inference_api.cc 32.0 KB
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// 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.

#include "paddle/fluid/pybind/inference_api.h"
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#include <pybind11/numpy.h>
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#include <pybind11/stl.h>
#include <cstring>
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#include <functional>
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#include <iostream>
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#include <iterator>
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#include <map>
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#include <memory>
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#include <string>
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#include <type_traits>
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#include <unordered_set>
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#include <utility>
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#include <vector>
#include "paddle/fluid/inference/api/analysis_predictor.h"
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#include "paddle/fluid/inference/api/helper.h"
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#include "paddle/fluid/inference/api/paddle_infer_contrib.h"
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#include "paddle/fluid/inference/api/paddle_inference_api.h"
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#include "paddle/fluid/inference/api/paddle_pass_builder.h"
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#include "paddle/fluid/inference/utils/io_utils.h"
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namespace py = pybind11;

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namespace pybind11 {
namespace detail {

// Note: use same enum number of float16 in numpy.
// import numpy as np
// print np.dtype(np.float16).num  # 23
constexpr int NPY_FLOAT16_ = 23;
constexpr int NPY_UINT16_ = 4;

// Note: Since float16 is not a builtin type in C++, we register
// paddle::platform::float16 as numpy.float16.
// Ref: https://github.com/pybind/pybind11/issues/1776
template <>
struct npy_format_descriptor<paddle_infer::float16> {
  static py::dtype dtype() {
    handle ptr = npy_api::get().PyArray_DescrFromType_(NPY_FLOAT16_);
    return reinterpret_borrow<py::dtype>(ptr);
  }
  static std::string format() {
    // Note: "e" represents float16.
    // Details at:
    // https://docs.python.org/3/library/struct.html#format-characters.
    return "e";
  }
  static constexpr auto name = _("float16");
};

}  // namespace detail
}  // namespace pybind11

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namespace paddle {
namespace pybind {
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using paddle::AnalysisPredictor;
using paddle::NativeConfig;
using paddle::NativePaddlePredictor;
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using paddle::PaddleBuf;
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using paddle::PaddleDType;
using paddle::PaddlePassBuilder;
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using paddle::PaddlePlace;
using paddle::PaddlePredictor;
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using paddle::PaddleTensor;
using paddle::PassStrategy;
using paddle::ZeroCopyTensor;
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namespace {
void BindPaddleDType(py::module *m);
void BindPaddleBuf(py::module *m);
void BindPaddleTensor(py::module *m);
void BindPaddlePlace(py::module *m);
void BindPaddlePredictor(py::module *m);
void BindNativeConfig(py::module *m);
void BindNativePredictor(py::module *m);
void BindAnalysisConfig(py::module *m);
void BindAnalysisPredictor(py::module *m);
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void BindZeroCopyTensor(py::module *m);
void BindPaddlePassBuilder(py::module *m);
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void BindPaddleInferPredictor(py::module *m);
void BindPaddleInferTensor(py::module *m);
void BindPredictorPool(py::module *m);
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#ifdef PADDLE_WITH_MKLDNN
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void BindMkldnnQuantizerConfig(py::module *m);
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#endif
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template <typename T>
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PaddleBuf PaddleBufCreate(
    py::array_t<T, py::array::c_style | py::array::forcecast> data) {
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  PaddleBuf buf(data.size() * sizeof(T));
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  std::copy_n(static_cast<const T *>(data.data()), data.size(),
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              static_cast<T *>(buf.data()));
  return buf;
}

template <typename T>
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void PaddleBufReset(
    PaddleBuf &buf,                                                    // NOLINT
    py::array_t<T, py::array::c_style | py::array::forcecast> data) {  // NOLINT
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  buf.Resize(data.size() * sizeof(T));
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  std::copy_n(static_cast<const T *>(data.data()), data.size(),
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              static_cast<T *>(buf.data()));
}

template <typename T>
PaddleTensor PaddleTensorCreate(
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    py::array_t<T, py::array::c_style | py::array::forcecast> data,
    const std::string name = "",
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    const std::vector<std::vector<size_t>> &lod = {}, bool copy = true) {
  PaddleTensor tensor;

  if (copy) {
    PaddleBuf buf(data.size() * sizeof(T));
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    std::copy_n(static_cast<const T *>(data.data()), data.size(),
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                static_cast<T *>(buf.data()));
    tensor.data = std::move(buf);
  } else {
    tensor.data = PaddleBuf(data.mutable_data(), data.size() * sizeof(T));
  }

