void register_ExBase_class(){ { //::SireCAS::ExBase typedef bp::class_< SireCAS::ExBase, boost::noncopyable > ExBase_exposer_t; ExBase_exposer_t ExBase_exposer = ExBase_exposer_t( "ExBase", "\nPure-virtual base class of all of the parts of mathematical expressions.\n\nThis class provides the atom of SireCAS. ExBase objects are combined together\nto form complete expressions. All constants, functions and symbols are derived\nfrom this object.\n\nThis class is an example of an implicitly shared, self-managed object, and\nis designed so that it can be held by SharedPolyPointer (indeed,\nExpressionBase is just a proxy for SharedPolyPointer<ExBase>).\n\nAuthor: Christopher Woods\n", bp::no_init ); bp::scope ExBase_scope( ExBase_exposer ); { //::SireCAS::ExBase::children typedef ::SireCAS::Expressions ( ::SireCAS::ExBase::*children_function_type)( ) const; children_function_type children_function_value( &::SireCAS::ExBase::children ); ExBase_exposer.def( "children" , children_function_value , "Return the child expressions of this Expression" ); } { //::SireCAS::ExBase::conjugate typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*conjugate_function_type)( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::ExBase::conjugate ); ExBase_exposer.def( "conjugate" , conjugate_function_value , "Return the complex conjugate of this expression" ); } { //::SireCAS::ExBase::differentiate typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*differentiate_function_type)( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::ExBase::differentiate ); ExBase_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) , "Return an expression that the differential of this ExBase\nwith respect to symbol. Note an exception may\nbe thrown if this ExBase cannot be differentiated.\nThrow: SireCAS::unavailable_differential\n" ); } { //::SireCAS::ExBase::evaluate typedef double ( ::SireCAS::ExBase::*evaluate_function_type)( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::ExBase::evaluate ); ExBase_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) , "Evaluate this ExBase using values values. Any\nmissing symbols are assumed to equal zero.\n\nNote that an exception will be thrown if the result of the\nevaluation of this, or one of its children, is complex.\n\nThrow: SireMaths::domain_error\n" ); } { //::SireCAS::ExBase::evaluate typedef ::SireMaths::Complex ( ::SireCAS::ExBase::*evaluate_function_type)( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::ExBase::evaluate ); ExBase_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) , "Evaluate this ExBase using the complex values values.\nAny missing symbols are assumed to equal zero." ); } { //::SireCAS::ExBase::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::ExBase::*expand_function_type)( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::ExBase::expand ); ExBase_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) , "Rearrange this expression into the form\nm x^i + n x^j + ... + constant\nand return the factors and powers of x\n\nThrow: SireCAS::rearrangement_error\n" ); } { //::SireCAS::ExBase::functions typedef ::SireCAS::Functions ( ::SireCAS::ExBase::*functions_function_type)( ) const; functions_function_type functions_function_value( &::SireCAS::ExBase::functions ); ExBase_exposer.def( "functions" , functions_function_value , "Return the set of Functions that appear in this ExBase" ); } { //::SireCAS::ExBase::hash typedef ::uint ( ::SireCAS::ExBase::*hash_function_type)( ) const; hash_function_type hash_function_value( &::SireCAS::ExBase::hash ); ExBase_exposer.def( "hash" , hash_function_value , "Return a hash of this object - return a combination of the\nidentifying magic for the class and a hash for its contents." ); } { //::SireCAS::ExBase::integrate typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*integrate_function_type)( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::ExBase::integrate ); ExBase_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) , "Return the indefinite integral of this ExBase with respect to\nsymbol. This is not guaranteed to work() and will return an\nexpression of the form Sum( integral(exbase) + integral_constant ).\nIf it doesnt work then an exception will be throw.\nThrow: SireCAS::unavailable_integral\n" ); } { //::SireCAS::ExBase::isComplex typedef bool ( ::SireCAS::ExBase::*isComplex_function_type)( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::ExBase::isComplex ); ExBase_exposer.def( "isComplex" , isComplex_function_value , "Return whether or not this expression contains any complex (imaginary)\nparts" ); } { //::SireCAS::ExBase::isCompound typedef bool ( ::SireCAS::ExBase::*isCompound_function_type)( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::ExBase::isCompound ); ExBase_exposer.def( "isCompound" , isCompound_function_value , "Return whether or not this is a compound expression, and thus as such\nrequires brackets placed around it when it is printed. Examples include\nSum, Product and Power. For most other functions it is safe to leave\nthis as false." ); } { //::SireCAS::ExBase::isConstant typedef bool ( ::SireCAS::ExBase::*isConstant_function_type)( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::ExBase::isConstant ); ExBase_exposer.def( "isConstant" , isConstant_function_value , "Return whether or not this is a constant expression (does not\ndepend on any symbols)" ); } { //::SireCAS::ExBase::isFunction typedef bool ( ::SireCAS::ExBase::*isFunction_function_type)( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::ExBase::isFunction ); ExBase_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) , "Return whether or not this is a function of the passed Symbol" ); } ExBase_exposer.def( bp::self != bp::self ); ExBase_exposer.def( -bp::self ); { //::SireCAS::ExBase::operator= typedef ::SireCAS::ExBase & ( ::SireCAS::ExBase::*assign_function_type)( ::SireCAS::ExBase const & ) ; assign_function_type assign_function_value( &::SireCAS::ExBase::operator= ); ExBase_exposer.def( "assign" , assign_function_value , ( bp::arg("arg0") ) , bp::return_self< >() , "Assignment operator" ); } ExBase_exposer.def( bp::self == bp::self ); { //::SireCAS::ExBase::series typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*series_function_type)( ::SireCAS::Symbol const &,int ) const; series_function_type series_function_value( &::SireCAS::ExBase::series ); ExBase_exposer.def( "series" , series_function_value , ( bp::arg("symbol"), bp::arg("n") ) , "Return a series expansion of this expression with respect to\nsymbol, if possible, to order\nn. This is not guaranteed to work, and will return this expression\nunchanged if it doesnt work. If it is expanded, then a series\nwill be returned, together with an estimate of the error (e.g. O(x^2))" ); } { //::SireCAS::ExBase::simplify typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*simplify_function_type)( int ) const; simplify_function_type simplify_function_value( &::SireCAS::ExBase::simplify ); ExBase_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) , "Try to simplify this expression. This will try to use known mathematical\nidentities to convert complex expressions down to more simple ones.\nIf SireCAS::UNSAFE_COMPLEX_SIMPLIFICATIONS is true, then identities\nthat are not safe for complex math are used, e.g. z = sin(arcsin(z))." ); } { //::SireCAS::ExBase::substitute typedef ::SireCAS::Expression ( ::SireCAS::ExBase::*substitute_function_type)( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::ExBase::substitute ); ExBase_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) , "Return an expression that has the identities in identities\nsubstituted into this expression" ); } { //::SireCAS::ExBase::symbols typedef ::SireCAS::Symbols ( ::SireCAS::ExBase::*symbols_function_type)( ) const; symbols_function_type symbols_function_value( &::SireCAS::ExBase::symbols ); ExBase_exposer.def( "symbols" , symbols_function_value , "Return the set of Symbols that appear in this ExBase" ); } { //::SireCAS::ExBase::toOpenMMString typedef ::QString ( ::SireCAS::ExBase::*toOpenMMString_function_type)( ) const; toOpenMMString_function_type toOpenMMString_function_value( &::SireCAS::ExBase::toOpenMMString ); ExBase_exposer.def( "toOpenMMString" , toOpenMMString_function_value , "Return a string representation of this object in the OpenMM syntax" ); } { //::SireCAS::ExBase::toString typedef ::QString ( ::SireCAS::ExBase::*toString_function_type)( ) const; toString_function_type toString_function_value( &::SireCAS::ExBase::toString ); ExBase_exposer.def( "toString" , toString_function_value , "Return a string representation of this object" ); } { //::SireCAS::ExBase::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::ExBase::typeName ); ExBase_exposer.def( "typeName" , typeName_function_value , "Return the name of this class type" ); } { //::SireCAS::ExBase::what typedef char const * ( ::SireCAS::ExBase::*what_function_type)( ) const; what_function_type what_function_value( &::SireCAS::ExBase::what ); ExBase_exposer.def( "what" , what_function_value , "Return the name of the type of this ExBase object" ); } ExBase_exposer.staticmethod( "typeName" ); ExBase_exposer.def( bp::self * bp::self ); ExBase_exposer.def( bp::self * bp::other< SireCAS::Expression >() ); ExBase_exposer.def( bp::self * bp::other< double >() ); ExBase_exposer.def( bp::other< double >() * bp::self ); ExBase_exposer.def( bp::self * bp::other< SireMaths::Complex >() ); ExBase_exposer.def( bp::self + bp::self ); ExBase_exposer.def( bp::self + bp::other< SireCAS::Expression >() ); ExBase_exposer.def( bp::self + bp::other< double >() ); ExBase_exposer.def( bp::other< double >() + bp::self ); ExBase_exposer.def( bp::self + bp::other< SireMaths::Complex >() ); ExBase_exposer.def( bp::self - bp::self ); ExBase_exposer.def( bp::self - bp::other< SireCAS::Expression >() ); ExBase_exposer.def( bp::self - bp::other< double >() ); ExBase_exposer.def( bp::other< double >() - bp::self ); ExBase_exposer.def( bp::self - bp::other< SireMaths::Complex >() ); ExBase_exposer.def( bp::self / bp::self ); ExBase_exposer.def( bp::self / bp::other< SireCAS::Expression >() ); ExBase_exposer.def( bp::self / bp::other< double >() ); ExBase_exposer.def( bp::other< double >() / bp::self ); ExBase_exposer.def( bp::self / bp::other< SireMaths::Complex >() ); ExBase_exposer.def( self + self ); ExBase_exposer.def( self - self ); ExBase_exposer.def( self * self ); ExBase_exposer.def( self / self ); ExBase_exposer.def( other<double>() + self ); ExBase_exposer.def( other<double>() - self ); ExBase_exposer.def( other<double>() * self ); ExBase_exposer.def( other<double>() / self ); ExBase_exposer.def( self + other<double>() ); ExBase_exposer.def( self - other<double>() ); ExBase_exposer.def( self * other<double>() ); ExBase_exposer.def( self / other<double>() ); ExBase_exposer.def( other<SireMaths::Complex>() + self ); ExBase_exposer.def( other<SireMaths::Complex>() - self ); ExBase_exposer.def( other<SireMaths::Complex>() * self ); ExBase_exposer.def( other<SireMaths::Complex>() / self ); ExBase_exposer.def( self + other<SireMaths::Complex>() ); ExBase_exposer.def( self - other<SireMaths::Complex>() ); ExBase_exposer.def( self * other<SireMaths::Complex>() ); ExBase_exposer.def( self / other<SireMaths::Complex>() ); ExBase_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::ExBase >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); ExBase_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::ExBase >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); ExBase_exposer.def( "__str__", &__str__< ::SireCAS::ExBase > ); ExBase_exposer.def( "__repr__", &__str__< ::SireCAS::ExBase > ); ExBase_exposer.def( "__hash__", &::SireCAS::ExBase::hash ); } }
void register_DihedralRestraint_class(){ { //::SireMM::DihedralRestraint typedef bp::class_< SireMM::DihedralRestraint, bp::bases< SireMM::Restraint3D, SireMM::Restraint, SireBase::Property > > DihedralRestraint_exposer_t; DihedralRestraint_exposer_t DihedralRestraint_exposer = DihedralRestraint_exposer_t( "DihedralRestraint", "This is a restraint that operates on the dihedral angle between\nfour SireMM::Point objects (e.g. four atoms in a molecule)\n\nAuthor: Christopher Woods\n", bp::init< >("Constructor") ); bp::scope DihedralRestraint_scope( DihedralRestraint_exposer ); DihedralRestraint_exposer.def( bp::init< SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireCAS::Expression const & >(( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("restraint") ), "Construct a restraint that acts on the angle within the\nthree points point0, point1 and point2 (theta == a(012)),\nrestraining the angle within these points using the expression\nrestraint") ); DihedralRestraint_exposer.def( bp::init< SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireCAS::Expression const &, SireCAS::Values const & >(( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("restraint"), bp::arg("values") ), "Construct a restraint that acts on the angle within the\nthree points point0, point1 and point2 (theta == a(012)),\nrestraining the angle within these points using the expression\nrestraint") ); DihedralRestraint_exposer.def( bp::init< SireMM::DihedralRestraint const & >(( bp::arg("other") ), "Copy constructor") ); { //::SireMM::DihedralRestraint::builtinSymbols typedef ::SireCAS::Symbols ( ::SireMM::DihedralRestraint::*builtinSymbols_function_type)( ) const; builtinSymbols_function_type builtinSymbols_function_value( &::SireMM::DihedralRestraint::builtinSymbols ); DihedralRestraint_exposer.def( "builtinSymbols" , builtinSymbols_function_value , "Return the built-in symbols for this restraint" ); } { //::SireMM::DihedralRestraint::builtinValues typedef ::SireCAS::Values ( ::SireMM::DihedralRestraint::*builtinValues_function_type)( ) const; builtinValues_function_type builtinValues_function_value( &::SireMM::DihedralRestraint::builtinValues ); DihedralRestraint_exposer.def( "builtinValues" , builtinValues_function_value , "Return the values of the built-in symbols of this restraint" ); } { //::SireMM::DihedralRestraint::contains typedef bool ( ::SireMM::DihedralRestraint::*contains_function_type)( ::SireMol::MolNum ) const; contains_function_type contains_function_value( &::SireMM::DihedralRestraint::contains ); DihedralRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molnum") ) , "Return whether or not this restraint affects the molecule\nwith number molnum" ); } { //::SireMM::DihedralRestraint::contains typedef bool ( ::SireMM::DihedralRestraint::*contains_function_type)( ::SireMol::MolID const & ) const; contains_function_type contains_function_value( &::SireMM::DihedralRestraint::contains ); DihedralRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molid") ) , "Return