xref: /aosp_15_r20/external/eigen/test/array_reverse.cpp (revision bf2c37156dfe67e5dfebd6d394bad8b2ab5804d4) 
1*bf2c3715SXin Li // This file is part of Eigen, a lightweight C++ template library
2*bf2c3715SXin Li // for linear algebra.
3*bf2c3715SXin Li //
4*bf2c3715SXin Li // Copyright (C) 2006-2008 Benoit Jacob <[email protected]>
5*bf2c3715SXin Li // Copyright (C) 2009 Ricard Marxer <[email protected]>
6*bf2c3715SXin Li //
7*bf2c3715SXin Li // This Source Code Form is subject to the terms of the Mozilla
8*bf2c3715SXin Li // Public License v. 2.0. If a copy of the MPL was not distributed
9*bf2c3715SXin Li // with this file, You can obtain one at http://mozilla.org/MPL/2.0/.
10*bf2c3715SXin Li 
11*bf2c3715SXin Li #include "main.h"
12*bf2c3715SXin Li #include <iostream>
13*bf2c3715SXin Li 
14*bf2c3715SXin Li using namespace std;
15*bf2c3715SXin Li 
reverse(const MatrixType & m)16*bf2c3715SXin Li template<typename MatrixType> void reverse(const MatrixType& m)
17*bf2c3715SXin Li {
18*bf2c3715SXin Li   typedef typename MatrixType::Scalar Scalar;
19*bf2c3715SXin Li   typedef Matrix<Scalar, MatrixType::RowsAtCompileTime, 1> VectorType;
20*bf2c3715SXin Li 
21*bf2c3715SXin Li   Index rows = m.rows();
22*bf2c3715SXin Li   Index cols = m.cols();
23*bf2c3715SXin Li 
24*bf2c3715SXin Li   // this test relies a lot on Random.h, and there's not much more that we can do
25*bf2c3715SXin Li   // to test it, hence I consider that we will have tested Random.h
26*bf2c3715SXin Li   MatrixType m1 = MatrixType::Random(rows, cols), m2;
27*bf2c3715SXin Li   VectorType v1 = VectorType::Random(rows);
28*bf2c3715SXin Li 
29*bf2c3715SXin Li   MatrixType m1_r = m1.reverse();
30*bf2c3715SXin Li   // Verify that MatrixBase::reverse() works
31*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
32*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
33*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_r(i, j), m1(rows - 1 - i, cols - 1 - j));
34*bf2c3715SXin Li     }
35*bf2c3715SXin Li   }
36*bf2c3715SXin Li 
37*bf2c3715SXin Li   Reverse<MatrixType> m1_rd(m1);
38*bf2c3715SXin Li   // Verify that a Reverse default (in both directions) of an expression works
39*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
40*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
41*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_rd(i, j), m1(rows - 1 - i, cols - 1 - j));
42*bf2c3715SXin Li     }
43*bf2c3715SXin Li   }
44*bf2c3715SXin Li 
45*bf2c3715SXin Li   Reverse<MatrixType, BothDirections> m1_rb(m1);
46*bf2c3715SXin Li   // Verify that a Reverse in both directions of an expression works
47*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
48*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
49*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_rb(i, j), m1(rows - 1 - i, cols - 1 - j));
50*bf2c3715SXin Li     }
51*bf2c3715SXin Li   }
52*bf2c3715SXin Li 
53*bf2c3715SXin Li   Reverse<MatrixType, Vertical> m1_rv(m1);
54*bf2c3715SXin Li   // Verify that a Reverse in the vertical directions of an expression works
55*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
56*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
57*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_rv(i, j), m1(rows - 1 - i, j));
58*bf2c3715SXin Li     }
59*bf2c3715SXin Li   }
60*bf2c3715SXin Li 
61*bf2c3715SXin Li   Reverse<MatrixType, Horizontal> m1_rh(m1);
62*bf2c3715SXin Li   // Verify that a Reverse in the horizontal directions of an expression works
63*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
