src/operator-strings.c - platform/external/XNNPACK - Gitiles

 // 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 <math.h>
 #include <stddef.h>
 #include <stdint.h>

 #include <xnnpack/common.h>
 #include <xnnpack/log.h>
 #include <xnnpack/subgraph.h>


 // This function is defined inline when logging is disabled
 #if XNN_LOG_LEVEL > 0
 const char* xnn_operator_type_to_string(enum xnn_operator_type type) {
   switch (type) {
     case xnn_operator_type_invalid:
       return "Invalid";
     case xnn_operator_type_abs_nc_f32:
       return "Abs (NC, F32)";
     case xnn_operator_type_add_nd_f16:
       return "Add (ND, F16)";
     case xnn_operator_type_add_nd_f32:
       return "Add (ND, F32)";
     case xnn_operator_type_add_nd_qs8:
       return "Add (ND, QS8)";
     case xnn_operator_type_add_nd_qu8:
       return "Add (ND, QU8)";
     case xnn_operator_type_argmax_pooling_nhwc_f32:
       return "ArgMax Pooling (NHWC, F32)";
     case xnn_operator_type_average_pooling_nhwc_f32:
       return "Average Pooling (NHWC, F32)";
     case xnn_operator_type_average_pooling_nhwc_qu8:
       return "Average Pooling (NHWC, QU8)";
     case xnn_operator_type_bankers_rounding_nc_f32:
       return "Bankers Rounding (NC, F32)";
     case xnn_operator_type_ceiling_nc_f32:
       return "Ceiling (NC, F32)";
     case xnn_operator_type_channel_shuffle_nc_x8:
       return "Channel Shuffle (NC, X8)";
     case xnn_operator_type_channel_shuffle_nc_x32:
       return "Channel Shuffle (NC, X32)";
     case xnn_operator_type_clamp_nc_f32:
       return "Clamp (NC, F32)";
     case xnn_operator_type_clamp_nc_s8:
       return "Clamp (NC, S8)";
     case xnn_operator_type_clamp_nc_u8:
       return "Clamp (NC, U8)";
     case xnn_operator_type_constant_pad_nd_x8:
       return "Constant Pad (ND, X8)";
     case xnn_operator_type_constant_pad_nd_x32:
       return "Constant Pad (ND, X32)";
     case xnn_operator_type_convert_nc_f16_f32:
       return "Convert (NC, F16, F32)";
     case xnn_operator_type_convert_nc_f32_f16:
       return "Convert (NC, F32, F16)";
     case xnn_operator_type_convert_nc_f32_qs8:
       return "Convert (NC, F32, QS8)";
     case xnn_operator_type_convert_nc_f32_qu8:
       return "Convert (NC, F32, QU8)";
     case xnn_operator_type_convolution_nhwc_f16:
       return "Convolution (NHWC, F16)";
     case xnn_operator_type_convolution_nhwc_f32:
       return "Convolution (NHWC, F32)";
     case xnn_operator_type_convolution_nhwc_qc8:
       return "Convolution (NHWC, QC8)";
     case xnn_operator_type_convolution_nhwc_qs8:
       return "Convolution (NHWC, QS8)";
     case xnn_operator_type_convolution_nhwc_qu8:
       return "Convolution (NHWC, QU8)";
     case xnn_operator_type_convolution_nchw_f32:
       return "Convolution (NCHW, F32)";
     case xnn_operator_type_copy_nc_x32:
       return "Copy (NC, X32)";
     case xnn_operator_type_deconvolution_nhwc_f32:
       return "Deconvolution (NHWC, F32)";
     case xnn_operator_type_deconvolution_nhwc_qs8:
       return "Deconvolution (NHWC, QS8)";
     case xnn_operator_type_deconvolution_nhwc_qu8:
       return "Deconvolution (NHWC, QU8)";
     case xnn_operator_type_depth_to_space_nchw2nhwc_x32:
       return "Depth To Space (NCHW2NHWC, X32)";
     case xnn_operator_type_depth_to_space_nhwc_x32:
       return "Depth To Space (NHWC, X32)";
     case xnn_operator_type_divide_nd_f32:
       return "Divide (ND, F32)";
     case xnn_operator_type_elu_nc_f32:
       return "ELU (NC, F32)";
     case xnn_operator_type_elu_nc_qs8:
       return "ELU (NC, QS8)";
     case xnn_operator_type_floor_nc_f32:
       return "Floor (NC, F32)";
     case xnn_operator_type_fully_connected_nc_f16:
       return "Fully Connected (NC, F16)";
     case xnn_operator_type_fully_connected_nc_f32:
       return "Fully Connected (NC, F32)";
     case xnn_operator_type_fully_connected_nc_qs8:
       return "Fully Connected (NC, QS8)";
     case xnn_operator_type_fully_connected_nc_qu8:
       return "Fully Connected (NC, QU8)";
     case xnn_operator_type_global_average_pooling_nwc_f16:
       return "Global Average Pooling (NWC, F16)";
     case xnn_operator_type_global_average_pooling_nwc_f32:
       return "Global Average Pooling (NWC, F32)";
     case xnn_operator_type_global_average_pooling_nwc_qs8:
       return "Global Average Pooling (NWC, QS8)";
     case xnn_operator_type_global_average_pooling_nwc_qu8:
       return "Global Average Pooling (NWC, QU8)";
     case xnn_operator_type_global_average_pooling_ncw_f32:
       return "Global Average Pooling (NCW, F32)";
     case xnn_operator_type_hardswish_nc_f16:
       return "HardSwish (NC, F16)";
     case xnn_operator_type_hardswish_nc_f32:
       return "HardSwish (NC, F32)";
     case xnn_operator_type_leaky_relu_nc_f32:
       return "Leaky ReLU (NC, F32)";
     case xnn_operator_type_leaky_relu_nc_qu8:
       return "Leaky ReLU (NC, QU8)";
     case xnn_operator_type_max_pooling_nhwc_f32:
       return "Max Pooling (NHWC, F32)";
     case xnn_operator_type_max_pooling_nhwc_s8:
       return "Max Pooling (NHWC, S8)";
     case xnn_operator_type_max_pooling_nhwc_u8:
       return "Max Pooling (NHWC, U8)";
     case xnn_operator_type_maximum_nd_f32:
       return "Maximum (ND, F32)";
     case xnn_operator_type_minimum_nd_f32:
       return "Minimum (ND, F32)";
     case xnn_operator_type_multiply_nd_f16:
       return "Multiply (ND, F16)";
     case xnn_operator_type_multiply_nd_f32:
       return "Multiply (ND, F32)";
     case xnn_operator_type_multiply_nd_qs8:
       return "Multiply (ND, QS8)";
     case xnn_operator_type_multiply_nd_qu8:
       return "Multiply (ND, QU8)";
     case xnn_operator_type_negate_nc_f32:
       return "Negate (NC, F32)";
     case xnn_operator_type_prelu_nc_f32:
       return "PReLU (NC, F32)";
     case xnn_operator_type_resize_bilinear_nhwc_f32:
       return "Resize Bilinear (NHWC, F32)";
     case xnn_operator_type_resize_bilinear_nhwc_s8:
       return "Resize Bilinear (NHWC, S8)";
     case xnn_operator_type_resize_bilinear_nhwc_u8:
       return "Resize Bilinear (NHWC, U8)";
     case xnn_operator_type_resize_bilinear_nchw_f32:
       return "Resize Bilinear (NCHW, F32)";
     case xnn_operator_type_sigmoid_nc_f32:
       return "Sigmoid (NC, F32)";
     case xnn_operator_type_sigmoid_nc_qs8:
       return "Sigmoid (NC, QS8)";
     case xnn_operator_type_sigmoid_nc_qu8:
       return "Sigmoid (NC, QU8)";
     case xnn_operator_type_softmax_nc_f32:
       return "Softmax (NC, F32)";
     case xnn_operator_type_softmax_nc_qu8:
       return "Softmax (NC, QU8)";
     case xnn_operator_type_square_nc_f32:
       return "Square (NC, F32)";
     case xnn_operator_type_square_root_nc_f32:
       return "Square Root (NC, F32)";
     case xnn_operator_type_squared_difference_nd_f32:
       return "Squared Difference (NC, F32)";
     case xnn_operator_type_subtract_nd_f32:
       return "Subtract (ND, F32)";
     case xnn_operator_type_subtract_nd_qs8:
       return "Subtract (ND, QS8)";
     case xnn_operator_type_subtract_nd_qu8:
       return "Subtract (ND, QU8)";
     case xnn_operator_type_tanh_nc_qs8:
       return "Tanh (NC, QS8)";
     case xnn_operator_type_tanh_nc_qu8:
       return "Tanh (NC, QU8)";
     case xnn_operator_type_truncation_nc_f32:
       return "Truncation (NC, F32)";
     case xnn_operator_type_unpooling_nhwc_x32:
       return "Unpooling (NHWC, X32)";
   }
   XNN_UNREACHABLE;
   return NULL;
 }
 #endif  // XNN_LOG_LEVEL > 0
	// 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 <math.h>
	#include <stddef.h>
	#include <stdint.h>

	#include <xnnpack/common.h>
	#include <xnnpack/log.h>
	#include <xnnpack/subgraph.h>


	// This function is defined inline when logging is disabled
	#if XNN_LOG_LEVEL > 0
	const char* xnn_operator_type_to_string(enum xnn_operator_type type) {
	switch (type) {
	case xnn_operator_type_invalid:
	return "Invalid";
	case xnn_operator_type_abs_nc_f32:
	return "Abs (NC, F32)";
	case xnn_operator_type_add_nd_f16:
	return "Add (ND, F16)";
	case xnn_operator_type_add_nd_f32:
	return "Add (ND, F32)";
	case xnn_operator_type_add_nd_qs8:
	return "Add (ND, QS8)";
	case xnn_operator_type_add_nd_qu8:
	return "Add (ND, QU8)";
	case xnn_operator_type_argmax_pooling_nhwc_f32:
	return "ArgMax Pooling (NHWC, F32)";
	case xnn_operator_type_average_pooling_nhwc_f32:
	return "Average Pooling (NHWC, F32)";
	case xnn_operator_type_average_pooling_nhwc_qu8:
	return "Average Pooling (NHWC, QU8)";
	case xnn_operator_type_bankers_rounding_nc_f32:
	return "Bankers Rounding (NC, F32)";
	case xnn_operator_type_ceiling_nc_f32:
	return "Ceiling (NC, F32)";
	case xnn_operator_type_channel_shuffle_nc_x8:
	return "Channel Shuffle (NC, X8)";
	case xnn_operator_type_channel_shuffle_nc_x32:
	return "Channel Shuffle (NC, X32)";
	case xnn_operator_type_clamp_nc_f32:
	return "Clamp (NC, F32)";
	case xnn_operator_type_clamp_nc_s8:
	return "Clamp (NC, S8)";
	case xnn_operator_type_clamp_nc_u8:
	return "Clamp (NC, U8)";
	case xnn_operator_type_constant_pad_nd_x8:
	return "Constant Pad (ND, X8)";
	case xnn_operator_type_constant_pad_nd_x32:
	return "Constant Pad (ND, X32)";
	case xnn_operator_type_convert_nc_f16_f32:
	return "Convert (NC, F16, F32)";
	case xnn_operator_type_convert_nc_f32_f16:
	return "Convert (NC, F32, F16)";
	case xnn_operator_type_convert_nc_f32_qs8:
	return "Convert (NC, F32, QS8)";
	case xnn_operator_type_convert_nc_f32_qu8:
	return "Convert (NC, F32, QU8)";
	case xnn_operator_type_convolution_nhwc_f16:
	return "Convolution (NHWC, F16)";
	case xnn_operator_type_convolution_nhwc_f32:
	return "Convolution (NHWC, F32)";
	case xnn_operator_type_convolution_nhwc_qc8:
	return "Convolution (NHWC, QC8)";
	case xnn_operator_type_convolution_nhwc_qs8:
	return "Convolution (NHWC, QS8)";
	case xnn_operator_type_convolution_nhwc_qu8:
	return "Convolution (NHWC, QU8)";
	case xnn_operator_type_convolution_nchw_f32:
	return "Convolution (NCHW, F32)";
	case xnn_operator_type_copy_nc_x32:
	return "Copy (NC, X32)";
	case xnn_operator_type_deconvolution_nhwc_f32:
	return "Deconvolution (NHWC, F32)";
	case xnn_operator_type_deconvolution_nhwc_qs8:
	return "Deconvolution (NHWC, QS8)";
	case xnn_operator_type_deconvolution_nhwc_qu8:
	return "Deconvolution (NHWC, QU8)";
	case xnn_operator_type_depth_to_space_nchw2nhwc_x32:
	return "Depth To Space (NCHW2NHWC, X32)";
	case xnn_operator_type_depth_to_space_nhwc_x32:
	return "Depth To Space (NHWC, X32)";
	case xnn_operator_type_divide_nd_f32:
	return "Divide (ND, F32)";
	case xnn_operator_type_elu_nc_f32:
	return "ELU (NC, F32)";
