// Copyright (c) 2020 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. #include "core/general-server/op/general_response_op.h" #include #include #include #include #include #include #include "core/general-server/op/general_infer_helper.h" #include "core/predictor/framework/infer.h" #include "core/predictor/framework/memory.h" #include "core/predictor/framework/resource.h" #include "core/util/include/timer.h" namespace baidu { namespace paddle_serving { namespace serving { using baidu::paddle_serving::Timer; using baidu::paddle_serving::predictor::MempoolWrapper; using baidu::paddle_serving::predictor::general_model::Tensor; using baidu::paddle_serving::predictor::general_model::Response; using baidu::paddle_serving::predictor::general_model::Request; using baidu::paddle_serving::predictor::general_model::FetchInst; using baidu::paddle_serving::predictor::general_model::ModelOutput; using baidu::paddle_serving::predictor::InferManager; using baidu::paddle_serving::predictor::PaddleGeneralModelConfig; int GeneralResponseOp::inference() { const std::vector pre_node_names = pre_names(); VLOG(2) << "pre node names size: " << pre_node_names.size(); const Request *req = dynamic_cast(get_request_message()); // response inst with only fetch_var_names Response *res = mutable_data(); Timer timeline; // double response_time = 0.0; // timeline.Start(); int64_t start = timeline.TimeStampUS(); VLOG(2) << "start to call load general model_conf op"; baidu::paddle_serving::predictor::Resource &resource = baidu::paddle_serving::predictor::Resource::instance(); VLOG(2) << "get resource pointer done."; std::shared_ptr model_config = resource.get_general_model_config(); VLOG(2) << "max body size : " << brpc::fLU64::FLAGS_max_body_size; std::vector fetch_index; fetch_index.resize(req->fetch_var_names_size()); for (int i = 0; i < req->fetch_var_names_size(); ++i) { fetch_index[i] = model_config->_fetch_alias_name_to_index[req->fetch_var_names(i)]; } const GeneralBlob *input_blob; for (uint32_t pi = 0; pi < pre_node_names.size(); ++pi) { const std::string &pre_name = pre_node_names[pi]; VLOG(2) << "pre names[" << pi << "]: " << pre_name << " (" << pre_node_names.size() << ")"; input_blob = get_depend_argument(pre_name); // fprintf(stderr, "input(%s) blob address %x\n", pre_names.c_str(), // input_blob); if (!input_blob) { LOG(ERROR) << "Failed mutable depended argument, op: " << pre_name; return -1; } const TensorVector *in = &input_blob->tensor_vector; ModelOutput *output = res->add_outputs(); // To get the order of model return values output->set_engine_name(pre_name); FetchInst *fetch_inst = output->add_insts(); for (auto &idx : fetch_index) { Tensor *tensor = fetch_inst->add_tensor_array(); tensor->set_elem_type(1); if (model_config->_is_lod_fetch[idx]) { VLOG(2) << "out[" << idx << "] " << model_config->_fetch_name[idx] << " is lod_tensor"; for (int k = 0; k < in->at(idx).shape.size(); ++k) { VLOG(2) << "shape[" << k << "]: " << in->at(idx).shape[k]; tensor->add_shape(in->at(idx).shape[k]); } } else { VLOG(2) << "out[" << idx << "] " << model_config->_fetch_name[idx] << " is tensor"; for (int k = 0; k < in->at(idx).shape.size(); ++k) { VLOG(2) << "shape[" << k << "]: " << in->at(idx).shape[k]; tensor->add_shape(in->at(idx).shape[k]); } } } int var_idx = 0; for (auto &idx : fetch_index) { int cap = 1; for (int j = 0; j < in->at(idx).shape.size(); ++j) { cap *= in->at(idx).shape[j]; } if (in->at(idx).dtype == paddle::PaddleDType::INT64) { VLOG(2) << "Prepare float var [" << model_config->_fetch_name[idx] << "]."; int64_t *data_ptr = static_cast(in->at(idx).data.data()); if (model_config->_is_lod_fetch[idx]) { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < in->at(idx).lod[0].size(); ++j) { fetch_p->mutable_tensor_array(var_idx)->add_lod( in->at(idx).lod[0][j]); } for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_int64_data(data_ptr[j]); } } else { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_int64_data(data_ptr[j]); } } VLOG(2) << "fetch var [" << model_config->_fetch_name[idx] << "] ready"; var_idx++; } else if (in->at(idx).dtype == paddle::PaddleDType::FLOAT32) { VLOG(2) << "Prepare float var [" << model_config->_fetch_name[idx] << "]."; float *data_ptr = static_cast(in->at(idx).data.data()); if (model_config->_is_lod_fetch[idx]) { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < in->at(idx).lod[0].size(); ++j) { fetch_p->mutable_tensor_array(var_idx)->add_lod( in->at(idx).lod[0][j]); } for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_float_data(data_ptr[j]); } } else { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_float_data(data_ptr[j]); } } VLOG(2) << "fetch var [" << model_config->_fetch_name[idx] << "] ready"; var_idx++; } else if (in->at(idx).dtype == paddle::PaddleDType::INT32) { VLOG(2) << "Prepare float var [" << model_config->_fetch_name[idx] << "]."; int32_t *data_ptr = static_cast(in->at(idx).data.data()); if (model_config->_is_lod_fetch[idx]) { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < in->at(idx).lod[0].size(); ++j) { fetch_p->mutable_tensor_array(var_idx)->add_lod( in->at(idx).lod[0][j]); } for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_int_data(data_ptr[j]); } } else { FetchInst *fetch_p = output->mutable_insts(0); for (int j = 0; j < cap; ++j) { fetch_p->mutable_tensor_array(var_idx)->add_int_data(data_ptr[j]); } } VLOG(2) << "fetch var [" << model_config->_fetch_name[idx] << "] ready"; var_idx++; } } } if (req->profile_server()) { int64_t end = timeline.TimeStampUS(); // TODO(barriery): multi-model profile_time. // At present, only the response_op is multi-input, so here we get // the profile_time by hard coding. It needs to be replaced with // a more elegant way. for (uint32_t pi = 0; pi < pre_node_names.size(); ++pi) { input_blob = get_depend_argument(pre_node_names[pi]); VLOG(2) << "p size for input blob: " << input_blob->p_size; int profile_time_idx = -1; if (pi == 0) { profile_time_idx = 0; } else { profile_time_idx = input_blob->p_size - 2; } for (; profile_time_idx < input_blob->p_size; ++profile_time_idx) { res->add_profile_time(input_blob->time_stamp[profile_time_idx]); } } // TODO(guru4elephant): find more elegant way to do this res->add_profile_time(start); res->add_profile_time(end); } return 0; } DEFINE_OP(GeneralResponseOp); } // namespace serving } // namespace paddle_serving } // namespace baidu