| // This file is part of Eigen, a lightweight C++ template library |
| // for linear algebra. |
| // |
| // Copyright (C) 2017 Gael Guennebaud <gael.guennebaud@inria.fr> |
| // |
| // 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/. |
| |
| #ifdef EIGEN_TEST_PART_2 |
| // Make sure we also check c++11 max implementation |
| #define EIGEN_MAX_CPP_VER 11 |
| #endif |
| |
| #ifdef EIGEN_TEST_PART_3 |
| // Make sure we also check c++98 max implementation |
| #define EIGEN_MAX_CPP_VER 03 |
| |
| // We need to disable this warning when compiling with c++11 while limiting Eigen to c++98 |
| // Ideally we would rather configure the compiler to build in c++98 mode but this needs |
| // to be done at the CMakeLists.txt level. |
| #if defined(__GNUC__) && (__GNUC__ > 4 || (__GNUC__ == 4 && __GNUC_MINOR__ >= 8)) |
| #pragma GCC diagnostic ignored "-Wdeprecated" |
| #endif |
| |
| #if defined(__GNUC__) && (__GNUC__ >=9) |
| #pragma GCC diagnostic ignored "-Wdeprecated-copy" |
| #endif |
| #if defined(__clang__) && (__clang_major__ >= 10) |
| #pragma clang diagnostic ignored "-Wdeprecated-copy" |
| #endif |
| |
| #endif |
| |
| #include <valarray> |
| #include <vector> |
| #include "main.h" |
| |
| #if EIGEN_HAS_CXX11 |
| #include <array> |
| #endif |
| |
| typedef std::pair<Index,Index> IndexPair; |
| |
| int encode(Index i, Index j) { |
| return int(i*100 + j); |
| } |
| |
| IndexPair decode(Index ij) { |
| return IndexPair(ij / 100, ij % 100); |
| } |
| |
| template<typename T> |
| bool match(const T& xpr, std::string ref, std::string str_xpr = "") { |
| EIGEN_UNUSED_VARIABLE(str_xpr); |
| std::stringstream str; |
| str << xpr; |
| if(!(str.str() == ref)) |
| std::cout << str_xpr << "\n" << xpr << "\n\n"; |
| return str.str() == ref; |
| } |
| |
| #define MATCH(X,R) match(X, R, #X) |
| |
| template<typename T1,typename T2> |
| typename internal::enable_if<internal::is_same<T1,T2>::value,bool>::type |
| is_same_eq(const T1& a, const T2& b) |
| { |
| return (a == b).all(); |
| } |
| |
| template<typename T1,typename T2> |
| bool is_same_seq(const T1& a, const T2& b) |
| { |
| bool ok = a.first()==b.first() && a.size() == b.size() && Index(a.incrObject())==Index(b.incrObject());; |
| if(!ok) |
| { |
| std::cerr << "seqN(" << a.first() << ", " << a.size() << ", " << Index(a.incrObject()) << ") != "; |
| std::cerr << "seqN(" << b.first() << ", " << b.size() << ", " << Index(b.incrObject()) << ")\n"; |
| } |
| return ok; |
| } |
| |
| template<typename T1,typename T2> |
