NEON/functions/NEPadLayer.cpp

*c217d954SCole Faust/*
*c217d954SCole Faust * Copyright (c) 2018-2021 Arm Limited.
*c217d954SCole Faust *
*c217d954SCole Faust * SPDX-License-Identifier: MIT
*c217d954SCole Faust *
*c217d954SCole Faust * Permission is hereby granted, free of charge, to any person obtaining a copy
*c217d954SCole Faust * of this software and associated documentation files (the "Software"), to
*c217d954SCole Faust * deal in the Software without restriction, including without limitation the
*c217d954SCole Faust * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
*c217d954SCole Faust * sell copies of the Software, and to permit persons to whom the Software is
*c217d954SCole Faust * furnished to do so, subject to the following conditions:
*c217d954SCole Faust *
*c217d954SCole Faust * The above copyright notice and this permission notice shall be included in all
*c217d954SCole Faust * copies or substantial portions of the Software.
*c217d954SCole Faust *
*c217d954SCole Faust * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
*c217d954SCole Faust * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
*c217d954SCole Faust * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
*c217d954SCole Faust * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
*c217d954SCole Faust * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
*c217d954SCole Faust * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
*c217d954SCole Faust * SOFTWARE.
*c217d954SCole Faust */
*c217d954SCole Faust#include "arm_compute/runtime/NEON/functions/NEPadLayer.h"
*c217d954SCole Faust
*c217d954SCole Faust#include "arm_compute/runtime/NEON/NEScheduler.h"
*c217d954SCole Faust
*c217d954SCole Faust#include "arm_compute/core/Types.h"
*c217d954SCole Faust#include "arm_compute/core/utils/misc/ShapeCalculator.h"
*c217d954SCole Faust#include "src/common/utils/Log.h"
*c217d954SCole Faust#include "src/core/NEON/kernels/NEPadLayerKernel.h"
*c217d954SCole Faust#include "src/core/helpers/AutoConfiguration.h"
*c217d954SCole Faust
*c217d954SCole Faustnamespace arm_compute
*c217d954SCole Faust{
*c217d954SCole Faustnamespace
*c217d954SCole Faust{
*c217d954SCole Faustuint32_t last_padding_dimension(const PaddingList &padding)
*c217d954SCole Faust{
*c217d954SCole Faust    int last_padding_dim = padding.size() - 1;
*c217d954SCole Faust    for(; last_padding_dim >= 0; --last_padding_dim)
*c217d954SCole Faust    {
*c217d954SCole Faust        if(padding[last_padding_dim].first > 0 || padding[last_padding_dim].second > 0)
*c217d954SCole Faust        {
*c217d954SCole Faust            break;
*c217d954SCole Faust        }
*c217d954SCole Faust    }
*c217d954SCole Faust    return static_cast<uint32_t>(last_padding_dim);
*c217d954SCole Faust}
*c217d954SCole Faust} // namespace
*c217d954SCole Faust
*c217d954SCole FaustNEPadLayer::~NEPadLayer() = default;
*c217d954SCole Faust
*c217d954SCole FaustNEPadLayer::NEPadLayer()
*c217d954SCole Faust    : _copy_function(), _pad_kernel(), _mode(), _padding(), _num_dimensions(0), _slice_functions(), _concat_functions(), _slice_results(), _concat_results()
*c217d954SCole Faust{
*c217d954SCole Faust}
*c217d954SCole Faust
*c217d954SCole Faustvoid NEPadLayer::configure_constant_mode(ITensor *input, ITensor *output, const PaddingList &padding, const PixelValue constant_value)
*c217d954SCole Faust{
*c217d954SCole Faust    _pad_kernel = std::make_unique<NEPadLayerKernel>();
*c217d954SCole Faust    _pad_kernel->configure(input, output, padding, constant_value, PaddingMode::CONSTANT);
*c217d954SCole Faust}
*c217d954SCole Faust
*c217d954SCole Faustvoid NEPadLayer::configure_reflect_symmetric_mode(ITensor *input, ITensor *output)
*c217d954SCole Faust{
*c217d954SCole Faust    // Reflecting can be performed by effectively unfolding the input as follows:
*c217d954SCole Faust    // For each dimension starting at DimX:
*c217d954SCole Faust    //      For before and after:
*c217d954SCole Faust    //          Use strided slice to extract and reverse the part of the
*c217d954SCole Faust    //          input / previously produced tensor required for the padding.
*c217d954SCole Faust    //      Concatenate the before and after padding with the input / previously
*c217d954SCole Faust    //      produced tensor along the current dimension.
*c217d954SCole Faust
*c217d954SCole Faust    // Two strided slice functions will be required for each dimension padded as well as a
*c217d954SCole Faust    // concatenate function and the tensors to hold the temporary results.
