src/backends/tosaCommon/operatorMappings/AvgPool2DIgnoreValueOperator.cpp - ml/armnn - Gitiles

 //
 // Copyright © 2022 Arm Ltd and Contributors. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #include "Pooling2DOperator.hpp"

 TosaSerializationBasicBlock* ConvertAvgPool2DIgnoreValueToTosaOperator(const std::vector<const TensorInfo*>& inputs,
                                                                        const std::vector<const TensorInfo*>& outputs,
                                                                        bool isMain,
                                                                        const Pooling2dDescriptor* poolDescriptor)
 {

     // A helper function with static global variables ensures uniqueness
     // for dynamically generating input, output and block names
     std::string padInputName   = std::string("Op_PAD_input0_")  + GetUniqueTosaMappingID();
     std::string padOutputName  = std::string("Op_PAD_intermediate0_")  + GetUniqueTosaMappingID();
     std::string poolOutputName = std::string("Op_AVG_POOL2D_output0_") + GetUniqueTosaMappingID();
     std::string blockName      = std::string("Op_AVG_POOL2D_block_")   + GetUniqueTosaMappingID();

     // If it's the first block, overwrite block name with main.
     if (isMain)
     {
         blockName = std::string("main");
     }

     std::vector<int> paddings;
     if (poolDescriptor->m_DataLayout == DataLayout::NHWC)
     {
         paddings = {0,
                     0,
                     static_cast<int>(poolDescriptor->m_PadTop),
                     static_cast<int>(poolDescriptor->m_PadBottom),
                     static_cast<int>(poolDescriptor->m_PadLeft),
                     static_cast<int>(poolDescriptor->m_PadRight),
                     0,
                     0
         };
     }
     else
     {
         paddings = {0,
                     0,
                     0,
                     0,
                     static_cast<int>(poolDescriptor->m_PadTop),
                     static_cast<int>(poolDescriptor->m_PadBottom),
                     static_cast<int>(poolDescriptor->m_PadLeft),
                     static_cast<int>(poolDescriptor->m_PadRight)
         };
     }

     TosaPadAttribute padAttribute(paddings, 0, 0.0f);
     TosaSerializationOperator* opPad = new TosaSerializationOperator(Op_PAD,
                                                                      Attribute_PadAttribute,
                                                                      &padAttribute,
                                                                      {padInputName},
                                                                      {padOutputName});

     std::vector<int> pad    = {0, 0, 0, 0};
     std::vector<int> kernel = {static_cast<int>(poolDescriptor->m_PoolHeight),
                                static_cast<int>(poolDescriptor->m_PoolWidth)};
     std::vector<int> stride = {static_cast<int>(poolDescriptor->m_StrideY),
                                static_cast<int>(poolDescriptor->m_StrideX)};
     TosaPoolAttribute poolAttribute(pad, kernel, stride, 0, 0, ArmNNToDType(inputs[0]->GetDataType()));

     TosaSerializationOperator* opPool = new TosaSerializationOperator(Op_AVG_POOL2D,
                                                                       Attribute_PoolAttribute,
                                                                       &poolAttribute,
                                                                       {padOutputName},
                                                                       {poolOutputName});

     std::vector<int32_t> inputShape = GetTosaTensorShape(inputs[0]->GetShape());
     DType inputDType = ArmNNToDType(inputs[0]->GetDataType());

     std::vector<int32_t> outputShape = GetTosaTensorShape(outputs[0]->GetShape());
     DType outputDType = ArmNNToDType(outputs[0]->GetDataType());

     std::vector<int32_t> intermediateShape;
     if (poolDescriptor->m_DataLayout == DataLayout::NHWC)
     {
         intermediateShape = {inputShape[0],
                              inputShape[1] + paddings[2] + paddings[3],
                              inputShape[2] + paddings[4] + paddings[5],
                              inputShape[3]};
     }
     else
     {
         intermediateShape = {inputShape[0],
                              inputShape[1],
                              inputShape[2] + paddings[4] + paddings[5],
                              inputShape[3] + paddings[6] + paddings[7]};
     }

     TosaSerializationTensor* inputTensor  = new TosaSerializationTensor(padInputName, inputShape, inputDType, {});
     TosaSerializationTensor* intermediateTensor  = new TosaSerializationTensor(
         padOutputName, intermediateShape, inputDType, {});
     TosaSerializationTensor* outputTensor = new TosaSerializationTensor(poolOutputName, outputShape, outputDType, {});

