// // Copyright © 2017 Arm Ltd. All rights reserved. // SPDX-License-Identifier: MIT // #include "ParserFlatbuffersFixture.hpp" #include "../TfLiteParser.hpp" using armnnTfLiteParser::TfLiteParserImpl; using ModelPtr = TfLiteParserImpl::ModelPtr; using TensorRawPtr = TfLiteParserImpl::TensorRawPtr; TEST_SUITE("TensorflowLiteParser_GetSubgraphInputsOutputs") { struct GetSubgraphInputsOutputsMainFixture : public ParserFlatbuffersFixture { explicit GetSubgraphInputsOutputsMainFixture(const std::string& inputs, const std::string& outputs) { m_JsonString = R"( { "version": 3, "operator_codes": [ { "builtin_code": "AVERAGE_POOL_2D" }, { "builtin_code": "CONV_2D" } ], "subgraphs": [ { "tensors": [ { "shape": [ 1, 1, 1, 1 ] , "type": "UINT8", "buffer": 0, "name": "OutputTensor", "quantization": { "min": [ 0.0 ], "max": [ 255.0 ], "scale": [ 1.0 ], "zero_point": [ 0 ] } }, { "shape": [ 1, 2, 2, 1 ] , "type": "UINT8", "buffer": 1, "name": "InputTensor", "quantization": { "min": [ -1.2 ], "max": [ 25.5 ], "scale": [ 0.25 ], "zero_point": [ 10 ] } } ], "inputs": )" + inputs + R"(, "outputs": )" + outputs + R"(, "operators": [ { "opcode_index": 0, "inputs": [ 1 ], "outputs": [ 0 ], "builtin_options_type": "Pool2DOptions", "builtin_options": { "padding": "VALID", "stride_w": 2, "stride_h": 2, "filter_width": 2, "filter_height": 2, "fused_activation_function": "NONE" }, "custom_options_format": "FLEXBUFFERS" } ] }, { "tensors": [ { "shape": [ 1, 3, 3, 1 ], "type": "UINT8", "buffer": 0, "name": "ConvInputTensor", "quantization": { "scale": [ 1.0 ], "zero_point": [ 0 ], } }, { "shape": [ 1, 1, 1, 1 ], "type": "UINT8", "buffer": 1, "name": "ConvOutputTensor", "quantization": { "min": [ 0.0 ], "max": [ 511.0 ], "scale": [ 2.0 ], "zero_point": [ 0 ], } }, { "shape": [ 1, 3, 3, 1 ], "type": "UINT8", "buffer": 2, "name": "filterTensor", "quantization": { "min": [ 0.0 ], "max": [ 255.0 ], "scale": [ 1.0 ], "zero_point": [ 0 ], } } ], "inputs": [ 0 ], "outputs": [ 1 ], "operators": [ { "opcode_index": 0, "inputs": [ 0, 2 ], "outputs": [ 1 ], "builtin_options_type": "Conv2DOptions", "builtin_options": { "padding": "VALID", "stride_w": 1, "stride_h": 1, "fused_activation_function": "NONE" }, "custom_options_format": "FLEXBUFFERS" } ], } ], "description": "Test Subgraph Inputs Outputs", "buffers" : [ { }, { }, { "data": [ 2,1,0, 6,2,1, 4,1,2 ], }, { }, ] })"; ReadStringToBinary(); } }; struct GetEmptySubgraphInputsOutputsFixture : GetSubgraphInputsOutputsMainFixture { GetEmptySubgraphInputsOutputsFixture() : GetSubgraphInputsOutputsMainFixture("[ ]", "[ ]") {} }; struct GetSubgraphInputsOutputsFixture : GetSubgraphInputsOutputsMainFixture { GetSubgraphInputsOutputsFixture() : GetSubgraphInputsOutputsMainFixture("[ 1 ]", "[ 0 ]") {} }; TEST_CASE_FIXTURE(GetEmptySubgraphInputsOutputsFixture, "GetEmptySubgraphInputs") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphInputs(model, 0); CHECK_EQ(0, subgraphTensors.size()); } TEST_CASE_FIXTURE(GetEmptySubgraphInputsOutputsFixture, "GetEmptySubgraphOutputs") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphOutputs(model, 0); CHECK_EQ(0, subgraphTensors.size()); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphInputs") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphInputs(model, 0); CHECK_EQ(1, subgraphTensors.size()); CHECK_EQ(1, subgraphTensors[0].first); CheckTensors(subgraphTensors[0].second, 4, { 1, 2, 2, 1 }, tflite::TensorType::TensorType_UINT8, 1, "InputTensor", { -1.2f }, { 25.5f }, { 0.25f }, { 10 }); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphOutputsSimpleQuantized") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphOutputs(model, 0); CHECK_EQ(1, subgraphTensors.size()); CHECK_EQ(0, subgraphTensors[0].first); CheckTensors(subgraphTensors[0].second, 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 0, "OutputTensor", { 0.0f }, { 255.0f }, { 1.0f }, { 0 }); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphInputsEmptyMinMax") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphInputs(model, 1); CHECK_EQ(1, subgraphTensors.size()); CHECK_EQ(0, subgraphTensors[0].first); CheckTensors(subgraphTensors[0].second, 4, { 1, 3, 3, 1 }, tflite::TensorType::TensorType_UINT8, 0, "ConvInputTensor", { }, { }, { 1.0f }, { 0 }); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphOutputs") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); TfLiteParserImpl::TensorIdRawPtrVector subgraphTensors = TfLiteParserImpl::GetSubgraphOutputs(model, 1); CHECK_EQ(1, subgraphTensors.size()); CHECK_EQ(1, subgraphTensors[0].first); CheckTensors(subgraphTensors[0].second, 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 1, "ConvOutputTensor", { 0.0f }, { 511.0f }, { 2.0f }, { 0 }); } TEST_CASE("GetSubgraphInputsNullModel") { CHECK_THROWS_AS(TfLiteParserImpl::GetSubgraphInputs(nullptr, 0), armnn::ParseException); } TEST_CASE("GetSubgraphOutputsNullModel") { CHECK_THROWS_AS(TfLiteParserImpl::GetSubgraphOutputs(nullptr, 0), armnn::ParseException); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphInputsInvalidSubgraph") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); CHECK_THROWS_AS(TfLiteParserImpl::GetSubgraphInputs(model, 2), armnn::ParseException); } TEST_CASE_FIXTURE(GetSubgraphInputsOutputsFixture, "GetSubgraphOutputsInvalidSubgraph") { TfLiteParserImpl::ModelPtr model = TfLiteParserImpl::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size()); CHECK_THROWS_AS(TfLiteParserImpl::GetSubgraphOutputs(model, 2), armnn::ParseException); } }