eager_method.cc 82.5 KB
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/* 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. */
// disable numpy compile error
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#if defined(_MSC_VER)
#include <BaseTsd.h>
typedef SSIZE_T ssize_t;
#endif

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#include <Python.h>

#include <string>
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#include <unordered_map>
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#include <vector>

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#include "paddle/fluid/eager/accumulation/accumulation_node.h"
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#include "paddle/fluid/eager/api/all.h"
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#include "paddle/fluid/eager/api/generated/fluid_generated/dygraph_forward_api.h"
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#include "paddle/fluid/eager/autograd_meta.h"
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#include "paddle/fluid/eager/grad_node_info.h"
#include "paddle/fluid/eager/hooks.h"
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#include "paddle/fluid/eager/utils.h"
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#include "paddle/fluid/framework/convert_utils.h"
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#include "paddle/fluid/memory/allocation/allocator.h"
#include "paddle/fluid/memory/memcpy.h"
#include "paddle/fluid/platform/enforce.h"
#include "paddle/fluid/pybind/eager.h"
#include "paddle/fluid/pybind/eager_utils.h"
#include "paddle/fluid/pybind/exception.h"
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#include "paddle/fluid/pybind/slice_utils.h"
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#include "paddle/fluid/pybind/uva_utils.h"
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#include "paddle/phi/api/include/api.h"
#include "paddle/phi/common/data_type.h"
#include "paddle/phi/core/compat/convert_utils.h"
#include "paddle/phi/core/dense_tensor.h"
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#include "paddle/phi/core/sparse_coo_tensor.h"
#include "paddle/phi/core/sparse_csr_tensor.h"
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#include "pybind11/detail/internals.h"
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#include "pybind11/numpy.h"
#include "pybind11/pybind11.h"
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#pragma GCC diagnostic ignored "-Wmissing-field-initializers"
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#include "paddle/fluid/eager/amp_utils.h"
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#include "paddle/fluid/eager/api/generated/eager_generated/forwards/dygraph_functions.h"
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#include "paddle/fluid/eager/eager_amp_auto_cast.h"
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#include "paddle/fluid/framework/python_headers.h"
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#include "paddle/fluid/memory/allocation/mmap_allocator.h"
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#include "paddle/fluid/pybind/tensor_py.h"
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#include "paddle/phi/core/ddim.h"
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#include "paddle/phi/core/tensor_utils.h"
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#include "paddle/phi/kernels/funcs/math_function.h"
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namespace paddle {
namespace pybind {

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extern void InitTensorWithNumpyValue(TensorObject* self,
                                     const pybind11::object& array,
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                                     const paddle::platform::Place& place,
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                                     bool zero_copy);
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extern PyTypeObject* p_tensor_type;
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Py_ssize_t GetSliceIndexFromPyObject(PyObject* obj) {
  if (PyObject_IsInstance(obj, reinterpret_cast<PyObject*>(p_tensor_type))) {
    VLOG(6) << "Call GetSliceIndexFromTensor in Eager";
    paddle::experimental::Tensor tensor = CastPyArg2Tensor(obj, 0);
    PADDLE_ENFORCE_EQ(
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        tensor.initialized(),
        true,
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        paddle::platform::errors::InvalidArgument(
            "We can only support initialized tensor in slice, however we got "
            "uninitialized tensor %s, please check your code.",
            tensor.name()));
    return GetSliceIndexFromTensor((*static_cast<phi::DenseTensor*>(
        CastPyArg2Tensor(obj, 0).impl().get())));
  } else {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "We should only get paddle::experimental::Tensor or VarBase in this "
        "method, when you reach this means we got another type index."));
  }
}

bool PyCheckTensor(PyObject* obj) {
  return PyObject_IsInstance(obj, reinterpret_cast<PyObject*>(p_tensor_type));
}

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static PyObject* tensor_method_numpy(TensorObject* self,
                                     PyObject* args,
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                                     PyObject* kwargs) {
  EAGER_TRY
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  auto& api = pybind11::detail::npy_api::get();
  if (!self->tensor.impl()) {
    Py_intptr_t py_dims[paddle::framework::DDim::kMaxRank];
    Py_intptr_t py_strides[paddle::framework::DDim::kMaxRank];
    py_dims[0] = 0;
    py_strides[0] = 0;

    PyObject* array = api.PyArray_NewFromDescr_(
        api.PyArray_Type_,
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        api.PyArray_DescrFromType_(pybind11::detail::npy_api::NPY_FLOAT_),
        1,
        py_dims,
        py_strides,
        nullptr,
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        pybind11::detail::npy_api::NPY_ARRAY_ALIGNED_ |
            pybind11::detail::npy_api::NPY_ARRAY_WRITEABLE_,
        nullptr);
    return array;
  }
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  auto tensor_dims = self->tensor.shape();
  auto numpy_dtype = TensorDtype2NumpyDtype(self->tensor.type());
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  auto sizeof_dtype = phi::SizeOf(self->tensor.type());
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  Py_intptr_t py_dims[paddle::framework::DDim::kMaxRank];
  Py_intptr_t py_strides[paddle::framework::DDim::kMaxRank];
  size_t numel = 1;
  for (int i = tensor_dims.size() - 1; i >= 0; --i) {
    py_dims[i] = static_cast<size_t>(tensor_dims[i]);
    py_strides[i] = sizeof_dtype * numel;
    numel *= py_dims[i];
  }
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  PyObject* array = api.PyArray_NewFromDescr_(
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      api.PyArray_Type_,
      api.PyArray_DescrFromType_(numpy_dtype),
      tensor_dims.size(),
      py_dims,
      py_strides,
      nullptr,
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      pybind11::detail::npy_api::NPY_ARRAY_ALIGNED_ |
          pybind11::detail::npy_api::NPY_ARRAY_WRITEABLE_,
      nullptr);

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  if (!self->tensor.impl()->initialized()) {
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    if (tensor_dims.size() == 0) {
      py_dims[0] = 0;
      py_strides[0] = 0;
      PyObject* array = api.PyArray_NewFromDescr_(
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          api.PyArray_Type_,
          api.PyArray_DescrFromType_(numpy_dtype),
          1,
          py_dims,
          py_strides,
          nullptr,
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          pybind11::detail::npy_api::NPY_ARRAY_ALIGNED_ |
              pybind11::detail::npy_api::NPY_ARRAY_WRITEABLE_,
          nullptr);
      return array;
    }
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    return array;
  }

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  if (self->tensor.is_cpu() || self->tensor.is_gpu_pinned()) {
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    eager_gil_scoped_release guard;
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    platform::CPUPlace place;
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    if (self->tensor.is_selected_rows()) {
      VLOG(6) << "Getting SelectedRows's numpy value";
      auto* selected_rows =
          static_cast<phi::SelectedRows*>(self->tensor.impl().get());
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      auto* dense_tensor =
          static_cast<phi::DenseTensor*>(selected_rows->mutable_value());
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      // deep copy
      paddle::memory::Copy(
          place,
          reinterpret_cast<void*>(pybind11::detail::array_proxy(array)->data),
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          place,
          dense_tensor->data(),
          sizeof_dtype * numel);
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    } else {
      VLOG(6) << "Getting DenseTensor's numpy value";
      auto dense_tensor =
          std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
      // deep copy
      paddle::memory::Copy(
          place,
          reinterpret_cast<void*>(pybind11::detail::array_proxy(array)->data),
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          place,
          dense_tensor->data(),
          sizeof_dtype * numel);
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    }

