// 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. /* * This file defines the class Argument, which is the input and output of the * analysis module. All the fields that needed either by Passes or PassManagers * are contained in Argument. * * TODO(Superjomn) Find some way better to contain the fields when it grow too * big. */ #pragma once #include #include #include #include #include #include #include #include "paddle/fluid/framework/ir/graph.h" #include "paddle/fluid/framework/program_desc.h" #include "paddle/fluid/framework/scope.h" #include "paddle/fluid/inference/api/paddle_analysis_config.h" #include "paddle/phi/common/data_type.h" namespace paddle { namespace inference { namespace analysis { using framework::ir::Graph; #ifdef PADDLE_WITH_MKLDNN using VarQuantScale = std::unordered_map>; #endif /* * The argument definition of both Pass and PassManagers. * * All the fields should be registered here for clearness. */ struct Argument { Argument() = default; explicit Argument(const std::string& model_dir) { SetModelDir(model_dir); } using unique_ptr_t = std::unique_ptr>; using fusion_statis_t = std::unordered_map; using input_shape_t = std::map>; bool Has(const std::string& key) const { return valid_fields_.count(key); } // If we set the model using config.SetModelBuffer, // the model and parameter will occupy additional CPU resources. // Use this interface to release these resources. void PartiallyRelease() { if (Has("model_program_path")) { if (Has("model_from_memory") && model_from_memory()) { model_program_path().clear(); model_program_path().shrink_to_fit(); model_params_path().clear(); model_params_path().shrink_to_fit(); } } } #define DECL_ARGUMENT_FIELD(field__, Field, type__) \ public: \ type__& field__() { \ PADDLE_ENFORCE_EQ( \ Has(#field__), \ true, \ platform::errors::PreconditionNotMet("There is no such field")); \ return field__##_; \ } \ void Set##Field(const type__& x) { \ field__##_ = x; \ valid_fields_.insert(#field__); \ } \ DECL_ARGUMENT_FIELD_VALID(field__); \ type__* field__##_ptr() { return &field__##_; } \ \ private: \ type__ field__##_; #define DECL_ARGUMENT_FIELD_VALID(field__) \ bool field__##_valid() { return Has(#field__); } #define DECL_ARGUMENT_UNIQUE_FIELD(field__, Field, type__) \ public: \ type__& field__() { \ PADDLE_ENFORCE_NOT_NULL( \ field__##_, \ platform::errors::PreconditionNotMet("filed should not be null.")); \ PADDLE_ENFORCE_EQ( \ Has(#field__), \ true, \ platform::errors::PreconditionNotMet("There is no such field")); \ return *static_cast(field__##_.get()); \ } \ void Set##Field(type__* x) { \ field__##_ = \ unique_ptr_t(x, [](void* x) { delete static_cast(x); }); \ valid_fields_.insert(#field__); \ } \ void Set##Field##NotOwned(type__* x) { \ valid_fields_.insert(#field__); \ field__##_ = unique_ptr_t(x, [](void* x) {}); \ } \ DECL_ARGUMENT_FIELD_VALID(field__); \ type__* field__##_ptr() { \ PADDLE_ENFORCE_EQ( \ Has(#field__), \ true, \ platform::errors::PreconditionNotMet("There is no such field")); \ return static_cast(field__##_.get()); \ } \ type__* Release##Field() { \ PADDLE_ENFORCE_EQ( \ Has(#field__), \ true, \ platform::errors::PreconditionNotMet("There is no such field")); \ valid_fields_.erase(#field__); \ return static_cast(field__##_.release()); \ } \ \ private: \ unique_ptr_t field__##_; DECL_ARGUMENT_FIELD(predictor_id, PredictorID, int); // Model path DECL_ARGUMENT_FIELD(model_dir, ModelDir, std::string); // Model specified with program and parameters files. DECL_ARGUMENT_FIELD(model_program_path, ModelProgramPath, std::string); DECL_ARGUMENT_FIELD(model_params_path, ModelParamsPath, std::string); DECL_ARGUMENT_FIELD(model_from_memory, ModelFromMemory, bool); DECL_ARGUMENT_FIELD(optim_cache_dir, OptimCacheDir, std::string); DECL_ARGUMENT_FIELD(enable_analysis_optim, EnableAnalysisOptim, bool); // The overall graph to work