| typename internal::enable_if<internal::is_same<T1,T2>::value,bool>::type |
| is_same_seq_type(const T1& a, const T2& b) |
| { |
| return is_same_seq(a,b); |
| } |
| |
| |
| |
| #define VERIFY_EQ_INT(A,B) VERIFY_IS_APPROX(int(A),int(B)) |
| |
| // C++03 does not allow local or unnamed enums as index |
| enum DummyEnum { XX=0, YY=1 }; |
| |
| void check_indexed_view() |
| { |
| Index n = 10; |
| |
| ArrayXd a = ArrayXd::LinSpaced(n,0,n-1); |
| Array<double,1,Dynamic> b = a.transpose(); |
| |
| #if EIGEN_COMP_CXXVER>=14 |
| ArrayXXi A = ArrayXXi::NullaryExpr(n,n, std::ref(encode)); |
| #else |
| ArrayXXi A = ArrayXXi::NullaryExpr(n,n, std::ptr_fun(&encode)); |
| #endif |
| |
| for(Index i=0; i<n; ++i) |
| for(Index j=0; j<n; ++j) |
| VERIFY( decode(A(i,j)) == IndexPair(i,j) ); |
| |
| Array4i eii(4); eii << 3, 1, 6, 5; |
| std::valarray<int> vali(4); Map<ArrayXi>(&vali[0],4) = eii; |
| std::vector<int> veci(4); Map<ArrayXi>(veci.data(),4) = eii; |
| |
| VERIFY( MATCH( A(3, seq(9,3,-1)), |
| "309 308 307 306 305 304 303") |
| ); |
| |
| VERIFY( MATCH( A(seqN(2,5), seq(9,3,-1)), |
| "209 208 207 206 205 204 203\n" |
| "309 308 307 306 305 304 303\n" |
| "409 408 407 406 405 404 403\n" |
| "509 508 507 506 505 504 503\n" |
| "609 608 607 606 605 604 603") |
| ); |
| |
| VERIFY( MATCH( A(seqN(2,5), 5), |
| "205\n" |
| "305\n" |
| "405\n" |
| "505\n" |
| "605") |
| ); |
| |
| VERIFY( MATCH( A(seqN(last,5,-1), seq(2,last)), |
| "902 903 904 905 906 907 908 909\n" |
| "802 803 804 805 806 807 808 809\n" |
| "702 703 704 705 706 707 708 709\n" |
| "602 603 604 605 606 607 608 609\n" |
| "502 503 504 505 506 507 508 509") |
| ); |
| |
| VERIFY( MATCH( A(eii, veci), |
| "303 301 306 305\n" |
| "103 101 106 105\n" |
| "603 601 606 605\n" |
| "503 501 506 505") |
| ); |
| |
| VERIFY( MATCH( A(eii, all), |
| "300 301 302 303 304 305 306 307 308 309\n" |
| "100 101 102 103 104 105 106 107 108 109\n" |
| "600 601 602 603 604 605 606 607 608 609\n" |
| "500 501 502 503 504 505 506 507 508 509") |
| ); |
| |
| // take row number 3, and repeat it 5 times |
| VERIFY( MATCH( A(seqN(3,5,0), all), |
| "300 301 302 303 304 305 306 307 308 309\n" |
| "300 301 302 303 304 305 306 307 308 309\n" |
| "300 301 302 303 304 305 306 307 308 309\n" |
| "300 301 302 303 304 305 306 307 308 309\n" |
| "300 301 302 303 304 305 306 307 308 309") |
| ); |
| |
| VERIFY( MATCH( a(seqN(3,3),0), "3\n4\n5" ) ); |
| VERIFY( MATCH( a(seq(3,5)), "3\n4\n5" ) ); |
| VERIFY( MATCH( a(seqN(3,3,1)), "3\n4\n5" ) ); |
