src/backends/reference/workloads/SpaceToBatchNd.cpp - ml/armnn - Gitiles

 //
 // Copyright © 2017-2019,2023 Arm Ltd and Contributors. All rights reserved.
 // SPDX-License-Identifier: MIT
 //

 #include "SpaceToBatchNd.hpp"

 #include <armnnUtils/DataLayoutIndexed.hpp>

 using namespace armnnUtils;

 namespace armnn
 {

 unsigned int GetOffset(const TensorShape& shape,
                        unsigned int b,
                        unsigned int h,
                        unsigned int w,
                        unsigned int c,
                        const DataLayoutIndexed& dataLayout)
 {
     // 3D Tensors
     unsigned int channelDimension3D = dataLayout.GetDataLayout() == DataLayout::NCHW ? 1 : 2;
     if (shape.GetNumDimensions() == 3)
     {
         return (b * shape[dataLayout.GetHeightIndex()] + h) * shape[channelDimension3D] + c;
     }
     // 4D Tensors
     else if (shape.GetNumDimensions() == 4)
     {
         if (dataLayout.GetDataLayout() == DataLayout::NHWC)
         {
             return ((b * shape[dataLayout.GetHeightIndex()] + h) * shape[dataLayout.GetWidthIndex()] + w) *
                    shape[dataLayout.GetChannelsIndex()] + c;
         }
         else
         {
             return ((b * shape[dataLayout.GetChannelsIndex()] + c) * shape[dataLayout.GetHeightIndex()] + h) *
                    shape[dataLayout.GetWidthIndex()] + w;
         }
     }
     else
     {
         throw InvalidArgumentException("Tensor rank must be either 3 or 4", CHECK_LOCATION());
     }
 }

 void SpaceToBatchNd(const TensorInfo& inputInfo,
                     const TensorInfo& outputInfo,
                     const SpaceToBatchNdDescriptor& params,
                     Decoder<float>& inputData,
                     Encoder<float>& outputData)
 {
     unsigned int rank = inputInfo.GetNumDimensions();
     if (rank != 3 && rank != 4 )
     {
         throw InvalidArgumentException("Tensor rank must be either 3 or 4, but it is " + std::to_string(rank),
                                        CHECK_LOCATION());
     }

     DataLayoutIndexed dataLayout = params.m_DataLayout;
     unsigned int channelDimension3D = params.m_DataLayout == DataLayout::NCHW ? 1 : 2;

     const TensorShape& inputShape = inputInfo.GetShape();
     const TensorShape& outputShape = outputInfo.GetShape();

     const unsigned int inputBatchSize  = inputShape[0];
     const unsigned int outputBatchSize = outputShape[0];

     const unsigned int channels = (rank == 3) ? inputShape[channelDimension3D]
                                               : inputShape[dataLayout.GetChannelsIndex()];

     const unsigned int inputHeight  = inputShape[dataLayout.GetHeightIndex()];
     const unsigned int inputWidth   = (rank == 3) ? 1 : inputShape[dataLayout.GetWidthIndex()];
     const unsigned int outputHeight = outputShape[dataLayout.GetHeightIndex()];
     const unsigned int outputWidth  = (rank == 3) ? 1 : outputShape[dataLayout.GetWidthIndex()];

     const unsigned int blockHeight = params.m_BlockShape[0];
     const unsigned int blockWidth  = (rank == 3) ? 1 : params.m_BlockShape[1];

     const unsigned int paddingTop  = params.m_PadList[0].first;
     const unsigned int paddingLeft = (rank == 3) ? 0 : params.m_PadList[1].first;

     for (unsigned int outB = 0; outB < outputBatchSize; ++outB)
     {
         unsigned int inB = outB % inputBatchSize;

         unsigned int shiftW = (outB / inputBatchSize) % blockWidth;
         unsigned int shiftH = (outB / inputBatchSize) / blockWidth;

         for (unsigned int outH = 0; outH < outputHeight; ++outH)
         {
             for (unsigned int outW = 0; outW < outputWidth; ++outW)
             {
                 if (outH * blockHeight + shiftH < paddingTop ||
                     outH * blockHeight + shiftH >= paddingTop + inputHeight ||
                     outW * blockWidth + shiftW < paddingLeft ||
                     outW * blockWidth + shiftW >= paddingLeft + inputWidth)
                 {
                     for (unsigned int c = 0; c < channels; c++)
                     {
                         unsigned int outOffset = GetOffset(outputShape,
                                                            outB,
                                                            outH,
                                                            outW,
                                                            c,
                                                            dataLayout);
                         outputData += outOffset;
                         outputData.Set(0);
                         outputData -= outOffset;
                     }
                 }
                 else
                 {
                     for (unsigned int c = 0; c < channels; c++)
                     {
                         unsigned int inOffset = GetOffset(inputShape,
                                                           inB,
                                                           (outH * blockHeight + shiftH) - paddingTop,
                                                           (outW * blockWidth + shiftW) - paddingLeft,
                                                           c,
                                                           dataLayout);

                         unsigned int outOffset = GetOffset(outputShape,
                                                            outB,
                                                            outH,
                                                            outW,
                                                            c,
                                                            dataLayout);

