src/subgraph/depth-to-space.c - platform/external/XNNPACK - Git at Google

 // Copyright 2020 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 <stddef.h>
 #include <stdint.h>

 #include <xnnpack.h>
 #include <xnnpack/log.h>
 #include <xnnpack/operator.h>
 #include <xnnpack/params.h>
 #include <xnnpack/subgraph.h>
 #include <xnnpack/subgraph-validation.h>


 static enum xnn_status create_depth_to_space_operator(
   const struct xnn_node* node,
   const struct xnn_value* values,
   size_t num_values,
   struct xnn_operator_data* opdata,
   const struct xnn_caches* caches)
 {
   assert(node->num_inputs == 1);
   const uint32_t input_id = node->inputs[0];
   assert(input_id != XNN_INVALID_VALUE_ID);
   assert(input_id < num_values);

   assert(node->num_outputs == 1);
   const uint32_t output_id = node->outputs[0];
   assert(output_id != XNN_INVALID_VALUE_ID);
   assert(output_id < num_values);

   const size_t input_channel_dim = values[input_id].shape.dim[3];
   const size_t output_channel_dim = values[output_id].shape.dim[3];

   enum xnn_status status;
   if (values[input_id].layout == xnn_layout_type_nchw) {
     assert(values[output_id].layout == xnn_layout_type_nhwc);
     assert(node->compute_type == xnn_compute_type_fp32);
     status = xnn_create_depth_to_space_nchw2nhwc_x32(
         output_channel_dim /* output channels */,
         input_channel_dim /* input stride */,
         output_channel_dim /* output stride */,
         node->params.depth_to_space.block_size,
         node->flags,
         &opdata->operator_objects[0]);
   } else {
     assert(values[input_id].layout == xnn_layout_type_nhwc);
     assert(values[output_id].layout == xnn_layout_type_nhwc);
     switch (node->compute_type) {
 #ifndef XNN_NO_F16_OPERATORS
       case xnn_compute_type_fp16:
         status = xnn_create_depth_to_space_nhwc_x16(
             output_channel_dim /* output channels */,
             input_channel_dim /* input stride */,
             output_channel_dim /* output stride */,
             node->params.depth_to_space.block_size,
             node->flags,
             &opdata->operator_objects[0]);
         break;
 #endif  // XNN_NO_F16_OPERATORS
       case xnn_compute_type_fp32:
         status = xnn_create_depth_to_space_nhwc_x32(
             output_channel_dim /* output channels */,
             input_channel_dim /* input stride */,
             output_channel_dim /* output stride */,
             node->params.depth_to_space.block_size,
             node->flags,
             &opdata->operator_objects[0]);
         break;
 #if !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
       case xnn_compute_type_qs8:
       case xnn_compute_type_qu8:
         status = xnn_create_depth_to_space_nhwc_x8(
             output_channel_dim /* output channels */,
             input_channel_dim /* input stride */,
             output_channel_dim /* output stride */,
             node->params.depth_to_space.block_size,
             node->flags,
             &opdata->operator_objects[0]);
         break;
 #endif  // !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
       default:
         XNN_UNREACHABLE;
     }
   }
   if (status == xnn_status_success) {
     opdata->batch_size = values[input_id].shape.dim[0];
     opdata->input_height = values[input_id].shape.dim[1];
     opdata->input_width = values[input_id].shape.dim[2];
     opdata->output_height = values[output_id].shape.dim[1];
     opdata->output_width = values[output_id].shape.dim[2];
     opdata->inputs[0] = input_id;
     opdata->outputs[0] = output_id;
   }
   return status;
 }

 static enum xnn_status setup_depth_to_space_operator(
   const struct xnn_operator_data* opdata,
   const struct xnn_blob* blobs,
   size_t num_blobs,
   pthreadpool_t threadpool)
 {
   const uint32_t input_id = opdata->inputs[0];
   assert(input_id != XNN_INVALID_VALUE_ID);
   assert(input_id < num_blobs);

   const uint32_t output_id = opdata->outputs[0];
   assert(output_id != XNN_INVALID_VALUE_ID);
   assert(output_id < num_blobs);

   const struct xnn_blob* input_blob = blobs + input_id;
   const void* input_data = input_blob->data;
   assert(input_data != NULL);

   const struct xnn_blob* output_blob = blobs + output_id;
   void* output_data = output_blob->data;
   assert(output_data != NULL);

