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298 lines
11 KiB
C++
298 lines
11 KiB
C++
//
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// Copyright (c) 2002--2010
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// Toon Knapen, Karl Meerbergen, Kresimir Fresl,
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// Thomas Klimpel and Rutger ter Borg
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//
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// Distributed under the Boost Software License, Version 1.0.
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// (See accompanying file LICENSE_1_0.txt or copy at
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// http://www.boost.org/LICENSE_1_0.txt)
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//
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// THIS FILE IS AUTOMATICALLY GENERATED
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// PLEASE DO NOT EDIT!
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//
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#ifndef BOOST_NUMERIC_BINDINGS_LAPACK_COMPUTATIONAL_TREXC_HPP
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#define BOOST_NUMERIC_BINDINGS_LAPACK_COMPUTATIONAL_TREXC_HPP
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#include <boost/assert.hpp>
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#include <boost/numeric/bindings/begin.hpp>
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#include <boost/numeric/bindings/detail/array.hpp>
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#include <boost/numeric/bindings/is_column_major.hpp>
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#include <boost/numeric/bindings/is_complex.hpp>
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#include <boost/numeric/bindings/is_mutable.hpp>
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#include <boost/numeric/bindings/is_real.hpp>
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#include <boost/numeric/bindings/lapack/workspace.hpp>
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#include <boost/numeric/bindings/remove_imaginary.hpp>
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#include <boost/numeric/bindings/size.hpp>
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#include <boost/numeric/bindings/stride.hpp>
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#include <boost/numeric/bindings/value_type.hpp>
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#include <boost/static_assert.hpp>
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#include <boost/type_traits/is_same.hpp>
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#include <boost/type_traits/remove_const.hpp>
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#include <boost/utility/enable_if.hpp>
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//
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// The LAPACK-backend for trexc is the netlib-compatible backend.
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//
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#include <boost/numeric/bindings/lapack/detail/lapack.h>
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#include <boost/numeric/bindings/lapack/detail/lapack_option.hpp>
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namespace boost {
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namespace numeric {
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namespace bindings {
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namespace lapack {
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//
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// The detail namespace contains value-type-overloaded functions that
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// dispatch to the appropriate back-end LAPACK-routine.
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//
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namespace detail {
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//
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// Overloaded function for dispatching to
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// * netlib-compatible LAPACK backend (the default), and
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// * float value-type.
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//
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inline std::ptrdiff_t trexc( const char compq, const fortran_int_t n, float* t,
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const fortran_int_t ldt, float* q, const fortran_int_t ldq,
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fortran_int_t& ifst, fortran_int_t& ilst, float* work ) {
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fortran_int_t info(0);
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LAPACK_STREXC( &compq, &n, t, &ldt, q, &ldq, &ifst, &ilst, work, &info );
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return info;
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}
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//
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// Overloaded function for dispatching to
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// * netlib-compatible LAPACK backend (the default), and
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// * double value-type.
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//
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inline std::ptrdiff_t trexc( const char compq, const fortran_int_t n,
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double* t, const fortran_int_t ldt, double* q,
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const fortran_int_t ldq, fortran_int_t& ifst, fortran_int_t& ilst,
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double* work ) {
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fortran_int_t info(0);
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LAPACK_DTREXC( &compq, &n, t, &ldt, q, &ldq, &ifst, &ilst, work, &info );
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return info;
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}
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//
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// Overloaded function for dispatching to
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// * netlib-compatible LAPACK backend (the default), and
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// * complex<float> value-type.
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//
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inline std::ptrdiff_t trexc( const char compq, const fortran_int_t n,
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std::complex<float>* t, const fortran_int_t ldt,
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std::complex<float>* q, const fortran_int_t ldq,
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const fortran_int_t ifst, const fortran_int_t ilst ) {
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fortran_int_t info(0);
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LAPACK_CTREXC( &compq, &n, t, &ldt, q, &ldq, &ifst, &ilst, &info );
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return info;
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}
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//
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// Overloaded function for dispatching to
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// * netlib-compatible LAPACK backend (the default), and
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// * complex<double> value-type.