on. DECL_ARGUMENT_UNIQUE_FIELD(main_graph, MainGraph, framework::ir::Graph); // The overall Scope to work on. DECL_ARGUMENT_UNIQUE_FIELD(scope, Scope, framework::Scope); // The default program, loaded from disk. DECL_ARGUMENT_UNIQUE_FIELD(main_program, MainProgram, framework::ProgramDesc); // The ir passes to perform in analysis phase. DECL_ARGUMENT_FIELD(ir_analysis_passes, IrAnalysisPasses, std::vector); DECL_ARGUMENT_FIELD(analysis_passes, AnalysisPasses, std::vector); // whether to mute all logs in inference. DECL_ARGUMENT_FIELD(disable_logs, DisableLogs, bool); // Pass a set of op types to enable its mkldnn kernel DECL_ARGUMENT_FIELD(mkldnn_enabled_op_types, MKLDNNEnabledOpTypes, std::unordered_set); // The cache capacity of different input shapes for mkldnn. DECL_ARGUMENT_FIELD(mkldnn_cache_capacity, MkldnnCacheCapacity, int); #ifdef PADDLE_WITH_MKLDNN // Calibration file path of quantize model DECL_ARGUMENT_FIELD(calibration_file_path, CalibrationFilePath, std::string); // A set of op types to enable their quantized kernels DECL_ARGUMENT_FIELD(quantize_enabled_op_types, QuantizeEnabledOpTypes, std::unordered_set); // A set of op IDs to exclude from enabling their quantized kernels DECL_ARGUMENT_FIELD(quantize_excluded_op_ids, QuantizeExcludedOpIds, std::unordered_set); // Scales for variables to be quantized DECL_ARGUMENT_FIELD(quant_var_scales, QuantVarScales, VarQuantScale); // A set of op types to enable their bfloat16 kernels DECL_ARGUMENT_FIELD(bfloat16_enabled_op_types, Bfloat16EnabledOpTypes, std::unordered_set); DECL_ARGUMENT_FIELD(use_mkldnn_int8, UseMkldnnInt8, bool); #endif // Passed from config. DECL_ARGUMENT_FIELD(use_gpu, UseGPU, bool); DECL_ARGUMENT_FIELD(use_fc_padding, UseFcPadding, bool); DECL_ARGUMENT_FIELD(gpu_device_id, GPUDeviceId, int); // Usually use for trt dynamic shape. // TRT will select the best kernel according to opt shape // Setting the disable_trt_plugin_fp16 to true means that TRT plugin will not // run fp16. DECL_ARGUMENT_FIELD(min_input_shape, MinInputShape, input_shape_t); DECL_ARGUMENT_FIELD(max_input_shape, MaxInputShape, input_shape_t); DECL_ARGUMENT_FIELD(optim_input_shape, OptimInputShape, input_shape_t); DECL_ARGUMENT_FIELD(disable_trt_plugin_fp16, CloseTrtPluginFp16, bool); DECL_ARGUMENT_FIELD(use_tensorrt, UseTensorRT, bool); DECL_ARGUMENT_FIELD(tensorrt_use_dla, TensorRtUseDLA, bool); DECL_ARGUMENT_FIELD(tensorrt_dla_core, TensorRtDLACore, int); DECL_ARGUMENT_FIELD(tensorrt_max_batch_size, TensorRtMaxBatchSize, int); DECL_ARGUMENT_FIELD(tensorrt_workspace_size, TensorRtWorkspaceSize, int64_t); DECL_ARGUMENT_FIELD(tensorrt_min_subgraph_size, TensorRtMinSubgraphSize, int); DECL_ARGUMENT_FIELD(tensorrt_disabled_ops, TensorRtDisabledOPs, std::vector); DECL_ARGUMENT_FIELD(tensorrt_precision_mode, TensorRtPrecisionMode, AnalysisConfig::Precision); DECL_ARGUMENT_FIELD(tensorrt_use_static_engine, TensorRtUseStaticEngine, bool); DECL_ARGUMENT_FIELD(tensorrt_use_calib_mode, TensorRtUseCalibMode, bool); DECL_ARGUMENT_FIELD(tensorrt_use_varseqlen, TensorRtUseOSS, bool); DECL_ARGUMENT_FIELD(tensorrt_with_interleaved, TensorRtWithInterleaved, bool); DECL_ARGUMENT_FIELD(tensorrt_transformer_posid, TensorRtTransformerPosid, std::string); DECL_ARGUMENT_FIELD(tensorrt_transformer_maskid, TensorRtTransformerMaskid, std::string); DECL_ARGUMENT_FIELD(tensorrt_shape_range_info_path, TensorRtShapeRangeInfoPath, std::string); DECL_ARGUMENT_FIELD(tensorrt_tuned_dynamic_shape, TensorRtTunedDynamicShape, bool); DECL_ARGUMENT_FIELD(tensorrt_allow_build_at_runtime, TensorRtAllowBuildAtRuntime, bool); DECL_ARGUMENT_FIELD(tensorrt_use_inspector, TensorRtUseInspector, bool); DECL_ARGUMENT_FIELD(use_dlnne, UseDlnne, bool); DECL_ARGUMENT_FIELD(dlnne_min_subgraph_size, DlnneMinSubgraphSize, int); DECL_ARGUMENT_FIELD(dlnne_max_batch_size, DlnneMaxBatchSize, int); DECL_ARGUMENT_FIELD(dlnne_use_static_batch, DlnneUseStaticBatch, bool); DECL_ARGUMENT_FIELD(dlnne_weight_share_mode, DlnneWeightShareMode, std::string); DECL_ARGUMENT_FIELD(dlnne_disable_nodes_by_outputs, DlnneDisableNodesByOutputs, std::unordered_set); DECL_ARGUMENT_FIELD(dlnne_use_calib_mode, DlnneUseCalibMode, bool); DECL_ARGUMENT_FIELD(dlnne_precision_mode, DlnnePrecisionMode, AnalysisConfig::Precision); using