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#if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP)
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  } else if (self->tensor.is_gpu()) {
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    eager_gil_scoped_release guard;
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#if defined(PADDLE_WITH_CUDA)
    gpuMemcpyKind kind = cudaMemcpyDeviceToHost;
#elif defined(PADDLE_WITH_HIP)
    gpuMemcpyKind kind = hipMemcpyDeviceToHost;
#endif
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    if (self->tensor.is_selected_rows()) {
      VLOG(6) << "Getting SelectedRows's numpy value";
      auto* selected_rows =
          static_cast<phi::SelectedRows*>(self->tensor.impl().get());
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      auto* dense_tensor =
          static_cast<phi::DenseTensor*>(selected_rows->mutable_value());
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      paddle::platform::GpuMemcpySync(
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          pybind11::detail::array_proxy(array)->data,
          dense_tensor->data(),
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          phi::SizeOf(dense_tensor->dtype()) * dense_tensor->numel(),
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          kind);
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    } else {
      VLOG(6) << "Getting DenseTensor's numpy value";
      auto dense_tensor =
          std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
      paddle::platform::GpuMemcpySync(
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          pybind11::detail::array_proxy(array)->data,
          dense_tensor->data(),
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          phi::SizeOf(dense_tensor->dtype()) * dense_tensor->numel(),
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          kind);
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    }
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#endif
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#if defined(PADDLE_WITH_XPU)
  } else if (self->tensor.is_xpu()) {
    platform::CPUPlace place;
    if (self->tensor.is_selected_rows()) {
      VLOG(6) << "Getting SelectedRows's numpy value";
      auto* selected_rows =
          static_cast<phi::SelectedRows*>(self->tensor.impl().get());
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      auto* dense_tensor =
          static_cast<phi::DenseTensor*>(selected_rows->mutable_value());
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      paddle::memory::Copy(
          place,
          reinterpret_cast<void*>(pybind11::detail::array_proxy(array)->data),
          dense_tensor->place(),
          dense_tensor->data(),
          sizeof_dtype * numel);
    } else {
      VLOG(6) << "Getting DenseTensor's numpy value";
      auto dense_tensor =
          std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
      paddle::memory::Copy(
          place,
          reinterpret_cast<void*>(pybind11::detail::array_proxy(array)->data),
          dense_tensor->place(),
          dense_tensor->data(),
          sizeof_dtype * numel);
    }
#endif
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#ifdef PADDLE_WITH_CUSTOM_DEVICE
  } else if (self->tensor.is_custom_device()) {
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    eager_gil_scoped_release guard;
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    if (self->tensor.is_selected_rows()) {
      VLOG(6) << "Getting SelectedRows's numpy value";
      auto* selected_rows =
          static_cast<phi::SelectedRows*>(self->tensor.impl().get());
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      auto* dense_tensor =
          static_cast<phi::DenseTensor*>(selected_rows->mutable_value());
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      phi::DeviceManager::GetDeviceWithPlace(self->tensor.place())
          ->MemoryCopyD2H(
              pybind11::detail::array_proxy(array)->data,
              dense_tensor->data(),
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              phi::SizeOf(dense_tensor->dtype()) * dense_tensor->numel());
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    } else {
      VLOG(6) << "Getting DenseTensor's numpy value";
      auto dense_tensor =
          std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
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      // TODO(qili93): temporary for ascned npu performance to be removed along
      // with npu_identity op
      paddle::experimental::Tensor temp_tensor(
          std::make_shared<phi::DenseTensor>());
      if (dense_tensor->storage_properties_initialized()) {
        temp_tensor = npu_identity_ad_func(self->tensor, -1);
        dense_tensor =
            std::dynamic_pointer_cast<phi::DenseTensor>(temp_tensor.impl());
      }
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      phi::DeviceManager::GetDeviceWithPlace(self->tensor.place())
          ->MemoryCopyD2H(
              pybind11::detail::array_proxy(array)->data,
              dense_tensor->data(),
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              phi::SizeOf(dense_tensor->dtype()) * dense_tensor->numel());
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    }
#endif
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  } else {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "Tensor.numpy() only support cpu tensor."));
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    RETURN_PY_NONE
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  }

  return array;
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_numpy_for_string_tensor(TensorObject* self,
                                                       PyObject* args,
                                                       PyObject* kwargs) {
  EAGER_TRY
  auto& api = pybind11::detail::npy_api::get();
  if (!self->tensor.impl() || !self->tensor.impl()->initialized()) {
    VLOG(6) << "The StringTensor is uninitialized. Return the empty string "
               "numpy array.";
    Py_intptr_t py_dims[paddle::framework::DDim::kMaxRank];
    Py_intptr_t py_strides[paddle::framework::DDim::kMaxRank];
    py_dims[0] = 0;
    py_strides[0] = 0;

    PyObject* array = api.PyArray_NewFromDescr_(
        api.PyArray_Type_,
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        api.PyArray_DescrFromType_(pybind11::detail::npy_api::NPY_UNICODE_),
        1,
        py_dims,
        py_strides,
        nullptr,
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        pybind11::detail::npy_api::NPY_ARRAY_ALIGNED_ |
            pybind11::detail::npy_api::NPY_ARRAY_WRITEABLE_,
        nullptr);
    return array;
  }

  if (self->tensor.is_cpu()) {
    VLOG(6) << "Getting StringTensor's numpy value";
    auto string_tensor =
        std::dynamic_pointer_cast<phi::StringTensor>(self->tensor.impl());
    const auto* st_ptr = string_tensor->data();
    auto numel = self->tensor.numel();
    auto tensor_dims = self->tensor.shape();
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    // Get the max unicode length of StringTensor to create numpy unicode
    // string array.
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    auto* longest_pstring = std::max_element(
        st_ptr, st_ptr + numel, [](const auto& a, const auto& b) {
          auto a_unicode_len =
              phi::strings::GetUnicodeStrLen(a.data(), a.size());
          auto b_unicode_len =
              phi::strings::GetUnicodeStrLen(b.data(), b.size());
          return a_unicode_len < b_unicode_len;
        });
    size_t max_unicode_length = phi::strings::GetUnicodeStrLen(
        longest_pstring->data(), longest_pstring->size());
    max_unicode_length = (max_unicode_length == 0) ? 1 : max_unicode_length;
    VLOG(6) << "The max unicode length is " << max_unicode_length;
    auto sp = std::make_unique<uint32_t[]>(max_unicode_length * numel);
    auto py_array_data = sp.get();
    memset(py_array_data, 0, max_unicode_length * numel * sizeof(uint32_t));
    for (int64_t i = 0; i < numel; ++i) {
      auto curr_unicode_len =
          phi::strings::GetUnicodeStrLen(st_ptr[i].data(), st_ptr[i].size());
      phi::strings::GetUnicodeStr(st_ptr[i].data(),
                                  py_array_data + i * max_unicode_length,
                                  curr_unicode_len);
    }
    py::array array(py::dtype("U" + std::to_string(max_unicode_length)),
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                    tensor_dims,
                    {},
                    py_array_data);
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    return array.release().ptr();
  } else {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "StringTensor.numpy() only support cpu tensor."));
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    RETURN_PY_NONE
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  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method__is_initialized(TensorObject* self,
                                               PyObject* args,
                                               PyObject* kwargs) {
  EAGER_TRY
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  return ToPyObject(self->tensor.initialized());
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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method__is_dense_tensor_hold_allocation(
    TensorObject* self, PyObject* args, PyObject* kwargs) {
  EAGER_TRY
  auto dense_tensor =
      std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
  if (dense_tensor) {
    return ToPyObject(dense_tensor->IsInitialized());
  } else {
    return ToPyObject(false);
  }

  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static void IncreaseTensorReferenceCountUntilCopyComplete(
    const paddle::experimental::Tensor& tensor, const platform::Place& place) {
  auto place_ = platform::is_gpu_place(place) ? place : tensor.place();

  auto tracer = egr::Controller::Instance().GetCurrentTracer();
  auto gc = tracer->MutableGarbageCollectorIfNotExists(place_);

  // Note(dev): This is an empty callback, the only way is to "reference"
  // inner memory Holder, so it will not be destructed until the kernels
  // launched at current stream of given place is finished, such as
  // CUDAPinned Mem -> CUDA by cudamemcpyAsync.
  auto callback = [tensor, place_]() {
    VLOG(3) << "Run callback of Tensor:" << tensor.name() << " at place "
            << place_;
  };
  gc->DirectClearCallback(callback);
}

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static PyObject* tensor_method__copy_to(TensorObject* self,
                                        PyObject* args,
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                                        PyObject* kwargs) {
  EAGER_TRY
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  auto place = CastPyArg2Place(PyTuple_GET_ITEM(args, 0), 0);
  bool blocking = CastPyArg2AttrBoolean(PyTuple_GET_ITEM(args, 1), 1);
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  paddle::experimental::Tensor cp_tensor;
  {
    eager_gil_scoped_release guard;
    cp_tensor = self->tensor.copy_to(place, blocking);
    if (!blocking) {
      IncreaseTensorReferenceCountUntilCopyComplete(self->tensor, place);
    }
    egr::EagerUtils::autograd_meta(&cp_tensor)->SetStopGradient(true);
    egr::EagerUtils::autograd_meta(&cp_tensor)
        ->SetPersistable(
            egr::EagerUtils::autograd_meta(&(self->tensor))->Persistable());
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  }
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  return ToPyObject(cp_tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_cpu(TensorObject* self,
                                   PyObject* args,
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                                   PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor cp_tensor;
  {
    eager_gil_scoped_release guard;
    cp_tensor = self->tensor.copy_to(phi::CPUPlace(), true);
    egr::EagerUtils::autograd_meta(&cp_tensor)->SetStopGradient(true);
    egr::EagerUtils::autograd_meta(&cp_tensor)
        ->SetPersistable(
            egr::EagerUtils::autograd_meta(&(self->tensor))->Persistable());
  }
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  return ToPyObject(cp_tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_reconstruct_from_(TensorObject* self,
                                                 PyObject* args,
                                                 PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor src_tensor =
      CastPyArg2Tensor(PyTuple_GET_ITEM(args, 0), 0);
  std::string orig_name = self->tensor.name();
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  VLOG(6) << "Start Reconstructing Tensor from" << src_tensor.name() << " to "
          << orig_name;
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  self->tensor = src_tensor;
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  // Recover source name
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  self->tensor.set_name(orig_name);
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  VLOG(6) << "Finished Reconstructing Tensor from" << src_tensor.name()
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          << " to " << self->tensor.name();
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_copy_(TensorObject* self,
                                     PyObject* args,
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                                     PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor src_tensor =
      CastPyArg2Tensor(PyTuple_GET_ITEM(args, 0), 0);
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  bool blocking = CastPyArg2AttrBoolean(PyTuple_GET_ITEM(args, 1), 1);
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  VLOG(6) << "Start Copy Tensor " << src_tensor.name() << " to "
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          << self->tensor.name();
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  if (!self->tensor.initialized()) {
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    eager_gil_scoped_release guard;
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    egr::EagerUtils::autograd_meta(&(self->tensor))
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        ->SetStopGradient(
            egr::EagerUtils::autograd_meta(&(src_tensor))->StopGradient());
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    egr::EagerUtils::autograd_meta(&(self->tensor))
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        ->SetPersistable(
            egr::EagerUtils::autograd_meta(&(src_tensor))->Persistable());
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    if (src_tensor.initialized()) {
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      self->tensor.copy_(src_tensor, src_tensor.place(), blocking);
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    }
  } else {
    if (src_tensor.initialized()) {
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      eager_gil_scoped_release guard;
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      self->tensor.copy_(src_tensor, self->tensor.place(), blocking);
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    }
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  }

