// 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 #if defined(_WIN32) #ifdef PADDLE_ON_INFERENCE #define PADDLE_CAPI_EXPORT __declspec(dllexport) #else #define PADDLE_CAPI_EXPORT __declspec(dllimport) #endif // PADDLE_ON_INFERENCE #else #define PADDLE_CAPI_EXPORT __attribute__((visibility("default"))) #endif // _WIN32 #ifdef __cplusplus extern "C" { #endif enum PD_DataType { PD_FLOAT32, PD_INT32, PD_INT64, PD_UINT8, PD_UNKDTYPE }; typedef struct PD_PaddleBuf PD_PaddleBuf; typedef struct PD_AnalysisConfig PD_AnalysisConfig; typedef struct PD_ZeroCopyData { char* name; void* data; PD_DataType dtype; int* shape; int shape_size; } PD_ZeroCopyData; typedef struct InTensorShape { char* name; int* tensor_shape; int shape_size; } InTensorShape; PADDLE_CAPI_EXPORT extern PD_PaddleBuf* PD_NewPaddleBuf(); PADDLE_CAPI_EXPORT extern void PD_DeletePaddleBuf(PD_PaddleBuf* buf); PADDLE_CAPI_EXPORT extern void PD_PaddleBufResize(PD_PaddleBuf* buf, size_t length); PADDLE_CAPI_EXPORT extern void PD_PaddleBufReset(PD_PaddleBuf* buf, void* data, size_t length); PADDLE_CAPI_EXPORT extern bool PD_PaddleBufEmpty(PD_PaddleBuf* buf); PADDLE_CAPI_EXPORT extern void* PD_PaddleBufData(PD_PaddleBuf* buf); PADDLE_CAPI_EXPORT extern size_t PD_PaddleBufLength(PD_PaddleBuf* buf); // PaddleTensor typedef struct PD_Tensor PD_Tensor; PADDLE_CAPI_EXPORT extern PD_Tensor* PD_NewPaddleTensor(); PADDLE_CAPI_EXPORT extern void PD_DeletePaddleTensor(PD_Tensor* tensor); PADDLE_CAPI_EXPORT extern void PD_SetPaddleTensorName(PD_Tensor* tensor, char* name); PADDLE_CAPI_EXPORT extern void PD_SetPaddleTensorDType(PD_Tensor* tensor, PD_DataType dtype); PADDLE_CAPI_EXPORT extern void PD_SetPaddleTensorData(PD_Tensor* tensor, PD_PaddleBuf* buf); PADDLE_CAPI_EXPORT extern void PD_SetPaddleTensorShape(PD_Tensor* tensor, int* shape, int size); PADDLE_CAPI_EXPORT extern const char* PD_GetPaddleTensorName( const PD_Tensor* tensor); PADDLE_CAPI_EXPORT extern PD_DataType PD_GetPaddleTensorDType( const PD_Tensor* tensor); PADDLE_CAPI_EXPORT extern PD_PaddleBuf* PD_GetPaddleTensorData( const PD_Tensor* tensor); PADDLE_CAPI_EXPORT extern int* PD_GetPaddleTensorShape(const PD_Tensor* tensor, int** size); // AnalysisPredictor PADDLE_CAPI_EXPORT extern bool PD_PredictorRun(const PD_AnalysisConfig* config, PD_Tensor* inputs, int in_size, PD_Tensor** output_data, int* out_size, int batch_size); PADDLE_CAPI_EXPORT extern bool PD_PredictorZeroCopyRun( const PD_AnalysisConfig* config, PD_ZeroCopyData* inputs, int in_size, PD_ZeroCopyData** output, int* out_size); // AnalysisConfig enum Precision { kFloat32 = 0, kInt8, kHalf }; PADDLE_CAPI_EXPORT extern PD_AnalysisConfig* PD_NewAnalysisConfig(); PADDLE_CAPI_EXPORT extern void PD_DeleteAnalysisConfig( PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SetModel(PD_AnalysisConfig* config, const char* model_dir, const char* params_path = NULL); PADDLE_CAPI_EXPORT extern void PD_SetProgFile(PD_AnalysisConfig* config, const char* x); PADDLE_CAPI_EXPORT extern void PD_SetParamsFile(PD_AnalysisConfig* config, const char* x); PADDLE_CAPI_EXPORT extern void PD_SetOptimCacheDir(PD_AnalysisConfig* config, const char* opt_cache_dir); PADDLE_CAPI_EXPORT extern const char* PD_ModelDir( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern const char* PD_ProgFile( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern const char* PD_ParamsFile( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableUseGpu( PD_AnalysisConfig* config, uint64_t memory_pool_init_size_mb, int device_id = 0); PADDLE_CAPI_EXPORT extern void PD_DisableGpu(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_UseGpu(const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern int PD_GpuDeviceId(const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern int PD_MemoryPoolInitSizeMb( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern float PD_FractionOfGpuMemoryForPool( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableCUDNN(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_CudnnEnabled(const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SwitchIrOptim(PD_AnalysisConfig* config, bool x = true); PADDLE_CAPI_EXPORT extern bool PD_IrOptim(const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SwitchUseFeedFetchOps( PD_AnalysisConfig* config, bool x = true); PADDLE_CAPI_EXPORT extern bool PD_UseFeedFetchOpsEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SwitchSpecifyInputNames( PD_AnalysisConfig* config, bool x = true); PADDLE_CAPI_EXPORT extern bool PD_SpecifyInputName( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableTensorRtEngine( PD_AnalysisConfig* config, int workspace_size = 1 << 20, int max_batch_size = 1, int min_subgraph_size = 3, Precision precision = Precision::kFloat32, bool use_static = false, bool use_calib_mode = false); PADDLE_CAPI_EXPORT extern bool PD_TensorrtEngineEnabled( const PD_AnalysisConfig* config); typedef struct PD_MaxInputShape { char* name; int* shape; int shape_size; } PD_MaxInputShape; PADDLE_CAPI_EXPORT extern void PD_EnableAnakinEngine( PD_AnalysisConfig* config, int max_batch_size = 1, PD_MaxInputShape* max_input_shape = NULL, int max_input_shape_size = 0, int min_subgraph_size = 6, Precision precision = Precision::kFloat32, bool auto_config_layout = false, char** passes_filter = NULL, int passes_filter_size = 0, char** ops_filter = NULL, int ops_filter_size = 0); PADDLE_CAPI_EXPORT extern bool PD_AnakinEngineEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SwitchIrDebug(PD_AnalysisConfig* config, bool x = true); PADDLE_CAPI_EXPORT extern void PD_EnableNgraph(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_NgraphEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableMKLDNN(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SetMkldnnCacheCapacity( PD_AnalysisConfig* config, int capacity); PADDLE_CAPI_EXPORT extern bool PD_MkldnnEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SetCpuMathLibraryNumThreads( PD_AnalysisConfig* config, int cpu_math_library_num_threads); PADDLE_CAPI_EXPORT extern int PD_CpuMathLibraryNumThreads( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableMkldnnQuantizer( PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_MkldnnQuantizerEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SetModelBuffer(PD_AnalysisConfig* config, const char* prog_buffer, size_t prog_buffer_size, const char* params_buffer, size_t params_buffer_size); PADDLE_CAPI_EXPORT extern bool PD_ModelFromMemory( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableMemoryOptim(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_MemoryOptimEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_EnableProfile(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_ProfileEnabled( const PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern void PD_SetInValid(PD_AnalysisConfig* config); PADDLE_CAPI_EXPORT extern bool PD_IsValid(const PD_AnalysisConfig* config); #ifdef __cplusplus } // extern "C" #endif