hydra::CosHelicityAngle Class Reference

#include <CosHelicityAngle.h>

Inheritance diagram for hydra::CosHelicityAngle:

Collaboration diagram for hydra::CosHelicityAngle:

Public Member Functions
	CosHelicityAngle ()=default
__hydra_host__ __hydra_device__	CosHelicityAngle (CosHelicityAngle const &other)
__hydra_host__ __hydra_device__ double	Evaluate (Vector4R const &P, Vector4R const &Q, Vector4R const &D) const
__hydra_host__ __hydra_device__ CosHelicityAngle &	operator= (CosHelicityAngle const &other)
Public Member Functions inherited from hydra::BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), 0 >
__hydra_host__ __hydra_device__	BaseFunctor ()
	Default constructor. More...
	BaseFunctor (std::initializer_list< Parameter > init_parameters)
	Constructor taking a list of parameters. More...
	BaseFunctor (std::array< Parameter, NPARAM > const &init_parameters)
	Constructor taking std::array of parameters. More...
__hydra_host__ __hydra_device__	BaseFunctor (BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), NPARAM > const &other)
	Copy constructor. More...
__hydra_host__ __hydra_device__ CosHelicityAngle &	GetFunctor ()
__hydra_host__ __hydra_device__ GReal_t	GetNorm () const
__hydra_host__ __hydra_device__ std::enable_if<(!detail::is_valid_type_pack< argument_type, T... >::value), return_type >::type	operator() (T...x) const
__hydra_host__ __hydra_device__ std::enable_if< detail::is_valid_type_pack< argument_type, T... >::value, return_type >::type	operator() (T...x) const
	Function call operator overload taking a pack of parameters convertible to the lambda signature. More...
__hydra_host__ __hydra_device__ std::enable_if<(detail::is_tuple_type< typename std::decay< T >::type >::value) &&(!detail::is_tuple_of_function_arguments< typename std::decay< T >::type >::value) &&(hydra::thrust::detail::is_convertible< typename std::decay< T >::type, argument_type >::value), return_type >::type	operator() (T x) const
	Unary function call operator overload taking a tuple containing the lambda arguments in any other. More...
__hydra_host__ __hydra_device__ std::enable_if<(detail::is_tuple_type< typename std::decay< T >::type >::value) &&(detail::is_tuple_of_function_arguments< typename std::decay< T >::type >::value), return_type >::type	operator() (T x) const
	Unary function call operator overload taking a tuple containing the lambda arguments in any other. More...
__hydra_host__ __hydra_device__ std::enable_if<(detail::is_tuple_type< typename std::decay< T1 >::type >::value) &&(detail::is_tuple_of_function_arguments< typename std::decay< T1 >::type >::value) &&(detail::is_tuple_type< typename std::decay< T2 >::type >::value) &&(detail::is_tuple_of_function_arguments< typename std::decay< T2 >::type >::value), return_type >::type	operator() (T1 x, T2 y) const
	Binary function call operator overload taking two tuples containing the lambda arguments in any other. More...
__hydra_host__ __hydra_device__ std::enable_if<(!detail::is_tuple_type< typename std::decay< T1 >::type >::value) &&(detail::is_function_argument< typename std::decay< T1 >::type >::value) &&(detail::is_tuple_type< typename std::decay< T2 >::type >::value) &&(detail::is_tuple_of_function_arguments< typename std::decay< T2 >::type >::value), return_type >::type	operator() (T1 x, T2 y) const
	Binary function call operator overload taking one tuple and a non-tuple, that containing put together would contain the lambda arguments in any order. More...
__hydra_host__ __hydra_device__ std::enable_if<(!detail::is_tuple_type< typename std::decay< T1 >::type >::value) &&(detail::is_function_argument< typename std::decay< T1 >::type >::value) &&(detail::is_tuple_type< typename std::decay< T2 >::type >::value) &&(detail::is_tuple_of_function_arguments< typename std::decay< T2 >::type >::value), return_type >::type	operator() (T2 y, T1 x) const
	Binary function call operator overload taking one tuple and a non-tuple, that containing put together would contain the lambda arguments in any other. More...
__hydra_host__ __hydra_device__ BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), NPARAM > &	operator= (BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), NPARAM > const &other)
	Assignment operator. More...
void	PrintRegisteredParameters ()
	Print registered parameters. More...
__hydra_host__ __hydra_device__ void	SetNorm (GReal_t norm)
Public Member Functions inherited from hydra::detail::Parameters< NPARAM >
	Parameters ()=default
	Parameters (std::initializer_list< hydra::Parameter > init_parameters)
	Parameters (std::array< hydra::Parameter, N > const &init_parameters)
__hydra_host__ __hydra_device__	Parameters (hydra::Parameter(&init_parameters)[N])
__hydra_host__ __hydra_device__	Parameters (Parameters< N > const &other)
void	AddUserParameters (std::vector< hydra::Parameter * > &user_parameters)
__hydra_host__ __hydra_device__ size_t	GetNumberOfParameters () const
__hydra_host__ __hydra_device__ const hydra::Parameter &	GetParameter (Int i) const
__hydra_host__ const hydra::Parameter &	GetParameter (const char *name) const
__hydra_host__ __hydra_device__ const hydra::Parameter *	GetParameters () const
size_t	GetParametersKey ()
__hydra_host__ __hydra_device__ Parameters< N > &	operator= (Parameters< N > const &other)
__hydra_host__ __hydra_device__ GReal_t	operator[] (Int i) const
__hydra_host__ __hydra_device__ hydra::Parameter &	Parameter (Int i)
__hydra_host__ hydra::Parameter &	Parameter (const char *name)
void	PrintParameters ()
	Print registered parameters. More...
__hydra_host__ __hydra_device__ void	SetParameter (Int i, hydra::Parameter const &value)
__hydra_host__ __hydra_device__ void	SetParameter (Int i, double value)
__hydra_host__ void	SetParameter (const char *name, hydra::Parameter const &value)
__hydra_host__ void	SetParameter (const char *name, double value)
__hydra_host__ void	SetParameters (const std::vector< double > &parameters)
	Set parameters. More...
virtual void	Update (void)
	This method offers an opportunity to redo calculations and update values that depends only on the functor parameters. More...

