from from to to.\n" );
}
{ //::osg::Quat::w
typedef double & ( ::osg::Quat::*w_function_type )( ) ;
Quat_exposer.def(
"w"
, w_function_type( &::osg::Quat::w )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Quat::w
typedef double ( ::osg::Quat::*w_function_type )( ) const;
Quat_exposer.def(
"w"
, w_function_type( &::osg::Quat::w ) );
}
{ //::osg::Quat::x
typedef double & ( ::osg::Quat::*x_function_type )( ) ;
Quat_exposer.def(
"x"
, x_function_type( &::osg::Quat::x )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Quat::x
typedef double ( ::osg::Quat::*x_function_type )( ) const;
Quat_exposer.def(
"x"
, x_function_type( &::osg::Quat::x ) );
}
{ //::osg::Quat::y
typedef double & ( ::osg::Quat::*y_function_type )( ) ;
Quat_exposer.def(
"y"
, y_function_type( &::osg::Quat::y )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Quat::y
typedef double ( ::osg::Quat::*y_function_type )( ) const;
Quat_exposer.def(
"y"
, y_function_type( &::osg::Quat::y ) );
}
{ //::osg::Quat::z
typedef double & ( ::osg::Quat::*z_function_type )( ) ;
Quat_exposer.def(
"z"
, z_function_type( &::osg::Quat::z )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Quat::z
typedef double ( ::osg::Quat::*z_function_type )( ) const;
Quat_exposer.def(
"z"
, z_function_type( &::osg::Quat::z ) );
}
{ //::osg::Quat::zeroRotation
typedef bool ( ::osg::Quat::*zeroRotation_function_type )( ) const;
Quat_exposer.def(
"zeroRotation"
, zeroRotation_function_type( &::osg::Quat::zeroRotation )
, "\n return true if the Quat represents a zero rotation, and therefore can be ignored in computations.\n" );
}
Quat_exposer.def( bp::self_ns::str( bp::self ) );
Quat_exposer.def( bp::self_ns::str(bp::self) );
Quat_exposer.def(bp::indexing::container_suite<
osg::Quat,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Quat, osg::Quat::value_type, 4> >());
}
}
void register_Vec4ui_class(){
{ //::osg::Vec4ui
typedef bp::class_< osg::Vec4ui > Vec4ui_exposer_t;
Vec4ui_exposer_t Vec4ui_exposer = Vec4ui_exposer_t( "Vec4ui", "\n General purpose integer quad\n", bp::init< >() );
bp::scope Vec4ui_scope( Vec4ui_exposer );
bp::scope().attr("num_components") = (int)osg::Vec4ui::num_components;
Vec4ui_exposer.def( bp::init< unsigned int, unsigned int, unsigned int, unsigned int >(( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") )) );
Vec4ui_exposer.def( bp::self != bp::self );
Vec4ui_exposer.def( bp::self * bp::other< unsigned int >() );
Vec4ui_exposer.def( bp::self * bp::self );
Vec4ui_exposer.def( bp::self + bp::other< unsigned int >() );
Vec4ui_exposer.def( bp::self + bp::self );
Vec4ui_exposer.def( bp::self - bp::other< unsigned int >() );
Vec4ui_exposer.def( bp::self - bp::self );
Vec4ui_exposer.def( bp::self / bp::other< unsigned int >() );
Vec4ui_exposer.def( bp::self < bp::self );
Vec4ui_exposer.def( bp::self == bp::self );
{ //::osg::Vec4ui::operator[]
typedef unsigned int & ( ::osg::Vec4ui::*__getitem___function_type )( unsigned int ) ;
Vec4ui_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec4ui::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Vec4ui::operator[]
typedef unsigned int ( ::osg::Vec4ui::*__getitem___function_type )( unsigned int ) const;
Vec4ui_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec4ui::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Vec4ui::set
typedef void ( ::osg::Vec4ui::*set_function_type )( unsigned int,unsigned int,unsigned int,unsigned int ) ;
Vec4ui_exposer.def(
"set"
, set_function_type( &::osg::Vec4ui::set )
, ( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") ) );
}
{ //property "x"[fget=::osg::Vec4ui::x]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"x"
, bp::make_function(
fget( &::osg::Vec4ui::x )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "x"[fget=::osg::Vec4ui::x]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"x"
, fget( &::osg::Vec4ui::x ) );
}
{ //property "y"[fget=::osg::Vec4ui::y]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"y"
