// // Copyright © 2019 Arm Ltd and Contributors. All rights reserved. // SPDX-License-Identifier: MIT // #include "ParserFlatbuffersFixture.hpp" TEST_SUITE("TensorflowLiteParser_Transpose") { struct TransposeFixture : public ParserFlatbuffersFixture { explicit TransposeFixture(const std::string & inputShape, const std::string & permuteData, const std::string & outputShape) { m_JsonString = R"( { "version": 3, "operator_codes": [ { "builtin_code": "TRANSPOSE", "version": 1 } ], "subgraphs": [ { "tensors": [ { "shape": )" + inputShape + R"(, "type": "FLOAT32", "buffer": 0, "name": "inputTensor", "quantization": { "min": [ 0.0 ], "max": [ 255.0 ], "details_type": 0, "quantized_dimension": 0 }, "is_variable": false }, { "shape": )" + outputShape + R"(, "type": "FLOAT32", "buffer": 1, "name": "outputTensor", "quantization": { "details_type": 0, "quantized_dimension": 0 }, "is_variable": false })"; m_JsonString += R"(, { "shape": [ 3 ], "type": "INT32", "buffer": 2, "name": "permuteTensor", "quantization": { "details_type": 0, "quantized_dimension": 0 }, "is_variable": false })"; m_JsonString += R"(], "inputs": [ 0 ], "outputs": [ 1 ], "operators": [ { "opcode_index": 0, "inputs": [ 0)"; m_JsonString += R"(,2)"; m_JsonString += R"(], "outputs": [ 1 ], "builtin_options_type": "TransposeOptions", "builtin_options": { }, "custom_options_format": "FLEXBUFFERS" } ] } ], "description": "TOCO Converted.", "buffers": [ { }, { })"; if (!permuteData.empty()) { m_JsonString += R"(,{"data": )" + permuteData + R"( })"; } m_JsonString += R"( ] } )"; Setup(); } }; // Note that this assumes the Tensorflow permutation vector implementation as opposed to the armnn implemenation. struct TransposeFixtureWithPermuteData : TransposeFixture { TransposeFixtureWithPermuteData() : TransposeFixture("[ 2, 2, 3 ]", "[ 0, 0, 0, 0, 2, 0, 0, 0, 1, 0, 0, 0 ]", "[ 2, 3, 2 ]") {} }; TEST_CASE_FIXTURE(TransposeFixtureWithPermuteData, "TransposeWithPermuteData") { RunTest<3, armnn::DataType::Float32>( 0, {{"inputTensor", { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 }}}, {{"outputTensor", { 1, 4, 2, 5, 3, 6, 7, 10, 8, 11, 9, 12 }}}); CHECK((m_Parser->GetNetworkOutputBindingInfo(0, "outputTensor").second.GetShape() == armnn::TensorShape({2,3,2}))); } // Tensorflow default permutation behavior assumes no permute argument will create permute vector [n-1...0], // where n is the number of dimensions of the input tensor // In this case we should get output shape 3,2,2 given default permutation vector 2,1,0 struct TransposeFixtureWithoutPermuteData : TransposeFixture { TransposeFixtureWithoutPermuteData() : TransposeFixture("[ 2, 2, 3 ]", "[ 2, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0 ]", "[ 3, 2, 2 ]") {} }; TEST_CASE_FIXTURE(TransposeFixtureWithoutPermuteData, "TransposeWithoutPermuteDims") { RunTest<3, armnn::DataType::Float32>( 0, {{"inputTensor", { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12 }}}, {{"outputTensor", { 1, 7, 4, 10, 2, 8, 5, 11, 3, 9, 6, 12 }}}); CHECK((m_Parser->GetNetworkOutputBindingInfo(0, "outputTensor").second.GetShape() == armnn::TensorShape({3,2,2}))); } }