// 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include 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.init_flags & XNN_INIT_FLAG_XNNPACK) == 0) { xnn_log_error("failed to create %s operator: XNNPACK is not initialized", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32)); 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 %s operator with %" PRIu32 "x%" PRIu32 " pooling size: " "pooling size dimensions must be non-zero", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), pooling_width, pooling_height); goto error; } if (pooling_size == 1) { xnn_log_error( "failed to create %s operator with 1 pooling element: 1x1 unpooling is meaningless", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32)); goto error; } if (channels == 0) { xnn_log_error( "failed to create %s operator with %zu channels: number of channels must be non-zero", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), channels); goto error; } if (input_pixel_stride < channels) { xnn_log_error( "failed to create %s operator with input pixel stride of %zu: " "stride must be at least as large as the number of channels (%zu)", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), input_pixel_stride, channels); goto error; } if (output_pixel_stride < channels) { xnn_log_error( "failed to create %s operator with output pixel stride of %zu: " "stride must be at least as large as the number of channels (%zu)", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), 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 %s operator descriptor", sizeof(struct xnn_operator), xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32)); 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->flags = flags; 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 operator: operator type mismatch (expected %s, got %s)", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), xnn_operator_type_to_string(unpooling_op->type)); return xnn_status_invalid_parameter; } unpooling_op->state = xnn_run_state_invalid; if ((xnn_params.init_flags & XNN_INIT_FLAG_XNNPACK) == 0) { xnn_log_error("failed to setup %s operator: XNNPACK is not initialized", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32)); return xnn_status_uninitialized; } if (input_width == 0 || input_height == 0) { xnn_log_error( "failed to setup %s operator with %zux%zu input: input dimensions must be non-zero", xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32), 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 = xnn_compute_unpooling_output_dimension( input_height, unpooling_op->padding_top + unpooling_op->padding_bottom, unpooling_op->kernel_height); unpooling_op->output_width = xnn_compute_unpooling_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); const void** indirection_buffer = (const void**) xnn_reallocate_memory(unpooling_op->indirection_buffer, indirection_buffer_size); if (indirection_buffer == NULL) { xnn_log_error( "failed to allocate %zu bytes for %s operator indirection buffer", indirection_buffer_size, xnn_operator_type_to_string(xnn_operator_type_unpooling_nhwc_x32)); return xnn_status_out_of_memory; } unpooling_op->indirection_buffer = 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; }