, bp::make_function(
fget( &::osg::Vec4ui::y )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "y"[fget=::osg::Vec4ui::y]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"y"
, fget( &::osg::Vec4ui::y ) );
}
{ //property "z"[fget=::osg::Vec4ui::z]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"z"
, bp::make_function(
fget( &::osg::Vec4ui::z )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "z"[fget=::osg::Vec4ui::z]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"z"
, fget( &::osg::Vec4ui::z ) );
}
{ //property "w"[fget=::osg::Vec4ui::w]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"w"
, bp::make_function(
fget( &::osg::Vec4ui::w )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "w"[fget=::osg::Vec4ui::w]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"w"
, fget( &::osg::Vec4ui::w ) );
}
{ //property "r"[fget=::osg::Vec4ui::r]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"r"
, bp::make_function(
fget( &::osg::Vec4ui::r )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "r"[fget=::osg::Vec4ui::r]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"r"
, fget( &::osg::Vec4ui::r ) );
}
{ //property "g"[fget=::osg::Vec4ui::g]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"g"
, bp::make_function(
fget( &::osg::Vec4ui::g )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "g"[fget=::osg::Vec4ui::g]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"g"
, fget( &::osg::Vec4ui::g ) );
}
{ //property "b"[fget=::osg::Vec4ui::b]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"b"
, bp::make_function(
fget( &::osg::Vec4ui::b )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "b"[fget=::osg::Vec4ui::b]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"b"
, fget( &::osg::Vec4ui::b ) );
}
{ //property "a"[fget=::osg::Vec4ui::a]
typedef unsigned int & ( ::osg::Vec4ui::*fget )( ) ;
Vec4ui_exposer.add_property(
"a"
, bp::make_function(
fget( &::osg::Vec4ui::a )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "a"[fget=::osg::Vec4ui::a]
typedef unsigned int ( ::osg::Vec4ui::*fget )( ) const;
Vec4ui_exposer.add_property(
"a"
, fget( &::osg::Vec4ui::a ) );
}
Vec4ui_exposer.def(bp::indexing::container_suite<
osg::Vec4ui,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Vec4ui, osg::Vec4ui::value_type, osg::Vec4ui::num_components> >());
}
}
void register_XMLAttributes_class(){
{ //::osiris::XMLAttributes
typedef ::boost::python::class_< ::osiris::XMLAttributes > XMLAttributes_exposer_t;
XMLAttributes_exposer_t XMLAttributes_exposer = XMLAttributes_exposer_t( "XMLAttributes", ::boost::python::init< ::osiris::XMLNode & >(( ::boost::python::arg("node") )) );
::boost::python::scope XMLAttributes_scope( XMLAttributes_exposer );
::boost::python::implicitly_convertible< ::osiris::XMLNode &, ::osiris::XMLAttributes >();
{ //::osiris::XMLAttributes::getNode
typedef boost::python::object ( *getNode_function_type )( ::osiris::XMLAttributes & );
XMLAttributes_exposer.def(
"getNode"
, getNode_function_type( &getNode_4e57c0c8f9b0f179513dbc4a9f5d4c90 ) );
}
{ //::osiris::XMLAttributes::getNode
typedef boost::python::object ( *getNode_function_type )( ::osiris::XMLAttributes const & );
XMLAttributes_exposer.def(
"getNode"
, getNode_function_type( &getNode_c7ca0ab9de3bad23f457972b89ccd4bc ) );
}
{ //::osiris::XMLAttributes::empty
typedef boost::python::object ( *empty_function_type )( ::osiris::XMLAttributes const & );
XMLAttributes_exposer.def(
"empty"
, empty_function_type( &empty_b69603b713f1a8a59c2ffc4b6c71ff93 ) );
}
{ //::osiris::XMLAttributes::size
typedef boost::python::object ( *size_function_type )( ::osiris::XMLAttributes const & );
XMLAttributes_exposer.def(
"size"
, size_function_type( &size_97d3881c48560de9a0f1e73dafa6a53e ) );
}
{ //::osiris::XMLAttributes::set
typedef void ( *set_function_type )( ::osiris::XMLAttributes &,::osiris::String const &,::osiris::String const & );
XMLAttributes_exposer.def(