whether or not this restraint affects the molecule\nwith ID molid" ); } { //::SireMM::DihedralRestraint::differentialRestraintFunction typedef ::SireCAS::Expression const & ( ::SireMM::DihedralRestraint::*differentialRestraintFunction_function_type)( ) const; differentialRestraintFunction_function_type differentialRestraintFunction_function_value( &::SireMM::DihedralRestraint::differentialRestraintFunction ); DihedralRestraint_exposer.def( "differentialRestraintFunction" , differentialRestraintFunction_function_value , bp::return_value_policy< bp::copy_const_reference >() , "Return the function used to calculate the restraint force" ); } { //::SireMM::DihedralRestraint::differentiate typedef ::SireMM::RestraintPtr ( ::SireMM::DihedralRestraint::*differentiate_function_type)( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireMM::DihedralRestraint::differentiate ); DihedralRestraint_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) , "Return the differential of this restraint with respect to\nthe symbol symbol\nThrow: SireCAS::unavailable_differential\n" ); } { //::SireMM::DihedralRestraint::force typedef void ( ::SireMM::DihedralRestraint::*force_function_type)( ::SireFF::MolForceTable &,double ) const; force_function_type force_function_value( &::SireMM::DihedralRestraint::force ); DihedralRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) , "Calculate the force acting on the molecule in the forcetable forcetable\ncaused by this restraint, and add it on to the forcetable scaled by\nscale_force" ); } { //::SireMM::DihedralRestraint::force typedef void ( ::SireMM::DihedralRestraint::*force_function_type)( ::SireFF::ForceTable &,double ) const; force_function_type force_function_value( &::SireMM::DihedralRestraint::force ); DihedralRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) , "Calculate the force acting on the molecules in the forcetable forcetable\ncaused by this restraint, and add it on to the forcetable scaled by\nscale_force" ); } { //::SireMM::DihedralRestraint::halfHarmonic typedef ::SireMM::DihedralRestraint ( *halfHarmonic_function_type )( ::SireFF::PointRef const &,::SireFF::PointRef const &,::SireFF::PointRef const &,::SireFF::PointRef const &,::SireUnits::Dimension::Angle const &,::SireMM::HarmonicAngleForceConstant const & ); halfHarmonic_function_type halfHarmonic_function_value( &::SireMM::DihedralRestraint::halfHarmonic ); DihedralRestraint_exposer.def( "halfHarmonic" , halfHarmonic_function_value , ( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("angle"), bp::arg("force_constant") ) , "Return a distance restraint that applied a half-harmonic potential\nbetween the points point0 and point1 above a distance distance\nusing a force constant force_constant" ); } { //::SireMM::DihedralRestraint::harmonic typedef ::SireMM::DihedralRestraint ( *harmonic_function_type )( ::SireFF::PointRef const &,::SireFF::PointRef const &,::SireFF::PointRef const &,::SireFF::PointRef const &,::SireMM::HarmonicAngleForceConstant const & ); harmonic_function_type harmonic_function_value( &::SireMM::DihedralRestraint::harmonic ); DihedralRestraint_exposer.def( "harmonic" , harmonic_function_value , ( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("force_constant") ) , "Return a distance restraint that applies a harmonic potential between\nthe points point0 and point1 using a force constant force_constant" ); } { //::SireMM::DihedralRestraint::molecules typedef ::SireMol::Molecules ( ::SireMM::DihedralRestraint::*molecules_function_type)( ) const; molecules_function_type molecules_function_value( &::SireMM::DihedralRestraint::molecules ); DihedralRestraint_exposer.def( "molecules" , molecules_function_value , "Return the molecules used in this restraint" ); } { //::SireMM::DihedralRestraint::nPoints typedef int ( ::SireMM::DihedralRestraint::*nPoints_function_type)( ) const; nPoints_function_type nPoints_function_value( &::SireMM::DihedralRestraint::nPoints ); DihedralRestraint_exposer.def( "nPoints" , nPoints_function_value , "This restraint involves four points" ); } DihedralRestraint_exposer.def( bp::self != bp::self ); { //::SireMM::DihedralRestraint::operator= typedef ::SireMM::DihedralRestraint & ( ::SireMM::DihedralRestraint::*assign_function_type)( ::SireMM::DihedralRestraint const & ) ; assign_function_type assign_function_value( &::SireMM::DihedralRestraint::operator= ); DihedralRestraint_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() , "" ); } DihedralRestraint_exposer.def( bp::self == bp::self ); { //::SireMM::DihedralRestraint::phi typedef ::SireCAS::Symbol const & ( *phi_function_type )( ); phi_function_type phi_function_value( &::SireMM::DihedralRestraint::phi ); DihedralRestraint_exposer.def( "phi" , phi_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the symbol that represents the dihedral angle between the points (phi)" ); } { //::SireMM::DihedralRestraint::point typedef ::SireFF::Point const & ( ::SireMM::DihedralRestraint::*point_function_type)( int ) const; point_function_type point_function_value( &::SireMM::DihedralRestraint::point ); DihedralRestraint_exposer.def( "point" , point_function_value , ( bp::arg("i") ) , bp::return_value_policy<bp::clone_const_reference>() , "Return the ith point" ); } { //::SireMM::DihedralRestraint::point0 typedef ::SireFF::Point const & ( ::SireMM::DihedralRestraint::*point0_function_type)( ) const; point0_function_type point0_function_value( &::SireMM::DihedralRestraint::point0 ); DihedralRestraint_exposer.def( "point0" , point0_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the first point" ); } { //::SireMM::DihedralRestraint::point1 typedef ::SireFF::Point const & ( ::SireMM::DihedralRestraint::*point1_function_type)( ) const; point1_function_type point1_function_value( &::SireMM::DihedralRestraint::point1 ); DihedralRestraint_exposer.def( "point1" , point1_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the second point" ); } { //::SireMM::DihedralRestraint::point2 typedef ::SireFF::Point const & ( ::SireMM::DihedralRestraint::*point2_function_type)( ) const; point2_function_type point2_function_value( &::SireMM::DihedralRestraint::point2 ); DihedralRestraint_exposer.def( "point2" , point2_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the third point" ); } { //::SireMM::DihedralRestraint::point3 typedef ::SireFF::Point const & ( ::SireMM::DihedralRestraint::*point3_function_type)( ) const; point3_function_type point3_function_value( &::SireMM::DihedralRestraint::point3 ); DihedralRestraint_exposer.def( "point3" , point3_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the fourth point" ); } { //::SireMM::DihedralRestraint::setSpace typedef void ( ::SireMM::DihedralRestraint::*setSpace_function_type)( ::SireVol::Space const & ) ; setSpace_function_type setSpace_function_value( &::SireMM::DihedralRestraint::setSpace ); DihedralRestraint_exposer.def( "setSpace" , setSpace_function_value , ( bp::arg("space") ) , "Set the space used to evaluate the energy of this restraint\nThrow: SireVol::incompatible_space\n" ); } { //::SireMM::DihedralRestraint::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireMM::DihedralRestraint::typeName ); DihedralRestraint_exposer.def( "typeName" , typeName_function_value , "" ); } { //::SireMM::DihedralRestraint::update typedef void ( ::SireMM::DihedralRestraint::*update_function_type)( ::SireMol::MoleculeData const & ) ; update_function_type update_function_value( &::SireMM::DihedralRestraint::update ); DihedralRestraint_exposer.def( "update" , update_function_value , ( bp::arg("moldata") ) , "Update the points of this restraint using new molecule data from moldata\nThrow: SireBase::missing_property\nThrow: SireError::invalid_cast\nThrow: SireError::incompatible_error\n" ); } { //::SireMM::DihedralRestraint::update typedef void ( ::SireMM::DihedralRestraint::*update_function_type)( ::SireMol::Molecules const & ) ; update_function_type update_function_value( &::SireMM::DihedralRestraint::update ); DihedralRestraint_exposer.def( "update" , update_function_value , ( bp::arg("molecules") ) , "Update the points of this restraint using new molecule data from molecules\nThrow: SireBase::missing_property\nThrow: SireError::invalid_cast\nThrow: SireError::incompatible_error\n" ); } { //::SireMM::DihedralRestraint::usesMoleculesIn typedef bool ( ::SireMM::DihedralRestraint::*usesMoleculesIn_function_type)( ::SireFF::ForceTable const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::DihedralRestraint::usesMoleculesIn ); DihedralRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("forcetable") ) , "Return whether or not this restraint involves any of the molecules\nthat are in the forcetable forcetable" ); } { //::SireMM::DihedralRestraint::usesMoleculesIn typedef bool ( ::SireMM::DihedralRestraint::*usesMoleculesIn_function_type)( ::SireMol::Molecules const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::DihedralRestraint::usesMoleculesIn ); DihedralRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("molecules") ) , "Return whether or not this restraint involves any of the molecules\nin molecules" ); } DihedralRestraint_exposer.staticmethod( "halfHarmonic" ); DihedralRestraint_exposer.staticmethod( "harmonic" ); DihedralRestraint_exposer.staticmethod( "phi" ); DihedralRestraint_exposer.staticmethod( "typeName" ); DihedralRestraint_exposer.def( "__copy__", &__copy__); DihedralRestraint_exposer.def( "__deepcopy__", &__copy__); DihedralRestraint_exposer.def( "clone", &__copy__); DihedralRestraint_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::DihedralRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DihedralRestraint_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::DihedralRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DihedralRestraint_exposer.def( "__str__", &__str__< ::SireMM::DihedralRestraint > ); DihedralRestraint_exposer.def( "__repr__", &__str__< ::SireMM::DihedralRestraint > ); } }
void register_Expression_class(){ { //::SireCAS::Expression typedef bp::class_< SireCAS::Expression > Expression_exposer_t; Expression_exposer_t Expression_exposer = Expression_exposer_t( "Expression", bp::init< >() ); bp::scope Expression_scope( Expression_exposer ); Expression_exposer.def( bp::init< int >(( bp::arg("constant") )) ); Expression_exposer.def( bp::init< SireMaths::Rational const & >(( bp::arg("constant") )) ); Expression_exposer.def( bp::init< double >(( bp::arg("constant") )) ); Expression_exposer.def( bp::init< SireMaths::Complex const & >(( bp::arg("constant") )) ); Expression_exposer.def( bp::init< SireCAS::ExpressionBase const & >(( bp::arg("base") )) ); Expression_exposer.def( bp::init< SireCAS::ExBase const & >(( bp::arg("base") )) ); Expression_exposer.def( bp::init< SireCAS::Expression const & >(( bp::arg("other") )) ); { //::SireCAS::Expression::add typedef ::SireCAS::Expression ( ::SireCAS::Expression::*add_function_type )( ::SireCAS::Expression const & ) const; add_function_type add_function_value( &::SireCAS::Expression::add ); Expression_exposer.def( "add" , add_function_value , ( bp::arg("ex") ) ); } { //::SireCAS::Expression::add typedef ::SireCAS::Expression ( ::SireCAS::Expression::*add_function_type )( double ) const; add_function_type add_function_value( &::SireCAS::Expression::add ); Expression_exposer.def( "add" , add_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::add typedef ::SireCAS::Expression ( ::SireCAS::Expression::*add_function_type )( ::SireMaths::Complex const & ) const; add_function_type add_function_value( &::SireCAS::Expression::add ); Expression_exposer.def( "add" , add_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::base typedef ::SireCAS::ExpressionBase const & ( ::SireCAS::Expression::*base_function_type )( ) const; base_function_type base_function_value( &::SireCAS::Expression::base ); Expression_exposer.def( "base" , base_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireCAS::Expression::children typedef ::SireCAS::Expressions ( ::SireCAS::Expression::*children_function_type )( ) const; children_function_type children_function_value( &::SireCAS::Expression::children ); Expression_exposer.def( "children" , children_function_value ); } { //::SireCAS::Expression::conjugate typedef ::SireCAS::Expression ( ::SireCAS::Expression::*conjugate_function_type )( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::Expression::conjugate ); Expression_exposer.def( "conjugate" , conjugate_function_value ); } { //::SireCAS::Expression::cubed typedef ::SireCAS::Expression ( ::SireCAS::Expression::*cubed_function_type )( ) const; cubed_function_type cubed_function_value( &::SireCAS::Expression::cubed ); Expression_exposer.def( "cubed" , cubed_function_value ); } { //::SireCAS::Expression::diff typedef ::SireCAS::Expression ( ::SireCAS::Expression::*diff_function_type )( ::SireCAS::Symbol const &,int ) const; diff_function_type diff_function_value( &::SireCAS::Expression::diff ); Expression_exposer.def( "diff" , diff_function_value , ( bp::arg("symbol"), bp::arg("level")=(int)(1) ) ); } { //::SireCAS::Expression::differentiate typedef ::SireCAS::Expression ( ::SireCAS::Expression::*differentiate_function_type )( ::SireCAS::Symbol const &,int ) const; differentiate_function_type differentiate_function_value( &::SireCAS::Expression::differentiate ); Expression_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol"), bp::arg("level")=(int)(1) ) ); } { //::SireCAS::Expression::divide typedef ::SireCAS::Expression ( ::SireCAS::Expression::*divide_function_type )( ::SireCAS::Expression const & ) const; divide_function_type divide_function_value( &::SireCAS::Expression::divide ); Expression_exposer.def( "divide" , divide_function_value , ( bp::arg("ex") ) ); } { //::SireCAS::Expression::divide typedef ::SireCAS::Expression ( ::SireCAS::Expression::*divide_function_type )( double ) const; divide_function_type divide_function_value( &::SireCAS::Expression::divide ); Expression_exposer.def( "divide" , divide_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::divide typedef ::SireCAS::Expression ( ::SireCAS::Expression::*divide_function_type )( ::SireMaths::Complex const & ) const; divide_function_type divide_function_value( &::SireCAS::Expression::divide ); Expression_exposer.def( "divide" , divide_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::evaluate typedef double ( ::SireCAS::Expression::*evaluate_function_type )( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Expression::evaluate ); Expression_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Expression::evaluate typedef ::SireMaths::Complex ( ::SireCAS::Expression::*evaluate_function_type )( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Expression::evaluate ); Expression_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Expression::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::Expression::*expand_function_type )( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::Expression::expand ); Expression_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Expression::factor typedef double ( ::SireCAS::Expression::*factor_function_type )( ) const; factor_function_type factor_function_value( &::SireCAS::Expression::factor ); Expression_exposer.def( "factor" , factor_function_value ); } { //::SireCAS::Expression::functions typedef ::SireCAS::Functions ( ::SireCAS::Expression::*functions_function_type )( ) const; functions_function_type functions_function_value( &::SireCAS::Expression::functions ); Expression_exposer.def( "functions" , functions_function_value ); } { //::SireCAS::Expression::hash typedef ::uint ( ::SireCAS::Expression::*hash_function_type )( ) const; hash_function_type hash_function_value( &::SireCAS::Expression::hash ); Expression_exposer.def( "hash" , hash_function_value ); } { //::SireCAS::Expression::integ typedef ::SireCAS::Expression ( ::SireCAS::Expression::*integ_function_type )( ::SireCAS::Symbol const & ) const; integ_function_type integ_function_value( &::SireCAS::Expression::integ ); Expression_exposer.def( "integ" , integ_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Expression::integrate typedef ::SireCAS::Expression ( ::SireCAS::Expression::*integrate_function_type )( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::Expression::integrate ); Expression_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Expression::invert typedef ::SireCAS::Expression ( ::SireCAS::Expression::*invert_function_type )( ) const; invert_function_type invert_function_value( &::SireCAS::Expression::invert ); Expression_exposer.def( "invert" , invert_function_value ); } { //::SireCAS::Expression::isComplex typedef bool ( ::SireCAS::Expression::*isComplex_function_type )( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::Expression::isComplex ); Expression_exposer.def( "isComplex" , isComplex_function_value ); } { //::SireCAS::Expression::isCompound typedef bool ( ::SireCAS::Expression::*isCompound_function_type )( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::Expression::isCompound ); Expression_exposer.def( "isCompound" , isCompound_function_value ); } { //::SireCAS::Expression::isConstant typedef bool ( ::SireCAS::Expression::*isConstant_function_type )( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::Expression::isConstant ); Expression_exposer.def( "isConstant" , isConstant_function_value ); } { //::SireCAS::Expression::isFunction typedef bool ( ::SireCAS::Expression::*isFunction_function_type )( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::Expression::isFunction ); Expression_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Expression::isZero typedef bool ( ::SireCAS::Expression::*isZero_function_type )( ) const; isZero_function_type isZero_function_value( &::SireCAS::Expression::isZero ); Expression_exposer.def( "isZero" , isZero_function_value ); } { //::SireCAS::Expression::multiply typedef ::SireCAS::Expression ( ::SireCAS::Expression::*multiply_function_type )( ::SireCAS::Expression const & ) const; multiply_function_type multiply_function_value( &::SireCAS::Expression::multiply ); Expression_exposer.def( "multiply" , multiply_function_value , ( bp::arg("ex") ) ); } { //::SireCAS::Expression::multiply typedef ::SireCAS::Expression ( ::SireCAS::Expression::*multiply_function_type )( double ) const; multiply_function_type multiply_function_value( &::SireCAS::Expression::multiply ); Expression_exposer.def( "multiply" , multiply_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::multiply typedef ::SireCAS::Expression ( ::SireCAS::Expression::*multiply_function_type )( ::SireMaths::Complex const & ) const; multiply_function_type multiply_function_value( &::SireCAS::Expression::multiply ); Expression_exposer.def( "multiply" , multiply_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::negate typedef ::SireCAS::Expression ( ::SireCAS::Expression::*negate_function_type )( ) const; negate_function_type negate_function_value( &::SireCAS::Expression::negate ); Expression_exposer.def( "negate" , negate_function_value ); } Expression_exposer.def( bp::self != bp::self ); { //::SireCAS::Expression::operator() typedef double ( ::SireCAS::Expression::*__call___function_type )( ::SireCAS::Values const & ) const; __call___function_type __call___function_value( &::SireCAS::Expression::operator() ); Expression_exposer.def( "__call__" , __call___function_value , ( bp::arg("values") ) ); } { //::SireCAS::Expression::operator() typedef ::SireMaths::Complex ( ::SireCAS::Expression::*__call___function_type )( ::SireCAS::ComplexValues const & ) const; __call___function_type __call___function_value( &::SireCAS::Expression::operator() ); Expression_exposer.def( "__call__" , __call___function_value , ( bp::arg("values") ) ); } Expression_exposer.def( -bp::self ); { //::SireCAS::Expression::operator= typedef ::SireCAS::Expression & ( ::SireCAS::Expression::*assign_function_type )( ::SireCAS::Expression const & ) ; assign_function_type assign_function_value( &::SireCAS::Expression::operator= ); Expression_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } Expression_exposer.def( bp::self == bp::self ); { //::SireCAS::Expression::pow typedef ::SireCAS::Expression ( ::SireCAS::Expression::*pow_function_type )( int ) const; pow_function_type pow_function_value( &::SireCAS::Expression::pow ); Expression_exposer.def( "pow" , pow_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::pow typedef ::SireCAS::Expression ( ::SireCAS::Expression::*pow_function_type )( ::SireMaths::Rational const & ) const; pow_function_type pow_function_value( &::SireCAS::Expression::pow ); Expression_exposer.def( "pow" , pow_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::pow typedef ::SireCAS::Expression ( ::SireCAS::Expression::*pow_function_type )( double ) const; pow_function_type pow_function_value( &::SireCAS::Expression::pow ); Expression_exposer.def( "pow" , pow_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::pow typedef ::SireCAS::Expression ( ::SireCAS::Expression::*pow_function_type )( ::SireMaths::Complex const & ) const; pow_function_type pow_function_value( &::SireCAS::Expression::pow ); Expression_exposer.def( "pow" , pow_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::pow typedef ::SireCAS::Expression ( ::SireCAS::Expression::*pow_function_type )( ::SireCAS::Expression const & ) const; pow_function_type pow_function_value( &::SireCAS::Expression::pow ); Expression_exposer.def( "pow" , pow_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::root typedef ::SireCAS::Expression ( ::SireCAS::Expression::*root_function_type )( int ) const; root_function_type root_function_value( &::SireCAS::Expression::root ); Expression_exposer.def( "root" , root_function_value , ( bp::arg("n") ) ); } { //::SireCAS::Expression::series typedef ::SireCAS::Expression ( ::SireCAS::Expression::*series_function_type )( ::SireCAS::Symbol const &,int ) const; series_function_type series_function_value( &::SireCAS::Expression::series ); Expression_exposer.def( "series" , series_function_value , ( bp::arg("symbol"), bp::arg("order") ) ); } { //::SireCAS::Expression::simplify typedef ::SireCAS::Expression ( ::SireCAS::Expression::*simplify_function_type )( int ) const; simplify_function_type simplify_function_value( &::SireCAS::Expression::simplify ); Expression_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) ); } { //::SireCAS::Expression::squared typedef ::SireCAS::Expression ( ::SireCAS::Expression::*squared_function_type )( ) const; squared_function_type squared_function_value( &::SireCAS::Expression::squared ); Expression_exposer.def( "squared" , squared_function_value ); } { //::SireCAS::Expression::substitute typedef ::SireCAS::Expression ( ::SireCAS::Expression::*substitute_function_type )( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::Expression::substitute ); Expression_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) ); } { //::SireCAS::Expression::subtract typedef ::SireCAS::Expression ( ::SireCAS::Expression::*subtract_function_type )( ::SireCAS::Expression const & ) const; subtract_function_type subtract_function_value( &::SireCAS::Expression::subtract ); Expression_exposer.def( "subtract" , subtract_function_value , ( bp::arg("ex") ) ); } { //::SireCAS::Expression::subtract typedef ::SireCAS::Expression ( ::SireCAS::Expression::*subtract_function_type )( double ) const; subtract_function_type subtract_function_value( &::SireCAS::Expression::subtract ); Expression_exposer.def( "subtract" , subtract_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::subtract typedef ::SireCAS::Expression ( ::SireCAS::Expression::*subtract_function_type )( ::SireMaths::Complex const & ) const; subtract_function_type subtract_function_value( &::SireCAS::Expression::subtract ); Expression_exposer.def( "subtract" , subtract_function_value , ( bp::arg("val") ) ); } { //::SireCAS::Expression::symbols typedef ::SireCAS::Symbols ( ::SireCAS::Expression::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireCAS::Expression::symbols ); Expression_exposer.def( "symbols" , symbols_function_value ); } { //::SireCAS::Expression::toString typedef ::QString ( ::SireCAS::Expression::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireCAS::Expression::toString ); Expression_exposer.def( "toString" , toString_function_value ); } { //::SireCAS::Expression::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::Expression::typeName ); Expression_exposer.def( "typeName" , typeName_function_value ); } { //::SireCAS::Expression::what typedef char const * ( ::SireCAS::Expression::*what_function_type )( ) const; what_function_type what_function_value( &::SireCAS::Expression::what ); Expression_exposer.def( "what" , what_function_value ); } Expression_exposer.staticmethod( "typeName" ); Expression_exposer.def( bp::self * bp::other< SireMaths::Complex >() ); Expression_exposer.def( bp::other< SireMaths::Complex >() * bp::self ); Expression_exposer.def( bp::self * bp::other< double >() ); Expression_exposer.def( bp::other< double >() * bp::self ); Expression_exposer.def( bp::self * bp::self ); Expression_exposer.def( bp::self * bp::other< SireCAS::ExBase >() ); Expression_exposer.def( bp::other< SireMaths::Complex >() + bp::self ); Expression_exposer.def( bp::self + bp::other< SireMaths::Complex >() ); Expression_exposer.def( bp::other< double >() + bp::self ); Expression_exposer.def( bp::self + bp::other< double >() ); Expression_exposer.def( bp::self + bp::self ); Expression_exposer.def( bp::self + bp::other< SireCAS::ExBase >() ); Expression_exposer.def( bp::other< double >() - bp::self ); Expression_exposer.def( bp::self - bp::other< double >() ); Expression_exposer.def( bp::self - bp::self ); Expression_exposer.def( bp::self - bp::other< SireCAS::ExBase >() ); Expression_exposer.def( bp::other< SireMaths::Complex >() / bp::self ); Expression_exposer.def( bp::self / bp::other< SireMaths::Complex >() ); Expression_exposer.def( bp::other< double >() / bp::self ); Expression_exposer.def( bp::self / bp::other< double >() ); Expression_exposer.def( bp::self / bp::self ); Expression_exposer.def( bp::self / bp::other< SireCAS::ExBase >() ); Expression_exposer.def( self + self ); Expression_exposer.def( self - self ); Expression_exposer.def( self * self ); Expression_exposer.def( self / self ); Expression_exposer.def( other<double>() + self ); Expression_exposer.def( other<double>() - self ); Expression_exposer.def( other<double>() * self ); Expression_exposer.def( other<double>() / self ); Expression_exposer.def( self + other<double>() ); Expression_exposer.def( self - other<double>() ); Expression_exposer.def( self * other<double>() ); Expression_exposer.def( self / other<double>() ); Expression_exposer.def( other<SireMaths::Complex>() + self ); Expression_exposer.def( other<SireMaths::Complex>() - self ); Expression_exposer.def( other<SireMaths::Complex>() * self ); Expression_exposer.def( other<SireMaths::Complex>() / self ); Expression_exposer.def( self + other<SireMaths::Complex>() ); Expression_exposer.def( self - other<SireMaths::Complex>() ); Expression_exposer.def( self * other<SireMaths::Complex>() ); Expression_exposer.def( self / other<SireMaths::Complex>() ); Expression_exposer.def( other<SireCAS::ExBase>() + self ); Expression_exposer.def( other<SireCAS::ExBase>() - self ); Expression_exposer.def( other<SireCAS::ExBase>() * self ); Expression_exposer.def( other<SireCAS::ExBase>() / self ); Expression_exposer.def( self + other<SireCAS::ExBase>() ); Expression_exposer.def( self - other<SireCAS::ExBase>() ); Expression_exposer.def( self * other<SireCAS::ExBase>() ); Expression_exposer.def( self / other<SireCAS::ExBase>() ); Expression_exposer.def( "__copy__", &__copy__); Expression_exposer.def( "__deepcopy__", &__copy__); Expression_exposer.def( "clone", &__copy__); Expression_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::Expression >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Expression_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::Expression >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Expression_exposer.def( "__str__", &__str__< ::SireCAS::Expression > ); Expression_exposer.def( "__repr__", &__str__< ::SireCAS::Expression > ); } }
