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// This file is part of Eigen, a lightweight C++ template library
// for linear algebra.
//
// Copyright (C) 2010 Jitse Niesen <jitse@maths.leeds.ac.uk>
//
// 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 "main.h"
#include <limits>
#include <Eigen/Eigenvalues>
template<typename MatrixType> void schur(int size = MatrixType::ColsAtCompileTime) { typedef typename ComplexSchur<MatrixType>::ComplexScalar ComplexScalar; typedef typename ComplexSchur<MatrixType>::ComplexMatrixType ComplexMatrixType;
// Test basic functionality: T is triangular and A = U T U*
for(int counter = 0; counter < g_repeat; ++counter) { MatrixType A = MatrixType::Random(size, size); ComplexSchur<MatrixType> schurOfA(A); VERIFY_IS_EQUAL(schurOfA.info(), Success); ComplexMatrixType U = schurOfA.matrixU(); ComplexMatrixType T = schurOfA.matrixT(); for(int row = 1; row < size; ++row) { for(int col = 0; col < row; ++col) { VERIFY(T(row,col) == (typename MatrixType::Scalar)0); } } VERIFY_IS_APPROX(A.template cast<ComplexScalar>(), U * T * U.adjoint()); }
// Test asserts when not initialized
ComplexSchur<MatrixType> csUninitialized; VERIFY_RAISES_ASSERT(csUninitialized.matrixT()); VERIFY_RAISES_ASSERT(csUninitialized.matrixU()); VERIFY_RAISES_ASSERT(csUninitialized.info()); // Test whether compute() and constructor returns same result
MatrixType A = MatrixType::Random(size, size); ComplexSchur<MatrixType> cs1; cs1.compute(A); ComplexSchur<MatrixType> cs2(A); VERIFY_IS_EQUAL(cs1.info(), Success); VERIFY_IS_EQUAL(cs2.info(), Success); VERIFY_IS_EQUAL(cs1.matrixT(), cs2.matrixT()); VERIFY_IS_EQUAL(cs1.matrixU(), cs2.matrixU());
// Test computation of only T, not U
ComplexSchur<MatrixType> csOnlyT(A, false); VERIFY_IS_EQUAL(csOnlyT.info(), Success); VERIFY_IS_EQUAL(cs1.matrixT(), csOnlyT.matrixT()); VERIFY_RAISES_ASSERT(csOnlyT.matrixU());
if (size > 1) { // Test matrix with NaN
A(0,0) = std::numeric_limits<typename MatrixType::RealScalar>::quiet_NaN(); ComplexSchur<MatrixType> csNaN(A); VERIFY_IS_EQUAL(csNaN.info(), NoConvergence); } }
void test_schur_complex() { CALL_SUBTEST_1(( schur<Matrix4cd>() )); CALL_SUBTEST_2(( schur<MatrixXcf>(internal::random<int>(1,EIGEN_TEST_MAX_SIZE/4)) )); CALL_SUBTEST_3(( schur<Matrix<std::complex<float>, 1, 1> >() )); CALL_SUBTEST_4(( schur<Matrix<float, 3, 3, Eigen::RowMajor> >() ));
// Test problem size constructors
CALL_SUBTEST_5(ComplexSchur<MatrixXf>(10)); }
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