| VERIFY( MATCH( a(seqN(5,3,-1)), "5\n4\n3" ) ); |
| |
| VERIFY( MATCH( b(0,seqN(3,3)), "3 4 5" ) ); |
| VERIFY( MATCH( b(seq(3,5)), "3 4 5" ) ); |
| VERIFY( MATCH( b(seqN(3,3,1)), "3 4 5" ) ); |
| VERIFY( MATCH( b(seqN(5,3,-1)), "5 4 3" ) ); |
| |
| VERIFY( MATCH( b(all), "0 1 2 3 4 5 6 7 8 9" ) ); |
| VERIFY( MATCH( b(eii), "3 1 6 5" ) ); |
| |
| Array44i B; |
| B.setRandom(); |
| VERIFY( (A(seqN(2,5), 5)).ColsAtCompileTime == 1); |
| VERIFY( (A(seqN(2,5), 5)).RowsAtCompileTime == Dynamic); |
| VERIFY_EQ_INT( (A(seqN(2,5), 5)).InnerStrideAtCompileTime , A.InnerStrideAtCompileTime); |
| VERIFY_EQ_INT( (A(seqN(2,5), 5)).OuterStrideAtCompileTime , A.col(5).OuterStrideAtCompileTime); |
| |
| VERIFY_EQ_INT( (A(5,seqN(2,5))).InnerStrideAtCompileTime , A.row(5).InnerStrideAtCompileTime); |
| VERIFY_EQ_INT( (A(5,seqN(2,5))).OuterStrideAtCompileTime , A.row(5).OuterStrideAtCompileTime); |
| VERIFY_EQ_INT( (B(1,seqN(1,2))).InnerStrideAtCompileTime , B.row(1).InnerStrideAtCompileTime); |
| VERIFY_EQ_INT( (B(1,seqN(1,2))).OuterStrideAtCompileTime , B.row(1).OuterStrideAtCompileTime); |
| |
| VERIFY_EQ_INT( (A(seqN(2,5), seq(1,3))).InnerStrideAtCompileTime , A.InnerStrideAtCompileTime); |
| VERIFY_EQ_INT( (A(seqN(2,5), seq(1,3))).OuterStrideAtCompileTime , A.OuterStrideAtCompileTime); |
| VERIFY_EQ_INT( (B(seqN(1,2), seq(1,3))).InnerStrideAtCompileTime , B.InnerStrideAtCompileTime); |
| VERIFY_EQ_INT( (B(seqN(1,2), seq(1,3))).OuterStrideAtCompileTime , B.OuterStrideAtCompileTime); |
| VERIFY_EQ_INT( (A(seqN(2,5,2), seq(1,3,2))).InnerStrideAtCompileTime , Dynamic); |
| VERIFY_EQ_INT( (A(seqN(2,5,2), seq(1,3,2))).OuterStrideAtCompileTime , Dynamic); |
| VERIFY_EQ_INT( (A(seqN(2,5,fix<2>), seq(1,3,fix<3>))).InnerStrideAtCompileTime , 2); |
| VERIFY_EQ_INT( (A(seqN(2,5,fix<2>), seq(1,3,fix<3>))).OuterStrideAtCompileTime , Dynamic); |
| VERIFY_EQ_INT( (B(seqN(1,2,fix<2>), seq(1,3,fix<3>))).InnerStrideAtCompileTime , 2); |
| VERIFY_EQ_INT( (B(seqN(1,2,fix<2>), seq(1,3,fix<3>))).OuterStrideAtCompileTime , 3*4); |
| |
| VERIFY_EQ_INT( (A(seqN(2,fix<5>), seqN(1,fix<3>))).RowsAtCompileTime, 5); |
| VERIFY_EQ_INT( (A(seqN(2,fix<5>), seqN(1,fix<3>))).ColsAtCompileTime, 3); |
| VERIFY_EQ_INT( (A(seqN(2,fix<5>(5)), seqN(1,fix<3>(3)))).RowsAtCompileTime, 5); |
| VERIFY_EQ_INT( (A(seqN(2,fix<5>(5)), seqN(1,fix<3>(3)))).ColsAtCompileTime, 3); |
| VERIFY_EQ_INT( (A(seqN(2,fix<Dynamic>(5)), seqN(1,fix<Dynamic>(3)))).RowsAtCompileTime, Dynamic); |
| VERIFY_EQ_INT( (A(seqN(2,fix<Dynamic>(5)), seqN(1,fix<Dynamic>(3)))).ColsAtCompileTime, Dynamic); |