void register_DoubleFunc_class(){ { //::SireCAS::DoubleFunc typedef bp::class_< SireCAS::DoubleFunc, bp::bases< SireCAS::ExBase >, boost::noncopyable > DoubleFunc_exposer_t; DoubleFunc_exposer_t DoubleFunc_exposer = DoubleFunc_exposer_t( "DoubleFunc", "Base class of all double-expression functions ( e.g. f(x(), y()) )\n\nAuthor: Christopher Woods\n", bp::no_init ); bp::scope DoubleFunc_scope( DoubleFunc_exposer ); { //::SireCAS::DoubleFunc::children typedef ::SireCAS::Expressions ( ::SireCAS::DoubleFunc::*children_function_type)( ) const; children_function_type children_function_value( &::SireCAS::DoubleFunc::children ); DoubleFunc_exposer.def( "children" , children_function_value , "Return the child expression of this function" ); } { //::SireCAS::DoubleFunc::conjugate typedef ::SireCAS::Expression ( ::SireCAS::DoubleFunc::*conjugate_function_type)( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::DoubleFunc::conjugate ); DoubleFunc_exposer.def( "conjugate" , conjugate_function_value , "Return the conjugate of this function" ); } { //::SireCAS::DoubleFunc::differentiate typedef ::SireCAS::Expression ( ::SireCAS::DoubleFunc::*differentiate_function_type)( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::DoubleFunc::differentiate ); DoubleFunc_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) , "Return the differential of this function with respect to symbol" ); } { //::SireCAS::DoubleFunc::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::DoubleFunc::*expand_function_type)( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::DoubleFunc::expand ); DoubleFunc_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) , "" ); } { //::SireCAS::DoubleFunc::functions typedef ::SireCAS::Functions ( ::SireCAS::DoubleFunc::*functions_function_type)( ) const; functions_function_type functions_function_value( &::SireCAS::DoubleFunc::functions ); DoubleFunc_exposer.def( "functions" , functions_function_value , "Return the functions used in this function" ); } { //::SireCAS::DoubleFunc::hash typedef ::uint ( ::SireCAS::DoubleFunc::*hash_function_type)( ) const; hash_function_type hash_function_value( &::SireCAS::DoubleFunc::hash ); DoubleFunc_exposer.def( "hash" , hash_function_value , "Return a has for the function" ); } { //::SireCAS::DoubleFunc::integrate typedef ::SireCAS::Expression ( ::SireCAS::DoubleFunc::*integrate_function_type)( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::DoubleFunc::integrate ); DoubleFunc_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) , "Return the integral of this function with respect to symbol" ); } { //::SireCAS::DoubleFunc::isComplex typedef bool ( ::SireCAS::DoubleFunc::*isComplex_function_type)( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::DoubleFunc::isComplex ); DoubleFunc_exposer.def( "isComplex" , isComplex_function_value , "Return whether this is complex" ); } { //::SireCAS::DoubleFunc::isCompound typedef bool ( ::SireCAS::DoubleFunc::*isCompound_function_type)( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::DoubleFunc::isCompound ); DoubleFunc_exposer.def( "isCompound" , isCompound_function_value , "A function is not compound" ); } { //::SireCAS::DoubleFunc::isConstant typedef bool ( ::SireCAS::DoubleFunc::*isConstant_function_type)( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::DoubleFunc::isConstant ); DoubleFunc_exposer.def( "isConstant" , isConstant_function_value , "Return whether or not this is constant" ); } { //::SireCAS::DoubleFunc::isFunction typedef bool ( ::SireCAS::DoubleFunc::*isFunction_function_type)( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::DoubleFunc::isFunction ); DoubleFunc_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("symbol") ) , "Return if this is a function of symbol" ); } { //::SireCAS::DoubleFunc::operator= typedef ::SireCAS::DoubleFunc & ( ::SireCAS::DoubleFunc::*assign_function_type)( ::SireCAS::DoubleFunc const & ) ; assign_function_type assign_function_value( &::SireCAS::DoubleFunc::operator= ); DoubleFunc_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() , "" ); } { //::SireCAS::DoubleFunc::substitute typedef ::SireCAS::Expression ( ::SireCAS::DoubleFunc::*substitute_function_type)( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::DoubleFunc::substitute ); DoubleFunc_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) , "Substitute into this expression" ); } { //::SireCAS::DoubleFunc::symbols typedef ::SireCAS::Symbols ( ::SireCAS::DoubleFunc::*symbols_function_type)( ) const; symbols_function_type symbols_function_value( &::SireCAS::DoubleFunc::symbols ); DoubleFunc_exposer.def( "symbols" , symbols_function_value , "Return the symbols used in this function" ); } { //::SireCAS::DoubleFunc::toString typedef ::QString ( ::SireCAS::DoubleFunc::*toString_function_type)( ) const; toString_function_type toString_function_value( &::SireCAS::DoubleFunc::toString ); DoubleFunc_exposer.def( "toString" , toString_function_value , "Return a string representation of this function" ); } { //::SireCAS::DoubleFunc::x typedef ::SireCAS::Expression const & ( ::SireCAS::DoubleFunc::*x_function_type)( ) const; x_function_type x_function_value( &::SireCAS::DoubleFunc::x ); DoubleFunc_exposer.def( "x" , x_function_value , bp::return_value_policy< bp::copy_const_reference >() , "" ); } { //::SireCAS::DoubleFunc::y typedef ::SireCAS::Expression const & ( ::SireCAS::DoubleFunc::*y_function_type)( ) const; y_function_type y_function_value( &::SireCAS::DoubleFunc::y ); DoubleFunc_exposer.def( "y" , y_function_value , bp::return_value_policy< bp::copy_const_reference >() , "" ); } DoubleFunc_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::DoubleFunc >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DoubleFunc_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::DoubleFunc >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DoubleFunc_exposer.def( "__str__", &__str__< ::SireCAS::DoubleFunc > ); DoubleFunc_exposer.def( "__repr__", &__str__< ::SireCAS::DoubleFunc > ); DoubleFunc_exposer.def( "__hash__", &::SireCAS::DoubleFunc::hash ); } }
void register_RestraintFF_class(){ { //::SireMM::RestraintFF typedef bp::class_< SireMM::RestraintFF, bp::bases< SireFF::FF3D, SireFF::G1FF, SireFF::FF, SireMol::MolGroupsBase, SireBase::Property > > RestraintFF_exposer_t; RestraintFF_exposer_t RestraintFF_exposer = RestraintFF_exposer_t( "RestraintFF", bp::init< >() ); bp::scope RestraintFF_scope( RestraintFF_exposer ); RestraintFF_exposer.def( bp::init< QString const & >(( bp::arg("name") )) ); RestraintFF_exposer.def( bp::init< SireMM::RestraintFF const & >(( bp::arg("other") )) ); { //::SireMM::RestraintFF::add typedef bool ( ::SireMM::RestraintFF::*add_function_type )( ::SireMM::Restraint3D const & ) ; add_function_type add_function_value( &::SireMM::RestraintFF::add ); RestraintFF_exposer.def( "add" , add_function_value , ( bp::arg("restraint") ) ); } { //::SireMM::RestraintFF::builtinSymbols typedef ::SireCAS::Symbols ( ::SireMM::RestraintFF::*builtinSymbols_function_type )( ) const; builtinSymbols_function_type builtinSymbols_function_value( &::SireMM::RestraintFF::builtinSymbols ); RestraintFF_exposer.def( "builtinSymbols" , builtinSymbols_function_value ); } { //::SireMM::RestraintFF::components typedef ::SireMM::RestraintComponent const & ( ::SireMM::RestraintFF::*components_function_type )( ) const; components_function_type components_function_value( &::SireMM::RestraintFF::components ); RestraintFF_exposer.def( "components" , components_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::RestraintFF::contains typedef bool ( ::SireMM::RestraintFF::*contains_function_type )( ::SireMM::Restraint3D const & ) const; contains_function_type contains_function_value( &::SireMM::RestraintFF::contains ); RestraintFF_exposer.def( "contains" , contains_function_value , ( bp::arg("restraint") ) ); } { //::SireMM::RestraintFF::containsProperty typedef bool ( ::SireMM::RestraintFF::*containsProperty_function_type )( ::QString const & ) const; containsProperty_function_type containsProperty_function_value( &::SireMM::RestraintFF::containsProperty ); RestraintFF_exposer.def( "containsProperty" , containsProperty_function_value , ( bp::arg("name") ) ); } { //::SireMM::RestraintFF::differentiate typedef ::SireMM::RestraintFF ( ::SireMM::RestraintFF::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireMM::RestraintFF::differentiate ); RestraintFF_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::RestraintFF::field typedef void ( ::SireMM::RestraintFF::*field_function_type )( ::SireFF::FieldTable &,double ) ; field_function_type field_function_value( &::SireMM::RestraintFF::field ); RestraintFF_exposer.def( "field" , field_function_value , ( bp::arg("fieldtable"), bp::arg("scale_field")=1 ) ); } { //::SireMM::RestraintFF::field typedef void ( ::SireMM::RestraintFF::*field_function_type )( ::SireFF::FieldTable &,::SireCAS::Symbol const &,double ) ; field_function_type field_function_value( &::SireMM::RestraintFF::field ); RestraintFF_exposer.def( "field" , field_function_value , ( bp::arg("fieldtable"), bp::arg("component"), bp::arg("scale_field")=1 ) ); } { //::SireMM::RestraintFF::field typedef void ( ::SireMM::RestraintFF::*field_function_type )( ::SireFF::FieldTable &,::SireFF::Probe const &,double ) ; field_function_type field_function_value( &::SireMM::RestraintFF::field ); RestraintFF_exposer.def( "field" , field_function_value , ( bp::arg("fieldtable"), bp::arg("probe"), bp::arg("scale_field")=1 ) ); } { //::SireMM::RestraintFF::field typedef void ( ::SireMM::RestraintFF::*field_function_type )( ::SireFF::FieldTable &,::SireCAS::Symbol const &,::SireFF::Probe const &,double ) ; field_function_type field_function_value( &::SireMM::RestraintFF::field ); RestraintFF_exposer.def( "field" , field_function_value , ( bp::arg("fieldtable"), bp::arg("component"), bp::arg("probe"), bp::arg("scale_field")=1 ) ); } { //::SireMM::RestraintFF::force typedef void ( ::SireMM::RestraintFF::*force_function_type )( ::SireFF::ForceTable &,double ) ; force_function_type force_function_value( &::SireMM::RestraintFF::force ); RestraintFF_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) ); } { //::SireMM::RestraintFF::force typedef void ( ::SireMM::RestraintFF::*force_function_type )( ::SireFF::ForceTable &,::SireCAS::Symbol const &,double ) ; force_function_type force_function_value( &::SireMM::RestraintFF::force ); RestraintFF_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("symbol"), bp::arg("scale_force")=1 ) ); } { //::SireMM::RestraintFF::getValue typedef double ( ::SireMM::RestraintFF::*getValue_function_type )( ::SireCAS::Symbol const & ) const; getValue_function_type getValue_function_value( &::SireMM::RestraintFF::getValue ); RestraintFF_exposer.def( "getValue" , getValue_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::RestraintFF::hasValue typedef bool ( ::SireMM::RestraintFF::*hasValue_function_type )( ::SireCAS::Symbol const & ) const; hasValue_function_type hasValue_function_value( &::SireMM::RestraintFF::hasValue ); RestraintFF_exposer.def( "hasValue" , hasValue_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::RestraintFF::mustNowRecalculateFromScratch typedef void ( ::SireMM::RestraintFF::*mustNowRecalculateFromScratch_function_type )( ) ; mustNowRecalculateFromScratch_function_type mustNowRecalculateFromScratch_function_value( &::SireMM::RestraintFF::mustNowRecalculateFromScratch ); RestraintFF_exposer.def( "mustNowRecalculateFromScratch" , mustNowRecalculateFromScratch_function_value ); } { //::SireMM::RestraintFF::nRestraints typedef int ( ::SireMM::RestraintFF::*nRestraints_function_type )( ) const; nRestraints_function_type nRestraints_function_value( &::SireMM::RestraintFF::nRestraints ); RestraintFF_exposer.def( "nRestraints" , nRestraints_function_value ); } RestraintFF_exposer.def( bp::self != bp::self ); { //::SireMM::RestraintFF::operator= typedef ::SireMM::RestraintFF & ( ::SireMM::RestraintFF::*assign_function_type )( ::SireMM::RestraintFF const & ) ; assign_function_type assign_function_value( &::SireMM::RestraintFF::operator= ); RestraintFF_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } RestraintFF_exposer.def( bp::self == bp::self ); { //::SireMM::RestraintFF::potential typedef void ( ::SireMM::RestraintFF::*potential_function_type )( ::SireFF::PotentialTable &,double ) ; potential_function_type potential_function_value( &::SireMM::RestraintFF::potential ); RestraintFF_exposer.def( "potential" , potential_function_value , ( bp::arg("potentialtable"), bp::arg("scale_potential")=1 ) ); } { //::SireMM::RestraintFF::potential typedef void ( ::SireMM::RestraintFF::*potential_function_type )( ::SireFF::PotentialTable &,::SireCAS::Symbol const &,double ) ; potential_function_type potential_function_value( &::SireMM::RestraintFF::potential ); RestraintFF_exposer.def( "potential" , potential_function_value , ( bp::arg("potentialtable"), bp::arg("component"), bp::arg("scale_potential")=1 ) ); } { //::SireMM::RestraintFF::potential typedef void ( ::SireMM::RestraintFF::*potential_function_type )( ::SireFF::PotentialTable &,::SireFF::Probe const &,double ) ; potential_function_type potential_function_value( &::SireMM::RestraintFF::potential ); RestraintFF_exposer.def( "potential" , potential_function_value , ( bp::arg("potentialtable"), bp::arg("probe"), bp::arg("scale_potential")=1 ) ); } { //::SireMM::RestraintFF::potential typedef void ( ::SireMM::RestraintFF::*potential_function_type )( ::SireFF::PotentialTable &,::SireCAS::Symbol const &,::SireFF::Probe const &,double ) ; potential_function_type potential_function_value( &::SireMM::RestraintFF::potential ); RestraintFF_exposer.def( "potential" , potential_function_value , ( bp::arg("potentialtable"), bp::arg("component"), bp::arg("probe"), bp::arg("scale_potential")=1 ) ); } { //::SireMM::RestraintFF::properties typedef ::SireBase::Properties const & ( ::SireMM::RestraintFF::*properties_function_type )( ) const; properties_function_type properties_function_value( &::SireMM::RestraintFF::properties ); RestraintFF_exposer.def( "properties" , properties_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireMM::RestraintFF::property typedef ::SireBase::Property const & ( ::SireMM::RestraintFF::*property_function_type )( ::QString const & ) const; property_function_type property_function_value( &::SireMM::RestraintFF::property ); RestraintFF_exposer.def( "property" , property_function_value , ( bp::arg("name") ) , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::RestraintFF::remove typedef bool ( ::SireMM::RestraintFF::*remove_function_type )( ::SireMM::Restraint3D const & ) ; remove_function_type remove_function_value( &::SireMM::RestraintFF::remove ); RestraintFF_exposer.def( "remove" , remove_function_value , ( bp::arg("restraint") ) ); } { //::SireMM::RestraintFF::removeRestraintAt typedef void ( ::SireMM::RestraintFF::*removeRestraintAt_function_type )( int ) ; removeRestraintAt_function_type removeRestraintAt_function_value( &::SireMM::RestraintFF::removeRestraintAt ); RestraintFF_exposer.def( "removeRestraintAt" , removeRestraintAt_function_value , ( bp::arg("i") ) ); } { //::SireMM::RestraintFF::restraintAt typedef ::SireMM::Restraint3D const & ( ::SireMM::RestraintFF::*restraintAt_function_type )( int ) const; restraintAt_function_type restraintAt_function_value( &::SireMM::RestraintFF::restraintAt ); RestraintFF_exposer.def( "restraintAt" , restraintAt_function_value , ( bp::arg("i") ) , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::RestraintFF::restraints typedef ::QVector< SireBase::PropPtr< SireMM::Restraint3D > > ( ::SireMM::RestraintFF::*restraints_function_type )( ) const; restraints_function_type restraints_function_value( &::SireMM::RestraintFF::restraints ); RestraintFF_exposer.def( "restraints" , restraints_function_value ); } { //::SireMM::RestraintFF::setProperty typedef bool ( ::SireMM::RestraintFF::*setProperty_function_type )( ::QString const &,::SireBase::Property const & ) ; setProperty_function_type setProperty_function_value( &::SireMM::RestraintFF::setProperty ); RestraintFF_exposer.def( "setProperty" , setProperty_function_value , ( bp::arg("name"), bp::arg("property") ) ); } { //::SireMM::RestraintFF::setSpace typedef bool ( ::SireMM::RestraintFF::*setSpace_function_type )( ::SireVol::Space const & ) ; setSpace_function_type setSpace_function_value( &::SireMM::RestraintFF::setSpace ); RestraintFF_exposer.def( "setSpace" , setSpace_function_value , ( bp::arg("space") ) ); } { //::SireMM::RestraintFF::setValue typedef bool ( ::SireMM::RestraintFF::*setValue_function_type )( ::SireCAS::Symbol const &,double ) ; setValue_function_type setValue_function_value( &::SireMM::RestraintFF::setValue ); RestraintFF_exposer.def( "setValue" , setValue_function_value , ( bp::arg("symbol"), bp::arg("value") ) ); } { //::SireMM::RestraintFF::space typedef ::SireVol::Space const & ( ::SireMM::RestraintFF::*space_function_type )( ) const; space_function_type space_function_value( &::SireMM::RestraintFF::space ); RestraintFF_exposer.def( "space" , space_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::RestraintFF::symbols typedef ::SireCAS::Symbols ( ::SireMM::RestraintFF::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireMM::RestraintFF::symbols ); RestraintFF_exposer.def( "symbols" , symbols_function_value ); } { //::SireMM::RestraintFF::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireMM::RestraintFF::typeName ); RestraintFF_exposer.def( "typeName" , typeName_function_value ); } { //::SireMM::RestraintFF::userSymbols typedef ::SireCAS::Symbols ( ::SireMM::RestraintFF::*userSymbols_function_type )( ) const; userSymbols_function_type userSymbols_function_value( &::SireMM::RestraintFF::userSymbols ); RestraintFF_exposer.def( "userSymbols" , userSymbols_function_value ); } { //::SireMM::RestraintFF::userValues typedef ::SireCAS::Values ( ::SireMM::RestraintFF::*userValues_function_type )( ) const; userValues_function_type userValues_function_value( &::SireMM::RestraintFF::userValues ); RestraintFF_exposer.def( "userValues" , userValues_function_value ); } RestraintFF_exposer.staticmethod( "typeName" ); RestraintFF_exposer.def( "__copy__", &__copy__); RestraintFF_exposer.def( "__deepcopy__", &__copy__); RestraintFF_exposer.def( "clone", &__copy__); RestraintFF_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::RestraintFF >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); RestraintFF_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::RestraintFF >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); RestraintFF_exposer.def( "__str__", &__str__< ::SireMM::RestraintFF > ); RestraintFF_exposer.def( "__repr__", &__str__< ::SireMM::RestraintFF > ); RestraintFF_exposer.def( "__len__", &__len_count< ::SireMM::RestraintFF > ); } }
void register_Conditional_class(){ { //::SireCAS::Conditional typedef bp::class_< SireCAS::Conditional, bp::bases< SireCAS::ExBase > > Conditional_exposer_t; Conditional_exposer_t Conditional_exposer = Conditional_exposer_t( "Conditional", "This is a conditional expression. If the condition is true,\nthen true_expression is evaluated, else if the condition\nis false then false_expression is evaluate\n\nAuthor: Christopher Woods\n", bp::init< >("Null constructor") ); bp::scope Conditional_scope( Conditional_exposer ); Conditional_exposer.def( bp::init< SireCAS::Condition const &, SireCAS::Expression const &, SireCAS::Expression const & >(( bp::arg("condition"), bp::arg("true_expression"), bp::arg("false_expression") ), "Construct a conditional where if condition is true, then\ntrue_expression is evaluated, while if condition is false,\nthen false_expression is evaluated") ); Conditional_exposer.def( bp::init< SireCAS::Conditional const & >(( bp::arg("other") ), "Copy constructor") ); { //::SireCAS::Conditional::children typedef ::SireCAS::Expressions ( ::SireCAS::Conditional::*children_function_type)( ) const; children_function_type children_function_value( &::SireCAS::Conditional::children ); Conditional_exposer.def( "children" , children_function_value , "Return the children of this expression" ); } { //::SireCAS::Conditional::condition typedef ::SireCAS::Condition const & ( ::SireCAS::Conditional::*condition_function_type)( ) const; condition_function_type condition_function_value( &::SireCAS::Conditional::condition ); Conditional_exposer.def( "condition" , condition_function_value , bp::return_value_policy<bp::clone_const_reference>() , "Return the condition" ); } { //::SireCAS::Conditional::conjugate typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*conjugate_function_type)( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::Conditional::conjugate ); Conditional_exposer.def( "conjugate" , conjugate_function_value , "Return the complex conjugate of this expression" ); } { //::SireCAS::Conditional::differentiate typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*differentiate_function_type)( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::Conditional::differentiate ); Conditional_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) , "Return the differential of this expression" ); } { //::SireCAS::Conditional::evaluate typedef double ( ::SireCAS::Conditional::*evaluate_function_type)( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Conditional::evaluate ); Conditional_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) , "Evaluate this expression for the passed values" ); } { //::SireCAS::Conditional::evaluate typedef ::SireMaths::Complex ( ::SireCAS::Conditional::*evaluate_function_type)( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Conditional::evaluate ); Conditional_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) , "Evaluate this expresion for the passed values" ); } { //::SireCAS::Conditional::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::Conditional::*expand_function_type)( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::Conditional::expand ); Conditional_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) , "Expand this expression in terms of symbol" ); } { //::SireCAS::Conditional::falseExpression typedef ::SireCAS::Expression const & ( ::SireCAS::Conditional::*falseExpression_function_type)( ) const; falseExpression_function_type falseExpression_function_value( &::SireCAS::Conditional::falseExpression ); Conditional_exposer.def( "falseExpression" , falseExpression_function_value , bp::return_value_policy< bp::copy_const_reference >() , "Return the expression to be evaluated if the condition is false" ); } { //::SireCAS::Conditional::functions typedef ::SireCAS::Functions ( ::SireCAS::Conditional::*functions_function_type)( ) const; functions_function_type functions_function_value( &::SireCAS::Conditional::functions ); Conditional_exposer.def( "functions" , functions_function_value , "Return the functions used in this expression" ); } { //::SireCAS::Conditional::hash typedef ::uint ( ::SireCAS::Conditional::*hash_function_type)( ) const; hash_function_type hash_function_value( &::SireCAS::Conditional::hash ); Conditional_exposer.def( "hash" , hash_function_value , "Hash this conditional" ); } { //::SireCAS::Conditional::integrate typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*integrate_function_type)( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::Conditional::integrate ); Conditional_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) , "Return the integral of this expression" ); } { //::SireCAS::Conditional::isComplex typedef bool ( ::SireCAS::Conditional::*isComplex_function_type)( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::Conditional::isComplex ); Conditional_exposer.def( "isComplex" , isComplex_function_value , "Is this a complex expression?" ); } { //::SireCAS::Conditional::isCompound typedef bool ( ::SireCAS::Conditional::*isCompound_function_type)( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::Conditional::isCompound ); Conditional_exposer.def( "isCompound" , isCompound_function_value , "Is this a compound expression?" ); } { //::SireCAS::Conditional::isConstant typedef bool ( ::SireCAS::Conditional::*isConstant_function_type)( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::Conditional::isConstant ); Conditional_exposer.def( "isConstant" , isConstant_function_value , "Return whether or not this is constant" ); } { //::SireCAS::Conditional::isFunction typedef bool ( ::SireCAS::Conditional::*isFunction_function_type)( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::Conditional::isFunction ); Conditional_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) , "Return whether or not this is a function of symbol" ); } { //::SireCAS::Conditional::isNull typedef bool ( ::SireCAS::Conditional::*isNull_function_type)( ) const; isNull_function_type isNull_function_value( &::SireCAS::Conditional::isNull ); Conditional_exposer.def( "isNull" , isNull_function_value , "Return whether or not this is null" ); } { //::SireCAS::Conditional::operator= typedef ::SireCAS::Conditional & ( ::SireCAS::Conditional::*assign_function_type)( ::SireCAS::Conditional const & ) ; assign_function_type assign_function_value( &::SireCAS::Conditional::operator= ); Conditional_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() , "" ); } Conditional_exposer.def( bp::self == bp::self ); Conditional_exposer.def( bp::self == bp::other< SireCAS::ExBase >() ); { //::SireCAS::Conditional::series typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*series_function_type)( ::SireCAS::Symbol const &,int ) const; series_function_type series_function_value( &::SireCAS::Conditional::series ); Conditional_exposer.def( "series" , series_function_value , ( bp::arg("symbol"), bp::arg("n") ) , "Return the series expansion of this product with respect to symbol, to order n" ); } { //::SireCAS::Conditional::simplify typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*simplify_function_type)( int ) const; simplify_function_type simplify_function_value( &::SireCAS::Conditional::simplify ); Conditional_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) , "Try to simplify this condition" ); } { //::SireCAS::Conditional::substitute typedef ::SireCAS::Expression ( ::SireCAS::Conditional::*substitute_function_type)( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::Conditional::substitute ); Conditional_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) , "Substitute identities into this expression" ); } { //::SireCAS::Conditional::symbols typedef ::SireCAS::Symbols ( ::SireCAS::Conditional::*symbols_function_type)( ) const; symbols_function_type symbols_function_value( &::SireCAS::Conditional::symbols ); Conditional_exposer.def( "symbols" , symbols_function_value , "Return the symbols used in this expression" ); } { //::SireCAS::Conditional::toString typedef ::QString ( ::SireCAS::Conditional::*toString_function_type)( ) const; toString_function_type toString_function_value( &::SireCAS::Conditional::toString ); Conditional_exposer.def( "toString" , toString_function_value , "Return a string representation of this conditional" ); } { //::SireCAS::Conditional::trueExpression typedef ::SireCAS::Expression const & ( ::SireCAS::Conditional::*trueExpression_function_type)( ) const; trueExpression_function_type trueExpression_function_value( &::SireCAS::Conditional::trueExpression ); Conditional_exposer.def( "trueExpression" , trueExpression_function_value , bp::return_value_policy< bp::copy_const_reference >() , "Return the expression to be evaluated if the condition is true" ); } { //::SireCAS::Conditional::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::Conditional::typeName ); Conditional_exposer.def( "typeName" , typeName_function_value , "" ); } { //::SireCAS::Conditional::what typedef char const * ( ::SireCAS::Conditional::*what_function_type)( ) const; what_function_type what_function_value( &::SireCAS::Conditional::what ); Conditional_exposer.def( "what" , what_function_value , "" ); } Conditional_exposer.staticmethod( "typeName" ); Conditional_exposer.def( "__copy__", &__copy__); Conditional_exposer.def( "__deepcopy__", &__copy__); Conditional_exposer.def( "clone", &__copy__); Conditional_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::Conditional >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Conditional_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::Conditional >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Conditional_exposer.def( "__str__", &__str__< ::SireCAS::Conditional > ); Conditional_exposer.def( "__repr__", &__str__< ::SireCAS::Conditional > ); Conditional_exposer.def( "__hash__", &::SireCAS::Conditional::hash ); } }
