| // This file is part of Eigen, a lightweight C++ template library |
| // for linear algebra. |
| // |
| // Copyright (C) 2017 Gael Guennebaud <gael.guennebaud@inria.fr> |
| // Copyright (C) 2014 yoco <peter.xiau@gmail.com> |
| // |
| // 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" |
| |
| using Eigen::placeholders::all; |
| using Eigen::placeholders::last; |
| |
| template <typename T1, typename T2> |
| std::enable_if_t<internal::is_same<T1, T2>::value, bool> is_same_eq(const T1& a, const T2& b) { |
| return (a.array() == b.array()).all(); |
| } |
| |
| template <int Order, typename MatType> |
| void check_auto_reshape4x4(MatType m) { |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 1> v1(1); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 2> v2(2); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 4> v4(4); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 8> v8(8); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 16> v16(16); |
| |
| VERIFY(is_same_eq(m.template reshaped<Order>(1, AutoSize), m.template reshaped<Order>(1, 16))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, 16), m.template reshaped<Order>(1, 16))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(2, AutoSize), m.template reshaped<Order>(2, 8))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, 8), m.template reshaped<Order>(2, 8))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(4, AutoSize), m.template reshaped<Order>(4, 4))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, 4), m.template reshaped<Order>(4, 4))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(8, AutoSize), m.template reshaped<Order>(8, 2))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, 2), m.template reshaped<Order>(8, 2))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(16, AutoSize), m.template reshaped<Order>(16, 1))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, 1), m.template reshaped<Order>(16, 1))); |
| |
| VERIFY(is_same_eq(m.template reshaped<Order>(fix<1>, AutoSize), m.template reshaped<Order>(fix<1>, v16))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, fix<16>), m.template reshaped<Order>(v1, fix<16>))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(fix<2>, AutoSize), m.template reshaped<Order>(fix<2>, v8))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, fix<8>), m.template reshaped<Order>(v2, fix<8>))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(fix<4>, AutoSize), m.template reshaped<Order>(fix<4>, v4))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, fix<4>), m.template reshaped<Order>(v4, fix<4>))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(fix<8>, AutoSize), m.template reshaped<Order>(fix<8>, v2))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, fix<2>), m.template reshaped<Order>(v8, fix<2>))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(fix<16>, AutoSize), m.template reshaped<Order>(fix<16>, v1))); |
| VERIFY(is_same_eq(m.template reshaped<Order>(AutoSize, fix<1>), m.template reshaped<Order>(v16, fix<1>))); |
| } |
| |
| template <typename MatType> |
| void check_direct_access_reshape4x4(MatType, internal::FixedInt<RowMajorBit>) {} |
| |
| template <typename MatType> |
| void check_direct_access_reshape4x4(MatType m, internal::FixedInt<0>) { |
| VERIFY_IS_EQUAL(m.reshaped(1, 16).data(), m.data()); |
| VERIFY_IS_EQUAL(m.reshaped(1, 16).innerStride(), 1); |
| |
| VERIFY_IS_EQUAL(m.reshaped(2, 8).data(), m.data()); |
| VERIFY_IS_EQUAL(m.reshaped(2, 8).innerStride(), 1); |
| VERIFY_IS_EQUAL(m.reshaped(2, 8).outerStride(), 2); |
| } |
| |
| // just test a 4x4 matrix, enumerate all combination manually |
| template <typename MatType> |