   switch (opdata->operator_objects[0]->type) {
     case xnn_operator_type_depth_to_space_nchw2nhwc_x32:
       return xnn_setup_depth_to_space_nchw2nhwc_x32(
           opdata->operator_objects[0],
           opdata->batch_size,
           opdata->input_height,
           opdata->input_width,
           input_data,
           output_data,
           threadpool);
 #ifndef XNN_NO_F16_OPERATORS
     case xnn_operator_type_depth_to_space_nhwc_x16:
       return xnn_setup_depth_to_space_nhwc_x16(
           opdata->operator_objects[0],
           opdata->batch_size,
           opdata->input_height,
           opdata->input_width,
           input_data,
           output_data,
           threadpool);
 #endif  // XNN_NO_F16_OPERATORS
     case xnn_operator_type_depth_to_space_nhwc_x32:
       return xnn_setup_depth_to_space_nhwc_x32(
           opdata->operator_objects[0],
           opdata->batch_size,
           opdata->input_height,
           opdata->input_width,
           input_data,
           output_data,
           threadpool);
 #if !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
     case xnn_operator_type_depth_to_space_nhwc_x8:
       return xnn_setup_depth_to_space_nhwc_x8(
           opdata->operator_objects[0],
           opdata->batch_size,
           opdata->input_height,
           opdata->input_width,
           input_data,
           output_data,
           threadpool);
 #endif  // !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
     default:
       XNN_UNREACHABLE;
   }
 }

 enum xnn_status xnn_define_depth_to_space(
   xnn_subgraph_t subgraph,
   uint32_t input_id,
   uint32_t output_id,
   uint32_t block_size,
   uint32_t flags)
 {
   enum xnn_status status;
   if ((status = xnn_subgraph_check_xnnpack_initialized(xnn_node_type_depth_to_space)) != xnn_status_success) {
     return status;
   }

   if ((status = xnn_subgraph_check_input_node_id(xnn_node_type_depth_to_space, input_id, subgraph->num_values)) !=
       xnn_status_success) {
     return status;
   }

   const struct xnn_value* input_value = &subgraph->values[input_id];
   status = xnn_subgraph_check_input_type_dense(xnn_node_type_depth_to_space, input_id, input_value);
   if (status != xnn_status_success) {
     return status;
   }

   switch (input_value->datatype) {
     case xnn_datatype_fp32:
 #ifndef XNN_NO_QS8_OPERATORS
     case xnn_datatype_qint8:
 #endif  // !defined(XNN_NO_QS8_OPERATORS)
 #ifndef XNN_NO_QU8_OPERATORS
     case xnn_datatype_quint8:
 #endif  // !defined(XNN_NO_QU8_OPERATORS)
       break;
     default:
       xnn_log_error(
         "failed to define %s operator with input ID #%" PRIu32 ": unsupported Value datatype %s (%d)",
         xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id,
         xnn_datatype_to_string(input_value->datatype), input_value->datatype);
       return xnn_status_invalid_parameter;
   }

   status = xnn_subgraph_check_output_node_id(xnn_node_type_depth_to_space, output_id, subgraph->num_values);
   if (status != xnn_status_success) {
     return status;
   }

   const struct xnn_value* output_value = &subgraph->values[output_id];
   status = xnn_subgraph_check_output_type_dense(xnn_node_type_depth_to_space, output_id, output_value);
   if (status != xnn_status_success) {
     return status;
   }

   enum xnn_compute_type compute_type = xnn_compute_type_invalid;
   switch (output_value->datatype) {
     case xnn_datatype_fp32:
       compute_type = xnn_compute_type_fp32;
       break;
 #ifndef XNN_NO_QS8_OPERATORS
     case xnn_datatype_qint8:
       compute_type = xnn_compute_type_qs8;
       break;
 #endif  // !defined(XNN_NO_QS8_OPERATORS)
 #ifndef XNN_NO_QU8_OPERATORS
     case xnn_datatype_quint8:
       compute_type = xnn_compute_type_qu8;
       break;
 #endif  // !defined(XNN_NO_QU8_OPERATORS)
     default:
       xnn_log_error(
         "failed to define %s operator with output ID #%" PRIu32 ": unsupported Value datatype %s (%d)",
         xnn_node_type_to_string(xnn_node_type_depth_to_space), output_id,
         xnn_datatype_to_string(output_value->datatype), output_value->datatype);
       return xnn_status_invalid_parameter;
   }
   assert(compute_type != xnn_compute_type_invalid);

   status = xnn_subgraph_check_datatype_matches(
     xnn_node_type_depth_to_space, input_id, input_value, output_id, output_value);
   if (status != xnn_status_success) {
     return status;
   }