"set"
, set_function_type( &set_1e63dd0dc5475b37dd70f5a51470babd )
, ( ::boost::python::arg("inst"), ::boost::python::arg("name"), ::boost::python::arg("value") ) );
}
{ //::osiris::XMLAttributes::clear
typedef void ( *clear_function_type )( ::osiris::XMLAttributes & );
XMLAttributes_exposer.def(
"clear"
, clear_function_type( &clear_bbd254cd8250d6049df9feeec423473d ) );
}
{ //::osiris::XMLAttributes::exists
typedef boost::python::object ( *exists_function_type )( ::osiris::XMLAttributes const &,::osiris::String const & );
XMLAttributes_exposer.def(
"exists"
, exists_function_type( &exists_9b7ddaa903c86a33882aca33647d86d9 )
, ( ::boost::python::arg("inst"), ::boost::python::arg("name") ) );
}
{ //::osiris::XMLAttributes::find
typedef boost::python::object ( *find_function_type )( ::osiris::XMLAttributes const &,::osiris::String const & );
XMLAttributes_exposer.def(
"find"
, find_function_type( &find_981dbb4e0c25761bece5c543ec955f9e )
, ( ::boost::python::arg("inst"), ::boost::python::arg("name") ) );
}
{ //::osiris::XMLAttributes::find
typedef boost::python::object ( *find_function_type )( ::osiris::XMLAttributes const &,::size_t );
XMLAttributes_exposer.def(
"find"
, find_function_type( &find_f566384adab53722dbbf56f49e0e8597 )
, ( ::boost::python::arg("inst"), ::boost::python::arg("index") ) );
}
{ //::osiris::XMLAttributes::get
typedef boost::python::object ( *get_function_type )( ::osiris::XMLAttributes const &,::osiris::String const & );
XMLAttributes_exposer.def(
"get"
, get_function_type( &get_8341dbbadae2779456a992562f1485db )
, ( ::boost::python::arg("inst"), ::boost::python::arg("name") ) );
}
{ //::osiris::XMLAttributes::remove
typedef void ( *remove_function_type )( ::osiris::XMLAttributes &,::osiris::String const & );
XMLAttributes_exposer.def(
"remove"
, remove_function_type( &remove_13651ce1619d4c347a785c48f2131d08 )
, ( ::boost::python::arg("inst"), ::boost::python::arg("name") ) );
}
::boost::python::register_ptr_to_python< boost::shared_ptr< ::osiris::XMLAttributes > >();
::boost::python::implicitly_convertible< boost::shared_ptr< ::osiris::XMLAttributes >, boost::shared_ptr< ::osiris::Object > >();
}
}
void register_Vec3f_class(){
{ //::osg::Vec3f
typedef bp::class_< osg::Vec3f > Vec3f_exposer_t;
Vec3f_exposer_t Vec3f_exposer = Vec3f_exposer_t( "Vec3f", "\n General purpose float triple for use as vertices, vectors and normals.\n Provides general math operations from addition through to cross products.\n No support yet added for float * Vec3f - is it necessary?\n Need to define a non-member non-friend operator* etc.\n Vec3f * float is okay\n", bp::init< >("\n Constructor that sets all components of the vector to zero\n") );
bp::scope Vec3f_scope( Vec3f_exposer );
bp::scope().attr("num_components") = (int)osg::Vec3f::num_components;
Vec3f_exposer.def( bp::init< float, float, float >(( bp::arg("x"), bp::arg("y"), bp::arg("z") )) );
Vec3f_exposer.def( bp::init< osg::Vec2f const &, float >(( bp::arg("v2"), bp::arg("zz") )) );
{ //::osg::Vec3f::isNaN
typedef bool ( ::osg::Vec3f::*isNaN_function_type)( ) const;
Vec3f_exposer.def(
"isNaN"
, isNaN_function_type( &::osg::Vec3f::isNaN )
, "\n Returns true if at least one component has value NaN.\n" );
}
{ //::osg::Vec3f::length
typedef float ( ::osg::Vec3f::*length_function_type)( ) const;
Vec3f_exposer.def(
"length"
, length_function_type( &::osg::Vec3f::length )
, "\n Length of the vector = sqrt( vec . vec )\n" );
}
{ //::osg::Vec3f::length2
typedef float ( ::osg::Vec3f::*length2_function_type)( ) const;
Vec3f_exposer.def(
"length2"
, length2_function_type( &::osg::Vec3f::length2 )
, "\n Length squared of the vector = vec . vec\n" );
}
{ //::osg::Vec3f::normalize
typedef float ( ::osg::Vec3f::*normalize_function_type)( ) ;
Vec3f_exposer.def(
"normalize"
, normalize_function_type( &::osg::Vec3f::normalize )
, "\n Normalize the vector so that it has length unity.\n Returns the previous length of the vector.\n" );
