2010-11-23 01:49:12 +08:00
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// This file is part of Eigen, a lightweight C++ template library
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// for linear algebra.
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//
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// Copyright (C) 2009-2010 Gael Guennebaud <gael.guennebaud@inria.fr>
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//
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2012-07-14 02:42:47 +08:00
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// This Source Code Form is subject to the terms of the Mozilla
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// Public License v. 2.0. If a copy of the MPL was not distributed
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// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
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2010-11-23 01:49:12 +08:00
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#include "common.h"
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struct scalar_norm1_op {
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typedef RealScalar result_type;
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EIGEN_EMPTY_STRUCT_CTOR(scalar_norm1_op)
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2013-06-12 23:56:15 +08:00
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inline RealScalar operator() (const Scalar& a) const { return numext::norm1(a); }
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2010-11-23 01:49:12 +08:00
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};
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namespace Eigen {
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namespace internal {
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template<> struct functor_traits<scalar_norm1_op >
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{
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enum { Cost = 3 * NumTraits<Scalar>::AddCost, PacketAccess = 0 };
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};
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}
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}
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// computes the sum of magnitudes of all vector elements or, for a complex vector x, the sum
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// res = |Rex1| + |Imx1| + |Rex2| + |Imx2| + ... + |Rexn| + |Imxn|, where x is a vector of order n
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RealScalar EIGEN_CAT(EIGEN_CAT(REAL_SCALAR_SUFFIX,SCALAR_SUFFIX),asum_)(int *n, RealScalar *px, int *incx)
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{
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// std::cerr << "__asum " << *n << " " << *incx << "\n";
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Complex* x = reinterpret_cast<Complex*>(px);
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if(*n<=0) return 0;
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2014-04-01 17:23:28 +08:00
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if(*incx==1) return make_vector(x,*n).unaryExpr<scalar_norm1_op>().sum();
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else return make_vector(x,*n,std::abs(*incx)).unaryExpr<scalar_norm1_op>().sum();
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2010-11-23 01:49:12 +08:00
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}
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// computes a dot product of a conjugated vector with another vector.
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2011-02-18 22:11:31 +08:00
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int EIGEN_BLAS_FUNC(dotcw)(int *n, RealScalar *px, int *incx, RealScalar *py, int *incy, RealScalar* pres)
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2010-11-23 01:49:12 +08:00
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{
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2014-04-01 17:23:28 +08:00
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// std::cerr << "_dotc " << *n << " " << *incx << " " << *incy << "\n";
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2013-10-02 04:37:10 +08:00
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Scalar* res = reinterpret_cast<Scalar*>(pres);
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2010-11-23 01:49:12 +08:00
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2013-10-02 04:37:10 +08:00
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if(*n<=0)
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{
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*res = Scalar(0);
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return 0;
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}
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2010-11-23 01:49:12 +08:00
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Scalar* x = reinterpret_cast<Scalar*>(px);
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Scalar* y = reinterpret_cast<Scalar*>(py);
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2011-02-18 22:11:31 +08:00
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2014-04-01 17:23:28 +08:00
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if(*incx==1 && *incy==1) *res = (make_vector(x,*n).dot(make_vector(y,*n)));
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else if(*incx>0 && *incy>0) *res = (make_vector(x,*n,*incx).dot(make_vector(y,*n,*incy)));
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else if(*incx<0 && *incy>0) *res = (make_vector(x,*n,-*incx).reverse().dot(make_vector(y,*n,*incy)));
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else if(*incx>0 && *incy<0) *res = (make_vector(x,*n,*incx).dot(make_vector(y,*n,-*incy).reverse()));
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else if(*incx<0 && *incy<0) *res = (make_vector(x,*n,-*incx).reverse().dot(make_vector(y,*n,-*incy).reverse()));
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2011-02-18 22:11:31 +08:00
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return 0;
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2010-11-23 01:49:12 +08:00
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}
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// computes a vector-vector dot product without complex conjugation.
