vtk-m2/vtkm/internal/FunctionInterfaceDetailPost.h
Kenneth Moreland 93e42bc3e1 Remove Zip functionality in FunctionInterface.
The Zip function does not work when compiling with CUDA because it
forces the parameters to be in both the control and execution (host and
device) environments.
2015-01-12 18:08:32 -08:00

648 lines
19 KiB
C++

//============================================================================
// Copyright (c) Kitware, Inc.
// All rights reserved.
// See LICENSE.txt for details.
// This software is distributed WITHOUT ANY WARRANTY; without even
// the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
// PURPOSE. See the above copyright notice for more information.
//
// Copyright 2014 Sandia Corporation.
// Copyright 2014 UT-Battelle, LLC.
// Copyright 2014. Los Alamos National Security
//
// Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation,
// the U.S. Government retains certain rights in this software.
//
// Under the terms of Contract DE-AC52-06NA25396 with Los Alamos National
// Laboratory (LANL), the U.S. Government retains certain rights in
// this software.
//============================================================================
// **** DO NOT EDIT THIS FILE!!! ****
// This file is automatically generated by FunctionInterfaceDetailPost.h.in
#ifndef vtk_m_internal_FunctionInterfaceDetailPost_h
#define vtk_m_internal_FunctionInterfaceDetailPost_h
#if !defined(vtk_m_internal_FunctionInterface_h) && !defined(VTKM_TEST_HEADER_BUILD)
#error FunctionInterfaceDetailPre.h must be included from FunctionInterface.h
#endif
#include <vtkm/internal/FunctionInterface.h>
#if VTKM_MAX_FUNCTION_PARAMETERS != 10
#error Mismatch of maximum parameters between FunctionInterfaceDatailPre.h.in and FunctionInterfaceDetailPost.h.in
#endif
namespace vtkm {
namespace internal {
namespace detail {
//============================================================================
template<typename Transform,
typename R>
struct FunctionInterfaceStaticTransformType<R(), Transform> {
typedef R(type)(
);
};
template<typename Transform,
typename R,
typename P1>
struct FunctionInterfaceStaticTransformType<R(P1), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2>
struct FunctionInterfaceStaticTransformType<R(P1,P2), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5,P6), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type,
typename Transform::template ReturnType<P6>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5,P6,P7), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type,
typename Transform::template ReturnType<P6>::type,
typename Transform::template ReturnType<P7>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5,P6,P7,P8), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type,
typename Transform::template ReturnType<P6>::type,
typename Transform::template ReturnType<P7>::type,
typename Transform::template ReturnType<P8>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8,
typename P9>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5,P6,P7,P8,P9), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type,
typename Transform::template ReturnType<P6>::type,
typename Transform::template ReturnType<P7>::type,
typename Transform::template ReturnType<P8>::type,
typename Transform::template ReturnType<P9>::type
);
};
template<typename Transform,
typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8,
typename P9,
typename P10>
struct FunctionInterfaceStaticTransformType<R(P1,P2,P3,P4,P5,P6,P7,P8,P9,P10), Transform> {
typedef R(type)(
typename Transform::template ReturnType<P1>::type,
typename Transform::template ReturnType<P2>::type,
typename Transform::template ReturnType<P3>::type,
typename Transform::template ReturnType<P4>::type,
typename Transform::template ReturnType<P5>::type,
typename Transform::template ReturnType<P6>::type,
typename Transform::template ReturnType<P7>::type,
typename Transform::template ReturnType<P8>::type,
typename Transform::template ReturnType<P9>::type,
typename Transform::template ReturnType<P10>::type
);
};
} // namespace detail
//============================================================================
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R()>
make_FunctionInterface(
)
{
FunctionInterface<R()> fi;
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1)>
make_FunctionInterface(
P1 p1
)
{
FunctionInterface<R(P1)> fi;
fi.template SetParameter<1>(p1);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2)>
make_FunctionInterface(
P1 p1,
P2 p2
)
{
FunctionInterface<R(P1,P2)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3
)
{
FunctionInterface<R(P1,P2,P3)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4
)
{
FunctionInterface<R(P1,P2,P3,P4)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5
)
{
FunctionInterface<R(P1,P2,P3,P4,P5)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5,P6)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5,
P6 p6
)
{
FunctionInterface<R(P1,P2,P3,P4,P5,P6)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
fi.template SetParameter<6>(p6);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5,
P6 p6,
P7 p7
)
{
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
fi.template SetParameter<6>(p6);
fi.template SetParameter<7>(p7);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5,
P6 p6,
P7 p7,
P8 p8
)
{
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
fi.template SetParameter<6>(p6);
fi.template SetParameter<7>(p7);
fi.template SetParameter<8>(p8);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8,
typename P9>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8,P9)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5,
P6 p6,
P7 p7,
P8 p8,
P9 p9
)
{
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8,P9)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
fi.template SetParameter<6>(p6);
fi.template SetParameter<7>(p7);
fi.template SetParameter<8>(p8);
fi.template SetParameter<9>(p9);
return fi;
}
/// \brief Create a \c FunctionInterface
///
/// \c make_FunctionInterface is a function that takes a variable number of
/// arguments and returns a \c FunctionInterface object containing these
/// objects. Since the return type for the function signature is not specified,
/// you must always specify it as a template parameter
///
/// \code{.cpp}
/// vtkm::internal::FunctionInterface<void(int,double,char)> functionInterface =
/// vtkm::internal::make_FunctionInterface<void>(1, 2.5, 'a');
/// \endcode
///
template<typename R,
typename P1,
typename P2,
typename P3,
typename P4,
typename P5,
typename P6,
typename P7,
typename P8,
typename P9,
typename P10>
VTKM_EXEC_CONT_EXPORT
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8,P9,P10)>
make_FunctionInterface(
P1 p1,
P2 p2,
P3 p3,
P4 p4,
P5 p5,
P6 p6,
P7 p7,
P8 p8,
P9 p9,
P10 p10
)
{
FunctionInterface<R(P1,P2,P3,P4,P5,P6,P7,P8,P9,P10)> fi;
fi.template SetParameter<1>(p1);
fi.template SetParameter<2>(p2);
fi.template SetParameter<3>(p3);
fi.template SetParameter<4>(p4);
fi.template SetParameter<5>(p5);
fi.template SetParameter<6>(p6);
fi.template SetParameter<7>(p7);
fi.template SetParameter<8>(p8);
fi.template SetParameter<9>(p9);
fi.template SetParameter<10>(p10);
return fi;
}
}
} // namespace vtkm::internal
#endif //vtk_m_internal_FunctionInterfaceDetailPost_h