| VERIFY_EQ_INT( (A(seqN(2,fix<Dynamic>(5)), seqN(1,fix<Dynamic>(3)))).rows(), 5); |
| VERIFY_EQ_INT( (A(seqN(2,fix<Dynamic>(5)), seqN(1,fix<Dynamic>(3)))).cols(), 3); |
| |
| VERIFY( is_same_seq_type( seqN(2,5,fix<-1>), seqN(2,5,fix<-1>(-1)) ) ); |
| VERIFY( is_same_seq_type( seqN(2,5), seqN(2,5,fix<1>(1)) ) ); |
| VERIFY( is_same_seq_type( seqN(2,5,3), seqN(2,5,fix<DynamicIndex>(3)) ) ); |
| VERIFY( is_same_seq_type( seq(2,7,fix<3>), seqN(2,2,fix<3>) ) ); |
| VERIFY( is_same_seq_type( seqN(2,fix<Dynamic>(5),3), seqN(2,5,fix<DynamicIndex>(3)) ) ); |
| VERIFY( is_same_seq_type( seqN(2,fix<5>(5),fix<-2>), seqN(2,fix<5>,fix<-2>()) ) ); |
| |
| VERIFY( is_same_seq_type( seq(2,fix<5>), seqN(2,4) ) ); |
| #if EIGEN_HAS_CXX11 |
| VERIFY( is_same_seq_type( seq(fix<2>,fix<5>), seqN(fix<2>,fix<4>) ) ); |
| VERIFY( is_same_seq( seqN(2,std::integral_constant<int,5>(),std::integral_constant<int,-2>()), seqN(2,fix<5>,fix<-2>()) ) ); |
| VERIFY( is_same_seq( seq(std::integral_constant<int,1>(),std::integral_constant<int,5>(),std::integral_constant<int,2>()), |
| seq(fix<1>,fix<5>,fix<2>()) ) ); |
| VERIFY( is_same_seq_type( seqN(2,std::integral_constant<int,5>(),std::integral_constant<int,-2>()), seqN(2,fix<5>,fix<-2>()) ) ); |
| VERIFY( is_same_seq_type( seq(std::integral_constant<int,1>(),std::integral_constant<int,5>(),std::integral_constant<int,2>()), |
| seq(fix<1>,fix<5>,fix<2>()) ) ); |
| |
| VERIFY( is_same_seq_type( seqN(2,std::integral_constant<int,5>()), seqN(2,fix<5>) ) ); |
| VERIFY( is_same_seq_type( seq(std::integral_constant<int,1>(),std::integral_constant<int,5>()), seq(fix<1>,fix<5>) ) ); |
| #else |
| // sorry, no compile-time size recovery in c++98/03 |
| VERIFY( is_same_seq( seq(fix<2>,fix<5>), seqN(fix<2>,fix<4>) ) ); |
| #endif |
| |
| VERIFY( (A(seqN(2,fix<5>), 5)).RowsAtCompileTime == 5); |
| VERIFY( (A(4, all)).ColsAtCompileTime == Dynamic); |
| VERIFY( (A(4, all)).RowsAtCompileTime == 1); |
| VERIFY( (B(1, all)).ColsAtCompileTime == 4); |
| VERIFY( (B(1, all)).RowsAtCompileTime == 1); |
| VERIFY( (B(all,1)).ColsAtCompileTime == 1); |
| VERIFY( (B(all,1)).RowsAtCompileTime == 4); |
| |
| VERIFY(int( (A(all, eii)).ColsAtCompileTime) == int(eii.SizeAtCompileTime)); |
| VERIFY_EQ_INT( (A(eii, eii)).Flags&DirectAccessBit, (unsigned int)(0)); |
| VERIFY_EQ_INT( (A(eii, eii)).InnerStrideAtCompileTime, 0); |
| VERIFY_EQ_INT( (A(eii, eii)).OuterStrideAtCompileTime, 0); |
| |