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2011-02-18 22:11:31 +08:00
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int EIGEN_BLAS_FUNC(dotuw)(int *n, RealScalar *px, int *incx, RealScalar *py, int *incy, RealScalar* pres)
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2010-11-23 01:49:12 +08:00
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{
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2013-10-02 04:37:10 +08:00
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Scalar* res = reinterpret_cast<Scalar*>(pres);
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2010-11-23 01:49:12 +08:00
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2013-10-02 04:37:10 +08:00
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if(*n<=0)
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{
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*res = Scalar(0);
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return 0;
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}
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2010-11-23 01:49:12 +08:00
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Scalar* x = reinterpret_cast<Scalar*>(px);
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Scalar* y = reinterpret_cast<Scalar*>(py);
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2011-02-18 22:11:31 +08:00
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2014-04-01 17:23:28 +08:00
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if(*incx==1 && *incy==1) *res = (make_vector(x,*n).cwiseProduct(make_vector(y,*n))).sum();
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else if(*incx>0 && *incy>0) *res = (make_vector(x,*n,*incx).cwiseProduct(make_vector(y,*n,*incy))).sum();
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else if(*incx<0 && *incy>0) *res = (make_vector(x,*n,-*incx).reverse().cwiseProduct(make_vector(y,*n,*incy))).sum();
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else if(*incx>0 && *incy<0) *res = (make_vector(x,*n,*incx).cwiseProduct(make_vector(y,*n,-*incy).reverse())).sum();
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else if(*incx<0 && *incy<0) *res = (make_vector(x,*n,-*incx).reverse().cwiseProduct(make_vector(y,*n,-*incy).reverse())).sum();
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2011-02-18 22:11:31 +08:00
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return 0;
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2010-11-23 01:49:12 +08:00
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}
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RealScalar EIGEN_CAT(EIGEN_CAT(REAL_SCALAR_SUFFIX,SCALAR_SUFFIX),nrm2_)(int *n, RealScalar *px, int *incx)
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{
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// std::cerr << "__nrm2 " << *n << " " << *incx << "\n";
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if(*n<=0) return 0;
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Scalar* x = reinterpret_cast<Scalar*>(px);
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if(*incx==1)
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2014-04-01 17:23:28 +08:00
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return make_vector(x,*n).stableNorm();
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2010-11-23 01:49:12 +08:00
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2014-04-01 17:23:28 +08:00
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return make_vector(x,*n,*incx).stableNorm();
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2010-11-23 01:49:12 +08:00
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}
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int EIGEN_CAT(EIGEN_CAT(SCALAR_SUFFIX,REAL_SCALAR_SUFFIX),rot_)(int *n, RealScalar *px, int *incx, RealScalar *py, int *incy, RealScalar *pc, RealScalar *ps)
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{
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if(*n<=0) return 0;
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Scalar* x = reinterpret_cast<Scalar*>(px);
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Scalar* y = reinterpret_cast<Scalar*>(py);
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RealScalar c = *pc;
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RealScalar s = *ps;
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2014-04-01 17:23:28 +08:00
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StridedVectorType vx(make_vector(x,*n,std::abs(*incx)));
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StridedVectorType vy(make_vector(y,*n,std::abs(*incy)));
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2010-11-23 01:49:12 +08:00
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Reverse<StridedVectorType> rvx(vx);
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Reverse<StridedVectorType> rvy(vy);
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// TODO implement mixed real-scalar rotations
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if(*incx<0 && *incy>0) internal::apply_rotation_in_the_plane(rvx, vy, JacobiRotation<Scalar>(c,s));
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else if(*incx>0 && *incy<0) internal::apply_rotation_in_the_plane(vx, rvy, JacobiRotation<Scalar>(c,s));
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else internal::apply_rotation_in_the_plane(vx, vy, JacobiRotation<Scalar>(c,s));
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return 0;
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}
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int EIGEN_CAT(EIGEN_CAT(SCALAR_SUFFIX,REAL_SCALAR_SUFFIX),scal_)(int *n, RealScalar *palpha, RealScalar *px, int *incx)
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{
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if(*n<=0) return 0;
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Scalar* x = reinterpret_cast<Scalar*>(px);
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RealScalar alpha = *palpha;
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// std::cerr << "__scal " << *n << " " << alpha << " " << *incx << "\n";
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2014-04-01 17:23:28 +08:00
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if(*incx==1) make_vector(x,*n) *= alpha;
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else make_vector(x,*n,std::abs(*incx)) *= alpha;
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2010-11-23 01:49:12 +08:00
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return 0;
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}
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