src/armnnTfLiteParser/test/GetInputsOutputs.cpp - platform/external/armnn - Git at Google

 //
 // Copyright © 2017 Arm Ltd. All rights reserved.
 // SPDX-License-Identifier: MIT
 //
 #include <boost/test/unit_test.hpp>
 #include "ParserFlatbuffersFixture.hpp"
 #include "../TfLiteParser.hpp"

 using armnnTfLiteParser::TfLiteParser;
 using ModelPtr = TfLiteParser::ModelPtr;

 BOOST_AUTO_TEST_SUITE(TensorflowLiteParser)

 struct GetInputsOutputsMainFixture : public ParserFlatbuffersFixture
 {
     explicit GetInputsOutputsMainFixture(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": [ 1 ],
                 "outputs": [ 0 ],
                 "operators": [ {
                         "opcode_index": 0,
                         "inputs":  )"
                             + inputs
                             + R"(,
                         "outputs": )"
                             + outputs
                             + R"(,
                         "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 GetEmptyInputsOutputsFixture : GetInputsOutputsMainFixture
 {
     GetEmptyInputsOutputsFixture() : GetInputsOutputsMainFixture("[ ]", "[ ]") {}
 };

 struct GetInputsOutputsFixture : GetInputsOutputsMainFixture
 {
     GetInputsOutputsFixture() : GetInputsOutputsMainFixture("[ 1 ]", "[ 0 ]") {}
 };

 BOOST_FIXTURE_TEST_CASE(GetEmptyInputs, GetEmptyInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 0, 0);
     BOOST_CHECK_EQUAL(0, tensors.size());
 }

 BOOST_FIXTURE_TEST_CASE(GetEmptyOutputs, GetEmptyInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 0, 0);
     BOOST_CHECK_EQUAL(0, tensors.size());
 }

 BOOST_FIXTURE_TEST_CASE(GetInputs, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 0, 0);
     BOOST_CHECK_EQUAL(1, tensors.size());
     CheckTensors(tensors[0], 4, { 1, 2, 2, 1 }, tflite::TensorType::TensorType_UINT8, 1,
                       "InputTensor", { -1.2f }, { 25.5f }, { 0.25f }, { 10 });
 }

 BOOST_FIXTURE_TEST_CASE(GetOutputs, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 0, 0);
     BOOST_CHECK_EQUAL(1, tensors.size());
     CheckTensors(tensors[0], 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 0,
                       "OutputTensor", { 0.0f }, { 255.0f }, { 1.0f }, { 0 });
 }

 BOOST_FIXTURE_TEST_CASE(GetInputsMultipleInputs, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 1, 0);
     BOOST_CHECK_EQUAL(2, tensors.size());
     CheckTensors(tensors[0], 4, { 1, 3, 3, 1 }, tflite::TensorType::TensorType_UINT8, 0,
                       "ConvInputTensor", { }, { }, { 1.0f }, { 0 });
     CheckTensors(tensors[1], 4, { 1, 3, 3, 1 }, tflite::TensorType::TensorType_UINT8, 2,
                       "filterTensor", { 0.0f }, { 255.0f }, { 1.0f }, { 0 });
 }

 BOOST_FIXTURE_TEST_CASE(GetOutputs2, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 1, 0);
     BOOST_CHECK_EQUAL(1, tensors.size());
     CheckTensors(tensors[0], 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 1,
                       "ConvOutputTensor", { 0.0f }, { 511.0f }, { 2.0f }, { 0 });
 }

 BOOST_AUTO_TEST_CASE(GetInputsNullModel)
 {
     BOOST_CHECK_THROW(TfLiteParser::GetInputs(nullptr, 0, 0), armnn::ParseException);
 }

 BOOST_AUTO_TEST_CASE(GetOutputsNullModel)
 {
     BOOST_CHECK_THROW(TfLiteParser::GetOutputs(nullptr, 0, 0), armnn::ParseException);
 }

 BOOST_FIXTURE_TEST_CASE(GetInputsInvalidSubgraph, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     BOOST_CHECK_THROW(TfLiteParser::GetInputs(model, 2, 0), armnn::ParseException);
 }

 BOOST_FIXTURE_TEST_CASE(GetOutputsInvalidSubgraph, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     BOOST_CHECK_THROW(TfLiteParser::GetOutputs(model, 2, 0), armnn::ParseException);
 }

 BOOST_FIXTURE_TEST_CASE(GetInputsInvalidOperator, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     BOOST_CHECK_THROW(TfLiteParser::GetInputs(model, 0, 1), armnn::ParseException);
 }

 BOOST_FIXTURE_TEST_CASE(GetOutputsInvalidOperator, GetInputsOutputsFixture)
 {
     TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
     BOOST_CHECK_THROW(TfLiteParser::GetOutputs(model, 0, 1), armnn::ParseException);
 }