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//
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inline std::ptrdiff_t trexc( const char compq, const fortran_int_t n,
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std::complex<double>* t, const fortran_int_t ldt,
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std::complex<double>* q, const fortran_int_t ldq,
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const fortran_int_t ifst, const fortran_int_t ilst ) {
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fortran_int_t info(0);
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LAPACK_ZTREXC( &compq, &n, t, &ldt, q, &ldq, &ifst, &ilst, &info );
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return info;
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}
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} // namespace detail
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//
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// Value-type based template class. Use this class if you need a type
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// for dispatching to trexc.
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//
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template< typename Value, typename Enable = void >
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struct trexc_impl {};
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//
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// This implementation is enabled if Value is a real type.
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//
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template< typename Value >
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struct trexc_impl< Value, typename boost::enable_if< is_real< Value > >::type > {
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typedef Value value_type;
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typedef typename remove_imaginary< Value >::type real_type;
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//
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// Static member function for user-defined workspaces, that
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// * Deduces the required arguments for dispatching to LAPACK, and
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// * Asserts that most arguments make sense.
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//
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template< typename MatrixT, typename MatrixQ, typename WORK >
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static std::ptrdiff_t invoke( const char compq, MatrixT& t, MatrixQ& q,
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fortran_int_t& ifst, fortran_int_t& ilst,
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detail::workspace1< WORK > work ) {
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namespace bindings = ::boost::numeric::bindings;
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BOOST_STATIC_ASSERT( (bindings::is_column_major< MatrixT >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_column_major< MatrixQ >::value) );
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BOOST_STATIC_ASSERT( (boost::is_same< typename remove_const<
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typename bindings::value_type< MatrixT >::type >::type,
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typename remove_const< typename bindings::value_type<
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MatrixQ >::type >::type >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_mutable< MatrixT >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_mutable< MatrixQ >::value) );
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BOOST_ASSERT( bindings::size(work.select(real_type())) >=
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min_size_work( bindings::size_column(t) ));
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BOOST_ASSERT( bindings::size_column(t) >= 0 );
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BOOST_ASSERT( bindings::size_minor(q) == 1 ||
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bindings::stride_minor(q) == 1 );
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BOOST_ASSERT( bindings::size_minor(t) == 1 ||
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bindings::stride_minor(t) == 1 );
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BOOST_ASSERT( bindings::stride_major(q) >= std::max< std::ptrdiff_t >(1,
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bindings::size_column(t)) );
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BOOST_ASSERT( bindings::stride_major(t) >= std::max< std::ptrdiff_t >(1,
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bindings::size_column(t)) );
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BOOST_ASSERT( compq == 'V' || compq == 'N' );
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return detail::trexc( compq, bindings::size_column(t),
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bindings::begin_value(t), bindings::stride_major(t),
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bindings::begin_value(q), bindings::stride_major(q), ifst,
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ilst, bindings::begin_value(work.select(real_type())) );
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}
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//
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// Static member function that
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// * Figures out the minimal workspace requirements, and passes
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// the results to the user-defined workspace overload of the
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// invoke static member function
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// * Enables the unblocked algorithm (BLAS level 2)
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//
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template< typename MatrixT, typename MatrixQ >
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static std::ptrdiff_t invoke( const char compq, MatrixT& t, MatrixQ& q,
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fortran_int_t& ifst, fortran_int_t& ilst,
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minimal_workspace ) {
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namespace bindings = ::boost::numeric::bindings;
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bindings::detail::array< real_type > tmp_work( min_size_work(
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bindings::size_column(t) ) );
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return invoke( compq, t, q, ifst, ilst, workspace( tmp_work ) );
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}
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//
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// Static member function that
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// * Figures out the optimal workspace requirements, and passes
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// the results to the user-defined workspace overload of the
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// invoke static member
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// * Enables the blocked algorithm (BLAS level 3)
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//
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template< typename MatrixT, typename MatrixQ >
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static std::ptrdiff_t invoke( const char compq, MatrixT& t, MatrixQ& q,
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fortran_int_t& ifst, fortran_int_t& ilst,
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optimal_workspace ) {
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namespace bindings = ::boost::numeric::bindings;
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return invoke( compq, t, q, ifst, ilst, minimal_workspace() );
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}
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//
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// Static member function that returns the minimum size of
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// workspace-array work.