                         outputData += outOffset;
                         inputData += inOffset;
                         outputData.Set(inputData.Get());
                         inputData -= inOffset;
                         outputData -= outOffset;
                     }
                 }
             }
         }
     }
 }

 } //namespace armnn
	//
	// Copyright © 2017-2019,2023 Arm Ltd and Contributors. All rights reserved.
	// SPDX-License-Identifier: MIT
	//

	#include "SpaceToBatchNd.hpp"

	#include <armnnUtils/DataLayoutIndexed.hpp>

	using namespace armnnUtils;

	namespace armnn
	{

	unsigned int GetOffset(const TensorShape& shape,
	unsigned int b,
	unsigned int h,
	unsigned int w,
	unsigned int c,
	const DataLayoutIndexed& dataLayout)
	{
	// 3D Tensors
	unsigned int channelDimension3D = dataLayout.GetDataLayout() == DataLayout::NCHW ? 1 : 2;
	if (shape.GetNumDimensions() == 3)
	{
	return (b * shape[dataLayout.GetHeightIndex()] + h) * shape[channelDimension3D] + c;
	}
	// 4D Tensors
	else if (shape.GetNumDimensions() == 4)
	{
	if (dataLayout.GetDataLayout() == DataLayout::NHWC)
	{
	return ((b * shape[dataLayout.GetHeightIndex()] + h) * shape[dataLayout.GetWidthIndex()] + w) *
	shape[dataLayout.GetChannelsIndex()] + c;
	}
	else
	{
	return ((b * shape[dataLayout.GetChannelsIndex()] + c) * shape[dataLayout.GetHeightIndex()] + h) *
	shape[dataLayout.GetWidthIndex()] + w;
	}
	}
	else
	{
	throw InvalidArgumentException("Tensor rank must be either 3 or 4", CHECK_LOCATION());
	}
	}

	void SpaceToBatchNd(const TensorInfo& inputInfo,
	const TensorInfo& outputInfo,
	const SpaceToBatchNdDescriptor& params,
	Decoder<float>& inputData,
	Encoder<float>& outputData)
	{
	unsigned int rank = inputInfo.GetNumDimensions();
	if (rank != 3 && rank != 4 )
	{
	throw InvalidArgumentException("Tensor rank must be either 3 or 4, but it is " + std::to_string(rank),
	CHECK_LOCATION());
	}

	DataLayoutIndexed dataLayout = params.m_DataLayout;
	unsigned int channelDimension3D = params.m_DataLayout == DataLayout::NCHW ? 1 : 2;

	const TensorShape& inputShape = inputInfo.GetShape();
	const TensorShape& outputShape = outputInfo.GetShape();

	const unsigned int inputBatchSize = inputShape[0];
	const unsigned int outputBatchSize = outputShape[0];

	const unsigned int channels = (rank == 3) ? inputShape[channelDimension3D]
	: inputShape[dataLayout.GetChannelsIndex()];

	const unsigned int inputHeight = inputShape[dataLayout.GetHeightIndex()];
	const unsigned int inputWidth = (rank == 3) ? 1 : inputShape[dataLayout.GetWidthIndex()];
	const unsigned int outputHeight = outputShape[dataLayout.GetHeightIndex()];
	const unsigned int outputWidth = (rank == 3) ? 1 : outputShape[dataLayout.GetWidthIndex()];

	const unsigned int blockHeight = params.m_BlockShape[0];
	const unsigned int blockWidth = (rank == 3) ? 1 : params.m_BlockShape[1];

	const unsigned int paddingTop = params.m_PadList[0].first;
	const unsigned int paddingLeft = (rank == 3) ? 0 : params.m_PadList[1].first;

	for (unsigned int outB = 0; outB < outputBatchSize; ++outB)
	{
	unsigned int inB = outB % inputBatchSize;

	unsigned int shiftW = (outB / inputBatchSize) % blockWidth;
	unsigned int shiftH = (outB / inputBatchSize) / blockWidth;

	for (unsigned int outH = 0; outH < outputHeight; ++outH)
	{
	for (unsigned int outW = 0; outW < outputWidth; ++outW)
	{
	if (outH * blockHeight + shiftH < paddingTop \|\|
	outH * blockHeight + shiftH >= paddingTop + inputHeight \|\|
	outW * blockWidth + shiftW < paddingLeft \|\|
	outW * blockWidth + shiftW >= paddingLeft + inputWidth)
	{
	for (unsigned int c = 0; c < channels; c++)
	{
	unsigned int outOffset = GetOffset(outputShape,
	outB,
	outH,
	outW,
	c,
	dataLayout);
	outputData += outOffset;
	outputData.Set(0);
	outputData -= outOffset;
	}
	}
	else
	{
	for (unsigned int c = 0; c < channels; c++)
	{
	unsigned int inOffset = GetOffset(inputShape,
	inB,
	(outH * blockHeight + shiftH) - paddingTop,
	(outW * blockWidth + shiftW) - paddingLeft,
	c,
	dataLayout);

	unsigned int outOffset = GetOffset(outputShape,
	outB,
	outH,
	outW,
	c,
	dataLayout);

	outputData += outOffset;
	inputData += inOffset;
	outputData.Set(inputData.Get());
	inputData -= inOffset;
	outputData -= outOffset;
	}
	}
	}
	}
	}
	}

	} //namespace armnn