src/unpooling-nhwc.c - platform/external/XNNPACK - Gitiles

 // Copyright 2019 Google LLC
 //
 // This source code is licensed under the BSD-style license found in the
 // LICENSE file in the root directory of this source tree.

 #include <assert.h>
 #include <math.h>
 #include <stdbool.h>
 #include <stddef.h>
 #include <stdint.h>
 #include <stdlib.h>
 #include <string.h>

 #include <xnnpack.h>
 #include <xnnpack/allocator.h>
 #include <xnnpack/operator.h>
 #include <xnnpack/log.h>
 #include <xnnpack/common.h>
 #include <xnnpack/math.h>
 #include <xnnpack/params.h>
 #include <xnnpack/indirection.h>


 static inline size_t compute_output_dimension(
     size_t input_dimension,
     size_t input_padding_dimension,
     size_t kernel_dimension)
 {
   return doz(kernel_dimension * input_dimension, input_padding_dimension);
 }

 enum xnn_status xnn_create_unpooling2d_nhwc_x32(
     uint32_t input_padding_top,
     uint32_t input_padding_right,
     uint32_t input_padding_bottom,
     uint32_t input_padding_left,
     uint32_t pooling_height,
     uint32_t pooling_width,
     size_t channels,
     size_t input_pixel_stride,
     size_t output_pixel_stride,
     uint32_t flags,
     xnn_operator_t* unpooling_op_out)
 {
   xnn_operator_t unpooling_op = NULL;
   enum xnn_status status = xnn_status_uninitialized;

   if (!xnn_params.initialized) {
     xnn_log_error("failed to create Unpooling operator: XNNPACK is not initialized");
     goto error;
   }

   status = xnn_status_invalid_parameter;

   const uint32_t pooling_size = pooling_height * pooling_width;
   if (pooling_size == 0) {
     xnn_log_error(
       "failed to create Unpooling operator with %" PRIu32 "x%" PRIu32 " pooling size: "
       "pooling size dimensions must be non-zero",
       pooling_width, pooling_height);
     goto error;
   }

   if (pooling_size == 1) {
     xnn_log_error(
       "failed to create Unpooling operator with 1 pooling element: 1x1 unpooling is meaningless");
     goto error;
   }

   if (channels == 0) {
     xnn_log_error(
       "failed to create Unpooling operator with %zu channels: number of channels must be non-zero",
       channels);
     goto error;
   }

   if (input_pixel_stride < channels) {
     xnn_log_error(
       "failed to create Unpooling operator with input pixel stride of %zu: "
       "stride must be at least as large as the number of channels (%zu)",
       input_pixel_stride, channels);
     goto error;
   }

   if (output_pixel_stride < channels) {
     xnn_log_error(
       "failed to create Unpooling operator with output pixel stride of %zu: "
       "stride must be at least as large as the number of channels (%zu)",
       output_pixel_stride, channels);
     goto error;
   }

   status = xnn_status_out_of_memory;

   unpooling_op = xnn_allocate_zero_simd_memory(sizeof(struct xnn_operator));
   if (unpooling_op == NULL) {
     xnn_log_error("failed to allocate %zu bytes for Unpooling operator descriptor", sizeof(struct xnn_operator));
     goto error;
   }

   unpooling_op->padding_top = input_padding_top;
   unpooling_op->padding_right = input_padding_right;
   unpooling_op->padding_bottom = input_padding_bottom;
   unpooling_op->padding_left = input_padding_left;

   unpooling_op->kernel_height = pooling_height;
   unpooling_op->kernel_width = pooling_width;
   unpooling_op->channels = channels;
   unpooling_op->input_pixel_stride = input_pixel_stride;
   unpooling_op->output_pixel_stride = output_pixel_stride;

   unpooling_op->type = xnn_operator_type_unpooling_nhwc_x32;
   unpooling_op->ukernel.type = xnn_ukernel_type_unpooling;

   unpooling_op->state = xnn_run_state_invalid;