| VERIFY_IS_APPROX( A(seq(n-1,2,-2), seqN(n-1-6,3,-1)), A(seq(last,2,fix<-2>), seqN(last-6,3,fix<-1>)) ); |
| |
| VERIFY_IS_APPROX( A(seq(n-1,2,-2), seqN(n-1-6,4)), A(seq(last,2,-2), seqN(last-6,4)) ); |
| VERIFY_IS_APPROX( A(seq(n-1-6,n-1-2), seqN(n-1-6,4)), A(seq(last-6,last-2), seqN(6+last-6-6,4)) ); |
| VERIFY_IS_APPROX( A(seq((n-1)/2,(n)/2+3), seqN(2,4)), A(seq(last/2,(last+1)/2+3), seqN(last+2-last,4)) ); |
| VERIFY_IS_APPROX( A(seq(n-2,2,-2), seqN(n-8,4)), A(seq(lastp1-2,2,-2), seqN(lastp1-8,4)) ); |
| |
| // Check all combinations of seq: |
| VERIFY_IS_APPROX( A(seq(1,n-1-2,2), seq(1,n-1-2,2)), A(seq(1,last-2,2), seq(1,last-2,fix<2>)) ); |
| VERIFY_IS_APPROX( A(seq(n-1-5,n-1-2,2), seq(n-1-5,n-1-2,2)), A(seq(last-5,last-2,2), seq(last-5,last-2,fix<2>)) ); |
| VERIFY_IS_APPROX( A(seq(n-1-5,7,2), seq(n-1-5,7,2)), A(seq(last-5,7,2), seq(last-5,7,fix<2>)) ); |
| VERIFY_IS_APPROX( A(seq(1,n-1-2), seq(n-1-5,7)), A(seq(1,last-2), seq(last-5,7)) ); |
| VERIFY_IS_APPROX( A(seq(n-1-5,n-1-2), seq(n-1-5,n-1-2)), A(seq(last-5,last-2), seq(last-5,last-2)) ); |
| |
| VERIFY_IS_APPROX( A.col(A.cols()-1), A(all,last) ); |
| VERIFY_IS_APPROX( A(A.rows()-2, A.cols()/2), A(last-1, lastp1/2) ); |
| VERIFY_IS_APPROX( a(a.size()-2), a(last-1) ); |
| VERIFY_IS_APPROX( a(a.size()/2), a((last+1)/2) ); |
| |
| // Check fall-back to Block |
| { |
| VERIFY( is_same_eq(A.col(0), A(all,0)) ); |
| VERIFY( is_same_eq(A.row(0), A(0,all)) ); |
| VERIFY( is_same_eq(A.block(0,0,2,2), A(seqN(0,2),seq(0,1))) ); |
| VERIFY( is_same_eq(A.middleRows(2,4), A(seqN(2,4),all)) ); |
| VERIFY( is_same_eq(A.middleCols(2,4), A(all,seqN(2,4))) ); |
| |
| VERIFY( is_same_eq(A.col(A.cols()-1), A(all,last)) ); |
| |
| const ArrayXXi& cA(A); |
| VERIFY( is_same_eq(cA.col(0), cA(all,0)) ); |
| VERIFY( is_same_eq(cA.row(0), cA(0,all)) ); |
| VERIFY( is_same_eq(cA.block(0,0,2,2), cA(seqN(0,2),seq(0,1))) ); |
| VERIFY( is_same_eq(cA.middleRows(2,4), cA(seqN(2,4),all)) ); |
| VERIFY( is_same_eq(cA.middleCols(2,4), cA(all,seqN(2,4))) ); |
| |
| VERIFY( is_same_eq(a.head(4), a(seq(0,3))) ); |
| VERIFY( is_same_eq(a.tail(4), a(seqN(last-3,4))) ); |
| VERIFY( is_same_eq(a.tail(4), a(seq(lastp1-4,last))) ); |
| VERIFY( is_same_eq(a.segment<4>(3), a(seqN(3,fix<4>))) ); |
| } |
| |
| ArrayXXi A1=A, A2 = ArrayXXi::Random(4,4); |
| ArrayXi range25(4); range25 << 3,2,4,5; |
| A1(seqN(3,4),seq(2,5)) = A2; |
| VERIFY_IS_APPROX( A1.block(3,2,4,4), A2 ); |
| A1 = A; |
| A2.setOnes(); |
| A1(seq(6,3,-1),range25) = A2; |
| VERIFY_IS_APPROX( A1.block(3,2,4,4), A2 ); |
| |
| // check reverse |