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  tensor.dtype = inference::PaddleTensorGetDType<T>();
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  tensor.name = name;
  tensor.lod = lod;
  tensor.shape.resize(data.ndim());
  std::copy_n(data.shape(), data.ndim(), tensor.shape.begin());

  return tensor;
}

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py::dtype PaddleDTypeToNumpyDType(PaddleDType dtype) {
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  py::dtype dt;
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  switch (dtype) {
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    case PaddleDType::INT32:
      dt = py::dtype::of<int32_t>();
      break;
    case PaddleDType::INT64:
      dt = py::dtype::of<int64_t>();
      break;
    case PaddleDType::FLOAT32:
      dt = py::dtype::of<float>();
      break;
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    case PaddleDType::UINT8:
      dt = py::dtype::of<uint8_t>();
      break;
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    case PaddleDType::FLOAT16:
      dt = py::dtype::of<paddle_infer::float16>();
      break;
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    default:
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      PADDLE_THROW(platform::errors::Unimplemented(
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          "Unsupported data type. Now only supports INT32, INT64, UINT8 and "
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          "FLOAT32."));
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  }
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  return dt;
}

py::array PaddleTensorGetData(PaddleTensor &tensor) {  // NOLINT
  py::dtype dt = PaddleDTypeToNumpyDType(tensor.dtype);
  return py::array(std::move(dt), {tensor.shape}, tensor.data.data());
}

template <typename T>
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void ZeroCopyTensorCreate(
    ZeroCopyTensor &tensor,  // NOLINT
    py::array_t<T, py::array::c_style | py::array::forcecast> data) {
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  std::vector<int> shape;
  std::copy_n(data.shape(), data.ndim(), std::back_inserter(shape));
  tensor.Reshape(std::move(shape));
  tensor.copy_from_cpu(static_cast<const T *>(data.data()));
}

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template <typename T>
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void PaddleInferTensorCreate(
    paddle_infer::Tensor &tensor,  // NOLINT
    py::array_t<T, py::array::c_style | py::array::forcecast> data) {
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  std::vector<int> shape;
  std::copy_n(data.shape(), data.ndim(), std::back_inserter(shape));
  tensor.Reshape(std::move(shape));
  tensor.CopyFromCpu(static_cast<const T *>(data.data()));
}

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size_t PaddleGetDTypeSize(PaddleDType dt) {
  size_t size{0};
  switch (dt) {
    case PaddleDType::INT32:
      size = sizeof(int32_t);
      break;
    case PaddleDType::INT64:
      size = sizeof(int64_t);
      break;
    case PaddleDType::FLOAT32:
      size = sizeof(float);
      break;
    default:
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      PADDLE_THROW(platform::errors::Unimplemented(
          "Unsupported data type. Now only supports INT32, INT64 and "
          "FLOAT32."));
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  }
  return size;
}

py::array ZeroCopyTensorToNumpy(ZeroCopyTensor &tensor) {  // NOLINT
  py::dtype dt = PaddleDTypeToNumpyDType(tensor.type());
  auto tensor_shape = tensor.shape();
  py::array::ShapeContainer shape(tensor_shape.begin(), tensor_shape.end());
  py::array array(dt, std::move(shape));

  switch (tensor.type()) {
    case PaddleDType::INT32:
      tensor.copy_to_cpu(static_cast<int32_t *>(array.mutable_data()));
      break;
    case PaddleDType::INT64:
      tensor.copy_to_cpu(static_cast<int64_t *>(array.mutable_data()));
      break;
    case PaddleDType::FLOAT32:
      tensor.copy_to_cpu<float>(static_cast<float *>(array.mutable_data()));
      break;
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    case PaddleDType::FLOAT16:
      tensor.copy_to_cpu<paddle::platform::float16>(
          static_cast<paddle::platform::float16 *>(array.mutable_data()));
      break;
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    case PaddleDType::UINT8:
      tensor.copy_to_cpu<uint8_t>(static_cast<uint8_t *>(array.mutable_data()));
      break;
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    case PaddleDType::INT8:
      tensor.copy_to_cpu<int8_t>(static_cast<int8_t *>(array.mutable_data()));
      break;
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    default:
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      PADDLE_THROW(platform::errors::Unimplemented(
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          "Unsupported data type. Now only supports INT32, INT64, UINT8 and "
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          "FLOAT32."));
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  }
  return array;
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}
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py::array PaddleInferTensorToNumpy(paddle_infer::Tensor &tensor) {  // NOLINT
  py::dtype dt = PaddleDTypeToNumpyDType(tensor.type());
  auto tensor_shape = tensor.shape();
  py::array::ShapeContainer shape(tensor_shape.begin(), tensor_shape.end());
  py::array array(dt, std::move(shape));