	case xnn_operator_type_elu_nc_qs8:
	return "ELU (NC, QS8)";
	case xnn_operator_type_floor_nc_f32:
	return "Floor (NC, F32)";
	case xnn_operator_type_fully_connected_nc_f16:
	return "Fully Connected (NC, F16)";
	case xnn_operator_type_fully_connected_nc_f32:
	return "Fully Connected (NC, F32)";
	case xnn_operator_type_fully_connected_nc_qs8:
	return "Fully Connected (NC, QS8)";
	case xnn_operator_type_fully_connected_nc_qu8:
	return "Fully Connected (NC, QU8)";
	case xnn_operator_type_global_average_pooling_nwc_f16:
	return "Global Average Pooling (NWC, F16)";
	case xnn_operator_type_global_average_pooling_nwc_f32:
	return "Global Average Pooling (NWC, F32)";
	case xnn_operator_type_global_average_pooling_nwc_qs8:
	return "Global Average Pooling (NWC, QS8)";
	case xnn_operator_type_global_average_pooling_nwc_qu8:
	return "Global Average Pooling (NWC, QU8)";
	case xnn_operator_type_global_average_pooling_ncw_f32:
	return "Global Average Pooling (NCW, F32)";
	case xnn_operator_type_hardswish_nc_f16:
	return "HardSwish (NC, F16)";
	case xnn_operator_type_hardswish_nc_f32:
	return "HardSwish (NC, F32)";
	case xnn_operator_type_leaky_relu_nc_f32:
	return "Leaky ReLU (NC, F32)";
	case xnn_operator_type_leaky_relu_nc_qu8:
	return "Leaky ReLU (NC, QU8)";
	case xnn_operator_type_max_pooling_nhwc_f32:
	return "Max Pooling (NHWC, F32)";
	case xnn_operator_type_max_pooling_nhwc_s8:
	return "Max Pooling (NHWC, S8)";
	case xnn_operator_type_max_pooling_nhwc_u8:
	return "Max Pooling (NHWC, U8)";
	case xnn_operator_type_maximum_nd_f32:
	return "Maximum (ND, F32)";
	case xnn_operator_type_minimum_nd_f32:
	return "Minimum (ND, F32)";
	case xnn_operator_type_multiply_nd_f16:
	return "Multiply (ND, F16)";
	case xnn_operator_type_multiply_nd_f32:
	return "Multiply (ND, F32)";
	case xnn_operator_type_multiply_nd_qs8:
	return "Multiply (ND, QS8)";
	case xnn_operator_type_multiply_nd_qu8:
	return "Multiply (ND, QU8)";
	case xnn_operator_type_negate_nc_f32:
	return "Negate (NC, F32)";
	case xnn_operator_type_prelu_nc_f32:
	return "PReLU (NC, F32)";
	case xnn_operator_type_resize_bilinear_nhwc_f32:
	return "Resize Bilinear (NHWC, F32)";
	case xnn_operator_type_resize_bilinear_nhwc_s8:
	return "Resize Bilinear (NHWC, S8)";
	case xnn_operator_type_resize_bilinear_nhwc_u8:
	return "Resize Bilinear (NHWC, U8)";
	case xnn_operator_type_resize_bilinear_nchw_f32:
	return "Resize Bilinear (NCHW, F32)";
	case xnn_operator_type_sigmoid_nc_f32:
	return "Sigmoid (NC, F32)";
	case xnn_operator_type_sigmoid_nc_qs8:
	return "Sigmoid (NC, QS8)";
	case xnn_operator_type_sigmoid_nc_qu8:
	return "Sigmoid (NC, QU8)";
	case xnn_operator_type_softmax_nc_f32:
	return "Softmax (NC, F32)";
	case xnn_operator_type_softmax_nc_qu8:
	return "Softmax (NC, QU8)";
	case xnn_operator_type_square_nc_f32:
	return "Square (NC, F32)";
	case xnn_operator_type_square_root_nc_f32:
	return "Square Root (NC, F32)";
	case xnn_operator_type_squared_difference_nd_f32:
	return "Squared Difference (NC, F32)";
	case xnn_operator_type_subtract_nd_f32:
	return "Subtract (ND, F32)";
	case xnn_operator_type_subtract_nd_qs8:
	return "Subtract (ND, QS8)";
	case xnn_operator_type_subtract_nd_qu8:
	return "Subtract (ND, QU8)";
	case xnn_operator_type_tanh_nc_qs8:
	return "Tanh (NC, QS8)";
	case xnn_operator_type_tanh_nc_qu8:
	return "Tanh (NC, QU8)";
	case xnn_operator_type_truncation_nc_f32:
	return "Truncation (NC, F32)";
	case xnn_operator_type_unpooling_nhwc_x32:
	return "Unpooling (NHWC, X32)";
	}
	XNN_UNREACHABLE;
	return NULL;
	}
	#endif // XNN_LOG_LEVEL > 0