 #if !defined(XNN_NO_QU8_OPERATORS) || !defined(XNN_NO_QS8_OPERATORS)
   if (compute_type == xnn_datatype_qint8 || compute_type == xnn_datatype_quint8) {
     if (input_value->quantization.zero_point != output_value->quantization.zero_point) {
       xnn_log_error(
         "failed to define %s operator with input ID #%" PRIu32 " and output ID #%" PRIu32
         ": mismatching zero point quantization parameter across input (%"PRId32") and output (%"PRId32")",
         xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id, output_id,
         input_value->quantization.zero_point, output_value->quantization.zero_point);
       return xnn_status_invalid_parameter;
     }
     if (input_value->quantization.scale != output_value->quantization.scale) {
       xnn_log_error(
         "failed to define %s operator with input ID #%" PRIu32 " and output ID #%" PRIu32
         ": mismatching zero point quantization parameter across input (%.7g) and output (%.7g)",
         xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id, output_id,
         input_value->quantization.scale, output_value->quantization.scale);
       return xnn_status_invalid_parameter;
     }
   }
 #endif  // !defined(XNN_NO_QU8_OPERATORS) || !defined(XNN_NO_QS8_OPERATORS)

   if (block_size < 2) {
     xnn_log_error(
       "failed to define %s operator with block size #%" PRIu32 ": invalid block_size",
       xnn_node_type_to_string(xnn_node_type_depth_to_space), block_size);
     return xnn_status_invalid_parameter;
   }

   struct xnn_node* node = xnn_subgraph_new_node(subgraph);
   if (node == NULL) {
     return xnn_status_out_of_memory;
   }

   node->type = xnn_node_type_depth_to_space;
   node->compute_type = compute_type;
   node->num_inputs = 1;
   node->inputs[0] = input_id;
   node->num_outputs = 1;
   node->outputs[0] = output_id;
   node->params.depth_to_space.block_size = block_size;
   node->flags = flags;

   node->create = create_depth_to_space_operator;
   node->setup = setup_depth_to_space_operator;

   return xnn_status_success;
 }
	// Copyright 2020 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 <stddef.h>
	#include <stdint.h>

	#include <xnnpack.h>
	#include <xnnpack/log.h>
	#include <xnnpack/operator.h>
	#include <xnnpack/params.h>
	#include <xnnpack/subgraph.h>
	#include <xnnpack/subgraph-validation.h>


	static enum xnn_status create_depth_to_space_operator(
	const struct xnn_node* node,
	const struct xnn_value* values,
	size_t num_values,
	struct xnn_operator_data* opdata,
	const struct xnn_caches* caches)
	{
	assert(node->num_inputs == 1);
	const uint32_t input_id = node->inputs[0];
	assert(input_id != XNN_INVALID_VALUE_ID);
	assert(input_id < num_values);

	assert(node->num_outputs == 1);
	const uint32_t output_id = node->outputs[0];
	assert(output_id != XNN_INVALID_VALUE_ID);
	assert(output_id < num_values);

	const size_t input_channel_dim = values[input_id].shape.dim[3];
	const size_t output_channel_dim = values[output_id].shape.dim[3];

