test/bicgstab.cpp - mirror - Git at Google

 // This file is part of Eigen, a lightweight C++ template library
 // for linear algebra.
 //
 // Copyright (C) 2011 Gael Guennebaud <g.gael@free.fr>
 //
 // This Source Code Form is subject to the terms of the Mozilla
 // Public License v. 2.0. If a copy of the MPL was not distributed
 // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

 #include "sparse_solver.h"
 #include <Eigen/IterativeLinearSolvers>

 template <typename T, typename I_>
 void test_bicgstab_T() {
   BiCGSTAB<SparseMatrix<T, 0, I_>, DiagonalPreconditioner<T> > bicgstab_colmajor_diag;
   BiCGSTAB<SparseMatrix<T, 0, I_>, IdentityPreconditioner> bicgstab_colmajor_I;
   BiCGSTAB<SparseMatrix<T, 0, I_>, IncompleteLUT<T, I_> > bicgstab_colmajor_ilut;
   // BiCGSTAB<SparseMatrix<T>, SSORPreconditioner<T> >     bicgstab_colmajor_ssor;

   bicgstab_colmajor_diag.setTolerance(NumTraits<T>::epsilon() * 4);
   bicgstab_colmajor_ilut.setTolerance(NumTraits<T>::epsilon() * 4);

   CALL_SUBTEST(check_sparse_square_solving(bicgstab_colmajor_diag));
   //   CALL_SUBTEST( check_sparse_square_solving(bicgstab_colmajor_I)     );
   CALL_SUBTEST(check_sparse_square_solving(bicgstab_colmajor_ilut));
   // CALL_SUBTEST( check_sparse_square_solving(bicgstab_colmajor_ssor)     );
 }

 // https://gitlab.com/libeigen/eigen/-/issues/2856
 void test_2856() {
   Eigen::MatrixXd D = Eigen::MatrixXd::Identity(14, 14);
   D(6, 13) = 1;
   D(13, 12) = 1;
   using CSRMatrix = Eigen::SparseMatrix<double, Eigen::RowMajor>;
   CSRMatrix A = D.sparseView();

   Eigen::VectorXd b = Eigen::VectorXd::Zero(14);
   b(12) = -1001;

   Eigen::BiCGSTAB<CSRMatrix> solver;
   solver.compute(A);
   Eigen::VectorXd x = solver.solve(b);
   Eigen::VectorXd expected = Eigen::VectorXd::Zero(14);
   expected(6) = -1001;
   expected(12) = -1001;
   expected(13) = 1001;
   VERIFY_IS_EQUAL(x, expected);

   Eigen::VectorXd residual = b - A * x;
   VERIFY(residual.isZero());
 }

 // https://gitlab.com/libeigen/eigen/-/issues/2899
 void test_2899() {
   Eigen::MatrixXd A = Eigen::MatrixXd::Zero(4, 4);
   A(0, 0) = 1;
   A(1, 0) = -1.0 / 6;
   A(1, 1) = 2.0 / 3;
   A(1, 2) = -1.0 / 6;
   A(1, 3) = -1.0 / 3;
   A(2, 1) = -1.0 / 3;
   A(2, 2) = 1;
   A(2, 3) = -2.0 / 3;
   A(3, 1) = -1.0 / 3;
   A(3, 2) = -1.0 / 3;
   A(3, 3) = 2.0 / 3;
   Eigen::VectorXd b = Eigen::VectorXd::Zero(4);
   b(0) = 0;
   b(1) = 1;
   b(2) = 1;
   b(3) = 1;
   Eigen::BiCGSTAB<Eigen::MatrixXd> solver;
   solver.compute(A);
   Eigen::VectorXd x = solver.solve(b);
   Eigen::VectorXd expected(4);
   expected << 0, 15, 18, 18;
   VERIFY_IS_APPROX(x, expected);
   Eigen::VectorXd residual = b - A * x;
   VERIFY(residual.isZero());
 }

 EIGEN_DECLARE_TEST(bicgstab) {
   CALL_SUBTEST_1((test_bicgstab_T<double, int>()));
   CALL_SUBTEST_2((test_bicgstab_T<std::complex<double>, int>()));
   CALL_SUBTEST_3((test_bicgstab_T<double, long int>()));
   CALL_SUBTEST_4(test_2856());
   CALL_SUBTEST_5(test_2899());
 }
	// This file is part of Eigen, a lightweight C++ template library
	// for linear algebra.
	//
	// Copyright (C) 2011 Gael Guennebaud <g.gael@free.fr>
	//
	// This Source Code Form is subject to the terms of the Mozilla
	// Public License v. 2.0. If a copy of the MPL was not distributed
	// with this file, You can obtain one at http://mozilla.org/MPL/2.0/.