  switch (tensor.type()) {
    case PaddleDType::INT32:
      tensor.CopyToCpu(static_cast<int32_t *>(array.mutable_data()));
      break;
    case PaddleDType::INT64:
      tensor.CopyToCpu(static_cast<int64_t *>(array.mutable_data()));
      break;
    case PaddleDType::FLOAT32:
      tensor.CopyToCpu<float>(static_cast<float *>(array.mutable_data()));
      break;
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    case PaddleDType::FLOAT16:
      tensor.CopyToCpu<paddle::platform::float16>(
          static_cast<paddle::platform::float16 *>(array.mutable_data()));
      break;
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    case PaddleDType::UINT8:
      tensor.CopyToCpu(static_cast<uint8_t *>(array.mutable_data()));
      break;
    case PaddleDType::INT8:
      tensor.CopyToCpu(static_cast<int8_t *>(array.mutable_data()));
      break;
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    default:
      PADDLE_THROW(platform::errors::Unimplemented(
          "Unsupported data type. Now only supports INT32, INT64 and "
          "FLOAT32."));
  }
  return array;
}

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py::bytes SerializePDTensorToBytes(PaddleTensor &tensor) {  // NOLINT
  std::stringstream ss;
  paddle::inference::SerializePDTensorToStream(&ss, tensor);
  return static_cast<py::bytes>(ss.str());
}
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void CopyPaddleInferTensor(paddle_infer::Tensor &dst,  // NOLINT
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                           const paddle_infer::Tensor &src) {
  return paddle_infer::contrib::TensorUtils::CopyTensor(&dst, src);
}

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}  // namespace
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void BindInferenceApi(py::module *m) {
  BindPaddleDType(m);
  BindPaddleBuf(m);
  BindPaddleTensor(m);
  BindPaddlePlace(m);
  BindPaddlePredictor(m);
  BindNativeConfig(m);
  BindNativePredictor(m);
  BindAnalysisConfig(m);
  BindAnalysisPredictor(m);
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  BindPaddleInferPredictor(m);
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  BindZeroCopyTensor(m);
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  BindPaddleInferTensor(m);
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  BindPaddlePassBuilder(m);
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  BindPredictorPool(m);
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#ifdef PADDLE_WITH_MKLDNN
  BindMkldnnQuantizerConfig(m);
#endif
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  m->def("create_paddle_predictor",
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         &paddle::CreatePaddlePredictor<AnalysisConfig>, py::arg("config"));
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  m->def("create_paddle_predictor",
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         &paddle::CreatePaddlePredictor<NativeConfig>, py::arg("config"));
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  m->def("create_predictor", [](const paddle_infer::Config &config)
                                 -> std::unique_ptr<paddle_infer::Predictor> {
                                   auto pred =
                                       std::unique_ptr<paddle_infer::Predictor>(
                                           new paddle_infer::Predictor(config));
                                   return std::move(pred);
                                 });
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  m->def("copy_tensor", &CopyPaddleInferTensor);
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  m->def("paddle_dtype_size", &paddle::PaddleDtypeSize);
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  m->def("paddle_tensor_to_bytes", &SerializePDTensorToBytes);
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  m->def("get_version", &paddle_infer::GetVersion);
  m->def("get_num_bytes_of_data_type", &paddle_infer::GetNumBytesOfDataType);
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}

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namespace {
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void BindPaddleDType(py::module *m) {
  py::enum_<PaddleDType>(*m, "PaddleDType")
      .value("FLOAT32", PaddleDType::FLOAT32)
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      .value("INT64", PaddleDType::INT64)
      .value("INT32", PaddleDType::INT32);
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}

void BindPaddleBuf(py::module *m) {
  py::class_<PaddleBuf>(*m, "PaddleBuf")
      .def(py::init<size_t>())
      .def(py::init([](std::vector<float> &data) {
        auto buf = PaddleBuf(data.size() * sizeof(float));
        std::memcpy(buf.data(), static_cast<void *>(data.data()), buf.length());
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        return buf;
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      }))
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      .def(py::init(&PaddleBufCreate<int32_t>))
      .def(py::init(&PaddleBufCreate<int64_t>))
      .def(py::init(&PaddleBufCreate<float>))
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      .def("resize", &PaddleBuf::Resize)
      .def("reset",
           [](PaddleBuf &self, std::vector<float> &data) {
             self.Resize(data.size() * sizeof(float));
             std::memcpy(self.data(), data.data(), self.length());
           })
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      .def("reset", &PaddleBufReset<int32_t>)
      .def("reset", &PaddleBufReset<int64_t>)
      .def("reset", &PaddleBufReset<float>)
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      .def("empty", &PaddleBuf::empty)
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      .def("tolist",
           [](PaddleBuf &self, const std::string &dtype) -> py::list {
             py::list l;
             if (dtype == "int32") {
               auto *data = static_cast<int32_t *>(self.data());
               auto size = self.length() / sizeof(int32_t);
               l = py::cast(std::vector<int32_t>(data, data + size));
             } else if (dtype == "int64") {
               auto *data = static_cast<int64_t *>(self.data());
               auto size = self.length() / sizeof(int64_t);
               l = py::cast(std::vector<int64_t>(data, data + size));
             } else if (dtype == "float32") {
               auto *data = static_cast<float *>(self.data());
               auto size = self.length() / sizeof(float);
               l = py::cast(std::vector<float>(data, data + size));
             } else {
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               PADDLE_THROW(platform::errors::Unimplemented(
                   "Unsupported data type. Now only supports INT32, INT64 and "
                   "FLOAT32."));
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             }
             return l;
           })
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      .def("float_data",
           [](PaddleBuf &self) -> std::vector<float> {
             auto *data = static_cast<float *>(self.data());
             return {data, data + self.length() / sizeof(*data)};
           })
      .def("int64_data",
           [](PaddleBuf &self) -> std::vector<int64_t> {
             int64_t *data = static_cast<int64_t *>(self.data());
             return {data, data + self.length() / sizeof(*data)};
           })
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      .def("int32_data",
           [](PaddleBuf &self) -> std::vector<int32_t> {
             int32_t *data = static_cast<int32_t *>(self.data());
             return {data, data + self.length() / sizeof(*data)};
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           })
      .def("length", &PaddleBuf::length);
}