	enum xnn_status status;
	if (values[input_id].layout == xnn_layout_type_nchw) {
	assert(values[output_id].layout == xnn_layout_type_nhwc);
	assert(node->compute_type == xnn_compute_type_fp32);
	status = xnn_create_depth_to_space_nchw2nhwc_x32(
	output_channel_dim /* output channels */,
	input_channel_dim /* input stride */,
	output_channel_dim /* output stride */,
	node->params.depth_to_space.block_size,
	node->flags,
	&opdata->operator_objects[0]);
	} else {
	assert(values[input_id].layout == xnn_layout_type_nhwc);
	assert(values[output_id].layout == xnn_layout_type_nhwc);
	switch (node->compute_type) {
	#ifndef XNN_NO_F16_OPERATORS
	case xnn_compute_type_fp16:
	status = xnn_create_depth_to_space_nhwc_x16(
	output_channel_dim /* output channels */,
	input_channel_dim /* input stride */,
	output_channel_dim /* output stride */,
	node->params.depth_to_space.block_size,
	node->flags,
	&opdata->operator_objects[0]);
	break;
	#endif // XNN_NO_F16_OPERATORS
	case xnn_compute_type_fp32:
	status = xnn_create_depth_to_space_nhwc_x32(
	output_channel_dim /* output channels */,
	input_channel_dim /* input stride */,
	output_channel_dim /* output stride */,
	node->params.depth_to_space.block_size,
	node->flags,
	&opdata->operator_objects[0]);
	break;
	#if !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
	case xnn_compute_type_qs8:
	case xnn_compute_type_qu8:
	status = xnn_create_depth_to_space_nhwc_x8(
	output_channel_dim /* output channels */,
	input_channel_dim /* input stride */,
	output_channel_dim /* output stride */,
	node->params.depth_to_space.block_size,
	node->flags,
	&opdata->operator_objects[0]);
	break;
	#endif // !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
	default:
	XNN_UNREACHABLE;
	}
	}
	if (status == xnn_status_success) {
	opdata->batch_size = values[input_id].shape.dim[0];
	opdata->input_height = values[input_id].shape.dim[1];
	opdata->input_width = values[input_id].shape.dim[2];
	opdata->output_height = values[output_id].shape.dim[1];
	opdata->output_width = values[output_id].shape.dim[2];
	opdata->inputs[0] = input_id;
	opdata->outputs[0] = output_id;
	}
	return status;
	}

	static enum xnn_status setup_depth_to_space_operator(
	const struct xnn_operator_data* opdata,
	const struct xnn_blob* blobs,
	size_t num_blobs,
	pthreadpool_t threadpool)
	{
	const uint32_t input_id = opdata->inputs[0];
	assert(input_id != XNN_INVALID_VALUE_ID);
	assert(input_id < num_blobs);

	const uint32_t output_id = opdata->outputs[0];
	assert(output_id != XNN_INVALID_VALUE_ID);
	assert(output_id < num_blobs);

	const struct xnn_blob* input_blob = blobs + input_id;
	const void* input_data = input_blob->data;
	assert(input_data != NULL);

	const struct xnn_blob* output_blob = blobs + output_id;
	void* output_data = output_blob->data;
	assert(output_data != NULL);

	switch (opdata->operator_objects[0]->type) {
	case xnn_operator_type_depth_to_space_nchw2nhwc_x32:
	return xnn_setup_depth_to_space_nchw2nhwc_x32(
	opdata->operator_objects[0],
	opdata->batch_size,
	opdata->input_height,
	opdata->input_width,
	input_data,
	output_data,
	threadpool);
	#ifndef XNN_NO_F16_OPERATORS
	case xnn_operator_type_depth_to_space_nhwc_x16:
	return xnn_setup_depth_to_space_nhwc_x16(
	opdata->operator_objects[0],
	opdata->batch_size,
	opdata->input_height,
	opdata->input_width,
	input_data,
	output_data,
	threadpool);
	#endif // XNN_NO_F16_OPERATORS
	case xnn_operator_type_depth_to_space_nhwc_x32:
	return xnn_setup_depth_to_space_nhwc_x32(
	opdata->operator_objects[0],
	opdata->batch_size,
	opdata->input_height,
	opdata->input_width,
	input_data,
	output_data,
	threadpool);
	#if !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
	case xnn_operator_type_depth_to_space_nhwc_x8:
	return xnn_setup_depth_to_space_nhwc_x8(
	opdata->operator_objects[0],
	opdata->batch_size,
	opdata->input_height,
	opdata->input_width,
	input_data,
	output_data,
	threadpool);
	#endif // !defined(XNN_NO_S8_OPERATORS) && !defined(XNN_NO_U8_OPERATORS)
	default:
	XNN_UNREACHABLE;
	}
	}

	enum xnn_status xnn_define_depth_to_space(
	xnn_subgraph_t subgraph,
	uint32_t input_id,
	uint32_t output_id,
	uint32_t block_size,
	uint32_t flags)
	{
	enum xnn_status status;
	if ((status = xnn_subgraph_check_xnnpack_initialized(xnn_node_type_depth_to_space)) != xnn_status_success) {
	return status;
	}

	if ((status = xnn_subgraph_check_input_node_id(xnn_node_type_depth_to_space, input_id, subgraph->num_values)) !=
	xnn_status_success) {
	return status;
	}

	const struct xnn_value* input_value = &subgraph->values[input_id];
	status = xnn_subgraph_check_input_type_dense(xnn_node_type_depth_to_space, input_id, input_value);
	if (status != xnn_status_success) {
	return status;
	}