| { |
| VERIFY( is_same_seq_type( seq(3,7).reverse(), seqN(7,5,fix<-1>) ) ); |
| VERIFY( is_same_seq_type( seq(7,3,fix<-2>).reverse(), seqN(3,3,fix<2>) ) ); |
| VERIFY_IS_APPROX( a(seqN(2,last/2).reverse()), a(seqN(2+(last/2-1)*1,last/2,fix<-1>)) ); |
| VERIFY_IS_APPROX( a(seqN(last/2,fix<4>).reverse()),a(seqN(last/2,fix<4>)).reverse() ); |
| VERIFY_IS_APPROX( A(seq(last-5,last-1,2).reverse(), seqN(last-3,3,fix<-2>).reverse()), |
| A(seq(last-5,last-1,2), seqN(last-3,3,fix<-2>)).reverse() ); |
| } |
| |
| #if EIGEN_HAS_CXX11 |
| // check lastN |
| VERIFY_IS_APPROX( a(lastN(3)), a.tail(3) ); |
| VERIFY( MATCH( a(lastN(3)), "7\n8\n9" ) ); |
| VERIFY_IS_APPROX( a(lastN(fix<3>())), a.tail<3>() ); |
| VERIFY( MATCH( a(lastN(3,2)), "5\n7\n9" ) ); |
| VERIFY( MATCH( a(lastN(3,fix<2>())), "5\n7\n9" ) ); |
| VERIFY( a(lastN(fix<3>())).SizeAtCompileTime == 3 ); |
| |
| VERIFY( (A(all, std::array<int,4>{{1,3,2,4}})).ColsAtCompileTime == 4); |
| |
| VERIFY_IS_APPROX( (A(std::array<int,3>{{1,3,5}}, std::array<int,4>{{9,6,3,0}})), A(seqN(1,3,2), seqN(9,4,-3)) ); |
| |
| #if EIGEN_HAS_STATIC_ARRAY_TEMPLATE |
| VERIFY_IS_APPROX( A({3, 1, 6, 5}, all), A(std::array<int,4>{{3, 1, 6, 5}}, all) ); |
| VERIFY_IS_APPROX( A(all,{3, 1, 6, 5}), A(all,std::array<int,4>{{3, 1, 6, 5}}) ); |
| VERIFY_IS_APPROX( A({1,3,5},{3, 1, 6, 5}), A(std::array<int,3>{{1,3,5}},std::array<int,4>{{3, 1, 6, 5}}) ); |
| |
| VERIFY_IS_EQUAL( A({1,3,5},{3, 1, 6, 5}).RowsAtCompileTime, 3 ); |
| VERIFY_IS_EQUAL( A({1,3,5},{3, 1, 6, 5}).ColsAtCompileTime, 4 ); |
| |
| VERIFY_IS_APPROX( a({3, 1, 6, 5}), a(std::array<int,4>{{3, 1, 6, 5}}) ); |
| VERIFY_IS_EQUAL( a({1,3,5}).SizeAtCompileTime, 3 ); |
| |
| VERIFY_IS_APPROX( b({3, 1, 6, 5}), b(std::array<int,4>{{3, 1, 6, 5}}) ); |
| VERIFY_IS_EQUAL( b({1,3,5}).SizeAtCompileTime, 3 ); |
| #endif |
| |
| #endif |
| |
| // check mat(i,j) with weird types for i and j |
| { |
| VERIFY_IS_APPROX( A(B.RowsAtCompileTime-1, 1), A(3,1) ); |
| VERIFY_IS_APPROX( A(B.RowsAtCompileTime, 1), A(4,1) ); |
| VERIFY_IS_APPROX( A(B.RowsAtCompileTime-1, B.ColsAtCompileTime-1), A(3,3) ); |
| VERIFY_IS_APPROX( A(B.RowsAtCompileTime, B.ColsAtCompileTime), A(4,4) ); |
| const Index I_ = 3, J_ = 4; |
| VERIFY_IS_APPROX( A(I_,J_), A(3,4) ); |
| } |
| |
| // check extended block API |
| { |
| VERIFY( is_same_eq( A.block<3,4>(1,1), A.block(1,1,fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( A.block<3,4>(1,1,3,4), A.block(1,1,fix<3>(),fix<4>(4))) ); |