64*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
65*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_rh(i, j), m1(i, cols - 1 - j));
66*bf2c3715SXin Li     }
67*bf2c3715SXin Li   }
68*bf2c3715SXin Li 
69*bf2c3715SXin Li   VectorType v1_r = v1.reverse();
70*bf2c3715SXin Li   // Verify that a VectorType::reverse() of an expression works
71*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
72*bf2c3715SXin Li     VERIFY_IS_APPROX(v1_r(i), v1(rows - 1 - i));
73*bf2c3715SXin Li   }
74*bf2c3715SXin Li 
75*bf2c3715SXin Li   MatrixType m1_cr = m1.colwise().reverse();
76*bf2c3715SXin Li   // Verify that PartialRedux::reverse() works (for colwise())
77*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
78*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
79*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_cr(i, j), m1(rows - 1 - i, j));
80*bf2c3715SXin Li     }
81*bf2c3715SXin Li   }
82*bf2c3715SXin Li 
83*bf2c3715SXin Li   MatrixType m1_rr = m1.rowwise().reverse();
84*bf2c3715SXin Li   // Verify that PartialRedux::reverse() works (for rowwise())
85*bf2c3715SXin Li   for ( int i = 0; i < rows; i++ ) {
86*bf2c3715SXin Li     for ( int j = 0; j < cols; j++ ) {
87*bf2c3715SXin Li       VERIFY_IS_APPROX(m1_rr(i, j), m1(i, cols - 1 - j));
88*bf2c3715SXin Li     }
89*bf2c3715SXin Li   }
90*bf2c3715SXin Li 
91*bf2c3715SXin Li   Scalar x = internal::random<Scalar>();
92*bf2c3715SXin Li 
93*bf2c3715SXin Li   Index r = internal::random<Index>(0, rows-1),
94*bf2c3715SXin Li         c = internal::random<Index>(0, cols-1);
95*bf2c3715SXin Li 
96*bf2c3715SXin Li   m1.reverse()(r, c) = x;
97*bf2c3715SXin Li   VERIFY_IS_APPROX(x, m1(rows - 1 - r, cols - 1 - c));
98*bf2c3715SXin Li 
99*bf2c3715SXin Li   m2 = m1;
100*bf2c3715SXin Li   m2.reverseInPlace();
101*bf2c3715SXin Li   VERIFY_IS_APPROX(m2,m1.reverse().eval());
102*bf2c3715SXin Li 
103*bf2c3715SXin Li   m2 = m1;
104*bf2c3715SXin Li   m2.col(0).reverseInPlace();
105*bf2c3715SXin Li   VERIFY_IS_APPROX(m2.col(0),m1.col(0).reverse().eval());
106*bf2c3715SXin Li 
107*bf2c3715SXin Li   m2 = m1;
108*bf2c3715SXin Li   m2.row(0).reverseInPlace();
109*bf2c3715SXin Li   VERIFY_IS_APPROX(m2.row(0),m1.row(0).reverse().eval());
110*bf2c3715SXin Li 
111*bf2c3715SXin Li   m2 = m1;
112*bf2c3715SXin Li   m2.rowwise().reverseInPlace();
113*bf2c3715SXin Li   VERIFY_IS_APPROX(m2,m1.rowwise().reverse().eval());
114*bf2c3715SXin Li 
115*bf2c3715SXin Li   m2 = m1;
116*bf2c3715SXin Li   m2.colwise().reverseInPlace();
117*bf2c3715SXin Li   VERIFY_IS_APPROX(m2,m1.colwise().reverse().eval());
118*bf2c3715SXin Li 
119*bf2c3715SXin Li   m1.colwise().reverse()(r, c) = x;
120*bf2c3715SXin Li   VERIFY_IS_APPROX(x, m1(rows - 1 - r, c));
121*bf2c3715SXin Li 
122*bf2c3715SXin Li   m1.rowwise().reverse()(r, c) = x;
123*bf2c3715SXin Li   VERIFY_IS_APPROX(x, m1(r, cols - 1 - c));
124*bf2c3715SXin Li }
125*bf2c3715SXin Li 
126*bf2c3715SXin Li template<int>
array_reverse_extra()127*bf2c3715SXin Li void array_reverse_extra()
128*bf2c3715SXin Li {
129*bf2c3715SXin Li   Vector4f x; x << 1, 2, 3, 4;
130*bf2c3715SXin Li   Vector4f y; y << 4, 3, 2, 1;
131*bf2c3715SXin Li   VERIFY(x.reverse()[1] == 3);
132*bf2c3715SXin Li   VERIFY(x.reverse() == y);
133*bf2c3715SXin Li }
134*bf2c3715SXin Li 
135*bf2c3715SXin Li // Simpler version of reverseInPlace leveraging a bug
136*bf2c3715SXin Li // in clang 6/7 with -O2 and AVX or AVX512 enabled.
137*bf2c3715SXin Li // This simpler version ensure that the clang bug is not simply hidden
138*bf2c3715SXin Li // through mis-inlining of reverseInPlace or other minor changes.
