#include #include #include using namespace psemek::geom; test_case(geom_matrix_empty) { matrix m00; matrix m10; matrix m01; static_assert(std::is_same_v); static_assert(std::is_same_v); static_assert(std::is_same_v); expect_equal(m00.columns(), 0); expect_equal(m00.rows(), 0); expect_equal(m10.columns(), 0); expect_equal(m10.rows(), 1); expect_equal(m01.columns(), 1); expect_equal(m01.rows(), 0); expect_throw(m00[0][0], detail::empty_array_exception); expect_throw(m10[0][0], detail::empty_array_exception); expect_throw(m01[0][0], detail::empty_array_exception); } test_case(geom_matrix_init) { matrix m; m[0][0] = 1; m[0][1] = 2; m[1][0] = 3; m[1][1] = 4; expect_equal(m.columns(), 2); expect_equal(m.rows(), 2); expect_equal(m[0][0], 1); expect_equal(m[0][1], 2); expect_equal(m[1][0], 3); expect_equal(m[1][1], 4); } test_case(geom_matrix_by__rows) { matrix m; m[0][0] = 1; m[0][1] = 2; m[1][0] = 3; m[1][1] = 4; expect_equal(m, (by_rows(vector{1, 2}, vector{3, 4}))); } test_case(geom_matrix_by__columns) { matrix m; m[0][0] = 1; m[0][1] = 2; m[1][0] = 3; m[1][1] = 4; expect_equal(m, (by_columns(vector{1, 3}, vector{2, 4}))); } test_case(geom_matrix_zero) { auto m = matrix::zero(); for (std::size_t i = 0; i < m.rows(); ++i) { for (std::size_t j = 0; j < m.columns(); ++j) { expect_equal(m[i][j], 0.f); } } } test_case(geom_matrix_identity) { auto m = matrix::identity(); for (std::size_t i = 0; i < m.rows(); ++i) { for (std::size_t j = 0; j < m.columns(); ++j) { expect_equal(m[i][j], (i == j ? 1.f : 0.f)); } } } test_case(geom_matrix_scalar) { auto m = matrix::scalar(3.f); for (std::size_t i = 0; i < m.rows(); ++i) { for (std::size_t j = 0; j < m.columns(); ++j) { expect_equal(m[i][j], (i == j ? 3.f : 0.f)); } } } test_case(geom_matrix_arithmetic) { vector v{1.f, 2.f}; matrix m1, m2; m1[0][0] = 1.f; m1[0][1] = 2.f; m1[1][0] = 3.f; m1[1][1] = 4.f; m2[0][0] = 5.f; m2[0][1] = 6.f; m2[1][0] = 7.f; m2[1][1] = 8.f; expect_equal(m1 * v, (vector{5.f, 11.f})); expect_equal(m2 * v, (vector{17.f, 23.f})); expect_equal(-m1, (by_rows(vector{-1.f, -2.f}, vector{-3.f, -4.f}))); expect_equal(5.f * m1, (by_rows(vector{5.f, 10.f}, vector{15.f, 20.f}))); expect_equal(m1 * 5.f, (by_rows(vector{5.f, 10.f}, vector{15.f, 20.f}))); expect_equal(m1 + m2, (by_rows(vector{6.f, 8.f}, vector{10.f, 12.f}))); expect_equal(m1 - m2, (by_rows(vector{-4.f, -4.f}, vector{-4.f, -4.f}))); expect_equal(m1 * m2, (by_rows(vector{19.f, 22.f}, vector{43.f, 50.f}))); expect_equal(m2 * m1, (by_rows(vector{23.f, 34.f}, vector{31.f, 46.f}))); expect_equal(transpose(m1), (by_rows(vector{1.f, 3.f}, vector{2.f, 4.f}))); expect_equal(transpose(transpose(m1)), m1); } test_case(geom_matrix_trace) { matrix m; m[0][0] = 1.f; m[0][1] = 2.f; m[1][0] = 3.f; m[1][1] = 4.f; expect_close(trace(m), 5.f, 1e-6); } test_case(geom_matrix_det) { matrix m; m[0][0] = 1.f; m[0][1] = 2.f; m[1][0] = 3.f; m[1][1] = 4.f; expect_close(det(m), -2.f, 1e-6); } test_case(geom_matrix_solve) { matrix m; m[0][0] = 1.f; m[0][1] = 2.f; m[1][0] = 3.f; m[1][1] = 4.f; vector v{1.f, 2.f}; auto s = solve(m, v); expect(s); expect_small(length(*s - vector{0.f, 0.5f}), 1e-6); } test_case(geom_matrix_inverse) { matrix m; m[0][0] = 1.f; m[0][1] = 2.f; m[1][0] = 3.f; m[1][1] = 4.f; auto i = inverse(m); expect(i); expect_small(frobenius_norm(*i - by_rows(vector{-2.f, 1.f}, vector{1.5f, -0.5f})), 1e-6); }