/* * Copyright (c) 2023 Arm Limited. * * SPDX-License-Identifier: MIT * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifndef CKW_TESTS_TENSORBITMASKTEST_H #define CKW_TESTS_TENSORBITMASKTEST_H #include "ckw/TensorInfo.h" #include "ckw/types/TensorComponentType.h" #include "common/Common.h" #include "src/types/TensorComponentType.h" #include namespace ckw { class TensorBitMaskTrueTest : public ITest { public: TensorBitMaskTrueTest() { _component.push_back(TensorComponentType::Dim0); _component.push_back(TensorComponentType::Dim1); _component.push_back(TensorComponentType::Dim2); _component.push_back(TensorComponentType::Dim3); _component.push_back(TensorComponentType::Dim4); _component.push_back(TensorComponentType::Stride0); _component.push_back(TensorComponentType::Stride1); _component.push_back(TensorComponentType::Stride2); _component.push_back(TensorComponentType::Stride3); _component.push_back(TensorComponentType::Stride4); _component.push_back(TensorComponentType::Dim1xDim2); _component.push_back(TensorComponentType::Dim1xDim2xDim3); _component.push_back(TensorComponentType::Dim2xDim3); _component.push_back(TensorComponentType::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); } bool run() override { // The status of this variable can change in VALIDATE_TEST() bool all_tests_passed = true; VALIDATE_ON_MSG(_component.size() == _bitmask.size(), "The number of layouts and components does not match"); const size_t num_tests = _component.size(); for(size_t i = 0; i < num_tests; ++i) { const TensorComponentType component = _component[i]; const TensorComponentBitmask bitmask = _bitmask[i]; const bool out = static_cast(component) & static_cast(bitmask); VALIDATE_TEST(out == true, all_tests_passed, i); } return all_tests_passed; } std::string name() override { return "TensorBitMaskTrueTest"; } private: std::vector _component{}; std::vector _bitmask{}; }; class TensorBitMaskFalseTest : public ITest { public: TensorBitMaskFalseTest() { _component.push_back(TensorComponentType::Dim0); _component.push_back(TensorComponentType::Dim1); _component.push_back(TensorComponentType::Dim2); _component.push_back(TensorComponentType::Dim3); _component.push_back(TensorComponentType::Dim4); _component.push_back(TensorComponentType::Dim0); _component.push_back(TensorComponentType::Dim1); _component.push_back(TensorComponentType::Dim2); _component.push_back(TensorComponentType::Dim3); _component.push_back(TensorComponentType::Dim4); _component.push_back(TensorComponentType::Dim0); _component.push_back(TensorComponentType::Dim1); _component.push_back(TensorComponentType::Dim2); _component.push_back(TensorComponentType::Dim3); _component.push_back(TensorComponentType::Dim4); _component.push_back(TensorComponentType::Stride0); _component.push_back(TensorComponentType::Stride1); _component.push_back(TensorComponentType::Stride2); _component.push_back(TensorComponentType::Stride3); _component.push_back(TensorComponentType::Stride4); _component.push_back(TensorComponentType::Stride0); _component.push_back(TensorComponentType::Stride1); _component.push_back(TensorComponentType::Stride2); _component.push_back(TensorComponentType::Stride3); _component.push_back(TensorComponentType::Stride4); _component.push_back(TensorComponentType::Stride0); _component.push_back(TensorComponentType::Stride1); _component.push_back(TensorComponentType::Stride2); _component.push_back(TensorComponentType::Stride3); _component.push_back(TensorComponentType::Stride4); _component.push_back(TensorComponentType::Dim1xDim2); _component.push_back(TensorComponentType::Dim1xDim2xDim3); _component.push_back(TensorComponentType::Dim2xDim3); _component.push_back(TensorComponentType::Dim1xDim2); _component.push_back(TensorComponentType::Dim1xDim2xDim3); _component.push_back(TensorComponentType::Dim2xDim3); _component.push_back(TensorComponentType::Dim1xDim2); _component.push_back(TensorComponentType::Dim1xDim2xDim3); _component.push_back(TensorComponentType::Dim2xDim3); _component.push_back(TensorComponentType::OffsetFirstElement); _component.push_back(TensorComponentType::OffsetFirstElement); _component.push_back(TensorComponentType::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::OffsetFirstElement); _bitmask.push_back(TensorComponentBitmask::Dimension); _bitmask.push_back(TensorComponentBitmask::Stride); _bitmask.push_back(TensorComponentBitmask::FoldedDimensions); } bool run() override { // The status of this variable can change in VALIDATE_TEST() bool all_tests_passed = true; VALIDATE_ON_MSG(_component.size() == _bitmask.size(), "The number of layouts and components does not match"); const size_t num_tests = _component.size(); for(size_t i = 0; i < num_tests; ++i) { const TensorComponentType component = _component[i]; const TensorComponentBitmask bitmask = _bitmask[i]; const bool out = static_cast(component) & static_cast(bitmask); VALIDATE_TEST(out == false, all_tests_passed, i); } return all_tests_passed; } std::string name() override { return "TensorBitMaskFalseTest"; } private: std::vector _component{}; std::vector _bitmask{}; }; } // namespace ckw #endif // CKW_TESTS_TENSORBITMASKTEST_H