     // operatorInputNames/operatorOutputNames ends up being the same as
     // blockInputNames/blockOutputNames for one-to-one ArmNN to Tosa mappings
     return new TosaSerializationBasicBlock(blockName, // name
                                            {opPad, opPool}, // operators
                                            {inputTensor, intermediateTensor, outputTensor}, // tensors
                                            {padInputName}, // inputs
                                            {poolOutputName}); // outputs
 }
	//
	// Copyright © 2022 Arm Ltd and Contributors. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#include "Pooling2DOperator.hpp"

	TosaSerializationBasicBlock* ConvertAvgPool2DIgnoreValueToTosaOperator(const std::vector<const TensorInfo*>& inputs,
	const std::vector<const TensorInfo*>& outputs,
	bool isMain,
	const Pooling2dDescriptor* poolDescriptor)
	{

	// A helper function with static global variables ensures uniqueness
	// for dynamically generating input, output and block names
	std::string padInputName = std::string("Op_PAD_input0_") + GetUniqueTosaMappingID();
	std::string padOutputName = std::string("Op_PAD_intermediate0_") + GetUniqueTosaMappingID();
	std::string poolOutputName = std::string("Op_AVG_POOL2D_output0_") + GetUniqueTosaMappingID();
	std::string blockName = std::string("Op_AVG_POOL2D_block_") + GetUniqueTosaMappingID();

	// If it's the first block, overwrite block name with main.
	if (isMain)
	{
	blockName = std::string("main");
	}

	std::vector<int> paddings;
	if (poolDescriptor->m_DataLayout == DataLayout::NHWC)
	{
	paddings = {0,
	0,
	static_cast<int>(poolDescriptor->m_PadTop),
	static_cast<int>(poolDescriptor->m_PadBottom),
	static_cast<int>(poolDescriptor->m_PadLeft),
	static_cast<int>(poolDescriptor->m_PadRight),
	0,
	0
	};
	}
	else
	{
	paddings = {0,
	0,
	0,
	0,
	static_cast<int>(poolDescriptor->m_PadTop),
	static_cast<int>(poolDescriptor->m_PadBottom),
	static_cast<int>(poolDescriptor->m_PadLeft),
	static_cast<int>(poolDescriptor->m_PadRight)
	};
	}

	TosaPadAttribute padAttribute(paddings, 0, 0.0f);
	TosaSerializationOperator* opPad = new TosaSerializationOperator(Op_PAD,
	Attribute_PadAttribute,
	&padAttribute,
	{padInputName},
	{padOutputName});

	std::vector<int> pad = {0, 0, 0, 0};
	std::vector<int> kernel = {static_cast<int>(poolDescriptor->m_PoolHeight),
	static_cast<int>(poolDescriptor->m_PoolWidth)};
	std::vector<int> stride = {static_cast<int>(poolDescriptor->m_StrideY),
	static_cast<int>(poolDescriptor->m_StrideX)};
	TosaPoolAttribute poolAttribute(pad, kernel, stride, 0, 0, ArmNNToDType(inputs[0]->GetDataType()));

	TosaSerializationOperator* opPool = new TosaSerializationOperator(Op_AVG_POOL2D,
	Attribute_PoolAttribute,
	&poolAttribute,
	{padOutputName},
	{poolOutputName});

	std::vector<int32_t> inputShape = GetTosaTensorShape(inputs[0]->GetShape());
	DType inputDType = ArmNNToDType(inputs[0]->GetDataType());

	std::vector<int32_t> outputShape = GetTosaTensorShape(outputs[0]->GetShape());
	DType outputDType = ArmNNToDType(outputs[0]->GetDataType());

	std::vector<int32_t> intermediateShape;
	if (poolDescriptor->m_DataLayout == DataLayout::NHWC)
	{
	intermediateShape = {inputShape[0],
	inputShape[1] + paddings[2] + paddings[3],
	inputShape[2] + paddings[4] + paddings[5],
	inputShape[3]};
	}
	else
	{
	intermediateShape = {inputShape[0],
	inputShape[1],
	inputShape[2] + paddings[4] + paddings[5],
	inputShape[3] + paddings[6] + paddings[7]};
	}

	TosaSerializationTensor* inputTensor = new TosaSerializationTensor(padInputName, inputShape, inputDType, {});
	TosaSerializationTensor* intermediateTensor = new TosaSerializationTensor(
	padOutputName, intermediateShape, inputDType, {});
	TosaSerializationTensor* outputTensor = new TosaSerializationTensor(poolOutputName, outputShape, outputDType, {});

	// operatorInputNames/operatorOutputNames ends up being the same as
	// blockInputNames/blockOutputNames for one-to-one ArmNN to Tosa mappings
	return new TosaSerializationBasicBlock(blockName, // name
	{opPad, opPool}, // operators
	{inputTensor, intermediateTensor, outputTensor}, // tensors
	{padInputName}, // inputs
	{poolOutputName}); // outputs
	}