139*bf2c3715SXin Li template<typename MatrixType>
140*bf2c3715SXin Li EIGEN_DONT_INLINE
bug1684_job1(MatrixType & m1,MatrixType & m2)141*bf2c3715SXin Li void bug1684_job1(MatrixType& m1, MatrixType& m2)
142*bf2c3715SXin Li {
143*bf2c3715SXin Li   m2 = m1;
144*bf2c3715SXin Li   m2.col(0).swap(m2.col(3));
145*bf2c3715SXin Li   m2.col(1).swap(m2.col(2));
146*bf2c3715SXin Li }
147*bf2c3715SXin Li 
148*bf2c3715SXin Li template<typename MatrixType>
149*bf2c3715SXin Li EIGEN_DONT_INLINE
bug1684_job2(MatrixType & m1,MatrixType & m2)150*bf2c3715SXin Li void bug1684_job2(MatrixType& m1, MatrixType& m2)
151*bf2c3715SXin Li {
152*bf2c3715SXin Li   m2 = m1; // load m1/m2 in AVX registers
153*bf2c3715SXin Li   m1.col(0) = m2.col(3); // perform 128 bits moves
154*bf2c3715SXin Li   m1.col(1) = m2.col(2);
155*bf2c3715SXin Li   m1.col(2) = m2.col(1);
156*bf2c3715SXin Li   m1.col(3) = m2.col(0);
157*bf2c3715SXin Li }
158*bf2c3715SXin Li 
159*bf2c3715SXin Li template<typename MatrixType>
160*bf2c3715SXin Li EIGEN_DONT_INLINE
bug1684_job3(MatrixType & m1,MatrixType & m2)161*bf2c3715SXin Li void bug1684_job3(MatrixType& m1, MatrixType& m2)
162*bf2c3715SXin Li {
163*bf2c3715SXin Li   m2 = m1;
164*bf2c3715SXin Li   Vector4f tmp;
165*bf2c3715SXin Li   tmp = m2.col(0);
166*bf2c3715SXin Li   m2.col(0) = m2.col(3);
167*bf2c3715SXin Li   m2.col(3) = tmp;
168*bf2c3715SXin Li   tmp = m2.col(1);
169*bf2c3715SXin Li   m2.col(1) = m2.col(2);
170*bf2c3715SXin Li   m2.col(2) = tmp;
171*bf2c3715SXin Li 
172*bf2c3715SXin Li }
173*bf2c3715SXin Li 
174*bf2c3715SXin Li template<int>
bug1684()175*bf2c3715SXin Li void bug1684()
176*bf2c3715SXin Li {
177*bf2c3715SXin Li   Matrix4f m1 = Matrix4f::Random();
178*bf2c3715SXin Li   Matrix4f m2 = Matrix4f::Random();
179*bf2c3715SXin Li   bug1684_job1(m1,m2);
180*bf2c3715SXin Li   VERIFY_IS_APPROX(m2, m1.rowwise().reverse().eval());
181*bf2c3715SXin Li   bug1684_job2(m1,m2);
182*bf2c3715SXin Li   VERIFY_IS_APPROX(m2, m1.rowwise().reverse().eval());
183*bf2c3715SXin Li   // This one still fail after our swap's workaround,
184*bf2c3715SXin Li   // but I expect users not to implement their own swap.
185*bf2c3715SXin Li   // bug1684_job3(m1,m2);
186*bf2c3715SXin Li   // VERIFY_IS_APPROX(m2, m1.rowwise().reverse().eval());
187*bf2c3715SXin Li }
188*bf2c3715SXin Li 
EIGEN_DECLARE_TEST(array_reverse)189*bf2c3715SXin Li EIGEN_DECLARE_TEST(array_reverse)
190*bf2c3715SXin Li {
191*bf2c3715SXin Li   for(int i = 0; i < g_repeat; i++) {
192*bf2c3715SXin Li     CALL_SUBTEST_1( reverse(Matrix<float, 1, 1>()) );
193*bf2c3715SXin Li     CALL_SUBTEST_2( reverse(Matrix2f()) );
194*bf2c3715SXin Li     CALL_SUBTEST_3( reverse(Matrix4f()) );
195*bf2c3715SXin Li     CALL_SUBTEST_4( reverse(Matrix4d()) );
196*bf2c3715SXin Li     CALL_SUBTEST_5( reverse(MatrixXcf(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
197*bf2c3715SXin Li     CALL_SUBTEST_6( reverse(MatrixXi(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
198*bf2c3715SXin Li     CALL_SUBTEST_7( reverse(MatrixXcd(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
199*bf2c3715SXin Li     CALL_SUBTEST_8( reverse(Matrix<float, 100, 100>()) );
200*bf2c3715SXin Li     CALL_SUBTEST_9( reverse(Matrix<float,Dynamic,Dynamic,RowMajor>(internal::random<int>(1,EIGEN_TEST_MAX_SIZE), internal::random<int>(1,EIGEN_TEST_MAX_SIZE))) );
201*bf2c3715SXin Li     CALL_SUBTEST_3( bug1684<0>() );
202*bf2c3715SXin Li   }
203*bf2c3715SXin Li   CALL_SUBTEST_3( array_reverse_extra<0>() );
204*bf2c3715SXin Li }
205