}
Vec3f_exposer.def( bp::self != bp::self );
Vec3f_exposer.def( bp::self * bp::self );
Vec3f_exposer.def( bp::self * bp::other< float >() );
Vec3f_exposer.def( bp::self *= bp::other< float >() );
Vec3f_exposer.def( bp::self + bp::self );
Vec3f_exposer.def( bp::self += bp::self );
Vec3f_exposer.def( bp::self - bp::self );
Vec3f_exposer.def( -bp::self );
Vec3f_exposer.def( bp::self -= bp::self );
Vec3f_exposer.def( bp::self / bp::other< float >() );
Vec3f_exposer.def( bp::self /= bp::other< float >() );
Vec3f_exposer.def( bp::self < bp::self );
Vec3f_exposer.def( bp::self == bp::self );
{ //::osg::Vec3f::operator[]
typedef float & ( ::osg::Vec3f::*__getitem___function_type)( int ) ;
Vec3f_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec3f::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Vec3f::operator[]
typedef float ( ::osg::Vec3f::*__getitem___function_type)( int ) const;
Vec3f_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec3f::operator[] )
, ( bp::arg("i") ) );
}
Vec3f_exposer.def( bp::self ^ bp::self );
{ //::osg::Vec3f::set
typedef void ( ::osg::Vec3f::*set_function_type)( float,float,float ) ;
Vec3f_exposer.def(
"set"
, set_function_type( &::osg::Vec3f::set )
, ( bp::arg("x"), bp::arg("y"), bp::arg("z") ) );
}
{ //::osg::Vec3f::set
typedef void ( ::osg::Vec3f::*set_function_type)( ::osg::Vec3f const & ) ;
Vec3f_exposer.def(
"set"
, set_function_type( &::osg::Vec3f::set )
, ( bp::arg("rhs") ) );
}
{ //::osg::Vec3f::valid
typedef bool ( ::osg::Vec3f::*valid_function_type)( ) const;
Vec3f_exposer.def(
"valid"
, valid_function_type( &::osg::Vec3f::valid )
, "\n Returns true if all components have values that are not NaN.\n" );
}
{ //property "x"[fget=::osg::Vec3f::x]
typedef float & ( ::osg::Vec3f::*fget)( ) ;
Vec3f_exposer.add_property(
"x"
, bp::make_function(
fget( &::osg::Vec3f::x )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "x"[fget=::osg::Vec3f::x]
typedef float ( ::osg::Vec3f::*fget)( ) const;
Vec3f_exposer.add_property(
"x"
, fget( &::osg::Vec3f::x ) );
}
{ //property "y"[fget=::osg::Vec3f::y]
typedef float & ( ::osg::Vec3f::*fget)( ) ;
Vec3f_exposer.add_property(
"y"
, bp::make_function(
fget( &::osg::Vec3f::y )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "y"[fget=::osg::Vec3f::y]
typedef float ( ::osg::Vec3f::*fget)( ) const;
Vec3f_exposer.add_property(
"y"
, fget( &::osg::Vec3f::y ) );
}
{ //property "z"[fget=::osg::Vec3f::z]
typedef float & ( ::osg::Vec3f::*fget)( ) ;
Vec3f_exposer.add_property(
"z"
, bp::make_function(
fget( &::osg::Vec3f::z )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "z"[fget=::osg::Vec3f::z]
typedef float ( ::osg::Vec3f::*fget)( ) const;
Vec3f_exposer.add_property(
"z"
, fget( &::osg::Vec3f::z ) );
}
Vec3f_exposer.def( bp::self * bp::other< osg::Matrixf >() );
Vec3f_exposer.def( bp::self * bp::other< osg::Matrixd >() );
Vec3f_exposer.def( bp::self * bp::other< osg::Vec4d >() );
Vec3f_exposer.def( bp::self * bp::other< osg::Vec4f >() );
Vec3f_exposer.def( bp::self_ns::str( bp::self ) );
Vec3f_exposer.def( bp::self_ns::str(bp::self) );
Vec3f_exposer.def(bp::indexing::container_suite<
osg::Vec3f,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Vec3f, osg::Vec3f::value_type, osg::Vec3f::num_components> >());
}
}
void register_Vec4us_class(){
{ //::osg::Vec4us
typedef bp::class_< osg::Vec4us > Vec4us_exposer_t;
Vec4us_exposer_t Vec4us_exposer = Vec4us_exposer_t( "Vec4us", "\n General purpose float quad. Uses include representation\n of color coordinates.\n No support yet added for float * Vec4us - is it necessary?\n Need to define a non-member non-friend operator* etc.\n Vec4us * float is okay\n", bp::init< >("\n Constructor that sets all components of the vector to zero\n") );
bp::scope Vec4us_scope( Vec4us_exposer );
bp::scope().attr("num_components") = (int)osg::Vec4us::num_components;
Vec4us_exposer.def( bp::init< short unsigned int, short unsigned int, short unsigned int, short unsigned int >(( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") )) );