*c217d954SCole Faust    _slice_functions.resize(2 * _num_dimensions);
*c217d954SCole Faust    _slice_results.resize(2 * _num_dimensions);
*c217d954SCole Faust    _concat_functions.resize(_num_dimensions);
*c217d954SCole Faust    _concat_results.resize(_num_dimensions - 1);
*c217d954SCole Faust
*c217d954SCole Faust    Coordinates starts_before{};
*c217d954SCole Faust    Coordinates ends_before{};
*c217d954SCole Faust    Coordinates starts_after{};
*c217d954SCole Faust    Coordinates ends_after{};
*c217d954SCole Faust    Coordinates strides{};
*c217d954SCole Faust    ITensor    *prev = input;
*c217d954SCole Faust    for(uint32_t i = 0; i < _num_dimensions; ++i)
*c217d954SCole Faust    {
*c217d954SCole Faust        // Values in strides from the previous dimensions need to be set to 1 to avoid reversing again.
*c217d954SCole Faust        if(i > 0)
*c217d954SCole Faust        {
*c217d954SCole Faust            strides.set(i - 1, 1);
*c217d954SCole Faust        }
*c217d954SCole Faust
*c217d954SCole Faust        if(_padding[i].first > 0 || _padding[i].second > 0)
*c217d954SCole Faust        {
*c217d954SCole Faust            // Set the starts, ends, and strides values for the current dimension.
*c217d954SCole Faust            // Due to the bit masks passed to strided slice, the values below the current dimension in
*c217d954SCole Faust            // starts and ends will be ignored so do not need to be modified.
*c217d954SCole Faust            if(_mode == PaddingMode::REFLECT)
*c217d954SCole Faust            {
*c217d954SCole Faust                starts_before.set(i, _padding[i].first);
*c217d954SCole Faust                ends_before.set(i, 0);
*c217d954SCole Faust                starts_after.set(i, input->info()->dimension(i) - 2);
*c217d954SCole Faust                ends_after.set(i, input->info()->dimension(i) - _padding[i].second - 2);
*c217d954SCole Faust                strides.set(i, -1);
*c217d954SCole Faust            }
*c217d954SCole Faust            else
*c217d954SCole Faust            {
*c217d954SCole Faust                starts_before.set(i, _padding[i].first - 1);
*c217d954SCole Faust                ends_before.set(i, -1);
*c217d954SCole Faust                starts_after.set(i, input->info()->dimension(i) - 1);
*c217d954SCole Faust                ends_after.set(i, input->info()->dimension(i) - _padding[i].second - 1);
*c217d954SCole Faust                strides.set(i, -1);
*c217d954SCole Faust            }
*c217d954SCole Faust
*c217d954SCole Faust            // Strided slice wraps negative indexes around to the end of the range,
*c217d954SCole Faust            // instead this should indicate use of the full range and so the bit mask will be modified.
*c217d954SCole Faust            const int32_t begin_mask_before = starts_before[i] < 0 ? ~0 : ~(1u << i);
*c217d954SCole Faust            const int32_t end_mask_before   = ends_before[i] < 0 ? ~0 : ~(1u << i);
*c217d954SCole Faust            const int32_t begin_mask_after  = starts_after[i] < 0 ? ~0 : ~(1u << i);
*c217d954SCole Faust            const int32_t end_mask_after    = ends_after[i] < 0 ? ~0 : ~(1u << i);
*c217d954SCole Faust
*c217d954SCole Faust            // Reflect the input values for the padding before and after the input.
*c217d954SCole Faust            std::vector<const ITensor *> concat_vector;
*c217d954SCole Faust            if(_padding[i].first > 0)
*c217d954SCole Faust            {
*c217d954SCole Faust                if(i < prev->info()->num_dimensions())
*c217d954SCole Faust                {
*c217d954SCole Faust                    _slice_functions[2 * i].configure(prev, &_slice_results[2 * i], starts_before, ends_before, strides, begin_mask_before, end_mask_before);
*c217d954SCole Faust                    concat_vector.emplace_back(&_slice_results[2 * i]);
*c217d954SCole Faust                }
*c217d954SCole Faust                else
*c217d954SCole Faust                {
*c217d954SCole Faust                    // Performing the slice is unnecessary if the result would simply be a copy of the tensor.
