/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ #pragma once #ifdef PADDLE_MOBILE_CPU #define LOAD_CPU_OP(op_type) \ extern int TouchOpRegistrar_##op_type##_##cpu(); \ static int use_op_itself_##op_type##_##cpu __attribute__((unused)) = \ TouchOpRegistrar_##op_type##_##cpu() #else #define LOAD_CPU_OP(op_type) #endif #ifdef PADDLE_MOBILE_CL #define LOAD_GPU_CL_OP(op_type) \ extern int TouchOpRegistrar_##op_type##_##cl(); \ static int use_op_itself_##op_type##_##cl __attribute__((unused)) = \ TouchOpRegistrar_##op_type##_##cl() #else #define LOAD_GPU_CL_OP(op_type) #endif #ifdef PADDLE_MOBILE_FPGA #define LOAD_FPGA_OP(op_type) \ extern int TouchOpRegistrar_##op_type##_##fpga(); \ static int use_op_itself_##op_type##_##fpga __attribute__((unused)) = \ TouchOpRegistrar_##op_type##_##fpga() #else #define LOAD_FPGA_OP(op_type) #endif #define LOAD_FUSION_MATCHER(op_type) \ extern int TouchFusionMatcherRegistrar_##op_type(); \ static int use_fusion_matcher_itself_##op_type __attribute__((unused)) = \ TouchFusionMatcherRegistrar_##op_type(); #define LOAD_OP(op_type) \ LOAD_CPU_OP(op_type); \ LOAD_GPU_CL_OP(op_type); \ LOAD_FPGA_OP(op_type); #define LOAD_OP1(op_type, device_type) LOAD_##device_type##_OP(op_type); #define LOAD_OP2(op_type, device_type1, device_type2) \ LOAD_OP1(op_type, device_type1) \ LOAD_OP1(op_type, device_type2) #define LOAD_OP3(op_type, device_type1, device_type2, device_type3) \ LOAD_OP2(op_type, device_type1, device_type2) \ LOAD_OP1(op_type, device_type3) // load requared ops LOAD_OP(feed) LOAD_OP(fetch) #ifdef FILL_CONSTANT_OP LOAD_OP2(fill_constant, CPU, FPGA) #endif #ifdef BATCHNORM_OP LOAD_OP2(batch_norm, CPU, GPU_CL); #endif #ifdef BILINEAR_INTERP_OP LOAD_OP1(bilinear_interp, CPU); #endif #ifdef NEAREST_INTERP_OP LOAD_OP1(nearest_interp, CPU); #endif #ifdef LEAKY_RELU_OP LOAD_OP1(leaky_relu, CPU); #endif #ifdef BOXCODER_OP LOAD_OP2(box_coder, CPU, GPU_CL); #endif #ifdef CONCAT_OP LOAD_OP3(concat, CPU, GPU_CL, FPGA); #endif #ifdef CONV_OP LOAD_OP3(conv2d, CPU, GPU_CL, FPGA); #endif #ifdef LRN_OP LOAD_OP2(lrn, CPU, GPU_CL); #endif #ifdef SIGMOID_OP LOAD_OP1(sigmoid, CPU); #endif #ifdef FUSION_FC_RELU_OP LOAD_OP2(fusion_fc_relu, CPU, FPGA); LOAD_FUSION_MATCHER(fusion_fc_relu); #endif #ifdef FUSION_ELEMENTWISEADDRELU_OP LOAD_OP2(fusion_elementwise_add_relu, CPU, FPGA); LOAD_FUSION_MATCHER(fusion_elementwise_add_relu); #endif #ifdef SPLIT_OP LOAD_OP1(split, CPU); #endif #ifdef RESIZE_OP LOAD_OP1(resize, CPU); #endif #ifdef FUSION_CONVADDBNRELU_OP