void BindPaddleTensor(py::module *m) {
  py::class_<PaddleTensor>(*m, "PaddleTensor")
      .def(py::init<>())
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      .def(py::init(&PaddleTensorCreate<int32_t>), py::arg("data"),
           py::arg("name") = "",
           py::arg("lod") = std::vector<std::vector<size_t>>(),
           py::arg("copy") = true)
      .def(py::init(&PaddleTensorCreate<int64_t>), py::arg("data"),
           py::arg("name") = "",
           py::arg("lod") = std::vector<std::vector<size_t>>(),
           py::arg("copy") = true)
      .def(py::init(&PaddleTensorCreate<float>), py::arg("data"),
           py::arg("name") = "",
           py::arg("lod") = std::vector<std::vector<size_t>>(),
           py::arg("copy") = true)
      .def("as_ndarray", &PaddleTensorGetData)
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      .def_readwrite("name", &PaddleTensor::name)
      .def_readwrite("shape", &PaddleTensor::shape)
      .def_readwrite("data", &PaddleTensor::data)
      .def_readwrite("dtype", &PaddleTensor::dtype)
      .def_readwrite("lod", &PaddleTensor::lod);
}

void BindPaddlePlace(py::module *m) {
  py::enum_<PaddlePlace>(*m, "PaddlePlace")
      .value("UNK", PaddlePlace::kUNK)
      .value("CPU", PaddlePlace::kCPU)
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      .value("GPU", PaddlePlace::kGPU)
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      .value("XPU", PaddlePlace::kXPU)
      .value("NPU", PaddlePlace::kNPU);
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}

void BindPaddlePredictor(py::module *m) {
  auto paddle_predictor = py::class_<PaddlePredictor>(*m, "PaddlePredictor");
  paddle_predictor
      .def("run",
           [](PaddlePredictor &self, const std::vector<PaddleTensor> &inputs) {
             std::vector<PaddleTensor> outputs;
             self.Run(inputs, &outputs);
             return outputs;
           })
      .def("get_input_tensor", &PaddlePredictor::GetInputTensor)
      .def("get_output_tensor", &PaddlePredictor::GetOutputTensor)
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      .def("get_input_names", &PaddlePredictor::GetInputNames)
      .def("get_output_names", &PaddlePredictor::GetOutputNames)
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      .def("zero_copy_run", &PaddlePredictor::ZeroCopyRun)
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      .def("clone", &PaddlePredictor::Clone)
      .def("get_serialized_program", &PaddlePredictor::GetSerializedProgram);
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  auto config = py::class_<PaddlePredictor::Config>(paddle_predictor, "Config");
  config.def(py::init<>())
      .def_readwrite("model_dir", &PaddlePredictor::Config::model_dir);
}

void BindNativeConfig(py::module *m) {
  py::class_<NativeConfig, PaddlePredictor::Config>(*m, "NativeConfig")
      .def(py::init<>())
      .def_readwrite("use_gpu", &NativeConfig::use_gpu)
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      .def_readwrite("use_xpu", &NativeConfig::use_xpu)
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      .def_readwrite("use_npu", &NativeConfig::use_npu)
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      .def_readwrite("device", &NativeConfig::device)
      .def_readwrite("fraction_of_gpu_memory",
                     &NativeConfig::fraction_of_gpu_memory)
      .def_readwrite("prog_file", &NativeConfig::prog_file)
      .def_readwrite("param_file", &NativeConfig::param_file)
      .def_readwrite("specify_input_name", &NativeConfig::specify_input_name)
      .def("set_cpu_math_library_num_threads",
           &NativeConfig::SetCpuMathLibraryNumThreads)
      .def("cpu_math_library_num_threads",
           &NativeConfig::cpu_math_library_num_threads);
}