dlnne_input_shape_type = std::map>; DECL_ARGUMENT_FIELD(dlnne_input_shape_dict, DlnneInputShapeDict, dlnne_input_shape_type); DECL_ARGUMENT_FIELD(dlnne_workspace_size, DlnneWorkspaceSize, int); DECL_ARGUMENT_FIELD(lite_passes_filter, LitePassesFilter, std::vector); DECL_ARGUMENT_FIELD(lite_ops_filter, LiteOpsFilter, std::vector); DECL_ARGUMENT_FIELD(lite_precision_mode, LitePrecisionMode, AnalysisConfig::Precision); DECL_ARGUMENT_FIELD(lite_zero_copy, LiteZeroCopy, bool); DECL_ARGUMENT_FIELD(use_xpu, UseXpu, bool); DECL_ARGUMENT_FIELD(xpu_l3_workspace_size, XpuL3WorkspaceSize, int); DECL_ARGUMENT_FIELD(xpu_locked, XpuLocked, bool); DECL_ARGUMENT_FIELD(xpu_autotune, XpuAutotune, bool); DECL_ARGUMENT_FIELD(xpu_autotune_file, XpuAutotuneFile, std::string); DECL_ARGUMENT_FIELD(xpu_precision, XpuPrecision, std::string); DECL_ARGUMENT_FIELD(xpu_adaptive_seqlen, XpuAdaptiveSeqlen, bool); DECL_ARGUMENT_FIELD(xpu_device_id, XpuDeviceId, int); DECL_ARGUMENT_FIELD(use_nnadapter, UseNNAdapter, bool); DECL_ARGUMENT_FIELD(nnadapter_model_cache_dir, NNAdapterModelCacheDir, std::string); DECL_ARGUMENT_FIELD(nnadapter_device_names, NNAdapterDeviceNames, std::vector); DECL_ARGUMENT_FIELD(nnadapter_context_properties, NNAdapterContextProperties, std::string); DECL_ARGUMENT_FIELD(nnadapter_subgraph_partition_config_buffer, NNAdapterSubgraphPartitionConfigBuffer, std::string); DECL_ARGUMENT_FIELD(nnadapter_subgraph_partition_config_path, NNAdapterSubgraphPartitionConfigPath, std::string); DECL_ARGUMENT_FIELD(nnadapter_model_cache_token, NNAdapterModelCacheToken, std::vector); DECL_ARGUMENT_FIELD(nnadapter_model_cache_buffer, NNAdapterModelCacheBuffer, std::vector>); // Memory optimized related. DECL_ARGUMENT_FIELD(enable_memory_optim, EnableMemoryOptim, bool); DECL_ARGUMENT_FIELD(trt_engine_memory_sharing, TrtEngineMemorySharing, bool); // Indicate which kind of sort algorithm is used for operators, the memory // optimization relays on the sort algorithm. DECL_ARGUMENT_FIELD(memory_optim_sort_kind, MemoryOptimSortKind, int); // The program transformed by IR analysis phase. DECL_ARGUMENT_UNIQUE_FIELD(ir_analyzed_program, IrAnalyzedProgram, framework::proto::ProgramDesc); DECL_ARGUMENT_FIELD(fusion_statis, FusionStatis, fusion_statis_t); // Only used in paddle-lite subgraph. DECL_ARGUMENT_FIELD(cpu_math_library_num_threads, CpuMathLibraryNumThreads, int); // ipu related DECL_ARGUMENT_FIELD(use_ipu, UseIpu, bool); DECL_ARGUMENT_FIELD(ipu_device_num, IpuDeviceNum, int); DECL_ARGUMENT_FIELD(ipu_micro_batch_size, IpuMicroBatchSize, int); DECL_ARGUMENT_FIELD(ipu_enable_pipelining, IpuEnablePipelining, bool); DECL_ARGUMENT_FIELD(ipu_batches_per_step, IpuBatchesPerStep, int); DECL_ARGUMENT_FIELD(ipu_enable_fp16, IpuEnableFp16, bool); DECL_ARGUMENT_FIELD(ipu_replica_num, IpuReplicaNum, int); DECL_ARGUMENT_FIELD(ipu_available_memory_proportion, IpuAvailableMemoryProportion, float); DECL_ARGUMENT_FIELD(ipu_enable_half_partial, IpuEnableHalfPartial, bool); // npu related DECL_ARGUMENT_FIELD(use_npu, UseNpu, bool); DECL_ARGUMENT_FIELD(npu_device_id, NPUDeviceId, int); // mixed precision related DECL_ARGUMENT_FIELD(model_precision, ModelPrecision, int); DECL_ARGUMENT_FIELD(mixed_black_list, MixedBlackList, std::unordered_set); private: std::unordered_set valid_fields_; }; #define ARGUMENT_CHECK_FIELD(argument__, fieldname__) \ PADDLE_ENFORCE_EQ( \ argument__->Has(#fieldname__), \ true, \ platform::errors::PreconditionNotMet( \ "the argument field [%s] should be set", #fieldname__)); } // namespace analysis } // namespace inference } // namespace paddle