   *unpooling_op_out = unpooling_op;
   return xnn_status_success;

 error:
   xnn_delete_operator(unpooling_op);
   return status;
 }

 enum xnn_status xnn_setup_unpooling2d_nhwc_x32(
     xnn_operator_t unpooling_op,
     size_t batch_size,
     size_t input_height,
     size_t input_width,
     const void* input,
     const uint32_t* index,
     void* output,
     pthreadpool_t threadpool)
 {
   if (unpooling_op->type != xnn_operator_type_unpooling_nhwc_x32) {
     xnn_log_error("failed to setup Unpooling (X32) operator: operator type mismatch");
     return xnn_status_invalid_parameter;
   }
   unpooling_op->state = xnn_run_state_invalid;

   if (!xnn_params.initialized) {
     xnn_log_error("failed to setup Unpooling operator: XNNPACK is not initialized");
     return xnn_status_uninitialized;
   }

   if (input_width == 0 || input_height == 0) {
     xnn_log_error(
       "failed to setup Unpooling operator with %zux%zu input: input dimensions must be non-zero",
       input_width, input_height);
     return xnn_status_invalid_parameter;
   }

   if (batch_size == 0) {
     unpooling_op->state = xnn_run_state_skip;
     return xnn_status_success;
   }

   unpooling_op->batch_size = batch_size;
   unpooling_op->input_height = input_height;
   unpooling_op->input_width = input_width;
   unpooling_op->input = input;

   unpooling_op->output_height = compute_output_dimension(
     input_height, unpooling_op->padding_top + unpooling_op->padding_bottom,
     unpooling_op->kernel_height);
   unpooling_op->output_width = compute_output_dimension(
     input_width, unpooling_op->padding_left + unpooling_op->padding_right,
     unpooling_op->kernel_width);
   unpooling_op->output = output;

   size_t valid_batch_size = 0;
   if (output == unpooling_op->last_output &&
       input_height == unpooling_op->last_input_height &&
       input_width == unpooling_op->last_input_width)
   {
     valid_batch_size = unpooling_op->valid_batch_size;
     if (batch_size <= valid_batch_size) {
       unpooling_op->compute.range[0] = batch_size * input_height;
       unpooling_op->state = xnn_run_state_ready;
       return xnn_status_success;
     }
   }

   const size_t pooling_height = unpooling_op->kernel_height;
   const size_t pooling_width = unpooling_op->kernel_width;
   const size_t pooling_size = pooling_height * pooling_width;

   const size_t indirection_buffer_size = sizeof(void*) * (batch_size * input_height * input_width * pooling_size);

   void** indirection_buffer = (void**) xnn_reallocate_memory(unpooling_op->indirection_buffer, indirection_buffer_size);
   if (indirection_buffer == NULL) {
     xnn_log_error("failed to allocate %zu bytes for indirection buffer", indirection_buffer_size);
     return xnn_status_out_of_memory;
   }
   unpooling_op->indirection_buffer = (const void**) indirection_buffer;

   xnn_indirection_init_unpool2d(unpooling_op, valid_batch_size, 2 /* log2(sizeof(type32)) */);

   const size_t channels = unpooling_op->channels;
   const size_t input_pixel_stride_in_bytes = unpooling_op->input_pixel_stride * sizeof(float);
   unpooling_op->context.unpooling = (struct unpooling_context) {
     .input = input,
     .input_height_stride = input_width * input_pixel_stride_in_bytes,
     .input_width_stride = input_pixel_stride_in_bytes,
     .index = index,
     .index_height_stride = input_width * channels * sizeof(uint32_t),
     .index_width_stride = channels * sizeof(uint32_t),
     .indirect_output = indirection_buffer,
     .indirect_output_height_stride = input_width * pooling_size * sizeof(void*),
     .indirect_output_width_stride = pooling_size * sizeof(void*),
     .pooling_size = pooling_size,
     .channels = channels,
     .fill_value = 0,
     .ukernel = xnn_params.x32.unpool,
   };
   unpooling_op->compute.type = xnn_parallelization_type_2d;
   unpooling_op->compute.task_2d = (pthreadpool_task_2d_t) xnn_compute_unpooling;
   unpooling_op->compute.range[0] = batch_size * input_height;
   unpooling_op->compute.range[1] = input_width;
   unpooling_op->state = xnn_run_state_ready;

   unpooling_op->last_output = output;
   unpooling_op->last_input_height = input_height;
   unpooling_op->last_input_width = input_width;
   unpooling_op->valid_batch_size = max(valid_batch_size, batch_size);

   return xnn_status_success;
 }
	// Copyright 2019 Google LLC
	//
	// This source code is licensed under the BSD-style license found in the
	// LICENSE file in the root directory of this source tree.

