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178 lines
7.9 KiB
178 lines
7.9 KiB
// 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) 2006-2008 Benoit Jacob <jacob.benoit.1@gmail.com>
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//
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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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#include "main.h"
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template<typename MatrixType> void product_extra(const MatrixType& m)
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{
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typedef typename MatrixType::Index Index;
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typedef typename MatrixType::Scalar Scalar;
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typedef typename NumTraits<Scalar>::NonInteger NonInteger;
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typedef Matrix<Scalar, 1, Dynamic> RowVectorType;
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typedef Matrix<Scalar, Dynamic, 1> ColVectorType;
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typedef Matrix<Scalar, Dynamic, Dynamic,
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MatrixType::Flags&RowMajorBit> OtherMajorMatrixType;
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Index rows = m.rows();
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Index cols = m.cols();
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MatrixType m1 = MatrixType::Random(rows, cols),
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m2 = MatrixType::Random(rows, cols),
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m3(rows, cols),
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mzero = MatrixType::Zero(rows, cols),
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identity = MatrixType::Identity(rows, rows),
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square = MatrixType::Random(rows, rows),
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res = MatrixType::Random(rows, rows),
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square2 = MatrixType::Random(cols, cols),
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res2 = MatrixType::Random(cols, cols);
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RowVectorType v1 = RowVectorType::Random(rows), vrres(rows);
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ColVectorType vc2 = ColVectorType::Random(cols), vcres(cols);
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OtherMajorMatrixType tm1 = m1;
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Scalar s1 = internal::random<Scalar>(),
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s2 = internal::random<Scalar>(),
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s3 = internal::random<Scalar>();
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VERIFY_IS_APPROX(m3.noalias() = m1 * m2.adjoint(), m1 * m2.adjoint().eval());
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VERIFY_IS_APPROX(m3.noalias() = m1.adjoint() * square.adjoint(), m1.adjoint().eval() * square.adjoint().eval());
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VERIFY_IS_APPROX(m3.noalias() = m1.adjoint() * m2, m1.adjoint().eval() * m2);
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VERIFY_IS_APPROX(m3.noalias() = (s1 * m1.adjoint()) * m2, (s1 * m1.adjoint()).eval() * m2);
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VERIFY_IS_APPROX(m3.noalias() = ((s1 * m1).adjoint()) * m2, (internal::conj(s1) * m1.adjoint()).eval() * m2);
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VERIFY_IS_APPROX(m3.noalias() = (- m1.adjoint() * s1) * (s3 * m2), (- m1.adjoint() * s1).eval() * (s3 * m2).eval());
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VERIFY_IS_APPROX(m3.noalias() = (s2 * m1.adjoint() * s1) * m2, (s2 * m1.adjoint() * s1).eval() * m2);
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VERIFY_IS_APPROX(m3.noalias() = (-m1*s2) * s1*m2.adjoint(), (-m1*s2).eval() * (s1*m2.adjoint()).eval());
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// a very tricky case where a scale factor has to be automatically conjugated:
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VERIFY_IS_APPROX( m1.adjoint() * (s1*m2).conjugate(), (m1.adjoint()).eval() * ((s1*m2).conjugate()).eval());
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// test all possible conjugate combinations for the four matrix-vector product cases:
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VERIFY_IS_APPROX((-m1.conjugate() * s2) * (s1 * vc2),
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(-m1.conjugate()*s2).eval() * (s1 * vc2).eval());
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VERIFY_IS_APPROX((-m1 * s2) * (s1 * vc2.conjugate()),
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(-m1*s2).eval() * (s1 * vc2.conjugate()).eval());
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VERIFY_IS_APPROX((-m1.conjugate() * s2) * (s1 * vc2.conjugate()),
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(-m1.conjugate()*s2).eval() * (s1 * vc2.conjugate()).eval());
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VERIFY_IS_APPROX((s1 * vc2.transpose()) * (-m1.adjoint() * s2),
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(s1 * vc2.transpose()).eval() * (-m1.adjoint()*s2).eval());
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VERIFY_IS_APPROX((s1 * vc2.adjoint()) * (-m1.transpose() * s2),
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(s1 * vc2.adjoint()).eval() * (-m1.transpose()*s2).eval());
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VERIFY_IS_APPROX((s1 * vc2.adjoint()) * (-m1.adjoint() * s2),
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(s1 * vc2.adjoint()).eval() * (-m1.adjoint()*s2).eval());
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VERIFY_IS_APPROX((-m1.adjoint() * s2) * (s1 * v1.transpose()),
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(-m1.adjoint()*s2).eval() * (s1 * v1.transpose()).eval());
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VERIFY_IS_APPROX((-m1.transpose() * s2) * (s1 * v1.adjoint()),
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(-m1.transpose()*s2).eval() * (s1 * v1.adjoint()).eval());
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VERIFY_IS_APPROX((-m1.adjoint() * s2) * (s1 * v1.adjoint()),
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(-m1.adjoint()*s2).eval() * (s1 * v1.adjoint()).eval());
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VERIFY_IS_APPROX((s1 * v1) * (-m1.conjugate() * s2),
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(s1 * v1).eval() * (-m1.conjugate()*s2).eval());
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VERIFY_IS_APPROX((s1 * v1.conjugate()) * (-m1 * s2),
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(s1 * v1.conjugate()).eval() * (-m1*s2).eval());
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VERIFY_IS_APPROX((s1 * v1.conjugate()) * (-m1.conjugate() * s2),
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(s1 * v1.conjugate()).eval() * (-m1.conjugate()*s2).eval());
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VERIFY_IS_APPROX((-m1.adjoint() * s2) * (s1 * v1.adjoint()),
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(-m1.adjoint()*s2).eval() * (s1 * v1.adjoint()).eval());
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// test the vector-matrix product with non aligned starts