Additional Inherited Members
Public Types inherited from hydra::BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), 0 >
enum
typedef detail::signature_traits< double(Vector4R, Vector4R, Vector4R) >::argument_type	argument_type
typedef void	hydra_functor_type
typedef detail::signature_traits< double(Vector4R, Vector4R, Vector4R) >::return_type	return_type
Static Public Attributes inherited from hydra::detail::Parameters< NPARAM >
static const size_t	parameter_count
Protected Attributes inherited from hydra::BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), 0 >
BaseFunctor< CosHelicityAngle, double(Vector4R, Vector4R, Vector4R), NPARAM > &	_par

Detailed Description

Examples:

dalitz_plot.C, dalitz_plot.inl, and phsp_averaging_functor.inl.

Constructor & Destructor Documentation

CosHelicityAngle() [1/2]

hydra::CosHelicityAngle::CosHelicityAngle ( )

default

CosHelicityAngle() [2/2]

__hydra_host__ __hydra_device__ hydra::CosHelicityAngle::CosHelicityAngle ( CosHelicityAngle const &  other )

inline

Member Function Documentation

Evaluate()

__hydra_host__ __hydra_device__ double hydra::CosHelicityAngle::Evaluate ( Vector4R const &  P, Vector4R const &  Q, Vector4R const &  D  ) const

inline

operator=()

__hydra_host__ __hydra_device__ CosHelicityAngle& hydra::CosHelicityAngle::operator= ( CosHelicityAngle const &  other )

inline

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The documentation for this class was generated from the following file:

• CosHelicityAngle.h