| |
| #define EIGEN_ENABLE_EVALUATORS |
| #include "main.h" |
| |
| using internal::copy_using_evaluator; |
| using namespace std; |
| |
| void test_evaluators() |
| { |
| // Testing Matrix evaluator and Transpose |
| Vector2d v(1,2); |
| const Vector2d v_const(v); |
| Vector2d v2; |
| RowVector2d w; |
| |
| copy_using_evaluator(v2, v); |
| assert(v2.isApprox((Vector2d() << 1,2).finished())); |
| |
| copy_using_evaluator(v2, v_const); |
| assert(v2.isApprox((Vector2d() << 1,2).finished())); |
| |
| // Testing Transpose |
| copy_using_evaluator(w, v.transpose()); // Transpose as rvalue |
| assert(w.isApprox((RowVector2d() << 1,2).finished())); |
| |
| copy_using_evaluator(w, v_const.transpose()); |
| assert(w.isApprox((RowVector2d() << 1,2).finished())); |
| |
| copy_using_evaluator(w.transpose(), v); // Transpose as lvalue |
| assert(w.isApprox((RowVector2d() << 1,2).finished())); |
| |
| copy_using_evaluator(w.transpose(), v_const); |
| assert(w.isApprox((RowVector2d() << 1,2).finished())); |
| |
| // Testing Array evaluator |
| ArrayXXf a(2,3); |
| ArrayXXf b(3,2); |
| a << 1,2,3, 4,5,6; |
| const ArrayXXf a_const(a); |
| |
| ArrayXXf b_expected(3,2); |
| b_expected << 1,4, 2,5, 3,6; |
| copy_using_evaluator(b, a.transpose()); |
| assert(b.isApprox(b_expected)); |
| |
| copy_using_evaluator(b, a_const.transpose()); |
| assert(b.isApprox(b_expected)); |
| |
| // Testing CwiseNullaryOp evaluator |
| copy_using_evaluator(w, RowVector2d::Random()); |
| assert((w.array() >= -1).all() && (w.array() <= 1).all()); // not easy to test ... |
| |
| copy_using_evaluator(w, RowVector2d::Zero()); |
| assert(w.isApprox((RowVector2d() << 0,0).finished())); |
| |
| copy_using_evaluator(w, RowVector2d::Constant(3)); |
| assert(w.isApprox((RowVector2d() << 3,3).finished())); |
| |
| // mix CwiseNullaryOp and transpose |
| copy_using_evaluator(w, Vector2d::Zero().transpose()); |
| assert(w.isApprox((RowVector2d() << 0,0).finished())); |
| |
| { |
| MatrixXf a(2,2), b(2,2), c(2,2), d(2,2); |
| a << 1, 2, 3, 4; b << 5, 6, 7, 8; c << 9, 10, 11, 12; |
| copy_using_evaluator(d, (a + b)); |
| cout << d << endl; |
| |
| copy_using_evaluator(d, (a + b).transpose()); |
| cout << d << endl; |
| |
| copy_using_evaluator(d, prod(a,b).transpose()); |
| cout << d << endl; |
| |
| // copy_using_evaluator(d, a.transpose() + (a.transpose() * (b+b))); |
| // cout << d << endl; |
| } |
| |
| // this does not work because Random is eval-before-nested: |
| // copy_using_evaluator(w, Vector2d::Random().transpose()); |
| |
| // test CwiseUnaryOp |
| copy_using_evaluator(v2, 3 * v); |
| assert(v2.isApprox((Vector2d() << 3,6).finished())); |
| |
| copy_using_evaluator(w, (3 * v).transpose()); |
| assert(w.isApprox((RowVector2d() << 3,6).finished())); |
| |
| copy_using_evaluator(b, (a + 3).transpose()); |
| b_expected << 4,7, 5,8, 6,9; |
| assert(b.isApprox(b_expected)); |
| |
| copy_using_evaluator(b, (2 * a_const + 3).transpose()); |
| b_expected << 5,11, 7,13, 9,15; |
| assert(b.isApprox(b_expected)); |
| |
| // test CwiseBinaryOp |
| copy_using_evaluator(v2, v + Vector2d::Ones()); |
| assert(v2.isApprox((Vector2d() << 2,3).finished())); |
| |
| copy_using_evaluator(w, (v + Vector2d::Ones()).transpose().cwiseProduct(RowVector2d::Constant(3))); |
| assert(w.isApprox((RowVector2d() << 6,9).finished())); |
| } |