*c217d954SCole Faust                    concat_vector.push_back(prev);
*c217d954SCole Faust                }
*c217d954SCole Faust            }
*c217d954SCole Faust            concat_vector.push_back(prev);
*c217d954SCole Faust            if(_padding[i].second > 0)
*c217d954SCole Faust            {
*c217d954SCole Faust                if(i < prev->info()->num_dimensions())
*c217d954SCole Faust                {
*c217d954SCole Faust                    _slice_functions[2 * i + 1].configure(prev, &_slice_results[2 * i + 1], starts_after, ends_after, strides, begin_mask_after, end_mask_after);
*c217d954SCole Faust                    concat_vector.emplace_back(&_slice_results[2 * i + 1]);
*c217d954SCole Faust                }
*c217d954SCole Faust                else
*c217d954SCole Faust                {
*c217d954SCole Faust                    // Performing the slice is unnecessary if the result would simply be a copy of the tensor.
*c217d954SCole Faust                    concat_vector.push_back(prev);
*c217d954SCole Faust                }
*c217d954SCole Faust            }
*c217d954SCole Faust            // Concatenate the padding before and after with the input.
*c217d954SCole Faust            ITensor *out = (i == _num_dimensions - 1) ? output : &_concat_results[i];
*c217d954SCole Faust            out->info()->set_quantization_info(output->info()->quantization_info());
*c217d954SCole Faust            for(auto &v : concat_vector)
*c217d954SCole Faust            {
*c217d954SCole Faust                v->info()->set_quantization_info(input->info()->quantization_info());
*c217d954SCole Faust            }
*c217d954SCole Faust            _concat_functions[i].configure(concat_vector, out, i);
*c217d954SCole Faust            if(i != _num_dimensions - 1)
*c217d954SCole Faust            {
*c217d954SCole Faust                _concat_results[i].allocator()->allocate();
*c217d954SCole Faust            }
*c217d954SCole Faust            prev = out;
*c217d954SCole Faust        }
*c217d954SCole Faust        _slice_results[2 * i].allocator()->allocate();
*c217d954SCole Faust        _slice_results[2 * i + 1].allocator()->allocate();
*c217d954SCole Faust    }
*c217d954SCole Faust}
*c217d954SCole Faust
*c217d954SCole Faustvoid NEPadLayer::configure(ITensor *input, ITensor *output, const PaddingList &padding, const PixelValue constant_value, const PaddingMode mode)
*c217d954SCole Faust{
*c217d954SCole Faust    ARM_COMPUTE_ERROR_THROW_ON(validate(input->info(), output->info(), padding, constant_value, mode));
*c217d954SCole Faust    ARM_COMPUTE_LOG_PARAMS(input, output, padding, constant_value, mode);
*c217d954SCole Faust
*c217d954SCole Faust    _padding = padding;
*c217d954SCole Faust    _mode    = mode;
*c217d954SCole Faust
*c217d954SCole Faust    const TensorShape padded_shape = misc::shape_calculator::compute_padded_shape(input->info()->tensor_shape(), _padding);
*c217d954SCole Faust
*c217d954SCole Faust    auto_init_if_empty(*output->info(), input->info()->clone()->set_tensor_shape(padded_shape));
*c217d954SCole Faust
*c217d954SCole Faust    // Find the last dimension requiring padding so that it is known when to write to output and whether any padding is applied.
*c217d954SCole Faust    _num_dimensions = last_padding_dimension(padding) + 1;
*c217d954SCole Faust    if(_num_dimensions > 0)
*c217d954SCole Faust    {
*c217d954SCole Faust        switch(_mode)
*c217d954SCole Faust        {
*c217d954SCole Faust            case PaddingMode::CONSTANT:
*c217d954SCole Faust            {
*c217d954SCole Faust                configure_constant_mode(input, output, padding, constant_value);
*c217d954SCole Faust                break;
*c217d954SCole Faust            }
*c217d954SCole Faust            case PaddingMode::REFLECT:
*c217d954SCole Faust            case PaddingMode::SYMMETRIC:
*c217d954SCole Faust            {
*c217d954SCole Faust                configure_reflect_symmetric_mode(input, output);
*c217d954SCole Faust                break;
*c217d954SCole Faust            }
*c217d954SCole Faust            default:
*c217d954SCole Faust                ARM_COMPUTE_ERROR("Padding mode not supported.");
*c217d954SCole Faust        }
*c217d954SCole Faust    }
*c217d954SCole Faust    else
*c217d954SCole Faust    {
*c217d954SCole Faust        // Copy the input to the whole output if no padding is applied
*c217d954SCole Faust        _copy_function.configure(input, output);
*c217d954SCole Faust    }
*c217d954SCole Faust}
*c217d954SCole Faust