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  VLOG(6) << "Finish Copy Tensor " << src_tensor.name() << " to "
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          << self->tensor.name();
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_clone(TensorObject* self,
                                     PyObject* args,
                                     PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor out;
  {
    eager_gil_scoped_release guard;
    PADDLE_ENFORCE_EQ(
        self->tensor.initialized(),
        true,
        paddle::platform::errors::InvalidArgument(
            "We can only support initialized tensor in clone, however we got "
            "uninitialized tensor %s, please check your code.",
            self->tensor.name()));
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    out = assign_ad_func(self->tensor);
  }
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  return ToPyObject(out);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_retain_grads(TensorObject* self,
                                     PyObject* args,
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                                     PyObject* kwargs) {
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  EAGER_TRY
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  if (egr::Controller::Instance().HasGrad()) {
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    eager_gil_scoped_release guard;
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    auto meta = egr::EagerUtils::autograd_meta(&(self->tensor));
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    if (!meta->GetMutableGradNode()) {
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      VLOG(6) << "Make grad node of tensor: " << self->tensor.name()
524
              << "become accumulation node";
525
      meta->SetGradNode(std::make_shared<egr::GradNodeAccumulation>(meta));
526
    }
527
    egr::egr_utils_api::RetainGradForTensor(self->tensor);
528
  }
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_clear_gradient(TensorObject* self,
                                       PyObject* args,
536
                                       PyObject* kwargs) {
537
  EAGER_TRY
538
  VLOG(4) << "ClearGradient " << self->tensor.name();
539

540 541 542
  Py_ssize_t args_num = PyTuple_Size(args);
  bool set_to_zero = true;
  if (args_num == (Py_ssize_t)1) {
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    set_to_zero = CastPyArg2AttrBoolean(PyTuple_GET_ITEM(args, 0), 0);
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  }

546
  paddle::experimental::Tensor* grad;
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  bool is_leaf = egr::egr_utils_api::IsLeafTensor(self->tensor);
  if (is_leaf) {
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    grad = egr::EagerUtils::mutable_grad(self->tensor);
    PADDLE_ENFORCE(grad != nullptr,
                   paddle::platform::errors::Fatal(
                       "Detected NULL grad"
                       "Please check if you have manually cleared"
                       "the grad inside autograd_meta"));
555
  } else {
556
    auto meta = egr::EagerUtils::unsafe_autograd_meta(self->tensor);
557
    grad = meta->MutableGrad();
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  }

560
  if (grad->impl()) {
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    eager_gil_scoped_release guard;
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    if (grad->is_selected_rows()) {
      auto selected_rows =
          std::dynamic_pointer_cast<phi::SelectedRows>(grad->impl());
      if (selected_rows->mutable_value()->IsInitialized()) {
        selected_rows->mutable_rows()->clear();
        selected_rows->mutable_value()->clear();
      }
    } else if (grad->is_dense_tensor()) {
      if (grad->initialized()) {
        if (set_to_zero) {
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          auto* grad_t = static_cast<phi::DenseTensor*>(grad->impl().get());
          auto* dev_ctx =
              platform::DeviceContextPool::Instance().Get(grad_t->place());
          phi::funcs::set_constant(*dev_ctx, grad_t, 0.0);
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          if (is_leaf) {
            std::static_pointer_cast<egr::GradNodeAccumulation>(
                egr::EagerUtils::grad_node(self->tensor))
                ->SetFakeEmpty(true);
          }
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        } else {
          VLOG(4) << "Gradient of " << self->tensor.name()
                  << " is initialized, will be released.";
          auto dense_tensor =
              std::dynamic_pointer_cast<phi::DenseTensor>(grad->impl());
          dense_tensor->MoveMemoryHolder();
        }
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      }
    }
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  }
591

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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__zero_grads(TensorObject* self,
                                    PyObject* args,
599
                                    PyObject* kwargs) {
600
  EAGER_TRY
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  VLOG(4) << "ZeroGrads " << self->tensor.name();
602

603
  if (egr::egr_utils_api::IsLeafTensor(self->tensor)) {
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    eager_gil_scoped_release guard;
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    // Add RetainGrad as PostHook to AccumulationNode
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    paddle::experimental::Tensor* grad =
        egr::EagerUtils::mutable_grad(self->tensor);
    PADDLE_ENFORCE(grad != nullptr,
                   paddle::platform::errors::Fatal(
                       "Detected NULL grad"
                       "Please check if you have manually cleared"
                       "the grad inside autograd_meta"));
    if (grad->initialized()) {
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      if (grad->is_dense_tensor()) {
        auto* t = static_cast<phi::DenseTensor*>(grad->impl().get());
        auto* dev_ctx = platform::DeviceContextPool::Instance().Get(t->place());
        phi::funcs::set_constant(*dev_ctx, t, 0.0);
      } else {
        grad->set_impl(paddle::experimental::zeros_like(*(grad)).impl());
      }
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    }
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  } else {
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    eager_gil_scoped_release guard;
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    auto meta = egr::EagerUtils::unsafe_autograd_meta(self->tensor);
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    if (meta->MutableGrad()->initialized()) {
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      if (meta->MutableGrad()->is_dense_tensor()) {
        auto* t =
            static_cast<phi::DenseTensor*>(meta->MutableGrad()->impl().get());
        auto* dev_ctx = platform::DeviceContextPool::Instance().Get(t->place());
        phi::funcs::set_constant(*dev_ctx, t, 0.0);
      } else {
        meta->MutableGrad()->set_impl(
            paddle::experimental::zeros_like(*(meta->MutableGrad())).impl());
      }
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    }
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  }

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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__share_buffer_to(TensorObject* self,
                                         PyObject* args,
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                                         PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor* dst_ptr =
      &(reinterpret_cast<TensorObject*>(PyTuple_GET_ITEM(args, 0))->tensor);
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  PADDLE_ENFORCE_EQ(self->tensor.initialized(),
                    true,
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                    platform::errors::InvalidArgument(
                        "Tensor %s has not been initialized! please initialize "
                        "src tensor before share_buffer_with to other.",
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                        self->tensor.name()));
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  auto* src_tensor = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
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  if (!dst_ptr->defined()) {
    dst_ptr->set_impl(std::make_shared<phi::DenseTensor>());
  }
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  auto dst_tensor = static_cast<phi::DenseTensor*>(dst_ptr->impl().get());
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  dst_tensor->ShareBufferWith(*src_tensor);
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  dst_tensor->ShareDataTypeWith(*src_tensor);
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__is_shared_buffer_with(TensorObject* self,
                                               PyObject* args,
                                               PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor* dst_ptr =
      &(reinterpret_cast<TensorObject*>(PyTuple_GET_ITEM(args, 0))->tensor);
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  PADDLE_ENFORCE_EQ(self->tensor.initialized(),
                    true,
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                    platform::errors::InvalidArgument(
                        "Tensor %s has not been initialized! please initialize "
                        "src tensor before share_buffer_with to other.",
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                        self->tensor.name()));
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  bool res = false;
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  if (!self->tensor.defined() || !dst_ptr->defined()) {
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    return ToPyObject(res);
  }
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  auto* self_ptr = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
  auto dst_tensor = static_cast<phi::DenseTensor*>(dst_ptr->impl().get());
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  res = dst_tensor->IsSharedBufferWith(*self_ptr);
  return ToPyObject(res);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__share_underline_tensor_to(TensorObject* self,
                                                   PyObject* args,
                                                   PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor* src_ptr =
      &(reinterpret_cast<TensorObject*>(PyTuple_GET_ITEM(args, 0))->tensor);
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  PADDLE_ENFORCE_EQ(self->tensor.initialized(),
                    true,
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                    platform::errors::InvalidArgument(
                        "Tensor %s has not been initialized! please initialize "
                        "src tensor before share_buffer_with to other.",
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                        self->tensor.name()));
  src_ptr->set_impl(self->tensor.impl());
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__is_shared_underline_tensor_with(TensorObject* self,
                                                         PyObject* args,
                                                         PyObject* kwargs) {
  EAGER_TRY
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  paddle::experimental::Tensor src_tensor =
      CastPyArg2Tensor(PyTuple_GET_ITEM(args, 0), 0);
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  PADDLE_ENFORCE_EQ(src_tensor.initialized(),
                    true,
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                    platform::errors::InvalidArgument(
                        "Tensor %s has not been initialized! please initialize "
                        "src tensor before share_buffer_with to other.",
                        src_tensor.name()));
  bool res = false;
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  if (!self->tensor.defined() || !src_tensor.defined()) {
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    return ToPyObject(res);
  }
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  res = (self->tensor.impl().get() == src_tensor.impl().get());
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  return ToPyObject(res);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_detach(TensorObject* self,
                                      PyObject* args,
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                                      PyObject* kwargs) {
  EAGER_TRY
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  PADDLE_ENFORCE_EQ(
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      self->tensor.initialized(),
      true,
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      platform::errors::InvalidArgument("Tensor %s has not been initialized!",
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                                        self->tensor.name()));
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  PyObject* obj = p_tensor_type->tp_alloc(p_tensor_type, 0);
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  if (obj) {
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    auto v = reinterpret_cast<TensorObject*>(obj);
    new (&(v->tensor)) paddle::experimental::Tensor();
    v->tensor.set_impl(self->tensor.impl());
    v->tensor.set_name(egr::Controller::Instance().GenerateUniqueName());
    auto autograd_meta_src = egr::EagerUtils::autograd_meta(&(self->tensor));
    auto autograd_meta = egr::EagerUtils::autograd_meta(&(v->tensor));
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    autograd_meta->SetPersistable(autograd_meta_src->Persistable());
  } else {
    PADDLE_THROW(platform::errors::Fatal(
        "tp_alloc return null, can not new a PyObject."));
  }