| void reshape4x4(MatType m) { |
| typedef typename MatType::Scalar Scalar; |
| |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 1> v1(1); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 2> v2(2); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 4> v4(4); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 8> v8(8); |
| internal::VariableAndFixedInt<MatType::SizeAtCompileTime == Dynamic ? -1 : 16> v16(16); |
| |
| if ((MatType::Flags & RowMajorBit) == 0) { |
| typedef Map<MatrixXi> MapMat; |
| // dynamic |
| VERIFY_IS_EQUAL((m.reshaped(1, 16)), MapMat(m.data(), 1, 16)); |
| VERIFY_IS_EQUAL((m.reshaped(2, 8)), MapMat(m.data(), 2, 8)); |
| VERIFY_IS_EQUAL((m.reshaped(4, 4)), MapMat(m.data(), 4, 4)); |
| VERIFY_IS_EQUAL((m.reshaped(8, 2)), MapMat(m.data(), 8, 2)); |
| VERIFY_IS_EQUAL((m.reshaped(16, 1)), MapMat(m.data(), 16, 1)); |
| |
| // static |
| VERIFY_IS_EQUAL(m.reshaped(fix<1>, fix<16>), MapMat(m.data(), 1, 16)); |
| VERIFY_IS_EQUAL(m.reshaped(fix<2>, fix<8>), MapMat(m.data(), 2, 8)); |
| VERIFY_IS_EQUAL(m.reshaped(fix<4>, fix<4>), MapMat(m.data(), 4, 4)); |
| VERIFY_IS_EQUAL(m.reshaped(fix<8>, fix<2>), MapMat(m.data(), 8, 2)); |
| VERIFY_IS_EQUAL(m.reshaped(fix<16>, fix<1>), MapMat(m.data(), 16, 1)); |
| |
| // reshape chain |
| VERIFY_IS_EQUAL((m.reshaped(1, 16) |
| .reshaped(fix<2>, fix<8>) |
| .reshaped(16, 1) |
| .reshaped(fix<8>, fix<2>) |
| .reshaped(2, 8) |
| .reshaped(fix<1>, fix<16>) |
| .reshaped(4, 4) |
| .reshaped(fix<16>, fix<1>) |
| .reshaped(8, 2) |
| .reshaped(fix<4>, fix<4>)), |
| MapMat(m.data(), 4, 4)); |
| } |
| |
| VERIFY(is_same_eq(m.reshaped(1, AutoSize), m.reshaped(1, 16))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, 16), m.reshaped(1, 16))); |
| VERIFY(is_same_eq(m.reshaped(2, AutoSize), m.reshaped(2, 8))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, 8), m.reshaped(2, 8))); |
| VERIFY(is_same_eq(m.reshaped(4, AutoSize), m.reshaped(4, 4))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, 4), m.reshaped(4, 4))); |
| VERIFY(is_same_eq(m.reshaped(8, AutoSize), m.reshaped(8, 2))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, 2), m.reshaped(8, 2))); |
| VERIFY(is_same_eq(m.reshaped(16, AutoSize), m.reshaped(16, 1))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, 1), m.reshaped(16, 1))); |
| |
| VERIFY(is_same_eq(m.reshaped(fix<1>, AutoSize), m.reshaped(fix<1>, v16))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<16>), m.reshaped(v1, fix<16>))); |
| VERIFY(is_same_eq(m.reshaped(fix<2>, AutoSize), m.reshaped(fix<2>, v8))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<8>), m.reshaped(v2, fix<8>))); |
| VERIFY(is_same_eq(m.reshaped(fix<4>, AutoSize), m.reshaped(fix<4>, v4))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<4>), m.reshaped(v4, fix<4>))); |
| VERIFY(is_same_eq(m.reshaped(fix<8>, AutoSize), m.reshaped(fix<8>, v2))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<2>), m.reshaped(v8, fix<2>))); |
| VERIFY(is_same_eq(m.reshaped(fix<16>, AutoSize), m.reshaped(fix<16>, v1))); |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<1>), m.reshaped(v16, fix<1>))); |
| |
| check_auto_reshape4x4<ColMajor>(m); |
| check_auto_reshape4x4<RowMajor>(m); |
| check_auto_reshape4x4<AutoOrder>(m); |
| check_auto_reshape4x4<ColMajor>(m.transpose()); |
| check_auto_reshape4x4<ColMajor>(m.transpose()); |
| check_auto_reshape4x4<AutoOrder>(m.transpose()); |
| |
| check_direct_access_reshape4x4(m, fix<MatType::Flags & RowMajorBit>); |
| |
| if ((MatType::Flags & RowMajorBit) == 0) { |
| VERIFY_IS_EQUAL(m.template reshaped<ColMajor>(2, 8), m.reshaped(2, 8)); |
| VERIFY_IS_EQUAL(m.template reshaped<ColMajor>(2, 8), m.template reshaped<AutoOrder>(2, 8)); |