*c217d954SCole FaustStatus NEPadLayer::validate(const ITensorInfo *input, const ITensorInfo *output, const PaddingList &padding, const PixelValue constant_value, const PaddingMode mode)
*c217d954SCole Faust{
*c217d954SCole Faust    ARM_COMPUTE_UNUSED(constant_value);
*c217d954SCole Faust
*c217d954SCole Faust    const TensorShape padded_shape = misc::shape_calculator::compute_padded_shape(input->tensor_shape(), padding);
*c217d954SCole Faust
*c217d954SCole Faust    if(output->total_size() > 0)
*c217d954SCole Faust    {
*c217d954SCole Faust        ARM_COMPUTE_RETURN_ERROR_ON_MISMATCHING_DIMENSIONS(output->tensor_shape(), padded_shape);
*c217d954SCole Faust        ARM_COMPUTE_RETURN_ERROR_ON_MISMATCHING_DATA_TYPES(input, output);
*c217d954SCole Faust    }
*c217d954SCole Faust
*c217d954SCole Faust    switch(mode)
*c217d954SCole Faust    {
*c217d954SCole Faust        case PaddingMode::CONSTANT:
*c217d954SCole Faust        {
*c217d954SCole Faust            return NEPadLayerKernel::validate(input, output, padding, constant_value, mode);
*c217d954SCole Faust        }
*c217d954SCole Faust        case PaddingMode::REFLECT:
*c217d954SCole Faust        case PaddingMode::SYMMETRIC:
*c217d954SCole Faust        {
*c217d954SCole Faust            for(uint32_t i = 0; i < padding.size(); ++i)
*c217d954SCole Faust            {
*c217d954SCole Faust                if(mode == PaddingMode::REFLECT)
*c217d954SCole Faust                {
*c217d954SCole Faust                    ARM_COMPUTE_RETURN_ERROR_ON(padding[i].first >= input->dimension(i));
*c217d954SCole Faust                    ARM_COMPUTE_RETURN_ERROR_ON(padding[i].second >= input->dimension(i));
*c217d954SCole Faust                }
*c217d954SCole Faust                else
*c217d954SCole Faust                {
*c217d954SCole Faust                    ARM_COMPUTE_RETURN_ERROR_ON(padding[i].first > input->dimension(i));
*c217d954SCole Faust                    ARM_COMPUTE_RETURN_ERROR_ON(padding[i].second > input->dimension(i));
*c217d954SCole Faust                }
*c217d954SCole Faust            }
*c217d954SCole Faust            break;
*c217d954SCole Faust        }
*c217d954SCole Faust        default:
*c217d954SCole Faust        {
*c217d954SCole Faust            ARM_COMPUTE_ERROR("Invalid mode");
*c217d954SCole Faust        }
*c217d954SCole Faust    }
*c217d954SCole Faust    return Status{};
*c217d954SCole Faust}
*c217d954SCole Faust
*c217d954SCole Faustvoid NEPadLayer::run()
*c217d954SCole Faust{
*c217d954SCole Faust    if(_num_dimensions > 0)
*c217d954SCole Faust    {
*c217d954SCole Faust        switch(_mode)
*c217d954SCole Faust        {
*c217d954SCole Faust            case PaddingMode::CONSTANT:
*c217d954SCole Faust            {
*c217d954SCole Faust                NEScheduler::get().schedule(_pad_kernel.get(), Window::DimZ);
*c217d954SCole Faust                break;
*c217d954SCole Faust            }
*c217d954SCole Faust            case PaddingMode::REFLECT:
*c217d954SCole Faust            case PaddingMode::SYMMETRIC:
*c217d954SCole Faust            {
*c217d954SCole Faust                for(uint32_t i = 0; i < _num_dimensions; ++i)
*c217d954SCole Faust                {
*c217d954SCole Faust                    if(_padding[i].first > 0 || _padding[i].second > 0)
*c217d954SCole Faust                    {
*c217d954SCole Faust                        if(_padding[i].first > 0 && _slice_results[2 * i].info()->total_size() > 0)
*c217d954SCole Faust                        {
*c217d954SCole Faust                            _slice_functions[2 * i].run();
*c217d954SCole Faust                        }
*c217d954SCole Faust                        if(_padding[i].second > 0 && _slice_results[2 * i + 1].info()->total_size() > 0)
*c217d954SCole Faust                        {
*c217d954SCole Faust                            _slice_functions[2 * i + 1].run();
*c217d954SCole Faust                        }
*c217d954SCole Faust                        _concat_functions[i].run();
*c217d954SCole Faust                    }
*c217d954SCole Faust                }
*c217d954SCole Faust                break;
*c217d954SCole Faust            }
*c217d954SCole Faust            default:
*c217d954SCole Faust                ARM_COMPUTE_ERROR("Padding mode not supported.");
*c217d954SCole Faust        }
*c217d954SCole Faust    }
*c217d954SCole Faust    else
*c217d954SCole Faust    {
*c217d954SCole Faust        _copy_function.run();
*c217d954SCole Faust    }
*c217d954SCole Faust}
*c217d954SCole Faust} // namespace arm_compute