  return obj;
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_get_underline_tensor(TensorObject* self,
                                                    PyObject* args,
                                                    PyObject* kwargs) {
  EAGER_TRY
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  if (!self->tensor.defined()) {
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    // The original `get_tensor` method of Variable will create a empty tensor
    phi::DenseTensor empty_tensor;
    return ToPyObject(&empty_tensor);
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  }
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  if (self->tensor.is_dense_tensor()) {
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    auto* tensor = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
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    VLOG(6) << "tensor: " << tensor->IsInitialized();
    return ToPyObject(tensor);
  } else {
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    RETURN_PY_NONE
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  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_get_underline_selected_rows(TensorObject* self,
                                                           PyObject* args,
                                                           PyObject* kwargs) {
  EAGER_TRY
  if (!self->tensor.defined()) {
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    RETURN_PY_NONE
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  }
  if (self->tensor.is_selected_rows()) {
    auto* selected_rows =
        static_cast<phi::SelectedRows*>(self->tensor.impl().get());
    return ToPyObject(selected_rows);
  } else {
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    RETURN_PY_NONE
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  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method__get_tensor_from_selected_rows(
    TensorObject* self, PyObject* args, PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.is_selected_rows(),
                 paddle::platform::errors::Fatal(
                     "this method is only effective for SelectedRows."));

  auto* selected_rows =
      static_cast<phi::SelectedRows*>(self->tensor.impl().get());

  PADDLE_ENFORCE(
      selected_rows->initialized(),
      paddle::platform::errors::Fatal("SelectedRows must be initialized."));

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  auto* dense_tensor =
      static_cast<phi::DenseTensor*>(selected_rows->mutable_value());
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  VLOG(4) << "dense_tensor: " << dense_tensor->IsInitialized();
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  auto t = paddle::experimental::Tensor(
      egr::Controller::Instance().GenerateUniqueName());
  t.set_impl(std::make_shared<phi::DenseTensor>(*dense_tensor));

  return ToPyObject(t);

  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__getitem_index_not_tensor(TensorObject* self,
                                                  PyObject* args,
                                                  PyObject* kwargs) {
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  EAGER_TRY
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  PyObject* _index = PyTuple_GET_ITEM(args, 0);
  VLOG(4) << "Call _getitem_index_not_tensor";
  std::vector<int> slice_axes, slice_starts, slice_ends, slice_strides,
      decrease_axis, none_axes, infer_flags, list_select_idxs;
  // if index is a list, list_select_flag will be true
  bool list_select_flag = false;
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  // Note(0x45f): Using defined() instead of initialized()
  // to support slice tensor which shape like [0, 0, 0].
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  PADDLE_ENFORCE_EQ(
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      self->tensor.defined(),
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      true,
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      platform::errors::InvalidArgument(
          "tensor %s has not been initialized, we can only slice initialized "
          "tensor please init it first with numpy or other tensor.",
          self->tensor.name()));
  auto tensor = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
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  ParseIndexingSlice(tensor,
                     _index,
                     &slice_axes,
                     &slice_starts,
                     &slice_ends,
                     &slice_strides,
                     &decrease_axis,
                     &none_axes,
                     &infer_flags,
                     &list_select_idxs,
                     &list_select_flag);
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  auto out = slice_axes.empty() && !list_select_flag
                 ? self->tensor
                 : paddle::experimental::Tensor(
                       egr::Controller::Instance().GenerateUniqueName());

  if (!slice_axes.empty()) {
    framework::AttributeMap attrs = {{"axes", slice_axes},
                                     {"starts", slice_starts},
                                     {"ends", slice_ends},
                                     {"infer_flags", infer_flags},
                                     {"decrease_axis", decrease_axis}};
    std::string op_type = "slice";
    for (auto stride : slice_strides) {
      if (stride != 1) {
        op_type = "strided_slice";
        attrs.insert({"strides", slice_strides});
        attrs.erase("decrease_axis");
        break;
      }
    }
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    std::vector<int64_t> slice_axes_tmp(slice_axes.begin(), slice_axes.end());
    std::vector<int64_t> infer_flags_tmp(infer_flags.begin(),
                                         infer_flags.end());
    std::vector<int64_t> decrease_axis_tmp(decrease_axis.begin(),
                                           decrease_axis.end());

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    if (op_type == "slice") {
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      eager_gil_scoped_release guard;
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      out = slice_ad_func(self->tensor,
                          slice_axes_tmp,
                          slice_starts,
                          slice_ends,
                          infer_flags_tmp,
                          decrease_axis_tmp);
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    } else if (op_type == "strided_slice") {
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      eager_gil_scoped_release guard;
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      out = strided_slice_ad_func(
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          self->tensor, slice_axes, slice_starts, slice_ends, slice_strides);
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    } else {
      PADDLE_THROW(platform::errors::InvalidArgument(
          "Slice is only support slice and strided_slice, but we got %s which "
          "is impossible, please check your code first or contact us by "
          "issue. ",
          op_type));
    }
  }

  if (!none_axes.empty()) {
    // Deal with cases when all axes are decreased.
    // After slice, the shape of out is [1], which should have been
    // [], but Paddle doesn't support scalar.
    // In order to ensure the correctness of the final shape of out,
    // one dimension of out needs to be decreased.
    // For example:
    // # x.shape: (2,3,4)
    // out = x[0, 1, 1, None] # out.shape : (1)
    if (static_cast<int>(decrease_axis.size()) == tensor->dims().size()) {
      none_axes.pop_back();
    }
    if (!none_axes.empty()) {
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      paddle::experimental::Tensor new_out;
      {
        eager_gil_scoped_release guard;
        // Deal with cases that decrease_axes is not empty
        // For example:
        // # x.shape: (2,3,4)
        // out = x[0, 0:2, None] # out.shape : (2, 1, 4)
        for (auto& axis : none_axes) {
          int len = 0;
          for (int da : decrease_axis) {
            if (da < axis) {
              len++;
            }
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          }
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          axis -= len;
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        }
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        new_out = unsqueeze_ad_func(out, none_axes);
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      }
      return ToPyObject(new_out);
    }
  }

  // the index is a list
  if (list_select_flag) {
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    eager_gil_scoped_release guard;
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    auto select_index = paddle::experimental::Tensor(
        egr::Controller::Instance().GenerateUniqueName());
    auto idx_tensor = std::make_shared<phi::DenseTensor>();
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    select_index.set_impl(idx_tensor);
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    auto* dev_ctx = platform::DeviceContextPool::Instance().Get(
        egr::Controller::Instance().GetExpectedPlace());
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    paddle::framework::TensorFromVector(
        list_select_idxs, *dev_ctx, idx_tensor.get());
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    framework::AttributeMap attrs = {{"dim", 0}};
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    out = index_select_ad_func(self->tensor, select_index, 0);
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  }

  return ToPyObject(out);
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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__getitem_from_offset(TensorObject* self,
                                             PyObject* args,
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                                             PyObject* kwargs) {
  EAGER_TRY
  auto ptr = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
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  PADDLE_ENFORCE_NOT_NULL(ptr,
                          platform::errors::InvalidArgument(
                              "%s is not a DenseTensor.", self->tensor.name()));
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  const auto& tensor = *ptr;
  PADDLE_ENFORCE_EQ(
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      tensor.IsInitialized(),
      true,
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      platform::errors::InvalidArgument(
          "Tensor of %s is Empty, please check if it has no data.",
          self->tensor.name()));

  const auto& tensor_dims = tensor.dims();

