// Copyright (c) 2021 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. /// /// \file pd_config.h /// /// \brief interface for paddle config /// /// \author paddle-infer@baidu.com /// \date 2021-04-21 /// \since 2.1 /// #pragma once #include "pd_common.h" // NOLINT #include "pd_types.h" // NOLINT typedef struct PD_Config PD_Config; #ifdef __cplusplus extern "C" { #endif /// /// \brief Create a paddle config /// /// \return new config. /// PADDLE_CAPI_EXPORT extern __pd_give PD_Config* PD_ConfigCreate(); /// /// \brief Destroy the paddle config /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigDestroy(__pd_take PD_Config* pd_config); /// /// \brief Set the combined model with two specific pathes for program and /// parameters. /// /// \param[in] pd_onfig config /// \param[in] prog_file_path model file path of the combined model. /// \param[in] params_file_path params file path of the combined model. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetModel(__pd_keep PD_Config* pd_config, const char* prog_file_path, const char* params_file_path); /// /// \brief Set the model file path of a combined model. /// /// \param[in] pd_onfig config /// \param[in] prog_file_path model file path. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetProgFile( __pd_keep PD_Config* pd_config, const char* prog_file_path); /// /// \brief Set the params file path of a combined model. /// /// \param[in] pd_onfig config /// \param[in] params_file_path params file path. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetParamsFile( __pd_keep PD_Config* pd_config, const char* params_file_path); /// /// \brief Set the path of optimization cache directory. /// \param[in] pd_onfig config /// \param[in] opt_cache_dir the path of optimization cache directory. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetOptimCacheDir( __pd_keep PD_Config* pd_config, const char* opt_cache_dir); /// /// \brief Set the no-combined model dir path. /// \param[in] pd_onfig config /// \param[in] model_dir model dir path. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetModelDir( __pd_keep PD_Config* pd_config, const char* model_dir); /// /// \brief Get the model directory path. /// /// \param[in] pd_onfig config /// \return The model directory path. /// PADDLE_CAPI_EXPORT extern const char* PD_ConfigGetModelDir( __pd_keep PD_Config* pd_config); /// /// \brief Get the program file path. /// /// \param[in] pd_onfig config /// \return The program file path. /// PADDLE_CAPI_EXPORT extern const char* PD_ConfigGetProgFile( __pd_keep PD_Config* pd_config); /// /// \brief Get the params file path. /// /// \param[in] pd_onfig config /// \return The params file path. /// PADDLE_CAPI_EXPORT extern const char* PD_ConfigGetParamsFile( __pd_keep PD_Config* pd_config); /// /// \brief Turn off FC Padding. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigDisableFCPadding( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether fc padding is used. /// /// \param[in] pd_onfig config /// \return Whether fc padding is used. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigUseFcPadding( __pd_keep PD_Config* pd_config); /// /// \brief Turn on GPU. /// /// \param[in] pd_onfig config /// \param[in] memory_pool_init_size_mb initial size of the GPU memory pool in /// MB. /// \param[in] device_id device_id the GPU card to use. /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableUseGpu( __pd_keep PD_Config* pd_config, uint64_t memory_pool_init_size_mb, int32_t device_id); /// /// \brief Turn off GPU. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigDisableGpu( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the GPU is turned on. /// /// \brief Turn off GPU. /// \return Whether the GPU is turned on. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigUseGpu( __pd_keep PD_Config* pd_config); /// /// \brief Turn on ONNXRuntime. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableONNXRuntime( __pd_keep PD_Config* pd_config); /// /// \brief Turn off ONNXRuntime. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigDisableONNXRuntime( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the ONNXRutnime is turned on. /// /// \return Whether the ONNXRuntime is turned on. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigONNXRuntimeEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Turn on ONNXRuntime Optimization. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableORTOptimization( __pd_keep PD_Config* pd_config); /// /// \brief Turn on XPU. /// /// \param[in] pd_onfig config /// \param l3_workspace_size The size of the video memory allocated by the l3 /// cache, the maximum is 16M. /// \param locked Whether the allocated L3 cache can be locked. If false, /// it means that the L3 cache is not locked, and the allocated L3 /// cache can be shared by multiple models, and multiple models /// sharing the L3 cache will be executed sequentially on the card. /// \param autotune Whether to autotune the conv operator in the model. If /// true, when the conv operator of a certain dimension is executed /// for the first time, it will automatically search for a better /// algorithm to improve the performance of subsequent conv operators /// of the same dimension. /// \param autotune_file Specify the path of the autotune file. If /// autotune_file is specified, the algorithm specified in the /// file will be used and autotune will not be performed again. /// \param precision Calculation accuracy of multi_encoder /// \param adaptive_seqlen Is the input of multi_encoder variable length /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableXpu( __pd_keep PD_Config* pd_config, int32_t l3_workspace_size, PD_Bool locked, PD_Bool autotune, const char* autotune_file, const char* precision, PD_Bool adaptive_seqlen); /// /// \brief Turn on NPU. /// /// \param[in] pd_onfig config /// \param[in] device_id device_id the NPU card to use. /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableNpu( __pd_keep PD_Config* pd_config, int32_t device_id); /// /// \brief A boolean state telling whether the XPU is turned on. /// /// \param[in] pd_onfig config /// \return Whether the XPU is turned on. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigUseXpu( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the NPU is turned on. /// /// \param[in] pd_onfig config /// \return Whether the NPU is turned on. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigUseNpu( __pd_keep PD_Config* pd_config); /// /// \brief Get the GPU device id. /// /// \param[in] pd_onfig config /// \return The GPU device id. /// PADDLE_CAPI_EXPORT extern int32_t PD_ConfigGpuDeviceId( __pd_keep PD_Config* pd_config); /// /// \brief Get the XPU device id. /// /// \param[in] pd_onfig config /// \return The XPU device id. /// PADDLE_CAPI_EXPORT extern int32_t PD_ConfigXpuDeviceId( __pd_keep PD_Config* pd_config); /// /// \brief Get the NPU device id. /// /// \param[in] pd_onfig config /// \return The NPU device id. /// PADDLE_CAPI_EXPORT extern int32_t PD_ConfigNpuDeviceId( __pd_keep PD_Config* pd_config); /// /// \brief Get the initial size in MB of the GPU memory pool. /// /// \param[in] pd_onfig config /// \return The initial size in MB of the GPU memory pool. /// PADDLE_CAPI_EXPORT extern int32_t PD_ConfigMemoryPoolInitSizeMb( __pd_keep PD_Config* pd_config); /// /// \brief Get the proportion of the initial memory pool size compared to the /// device. /// /// \param[in] pd_onfig config /// \return The proportion of the initial memory pool size. /// PADDLE_CAPI_EXPORT extern float PD_ConfigFractionOfGpuMemoryForPool( __pd_keep PD_Config* pd_config); /// /// \brief Turn on CUDNN. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableCudnn( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether to use CUDNN. /// /// \param[in] pd_onfig config /// \return Whether to use CUDNN. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigCudnnEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Control whether to perform IR graph optimization. /// If turned off, the AnalysisConfig will act just like a NativeConfig. /// /// \param[in] pd_onfig config /// \param[in] x Whether the ir graph optimization is actived. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSwitchIrOptim( __pd_keep PD_Config* pd_config, PD_Bool x); /// /// \brief A boolean state telling whether the ir graph optimization is /// actived. /// /// \param[in] pd_onfig config /// \return Whether to use ir graph optimization. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigIrOptim( __pd_keep PD_Config* pd_config); /// /// \brief Turn on the TensorRT engine. /// The TensorRT engine will accelerate some subgraphes in the original Fluid /// computation graph. In some models such as resnet50, GoogleNet and so on, /// it gains significant performance acceleration. /// /// \param[in] pd_onfig config /// \param[in] workspace_size The memory size(in byte) used for TensorRT /// workspace. /// \param[in] max_batch_size The maximum batch size of this prediction task, /// better set as small as possible for less performance loss. /// \param[in] min_subgrpah_size The minimum TensorRT subgraph size needed, if a /// subgraph is smaller than this, it will not be transferred to TensorRT /// engine. /// \param[in] precision The precision used in TensorRT. /// \param[in] use_static Serialize optimization information to disk for /// reusing. /// \param[in] use_calib_mode Use TRT int8 calibration(post training /// quantization). /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableTensorRtEngine( __pd_keep PD_Config* pd_config, int32_t workspace_size, int32_t max_batch_size, int32_t min_subgraph_size, PD_PrecisionType precision, PD_Bool use_static, PD_Bool use_calib_mode); /// /// \brief A boolean state telling whether the TensorRT engine is used. /// /// \param[in] pd_onfig config /// \return Whether the TensorRT engine is used. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTensorRtEngineEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Set min, max, opt shape for TensorRT Dynamic shape mode. /// /// \param[in] pd_onfig config /// \param[in] tensor_num The number of the subgraph input. /// \param[in] tensor_name The name of every subgraph input. /// \param[in] shapes_num The shape size of every subgraph input. /// \param[in] min_shape The min input shape of every subgraph input. /// \param[in] max_shape The max input shape of every subgraph input. /// \param[in] optim_shape The opt input shape of every subgraph input. /// \param[in] disable_trt_plugin_fp16 Setting this parameter to true means that /// TRT plugin will not run fp16. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetTrtDynamicShapeInfo( __pd_keep PD_Config* pd_config, size_t tensor_num, const char** tensor_name, size_t* shapes_num, int32_t** min_shape, int32_t** max_shape, int32_t** optim_shape, PD_Bool disable_trt_plugin_fp16); /// /// \brief A boolean state telling whether the trt dynamic_shape is used. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTensorRtDynamicShapeEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Enable tuned tensorrt dynamic shape. /// /// \param[in] pd_onfig config /// \param[in] shape_range_info_path the path to shape_info file got in /// CollectShapeInfo mode. /// \param[in] allow_build_at_runtime allow build trt engine at runtime. /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableTunedTensorRtDynamicShape( __pd_keep PD_Config* pd_config, const char* shape_range_info_path, PD_Bool allow_build_at_runtime); /// /// \brief A boolean state telling whether to use tuned tensorrt dynamic /// shape. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTunedTensorRtDynamicShape( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether to allow building trt engine at /// runtime. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTrtAllowBuildAtRuntime( __pd_keep PD_Config* pd_config); /// /// \brief Collect shape info of all tensors in compute graph. /// /// \param[in] pd_onfig config /// \param[in] shape_range_info_path the path to save shape info. /// PADDLE_CAPI_EXPORT extern void PD_ConfigCollectShapeRangeInfo( __pd_keep PD_Config* pd_config, const char* shape_range_info_path); /// /// \brief the shape info path in CollectShapeInfo mode. /// Attention, Please release the string manually. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern const char* PD_ConfigShapeRangeInfoPath( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether to collect shape info. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigShapeRangeInfoCollected( __pd_keep PD_Config* pd_config); /// /// \brief Prevent ops running in Paddle-TRT /// NOTE: just experimental, not an official stable API, easy to be broken. /// /// \param[in] pd_onfig config /// \param[in] ops_num ops number /// \param[in] ops_name ops name /// PADDLE_CAPI_EXPORT extern void PD_ConfigDisableTensorRtOPs( __pd_keep PD_Config* pd_config, size_t ops_num, const char** ops_name); /// /// \brief Replace some TensorRT plugins to TensorRT OSS( /// https://github.com/NVIDIA/TensorRT), with which some models's inference /// may be more high-performance. Libnvinfer_plugin.so greater than /// V7.2.1 is needed. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableVarseqlen( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether to use the TensorRT OSS. /// /// \param[in] pd_onfig config /// \return Whether to use the TensorRT OSS. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTensorRtOssEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Enable TensorRT DLA /// /// \param[in] pd_onfig config /// \param[in] dla_core ID of DLACore, which should be 0, 1, /// ..., IBuilder.getNbDLACores() - 1 /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableTensorRtDla( __pd_keep PD_Config* pd_config, int32_t dla_core); /// /// \brief A boolean state telling whether to use the TensorRT DLA. /// /// \param[in] pd_onfig config /// \return Whether to use the TensorRT DLA. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigTensorRtDlaEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Turn on the usage of Lite sub-graph engine. /// /// \param[in] pd_onfig config /// \param[in] precision Precion used in Lite sub-graph engine. /// \param[in] zero_copy whether use zero copy. /// \param[in] passes_filter_num The number of passes used in Lite sub-graph /// engine. /// \param[in] passes_filter The name of passes used in Lite sub-graph engine. /// \param[in] ops_filter_num The number of operators not supported by Lite. /// \param[in] ops_filter The name of operators not supported by Lite. /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableLiteEngine( __pd_keep PD_Config* pd_config, PD_PrecisionType precision, PD_Bool zero_copy, size_t passes_filter_num, const char** passes_filter, size_t ops_filter_num, const char** ops_filter); /// /// \brief A boolean state indicating whether the Lite sub-graph engine is /// used. /// /// \param[in] pd_onfig config /// \return Whether the Lite sub-graph engine is used. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigLiteEngineEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Control whether to debug IR graph analysis phase. /// This will generate DOT files for visualizing the computation graph after /// each analysis pass applied. /// /// \param[in] pd_onfig config /// \param[in] x whether to debug IR graph analysis phase. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSwitchIrDebug( __pd_keep PD_Config* pd_config, PD_Bool x); /// /// \brief Turn on MKLDNN. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableMKLDNN( __pd_keep PD_Config* pd_config); /// /// \brief Set the cache capacity of different input shapes for MKLDNN. /// Default value 0 means not caching any shape. /// Please see MKL-DNN Data Caching Design Document: /// https://github.com/PaddlePaddle/FluidDoc/blob/develop/doc/fluid/design/mkldnn/caching/caching.md /// /// \param[in] pd_onfig config /// \param[in] capacity The cache capacity. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetMkldnnCacheCapacity( __pd_keep PD_Config* pd_config, int32_t capacity); /// /// \brief A boolean state telling whether to use the MKLDNN. /// /// \param[in] pd_onfig config /// \return Whether to use the MKLDNN. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigMkldnnEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Set the number of cpu math library threads. /// /// \param[in] pd_onfig config /// \param cpu_math_library_num_threads The number of cpu math library /// threads. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetCpuMathLibraryNumThreads( __pd_keep PD_Config* pd_config, int32_t cpu_math_library_num_threads); /// /// \brief An int state telling how many threads are used in the CPU math /// library. /// /// \param[in] pd_onfig config /// \return The number of threads used in the CPU math library. /// PADDLE_CAPI_EXPORT extern int32_t PD_ConfigGetCpuMathLibraryNumThreads( __pd_keep PD_Config* pd_config); /// /// \brief Specify the operator type list to use MKLDNN acceleration. /// /// \param[in] pd_onfig config /// \param[in] ops_num The number of operator type list. /// \param[in] op_list The name of operator type list. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetMkldnnOp( __pd_keep PD_Config* pd_config, size_t ops_num, const char** op_list); /// /// \brief Turn on MKLDNN quantization. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableMkldnnQuantizer( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the MKLDNN quantization is enabled. /// /// \param[in] pd_onfig config /// \return Whether the MKLDNN quantization is enabled. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigMkldnnQuantizerEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Turn on MKLDNN bfloat16. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableMkldnnBfloat16( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether to use the MKLDNN Bfloat16. /// /// \param[in] pd_onfig config /// \return Whether to use the MKLDNN Bfloat16. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigMkldnnBfloat16Enabled( __pd_keep PD_Config* pd_config); /// \brief Specify the operator type list to use Bfloat16 acceleration. /// /// \param[in] pd_onfig config /// \param[in] ops_num The number of operator type list. /// \param[in] op_list The name of operator type list. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetBfloat16Op( __pd_keep PD_Config* pd_config, size_t ops_num, const char** op_list); /// /// \brief Enable the GPU multi-computing stream feature. /// NOTE: The current behavior of this interface is to bind the computation /// stream to the thread, and this behavior may be changed in the future. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableGpuMultiStream( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the thread local CUDA stream is /// enabled. /// /// \param[in] pd_onfig config /// \return Whether the thread local CUDA stream is enabled. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigThreadLocalStreamEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Specify the memory buffer of program and parameter. /// Used when model and params are loaded directly from memory. /// /// \param[in] pd_onfig config /// \param[in] prog_buffer The memory buffer of program. /// \param[in] prog_buffer_size The size of the model data. /// \param[in] params_buffer The memory buffer of the combined parameters file. /// \param[in] params_buffer_size The size of the combined parameters data. /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetModelBuffer( __pd_keep PD_Config* pd_config, const char* prog_buffer, size_t prog_buffer_size, const char* params_buffer, size_t params_buffer_size); /// /// \brief A boolean state telling whether the model is set from the CPU /// memory. /// /// \param[in] pd_onfig config /// \return Whether model and params are loaded directly from memory. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigModelFromMemory( __pd_keep PD_Config* pd_config); /// /// \brief Turn on memory optimize /// NOTE still in development. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableMemoryOptim( __pd_keep PD_Config* pd_config, PD_Bool x); /// /// \brief A boolean state telling whether the memory optimization is /// activated. /// /// \param[in] pd_onfig config /// \return Whether the memory optimization is activated. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigMemoryOptimEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Turn on profiling report. /// If not turned on, no profiling report will be generated. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigEnableProfile( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the profiler is activated. /// /// \param[in] pd_onfig config /// \return bool Whether the profiler is activated. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigProfileEnabled( __pd_keep PD_Config* pd_config); /// /// \brief Mute all logs in Paddle inference. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigDisableGlogInfo( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether logs in Paddle inference are muted. /// /// \param[in] pd_onfig config /// \return Whether logs in Paddle inference are muted. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigGlogInfoDisabled( __pd_keep PD_Config* pd_config); /// /// \brief Set the Config to be invalid. /// This is to ensure that an Config can only be used in one /// Predictor. /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigSetInvalid( __pd_keep PD_Config* pd_config); /// /// \brief A boolean state telling whether the Config is valid. /// /// \param[in] pd_onfig config /// \return Whether the Config is valid. /// PADDLE_CAPI_EXPORT extern PD_Bool PD_ConfigIsValid( __pd_keep PD_Config* pd_config); /// /// \brief Partially release the memory /// /// \param[in] pd_onfig config /// PADDLE_CAPI_EXPORT extern void PD_ConfigPartiallyRelease( __pd_keep PD_Config* pd_config); /// /// \brief Delete all passes that has a certain type 'pass'. /// /// \param[in] pass the certain pass type to be deleted. /// PADDLE_CAPI_EXPORT extern void PD_ConfigDeletePass( __pd_keep PD_Config* pd_config, const char* pass); /// /// \brief Insert a pass to a specific position /// /// \param[in] idx the position to insert. /// \param[in] pass the new pass. /// PADDLE_CAPI_EXPORT extern void PD_ConfigInsertPass( __pd_keep PD_Config* pd_config, size_t idx, const char* pass); /// /// \brief Append a pass to the end of the passes /// /// \param[in] pass the new pass. /// PADDLE_CAPI_EXPORT extern void PD_ConfigAppendPass( __pd_keep PD_Config* pd_config, const char* pass); /// /// \brief Get information of passes. /// /// \return Return list of the passes. /// PADDLE_CAPI_EXPORT extern __pd_give PD_OneDimArrayCstr* PD_ConfigAllPasses( __pd_keep PD_Config* pd_config); /// /// \brief Get information of config. /// Attention, Please release the string manually. /// /// \return Return config info. /// PADDLE_CAPI_EXPORT extern __pd_give PD_Cstr* PD_ConfigSummary( __pd_keep PD_Config* pd_config); #ifdef __cplusplus } // extern "C" #endif