void BindNativePredictor(py::module *m) {
  py::class_<NativePaddlePredictor, PaddlePredictor>(*m,
                                                     "NativePaddlePredictor")
      .def(py::init<const NativeConfig &>())
      .def("init", &NativePaddlePredictor::Init)
      .def("run",
           [](NativePaddlePredictor &self,
              const std::vector<PaddleTensor> &inputs) {
             std::vector<PaddleTensor> outputs;
             self.Run(inputs, &outputs);
             return outputs;
           })
      .def("get_input_tensor", &NativePaddlePredictor::GetInputTensor)
      .def("get_output_tensor", &NativePaddlePredictor::GetOutputTensor)
      .def("zero_copy_run", &NativePaddlePredictor::ZeroCopyRun)
      .def("clone", &NativePaddlePredictor::Clone)
      .def("scope", &NativePaddlePredictor::scope,
           py::return_value_policy::reference);
}

void BindAnalysisConfig(py::module *m) {
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  py::class_<AnalysisConfig> analysis_config(*m, "AnalysisConfig");

  py::enum_<AnalysisConfig::Precision>(analysis_config, "Precision")
      .value("Float32", AnalysisConfig::Precision::kFloat32)
      .value("Int8", AnalysisConfig::Precision::kInt8)
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      .value("Half", AnalysisConfig::Precision::kHalf)
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      .export_values();