| VERIFY( is_same_eq( A.block<3,Dynamic>(1,1,3,4), A.block(1,1,fix<3>,4)) ); |
| VERIFY( is_same_eq( A.block<Dynamic,4>(1,1,3,4), A.block(1,1,fix<Dynamic>(3),fix<4>)) ); |
| VERIFY( is_same_eq( A.block(1,1,3,4), A.block(1,1,fix<Dynamic>(3),fix<Dynamic>(4))) ); |
| |
| VERIFY( is_same_eq( A.topLeftCorner<3,4>(), A.topLeftCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( A.bottomLeftCorner<3,4>(), A.bottomLeftCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( A.bottomRightCorner<3,4>(), A.bottomRightCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( A.topRightCorner<3,4>(), A.topRightCorner(fix<3>,fix<4>)) ); |
| |
| VERIFY( is_same_eq( A.leftCols<3>(), A.leftCols(fix<3>)) ); |
| VERIFY( is_same_eq( A.rightCols<3>(), A.rightCols(fix<3>)) ); |
| VERIFY( is_same_eq( A.middleCols<3>(1), A.middleCols(1,fix<3>)) ); |
| |
| VERIFY( is_same_eq( A.topRows<3>(), A.topRows(fix<3>)) ); |
| VERIFY( is_same_eq( A.bottomRows<3>(), A.bottomRows(fix<3>)) ); |
| VERIFY( is_same_eq( A.middleRows<3>(1), A.middleRows(1,fix<3>)) ); |
| |
| VERIFY( is_same_eq( a.segment<3>(1), a.segment(1,fix<3>)) ); |
| VERIFY( is_same_eq( a.head<3>(), a.head(fix<3>)) ); |
| VERIFY( is_same_eq( a.tail<3>(), a.tail(fix<3>)) ); |
| |
| const ArrayXXi& cA(A); |
| VERIFY( is_same_eq( cA.block<Dynamic,4>(1,1,3,4), cA.block(1,1,fix<Dynamic>(3),fix<4>)) ); |
| |
| VERIFY( is_same_eq( cA.topLeftCorner<3,4>(), cA.topLeftCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( cA.bottomLeftCorner<3,4>(), cA.bottomLeftCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( cA.bottomRightCorner<3,4>(), cA.bottomRightCorner(fix<3>,fix<4>)) ); |
| VERIFY( is_same_eq( cA.topRightCorner<3,4>(), cA.topRightCorner(fix<3>,fix<4>)) ); |
| |
| VERIFY( is_same_eq( cA.leftCols<3>(), cA.leftCols(fix<3>)) ); |
| VERIFY( is_same_eq( cA.rightCols<3>(), cA.rightCols(fix<3>)) ); |
| VERIFY( is_same_eq( cA.middleCols<3>(1), cA.middleCols(1,fix<3>)) ); |
| |
| VERIFY( is_same_eq( cA.topRows<3>(), cA.topRows(fix<3>)) ); |
| VERIFY( is_same_eq( cA.bottomRows<3>(), cA.bottomRows(fix<3>)) ); |
| VERIFY( is_same_eq( cA.middleRows<3>(1), cA.middleRows(1,fix<3>)) ); |
| } |
| |
| // Check compilation of enums as index type: |
| a(XX) = 1; |
| A(XX,YY) = 1; |
| // Anonymous enums only work with C++11 |
| #if EIGEN_HAS_CXX11 |
| enum { X=0, Y=1 }; |
| a(X) = 1; |
| A(X,Y) = 1; |
| A(XX,Y) = 1; |
| A(X,YY) = 1; |
| #endif |
| |
| // Check compilation of varying integer types as index types: |
| Index i = n/2; |
| short i_short(i); |
| std::size_t i_sizet(i); |