	#include <assert.h>
	#include <math.h>
	#include <stdbool.h>
	#include <stddef.h>
	#include <stdint.h>
	#include <stdlib.h>
	#include <string.h>

	#include <xnnpack.h>
	#include <xnnpack/allocator.h>
	#include <xnnpack/operator.h>
	#include <xnnpack/log.h>
	#include <xnnpack/common.h>
	#include <xnnpack/math.h>
	#include <xnnpack/params.h>
	#include <xnnpack/indirection.h>


	static inline size_t compute_output_dimension(
	size_t input_dimension,
	size_t input_padding_dimension,
	size_t kernel_dimension)
	{
	return doz(kernel_dimension * input_dimension, input_padding_dimension);
	}

	enum xnn_status xnn_create_unpooling2d_nhwc_x32(
	uint32_t input_padding_top,
	uint32_t input_padding_right,
	uint32_t input_padding_bottom,
	uint32_t input_padding_left,
	uint32_t pooling_height,
	uint32_t pooling_width,
	size_t channels,
	size_t input_pixel_stride,
	size_t output_pixel_stride,
	uint32_t flags,
	xnn_operator_t* unpooling_op_out)
	{
	xnn_operator_t unpooling_op = NULL;
	enum xnn_status status = xnn_status_uninitialized;

	if (!xnn_params.initialized) {
	xnn_log_error("failed to create Unpooling operator: XNNPACK is not initialized");
	goto error;
	}

	status = xnn_status_invalid_parameter;

	const uint32_t pooling_size = pooling_height * pooling_width;
	if (pooling_size == 0) {
	xnn_log_error(
	"failed to create Unpooling operator with %" PRIu32 "x%" PRIu32 " pooling size: "
	"pooling size dimensions must be non-zero",
	pooling_width, pooling_height);
	goto error;
	}

	if (pooling_size == 1) {
	xnn_log_error(
	"failed to create Unpooling operator with 1 pooling element: 1x1 unpooling is meaningless");
	goto error;
	}

	if (channels == 0) {
	xnn_log_error(
	"failed to create Unpooling operator with %zu channels: number of channels must be non-zero",
	channels);
	goto error;
	}

	if (input_pixel_stride < channels) {
	xnn_log_error(
	"failed to create Unpooling operator with input pixel stride of %zu: "
	"stride must be at least as large as the number of channels (%zu)",
	input_pixel_stride, channels);
	goto error;
	}

	if (output_pixel_stride < channels) {
	xnn_log_error(
	"failed to create Unpooling operator with output pixel stride of %zu: "
	"stride must be at least as large as the number of channels (%zu)",
	output_pixel_stride, channels);
	goto error;
	}

	status = xnn_status_out_of_memory;

	unpooling_op = xnn_allocate_zero_simd_memory(sizeof(struct xnn_operator));
	if (unpooling_op == NULL) {
	xnn_log_error("failed to allocate %zu bytes for Unpooling operator descriptor", sizeof(struct xnn_operator));
	goto error;
	}

	unpooling_op->padding_top = input_padding_top;
	unpooling_op->padding_right = input_padding_right;
	unpooling_op->padding_bottom = input_padding_bottom;
	unpooling_op->padding_left = input_padding_left;

	unpooling_op->kernel_height = pooling_height;
	unpooling_op->kernel_width = pooling_width;
	unpooling_op->channels = channels;
	unpooling_op->input_pixel_stride = input_pixel_stride;
	unpooling_op->output_pixel_stride = output_pixel_stride;

	unpooling_op->type = xnn_operator_type_unpooling_nhwc_x32;
	unpooling_op->ukernel.type = xnn_ukernel_type_unpooling;

	unpooling_op->state = xnn_run_state_invalid;