LOAD_OP3(fusion_conv_add_bn_relu, CPU, GPU_CL, FPGA); LOAD_FUSION_MATCHER(fusion_conv_add_bn_relu); #endif #ifdef RESHAPE_OP LOAD_OP2(reshape, CPU, GPU_CL); #endif #ifdef RESHAPE2_OP LOAD_OP1(reshape2, CPU); #endif #ifdef TRANSPOSE_OP LOAD_OP2(transpose, CPU, GPU_CL); #endif #ifdef TRANSPOSE2_OP LOAD_OP1(transpose2, CPU); #endif #ifdef PRIORBOX_OP LOAD_OP2(prior_box, CPU, GPU_CL); #endif #ifdef FUSION_CONVADDRELU_OP LOAD_OP3(fusion_conv_add_relu, CPU, GPU_CL, FPGA); LOAD_FUSION_MATCHER(fusion_conv_add_relu); #endif #ifdef FUSION_CONVADD_OP LOAD_OP2(fusion_conv_add, CPU, GPU_CL); LOAD_FUSION_MATCHER(fusion_conv_add); #endif #ifdef SOFTMAX_OP LOAD_OP2(softmax, CPU, GPU_CL); #endif #ifdef SHAPE_OP LOAD_OP1(shape, CPU); #endif #ifdef DEPTHWISECONV_OP LOAD_OP1(depthwise_conv2d, CPU); #endif #ifdef CONV_TRANSPOSE_OP LOAD_OP1(conv2d_transpose, CPU); #endif #ifdef SCALE_OP LOAD_OP2(scale, CPU, GPU_CL); #endif #ifdef ELEMENTWISEADD_OP LOAD_OP2(elementwise_add, CPU, GPU_CL); #endif #ifdef PRELU_OP LOAD_OP1(prelu, CPU); #endif #ifdef FLATTEN_OP LOAD_OP1(flatten, CPU); LOAD_OP1(flatten2, CPU); #endif #ifdef FUSION_CONVBNADDRELU_OP LOAD_OP3(fusion_conv_bn_add_relu, CPU, GPU_CL, FPGA); LOAD_FUSION_MATCHER(fusion_conv_bn_add_relu); #endif #ifdef FUSION_CONVBNRELU_OP LOAD_OP3(fusion_conv_bn_relu, CPU, GPU_CL, FPGA); LOAD_FUSION_MATCHER(fusion_conv_bn_relu); #endif #ifdef FUSION_CONVRELU_OP LOAD_OP2(fusion_conv_relu, CPU, GPU_CL); LOAD_FUSION_MATCHER(fusion_conv_relu); #endif #ifdef GRU_OP LOAD_OP1(gru, CPU); #endif #ifdef GRU_UNIT_OP LOAD_OP1(gru_unit, CPU); #endif #ifdef FUSION_CONVADDBN_OP LOAD_OP2(fusion_conv_add_bn, CPU, FPGA); LOAD_FUSION_MATCHER(fusion_conv_add_bn); #endif #ifdef DROPOUT_OP LOAD_OP3(dropout, CPU, GPU_CL, FPGA); #endif #ifdef FUSION_DWCONVBNRELU_OP LOAD_OP2(fusion_dwconv_bn_relu, CPU, GPU_CL); LOAD_FUSION_MATCHER(fusion_dwconv_bn_relu); #endif #ifdef CRF_OP LOAD_OP1(crf_decoding, CPU); #endif #ifdef MUL_OP LOAD_OP2(mul, CPU, GPU_CL); #endif #ifdef NORM_OP LOAD_OP1(norm, CPU); #endif #ifdef RELU_OP LOAD_OP2(relu, CPU, GPU_CL); LOAD_OP1(relu6, CPU); #endif #ifdef IM2SEQUENCE_OP LOAD_OP1(im2sequence, CPU); #endif #ifdef LOOKUP_OP LOAD_OP1(lookup_table, CPU); #endif #ifdef FUSION_FC_OP LOAD_OP3(fusion_fc, CPU, GPU_CL, FPGA); LOAD_FUSION_MATCHER(fusion_fc); #endif #ifdef POOL_OP LOAD_OP3(pool2d, CPU, GPU_CL, FPGA); #endif #ifdef MULTICLASSNMS_OP LOAD_OP2(multiclass_nms, CPU, GPU_CL); #endif #ifdef POLYGONBOXTRANSFORM_OP LOAD_OP1(polygon_box_transform, CPU); #endif #ifdef SUM_OP LOAD_OP1(sum, CPU); #endif #ifdef ELEMENTWISEMUL_OP LOAD_OP1(elementwise_mul, CPU); #endif #ifdef SLICE_OP LOAD_OP1(slice, CPU); #endif #ifdef FUSION_CONVBN_OP LOAD_OP2(fusion_conv_bn, CPU, FPGA); LOAD_FUSION_MATCHER(fusion_conv_bn); #endif #ifdef ELEMENTWISESUB_OP LOAD_OP1(elementwise_sub, CPU) #endif #ifdef TOP_K_OP LOAD_OP1(top_k, CPU) #endif #ifdef CAST_OP LOAD_OP1(cast, CPU) #endif #ifdef QUANT_OP LOAD_OP1(quantize, CPU); #endif #ifdef DEQUANT_OP LOAD_OP1(dequantize, CPU); #endif #ifdef FUSION_DEQUANT_BN_OP LOAD_OP1(fusion_dequant_bn, CPU); LOAD_FUSION_MATCHER(fusion_dequant_bn); #endif #ifdef FUSION_DEQUANT_ADD_BN_OP LOAD_OP1(fusion_dequant_add_bn, CPU); LOAD_FUSION_MATCHER(fusion_dequant_add_bn); #endif #ifdef FUSION_DEQUANT_BN_RELU_OP LOAD_OP1(fusion_dequant_bn_relu, CPU); LOAD_FUSION_MATCHER(fusion_dequant_bn_relu); #endif #ifdef FUSION_DEQUANT_ADD_BN_RELU_OP LOAD_OP1(fusion_dequant_add_bn_relu, CPU); LOAD_FUSION_MATCHER(fusion_dequant_add_bn_relu); #endif #ifdef FUSION_DEQUANT_ADD_BN_QUANT_OP LOAD_OP1(fusion_dequant_add_bn_quant, CPU); LOAD_FUSION_MATCHER(fusion_dequant_add_bn_quant); #endif #ifdef FUSION_DEQUANT_ADD_BN_RELU_QUANT_OP LOAD_OP1(fusion_dequant_add_bn_relu_quant, CPU); LOAD_FUSION_MATCHER(fusion_dequant_add_bn_relu_quant); #endif #ifdef SEQUENCE_EXPAND_OP LOAD_OP1(sequence_expand, CPU); #endif #ifdef SEQUENCE_POOL_OP LOAD_OP1(sequence_pool, CPU); #endif #ifdef SEQUENCE_SOFTMAX_OP LOAD_OP1(sequence_softmax, CPU); #endif #ifdef LOG_OP LOAD_OP1(log, CPU); #endif #ifdef LOD_RESET_OP LOAD_OP1(lod_reset, CPU); #endif #ifdef LESS_THAN_OP LOAD_OP1(less_than, CPU); #endif #ifdef LOGICAL_AND_OP LOAD_OP1(logical_and, CPU); #endif #ifdef LOGICAL_OR_OP LOAD_OP1(logical_or, CPU); #endif #ifdef LOGICAL_NOT_OP LOAD_OP1(logical_not, CPU); #endif #ifdef LOGICAL_XOR_OP LOAD_OP1(logical_xor, CPU); #endif #ifdef WHILE_OP LOAD_OP1(while, CPU); #endif #ifdef WRITE_TO_ARRAY_OP LOAD_OP1(write_to_array, CPU); #endif #ifdef READ_FROM_ARRAY_OP LOAD_OP1(read_from_array, CPU); #endif #ifdef IS_EMPTY_OP LOAD_OP1(is_empty, CPU); #endif #ifdef INCREMENT_OP LOAD_OP1(increment, CPU); #endif #ifdef ANCHOR_GENERATOR_OP LOAD_OP1(anchor_generator, CPU); #endif #ifdef PROPOSAL_OP LOAD_OP1(generate_proposals, CPU); #endif #ifdef PSROI_POOL_OP LOAD_OP1(psroi_pool, CPU); #endif #ifdef ROI_PERSPECTIVE_OP LOAD_OP1(roi_perspective_transform, CPU); #endif #ifdef BEAM_SEARCH_OP LOAD_OP1(beam_search, CPU); #endif #ifdef BEAM_SEARCH_DECODE_OP LOAD_OP1(beam_search_decode, CPU); #endif #ifdef PAD2D_OP LOAD_OP1(pad2d, CPU); #endif #ifdef ONE_HOT_OP LOAD_OP1(one_hot, CPU); #endif #ifdef ASSIGN_VALUE_OP LOAD_OP1(assign_value, CPU); #endif