void register_ExpressionBase_class(){ { //::SireCAS::ExpressionBase typedef bp::class_< SireCAS::ExpressionBase > ExpressionBase_exposer_t; ExpressionBase_exposer_t ExpressionBase_exposer = ExpressionBase_exposer_t( "ExpressionBase", bp::init< >() ); bp::scope ExpressionBase_scope( ExpressionBase_exposer ); ExpressionBase_exposer.def( bp::init< SireCAS::ExBase const & >(( bp::arg("ex") )) ); ExpressionBase_exposer.def( bp::init< SireCAS::ExpressionBase const & >(( bp::arg("other") )) ); { //::SireCAS::ExpressionBase::children typedef ::SireCAS::Expressions ( ::SireCAS::ExpressionBase::*children_function_type )( ) const; children_function_type children_function_value( &::SireCAS::ExpressionBase::children ); ExpressionBase_exposer.def( "children" , children_function_value ); } { //::SireCAS::ExpressionBase::conjugate typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*conjugate_function_type )( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::ExpressionBase::conjugate ); ExpressionBase_exposer.def( "conjugate" , conjugate_function_value ); } { //::SireCAS::ExpressionBase::differentiate typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::ExpressionBase::differentiate ); ExpressionBase_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::ExpressionBase::evaluate typedef double ( ::SireCAS::ExpressionBase::*evaluate_function_type )( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::ExpressionBase::evaluate ); ExpressionBase_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::ExpressionBase::evaluate typedef ::SireMaths::Complex ( ::SireCAS::ExpressionBase::*evaluate_function_type )( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::ExpressionBase::evaluate ); ExpressionBase_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::ExpressionBase::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::ExpressionBase::*expand_function_type )( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::ExpressionBase::expand ); ExpressionBase_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::ExpressionBase::functions typedef ::SireCAS::Functions ( ::SireCAS::ExpressionBase::*functions_function_type )( ) const; functions_function_type functions_function_value( &::SireCAS::ExpressionBase::functions ); ExpressionBase_exposer.def( "functions" , functions_function_value ); } { //::SireCAS::ExpressionBase::hash typedef ::uint ( ::SireCAS::ExpressionBase::*hash_function_type )( ) const; hash_function_type hash_function_value( &::SireCAS::ExpressionBase::hash ); ExpressionBase_exposer.def( "hash" , hash_function_value ); } { //::SireCAS::ExpressionBase::integrate typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*integrate_function_type )( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::ExpressionBase::integrate ); ExpressionBase_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::ExpressionBase::isComplex typedef bool ( ::SireCAS::ExpressionBase::*isComplex_function_type )( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::ExpressionBase::isComplex ); ExpressionBase_exposer.def( "isComplex" , isComplex_function_value ); } { //::SireCAS::ExpressionBase::isCompound typedef bool ( ::SireCAS::ExpressionBase::*isCompound_function_type )( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::ExpressionBase::isCompound ); ExpressionBase_exposer.def( "isCompound" , isCompound_function_value ); } { //::SireCAS::ExpressionBase::isConstant typedef bool ( ::SireCAS::ExpressionBase::*isConstant_function_type )( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::ExpressionBase::isConstant ); ExpressionBase_exposer.def( "isConstant" , isConstant_function_value ); } { //::SireCAS::ExpressionBase::isFunction typedef bool ( ::SireCAS::ExpressionBase::*isFunction_function_type )( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::ExpressionBase::isFunction ); ExpressionBase_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) ); } ExpressionBase_exposer.def( bp::self != bp::self ); { //::SireCAS::ExpressionBase::operator= typedef ::SireCAS::ExpressionBase & ( ::SireCAS::ExpressionBase::*assign_function_type )( ::SireCAS::ExpressionBase const & ) ; assign_function_type assign_function_value( &::SireCAS::ExpressionBase::operator= ); ExpressionBase_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } { //::SireCAS::ExpressionBase::operator= typedef ::SireCAS::ExpressionBase & ( ::SireCAS::ExpressionBase::*assign_function_type )( ::SireCAS::ExBase const & ) ; assign_function_type assign_function_value( &::SireCAS::ExpressionBase::operator= ); ExpressionBase_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } ExpressionBase_exposer.def( bp::self == bp::self ); { //::SireCAS::ExpressionBase::series typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*series_function_type )( ::SireCAS::Symbol const &,int ) const; series_function_type series_function_value( &::SireCAS::ExpressionBase::series ); ExpressionBase_exposer.def( "series" , series_function_value , ( bp::arg("symbol"), bp::arg("n") ) ); } { //::SireCAS::ExpressionBase::simplify typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*simplify_function_type )( int ) const; simplify_function_type simplify_function_value( &::SireCAS::ExpressionBase::simplify ); ExpressionBase_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) ); } { //::SireCAS::ExpressionBase::substitute typedef ::SireCAS::Expression ( ::SireCAS::ExpressionBase::*substitute_function_type )( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::ExpressionBase::substitute ); ExpressionBase_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) ); } { //::SireCAS::ExpressionBase::symbols typedef ::SireCAS::Symbols ( ::SireCAS::ExpressionBase::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireCAS::ExpressionBase::symbols ); ExpressionBase_exposer.def( "symbols" , symbols_function_value ); } { //::SireCAS::ExpressionBase::toString typedef ::QString ( ::SireCAS::ExpressionBase::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireCAS::ExpressionBase::toString ); ExpressionBase_exposer.def( "toString" , toString_function_value ); } { //::SireCAS::ExpressionBase::what typedef char const * ( ::SireCAS::ExpressionBase::*what_function_type )( ) const; what_function_type what_function_value( &::SireCAS::ExpressionBase::what ); ExpressionBase_exposer.def( "what" , what_function_value ); } ExpressionBase_exposer.def( "__copy__", &__copy__); ExpressionBase_exposer.def( "__deepcopy__", &__copy__); ExpressionBase_exposer.def( "clone", &__copy__); ExpressionBase_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::ExpressionBase >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); ExpressionBase_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::ExpressionBase >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); ExpressionBase_exposer.def( "__str__", &__str__< ::SireCAS::ExpressionBase > ); ExpressionBase_exposer.def( "__repr__", &__str__< ::SireCAS::ExpressionBase > ); } }
void register_Condition_class(){ { //::SireCAS::Condition typedef bp::class_< SireCAS::Condition, bp::bases< SireCAS::ExBase >, boost::noncopyable > Condition_exposer_t; Condition_exposer_t Condition_exposer = Condition_exposer_t( "Condition", bp::no_init ); bp::scope Condition_scope( Condition_exposer ); { //::SireCAS::Condition::alwaysFalse typedef bool ( ::SireCAS::Condition::*alwaysFalse_function_type )( ) const; alwaysFalse_function_type alwaysFalse_function_value( &::SireCAS::Condition::alwaysFalse ); Condition_exposer.def( "alwaysFalse" , alwaysFalse_function_value ); } { //::SireCAS::Condition::alwaysTrue typedef bool ( ::SireCAS::Condition::*alwaysTrue_function_type )( ) const; alwaysTrue_function_type alwaysTrue_function_value( &::SireCAS::Condition::alwaysTrue ); Condition_exposer.def( "alwaysTrue" , alwaysTrue_function_value ); } { //::SireCAS::Condition::children typedef ::SireCAS::Expressions ( ::SireCAS::Condition::*children_function_type )( ) const; children_function_type children_function_value( &::SireCAS::Condition::children ); Condition_exposer.def( "children" , children_function_value ); } { //::SireCAS::Condition::conjugate typedef ::SireCAS::Expression ( ::SireCAS::Condition::*conjugate_function_type )( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::Condition::conjugate ); Condition_exposer.def( "conjugate" , conjugate_function_value ); } { //::SireCAS::Condition::differentiate typedef ::SireCAS::Expression ( ::SireCAS::Condition::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::Condition::differentiate ); Condition_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Condition::evaluate typedef double ( ::SireCAS::Condition::*evaluate_function_type )( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Condition::evaluate ); Condition_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Condition::evaluate typedef ::SireMaths::Complex ( ::SireCAS::Condition::*evaluate_function_type )( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Condition::evaluate ); Condition_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Condition::evaluateCondition typedef bool ( ::SireCAS::Condition::*evaluateCondition_function_type )( ::SireCAS::Values const & ) const; evaluateCondition_function_type evaluateCondition_function_value( &::SireCAS::Condition::evaluateCondition ); Condition_exposer.def( "evaluateCondition" , evaluateCondition_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Condition::evaluateCondition typedef bool ( ::SireCAS::Condition::*evaluateCondition_function_type )( ::SireCAS::ComplexValues const & ) const; evaluateCondition_function_type evaluateCondition_function_value( &::SireCAS::Condition::evaluateCondition ); Condition_exposer.def( "evaluateCondition" , evaluateCondition_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Condition::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::Condition::*expand_function_type )( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::Condition::expand ); Condition_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Condition::functions typedef ::SireCAS::Functions ( ::SireCAS::Condition::*functions_function_type )( ) const; functions_function_type functions_function_value( &::SireCAS::Condition::functions ); Condition_exposer.def( "functions" , functions_function_value ); } { //::SireCAS::Condition::hash typedef ::uint ( ::SireCAS::Condition::*hash_function_type )( ) const; hash_function_type hash_function_value( &::SireCAS::Condition::hash ); Condition_exposer.def( "hash" , hash_function_value ); } { //::SireCAS::Condition::integrate typedef ::SireCAS::Expression ( ::SireCAS::Condition::*integrate_function_type )( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::Condition::integrate ); Condition_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Condition::isComplex typedef bool ( ::SireCAS::Condition::*isComplex_function_type )( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::Condition::isComplex ); Condition_exposer.def( "isComplex" , isComplex_function_value ); } { //::SireCAS::Condition::isCompound typedef bool ( ::SireCAS::Condition::*isCompound_function_type )( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::Condition::isCompound ); Condition_exposer.def( "isCompound" , isCompound_function_value ); } { //::SireCAS::Condition::isConstant typedef bool ( ::SireCAS::Condition::*isConstant_function_type )( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::Condition::isConstant ); Condition_exposer.def( "isConstant" , isConstant_function_value ); } { //::SireCAS::Condition::isFunction typedef bool ( ::SireCAS::Condition::*isFunction_function_type )( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::Condition::isFunction ); Condition_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) ); } { //::SireCAS::Condition::isNull typedef bool ( ::SireCAS::Condition::*isNull_function_type )( ) const; isNull_function_type isNull_function_value( &::SireCAS::Condition::isNull ); Condition_exposer.def( "isNull" , isNull_function_value ); } { //::SireCAS::Condition::leftHandSide typedef ::SireCAS::Expression const & ( ::SireCAS::Condition::*leftHandSide_function_type )( ) const; leftHandSide_function_type leftHandSide_function_value( &::SireCAS::Condition::leftHandSide ); Condition_exposer.def( "leftHandSide" , leftHandSide_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireCAS::Condition::rightHandSide typedef ::SireCAS::Expression const & ( ::SireCAS::Condition::*rightHandSide_function_type )( ) const; rightHandSide_function_type rightHandSide_function_value( &::SireCAS::Condition::rightHandSide ); Condition_exposer.def( "rightHandSide" , rightHandSide_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireCAS::Condition::simplify typedef ::SireCAS::Expression ( ::SireCAS::Condition::*simplify_function_type )( int ) const; simplify_function_type simplify_function_value( &::SireCAS::Condition::simplify ); Condition_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) ); } { //::SireCAS::Condition::substitute typedef ::SireCAS::Expression ( ::SireCAS::Condition::*substitute_function_type )( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::Condition::substitute ); Condition_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) ); } { //::SireCAS::Condition::symbols typedef ::SireCAS::Symbols ( ::SireCAS::Condition::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireCAS::Condition::symbols ); Condition_exposer.def( "symbols" , symbols_function_value ); } { //::SireCAS::Condition::toString typedef ::QString ( ::SireCAS::Condition::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireCAS::Condition::toString ); Condition_exposer.def( "toString" , toString_function_value ); } { //::SireCAS::Condition::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::Condition::typeName ); Condition_exposer.def( "typeName" , typeName_function_value ); } Condition_exposer.staticmethod( "typeName" ); Condition_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::Condition >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Condition_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::Condition >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Condition_exposer.def( "__str__", &__str__< ::SireCAS::Condition > ); Condition_exposer.def( "__repr__", &__str__< ::SireCAS::Condition > ); } }
void register_Product_class(){ { //::SireCAS::Product typedef bp::class_< SireCAS::Product, bp::bases< SireCAS::ExBase > > Product_exposer_t; Product_exposer_t Product_exposer = Product_exposer_t( "Product", bp::init< >() ); bp::scope Product_scope( Product_exposer ); Product_exposer.def( bp::init< SireCAS::Expression const &, SireCAS::Expression const & >(( bp::arg("ex0"), bp::arg("ex1") )) ); Product_exposer.def( bp::init< SireCAS::Expressions const & >(( bp::arg("expressions") )) ); Product_exposer.def( bp::init< SireCAS::Product const & >(( bp::arg("other") )) ); { //::SireCAS::Product::children typedef ::SireCAS::Expressions ( ::SireCAS::Product::*children_function_type )( ) const; children_function_type children_function_value( &::SireCAS::Product::children ); Product_exposer.def( "children" , children_function_value ); } { //::SireCAS::Product::conjugate typedef ::SireCAS::Expression ( ::SireCAS::Product::*conjugate_function_type )( ) const; conjugate_function_type conjugate_function_value( &::SireCAS::Product::conjugate ); Product_exposer.def( "conjugate" , conjugate_function_value ); } { //::SireCAS::Product::denominator typedef ::SireCAS::Product ( ::SireCAS::Product::*denominator_function_type )( ) const; denominator_function_type denominator_function_value( &::SireCAS::Product::denominator ); Product_exposer.def( "denominator" , denominator_function_value ); } { //::SireCAS::Product::differentiate typedef ::SireCAS::Expression ( ::SireCAS::Product::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::Product::differentiate ); Product_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Product::evaluate typedef double ( ::SireCAS::Product::*evaluate_function_type )( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Product::evaluate ); Product_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Product::evaluate typedef ::SireMaths::Complex ( ::SireCAS::Product::*evaluate_function_type )( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Product::evaluate ); Product_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Product::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::Product::*expand_function_type )( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::Product::expand ); Product_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Product::functions typedef ::SireCAS::Functions ( ::SireCAS::Product::*functions_function_type )( ) const; functions_function_type functions_function_value( &::SireCAS::Product::functions ); Product_exposer.def( "functions" , functions_function_value ); } { //::SireCAS::Product::hash typedef ::uint ( ::SireCAS::Product::*hash_function_type )( ) const; hash_function_type