| VERIFY_IS_EQUAL( a(i), a.coeff(i_short) ); |
| VERIFY_IS_EQUAL( a(i), a.coeff(i_sizet) ); |
| |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i_short, i_short) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i_short, i) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i, i_short) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i, i_sizet) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i_sizet, i) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(i_sizet, i_short) ); |
| VERIFY_IS_EQUAL( A(i,i), A.coeff(5, i_sizet) ); |
| |
| // Regression test for Max{Rows,Cols}AtCompileTime |
| { |
| Matrix3i A3 = Matrix3i::Random(); |
| ArrayXi ind(5); ind << 1,1,1,1,1; |
| VERIFY_IS_EQUAL( A3(ind,ind).eval(), MatrixXi::Constant(5,5,A3(1,1)) ); |
| } |
| |
| // Regression for bug 1736 |
| { |
| VERIFY_IS_APPROX(A(all, eii).col(0).eval(), A.col(eii(0))); |
| A(all, eii).col(0) = A.col(eii(0)); |
| } |
| |
| // bug 1815: IndexedView should allow linear access |
| { |
| VERIFY( MATCH( b(eii)(0), "3" ) ); |
| VERIFY( MATCH( a(eii)(0), "3" ) ); |
| VERIFY( MATCH( A(1,eii)(0), "103")); |
| VERIFY( MATCH( A(eii,1)(0), "301")); |
| VERIFY( MATCH( A(1,all)(1), "101")); |
| VERIFY( MATCH( A(all,1)(1), "101")); |
| } |
| |
| #if EIGEN_HAS_CXX11 |
| //Bug IndexView with a single static row should be RowMajor: |
| { |
| // A(1, seq(0,2,1)).cwiseAbs().colwise().replicate(2).eval(); |
| STATIC_CHECK(( (internal::evaluator<decltype( A(1,seq(0,2,1)) )>::Flags & RowMajorBit) == RowMajorBit )); |
| } |
| #endif |
| |
| } |
| |
| EIGEN_DECLARE_TEST(indexed_view) |
| { |
| // for(int i = 0; i < g_repeat; i++) { |
| CALL_SUBTEST_1( check_indexed_view() ); |
| CALL_SUBTEST_2( check_indexed_view() ); |
| CALL_SUBTEST_3( check_indexed_view() ); |
| // } |
| |
| // static checks of some internals: |
| STATIC_CHECK(( internal::is_valid_index_type<int>::value )); |
| STATIC_CHECK(( internal::is_valid_index_type<unsigned int>::value )); |
| STATIC_CHECK(( internal::is_valid_index_type<short>::value )); |
| STATIC_CHECK(( internal::is_valid_index_type<std::ptrdiff_t>::value )); |
| STATIC_CHECK(( internal::is_valid_index_type<std::size_t>::value )); |
| STATIC_CHECK(( !internal::valid_indexed_view_overload<int,int>::value )); |
| STATIC_CHECK(( !internal::valid_indexed_view_overload<int,std::ptrdiff_t>::value )); |
| STATIC_CHECK(( !internal::valid_indexed_view_overload<std::ptrdiff_t,int>::value )); |
| STATIC_CHECK(( !internal::valid_indexed_view_overload<std::size_t,int>::value )); |
| } |