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  analysis_config.def(py::init<>())
      .def(py::init<const AnalysisConfig &>())
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      .def(py::init<const std::string &>())
      .def(py::init<const std::string &, const std::string &>())
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      .def("summary", &AnalysisConfig::Summary)
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      .def("set_model", (void (AnalysisConfig::*)(const std::string &)) &
                            AnalysisConfig::SetModel)
      .def("set_model", (void (AnalysisConfig::*)(const std::string &,
                                                  const std::string &)) &
                            AnalysisConfig::SetModel)
      .def("set_prog_file", &AnalysisConfig::SetProgFile)
      .def("set_params_file", &AnalysisConfig::SetParamsFile)
      .def("model_dir", &AnalysisConfig::model_dir)
      .def("prog_file", &AnalysisConfig::prog_file)
      .def("params_file", &AnalysisConfig::params_file)
      .def("enable_use_gpu", &AnalysisConfig::EnableUseGpu,
           py::arg("memory_pool_init_size_mb"), py::arg("device_id") = 0)
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      .def("enable_xpu", &AnalysisConfig::EnableXpu,
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           py::arg("l3_workspace_size") = 16 * 1024 * 1024,
           py::arg("locked") = false, py::arg("autotune") = true,
           py::arg("autotune_file") = "", py::arg("precision") = "int16",
           py::arg("adaptive_seqlen") = false)
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      .def("enable_npu", &AnalysisConfig::EnableNpu, py::arg("device_id") = 0)
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      .def("disable_gpu", &AnalysisConfig::DisableGpu)
      .def("use_gpu", &AnalysisConfig::use_gpu)
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      .def("use_xpu", &AnalysisConfig::use_xpu)
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      .def("use_npu", &AnalysisConfig::use_npu)
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      .def("gpu_device_id", &AnalysisConfig::gpu_device_id)
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      .def("xpu_device_id", &AnalysisConfig::xpu_device_id)
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      .def("npu_device_id", &AnalysisConfig::npu_device_id)
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      .def("memory_pool_init_size_mb",
           &AnalysisConfig::memory_pool_init_size_mb)
      .def("fraction_of_gpu_memory_for_pool",
           &AnalysisConfig::fraction_of_gpu_memory_for_pool)
      .def("switch_ir_optim", &AnalysisConfig::SwitchIrOptim,
           py::arg("x") = true)
      .def("ir_optim", &AnalysisConfig::ir_optim)
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      .def("enable_memory_optim", &AnalysisConfig::EnableMemoryOptim,
           py::arg("x") = true)
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      .def("enable_profile", &AnalysisConfig::EnableProfile)
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      .def("disable_glog_info", &AnalysisConfig::DisableGlogInfo)
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      .def("glog_info_disabled", &AnalysisConfig::glog_info_disabled)
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      .def("set_optim_cache_dir", &AnalysisConfig::SetOptimCacheDir)
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      .def("switch_use_feed_fetch_ops", &AnalysisConfig::SwitchUseFeedFetchOps,
           py::arg("x") = true)
      .def("use_feed_fetch_ops_enabled",
           &AnalysisConfig::use_feed_fetch_ops_enabled)
      .def("switch_specify_input_names",
           &AnalysisConfig::SwitchSpecifyInputNames, py::arg("x") = true)
      .def("specify_input_name", &AnalysisConfig::specify_input_name)
      .def("enable_tensorrt_engine", &AnalysisConfig::EnableTensorRtEngine,
           py::arg("workspace_size") = 1 << 20, py::arg("max_batch_size") = 1,
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           py::arg("min_subgraph_size") = 3,
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           py::arg("precision_mode") = AnalysisConfig::Precision::kFloat32,
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           py::arg("use_static") = false, py::arg("use_calib_mode") = true)
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      .def("tensorrt_precision_mode", &AnalysisConfig::tensorrt_precision_mode)
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      .def("set_trt_dynamic_shape_info",
           &AnalysisConfig::SetTRTDynamicShapeInfo,
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           py::arg("min_input_shape") =
               std::map<std::string, std::vector<int>>({}),
           py::arg("max_input_shape") =
               std::map<std::string, std::vector<int>>({}),
           py::arg("optim_input_shape") =
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               std::map<std::string, std::vector<int>>({}),
           py::arg("disable_trt_plugin_fp16") = false)
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      .def("tensorrt_dynamic_shape_enabled",
           &AnalysisConfig::tensorrt_dynamic_shape_enabled)
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      .def("enable_tensorrt_oss", &AnalysisConfig::EnableTensorRtOSS)
      .def("tensorrt_oss_enabled", &AnalysisConfig::tensorrt_oss_enabled)
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      .def("collect_shape_range_info", &AnalysisConfig::CollectShapeRangeInfo)
      .def("shape_range_info_path", &AnalysisConfig::shape_range_info_path)
      .def("shape_range_info_collected",
           &AnalysisConfig::shape_range_info_collected)
      .def("enable_tuned_tensorrt_dynamic_shape",
           &AnalysisConfig::EnableTunedTensorRtDynamicShape)
      .def("tuned_tensorrt_dynamic_shape",
           &AnalysisConfig::tuned_tensorrt_dynamic_shape)
      .def("trt_allow_build_at_runtime",
           &AnalysisConfig::trt_allow_build_at_runtime)
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      .def("exp_disable_tensorrt_ops", &AnalysisConfig::Exp_DisableTensorRtOPs)
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      .def("enable_tensorrt_dla", &AnalysisConfig::EnableTensorRtDLA,
           py::arg("dla_core") = 0)
      .def("tensorrt_dla_enabled", &AnalysisConfig::tensorrt_dla_enabled)
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      .def("tensorrt_engine_enabled", &AnalysisConfig::tensorrt_engine_enabled)
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      .def("enable_dlnne", &AnalysisConfig::EnableDlnne,
           py::arg("min_subgraph_size") = 3)
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      .def("enable_lite_engine", &AnalysisConfig::EnableLiteEngine,
           py::arg("precision_mode") = AnalysisConfig::Precision::kFloat32,
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           py::arg("zero_copy") = false,
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           py::arg("passes_filter") = std::vector<std::string>(),
           py::arg("ops_filter") = std::vector<std::string>())
      .def("lite_engine_enabled", &AnalysisConfig::lite_engine_enabled)
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      .def("switch_ir_debug", &AnalysisConfig::SwitchIrDebug,
           py::arg("x") = true)
      .def("enable_mkldnn", &AnalysisConfig::EnableMKLDNN)
      .def("mkldnn_enabled", &AnalysisConfig::mkldnn_enabled)
      .def("set_cpu_math_library_num_threads",
           &AnalysisConfig::SetCpuMathLibraryNumThreads)
      .def("cpu_math_library_num_threads",
           &AnalysisConfig::cpu_math_library_num_threads)
      .def("to_native_config", &AnalysisConfig::ToNativeConfig)
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      .def("enable_quantizer", &AnalysisConfig::EnableMkldnnQuantizer)
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      .def("enable_mkldnn_bfloat16", &AnalysisConfig::EnableMkldnnBfloat16)
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#ifdef PADDLE_WITH_MKLDNN
      .def("quantizer_config", &AnalysisConfig::mkldnn_quantizer_config,
           py::return_value_policy::reference)
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      .def("set_mkldnn_cache_capacity", &AnalysisConfig::SetMkldnnCacheCapacity,
           py::arg("capacity") = 0)
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      .def("set_bfloat16_op", &AnalysisConfig::SetBfloat16Op)
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#endif
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      .def("set_mkldnn_op", &AnalysisConfig::SetMKLDNNOp)
      .def("set_model_buffer", &AnalysisConfig::SetModelBuffer)
      .def("model_from_memory", &AnalysisConfig::model_from_memory)
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      .def("delete_pass",
           [](AnalysisConfig &self, const std::string &pass) {
             self.pass_builder()->DeletePass(pass);
           })
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      .def("pass_builder",
           [](AnalysisConfig &self) {
             return dynamic_cast<PaddlePassBuilder *>(self.pass_builder());
           },
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           py::return_value_policy::reference);
}