	switch (input_value->datatype) {
	case xnn_datatype_fp32:
	#ifndef XNN_NO_QS8_OPERATORS
	case xnn_datatype_qint8:
	#endif // !defined(XNN_NO_QS8_OPERATORS)
	#ifndef XNN_NO_QU8_OPERATORS
	case xnn_datatype_quint8:
	#endif // !defined(XNN_NO_QU8_OPERATORS)
	break;
	default:
	xnn_log_error(
	"failed to define %s operator with input ID #%" PRIu32 ": unsupported Value datatype %s (%d)",
	xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id,
	xnn_datatype_to_string(input_value->datatype), input_value->datatype);
	return xnn_status_invalid_parameter;
	}

	status = xnn_subgraph_check_output_node_id(xnn_node_type_depth_to_space, output_id, subgraph->num_values);
	if (status != xnn_status_success) {
	return status;
	}

	const struct xnn_value* output_value = &subgraph->values[output_id];
	status = xnn_subgraph_check_output_type_dense(xnn_node_type_depth_to_space, output_id, output_value);
	if (status != xnn_status_success) {
	return status;
	}

	enum xnn_compute_type compute_type = xnn_compute_type_invalid;
	switch (output_value->datatype) {
	case xnn_datatype_fp32:
	compute_type = xnn_compute_type_fp32;
	break;
	#ifndef XNN_NO_QS8_OPERATORS
	case xnn_datatype_qint8:
	compute_type = xnn_compute_type_qs8;
	break;
	#endif // !defined(XNN_NO_QS8_OPERATORS)
	#ifndef XNN_NO_QU8_OPERATORS
	case xnn_datatype_quint8:
	compute_type = xnn_compute_type_qu8;
	break;
	#endif // !defined(XNN_NO_QU8_OPERATORS)
	default:
	xnn_log_error(
	"failed to define %s operator with output ID #%" PRIu32 ": unsupported Value datatype %s (%d)",
	xnn_node_type_to_string(xnn_node_type_depth_to_space), output_id,
	xnn_datatype_to_string(output_value->datatype), output_value->datatype);
	return xnn_status_invalid_parameter;
	}
	assert(compute_type != xnn_compute_type_invalid);

	status = xnn_subgraph_check_datatype_matches(
	xnn_node_type_depth_to_space, input_id, input_value, output_id, output_value);
	if (status != xnn_status_success) {
	return status;
	}

	#if !defined(XNN_NO_QU8_OPERATORS) \|\| !defined(XNN_NO_QS8_OPERATORS)
	if (compute_type == xnn_datatype_qint8 \|\| compute_type == xnn_datatype_quint8) {
	if (input_value->quantization.zero_point != output_value->quantization.zero_point) {
	xnn_log_error(
	"failed to define %s operator with input ID #%" PRIu32 " and output ID #%" PRIu32
	": mismatching zero point quantization parameter across input (%"PRId32") and output (%"PRId32")",
	xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id, output_id,
	input_value->quantization.zero_point, output_value->quantization.zero_point);
	return xnn_status_invalid_parameter;
	}
	if (input_value->quantization.scale != output_value->quantization.scale) {
	xnn_log_error(
	"failed to define %s operator with input ID #%" PRIu32 " and output ID #%" PRIu32
	": mismatching zero point quantization parameter across input (%.7g) and output (%.7g)",
	xnn_node_type_to_string(xnn_node_type_depth_to_space), input_id, output_id,
	input_value->quantization.scale, output_value->quantization.scale);
	return xnn_status_invalid_parameter;
	}
	}
	#endif // !defined(XNN_NO_QU8_OPERATORS) \|\| !defined(XNN_NO_QS8_OPERATORS)

	if (block_size < 2) {
	xnn_log_error(
	"failed to define %s operator with block size #%" PRIu32 ": invalid block_size",
	xnn_node_type_to_string(xnn_node_type_depth_to_space), block_size);
	return xnn_status_invalid_parameter;
	}

	struct xnn_node* node = xnn_subgraph_new_node(subgraph);
	if (node == NULL) {
	return xnn_status_out_of_memory;
	}

	node->type = xnn_node_type_depth_to_space;
	node->compute_type = compute_type;
	node->num_inputs = 1;
	node->inputs[0] = input_id;
	node->num_outputs = 1;
	node->outputs[0] = output_id;
	node->params.depth_to_space.block_size = block_size;
	node->flags = flags;

	node->create = create_depth_to_space_operator;
	node->setup = setup_depth_to_space_operator;

	return xnn_status_success;
	}