 BOOST_AUTO_TEST_SUITE_END()
	//
	// Copyright © 2017 Arm Ltd. All rights reserved.
	// SPDX-License-Identifier: MIT
	//
	#include <boost/test/unit_test.hpp>
	#include "ParserFlatbuffersFixture.hpp"
	#include "../TfLiteParser.hpp"

	using armnnTfLiteParser::TfLiteParser;
	using ModelPtr = TfLiteParser::ModelPtr;

	BOOST_AUTO_TEST_SUITE(TensorflowLiteParser)

	struct GetInputsOutputsMainFixture : public ParserFlatbuffersFixture
	{
	explicit GetInputsOutputsMainFixture(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": [ 1 ],
	"outputs": [ 0 ],
	"operators": [ {
	"opcode_index": 0,
	"inputs": )"
	+ inputs
	+ R"(,
	"outputs": )"
	+ outputs
	+ R"(,
	"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 GetEmptyInputsOutputsFixture : GetInputsOutputsMainFixture
	{
	GetEmptyInputsOutputsFixture() : GetInputsOutputsMainFixture("[ ]", "[ ]") {}
	};

	struct GetInputsOutputsFixture : GetInputsOutputsMainFixture
	{
	GetInputsOutputsFixture() : GetInputsOutputsMainFixture("[ 1 ]", "[ 0 ]") {}
	};

	BOOST_FIXTURE_TEST_CASE(GetEmptyInputs, GetEmptyInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 0, 0);
	BOOST_CHECK_EQUAL(0, tensors.size());
	}

	BOOST_FIXTURE_TEST_CASE(GetEmptyOutputs, GetEmptyInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 0, 0);
	BOOST_CHECK_EQUAL(0, tensors.size());
	}

	BOOST_FIXTURE_TEST_CASE(GetInputs, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 0, 0);
	BOOST_CHECK_EQUAL(1, tensors.size());
	CheckTensors(tensors[0], 4, { 1, 2, 2, 1 }, tflite::TensorType::TensorType_UINT8, 1,
	"InputTensor", { -1.2f }, { 25.5f }, { 0.25f }, { 10 });
	}

	BOOST_FIXTURE_TEST_CASE(GetOutputs, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 0, 0);
	BOOST_CHECK_EQUAL(1, tensors.size());
	CheckTensors(tensors[0], 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 0,
	"OutputTensor", { 0.0f }, { 255.0f }, { 1.0f }, { 0 });
	}

	BOOST_FIXTURE_TEST_CASE(GetInputsMultipleInputs, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetInputs(model, 1, 0);
	BOOST_CHECK_EQUAL(2, tensors.size());
	CheckTensors(tensors[0], 4, { 1, 3, 3, 1 }, tflite::TensorType::TensorType_UINT8, 0,
	"ConvInputTensor", { }, { }, { 1.0f }, { 0 });
	CheckTensors(tensors[1], 4, { 1, 3, 3, 1 }, tflite::TensorType::TensorType_UINT8, 2,
	"filterTensor", { 0.0f }, { 255.0f }, { 1.0f }, { 0 });
	}

	BOOST_FIXTURE_TEST_CASE(GetOutputs2, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	TfLiteParser::TensorRawPtrVector tensors = TfLiteParser::GetOutputs(model, 1, 0);
	BOOST_CHECK_EQUAL(1, tensors.size());
	CheckTensors(tensors[0], 4, { 1, 1, 1, 1 }, tflite::TensorType::TensorType_UINT8, 1,
	"ConvOutputTensor", { 0.0f }, { 511.0f }, { 2.0f }, { 0 });
	}

	BOOST_AUTO_TEST_CASE(GetInputsNullModel)
	{
	BOOST_CHECK_THROW(TfLiteParser::GetInputs(nullptr, 0, 0), armnn::ParseException);
	}

	BOOST_AUTO_TEST_CASE(GetOutputsNullModel)
	{
	BOOST_CHECK_THROW(TfLiteParser::GetOutputs(nullptr, 0, 0), armnn::ParseException);
	}

	BOOST_FIXTURE_TEST_CASE(GetInputsInvalidSubgraph, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	BOOST_CHECK_THROW(TfLiteParser::GetInputs(model, 2, 0), armnn::ParseException);
	}

	BOOST_FIXTURE_TEST_CASE(GetOutputsInvalidSubgraph, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	BOOST_CHECK_THROW(TfLiteParser::GetOutputs(model, 2, 0), armnn::ParseException);
	}

	BOOST_FIXTURE_TEST_CASE(GetInputsInvalidOperator, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	BOOST_CHECK_THROW(TfLiteParser::GetInputs(model, 0, 1), armnn::ParseException);
	}

	BOOST_FIXTURE_TEST_CASE(GetOutputsInvalidOperator, GetInputsOutputsFixture)
	{
	TfLiteParser::ModelPtr model = TfLiteParser::LoadModelFromBinary(m_GraphBinary.data(), m_GraphBinary.size());
	BOOST_CHECK_THROW(TfLiteParser::GetOutputs(model, 0, 1), armnn::ParseException);
	}

	BOOST_AUTO_TEST_SUITE_END()