Vec4us_exposer.def( bp::self != bp::self );
Vec4us_exposer.def( bp::self * bp::other< short unsigned int >() );
Vec4us_exposer.def( bp::self * bp::self );
Vec4us_exposer.def( bp::self *= bp::other< short unsigned int >() );
Vec4us_exposer.def( bp::self + bp::self );
Vec4us_exposer.def( bp::self += bp::self );
Vec4us_exposer.def( bp::self - bp::self );
Vec4us_exposer.def( bp::self -= bp::self );
Vec4us_exposer.def( bp::self / bp::other< short unsigned int >() );
Vec4us_exposer.def( bp::self /= bp::other< short unsigned int >() );
Vec4us_exposer.def( bp::self < bp::self );
Vec4us_exposer.def( bp::self == bp::self );
{ //::osg::Vec4us::operator[]
typedef short unsigned int & ( ::osg::Vec4us::*__getitem___function_type)( unsigned int ) ;
Vec4us_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec4us::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Vec4us::operator[]
typedef short unsigned int ( ::osg::Vec4us::*__getitem___function_type)( unsigned int ) const;
Vec4us_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Vec4us::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Vec4us::set
typedef void ( ::osg::Vec4us::*set_function_type)( short unsigned int,short unsigned int,short unsigned int,short unsigned int ) ;
Vec4us_exposer.def(
"set"
, set_function_type( &::osg::Vec4us::set )
, ( bp::arg("x"), bp::arg("y"), bp::arg("z"), bp::arg("w") ) );
}
{ //property "x"[fget=::osg::Vec4us::x]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"x"
, bp::make_function(
fget( &::osg::Vec4us::x )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "x"[fget=::osg::Vec4us::x]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"x"
, fget( &::osg::Vec4us::x ) );
}
{ //property "y"[fget=::osg::Vec4us::y]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"y"
, bp::make_function(
fget( &::osg::Vec4us::y )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "y"[fget=::osg::Vec4us::y]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"y"
, fget( &::osg::Vec4us::y ) );
}
{ //property "z"[fget=::osg::Vec4us::z]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"z"
, bp::make_function(
fget( &::osg::Vec4us::z )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "z"[fget=::osg::Vec4us::z]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"z"
, fget( &::osg::Vec4us::z ) );
}
{ //property "w"[fget=::osg::Vec4us::w]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"w"
, bp::make_function(
fget( &::osg::Vec4us::w )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "w"[fget=::osg::Vec4us::w]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"w"
, fget( &::osg::Vec4us::w ) );
}
{ //property "r"[fget=::osg::Vec4us::r]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"r"
, bp::make_function(
fget( &::osg::Vec4us::r )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "r"[fget=::osg::Vec4us::r]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"r"
, fget( &::osg::Vec4us::r ) );
}
{ //property "g"[fget=::osg::Vec4us::g]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"g"
, bp::make_function(
fget( &::osg::Vec4us::g )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "g"[fget=::osg::Vec4us::g]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"g"
, fget( &::osg::Vec4us::g ) );
}
{ //property "b"[fget=::osg::Vec4us::b]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"b"
, bp::make_function(
fget( &::osg::Vec4us::b )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "b"[fget=::osg::Vec4us::b]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"b"
, fget( &::osg::Vec4us::b ) );
}
{ //property "a"[fget=::osg::Vec4us::a]
typedef short unsigned int & ( ::osg::Vec4us::*fget)( ) ;
Vec4us_exposer.add_property(
"a"
, bp::make_function(
fget( &::osg::Vec4us::a )
, bp::return_value_policy< bp::copy_non_const_reference >() ) );
}
{ //property "a"[fget=::osg::Vec4us::a]
