void register_CLJPotentialInterface_IntraSoftCLJPotential__class(){ { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > typedef bp::class_< SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >, boost::noncopyable > CLJPotentialInterface_IntraSoftCLJPotential__exposer_t; CLJPotentialInterface_IntraSoftCLJPotential__exposer_t CLJPotentialInterface_IntraSoftCLJPotential__exposer = CLJPotentialInterface_IntraSoftCLJPotential__exposer_t( "CLJPotentialInterface_IntraSoftCLJPotential_", "", bp::no_init ); bp::scope CLJPotentialInterface_IntraSoftCLJPotential__scope( CLJPotentialInterface_IntraSoftCLJPotential__exposer ); { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::combiningRules typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::QString const & ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*combiningRules_function_type)( ) const; combiningRules_function_type combiningRules_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::combiningRules ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "combiningRules" , combiningRules_function_value , bp::return_value_policy< bp::copy_const_reference >() , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::containsProperty typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*containsProperty_function_type)( ::QString const & ) const; containsProperty_function_type containsProperty_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::containsProperty ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "containsProperty" , containsProperty_function_value , ( bp::arg("name") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::parameters typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::SireMM::IntraSoftCLJPotential::ParameterNames ( *parameters_function_type )( ); parameters_function_type parameters_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::parameters ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "parameters" , parameters_function_value , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::properties typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::SireBase::Properties const & ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*properties_function_type)( ) const; properties_function_type properties_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::properties ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "properties" , properties_function_value , bp::return_value_policy< bp::copy_const_reference >() , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::property typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::SireBase::Property const & ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*property_function_type)( ::QString const & ) const; property_function_type property_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::property ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "property" , property_function_value , ( bp::arg("name") ) , bp::return_value_policy<bp::clone_const_reference>() , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::reactionFieldDielectric typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef double ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*reactionFieldDielectric_function_type)( ) const; reactionFieldDielectric_function_type reactionFieldDielectric_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::reactionFieldDielectric ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "reactionFieldDielectric" , reactionFieldDielectric_function_value , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setCombiningRules typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setCombiningRules_function_type)( ::QString const & ) ; setCombiningRules_function_type setCombiningRules_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setCombiningRules ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setCombiningRules" , setCombiningRules_function_value , ( bp::arg("combiningrules") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setProperty typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setProperty_function_type)( ::QString const &,::SireBase::Property const & ) ; setProperty_function_type setProperty_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setProperty ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setProperty" , setProperty_function_value , ( bp::arg("name"), bp::arg("value") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setReactionFieldDielectric typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setReactionFieldDielectric_function_type)( double ) ; setReactionFieldDielectric_function_type setReactionFieldDielectric_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setReactionFieldDielectric ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setReactionFieldDielectric" , setReactionFieldDielectric_function_value , ( bp::arg("dielectric") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setShiftElectrostatics typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setShiftElectrostatics_function_type)( bool ) ; setShiftElectrostatics_function_type setShiftElectrostatics_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setShiftElectrostatics ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setShiftElectrostatics" , setShiftElectrostatics_function_value , ( bp::arg("switchelectro") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setSpace typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setSpace_function_type)( ::SireVol::Space const & ) ; setSpace_function_type setSpace_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setSpace ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setSpace" , setSpace_function_value , ( bp::arg("new_space") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setSwitchingFunction typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setSwitchingFunction_function_type)( ::SireMM::SwitchingFunction const & ) ; setSwitchingFunction_function_type setSwitchingFunction_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setSwitchingFunction ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setSwitchingFunction" , setSwitchingFunction_function_value , ( bp::arg("new_switchfunc") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseAtomisticCutoff typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setUseAtomisticCutoff_function_type)( bool ) ; setUseAtomisticCutoff_function_type setUseAtomisticCutoff_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseAtomisticCutoff ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setUseAtomisticCutoff" , setUseAtomisticCutoff_function_value , ( bp::arg("switchatomistic") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseGroupCutoff typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setUseGroupCutoff_function_type)( bool ) ; setUseGroupCutoff_function_type setUseGroupCutoff_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseGroupCutoff ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setUseGroupCutoff" , setUseGroupCutoff_function_value , ( bp::arg("switchgroup") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseReactionField typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*setUseReactionField_function_type)( bool ) ; setUseReactionField_function_type setUseReactionField_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::setUseReactionField ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "setUseReactionField" , setUseReactionField_function_value , ( bp::arg("switchrf") ) , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::shiftElectrostatics typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*shiftElectrostatics_function_type)( ) const; shiftElectrostatics_function_type shiftElectrostatics_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::shiftElectrostatics ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "shiftElectrostatics" , shiftElectrostatics_function_value , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::space typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::SireVol::Space const & ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*space_function_type)( ) const; space_function_type space_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::space ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "space" , space_function_value , bp::return_value_policy<bp::clone_const_reference>() , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::switchingFunction typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef ::SireMM::SwitchingFunction const & ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*switchingFunction_function_type)( ) const; switchingFunction_function_type switchingFunction_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::switchingFunction ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "switchingFunction" , switchingFunction_function_value , bp::return_value_policy<bp::clone_const_reference>() , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useAtomisticCutoff typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*useAtomisticCutoff_function_type)( ) const; useAtomisticCutoff_function_type