// This file is part of Eigen, a lightweight C++ template library // for linear algebra. // // Copyright (C) 2010-2017 Gael Guennebaud // // 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" #define CHECK_MMTR(DEST, TRI, OP) \ { \ ref3 = DEST; \ ref2 = ref1 = DEST; \ DEST.template triangularView() OP; \ ref1 OP; \ ref2.template triangularView() = ref1.template triangularView(); \ VERIFY_IS_APPROX(DEST, ref2); \ \ DEST = ref3; \ ref3 = ref2; \ ref3.diagonal() = DEST.diagonal(); \ DEST.template triangularView() OP; \ VERIFY_IS_APPROX(DEST, ref3); \ } template void mmtr(int size) { typedef Matrix MatrixColMaj; typedef Matrix MatrixRowMaj; DenseIndex othersize = internal::random(1, 200); MatrixColMaj matc = MatrixColMaj::Zero(size, size); MatrixRowMaj matr = MatrixRowMaj::Zero(size, size); MatrixColMaj ref1(size, size), ref2(size, size), ref3(size, size); MatrixColMaj soc(size, othersize); soc.setRandom(); MatrixColMaj osc(othersize, size); osc.setRandom(); MatrixRowMaj sor(size, othersize); sor.setRandom(); MatrixRowMaj osr(othersize, size); osr.setRandom(); MatrixColMaj sqc(size, size); sqc.setRandom(); MatrixRowMaj sqr(size, size); sqr.setRandom(); Scalar s = internal::random(); CHECK_MMTR(matc, Lower, = s * soc * sor.adjoint()); CHECK_MMTR(matc, Upper, = s * (soc * soc.adjoint())); CHECK_MMTR(matr, Lower, = s * soc * soc.adjoint()); CHECK_MMTR(matr, Upper, = soc * (s * sor.adjoint())); CHECK_MMTR(matc, Lower, += s * soc * soc.adjoint()); CHECK_MMTR(matc, Upper, += s * (soc * sor.transpose())); CHECK_MMTR(matr, Lower, += s * sor * soc.adjoint()); CHECK_MMTR(matr, Upper, += soc * (s * soc.adjoint())); CHECK_MMTR(matc, Lower, -= s * soc * soc.adjoint()); CHECK_MMTR(matc, Upper, -= s * (osc.transpose() * osc.conjugate())); CHECK_MMTR(matr, Lower, -= s * soc * soc.adjoint()); CHECK_MMTR(matr, Upper, -= soc * (s * soc.adjoint())); CHECK_MMTR(matc, Lower, -= s * sqr * sqc.template triangularView()); CHECK_MMTR(matc, Upper, = s * sqc * sqr.template triangularView()); CHECK_MMTR(matc, Lower, += s * sqr * sqc.template triangularView()); CHECK_MMTR(matc, Upper, = s * sqc * sqc.template triangularView()); CHECK_MMTR(matc, Lower, = (s * sqr).template triangularView() * sqc); CHECK_MMTR(matc, Upper, -= (s * sqc).template triangularView() * sqc); CHECK_MMTR(matc, Lower, = (s * sqr).template triangularView() * sqc); CHECK_MMTR(matc, Upper, += (s * sqc).template triangularView() * sqc); // check aliasing ref2 = ref1 = matc; ref1 = sqc.adjoint() * matc * sqc; ref2.template triangularView() = ref1.template triangularView(); matc.template triangularView() = sqc.adjoint() * matc * sqc; VERIFY_IS_APPROX(matc, ref2); ref2 = ref1 = matc; ref1 = sqc * matc * sqc.adjoint(); ref2.template triangularView() = ref1.template triangularView(); matc.template triangularView() = sqc * matc * sqc.adjoint(); VERIFY_IS_APPROX(matc, ref2); // destination with a non-default inner-stride // see bug 1741 { typedef Matrix MatrixX; MatrixX buffer(2 * size, 2 * size); Map > map1(buffer.data(), size, size, Stride(2 * size, 2)); buffer.setZero(); CHECK_MMTR(map1, Lower, = s * soc * sor.adjoint()); } } EIGEN_DECLARE_TEST(product_mmtr) { for (int i = 0; i < g_repeat; i++) { CALL_SUBTEST_1((mmtr(internal::random(1, EIGEN_TEST_MAX_SIZE)))); CALL_SUBTEST_2((mmtr(internal::random(1, EIGEN_TEST_MAX_SIZE)))); CALL_SUBTEST_3((mmtr >(internal::random(1, EIGEN_TEST_MAX_SIZE / 2)))); CALL_SUBTEST_4((mmtr >(internal::random(1, EIGEN_TEST_MAX_SIZE / 2)))); } }