typedef short unsigned int ( ::osg::Vec4us::*fget)( ) const;
Vec4us_exposer.add_property(
"a"
, fget( &::osg::Vec4us::a ) );
}
Vec4us_exposer.def(bp::indexing::container_suite<
osg::Vec4us,
bp::indexing::all_methods,
OsgVec_algorithms<osg::Vec4us, osg::Vec4us::value_type, osg::Vec4us::num_components> >());
}
}
void register_Plane_class(){
{ //::osg::Plane
typedef bp::class_< osg::Plane > Plane_exposer_t;
Plane_exposer_t Plane_exposer = Plane_exposer_t( "Plane", "\n A plane class. It can be used to represent an infinite plane.\n\n The infinite plane is described by an implicit plane equation a*x+b*y+c*z+d = 0. Though it is not mandatory that\n a^2+b^2+c^2 = 1 is fulfilled in general some methods require it (aee osg::Plane::distance).\n", bp::init< >("\n Default constructor\n The default constructor initializes all values to zero.\n Warning: Although the method osg::Plane::valid() will return true after the default constructors call the plane\n is mathematically invalid! Default data do not describe a valid plane.\n") );
bp::scope Plane_scope( Plane_exposer );
bp::scope().attr("num_components") = (int)osg::Plane::num_components;
Plane_exposer.def( bp::init< osg::Plane const & >(( bp::arg("pl") )) );
Plane_exposer.def( bp::init< double, double, double, double >(( bp::arg("a"), bp::arg("b"), bp::arg("c"), bp::arg("d") ), "\n Constructor\n The plane is described as a*x+b*y+c*z+d = 0.\n @remark You may call osg::Plane::MakeUnitLength afterwards if the passed values are not normalized.\n") );
Plane_exposer.def( bp::init< osg::Vec4f const & >(( bp::arg("vec") ), "\n Constructor\n The plane can also be described as vec*[x,y,z,1].\n @remark You may call osg::Plane::MakeUnitLength afterwards if the passed values are not normalized.\n") );
bp::implicitly_convertible< osg::Vec4f const &, osg::Plane >();
Plane_exposer.def( bp::init< osg::Vec4d const & >(( bp::arg("vec") ), "\n Constructor\n The plane can also be described as vec*[x,y,z,1].\n @remark You may call osg::Plane::MakeUnitLength afterwards if the passed values are not normalized.\n") );
bp::implicitly_convertible< osg::Vec4d const &, osg::Plane >();
Plane_exposer.def( bp::init< osg::Vec3d const &, double >(( bp::arg("norm"), bp::arg("d") ), "\n Constructor\n This constructor initializes the internal values directly without any checking or manipulation.\n @param norm: The normal of the plane.\n @param d: The negative distance from the point of origin to the plane.\n @remark You may call osg::Plane::MakeUnitLength afterwards if the passed normal was not normalized.\n") );
Plane_exposer.def( bp::init< osg::Vec3d const &, osg::Vec3d const &, osg::Vec3d const & >(( bp::arg("v1"), bp::arg("v2"), bp::arg("v3") ), "\n Constructor\n This constructor calculates from the three points describing an infinite plane the internal values.\n @param v1: Point in the plane.\n @param v2: Point in the plane.\n @param v3: Point in the plane.\n @remark After this constructor call the planes normal is normalized in case the three points described a mathematically\n valid plane.\n @remark The normal is determined by building the cross product of (v2-v1) ^ (v3-v2).\n") );
Plane_exposer.def( bp::init< osg::Vec3d const &, osg::Vec3d const & >(( bp::arg("norm"), bp::arg("point") ), "\n Constructor\n This constructor initializes the internal values directly without any checking or manipulation.\n @param norm: The normal of the plane.\n @param point: A point of the plane.\n @remark You may call osg::Plane::MakeUnitLength afterwards if the passed normal was not normalized.\n") );
{ //::osg::Plane::asVec4
typedef ::osg::Vec4d ( ::osg::Plane::*asVec4_function_type)( ) const;
Plane_exposer.def(
"asVec4"
, asVec4_function_type( &::osg::Plane::asVec4 ) );
}
{ //::osg::Plane::calculateUpperLowerBBCorners
typedef void ( ::osg::Plane::*calculateUpperLowerBBCorners_function_type)( ) ;
Plane_exposer.def(
"calculateUpperLowerBBCorners"