  std::vector<size_t> dims(tensor_dims.size());
  std::vector<size_t> strides(tensor_dims.size());

  size_t numel = 1;
  for (int i = tensor_dims.size() - 1; i >= 0; --i) {
    strides[i] = numel;
    dims[i] = static_cast<size_t>(tensor_dims[i]);
    numel *= dims[i];
  }
  size_t offset = 0;
  if (PyTuple_Size(args) == 0) {
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    PADDLE_ENFORCE_EQ(numel,
                      1,
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                      platform::errors::InvalidArgument(
                          "only one element tensors can be converted to Python "
                          "scalars when no input coordinates"));
  } else if (PyTuple_Size(args) == 1) {
    offset = CastPyArg2AttrLong(PyTuple_GET_ITEM(args, 0), 0);
    PADDLE_ENFORCE_LT(
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        offset,
        numel,
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        platform::errors::InvalidArgument(
            "index %d is out of bounds for size %d", offset, numel));
  } else {
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    PADDLE_ENFORCE_EQ(PyTuple_Size(args),
                      dims.size(),
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                      platform::errors::InvalidArgument(
                          "incorrect number of indices for Tensor"));

    for (Py_ssize_t i = 0; i < PyTuple_Size(args); ++i) {
      size_t index = CastPyArg2AttrLong(PyTuple_GET_ITEM(args, i), i);
      PADDLE_ENFORCE_LT(
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          index,
          dims[i],
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          platform::errors::InvalidArgument(
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              "index %d is out fo bounds for axis %d with size %d",
              index,
              i,
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              dims[i]));
      offset += index * strides[i];
    }
  }
#define PD_FOR_EACH_DENSE_TENSOR_DATA_TYPE(_) \
  _(bool, DataType::BOOL)                     \
  _(int8_t, DataType::INT8)                   \
  _(uint8_t, DataType::UINT8)                 \
  _(int16_t, DataType::INT16)                 \
  _(uint16_t, DataType::UINT16)               \
  _(int32_t, DataType::INT32)                 \
  _(uint32_t, DataType::UINT32)               \
  _(int64_t, DataType::INT64)                 \
  _(uint64_t, DataType::UINT64)               \
  _(bfloat16, DataType::BFLOAT16)             \
  _(float16, DataType::FLOAT16)               \
  _(float, DataType::FLOAT32)                 \
  _(double, DataType::FLOAT64)                \
  _(complex64, DataType::COMPLEX64)           \
  _(complex128, DataType::COMPLEX128)

#define TENSOR_TO_PY_SCALAR(T, proto_type)                                   \
  if (tensor.dtype() == proto_type) {                                        \
    auto numpy_dtype = TensorDtype2NumpyDtype(proto_type);                   \
    T b = paddle::pybind::TensorGetElement<T>(tensor, offset);               \
    Py_intptr_t py_dims[paddle::framework::DDim::kMaxRank];                  \
    Py_intptr_t py_strides[paddle::framework::DDim::kMaxRank];               \
    py_dims[0] = 1;                                                          \
    py_strides[0] = 1;                                                       \
    auto& api = pybind11::detail::npy_api::get();                            \
    PyObject* array = api.PyArray_NewFromDescr_(                             \
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        api.PyArray_Type_,                                                   \
        api.PyArray_DescrFromType_(numpy_dtype),                             \
        1,                                                                   \
        py_dims,                                                             \
        py_strides,                                                          \
        nullptr,                                                             \
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        pybind11::detail::npy_api::NPY_ARRAY_ALIGNED_ |                      \
            pybind11::detail::npy_api::NPY_ARRAY_WRITEABLE_,                 \
        nullptr);                                                            \
    std::memcpy(                                                             \
        reinterpret_cast<void*>(pybind11::detail::array_proxy(array)->data), \
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        static_cast<void*>(&b),                                              \
        sizeof(b));                                                          \
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    return array;                                                            \
  }

  PD_FOR_EACH_DENSE_TENSOR_DATA_TYPE(TENSOR_TO_PY_SCALAR);
#undef TENSOR_TO_PY_SCALAR
  PADDLE_THROW(platform::errors::Unimplemented(
      "Unsupported tensor data type: %s", tensor.dtype()));
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method__setitem_eager_tensor(TensorObject* self,
                                                     PyObject* args,
                                                     PyObject* kwargs) {
  EAGER_TRY
  VLOG(4) << "Call __setitem_eager_tensor";

  auto self_tensor = static_cast<phi::DenseTensor*>(self->tensor.impl().get());

  PyObject* _index = PyTuple_GET_ITEM(args, 0);
  PyObject* value_obj = PyTuple_GET_ITEM(args, 1);
  // NOTE(zhiqiu): PyTuple_Pack increases refcount while PyTuple_New
  // https://github.com/python/cpython/blob/24b63c695ae0a95b06379eaadace66735abac1e2/Objects/tupleobject.c#L251
  PyObject* index_ptr =
      !PyTuple_Check(_index) ? PyTuple_Pack(1, _index) : _index;
  DEFINE_PADDLE_SCOPE_GUARD([index_ptr, &_index]() {
    if (!PyTuple_Check(_index)) {
      Py_DECREF(index_ptr);
      VLOG(4) << "Call Py_DECREF";
    }
  });

  // 1. Check argumnets
  bool parse_index = true;

  // Check whether _index can be parsed.
  const int size = PyTuple_GET_SIZE(index_ptr);
  for (int dim = 0; dim < size; ++dim) {
    PyObject* slice_item = PyTuple_GetItem(index_ptr, dim);
    if (!(PyCheckInteger(slice_item) || PySlice_Check(slice_item) ||
          slice_item == Py_Ellipsis || slice_item == Py_None)) {
      parse_index = false;
      break;
    }
  }

  // 2. Call op set_value to speed up if the condition is met,
  // otherwise call TensorToPyArray.
  // TODO(liym27): Try not to call TensorToPyArray because it always
  // copys data to cpu place, which reduces performance.
  if (parse_index) {
    std::vector<int> axes, starts, ends, steps, decrease_axes, none_axes,
        infer_flags, list_select_idxs;
    // if index is a list, list_select_flag will be true
    bool list_select_flag = false;
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    ParseIndexingSlice(self_tensor,
                       index_ptr,
                       &axes,
                       &starts,
                       &ends,
                       &steps,
                       &decrease_axes,
                       &none_axes,
                       &infer_flags,
                       &list_select_idxs,
                       &list_select_flag);
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    framework::AttributeMap attrs = {{"axes", axes},
                                     {"starts", starts},
                                     {"ends", ends},
                                     {"steps", steps},
                                     {"decrease_axes", decrease_axes},
                                     {"none_axes", none_axes}};

    if (egr::Controller::Instance().HasGrad()) {
      PADDLE_ENFORCE_EQ(
          egr::egr_utils_api::IsLeafTensor(self->tensor) &&
              !egr::EagerUtils::autograd_meta(&self->tensor)->StopGradient(),
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          false,
          platform::errors::InvalidArgument(
              "Leaf Tensor (%s) that doesn't stop gradient can't use "
              "inplace strategy.",
              self->tensor.name()));
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    }

    paddle::experimental::Tensor value_tensor;

    if (PyCheckTensor(value_obj)) {
      value_tensor = reinterpret_cast<TensorObject*>(value_obj)->tensor;
    } else if (py::isinstance<py::array>(value_obj)) {
      paddle::experimental::Tensor value_tensor_tmp(
          std::make_shared<phi::DenseTensor>(),
          egr::Controller::Instance().GenerateUniqueName());
      py::object value_obj_tmp(py::handle(value_obj), true);
      py::object value = value_obj_tmp;
      if (self->tensor.dtype() == paddle::experimental::DataType::FLOAT32) {
        if (!py::isinstance<py::array_t<float>>(value_obj_tmp)) {
          value = pybind11::detail::CastNumpyArray<float>(value_obj_tmp);
        }
      } else if (self->tensor.dtype() ==
                 paddle::experimental::DataType::FLOAT64) {
        if (!py::isinstance<py::array_t<double>>(value_obj_tmp)) {
          value = pybind11::detail::CastNumpyArray<double>(value_obj_tmp);
        }
      } else if (self->tensor.dtype() ==
                 paddle::experimental::DataType::INT32) {
        if (!py::isinstance<py::array_t<int32_t>>(value_obj_tmp)) {
          value = pybind11::detail::CastNumpyArray<int32_t>(value_obj_tmp);
        }
      } else if (self->tensor.dtype() ==
                 paddle::experimental::DataType::INT64) {
        if (!py::isinstance<py::array_t<int64_t>>(value_obj_tmp)) {
          value = pybind11::detail::CastNumpyArray<int64_t>(value_obj_tmp);
        }
      } else if (self->tensor.dtype() == paddle::experimental::DataType::BOOL) {
        if (!py::isinstance<py::array_t<bool>>(value_obj_tmp)) {
          value = pybind11::detail::CastNumpyArray<bool>(value_obj_tmp);
        }
      } else {
        PADDLE_THROW(platform::errors::InvalidArgument(
            "When assign a numpy.np value to a paddle.Tensor, "
            "the data type of the paddle.Tensor must be bool, "
            "float32, int32 or int64, "
            "please check the type of tensor."));
      }

