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| author |  Benoit Steiner <benoit.steiner.goog@gmail.com> | 2014-05-06 11:18:37 -0700 |
|---|---|---|
| committer | Benoit Steiner <benoit.steiner.goog@gmail.com> | 2014-05-06 11:18:37 -0700 |
| commit | 0320f7e3a71406b9a03d1bab0d168fd76e63d457 (patch) | |
| tree | fffaaacd58cb5088f66d868bbb172971aacf9b53 /unsupported/test/cxx11_tensor_fixed_size.cpp | |
| parent | c0f2cb016e60b7dbde1d5946f42234a709a711f9 (diff) | |
Added support for fixed sized tensors.
Improved support for tensor expressions.
Diffstat (limited to 'unsupported/test/cxx11_tensor_fixed_size.cpp')
| -rw-r--r-- | unsupported/test/cxx11_tensor_fixed_size.cpp | 167 |
1 files changed, 167 insertions, 0 deletions
diff --git a/unsupported/test/cxx11_tensor_fixed_size.cpp b/unsupported/test/cxx11_tensor_fixed_size.cpp new file mode 100644 index 000000000..c1d74d881 --- /dev/null +++ b/unsupported/test/cxx11_tensor_fixed_size.cpp @@ -0,0 +1,167 @@ +// This file is part of Eigen, a lightweight C++ template library +// for linear algebra. +// +// Copyright (C) 2014 Benoit Steiner <benoit.steiner.goog@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" + +#include <Eigen/CXX11/Tensor> + +using Eigen::Tensor; +using Eigen::RowMajor; + + +static void test_1d() +{ + TensorFixedSize<float, Sizes<6> > vec1; + TensorFixedSize<float, Sizes<6>, RowMajor> vec2; + + VERIFY_IS_EQUAL((vec1.size()), 6); + // VERIFY_IS_EQUAL((vec1.dimensions()[0]), 6); + // VERIFY_IS_EQUAL((vec1.dimension(0)), 6); + + vec1(0) = 4.0; vec2(0) = 0.0; + vec1(1) = 8.0; vec2(1) = 1.0; + vec1(2) = 15.0; vec2(2) = 2.0; + vec1(3) = 16.0; vec2(3) = 3.0; + vec1(4) = 23.0; vec2(4) = 4.0; + vec1(5) = 42.0; vec2(5) = 5.0; + + float data3[6]; + TensorMap<TensorFixedSize<float, Sizes<6> > > vec3(data3, 6); + vec3 = vec1.cwiseSqrt(); + float data4[6]; + TensorMap<TensorFixedSize<float, Sizes<6>, RowMajor> > vec4(data4, 6); + vec4 = vec2.cwiseSqrt(); + + VERIFY_IS_EQUAL((vec3.size()), 6); + // VERIFY_IS_EQUAL((vec3.dimensions()[0]), 6); + // VERIFY_IS_EQUAL((vec3.dimension(0)), 6); + + VERIFY_IS_APPROX(vec3(0), sqrtf(4.0)); + VERIFY_IS_APPROX(vec3(1), sqrtf(8.0)); + VERIFY_IS_APPROX(vec3(2), sqrtf(15.0)); + VERIFY_IS_APPROX(vec3(3), sqrtf(16.0)); + VERIFY_IS_APPROX(vec3(4), sqrtf(23.0)); + VERIFY_IS_APPROX(vec3(5), sqrtf(42.0)); + + VERIFY_IS_APPROX(vec4(0), sqrtf(0.0)); + VERIFY_IS_APPROX(vec4(1), sqrtf(1.0)); + VERIFY_IS_APPROX(vec4(2), sqrtf(2.0)); + VERIFY_IS_APPROX(vec4(3), sqrtf(3.0)); + VERIFY_IS_APPROX(vec4(4), sqrtf(4.0)); + VERIFY_IS_APPROX(vec4(5), sqrtf(5.0)); + + vec3 = vec1 + vec2; + VERIFY_IS_APPROX(vec3(0), 4.0f + 0.0f); + VERIFY_IS_APPROX(vec3(1), 8.0f + 