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#ifdef PADDLE_WITH_MKLDNN
void BindMkldnnQuantizerConfig(py::module *m) {
  py::class_<MkldnnQuantizerConfig> quantizer_config(*m,
                                                     "MkldnnQuantizerConfig");
  quantizer_config.def(py::init<const MkldnnQuantizerConfig &>())
      .def(py::init<>())
      .def("set_quant_data",
           [](MkldnnQuantizerConfig &self,
              const std::vector<PaddleTensor> &data) {
             auto warmup_data =
                 std::make_shared<std::vector<PaddleTensor>>(data);
             self.SetWarmupData(warmup_data);
             return;
           })
      .def("set_quant_batch_size", &MkldnnQuantizerConfig::SetWarmupBatchSize)
      .def(
          "set_enabled_op_types",
          (void (MkldnnQuantizerConfig::*)(std::unordered_set<std::string> &)) &
              MkldnnQuantizerConfig::SetEnabledOpTypes);
}
#endif

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void BindAnalysisPredictor(py::module *m) {
  py::class_<AnalysisPredictor, PaddlePredictor>(*m, "AnalysisPredictor")
      .def(py::init<const AnalysisConfig &>())
      .def("init", &AnalysisPredictor::Init)
      .def(
          "run",
          [](AnalysisPredictor &self, const std::vector<PaddleTensor> &inputs) {
            std::vector<PaddleTensor> outputs;
            self.Run(inputs, &outputs);
            return outputs;
          })
      .def("get_input_tensor", &AnalysisPredictor::GetInputTensor)
      .def("get_output_tensor", &AnalysisPredictor::GetOutputTensor)
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      .def("get_input_names", &AnalysisPredictor::GetInputNames)
      .def("get_output_names", &AnalysisPredictor::GetOutputNames)
      .def("get_input_tensor_shape", &AnalysisPredictor::GetInputTensorShape)
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      .def("zero_copy_run", &AnalysisPredictor::ZeroCopyRun)
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      .def("clear_intermediate_tensor",
           &AnalysisPredictor::ClearIntermediateTensor)
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      .def("try_shrink_memory", &AnalysisPredictor::TryShrinkMemory)
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      .def("create_feed_fetch_var", &AnalysisPredictor::CreateFeedFetchVar)
      .def("prepare_feed_fetch", &AnalysisPredictor::PrepareFeedFetch)
      .def("prepare_argument", &AnalysisPredictor::PrepareArgument)
      .def("optimize_inference_program",
           &AnalysisPredictor::OptimizeInferenceProgram)
      .def("analysis_argument", &AnalysisPredictor::analysis_argument,
           py::return_value_policy::reference)
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      .def("clone", &AnalysisPredictor::Clone)
      .def("scope", &AnalysisPredictor::scope,
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           py::return_value_policy::reference)
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      .def("program", &AnalysisPredictor::program,
           py::return_value_policy::reference)
      .def("get_serialized_program", &AnalysisPredictor::GetSerializedProgram)
      .def("mkldnn_quantize", &AnalysisPredictor::MkldnnQuantize)
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      .def("SaveOptimModel", &AnalysisPredictor::SaveOptimModel,
           py::arg("dir"));
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}
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void BindPaddleInferPredictor(py::module *m) {
  py::class_<paddle_infer::Predictor>(*m, "PaddleInferPredictor")
      .def(py::init<const paddle_infer::Config &>())
      .def("get_input_names", &paddle_infer::Predictor::GetInputNames)
      .def("get_output_names", &paddle_infer::Predictor::GetOutputNames)
      .def("get_input_handle", &paddle_infer::Predictor::GetInputHandle)
      .def("get_output_handle", &paddle_infer::Predictor::GetOutputHandle)
      .def("run", &paddle_infer::Predictor::Run)
      .def("clone", &paddle_infer::Predictor::Clone)
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      .def("try_shrink_memory", &paddle_infer::Predictor::TryShrinkMemory)
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      .def("clear_intermediate_tensor",
           &paddle_infer::Predictor::ClearIntermediateTensor);
}