, calculateUpperLowerBBCorners_function_type( &::osg::Plane::calculateUpperLowerBBCorners )
, "\n calculate the upper and lower bounding box corners to be used\n in the intersect(BoundingBox&) method for speeding calculations.\n" );
}
{ //::osg::Plane::distance
typedef float ( ::osg::Plane::*distance_function_type)( ::osg::Vec3f const & ) const;
Plane_exposer.def(
"distance"
, distance_function_type( &::osg::Plane::distance )
, ( bp::arg("v") )
, "\n Calculate the distance between a point and the plane.\n @remark This method only leads to real distance values if the planes norm is 1.\n aa osg::Plane::makeUnitLength\n" );
}
{ //::osg::Plane::distance
typedef double ( ::osg::Plane::*distance_function_type)( ::osg::Vec3d const & ) const;
Plane_exposer.def(
"distance"
, distance_function_type( &::osg::Plane::distance )
, ( bp::arg("v") )
, "\n Calculate the distance between a point and the plane.\n @remark This method only leads to real distance values if the planes norm is 1.\n aa osg::Plane::makeUnitLength\n" );
}
{ //::osg::Plane::dotProductNormal
typedef float ( ::osg::Plane::*dotProductNormal_function_type)( ::osg::Vec3f const & ) const;
Plane_exposer.def(
"dotProductNormal"
, dotProductNormal_function_type( &::osg::Plane::dotProductNormal )
, ( bp::arg("v") )
, "\n calculate the dot product of the plane normal and a point.\n" );
}
{ //::osg::Plane::dotProductNormal
typedef double ( ::osg::Plane::*dotProductNormal_function_type)( ::osg::Vec3d const & ) const;
Plane_exposer.def(
"dotProductNormal"
, dotProductNormal_function_type( &::osg::Plane::dotProductNormal )
, ( bp::arg("v") )
, "\n calculate the dot product of the plane normal and a point.\n" );
}
{ //::osg::Plane::flip
typedef void ( ::osg::Plane::*flip_function_type)( ) ;
Plane_exposer.def(
"flip"
, flip_function_type( &::osg::Plane::flip )
, "\n flip/reverse the orientation of the plane.\n" );
}
{ //::osg::Plane::getNormal
typedef ::osg::Vec3d ( ::osg::Plane::*getNormal_function_type)( ) const;
Plane_exposer.def(
"getNormal"
, getNormal_function_type( &::osg::Plane::getNormal ) );
}
{ //::osg::Plane::intersect
typedef int ( ::osg::Plane::*intersect_function_type)( ::std::vector< osg::Vec3f > const & ) const;
Plane_exposer.def(
"intersect"
, intersect_function_type( &::osg::Plane::intersect )
, ( bp::arg("vertices") )
, "\n intersection test between plane and vertex list\n return 1 if the bs is completely above plane,\n return 0 if the bs intersects the plane,\n return -1 if the bs is completely below the plane.\n" );
}
{ //::osg::Plane::intersect
typedef int ( ::osg::Plane::*intersect_function_type)( ::std::vector< osg::Vec3d > const & ) const;
Plane_exposer.def(
"intersect"
, intersect_function_type( &::osg::Plane::intersect )
, ( bp::arg("vertices") )
, "\n intersection test between plane and vertex list\n return 1 if the bs is completely above plane,\n return 0 if the bs intersects the plane,\n return -1 if the bs is completely below the plane.\n" );
}
{ //::osg::Plane::intersect
typedef int ( ::osg::Plane::*intersect_function_type)( ::osg::BoundingSphere const & ) const;
Plane_exposer.def(
"intersect"
, intersect_function_type( &::osg::Plane::intersect )
, ( bp::arg("bs") )
, "\n intersection test between plane and bounding sphere.\n return 1 if the bs is completely above plane,\n return 0 if the bs intersects the plane,\n return -1 if the bs is completely below the plane.\n" );
}
{ //::osg::Plane::intersect
typedef int ( ::osg::Plane::*intersect_function_type)( ::osg::BoundingBox const & ) const;
Plane_exposer.def(
"intersect"
, intersect_function_type( &::osg::Plane::intersect )
, ( bp::arg("bb") )
, "\n intersection test between plane and bounding sphere.\n return 1 if the bs is completely above plane,\n return 0 if the bs intersects the plane,\n return -1 if the bs is completely below the plane.\n" );
}
{ //::osg::Plane::isNaN
typedef bool ( ::osg::Plane::*isNaN_function_type)( ) const;
Plane_exposer.def(
"isNaN"
, isNaN_function_type( &::osg::Plane::isNaN ) );