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      SetTensorFromPyArray(
          static_cast<phi::DenseTensor*>(value_tensor_tmp.impl().get()),
          value,
          self->tensor.place(),
          false);
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      value_tensor = value_tensor_tmp;
    } else {
      py::object value_obj_tmp(py::handle(value_obj), true);
      // convert the value to self data type
      if (py::isinstance<py::float_>(value_obj_tmp) ||
          py::isinstance<py::int_>(value_obj_tmp) ||
          py::isinstance<py::bool_>(value_obj_tmp)) {
        if (self->tensor.dtype() == paddle::experimental::DataType::FLOAT32) {
          attrs["fp32_values"] =
              std::vector<float>{value_obj_tmp.cast<float>()};
        } else if (self->tensor.dtype() ==
                   paddle::experimental::DataType::FLOAT64) {
          attrs["fp64_values"] =
              std::vector<double>{value_obj_tmp.cast<double>()};
        } else if (self->tensor.dtype() ==
                   paddle::experimental::DataType::INT32) {
          attrs["int32_values"] =
              std::vector<int32_t>{value_obj_tmp.cast<int32_t>()};
        } else if (self->tensor.dtype() ==
                   paddle::experimental::DataType::INT64) {
          attrs["int64_values"] =
              std::vector<int64_t>{value_obj_tmp.cast<int64_t>()};
        } else if (self->tensor.dtype() ==
                   paddle::experimental::DataType::BOOL) {
          attrs["bool_values"] = std::vector<int>{value_obj_tmp.cast<bool>()};
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        } else if (self->tensor.dtype() ==
                   paddle::experimental::DataType::FLOAT16) {
          attrs["fp16_values"] =
              std::vector<float>{value_obj_tmp.cast<float>()};
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        } else {
          PADDLE_THROW(platform::errors::InvalidArgument(
              "When assign a value to a paddle.Tensor, "
              "the data type of the paddle.Tensor must be bool, "
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              "float32, int32, int64 or float16, "
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              "please check the type of tensor."));
        }
        attrs["shape"] = std::vector<int64_t>{1};

      } else {
        PADDLE_THROW(platform::errors::InvalidArgument(
            "Value type error. The assign value allows "
            "numpy.ndarray, integer, float or bool, "
            "but received %s.",
            Py_TYPE(value_obj)));
      }
    }

    {
      // Release gil and do tracing
      py::gil_scoped_release release;
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      // use inplace set_value_ operator
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      if (value_tensor.initialized() &&
          (self->tensor.dtype() != value_tensor.dtype())) {
        paddle::small_vector<std::vector<paddle::experimental::Tensor>,
                             egr::kSlotSmallVectorSize>
            tmps = {{self->tensor}, {value_tensor}};
        auto amp_dtype = egr::GetAmpDestDtype("set_value", tmps);
        self->tensor = egr::EagerAmpAutoCast(
            self->tensor.name(), self->tensor, amp_dtype, "set_value");
        value_tensor = egr::EagerAmpAutoCast(
            value_tensor.name(), value_tensor, amp_dtype, "set_value");
      }
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      self->tensor = set_value__dygraph_function(
          self->tensor, value_tensor, {}, {}, {}, attrs);
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    }
    if (PyCheckTensor(value_obj)) {
      // pass the stop_gradient from value to tensor.
      // pass stop gradient should be done after CheckInplace in
      // set_value__dygraph_function.
      if (!egr::EagerUtils::autograd_meta(&value_tensor)->StopGradient() &&
          egr::EagerUtils::autograd_meta(&self->tensor)->StopGradient()) {
        egr::EagerUtils::autograd_meta(&self->tensor)->SetStopGradient(false);
      }
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    }
  } else {
    auto self_numpy = TensorToPyArray(*self_tensor);
    VLOG(4) << "parse_index is false";
    if (PyCheckTensor(_index)) {
      VLOG(4) << "index is tensor";
      auto index_tensor = static_cast<phi::DenseTensor*>(
          reinterpret_cast<TensorObject*>(_index)->tensor.impl().get());
      auto index_numpy = TensorToPyArray(*index_tensor);
      self_numpy[index_numpy] = py::object(py::handle(value_obj), true);
    } else {
      VLOG(4) << "index is not tensor";
      self_numpy[_index] = py::object(py::handle(value_obj), true);
    }
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    if (!self->tensor.initialized()) {
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#if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP)
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      SetTensorFromPyArray(self_tensor,
                           self_numpy,
                           platform::Place(platform::CUDAPlace(0)),
                           false);
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#else
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      SetTensorFromPyArray(self_tensor,
                           self_numpy,
                           platform::Place(platform::CPUPlace()),
                           false);
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#endif
    } else {
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      SetTensorFromPyArray(
          self_tensor, self_numpy, self->tensor.place(), false);
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    }
  }
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_register_grad_hook(TensorObject* self,
                                           PyObject* args,
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                                           PyObject* kwargs) {
  EAGER_TRY
  int64_t hook_id;
  if (egr::egr_utils_api::IsLeafTensor(self->tensor)) {
    VLOG(6) << "Register hook for leaf tensor: " << self->tensor.name();
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    auto autograd_meta = egr::EagerUtils::unsafe_autograd_meta(self->tensor);

    if (autograd_meta && !autograd_meta->StopGradient()) {
      if (!autograd_meta->GetMutableGradNode()) {
        VLOG(6) << "Detected NULL grad_node, Leaf tensor should have had "
                   "grad_node with type: GradNodeAccumulation.";
        autograd_meta->SetGradNode(
            std::make_shared<egr::GradNodeAccumulation>(autograd_meta));
      }
    }

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    std::shared_ptr<egr::GradNodeBase> grad_node =
        egr::EagerUtils::grad_node(self->tensor);
    auto rank_info =
        egr::EagerUtils::unsafe_autograd_meta(self->tensor)->OutRankInfo();
    PyObject* hook_func = PyTuple_GET_ITEM(args, 0);

    auto accumulation_grad_node =
        std::dynamic_pointer_cast<egr::GradNodeAccumulation>(grad_node);
    hook_id = accumulation_grad_node->RegisterGradientHook(
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        rank_info.first,
        rank_info.second,
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        std::make_shared<PyTensorHook>(hook_func));

  } else {
    VLOG(6) << "Register hook for non leaf tensor: " << self->tensor.name();
    std::shared_ptr<egr::GradNodeBase> grad_node =
        egr::EagerUtils::grad_node(self->tensor);
    auto rank_info =
        egr::EagerUtils::unsafe_autograd_meta(self->tensor)->OutRankInfo();

    PyObject* hook_func = PyTuple_GET_ITEM(args, 0);

    hook_id = grad_node->RegisterGradientHook(
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        rank_info.first,
        rank_info.second,
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        std::make_shared<PyTensorHook>(hook_func));
  }
  return ToPyObject(hook_id);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_remove_grad_hook(TensorObject* self,
                                         PyObject* args,
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                                         PyObject* kwargs) {
  EAGER_TRY
  VLOG(6) << "Remove the registered hook for tensor: " << self->tensor.name();
  std::shared_ptr<egr::GradNodeBase> grad_node =
      egr::EagerUtils::grad_node(self->tensor);

  int64_t hook_id = pybind::CastPyArg2AttrLong(PyTuple_GET_ITEM(args, 0), 0);

  return ToPyObject(grad_node->RemoveGradientHook(hook_id));
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_register_reduce_hook(TensorObject* self,
                                             PyObject* args,
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                                             PyObject* kwargs) {
  EAGER_TRY
  VLOG(4) << "Register reduce hook for tensor: " << self->tensor.name();

  std::shared_ptr<egr::GradNodeBase> grad_node =
      egr::EagerUtils::grad_node(self->tensor);
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  PADDLE_ENFORCE_EQ(egr::egr_utils_api::IsLeafTensor(self->tensor),
                    true,
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                    platform::errors::InvalidArgument(
                        "Only can register backward hook for leaf Tensor."));
  PADDLE_ENFORCE_EQ(
      !egr::EagerUtils::unsafe_autograd_meta(self->tensor)->StopGradient(),
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      true,
      platform::errors::InvalidArgument(
          "Cannot register backward hook on a Tensor that stop "
          "gradient."));
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  PADDLE_ENFORCE(
      grad_node.get() != nullptr,
      paddle::platform::errors::Fatal("Detected NULL grad_node,"
                                      "Leaf tensor should have had grad_node "
                                      "with type: GradNodeAccumulation."));
  PyObject* hook_func = PyTuple_GET_ITEM(args, 0);