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Index i = internal::random<Index>(0,m1.rows()-2);
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Index j = internal::random<Index>(0,m1.cols()-2);
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Index r = internal::random<Index>(1,m1.rows()-i);
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Index c = internal::random<Index>(1,m1.cols()-j);
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Index i2 = internal::random<Index>(0,m1.rows()-1);
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Index j2 = internal::random<Index>(0,m1.cols()-1);
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VERIFY_IS_APPROX(m1.col(j2).adjoint() * m1.block(0,j,m1.rows(),c), m1.col(j2).adjoint().eval() * m1.block(0,j,m1.rows(),c).eval());
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VERIFY_IS_APPROX(m1.block(i,0,r,m1.cols()) * m1.row(i2).adjoint(), m1.block(i,0,r,m1.cols()).eval() * m1.row(i2).adjoint().eval());
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// regression test
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MatrixType tmp = m1 * m1.adjoint() * s1;
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VERIFY_IS_APPROX(tmp, m1 * m1.adjoint() * s1);
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}
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// Regression test for bug reported at http://forum.kde.org/viewtopic.php?f=74&t=96947
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void mat_mat_scalar_scalar_product()
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{
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Eigen::Matrix2Xd dNdxy(2, 3);
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dNdxy << -0.5, 0.5, 0,
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-0.3, 0, 0.3;
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double det = 6.0, wt = 0.5;
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VERIFY_IS_APPROX(dNdxy.transpose()*dNdxy*det*wt, det*wt*dNdxy.transpose()*dNdxy);
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}
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void zero_sized_objects()
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{
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// Bug 127
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//
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// a product of the form lhs*rhs with
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//
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// lhs:
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// rows = 1, cols = 4
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// RowsAtCompileTime = 1, ColsAtCompileTime = -1
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// MaxRowsAtCompileTime = 1, MaxColsAtCompileTime = 5
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//
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// rhs:
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// rows = 4, cols = 0
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// RowsAtCompileTime = -1, ColsAtCompileTime = -1
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// MaxRowsAtCompileTime = 5, MaxColsAtCompileTime = 1
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//
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// was failing on a runtime assertion, because it had been mis-compiled as a dot product because Product.h was using the
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// max-sizes to detect size 1 indicating vectors, and that didn't account for 0-sized object with max-size 1.
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Matrix<float,1,Dynamic,RowMajor,1,5> a(1,4);
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Matrix<float,Dynamic,Dynamic,ColMajor,5,1> b(4,0);
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a*b;
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}
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void unaligned_objects()
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{
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// Regression test for the bug reported here:
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// http://forum.kde.org/viewtopic.php?f=74&t=107541
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// Recall the matrix*vector kernel avoid unaligned loads by loading two packets and then reassemble then.
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// There was a mistake in the computation of the valid range for fully unaligned objects: in some rare cases,
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// memory was read outside the allocated matrix memory. Though the values were not used, this might raise segfault.
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for(int m=450;m<460;++m)
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{
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for(int n=8;n<12;++n)
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{
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MatrixXf M(m, n);
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VectorXf v1(n), r1(500);
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RowVectorXf v2(m), r2(16);
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M.setRandom();
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v1.setRandom();
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v2.setRandom();
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for(int o=0; o<4; ++o)
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{
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r1.segment(o,m).noalias() = M * v1;
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VERIFY_IS_APPROX(r1.segment(o,m), M * MatrixXf(v1));
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r2.segment(o,n).noalias() = v2 * M;
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VERIFY_IS_APPROX(r2.segment(o,n), MatrixXf(v2) * M);
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}
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}
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}
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}
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void test_product_extra()
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{
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for(int i = 0; i < g_repeat; i++) {
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CALL_SUBTEST_1( product_extra(MatrixXf(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
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CALL_SUBTEST_2( product_extra(MatrixXd(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
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CALL_SUBTEST_2( mat_mat_scalar_scalar_product() );
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CALL_SUBTEST_3( product_extra(MatrixXcf(internal::random<int>(1,EIGEN_TEST_MAX_SIZE/2), internal::random<int>(1,EIGEN_TEST_MAX_SIZE/2))) );
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CALL_SUBTEST_4( product_extra(MatrixXcd(internal::random<int>(1,EIGEN_TEST_MAX_SIZE/2), internal::random<int>(1,EIGEN_TEST_MAX_SIZE/2))) );
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}
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CALL_SUBTEST_5( zero_sized_objects() );
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CALL_SUBTEST_6( unaligned_objects() );
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}
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