hash_function_value( &::SireCAS::Product::hash ); Product_exposer.def( "hash" , hash_function_value ); } { //::SireCAS::Product::integrate typedef ::SireCAS::Expression ( ::SireCAS::Product::*integrate_function_type )( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::Product::integrate ); Product_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Product::isComplex typedef bool ( ::SireCAS::Product::*isComplex_function_type )( ) const; isComplex_function_type isComplex_function_value( &::SireCAS::Product::isComplex ); Product_exposer.def( "isComplex" , isComplex_function_value ); } { //::SireCAS::Product::isCompound typedef bool ( ::SireCAS::Product::*isCompound_function_type )( ) const; isCompound_function_type isCompound_function_value( &::SireCAS::Product::isCompound ); Product_exposer.def( "isCompound" , isCompound_function_value ); } { //::SireCAS::Product::isConstant typedef bool ( ::SireCAS::Product::*isConstant_function_type )( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::Product::isConstant ); Product_exposer.def( "isConstant" , isConstant_function_value ); } { //::SireCAS::Product::isFunction typedef bool ( ::SireCAS::Product::*isFunction_function_type )( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::Product::isFunction ); Product_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) ); } { //::SireCAS::Product::numerator typedef ::SireCAS::Product ( ::SireCAS::Product::*numerator_function_type )( ) const; numerator_function_type numerator_function_value( &::SireCAS::Product::numerator ); Product_exposer.def( "numerator" , numerator_function_value ); } Product_exposer.def( bp::self == bp::other< SireCAS::ExBase >() ); { //::SireCAS::Product::reduce typedef ::SireCAS::Expression ( ::SireCAS::Product::*reduce_function_type )( ) const; reduce_function_type reduce_function_value( &::SireCAS::Product::reduce ); Product_exposer.def( "reduce" , reduce_function_value ); } { //::SireCAS::Product::series typedef ::SireCAS::Expression ( ::SireCAS::Product::*series_function_type )( ::SireCAS::Symbol const &,int ) const; series_function_type series_function_value( &::SireCAS::Product::series ); Product_exposer.def( "series" , series_function_value , ( bp::arg("symbol"), bp::arg("n") ) ); } { //::SireCAS::Product::simplify typedef ::SireCAS::Expression ( ::SireCAS::Product::*simplify_function_type )( int ) const; simplify_function_type simplify_function_value( &::SireCAS::Product::simplify ); Product_exposer.def( "simplify" , simplify_function_value , ( bp::arg("options")=(int)(0) ) ); } { //::SireCAS::Product::substitute typedef ::SireCAS::Expression ( ::SireCAS::Product::*substitute_function_type )( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::Product::substitute ); Product_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) ); } { //::SireCAS::Product::symbols typedef ::SireCAS::Symbols ( ::SireCAS::Product::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireCAS::Product::symbols ); Product_exposer.def( "symbols" , symbols_function_value ); } { //::SireCAS::Product::toString typedef ::QString ( ::SireCAS::Product::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireCAS::Product::toString ); Product_exposer.def( "toString" , toString_function_value ); } { //::SireCAS::Product::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::Product::typeName ); Product_exposer.def( "typeName" , typeName_function_value ); } { //::SireCAS::Product::what typedef char const * ( ::SireCAS::Product::*what_function_type )( ) const; what_function_type what_function_value( &::SireCAS::Product::what ); Product_exposer.def( "what" , what_function_value ); } Product_exposer.staticmethod( "typeName" ); Product_exposer.def( "__copy__", &__copy__); Product_exposer.def( "__deepcopy__", &__copy__); Product_exposer.def( "clone", &__copy__); Product_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::Product >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Product_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::Product >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Product_exposer.def( "__str__", &__str__< ::SireCAS::Product > ); Product_exposer.def( "__repr__", &__str__< ::SireCAS::Product > ); } }
void register_NullRestraint_class() { { //::SireMM::NullRestraint typedef bp::class_< SireMM::NullRestraint, bp::bases< SireMM::Restraint3D, SireMM::Restraint, SireBase::Property > > NullRestraint_exposer_t; NullRestraint_exposer_t NullRestraint_exposer = NullRestraint_exposer_t( "NullRestraint", bp::init< >() ); bp::scope NullRestraint_scope( NullRestraint_exposer ); NullRestraint_exposer.def( bp::init< SireMM::NullRestraint const & >(( bp::arg("other") )) ); { //::SireMM::NullRestraint::builtinSymbols typedef ::SireCAS::Symbols ( ::SireMM::NullRestraint::*builtinSymbols_function_type )( ) const; builtinSymbols_function_type builtinSymbols_function_value( &::SireMM::NullRestraint::builtinSymbols ); NullRestraint_exposer.def( "builtinSymbols" , builtinSymbols_function_value ); } { //::SireMM::NullRestraint::builtinValues typedef ::SireCAS::Values ( ::SireMM::NullRestraint::*builtinValues_function_type )( ) const; builtinValues_function_type builtinValues_function_value( &::SireMM::NullRestraint::builtinValues ); NullRestraint_exposer.def( "builtinValues" , builtinValues_function_value ); } { //::SireMM::NullRestraint::contains typedef bool ( ::SireMM::NullRestraint::*contains_function_type )( ::SireMol::MolNum ) const; contains_function_type contains_function_value( &::SireMM::NullRestraint::contains ); NullRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molnum") ) ); } { //::SireMM::NullRestraint::contains typedef bool ( ::SireMM::NullRestraint::*contains_function_type )( ::SireMol::MolID const & ) const; contains_function_type contains_function_value( &::SireMM::NullRestraint::contains ); NullRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molid") ) ); } { //::SireMM::NullRestraint::differentiate typedef ::SireMM::RestraintPtr ( ::SireMM::NullRestraint::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireMM::NullRestraint::differentiate ); NullRestraint_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::NullRestraint::energy typedef ::SireUnits::Dimension::MolarEnergy ( ::SireMM::NullRestraint::*energy_function_type )( ) const; energy_function_type energy_function_value( &::SireMM::NullRestraint::energy ); NullRestraint_exposer.def( "energy" , energy_function_value ); } { //::SireMM::NullRestraint::force typedef void ( ::SireMM::NullRestraint::*force_function_type )( ::SireFF::MolForceTable &,double ) const; force_function_type force_function_value( &::SireMM::NullRestraint::force ); NullRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) ); } { //::SireMM::NullRestraint::force typedef void ( ::SireMM::NullRestraint::*force_function_type )( ::SireFF::ForceTable &,double ) const; force_function_type force_function_value( &::SireMM::NullRestraint::force ); NullRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) ); } { //::SireMM::NullRestraint::getValue typedef double ( ::SireMM::NullRestraint::*getValue_function_type )( ::SireCAS::Symbol const & ) const; getValue_function_type getValue_function_value( &::SireMM::NullRestraint::getValue ); NullRestraint_exposer.def( "getValue" , getValue_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::NullRestraint::hasValue typedef bool ( ::SireMM::NullRestraint::*hasValue_function_type )( ::SireCAS::Symbol const & ) const; hasValue_function_type hasValue_function_value( &::SireMM::NullRestraint::hasValue ); NullRestraint_exposer.def( "hasValue" , hasValue_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::NullRestraint::molecules typedef ::SireMol::Molecules ( ::SireMM::NullRestraint::*molecules_function_type )( ) const; molecules_function_type molecules_function_value( &::SireMM::NullRestraint::molecules ); NullRestraint_exposer.def( "molecules" , molecules_function_value ); } NullRestraint_exposer.def( bp::self != bp::self ); { //::SireMM::NullRestraint::operator= typedef ::SireMM::NullRestraint & ( ::SireMM::NullRestraint::*assign_function_type )( ::SireMM::NullRestraint const & ) ; assign_function_type assign_function_value( &::SireMM::NullRestraint::operator= ); NullRestraint_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } NullRestraint_exposer.def( bp::self == bp::self ); { //::SireMM::NullRestraint::setValue typedef void ( ::SireMM::NullRestraint::*setValue_function_type )( ::SireCAS::Symbol const &,double ) ; setValue_function_type setValue_function_value( &::SireMM::NullRestraint::setValue ); NullRestraint_exposer.def( "setValue" , setValue_function_value , ( bp::arg("symbol"), bp::arg("value") ) ); } { //::SireMM::NullRestraint::symbols typedef ::SireCAS::Symbols ( ::SireMM::NullRestraint::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireMM::NullRestraint::symbols ); NullRestraint_exposer.def( "symbols" , symbols_function_value ); } { //::SireMM::NullRestraint::toString typedef ::QString ( ::SireMM::NullRestraint::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireMM::NullRestraint::toString ); NullRestraint_exposer.def( "toString" , toString_function_value ); } { //::SireMM::NullRestraint::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireMM::NullRestraint::typeName ); NullRestraint_exposer.def( "typeName" , typeName_function_value ); } { //::SireMM::NullRestraint::update typedef void ( ::SireMM::NullRestraint::*update_function_type )( ::SireMol::MoleculeData const & ) ; update_function_type update_function_value( &::SireMM::NullRestraint::update ); NullRestraint_exposer.def( "update" , update_function_value , ( bp::arg("moldata") ) ); } { //::SireMM::NullRestraint::update typedef void ( ::SireMM::NullRestraint::*update_function_type )( ::SireMol::Molecules const & ) ; update_function_type update_function_value( &::SireMM::NullRestraint::update ); NullRestraint_exposer.def( "update" , update_function_value , ( bp::arg("molecules") ) ); } { //::SireMM::NullRestraint::userSymbols typedef ::SireCAS::Symbols ( ::SireMM::NullRestraint::*userSymbols_function_type )( ) const; userSymbols_function_type userSymbols_function_value( &::SireMM::NullRestraint::userSymbols ); NullRestraint_exposer.def( "userSymbols" , userSymbols_function_value ); } { //::SireMM::NullRestraint::userValues typedef ::SireCAS::Values ( ::SireMM::NullRestraint::*userValues_function_type )( ) const; userValues_function_type userValues_function_value( &::SireMM::NullRestraint::userValues ); NullRestraint_exposer.def( "userValues" , userValues_function_value ); } { //::SireMM::NullRestraint::usesMoleculesIn typedef bool ( ::SireMM::NullRestraint::*usesMoleculesIn_function_type )( ::SireFF::ForceTable const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::NullRestraint::usesMoleculesIn ); NullRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("forcetable") ) ); } { //::SireMM::NullRestraint::usesMoleculesIn typedef bool ( ::SireMM::NullRestraint::*usesMoleculesIn_function_type )( ::SireMol::Molecules const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::NullRestraint::usesMoleculesIn ); NullRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("molecules") ) ); } { //::SireMM::NullRestraint::values typedef ::SireCAS::Values ( ::SireMM::NullRestraint::*values_function_type )( ) const; values_function_type values_function_value( &::SireMM::NullRestraint::values ); NullRestraint_exposer.def( "values" , values_function_value ); } NullRestraint_exposer.staticmethod( "typeName" ); NullRestraint_exposer.def( "__copy__", &__copy__); NullRestraint_exposer.def( "__deepcopy__", &__copy__); NullRestraint_exposer.def( "clone", &__copy__); NullRestraint_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::NullRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); NullRestraint_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::NullRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); NullRestraint_exposer.def( "__str__", &__str__< ::SireMM::NullRestraint > ); NullRestraint_exposer.def( "__repr__", &__str__< ::SireMM::NullRestraint > ); } }
void register_DoubleDistanceRestraint_class(){ { //::SireMM::DoubleDistanceRestraint typedef bp::class_< SireMM::DoubleDistanceRestraint, bp::bases< SireMM::Restraint3D, SireMM::Restraint, SireBase::Property > > DoubleDistanceRestraint_exposer_t; DoubleDistanceRestraint_exposer_t DoubleDistanceRestraint_exposer = DoubleDistanceRestraint_exposer_t( "DoubleDistanceRestraint", bp::init< >() ); bp::scope DoubleDistanceRestraint_scope( DoubleDistanceRestraint_exposer ); DoubleDistanceRestraint_exposer.def( bp::init< SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireCAS::Expression const & >(( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("restraint") )) ); DoubleDistanceRestraint_exposer.def( bp::init< SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireFF::PointRef const &, SireCAS::Expression const &, SireCAS::Values const & >(( bp::arg("point0"), bp::arg("point1"), bp::arg("point2"), bp::arg("point3"), bp::arg("restraint"), bp::arg("values") )) ); DoubleDistanceRestraint_exposer.def( bp::init< SireMM::DoubleDistanceRestraint const & >(( bp::arg("other") )) ); { //::SireMM::DoubleDistanceRestraint::builtinSymbols typedef ::SireCAS::Symbols ( ::SireMM::DoubleDistanceRestraint::*builtinSymbols_function_type )( ) const; builtinSymbols_function_type builtinSymbols_function_value( &::SireMM::DoubleDistanceRestraint::builtinSymbols ); DoubleDistanceRestraint_exposer.def( "builtinSymbols" , builtinSymbols_function_value ); } { //::SireMM::DoubleDistanceRestraint::builtinValues typedef ::SireCAS::Values ( ::SireMM::DoubleDistanceRestraint::*builtinValues_function_type )( ) const; builtinValues_function_type builtinValues_function_value( &::SireMM::DoubleDistanceRestraint::builtinValues ); DoubleDistanceRestraint_exposer.def( "builtinValues" , builtinValues_function_value ); } { //::SireMM::DoubleDistanceRestraint::contains typedef bool ( ::SireMM::DoubleDistanceRestraint::*contains_function_type )( ::SireMol::MolNum ) const; contains_function_type contains_function_value( &::SireMM::DoubleDistanceRestraint::contains ); DoubleDistanceRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molnum") ) ); } { //::SireMM::DoubleDistanceRestraint::contains typedef bool ( ::SireMM::DoubleDistanceRestraint::*contains_function_type )( ::SireMol::MolID const & ) const; contains_function_type contains_function_value( &::SireMM::DoubleDistanceRestraint::contains ); DoubleDistanceRestraint_exposer.def( "contains" , contains_function_value , ( bp::arg("molid") ) ); } { //::SireMM::DoubleDistanceRestraint::differentialRestraintFunction01 typedef ::SireCAS::Expression const & ( ::SireMM::DoubleDistanceRestraint::*differentialRestraintFunction01_function_type )( ) const; differentialRestraintFunction01_function_type differentialRestraintFunction01_function_value( &::SireMM::DoubleDistanceRestraint::differentialRestraintFunction01 ); DoubleDistanceRestraint_exposer.def( "differentialRestraintFunction01" , differentialRestraintFunction01_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireMM::DoubleDistanceRestraint::differentialRestraintFunction23 typedef ::SireCAS::Expression const & ( ::SireMM::DoubleDistanceRestraint::*differentialRestraintFunction23_function_type )( ) const; differentialRestraintFunction23_function_type differentialRestraintFunction23_function_value( &::SireMM::DoubleDistanceRestraint::differentialRestraintFunction23 ); DoubleDistanceRestraint_exposer.def( "differentialRestraintFunction23" , differentialRestraintFunction23_function_value , bp::return_value_policy< bp::copy_const_reference >() ); } { //::SireMM::DoubleDistanceRestraint::differentiate typedef ::SireMM::RestraintPtr ( ::SireMM::DoubleDistanceRestraint::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireMM::DoubleDistanceRestraint::differentiate ); DoubleDistanceRestraint_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireMM::DoubleDistanceRestraint::force typedef void ( ::SireMM::DoubleDistanceRestraint::*force_function_type )( ::SireFF::MolForceTable &,double ) const; force_function_type force_function_value( &::SireMM::DoubleDistanceRestraint::force ); DoubleDistanceRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) ); } { //::SireMM::DoubleDistanceRestraint::force typedef void ( ::SireMM::DoubleDistanceRestraint::*force_function_type )( ::SireFF::ForceTable &,double ) const; force_function_type force_function_value( &::SireMM::DoubleDistanceRestraint::force ); DoubleDistanceRestraint_exposer.def( "force" , force_function_value , ( bp::arg("forcetable"), bp::arg("scale_force")=1 ) ); } { //::SireMM::DoubleDistanceRestraint::molecules typedef ::SireMol::Molecules ( ::SireMM::DoubleDistanceRestraint::*molecules_function_type )( ) const; molecules_function_type molecules_function_value( &::SireMM::DoubleDistanceRestraint::molecules ); DoubleDistanceRestraint_exposer.def( "molecules" , molecules_function_value ); } { //::SireMM::DoubleDistanceRestraint::nPoints typedef int ( ::SireMM::DoubleDistanceRestraint::*nPoints_function_type )( ) const; nPoints_function_type nPoints_function_value( &::SireMM::DoubleDistanceRestraint::nPoints ); DoubleDistanceRestraint_exposer.def( "nPoints" , nPoints_function_value ); } DoubleDistanceRestraint_exposer.def( bp::self != bp::self ); { //::SireMM::DoubleDistanceRestraint::operator= typedef ::SireMM::DoubleDistanceRestraint & ( ::SireMM::DoubleDistanceRestraint::*assign_function_type )( ::SireMM::DoubleDistanceRestraint const & ) ; assign_function_type assign_function_value( &::SireMM::DoubleDistanceRestraint::operator= ); DoubleDistanceRestraint_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } DoubleDistanceRestraint_exposer.def( bp::self == bp::self ); { //::SireMM::DoubleDistanceRestraint::point typedef ::SireFF::Point const & ( ::SireMM::DoubleDistanceRestraint::*point_function_type )( int ) const; point_function_type point_function_value( &::SireMM::DoubleDistanceRestraint::point ); DoubleDistanceRestraint_exposer.def( "point" , point_function_value , ( bp::arg("i") ) , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::point0 typedef ::SireFF::Point const & ( ::SireMM::DoubleDistanceRestraint::*point0_function_type )( ) const; point0_function_type point0_function_value( &::SireMM::DoubleDistanceRestraint::point0 ); DoubleDistanceRestraint_exposer.def( "point0" , point0_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::point1 typedef ::SireFF::Point const & ( ::SireMM::DoubleDistanceRestraint::*point1_function_type )( ) const; point1_function_type point1_function_value( &::SireMM::DoubleDistanceRestraint::point1 ); DoubleDistanceRestraint_exposer.def( "point1" , point1_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::point2 typedef ::SireFF::Point const & ( ::SireMM::DoubleDistanceRestraint::*point2_function_type )( ) const; point2_function_type point2_function_value( &::SireMM::DoubleDistanceRestraint::point2 ); DoubleDistanceRestraint_exposer.def( "point2" , point2_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::point3 typedef ::SireFF::Point const & ( ::SireMM::DoubleDistanceRestraint::*point3_function_type )( ) const; point3_function_type point3_function_value( &::SireMM::DoubleDistanceRestraint::point3 ); DoubleDistanceRestraint_exposer.def( "point3" , point3_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::r01 typedef ::SireCAS::Symbol const & ( *r01_function_type )( ); r01_function_type r01_function_value( &::SireMM::DoubleDistanceRestraint::r01 ); DoubleDistanceRestraint_exposer.def( "r01" , r01_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::r23 typedef ::SireCAS::Symbol const & ( *r23_function_type )( ); r23_function_type r23_function_value( &::SireMM::DoubleDistanceRestraint::r23 ); DoubleDistanceRestraint_exposer.def( "r23" , r23_function_value , bp::return_value_policy<bp::clone_const_reference>() ); } { //::SireMM::DoubleDistanceRestraint::setSpace typedef void ( ::SireMM::DoubleDistanceRestraint::*setSpace_function_type )( ::SireVol::Space const & ) ; setSpace_function_type setSpace_function_value( &::SireMM::DoubleDistanceRestraint::setSpace ); DoubleDistanceRestraint_exposer.def( "setSpace" , setSpace_function_value , ( bp::arg("space") ) ); } { //::SireMM::DoubleDistanceRestraint::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireMM::DoubleDistanceRestraint::typeName ); DoubleDistanceRestraint_exposer.def( "typeName" , typeName_function_value ); } { //::SireMM::DoubleDistanceRestraint::update typedef void ( ::SireMM::DoubleDistanceRestraint::*update_function_type )( ::SireMol::MoleculeData const & ) ; update_function_type update_function_value( &::SireMM::DoubleDistanceRestraint::update ); DoubleDistanceRestraint_exposer.def( "update" , update_function_value , ( bp::arg("moldata") ) ); } { //::SireMM::DoubleDistanceRestraint::update typedef void ( ::SireMM::DoubleDistanceRestraint::*update_function_type )( ::SireMol::Molecules const & ) ; update_function_type update_function_value( &::SireMM::DoubleDistanceRestraint::update ); DoubleDistanceRestraint_exposer.def( "update" , update_function_value , ( bp::arg("molecules") ) ); } { //::SireMM::DoubleDistanceRestraint::usesMoleculesIn typedef bool ( ::SireMM::DoubleDistanceRestraint::*usesMoleculesIn_function_type )( ::SireFF::ForceTable const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::DoubleDistanceRestraint::usesMoleculesIn ); DoubleDistanceRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("forcetable") ) ); } { //::SireMM::DoubleDistanceRestraint::usesMoleculesIn typedef bool ( ::SireMM::DoubleDistanceRestraint::*usesMoleculesIn_function_type )( ::SireMol::Molecules const & ) const; usesMoleculesIn_function_type usesMoleculesIn_function_value( &::SireMM::DoubleDistanceRestraint::usesMoleculesIn ); DoubleDistanceRestraint_exposer.def( "usesMoleculesIn" , usesMoleculesIn_function_value , ( bp::arg("molecules") ) ); } DoubleDistanceRestraint_exposer.staticmethod( "r01" ); DoubleDistanceRestraint_exposer.staticmethod( "r23" ); DoubleDistanceRestraint_exposer.staticmethod( "typeName" ); DoubleDistanceRestraint_exposer.def( "__copy__", &__copy__); DoubleDistanceRestraint_exposer.def( "__deepcopy__", &__copy__); DoubleDistanceRestraint_exposer.def( "clone", &__copy__); DoubleDistanceRestraint_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireMM::DoubleDistanceRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DoubleDistanceRestraint_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireMM::DoubleDistanceRestraint >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); DoubleDistanceRestraint_exposer.def( "__str__", &__str__< ::SireMM::DoubleDistanceRestraint > ); DoubleDistanceRestraint_exposer.def( "__repr__", &__str__< ::SireMM::DoubleDistanceRestraint > ); } }
void register_Symbol_class(){ { //::SireCAS::Symbol typedef bp::class_< SireCAS::Symbol, bp::bases< SireCAS::ExBase > > Symbol_exposer_t; Symbol_exposer_t Symbol_exposer = Symbol_exposer_t( "Symbol", bp::init< >() ); bp::scope Symbol_scope( Symbol_exposer ); Symbol_exposer.def( bp::init< SireCAS::SymbolID >(( bp::arg("symid") )) ); Symbol_exposer.def( bp::init< QString const & >(( bp::arg("rep") )) ); Symbol_exposer.def( bp::init< SireCAS::Symbol const & >(( bp::arg("other") )) ); { //::SireCAS::Symbol::ID typedef ::SireCAS::SymbolID ( ::SireCAS::Symbol::*ID_function_type )( ) const; ID_function_type ID_function_value( &::SireCAS::Symbol::ID ); Symbol_exposer.def( "ID" , ID_function_value ); } { //::SireCAS::Symbol::children typedef ::SireCAS::Expressions ( ::SireCAS::Symbol::*children_function_type )( ) const; children_function_type children_function_value( &::SireCAS::Symbol::children ); Symbol_exposer.def( "children" , children_function_value ); } { //::SireCAS::Symbol::differentiate typedef ::SireCAS::Expression ( ::SireCAS::Symbol::*differentiate_function_type )( ::SireCAS::Symbol const & ) const; differentiate_function_type differentiate_function_value( &::SireCAS::Symbol::differentiate ); Symbol_exposer.def( "differentiate" , differentiate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Symbol::evaluate typedef double ( ::SireCAS::Symbol::*evaluate_function_type )( ::SireCAS::Values const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Symbol::evaluate ); Symbol_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Symbol::evaluate typedef ::SireMaths::Complex ( ::SireCAS::Symbol::*evaluate_function_type )( ::SireCAS::ComplexValues const & ) const; evaluate_function_type evaluate_function_value( &::SireCAS::Symbol::evaluate ); Symbol_exposer.def( "evaluate" , evaluate_function_value , ( bp::arg("values") ) ); } { //::SireCAS::Symbol::expand typedef ::QList< SireCAS::Factor > ( ::SireCAS::Symbol::*expand_function_type )( ::SireCAS::Symbol const & ) const; expand_function_type expand_function_value( &::SireCAS::Symbol::expand ); Symbol_exposer.def( "expand" , expand_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Symbol::functions typedef ::SireCAS::Functions ( ::SireCAS::Symbol::*functions_function_type )( ) const; functions_function_type functions_function_value( &::SireCAS::Symbol::functions ); Symbol_exposer.def( "functions" , functions_function_value ); } { //::SireCAS::Symbol::hash typedef ::uint ( ::SireCAS::Symbol::*hash_function_type )( ) const; hash_function_type hash_function_value( &::SireCAS::Symbol::hash ); Symbol_exposer.def( "hash" , hash_function_value ); } { //::SireCAS::Symbol::integrate typedef ::SireCAS::Expression ( ::SireCAS::Symbol::*integrate_function_type )( ::SireCAS::Symbol const & ) const; integrate_function_type integrate_function_value( &::SireCAS::Symbol::integrate ); Symbol_exposer.def( "integrate" , integrate_function_value , ( bp::arg("symbol") ) ); } { //::SireCAS::Symbol::isConstant typedef bool ( ::SireCAS::Symbol::*isConstant_function_type )( ) const; isConstant_function_type isConstant_function_value( &::SireCAS::Symbol::isConstant ); Symbol_exposer.def( "isConstant" , isConstant_function_value ); } { //::SireCAS::Symbol::isFunction typedef bool ( ::SireCAS::Symbol::*isFunction_function_type )( ::SireCAS::Symbol const & ) const; isFunction_function_type isFunction_function_value( &::SireCAS::Symbol::isFunction ); Symbol_exposer.def( "isFunction" , isFunction_function_value , ( bp::arg("arg0") ) ); } { //::SireCAS::Symbol::isNull typedef bool ( ::SireCAS::Symbol::*isNull_function_type )( ) const; isNull_function_type isNull_function_value( &::SireCAS::Symbol::isNull ); Symbol_exposer.def( "isNull" , isNull_function_value ); } Symbol_exposer.def( bp::self < bp::self ); Symbol_exposer.def( bp::self <= bp::self ); { //::SireCAS::Symbol::operator= typedef ::SireCAS::Symbol & ( ::SireCAS::Symbol::*assign_function_type )( ::SireCAS::Symbol const & ) ; assign_function_type assign_function_value( &::SireCAS::Symbol::operator= ); Symbol_exposer.def( "assign" , assign_function_value , ( bp::arg("other") ) , bp::return_self< >() ); } { //::SireCAS::Symbol::operator= typedef ::SireCAS::Symbol & ( ::SireCAS::Symbol::*assign_function_type )( ::SireCAS::SymbolID ) ; assign_function_type assign_function_value( &::SireCAS::Symbol::operator= ); Symbol_exposer.def( "assign" , assign_function_value , ( bp::arg("symid") ) , bp::return_self< >() ); } Symbol_exposer.def( bp::self == bp::other< double >() ); Symbol_exposer.def( bp::self == bp::other< int >() ); Symbol_exposer.def( bp::self == bp::other< SireMaths::Complex >() ); Symbol_exposer.def( bp::self == bp::other< SireCAS::Expression >() ); Symbol_exposer.def( bp::self == bp::other< SireCAS::ExBase >() ); Symbol_exposer.def( bp::self > bp::self ); Symbol_exposer.def( bp::self >= bp::self ); { //::SireCAS::Symbol::substitute typedef ::SireCAS::Expression ( ::SireCAS::Symbol::*substitute_function_type )( ::SireCAS::Identities const & ) const; substitute_function_type substitute_function_value( &::SireCAS::Symbol::substitute ); Symbol_exposer.def( "substitute" , substitute_function_value , ( bp::arg("identities") ) ); } { //::SireCAS::Symbol::symbols typedef ::SireCAS::Symbols ( ::SireCAS::Symbol::*symbols_function_type )( ) const; symbols_function_type symbols_function_value( &::SireCAS::Symbol::symbols ); Symbol_exposer.def( "symbols" , symbols_function_value ); } { //::SireCAS::Symbol::toString typedef ::QString ( ::SireCAS::Symbol::*toString_function_type )( ) const; toString_function_type toString_function_value( &::SireCAS::Symbol::toString ); Symbol_exposer.def( "toString" , toString_function_value ); } { //::SireCAS::Symbol::typeName typedef char const * ( *typeName_function_type )( ); typeName_function_type typeName_function_value( &::SireCAS::Symbol::typeName ); Symbol_exposer.def( "typeName" , typeName_function_value ); } { //::SireCAS::Symbol::what typedef char const * ( ::SireCAS::Symbol::*what_function_type )( ) const; what_function_type what_function_value( &::SireCAS::Symbol::what ); Symbol_exposer.def( "what" , what_function_value ); } Symbol_exposer.staticmethod( "typeName" ); Symbol_exposer.def( "__copy__", &__copy__); Symbol_exposer.def( "__deepcopy__", &__copy__); Symbol_exposer.def( "clone", &__copy__); Symbol_exposer.def( "__rlshift__", &__rlshift__QDataStream< ::SireCAS::Symbol >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Symbol_exposer.def( "__rrshift__", &__rrshift__QDataStream< ::SireCAS::Symbol >, bp::return_internal_reference<1, bp::with_custodian_and_ward<1,2> >() ); Symbol_exposer.def( "__str__", &__str__< ::SireCAS::Symbol > ); Symbol_exposer.def( "__repr__", &__str__< ::SireCAS::Symbol > ); } }