// Copyright (c) 2019 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 #include #include #include #include #include #include #include #include #include "paddle/fluid/lite/api/cxx_api.h" #include "paddle/fluid/lite/core/compatible_tensor.h" #include "paddle/fluid/lite/utils/string.h" DEFINE_string(model_dir, "", "Model dir path"); DEFINE_string(input_file, "", "Input datas file path"); DEFINE_string(topo_output_file, "", "Runtime topology order output file path"); DEFINE_bool(output_topo, true, "Dump runtime topology or not"); DEFINE_string(tensor_output_file, "", "Tensor output file path"); DEFINE_bool(output_vars, true, "Dump vars or not"); DEFINE_bool(output_weights, true, "Dump weight tensors or not"); DEFINE_string( tensor_names, "", "If tensor_names is not empty, then only this tensors will be dump"); DEFINE_int32(tensor_output_length, -1, "Output tensor data length, dims size will be used if " "output_tensor_length < 0"); DEFINE_int32(arm_thread_num, 1, "Arm thread nums, 1 as default"); DEFINE_string(separator, ",", "Deafult separator, use in string split"); namespace paddle { namespace lite { namespace tools { namespace debug { struct DebugConfig { // arguments std::string model_dir; std::string topo_output_file; std::string tensor_output_file; std::string input_file; std::vector tensor_names; bool output_weights; bool output_topo; bool output_vars; int tensor_output_length; int arm_thread_num; std::unordered_map var_descs; std::vector> input_values; }; template std::vector Split2Vector(const std::string& input, const std::string& separator) { std::vector tgt; std::vector inputs = Split(input, separator); tgt.resize(inputs.size()); std::stringstream ss; for (int i = 0; i < inputs.size(); ++i) { ss << inputs[i] << " "; } for (int i = 0; i < inputs.size(); ++i) { ss >> tgt[i]; } return tgt; } void CollectFeedVarsInfo(std::unordered_map* feed_vars_info, const framework::proto::ProgramDesc& desc) { CHECK(feed_vars_info); for (const auto& proto_op_desc : desc.blocks(0).ops()) { lite::OpDesc op_desc(proto_op_desc); auto op_type = op_desc.Type(); if (op_type == "feed") { (*feed_vars_info) .emplace(op_desc.GetAttr("col"), op_desc.Output("Out").front()); } } } template void FillTensorData(lite::Tensor* tensor, const DebugConfig& conf, int col) { CHECK(tensor); auto dim_size = tensor->dims().production(); auto* data = tensor->mutable_data(); if (conf.input_values.size() > 0) { CHECK(col < conf.input_values[0].size()) << "Input data fields out of index. field_len: " << conf.input_values[0].size() << " col: " << col; std::vector input_data( std::move(Split2Vector(conf.input_values[0][col], " "))); CHECK(input_data.size() == dim_size) << "Input data field[" << col << "] mismatch TensorDim: " << input_data.size() << " vs " << dim_size; for (int i = 0; i < dim_size; i++) { data[i] = input_data[i]; } } else { LOG(INFO) << "------------> Use all-ones input"; for (int i = 0; i < dim_size; i++) { data[i] = 1; } } } void CheckDim(std::vector* dim) { CHECK(dim); for (int i = 0; i < dim->size(); ++i) { if ((*dim)[i] < 0) (*dim)[i] = -(*dim)[i]; } } void PrepareModelInputTensor(const DebugConfig& conf, lite::Scope* scope, const framework::proto::ProgramDesc& desc) { CHECK(scope); std::unordered_map feed_vars_info; CollectFeedVarsInfo(&feed_vars_info, desc); auto* feed_var = scope->FindVar("feed")->GetMutable>(); feed_var->resize(feed_vars_info.size()); for (auto& item : feed_vars_info) { auto& var_desc = conf.var_descs.at(item.second); auto val_type = var_desc.GetDataType(); auto dim = var_desc.GetShape(); CheckDim(&dim); auto* input_tensor = &feed_var->at(item.first); input_tensor->Resize(DDim(dim)); switch (val_type) { #define FILL_TENSOR_BY_TYPE_ONCE(pb_type__, type__) \ case framework::proto::VarType::pb_type__: \ FillTensorData(input_tensor, conf, item.first); \ break FILL_TENSOR_BY_TYPE_ONCE(UINT8, uint8_t); FILL_TENSOR_BY_TYPE_ONCE(INT8, int8_t); FILL_TENSOR_BY_TYPE_ONCE(INT16, int16_t); FILL_TENSOR_BY_TYPE_ONCE(INT32, int32_t); FILL_TENSOR_BY_TYPE_ONCE(INT64, int64_t); FILL_TENSOR_BY_TYPE_ONCE(FP32, float); FILL_TENSOR_BY_TYPE_ONCE(FP64, double); default: LOG(FATAL) << "Unsupported data type: " << static_cast(val_type); #undef FILL_TENSOR_BY_TYPE_ONCE } } } void ParseInputFile(DebugConfig* conf) { CHECK(conf); if (conf->input_file.empty()) return; auto& inputs = conf->input_values; std::ifstream fd(conf->input_file); CHECK(fd.is_open()) << "Open input file: " << conf->input_file << " failed!"; std::string line; while (std::getline(fd, line)) { inputs.emplace_back(std::move(Split(line, FLAGS_separator))); } LOG(INFO) << "Load data:" << inputs.size() << " items"; } void ParseConfig(DebugConfig* conf) { CHECK(conf); #define CHECK_NON_EMPTY(name__) \ CHECK(!FLAGS_##name__.empty()) << "Option " << #name__ << " can't be empty." CHECK_NON_EMPTY(model_dir); if (FLAGS_output_topo) { CHECK_NON_EMPTY(topo_output_file); } if (FLAGS_output_vars || FLAGS_output_weights) { CHECK_NON_EMPTY(tensor_output_file); } #undef CHECK_NON_EMPTY conf->model_dir = FLAGS_model_dir; conf->topo_output_file = FLAGS_topo_output_file; conf->tensor_output_file = FLAGS_tensor_output_file; conf->input_file = FLAGS_input_file; conf->output_weights = FLAGS_output_weights; conf->output_vars = FLAGS_output_vars; conf->output_topo = FLAGS_output_topo; conf->tensor_output_length = FLAGS_tensor_output_length; conf->arm_thread_num = FLAGS_arm_thread_num; if (!FLAGS_tensor_names.empty()) { conf->tensor_names = Split(FLAGS_tensor_names, FLAGS_separator); } ParseInputFile(conf); } void CollectAndDumpTopoInfo(const std::vector& instructions, const DebugConfig& conf) { if (!conf.output_topo) return; LOG(INFO) << "----------------- dump topo file"; std::ofstream os(conf.topo_output_file); CHECK(os.is_open()); for (auto& inst : instructions) { auto* op_info = inst.op()->op_info(); CHECK(op_info); os << op_info->Type() << "\t"; os << "("; #define DUMP_TOPO_INFO_ONCE(name__) \ { \ auto argnames = op_info->name__##ArgumentNames(); \ for (int i = 0; i < argnames.size(); ++i) { \ os << argnames[i] << ":"; \ auto vars = op_info->name__(argnames[i]); \ for (int j = 0; j < vars.size(); ++j) { \ os << vars[j]; \ if (j != vars.size() - 1) os << "#"; \ } \ if (i != argnames.size() - 1) os << " "; \ } \ } DUMP_TOPO_INFO_ONCE(Input); os << ")\t("; DUMP_TOPO_INFO_ONCE(Output); os << ")\n"; #undef DUMP_TOPO_INFO_ONCE } os.close(); } void CollectVarDescs(std::unordered_map* var_descs, const framework::proto::ProgramDesc& desc) { CHECK(var_descs); CHECK(!desc.blocks().empty()); std::unordered_set weights; for (auto proto_var_desc : desc.blocks(0).vars()) { lite::VarDesc var_desc(proto_var_desc); (*var_descs).emplace(var_desc.Name(), std::move(var_desc)); } } std::unordered_set CollectUnusedVars( const std::vector& instructions) { std::unordered_set unused; std::unordered_set all_inputs; for (auto& inst : instructions) { for (const auto& name : inst.op()->op_info()->input_names()) { all_inputs.insert(name); } } for (auto& inst : instructions) { for (const auto& name : inst.op()->op_info()->output_names()) { if (all_inputs.count(name) == 0) unused.insert(name); } } return unused; } std::string GetTensorRepr(const lite::Tensor& tensor, int out_data_len) { std::stringstream ss; auto size = tensor.dims().production(); if (out_data_len >= 0) { size = std::min(size, static_cast(out_data_len)); } for (int i = 0; i < size; i++) { ss << tensor.template data()[i]; if (i != size - 1) ss << " "; } return ss.str(); } void CollectAndDumpTensorInfo(const std::vector& instructions, const framework::proto::ProgramDesc& desc, const DebugConfig& conf) { CHECK(instructions.size() > 0) << "No instruction found"; const auto* scope = const_cast(instructions[0].op())->scope(); std::ofstream os(conf.tensor_output_file); CHECK(os.is_open()); std::unordered_set dump_vars; #define DUMP_TENSOR_ONCE(name__) \ LOG(INFO) << "----------------- dump tensor: " << name__; \ auto& tensor = scope->FindVar(name__)->Get(); \ os << name__ << "\t" << tensor.dims() << "\t" \ << GetTensorRepr(tensor, conf.tensor_output_length) << "\n"; \ dump_vars.insert(name__) #define DUMP_OP_TENSOR_ONCE(name__, skip__) \ for (const auto& name : inst.op()->op_info()->name__##_names()) { \ bool is_weight = conf.var_descs.at(name).Persistable(); \ if (unused.count(name) != 0 || name == #skip__ || \ (!conf.output_weights && is_weight) || \ (!conf.output_vars && !is_weight) || dump_vars.count(name) != 0) \ continue; \ DUMP_TENSOR_ONCE(name); \ } if (conf.tensor_names.size() == 0) { std::unordered_set unused( std::move(CollectUnusedVars(instructions))); for (auto& inst : instructions) { DUMP_OP_TENSOR_ONCE(input, feed); DUMP_OP_TENSOR_ONCE(output, fetch); } } else { for (const auto& name : conf.tensor_names) { DUMP_TENSOR_ONCE(name); } } #undef DUMP_OP_TENSOR_ONCE #undef DUMP_TENSOR_ONCE os.close(); } } // namespace debug } // namespace tools } // namespace lite } // namespace paddle