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void BindZeroCopyTensor(py::module *m) {
  py::class_<ZeroCopyTensor>(*m, "ZeroCopyTensor")
      .def("reshape", &ZeroCopyTensor::Reshape)
      .def("copy_from_cpu", &ZeroCopyTensorCreate<int32_t>)
      .def("copy_from_cpu", &ZeroCopyTensorCreate<int64_t>)
      .def("copy_from_cpu", &ZeroCopyTensorCreate<float>)
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      .def("copy_from_cpu", &ZeroCopyTensorCreate<paddle_infer::float16>)
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      .def("copy_to_cpu", &ZeroCopyTensorToNumpy)
      .def("shape", &ZeroCopyTensor::shape)
      .def("set_lod", &ZeroCopyTensor::SetLoD)
      .def("lod", &ZeroCopyTensor::lod)
      .def("type", &ZeroCopyTensor::type);
}

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void BindPaddleInferTensor(py::module *m) {
  py::class_<paddle_infer::Tensor>(*m, "PaddleInferTensor")
      .def("reshape", &paddle_infer::Tensor::Reshape)
      .def("copy_from_cpu", &PaddleInferTensorCreate<int32_t>)
      .def("copy_from_cpu", &PaddleInferTensorCreate<int64_t>)
      .def("copy_from_cpu", &PaddleInferTensorCreate<float>)
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      .def("copy_from_cpu", &PaddleInferTensorCreate<paddle_infer::float16>)
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      .def("copy_to_cpu", &PaddleInferTensorToNumpy)
      .def("shape", &paddle_infer::Tensor::shape)
      .def("set_lod", &paddle_infer::Tensor::SetLoD)
      .def("lod", &paddle_infer::Tensor::lod)
      .def("type", &paddle_infer::Tensor::type);
}

void BindPredictorPool(py::module *m) {
  py::class_<paddle_infer::services::PredictorPool>(*m, "PredictorPool")
      .def(py::init<const paddle_infer::Config &, size_t>())
      .def("retrive", &paddle_infer::services::PredictorPool::Retrive,
           py::return_value_policy::reference);
}

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void BindPaddlePassBuilder(py::module *m) {
  py::class_<PaddlePassBuilder>(*m, "PaddlePassBuilder")
      .def(py::init<const std::vector<std::string> &>())
      .def("set_passes",
           [](PaddlePassBuilder &self, const std::vector<std::string> &passes) {
             self.ClearPasses();
             for (auto pass : passes) {
               self.AppendPass(std::move(pass));
             }
           })
      .def("append_pass", &PaddlePassBuilder::AppendPass)
      .def("insert_pass", &PaddlePassBuilder::InsertPass)
      .def("delete_pass",
           [](PaddlePassBuilder &self, const std::string &pass_type) {
             self.DeletePass(pass_type);
           })
      .def("append_analysis_pass", &PaddlePassBuilder::AppendAnalysisPass)
      .def("turn_on_debug", &PaddlePassBuilder::TurnOnDebug)
      .def("debug_string", &PaddlePassBuilder::DebugString)
      .def("all_passes", &PaddlePassBuilder::AllPasses,
           py::return_value_policy::reference)
      .def("analysis_passes", &PaddlePassBuilder::AnalysisPasses);

  py::class_<PassStrategy, PaddlePassBuilder>(*m, "PassStrategy")
      .def(py::init<const std::vector<std::string> &>())
      .def("enable_cudnn", &PassStrategy::EnableCUDNN)
      .def("enable_mkldnn", &PassStrategy::EnableMKLDNN)
      .def("enable_mkldnn_quantizer", &PassStrategy::EnableMkldnnQuantizer)
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      .def("enable_mkldnn_bfloat16", &PassStrategy::EnableMkldnnBfloat16)
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      .def("use_gpu", &PassStrategy::use_gpu);

  py::class_<CpuPassStrategy, PassStrategy>(*m, "CpuPassStrategy")
      .def(py::init<>())
      .def(py::init<const CpuPassStrategy &>())
      .def("enable_cudnn", &CpuPassStrategy::EnableCUDNN)
      .def("enable_mkldnn", &CpuPassStrategy::EnableMKLDNN)
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      .def("enable_mkldnn_quantizer", &CpuPassStrategy::EnableMkldnnQuantizer)
      .def("enable_mkldnn_bfloat16", &CpuPassStrategy::EnableMkldnnBfloat16);
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  py::class_<GpuPassStrategy, PassStrategy>(*m, "GpuPassStrategy")
      .def(py::init<>())
      .def(py::init<const GpuPassStrategy &>())
      .def("enable_cudnn", &GpuPassStrategy::EnableCUDNN)
      .def("enable_mkldnn", &GpuPassStrategy::EnableMKLDNN)
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      .def("enable_mkldnn_quantizer", &GpuPassStrategy::EnableMkldnnQuantizer)
      .def("enable_mkldnn_bfloat16", &GpuPassStrategy::EnableMkldnnBfloat16);
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}
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}  // namespace
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}  // namespace pybind
}  // namespace paddle