}
{ //::osg::Plane::makeUnitLength
typedef void ( ::osg::Plane::*makeUnitLength_function_type)( ) ;
Plane_exposer.def(
"makeUnitLength"
, makeUnitLength_function_type( &::osg::Plane::makeUnitLength )
, "\n This method multiplies the coefficients of the plane equation with a constant factor so that the\n equation a^2+b^2+c^2 = 1 holds.\n" );
}
Plane_exposer.def( bp::self != bp::self );
Plane_exposer.def( bp::self < bp::self );
{ //::osg::Plane::operator=
typedef ::osg::Plane & ( ::osg::Plane::*assign_function_type)( ::osg::Plane const & ) ;
Plane_exposer.def(
"assign"
, assign_function_type( &::osg::Plane::operator= )
, ( bp::arg("pl") )
, bp::return_self< >() );
}
Plane_exposer.def( bp::self == bp::self );
{ //::osg::Plane::operator[]
typedef double & ( ::osg::Plane::*__getitem___function_type)( unsigned int ) ;
Plane_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Plane::operator[] )
, ( bp::arg("i") )
, bp::return_value_policy< bp::copy_non_const_reference >() );
}
{ //::osg::Plane::operator[]
typedef double ( ::osg::Plane::*__getitem___function_type)( unsigned int ) const;
Plane_exposer.def(
"__getitem__"
, __getitem___function_type( &::osg::Plane::operator[] )
, ( bp::arg("i") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Plane const & ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("pl") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( double,double,double,double ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("a"), bp::arg("b"), bp::arg("c"), bp::arg("d") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Vec4f const & ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("vec") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Vec4d const & ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("vec") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Vec3d const &,double ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("norm"), bp::arg("d") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Vec3d const &,::osg::Vec3d const &,::osg::Vec3d const & ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("v1"), bp::arg("v2"), bp::arg("v3") ) );
}
{ //::osg::Plane::set
typedef void ( ::osg::Plane::*set_function_type)( ::osg::Vec3d const &,::osg::Vec3d const & ) ;
Plane_exposer.def(
"set"
, set_function_type( &::osg::Plane::set )
, ( bp::arg("norm"), bp::arg("point") ) );
}
{ //::osg::Plane::transform
typedef void ( ::osg::Plane::*transform_function_type)( ::osg::Matrix const & ) ;
Plane_exposer.def(
"transform"
, transform_function_type( &::osg::Plane::transform )
, ( bp::arg("matrix") )
, "\n Transform the plane by matrix. Note, this operation carries out\n the calculation of the inverse of the matrix since a plane\n must be multiplied by the inverse transposed to transform it. This\n make this operation expensive. If the inverse has been already\n calculated elsewhere then use transformProvidingInverse() instead.\n See http://www.worldserver.com/turk/computergraphics/NormalTransformations.pdf\n" );
}
{ //::osg::Plane::transformProvidingInverse
typedef void ( ::osg::Plane::*transformProvidingInverse_function_type)( ::osg::Matrix const & ) ;
Plane_exposer.def(
"transformProvidingInverse"
, transformProvidingInverse_function_type( &::osg::Plane::transformProvidingInverse )
, ( bp::arg("matrix") )
, "\n Transform the plane by providing a pre inverted matrix.\n see transform for details.\n" );
}
{ //::osg::Plane::valid
typedef bool ( ::osg::Plane::*valid_function_type)( ) const;
Plane_exposer.def(
"valid"
, valid_function_type( &::osg::Plane::valid )
, "\n Checks if all internal values describing the plane have valid numbers\n Warning: This method does not check if the plane is mathematically correctly described!\n @remark The only case where all elements have valid numbers and the plane description is invalid occurs if the planes normal\n is zero.\n" );
}
Plane_exposer.def( bp::self_ns::str( bp::self ) );
}
}