1.0f); + VERIFY_IS_APPROX(vec3(2), 15.0f + 2.0f); + VERIFY_IS_APPROX(vec3(3), 16.0f + 3.0f); + VERIFY_IS_APPROX(vec3(4), 23.0f + 4.0f); + VERIFY_IS_APPROX(vec3(5), 42.0f + 5.0f); +} + +static void test_2d() +{ + float data1[6]; + TensorMap<TensorFixedSize<float, Sizes<2, 3> >> mat1(data1,2,3); + float data2[6]; + TensorMap<TensorFixedSize<float, Sizes<2, 3>, RowMajor>> mat2(data2,2,3); + + VERIFY_IS_EQUAL((mat1.size()), 2*3); + // VERIFY_IS_EQUAL((mat1.dimension(0)), 2); + // VERIFY_IS_EQUAL((mat1.dimension(1)), 3); + + mat1(0,0) = 0.0; + mat1(0,1) = 1.0; + mat1(0,2) = 2.0; + mat1(1,0) = 3.0; + mat1(1,1) = 4.0; + mat1(1,2) = 5.0; + + mat2(0,0) = -0.0; + mat2(0,1) = -1.0; + mat2(0,2) = -2.0; + mat2(1,0) = -3.0; + mat2(1,1) = -4.0; + mat2(1,2) = -5.0; + + TensorFixedSize<float, Sizes<2, 3>> mat3; + TensorFixedSize<float, Sizes<2, 3>, RowMajor> mat4; + mat3 = mat1.cwiseAbs(); + mat4 = mat2.cwiseAbs(); + + VERIFY_IS_EQUAL((mat3.size()), 2*3); + // VERIFY_IS_EQUAL((mat3.dimension(0)), 2); + // VERIFY_IS_EQUAL((mat3.dimension(1)), 3); + + VERIFY_IS_APPROX(mat3(0,0), 0.0f); + VERIFY_IS_APPROX(mat3(0,1), 1.0f); + VERIFY_IS_APPROX(mat3(0,2), 2.0f); + VERIFY_IS_APPROX(mat3(1,0), 3.0f); + VERIFY_IS_APPROX(mat3(1,1), 4.0f); + VERIFY_IS_APPROX(mat3(1,2), 5.0f); + + VERIFY_IS_APPROX(mat4(0,0), 0.0f); + VERIFY_IS_APPROX(mat4(0,1), 1.0f); + VERIFY_IS_APPROX(mat4(0,2), 2.0f); + VERIFY_IS_APPROX(mat4(1,0), 3.0f); + VERIFY_IS_APPROX(mat4(1,1), 4.0f); + VERIFY_IS_APPROX(mat4(1,2), 5.0f); +} + +static void test_3d() +{ + TensorFixedSize<float, Sizes<2, 3, 7> > mat1; + TensorFixedSize<float, Sizes<2, 3, 7>, RowMajor> mat2; + + VERIFY_IS_EQUAL((mat1.size()), 2*3*7); + // VERIFY_IS_EQUAL((mat1.dimension(0)), 2); + // VERIFY_IS_EQUAL((mat1.dimension(1)), 3); + // VERIFY_IS_EQUAL((mat1.dimension(2)), 7); + + float val = 0.0; + for (int i = 0; i < 2; ++i) { + for (int j = 0; j < 3; ++j) { + for (int k = 0; k < 7; ++k) { + mat1(i,j,k) = val; + mat2(i,j,k) = val; + val += 1.0; + } + } + } + + TensorFixedSize<float, Sizes<2, 3, 7> > mat3; + mat3 = mat1.cwiseSqrt(); + TensorFixedSize<float, Sizes<2, 3, 7>, RowMajor> mat4; + mat4 = mat2.cwiseSqrt(); + + VERIFY_IS_EQUAL((mat3.size()), 2*3*7); + // VERIFY_IS_EQUAL((mat3.dimension(0)), 2); + // VERIFY_IS_EQUAL((mat3.dimension(1)), 3); + // VERIFY_IS_EQUAL((mat3.dimension(2)), 7); + + + val = 0.0; + for (int i = 0; i < 2; ++i) { + for (int j = 0; j < 3; ++j) { + for (int k = 0; k < 7; ++k) { + VERIFY_IS_APPROX(mat3(i,j,k), sqrtf(val)); + VERIFY_IS_APPROX(mat4(i,j,k), sqrtf(val)); + val += 1.0; + } + } + } +} + + +void test_cxx11_tensor_fixed_size() +{ + CALL_SUBTEST(test_1d()); + CALL_SUBTEST(test_2d()); + CALL_SUBTEST(test_3d()); +} |