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//
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static std::ptrdiff_t min_size_work( const std::ptrdiff_t n ) {
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return n;
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}
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};
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//
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// This implementation is enabled if Value is a complex type.
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//
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template< typename Value >
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struct trexc_impl< Value, typename boost::enable_if< is_complex< Value > >::type > {
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typedef Value value_type;
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typedef typename remove_imaginary< Value >::type real_type;
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//
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// Static member function, that
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// * Deduces the required arguments for dispatching to LAPACK, and
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// * Asserts that most arguments make sense.
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//
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template< typename MatrixT, typename MatrixQ >
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static std::ptrdiff_t invoke( const char compq, MatrixT& t, MatrixQ& q,
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const fortran_int_t ifst, const fortran_int_t ilst ) {
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namespace bindings = ::boost::numeric::bindings;
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BOOST_STATIC_ASSERT( (bindings::is_column_major< MatrixT >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_column_major< MatrixQ >::value) );
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BOOST_STATIC_ASSERT( (boost::is_same< typename remove_const<
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typename bindings::value_type< MatrixT >::type >::type,
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typename remove_const< typename bindings::value_type<
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MatrixQ >::type >::type >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_mutable< MatrixT >::value) );
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BOOST_STATIC_ASSERT( (bindings::is_mutable< MatrixQ >::value) );
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BOOST_ASSERT( bindings::size_column(t) >= 0 );
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BOOST_ASSERT( bindings::size_minor(q) == 1 ||
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bindings::stride_minor(q) == 1 );
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BOOST_ASSERT( bindings::size_minor(t) == 1 ||
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bindings::stride_minor(t) == 1 );
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BOOST_ASSERT( bindings::stride_major(q) >= std::max< std::ptrdiff_t >(1,
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bindings::size_column(t)) );
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BOOST_ASSERT( bindings::stride_major(t) >= std::max< std::ptrdiff_t >(1,
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bindings::size_column(t)) );
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BOOST_ASSERT( compq == 'V' || compq == 'N' );
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return detail::trexc( compq, bindings::size_column(t),
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bindings::begin_value(t), bindings::stride_major(t),
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bindings::begin_value(q), bindings::stride_major(q), ifst,
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ilst );
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}
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};
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//
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// Functions for direct use. These functions are overloaded for temporaries,
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// so that wrapped types can still be passed and used for write-access. In
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// addition, if applicable, they are overloaded for user-defined workspaces.
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// Calls to these functions are passed to the trexc_impl classes. In the
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// documentation, most overloads are collapsed to avoid a large number of
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// prototypes which are very similar.
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//
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//
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// Overloaded function for trexc. Its overload differs for
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// * User-defined workspace
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//
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template< typename MatrixT, typename MatrixQ, typename Workspace >
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inline typename boost::enable_if< detail::is_workspace< Workspace >,
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std::ptrdiff_t >::type
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trexc( const char compq, MatrixT& t, MatrixQ& q, fortran_int_t& ifst,
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fortran_int_t& ilst, Workspace work ) {
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return trexc_impl< typename bindings::value_type<
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MatrixT >::type >::invoke( compq, t, q, ifst, ilst, work );
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}
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//
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// Overloaded function for trexc. Its overload differs for
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// * Default workspace-type (optimal)
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//
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template< typename MatrixT, typename MatrixQ >
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inline typename boost::disable_if< detail::is_workspace< MatrixQ >,
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std::ptrdiff_t >::type
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trexc( const char compq, MatrixT& t, MatrixQ& q, fortran_int_t& ifst,
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fortran_int_t& ilst ) {
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return trexc_impl< typename bindings::value_type<
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MatrixT >::type >::invoke( compq, t, q, ifst, ilst,
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optimal_workspace() );
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}
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//
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// Overloaded function for trexc. Its overload differs for
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//
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template< typename MatrixT, typename MatrixQ >
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inline std::ptrdiff_t trexc( const char compq, MatrixT& t, MatrixQ& q,
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const fortran_int_t ifst, const fortran_int_t ilst ) {
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return trexc_impl< typename bindings::value_type<
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MatrixT >::type >::invoke( compq, t, q, ifst, ilst );
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}
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} // namespace lapack
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} // namespace bindings
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} // namespace numeric
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} // namespace boost
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#endif
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