	*unpooling_op_out = unpooling_op;
	return xnn_status_success;

	error:
	xnn_delete_operator(unpooling_op);
	return status;
	}

	enum xnn_status xnn_setup_unpooling2d_nhwc_x32(
	xnn_operator_t unpooling_op,
	size_t batch_size,
	size_t input_height,
	size_t input_width,
	const void* input,
	const uint32_t* index,
	void* output,
	pthreadpool_t threadpool)
	{
	if (unpooling_op->type != xnn_operator_type_unpooling_nhwc_x32) {
	xnn_log_error("failed to setup Unpooling (X32) operator: operator type mismatch");
	return xnn_status_invalid_parameter;
	}
	unpooling_op->state = xnn_run_state_invalid;

	if (!xnn_params.initialized) {
	xnn_log_error("failed to setup Unpooling operator: XNNPACK is not initialized");
	return xnn_status_uninitialized;
	}

	if (input_width == 0 \|\| input_height == 0) {
	xnn_log_error(
	"failed to setup Unpooling operator with %zux%zu input: input dimensions must be non-zero",
	input_width, input_height);
	return xnn_status_invalid_parameter;
	}

	if (batch_size == 0) {
	unpooling_op->state = xnn_run_state_skip;
	return xnn_status_success;
	}

	unpooling_op->batch_size = batch_size;
	unpooling_op->input_height = input_height;
	unpooling_op->input_width = input_width;
	unpooling_op->input = input;

	unpooling_op->output_height = compute_output_dimension(
	input_height, unpooling_op->padding_top + unpooling_op->padding_bottom,
	unpooling_op->kernel_height);
	unpooling_op->output_width = compute_output_dimension(
	input_width, unpooling_op->padding_left + unpooling_op->padding_right,
	unpooling_op->kernel_width);
	unpooling_op->output = output;

	size_t valid_batch_size = 0;
	if (output == unpooling_op->last_output &&
	input_height == unpooling_op->last_input_height &&
	input_width == unpooling_op->last_input_width)
	{
	valid_batch_size = unpooling_op->valid_batch_size;
	if (batch_size <= valid_batch_size) {
	unpooling_op->compute.range[0] = batch_size * input_height;
	unpooling_op->state = xnn_run_state_ready;
	return xnn_status_success;
	}
	}

	const size_t pooling_height = unpooling_op->kernel_height;
	const size_t pooling_width = unpooling_op->kernel_width;
	const size_t pooling_size = pooling_height * pooling_width;

	const size_t indirection_buffer_size = sizeof(void) (batch_size * input_height * input_width * pooling_size);

	void indirection_buffer = (void) xnn_reallocate_memory(unpooling_op->indirection_buffer, indirection_buffer_size);
	if (indirection_buffer == NULL) {
	xnn_log_error("failed to allocate %zu bytes for indirection buffer", indirection_buffer_size);
	return xnn_status_out_of_memory;
	}
	unpooling_op->indirection_buffer = (const void**) indirection_buffer;

	xnn_indirection_init_unpool2d(unpooling_op, valid_batch_size, 2 /* log2(sizeof(type32)) */);

	const size_t channels = unpooling_op->channels;
	const size_t input_pixel_stride_in_bytes = unpooling_op->input_pixel_stride * sizeof(float);
	unpooling_op->context.unpooling = (struct unpooling_context) {
	.input = input,
	.input_height_stride = input_width * input_pixel_stride_in_bytes,
	.input_width_stride = input_pixel_stride_in_bytes,
	.index = index,
	.index_height_stride = input_width * channels * sizeof(uint32_t),
	.index_width_stride = channels * sizeof(uint32_t),
	.indirect_output = indirection_buffer,
	.indirect_output_height_stride = input_width * pooling_size * sizeof(void*),
	.indirect_output_width_stride = pooling_size * sizeof(void*),
	.pooling_size = pooling_size,
	.channels = channels,
	.fill_value = 0,
	.ukernel = xnn_params.x32.unpool,
	};
	unpooling_op->compute.type = xnn_parallelization_type_2d;
	unpooling_op->compute.task_2d = (pthreadpool_task_2d_t) xnn_compute_unpooling;
	unpooling_op->compute.range[0] = batch_size * input_height;
	unpooling_op->compute.range[1] = input_width;
	unpooling_op->state = xnn_run_state_ready;

	unpooling_op->last_output = output;
	unpooling_op->last_input_height = input_height;
	unpooling_op->last_input_width = input_width;
	unpooling_op->valid_batch_size = max(valid_batch_size, batch_size);

	return xnn_status_success;
	}