useAtomisticCutoff_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useAtomisticCutoff ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "useAtomisticCutoff" , useAtomisticCutoff_function_value , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useGroupCutoff typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*useGroupCutoff_function_type)( ) const; useGroupCutoff_function_type useGroupCutoff_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useGroupCutoff ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "useGroupCutoff" , useGroupCutoff_function_value , "" ); } { //::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useReactionField typedef SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential > exported_class_t; typedef bool ( ::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::*useReactionField_function_type)( ) const; useReactionField_function_type useReactionField_function_value( &::SireMM::CLJPotentialInterface< SireMM::IntraSoftCLJPotential >::useReactionField ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "useReactionField" , useReactionField_function_value , "" ); } CLJPotentialInterface_IntraSoftCLJPotential__exposer.staticmethod( "parameters" ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::CLJPotentialInterface<SireMM::IntraSoftCLJPotential> >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::CLJPotentialInterface<SireMM::IntraSoftCLJPotential> >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "__str__", &pvt_get_name); CLJPotentialInterface_IntraSoftCLJPotential__exposer.def( "__repr__", &pvt_get_name); } }
void register_GridFF_class(){ { //::SireMM::GridFF typedef bp::class_< SireMM::GridFF, bp::bases< SireFF::Inter2B2G3DFF<SireMM::CLJPotentialInterface<SireMM::InterCLJPotential> >, SireFF::FF3D, SireFF::Inter2B2GFF<SireMM::CLJPotentialInterface<SireMM::InterCLJPotential> >, SireMM::CLJPotentialInterface<SireMM::InterCLJPotential>, SireFF::G2FF, SireFF::FF, SireMol::MolGroupsBase, SireBase::Property > > GridFF_exposer_t; GridFF_exposer_t GridFF_exposer = GridFF_exposer_t( "GridFF", bp::init< >() ); bp::scope GridFF_scope( GridFF_exposer ); GridFF_exposer.def( bp::init< QString const & >(( bp::arg("name") )) ); GridFF_exposer.def( bp::init< SireMM::GridFF const & >(( bp::arg("other") )) ); { //::SireMM::GridFF::addFixedAtoms typedef void ( ::SireMM::GridFF::*addFixedAtoms_function_type )( ::SireMol::MoleculeView const &,::SireBase::PropertyMap const & ) ; addFixedAtoms_function_type addFixedAtoms_function_value( &::SireMM::GridFF::addFixedAtoms ); GridFF_exposer.def( "addFixedAtoms" , addFixedAtoms_function_value , ( bp::arg("fixed_atoms"), bp::arg("map")=SireBase::PropertyMap() ) ); } { //::SireMM::GridFF::addFixedAtoms typedef void ( ::SireMM::GridFF::*addFixedAtoms_function_type )( ::SireMol::Molecules const &,::SireBase::PropertyMap const & ) ; addFixedAtoms_function_type addFixedAtoms_function_value( &::SireMM::GridFF::addFixedAtoms ); GridFF_exposer.def( "addFixedAtoms" , addFixedAtoms_function_value , ( bp::arg("fixed_atoms"), bp::arg("map")=SireBase::PropertyMap() ) ); } { //::SireMM::GridFF::addFixedAtoms typedef void ( ::SireMM::GridFF::*addFixedAtoms_function_type )( ::SireMol::MoleculeGroup const &,::SireBase::PropertyMap const & ) ; addFixedAtoms_function_type addFixedAtoms_function_value( &::SireMM::GridFF::addFixedAtoms ); GridFF_exposer.def( "addFixedAtoms" , addFixedAtoms_function_value , ( bp::arg("fixed_atoms"), bp::arg("map")=SireBase::PropertyMap() ) ); } { //::SireMM::GridFF::addFixedAtoms typedef void ( ::SireMM::GridFF::*addFixedAtoms_function_type )( ::SireMM::GridFF const & ) ; addFixedAtoms_function_type addFixedAtoms_function_value( &::SireMM::GridFF::addFixedAtoms ); GridFF_exposer.def( "addFixedAtoms" , addFixedAtoms_function_value , ( bp::arg("other") ) ); } { //::SireMM::GridFF::buffer typedef ::SireUnits::Dimension::Length ( ::SireMM::GridFF::*buffer_function_type )( ) const; buffer_function_type buffer_function_value( &::SireMM::GridFF::buffer ); GridFF_exposer.def( "buffer" , buffer_function_value ); } { //::SireMM::GridFF::coulombCutoff typedef ::SireUnits::Dimension::Length ( ::SireMM::GridFF::*coulombCutoff_function_type )( ) const; coulombCutoff_function_type coulombCutoff_function_value( &::SireMM::GridFF::coulombCutoff ); GridFF_exposer.def( "coulombCutoff" , coulombCutoff_function_value ); } { //::SireMM::GridFF::ljCutoff typedef ::SireUnits::Dimension::Length ( ::SireMM::GridFF::*ljCutoff_function_type )( ) const; ljCutoff_function_type ljCutoff_function_value( &::SireMM::GridFF::ljCutoff ); GridFF_exposer.def( "ljCutoff" , ljCutoff_function_value ); } { //::SireMM::GridFF::mustNowRecalculateFromScratch typedef void ( ::SireMM::GridFF::*mustNowRecalculateFromScratch_function_type )( ) ; mustNowRecalculateFromScratch_function_type mustNowRecalculateFromScratch_function_value( &::SireMM::GridFF::mustNowRecalculateFromScratch ); GridFF_exposer.def( "mustNowRecalculateFromScratch" , mustNowRecalculateFromScratch_function_value ); } GridFF_exposer.def( bp::self != bp::self ); { //::SireMM::GridFF::operator= typedef ::SireMM::GridFF & ( ::SireMM::GridFF::*assign_function_type )( ::SireMM::GridFF const & ) ; assign_function_type assign_function_value( &::SireMM::GridFF::operator= ); GridFF_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } GridFF_exposer.def( bp::self == bp::self ); { //::SireMM::GridFF::setBuffer typedef void ( ::SireMM::GridFF::*setBuffer_function_type )( ::SireUnits::Dimension::Length ) ; setBuffer_function_type setBuffer_function_value( &::SireMM::GridFF::setBuffer ); GridFF_exposer.def( "setBuffer" , setBuffer_function_value , ( bp::arg("buffer") ) ); } { //::SireMM::GridFF::setCoulombCutoff typedef void ( ::SireMM::GridFF::*setCoulombCutoff_function_type )( ::SireUnits::Dimension::Length ) ; setCoulombCutoff_function_type setCoulombCutoff_function_value( &::SireMM::GridFF::setCoulombCutoff ); GridFF_exposer.def( "setCoulombCutoff" , setCoulombCutoff_function_value , ( bp::arg("cutoff") ) ); } { //::SireMM::GridFF::setGridSpacing typedef void ( ::SireMM::GridFF::*setGridSpacing_function_type )( ::SireUnits::Dimension::Length ) ; setGridSpacing_function_type setGridSpacing_function_value( &::SireMM::GridFF::setGridSpacing ); GridFF_exposer.def( "setGridSpacing" , setGridSpacing_function_value , ( bp::arg("spacing") ) ); } { //::SireMM::GridFF::setLJCutoff typedef void ( ::SireMM::GridFF::*setLJCutoff_function_type )( ::SireUnits::Dimension::Length ) ; setLJCutoff_function_type setLJCutoff_function_value( &::SireMM::GridFF::setLJCutoff ); GridFF_exposer.def( "setLJCutoff" , setLJCutoff_function_value , ( bp::arg("cutoff") ) ); } { //::SireMM::GridFF::setReactionFieldDielectric typedef bool ( ::SireMM::GridFF::*setReactionFieldDielectric_function_type )( double ) ; setReactionFieldDielectric_function_type setReactionFieldDielectric_function_value( &::SireMM::GridFF::setReactionFieldDielectric ); GridFF_exposer.def( "setReactionFieldDielectric" , setReactionFieldDielectric_function_value , ( bp::arg("dielectric") ) ); } { //::SireMM::GridFF::setShiftElectrostatics typedef bool ( ::SireMM::GridFF::*setShiftElectrostatics_function_type )( bool ) ; setShiftElectrostatics_function_type setShiftElectrostatics_function_value( &::SireMM::GridFF::setShiftElectrostatics ); GridFF_exposer.def( "setShiftElectrostatics" , setShiftElectrostatics_function_value , ( bp::arg("on") ) ); } { //::SireMM::GridFF::setUseReactionField typedef bool ( ::SireMM::GridFF::*setUseReactionField_function_type )( bool ) ; setUseReactionField_function_type setUseReactionField_function_value( &::SireMM::GridFF::setUseReactionField ); GridFF_exposer.def( "setUseReactionField" , setUseReactionField_function_value , ( bp::arg("on") ) ); } { //::SireMM::GridFF::spacing typedef ::SireUnits::Dimension::Length ( ::SireMM::GridFF::*spacing_function_type )( ) const; spacing_function_type spacing_function_value( &::SireMM::GridFF::spacing ); GridFF_exposer.def( "spacing" , spacing_function_value ); } { //::SireMM::GridFF::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireMM::GridFF::typeName ); GridFF_exposer.def( "typeName" , typeName_function_value ); } { //::SireMM::GridFF::what typedef char const * ( ::SireMM::GridFF::*what_function_type )( ) const; what_function_type what_function_value( &::SireMM::GridFF::what ); GridFF_exposer.def( "what" , what_function_value ); } GridFF_exposer.staticmethod( "typeName" ); GridFF_exposer.def( "__copy__", &__copy__); GridFF_exposer.def( "__deepcopy__", &__copy__); GridFF_exposer.def( "clone", &__copy__); GridFF_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::GridFF >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); GridFF_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::GridFF >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); GridFF_exposer.def( "__str__", &__str__< ::SireMM::GridFF > ); GridFF_exposer.def( "__repr__", &__str__< ::SireMM::GridFF > ); GridFF_exposer.def( "__len__", &__len_count< ::SireMM::GridFF > ); } }