  auto accumulation_grad_node =
      std::dynamic_pointer_cast<egr::GradNodeAccumulation>(grad_node);
  accumulation_grad_node->RegisterReduceHook(
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      std::make_shared<PyVoidHook>(hook_func));
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__set_grad_type(TensorObject* self,
                                       PyObject* args,
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                                       PyObject* kwargs) {
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  EAGER_TRY
  auto var_type = pybind::CastPyArg2ProtoType(PyTuple_GET_ITEM(args, 0), 0);
  auto grad_tensor =
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      egr::EagerUtils::autograd_meta(&self->tensor)->MutableGrad();
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  if (var_type == framework::proto::VarType::LOD_TENSOR) {
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    grad_tensor->set_impl(std::make_shared<phi::DenseTensor>());
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  } else if (var_type == framework::proto::VarType::SELECTED_ROWS) {
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    grad_tensor->set_impl(std::make_shared<phi::SelectedRows>());
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  }
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__clear(TensorObject* self,
                               PyObject* args,
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                               PyObject* kwargs) {
  EAGER_TRY
  self->tensor.reset();
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor__copy_gradient_from(TensorObject* self,
                                            PyObject* args,
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                                            PyObject* kwargs) {
  EAGER_TRY
  auto src = CastPyArg2Tensor(PyTuple_GET_ITEM(args, 0), 0);
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  if (self->tensor.initialized()) {
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    PADDLE_ENFORCE_EQ(self->tensor.dtype(),
                      src.dtype(),
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                      platform::errors::PreconditionNotMet(
                          "Tensor %s has different data type with Tensor %s",
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                          self->tensor.name(),
                          src.name()));
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    PADDLE_ENFORCE_EQ(self->tensor.impl()->type_info().id(),
                      src.impl()->type_info().id(),
                      platform::errors::PreconditionNotMet(
                          "Tensor %s has different type with Tensor %s, Tensor "
                          "ShareGradientDataWith cannot be performed!",
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                          self->tensor.name(),
                          src.name()));
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  }
  VLOG(6) << "Tensor copy gradient from: " << src.name();
  auto* p_grad = egr::EagerUtils::mutable_grad(self->tensor);
  if (p_grad) {
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    PADDLE_ENFORCE_EQ(src.initialized(),
                      true,
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                      platform::errors::InvalidArgument(
                          "Tensor %s has not been initialized", src.name()));
    p_grad->set_impl(src.impl());
  }
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  RETURN_PY_NONE

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  EAGER_CATCH_AND_THROW_RETURN_NULL
}
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static PyObject* tensor__use_cudnn(TensorObject* self,
                                   PyObject* args,
                                   PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.defined() && self->tensor.is_dense_tensor(),
                 paddle::platform::errors::Fatal(
                     "function _use_cudnn is only effective for DenseTensor"));

  bool use_cudnn = pybind::CastPyArg2AttrBoolean(PyTuple_GET_ITEM(args, 0), 0);

  // Set the same use_cudnn attribute, return directly
  phi::DenseTensor* dense_tensor =
      static_cast<phi::DenseTensor*>(self->tensor.impl().get());
  phi::DenseTensorMeta* dense_tensor_meta =
      phi::DenseTensorUtils::GetMutableMeta(dense_tensor);
  if (use_cudnn == dense_tensor_meta->use_cudnn) {
    return ToPyObject(self->tensor);
  }

  // Share all other members of Tensor except use_cudnn
  phi::DenseTensorMeta target_dense_meta = *dense_tensor_meta;
  target_dense_meta.use_cudnn = use_cudnn;
  phi::DenseTensor target_dense_tensor;
  target_dense_tensor.ShareDataWith(*dense_tensor);
  target_dense_tensor.set_meta(target_dense_meta);
  // Construct returned tensor
  paddle::experimental::Tensor target_tensor(
      std::make_shared<phi::DenseTensor>(target_dense_tensor),
      self->tensor.name());
  target_tensor.set_autograd_meta(self->tensor.mutable_autograd_meta());
  VLOG(4) << "Tensor: " << target_tensor.name()
          << " set use_cudnn = " << use_cudnn;

  return ToPyObject(target_tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_set_vocab(TensorObject* self,
                                         PyObject* args,
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                                         PyObject* kwargs) {
  EAGER_TRY
  using Vocab = std::unordered_map<std::wstring, int>;
  auto vocab = CastPyArg2Vocab(PyTuple_GET_ITEM(args, 0), 0);
  auto var_tensor = std::make_shared<egr::VariableCompatTensor>();
  *var_tensor->GetMutable<Vocab>() = vocab;
  self->tensor.set_impl(var_tensor);
  RETURN_PY_NONE
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

static PyObject* tensor_method_set_string_list(TensorObject* self,
                                               PyObject* args,
                                               PyObject* kwargs) {
  EAGER_TRY
  using Strings = std::vector<std::string>;
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  auto strings = CastPyArg2VectorOfString(PyTuple_GET_ITEM(args, 0), 0);
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  auto var_tensor = std::make_shared<egr::VariableCompatTensor>();
  *var_tensor->GetMutable<Strings>() = strings;
  self->tensor.set_impl(var_tensor);
  RETURN_PY_NONE
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

static PyObject* tensor_method_get_map_tensor(TensorObject* self,
                                              PyObject* args,
                                              PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE_EQ(
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      egr::IsVariableCompatTensor(self->tensor),
      true,
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      paddle::platform::errors::Fatal(
          "this method is only effective for VariableCompatTensor"));
  using Vocab = std::unordered_map<std::wstring, int>;
  auto* var_tensor =
      static_cast<const egr::VariableCompatTensor*>(self->tensor.impl().get());
  return ToPyObject(var_tensor->Get<Vocab>());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

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static PyObject* tensor_method_get_non_zero_nums(TensorObject* self,
                                                 PyObject* args,
                                                 PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(
      self->tensor.is_sparse_coo_tensor() ||
          self->tensor.is_sparse_csr_tensor(),
      paddle::platform::errors::Fatal("this method is only effective for "
                                      "SparseCooTensor or SparseCsrTensor"));
  if (self->tensor.is_sparse_coo_tensor()) {
    auto sparse_coo_tensor =
        std::dynamic_pointer_cast<phi::SparseCooTensor>(self->tensor.impl());
    return ToPyObject(sparse_coo_tensor->nnz());
  } else {
    auto sparse_csr_tensor =
        std::dynamic_pointer_cast<phi::SparseCsrTensor>(self->tensor.impl());
    return ToPyObject(sparse_csr_tensor->nnz());
  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1553 1554 1555 1556 1557 1558 1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572 1573 1574 1575 1576 1577 1578 1579 1580 1581 1582 1583 1584 1585 1586 1587 1588 1589 1590 1591 1592 1593 1594 1595 1596 1597 1598 1599 1600 1601 1602 1603 1604 1605 1606 1607 1608 1609 1610 1611 1612 1613 1614 1615 1616 1617 1618 1619 1620 1621 1622
static PyObject* tensor_method_get_non_zero_indices(TensorObject* self,
                                                    PyObject* args,
                                                    PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.is_sparse_coo_tensor(),
                 paddle::platform::errors::Fatal(
                     "this method is only effective for SparseCooTensor"));
  auto sparse_coo_tensor =
      std::dynamic_pointer_cast<phi::SparseCooTensor>(self->tensor.impl());
  paddle::experimental::Tensor tensor(std::make_shared<phi::DenseTensor>(
      sparse_coo_tensor->non_zero_indices()));
  return ToPyObject(tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

static PyObject* tensor_method_get_non_zero_elements(TensorObject* self,
                                                     PyObject* args,
                                                     PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(
      self->tensor.is_sparse_coo_tensor() ||
          self->tensor.is_sparse_csr_tensor(),
      paddle::platform::errors::Fatal("this method is only effective for "
                                      "SparseCooTensor or SparseCsrTensor"));
  if (self->tensor.is_sparse_coo_tensor()) {
    auto sparse_coo_tensor =
        std::dynamic_pointer_cast<phi::SparseCooTensor>(self->tensor.impl());
    paddle::experimental::Tensor tensor(std::make_shared<phi::DenseTensor>(
        sparse_coo_tensor->non_zero_elements()));
    return ToPyObject(tensor);
  } else {
    auto sparse_csr_tensor =
        std::dynamic_pointer_cast<phi::SparseCsrTensor>(self->tensor.impl());
    paddle::experimental::Tensor tensor(std::make_shared<phi::DenseTensor>(
        sparse_csr_tensor->non_zero_elements()));
    return ToPyObject(tensor);
  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

static PyObject* tensor_method_get_non_zero_crows(TensorObject* self,
                                                  PyObject* args,
                                                  PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.is_sparse_csr_tensor(),
                 paddle::platform::errors::Fatal(
                     "this method is only effective for SparseCsrTensor"));
  auto sparse_csr_tensor =
      std::dynamic_pointer_cast<phi::SparseCsrTensor>(self->tensor.impl());
  paddle::experimental::Tensor tensor(
      std::make_shared<phi::DenseTensor>(sparse_csr_tensor->non_zero_crows()));
  return ToPyObject(tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