	#include "sparse_solver.h"
	#include <Eigen/IterativeLinearSolvers>

	template <typename T, typename I_>
	void test_bicgstab_T() {
	BiCGSTAB<SparseMatrix<T, 0, I_>, DiagonalPreconditioner<T> > bicgstab_colmajor_diag;
	BiCGSTAB<SparseMatrix<T, 0, I_>, IdentityPreconditioner> bicgstab_colmajor_I;
	BiCGSTAB<SparseMatrix<T, 0, I_>, IncompleteLUT<T, I_> > bicgstab_colmajor_ilut;
	// BiCGSTAB<SparseMatrix<T>, SSORPreconditioner<T> > bicgstab_colmajor_ssor;

	bicgstab_colmajor_diag.setTolerance(NumTraits<T>::epsilon() * 4);
	bicgstab_colmajor_ilut.setTolerance(NumTraits<T>::epsilon() * 4);

	CALL_SUBTEST(check_sparse_square_solving(bicgstab_colmajor_diag));
	// CALL_SUBTEST( check_sparse_square_solving(bicgstab_colmajor_I) );
	CALL_SUBTEST(check_sparse_square_solving(bicgstab_colmajor_ilut));
	// CALL_SUBTEST( check_sparse_square_solving(bicgstab_colmajor_ssor) );
	}

	// https://gitlab.com/libeigen/eigen/-/issues/2856
	void test_2856() {
	Eigen::MatrixXd D = Eigen::MatrixXd::Identity(14, 14);
	D(6, 13) = 1;
	D(13, 12) = 1;
	using CSRMatrix = Eigen::SparseMatrix<double, Eigen::RowMajor>;
	CSRMatrix A = D.sparseView();

	Eigen::VectorXd b = Eigen::VectorXd::Zero(14);
	b(12) = -1001;

	Eigen::BiCGSTAB<CSRMatrix> solver;
	solver.compute(A);
	Eigen::VectorXd x = solver.solve(b);
	Eigen::VectorXd expected = Eigen::VectorXd::Zero(14);
	expected(6) = -1001;
	expected(12) = -1001;
	expected(13) = 1001;
	VERIFY_IS_EQUAL(x, expected);

	Eigen::VectorXd residual = b - A * x;
	VERIFY(residual.isZero());
	}

	// https://gitlab.com/libeigen/eigen/-/issues/2899
	void test_2899() {
	Eigen::MatrixXd A = Eigen::MatrixXd::Zero(4, 4);
	A(0, 0) = 1;
	A(1, 0) = -1.0 / 6;
	A(1, 1) = 2.0 / 3;
	A(1, 2) = -1.0 / 6;
	A(1, 3) = -1.0 / 3;
	A(2, 1) = -1.0 / 3;
	A(2, 2) = 1;
	A(2, 3) = -2.0 / 3;
	A(3, 1) = -1.0 / 3;
	A(3, 2) = -1.0 / 3;
	A(3, 3) = 2.0 / 3;
	Eigen::VectorXd b = Eigen::VectorXd::Zero(4);
	b(0) = 0;
	b(1) = 1;
	b(2) = 1;
	b(3) = 1;
	Eigen::BiCGSTAB<Eigen::MatrixXd> solver;
	solver.compute(A);
	Eigen::VectorXd x = solver.solve(b);
	Eigen::VectorXd expected(4);
	expected << 0, 15, 18, 18;
	VERIFY_IS_APPROX(x, expected);
	Eigen::VectorXd residual = b - A * x;
	VERIFY(residual.isZero());
	}

	EIGEN_DECLARE_TEST(bicgstab) {
	CALL_SUBTEST_1((test_bicgstab_T<double, int>()));
	CALL_SUBTEST_2((test_bicgstab_T<std::complex<double>, int>()));
	CALL_SUBTEST_3((test_bicgstab_T<double, long int>()));
	CALL_SUBTEST_4(test_2856());
	CALL_SUBTEST_5(test_2899());
	}