| VERIFY_IS_EQUAL(m.transpose().template reshaped<RowMajor>(2, 8), m.transpose().template reshaped<AutoOrder>(2, 8)); |
| } else { |
| VERIFY_IS_EQUAL(m.template reshaped<ColMajor>(2, 8), m.reshaped(2, 8)); |
| VERIFY_IS_EQUAL(m.template reshaped<RowMajor>(2, 8), m.template reshaped<AutoOrder>(2, 8)); |
| VERIFY_IS_EQUAL(m.transpose().template reshaped<ColMajor>(2, 8), m.transpose().template reshaped<AutoOrder>(2, 8)); |
| VERIFY_IS_EQUAL(m.transpose().reshaped(2, 8), m.transpose().template reshaped<AutoOrder>(2, 8)); |
| } |
| |
| MatrixXi m28r1 = m.template reshaped<RowMajor>(2, 8); |
| MatrixXi m28r2 = m.transpose().template reshaped<ColMajor>(8, 2).transpose(); |
| VERIFY_IS_EQUAL(m28r1, m28r2); |
| |
| VERIFY(is_same_eq(m.reshaped(v16, fix<1>), m.reshaped())); |
| VERIFY_IS_EQUAL(m.reshaped(16, 1).eval(), m.reshaped().eval()); |
| VERIFY_IS_EQUAL(m.reshaped(1, 16).eval(), m.reshaped().transpose().eval()); |
| VERIFY_IS_EQUAL(m.reshaped().reshaped(2, 8), m.reshaped(2, 8)); |
| VERIFY_IS_EQUAL(m.reshaped().reshaped(4, 4), m.reshaped(4, 4)); |
| VERIFY_IS_EQUAL(m.reshaped().reshaped(8, 2), m.reshaped(8, 2)); |
| |
| VERIFY_IS_EQUAL(m.reshaped(), m.template reshaped<ColMajor>()); |
| VERIFY_IS_EQUAL(m.transpose().reshaped(), m.template reshaped<RowMajor>()); |
| VERIFY_IS_EQUAL(m.template reshaped<RowMajor>(AutoSize, fix<1>), m.template reshaped<RowMajor>()); |
| VERIFY_IS_EQUAL(m.template reshaped<AutoOrder>(AutoSize, fix<1>), m.template reshaped<AutoOrder>()); |
| |
| VERIFY(is_same_eq(m.reshaped(AutoSize, fix<1>), m.reshaped())); |
| VERIFY_IS_EQUAL(m.template reshaped<RowMajor>(fix<1>, AutoSize), m.transpose().reshaped().transpose()); |
| |
| // check assignment |
| { |
| Matrix<Scalar, Dynamic, 1> m1x(m.size()); |
| m1x.setRandom(); |
| VERIFY_IS_APPROX(m.reshaped() = m1x, m1x); |
| VERIFY_IS_APPROX(m, m1x.reshaped(4, 4)); |
| |
| Matrix<Scalar, Dynamic, Dynamic> m28(2, 8); |
| m28.setRandom(); |
| VERIFY_IS_APPROX(m.reshaped(2, 8) = m28, m28); |
| VERIFY_IS_APPROX(m, m28.reshaped(4, 4)); |
| VERIFY_IS_APPROX(m.template reshaped<RowMajor>(2, 8) = m28, m28); |
| |
| Matrix<Scalar, Dynamic, Dynamic> m24(2, 4); |
| m24.setRandom(); |
| VERIFY_IS_APPROX(m(seq(0, last, 2), all).reshaped(2, 4) = m24, m24); |
| |
| // check constness: |
| m.reshaped(2, 8).nestedExpression() = m; |
| } |
| } |
| |
| template <typename BlockType> |
| void reshape_block(const BlockType& M) { |
| auto dense = M.eval(); |
| Index rows = M.size() / 2; |
| Index cols = M.size() / rows; |
| VERIFY_IS_EQUAL(dense.reshaped(rows, cols), M.reshaped(rows, cols)); |
| |
| for (Index i = 0; i < rows; ++i) { |
| VERIFY_IS_EQUAL(dense.reshaped(rows, cols).row(i), M.reshaped(rows, cols).row(i)); |
| } |
| |
| for (Index j = 0; j < cols; ++j) { |
| VERIFY_IS_EQUAL(dense.reshaped(rows, cols).col(j), M.reshaped(rows, cols).col(j)); |
| } |
| } |
| |
| EIGEN_DECLARE_TEST(reshape) { |
| typedef Matrix<int, Dynamic, Dynamic, RowMajor> RowMatrixXi; |
| typedef Matrix<int, 4, 4, RowMajor> RowMatrix4i; |
| MatrixXi mx = MatrixXi::Random(4, 4); |
| Matrix4i m4 = Matrix4i::Random(4, 4); |
| RowMatrixXi rmx = RowMatrixXi::Random(4, 4); |
| RowMatrix4i rm4 = RowMatrix4i::Random(4, 4); |
| |
| // test dynamic-size matrix |
| CALL_SUBTEST(reshape4x4(mx)); |
| // test static-size matrix |
| CALL_SUBTEST(reshape4x4(m4)); |
| // test dynamic-size const matrix |
| CALL_SUBTEST(reshape4x4(static_cast<const MatrixXi>(mx))); |
| // test static-size const matrix |
| CALL_SUBTEST(reshape4x4(static_cast<const Matrix4i>(m4))); |
| |
| CALL_SUBTEST(reshape4x4(rmx)); |
| CALL_SUBTEST(reshape4x4(rm4)); |
| CALL_SUBTEST(reshape_block(rm4.col(1))); |
| } |