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scal.hpp
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scal.hpp
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//
// Copyright (c) 2002--2010
// Toon Knapen, Karl Meerbergen, Kresimir Fresl,
// Thomas Klimpel and Rutger ter Borg
//
// Distributed under the Boost Software License, Version 1.0.
// (See accompanying file LICENSE_1_0.txt or copy at
// http://www.boost.org/LICENSE_1_0.txt)
//
// THIS FILE IS AUTOMATICALLY GENERATED
// PLEASE DO NOT EDIT!
//
#ifndef BOOST_NUMERIC_BINDINGS_BLAS_LEVEL1_SCAL_HPP
#define BOOST_NUMERIC_BINDINGS_BLAS_LEVEL1_SCAL_HPP
#include <boost/assert.hpp>
#include <Core/Utils/numeric/bindings/begin.hpp>
#include <Core/Utils/numeric/bindings/has_linear_array.hpp>
#include <Core/Utils/numeric/bindings/is_mutable.hpp>
#include <Core/Utils/numeric/bindings/remove_imaginary.hpp>
#include <Core/Utils/numeric/bindings/size.hpp>
#include <Core/Utils/numeric/bindings/stride.hpp>
#include <Core/Utils/numeric/bindings/value_type.hpp>
#include <boost/static_assert.hpp>
#include <boost/type_traits/is_same.hpp>
#include <boost/type_traits/remove_const.hpp>
//
// The BLAS-backend is selected by defining a pre-processor variable,
// which can be one of
// * for CBLAS, define BOOST_NUMERIC_BINDINGS_BLAS_CBLAS
// * for CUBLAS, define BOOST_NUMERIC_BINDINGS_BLAS_CUBLAS
// * netlib-compatible BLAS is the default
//
#if defined BOOST_NUMERIC_BINDINGS_BLAS_CBLAS
#include <Core/Utils/numeric/bindings/blas/detail/cblas.h>
#include <Core/Utils/numeric/bindings/blas/detail/cblas_option.hpp>
#elif defined BOOST_NUMERIC_BINDINGS_BLAS_CUBLAS
#include <Core/Utils/numeric/bindings/blas/detail/cublas.h>
#include <Core/Utils/numeric/bindings/blas/detail/blas_option.hpp>
#else
#include <Core/Utils/numeric/bindings/blas/detail/blas.h>
#include <Core/Utils/numeric/bindings/blas/detail/blas_option.hpp>
#endif
namespace boost {
namespace numeric {
namespace bindings {
namespace blas {
//
// The detail namespace contains value-type-overloaded functions that
// dispatch to the appropriate back-end BLAS-routine.
//
namespace detail {
#if defined BOOST_NUMERIC_BINDINGS_BLAS_CBLAS
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * float value-type.
//
inline void scal( const int n, const float a, float* x, const int incx ) {
cblas_sscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * double value-type.
//
inline void scal( const int n, const double a, double* x, const int incx ) {
cblas_dscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * combined float and complex<float> value-type.
//
inline void scal( const int n, const float a, std::complex<float>* x,
const int incx ) {
cblas_csscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * combined double and complex<double> value-type.
//
inline void scal( const int n, const double a, std::complex<double>* x,
const int incx ) {
cblas_zdscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * complex<float> value-type.
//
inline void scal( const int n, const std::complex<float> a,
std::complex<float>* x, const int incx ) {
cblas_cscal( n, &a, x, incx );
}
//
// Overloaded function for dispatching to
// * CBLAS backend, and
// * complex<double> value-type.
//
inline void scal( const int n, const std::complex<double> a,
std::complex<double>* x, const int incx ) {
cblas_zscal( n, &a, x, incx );
}
#elif defined BOOST_NUMERIC_BINDINGS_BLAS_CUBLAS
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * float value-type.
//
inline void scal( const int n, const float a, float* x, const int incx ) {
cublasSscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * double value-type.
//
inline void scal( const int n, const double a, double* x, const int incx ) {
cublasDscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * combined float and complex<float> value-type.
//
inline void scal( const int n, const float a, std::complex<float>* x,
const int incx ) {
cublasCsscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * combined double and complex<double> value-type.
//
inline void scal( const int n, const double a, std::complex<double>* x,
const int incx ) {
cublasZdscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * complex<float> value-type.
//
inline void scal( const int n, const std::complex<float> a,
std::complex<float>* x, const int incx ) {
cublasCscal( n, a, x, incx );
}
//
// Overloaded function for dispatching to
// * CUBLAS backend, and
// * complex<double> value-type.
//
inline void scal( const int n, const std::complex<double> a,
std::complex<double>* x, const int incx ) {
cublasZscal( n, a, x, incx );
}
#else
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * float value-type.
//
inline void scal( const fortran_int_t n, const float a, float* x,
const fortran_int_t incx ) {
BLAS_SSCAL( &n, &a, x, &incx );
}
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * double value-type.
//
inline void scal( const fortran_int_t n, const double a, double* x,
const fortran_int_t incx ) {
BLAS_DSCAL( &n, &a, x, &incx );
}
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * combined float and complex<float> value-type.
//
inline void scal( const fortran_int_t n, const float a,
std::complex<float>* x, const fortran_int_t incx ) {
BLAS_CSSCAL( &n, &a, x, &incx );
}
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * combined double and complex<double> value-type.
//
inline void scal( const fortran_int_t n, const double a,
std::complex<double>* x, const fortran_int_t incx ) {
BLAS_ZDSCAL( &n, &a, x, &incx );
}
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * complex<float> value-type.
//
inline void scal( const fortran_int_t n, const std::complex<float> a,
std::complex<float>* x, const fortran_int_t incx ) {
BLAS_CSCAL( &n, &a, x, &incx );
}
//
// Overloaded function for dispatching to
// * netlib-compatible BLAS backend (the default), and
// * complex<double> value-type.
//
inline void scal( const fortran_int_t n, const std::complex<double> a,
std::complex<double>* x, const fortran_int_t incx ) {
BLAS_ZSCAL( &n, &a, x, &incx );
}
#endif
} // namespace detail
//
// Value-type based template class. Use this class if you need a type
// for dispatching to scal.
//
template< typename Value >
struct scal_impl {
typedef Value value_type;
typedef typename remove_imaginary< Value >::type real_type;
typedef void result_type;
//
// Static member function that
// * Deduces the required arguments for dispatching to BLAS, and
// * Asserts that most arguments make sense.
//
template< typename ScalarA, typename VectorX >
static result_type invoke( const ScalarA a, VectorX& x ) {
namespace bindings = ::boost::numeric::bindings;
BOOST_STATIC_ASSERT( (bindings::has_linear_array< VectorX >::value) );
BOOST_STATIC_ASSERT( (bindings::is_mutable< VectorX >::value) );
detail::scal( bindings::size(x), a, bindings::begin_value(x),
bindings::stride(x) );
}
};
//
// Functions for direct use. These functions are overloaded for temporaries,
// so that wrapped types can still be passed and used for write-access. Calls
// to these functions are passed to the scal_impl classes. In the
// documentation, the const-overloads are collapsed to avoid a large number of
// prototypes which are very similar.
//
//
// Overloaded function for scal. Its overload differs for
//
template< typename ScalarA, typename VectorX >
inline typename scal_impl< typename bindings::value_type<
VectorX >::type >::result_type
scal( const ScalarA a, VectorX& x ) {
scal_impl< typename bindings::value_type<
VectorX >::type >::invoke( a, x );
}
} // namespace blas
} // namespace bindings
} // namespace numeric
} // namespace boost
#endif