static PyObject* tensor_method_get_non_zero_cols(TensorObject* self,
                                                 PyObject* args,
                                                 PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.is_sparse_csr_tensor(),
                 paddle::platform::errors::Fatal(
                     "this method is only effective for SparseCsrTensor"));
  auto sparse_csr_tensor =
      std::dynamic_pointer_cast<phi::SparseCsrTensor>(self->tensor.impl());
  paddle::experimental::Tensor tensor(
      std::make_shared<phi::DenseTensor>(sparse_csr_tensor->non_zero_cols()));
  return ToPyObject(tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1623 1624
static PyObject* tensor_method_is_dense(TensorObject* self,
                                        PyObject* args,
1625 1626 1627 1628 1629 1630 1631 1632 1633
                                        PyObject* kwargs) {
  EAGER_TRY
  if (!self->tensor.defined()) {
    return ToPyObject(false);
  }
  return ToPyObject(self->tensor.is_dense_tensor());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1634 1635
static PyObject* tensor_method_is_sparse(TensorObject* self,
                                         PyObject* args,
1636 1637
                                         PyObject* kwargs) {
  EAGER_TRY
1638 1639 1640
  if (!self->tensor.defined()) {
    return ToPyObject(false);
  }
1641 1642 1643 1644 1645
  return ToPyObject(self->tensor.is_sparse_coo_tensor() ||
                    self->tensor.is_sparse_csr_tensor());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1646 1647
static PyObject* tensor_method_is_sparse_coo(TensorObject* self,
                                             PyObject* args,
1648 1649
                                             PyObject* kwargs) {
  EAGER_TRY
1650 1651 1652
  if (!self->tensor.defined()) {
    return ToPyObject(false);
  }
1653 1654 1655 1656
  return ToPyObject(self->tensor.is_sparse_coo_tensor());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1657 1658
static PyObject* tensor_method_is_sparse_csr(TensorObject* self,
                                             PyObject* args,
1659 1660
                                             PyObject* kwargs) {
  EAGER_TRY
1661 1662 1663
  if (!self->tensor.defined()) {
    return ToPyObject(false);
  }
1664 1665 1666 1667
  return ToPyObject(self->tensor.is_sparse_csr_tensor());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1668 1669
static PyObject* tensor_method_to_sparse_csr(TensorObject* self,
                                             PyObject* args,
1670 1671 1672 1673 1674 1675 1676 1677 1678 1679 1680 1681 1682
                                             PyObject* kwargs) {
  EAGER_TRY
  auto csr_tensor = self->tensor.to_sparse_csr();
  egr::EagerUtils::autograd_meta(&csr_tensor)
      ->SetStopGradient(
          egr::EagerUtils::autograd_meta(&self->tensor)->StopGradient());
  egr::EagerUtils::autograd_meta(&csr_tensor)
      ->SetPersistable(
          egr::EagerUtils::autograd_meta(&(self->tensor))->Persistable());
  return ToPyObject(csr_tensor);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1683 1684 1685 1686 1687 1688 1689 1690 1691
static PyObject* tensor_method_is_same_shape(TensorObject* self,
                                             PyObject* args,
                                             PyObject* kwargs) {
  EAGER_TRY
  auto other = CastPyArg2Tensor(PyTuple_GET_ITEM(args, 0), 0);
  return ToPyObject(self->tensor.shape() == other.shape());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1692 1693
static PyObject* tensor__inplace_version(TensorObject* self,
                                         PyObject* args,
1694 1695 1696 1697 1698 1699 1700 1701
                                         PyObject* kwargs) {
  EAGER_TRY
  uint32_t inplace_version = self->tensor.current_inplace_version();

  return ToPyObject(inplace_version);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1702 1703
static PyObject* tensor_method_element_size(TensorObject* self,
                                            PyObject* args,
1704 1705
                                            PyObject* kwargs) {
  EAGER_TRY
1706
  uint32_t element_size = phi::SizeOf(self->tensor.dtype());
1707 1708 1709 1710 1711

  return ToPyObject(element_size);
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1712 1713 1714 1715 1716
static PyObject* tensor__bump_inplace_version(TensorObject* self,
                                              PyObject* args,
                                              PyObject* kwargs) {
  EAGER_TRY
  self->tensor.bump_inplace_version();
1717
  RETURN_PY_NONE
1718 1719 1720
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1721 1722 1723 1724
static PyObject* tensor_method_is_selected_rows(TensorObject* self,
                                                PyObject* args,
                                                PyObject* kwargs) {
  EAGER_TRY
1725 1726 1727
  if (!self->tensor.defined()) {
    return ToPyObject(false);
  }
1728 1729 1730 1731
  return ToPyObject(self->tensor.is_selected_rows());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1732 1733
static PyObject* tensor_method_get_rows(TensorObject* self,
                                        PyObject* args,
1734 1735 1736 1737 1738 1739 1740 1741 1742 1743 1744
                                        PyObject* kwargs) {
  EAGER_TRY
  PADDLE_ENFORCE(self->tensor.is_selected_rows(),
                 paddle::platform::errors::Fatal(
                     "this method is only effective for SelectedRows"));
  auto selected_rows =
      std::dynamic_pointer_cast<phi::SelectedRows>(self->tensor.impl());
  return ToPyObject(selected_rows->rows());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1745 1746
static PyObject* tensor_methon_element_size(TensorObject* self,
                                            PyObject* args,
1747 1748 1749 1750 1751 1752
                                            PyObject* kwargs) {
  EAGER_TRY
  return ToPyObject(paddle::experimental::SizeOf(self->tensor.dtype()));
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1753 1754 1755 1756 1757 1758 1759 1760 1761 1762 1763 1764 1765 1766 1767 1768
static PyObject* tensor__reset_grad_inplace_version(TensorObject* self,
                                                    PyObject* args,
                                                    PyObject* kwargs) {
  EAGER_TRY
  Py_ssize_t args_num = PyTuple_Size(args);
  bool set_to_zero = true;
  if (args_num == (Py_ssize_t)1) {
    set_to_zero = CastPyArg2AttrBoolean(PyTuple_GET_ITEM(args, 0), 0);
  }

  paddle::experimental::Tensor* grad =
      egr::EagerUtils::mutable_grad(self->tensor);
  if (grad && grad->defined() && grad->is_dense_tensor() &&
      grad->initialized()) {
    grad->reset_inplace_version(set_to_zero);
  }
1769 1770
  RETURN_PY_NONE

1771 1772 1773
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1774 1775
static PyObject* tensor_method__share_memory(TensorObject* self,
                                             PyObject* args,
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                                             PyObject* kwargs) {
  EAGER_TRY
#ifndef _WIN32
1779 1780
  PADDLE_ENFORCE_EQ(platform::is_cpu_place(self->tensor.place()),
                    true,
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                    platform::errors::InvalidArgument(
                        "Sharing memory only support CPU Tensor currently"));
  // 1. get LoDTensor
  auto* t =
      std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl()).get();
  // 2. allocate shared memory
  void* data_ptr = t->data();
  size_t data_size =
      t->numel() *
      framework::SizeOfType(framework::TransToProtoVarType(t->dtype()));
  auto shared_writer_holder =
      memory::allocation::AllocateMemoryMapWriterAllocation(data_size);
  // 3. maintain mmap fd set & backup ipc_name
  const std::string& ipc_name = shared_writer_holder->ipc_name();
  memory::allocation::MemoryMapFdSet::Instance().Insert(ipc_name);
  // 4. copy data & reset holder
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  memory::Copy(platform::CPUPlace(),
               shared_writer_holder->ptr(),
               platform::CPUPlace(),
               data_ptr,
               data_size);
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  t->ResetHolder(shared_writer_holder);
  return ToPyObject(t);
#else
  PADDLE_THROW(platform::errors::PermissionDenied(
      "Sharing memory in Windows OS is not supported currently"));
1807 1808
  RETURN_PY_NONE

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#endif
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1813 1814
static PyObject* tensor__offset(TensorObject* self,
                                PyObject* args,
1815 1816 1817 1818
                                PyObject* kwargs) {
  EAGER_TRY
  auto t = std::dynamic_pointer_cast<phi::DenseTensor>(self->tensor.impl());
  PADDLE_ENFORCE_EQ(
1819 1820
      t->IsInitialized(),
      true,
1821 1822 1823 1824 1825 1826 1827
      platform::errors::InvalidArgument("Tensor %s has not been initialized!",
                                        self->tensor.name()));

  return ToPyObject(t->offset());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1828 1829
static PyObject* tensor__grad_name(TensorObject* self,
                                   PyObject* args,
1830 1831 1832 1833
                                   PyObject* kwargs) {
  EAGER_TRY
  paddle::experimental::Tensor* grad =
      egr::EagerUtils::mutable_grad(self->tensor);
1834 1835
  PADDLE_ENFORCE_EQ(grad != nullptr,
                    true,
1836 1837 1838 1839 1840 1841 1842
                    platform::errors::InvalidArgument(
                        "Detected NULL grad. Please check if you have manually "
                        "cleared the grad inside autograd_meta"));
  return ToPyObject(grad->name());
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1843 1844
static PyObject* tensor__grad_value(TensorObject* self,
                                    PyObject* args,
1845 1846 1847 1848
                                    PyObject* kwargs) {
  EAGER_TRY
  paddle::experimental::Tensor* grad =
      egr::EagerUtils::mutable_grad(self->tensor);
1849 1850
  PADDLE_ENFORCE_EQ(grad != nullptr,
                    true,
1851 1852 1853 1854 1855
                    platform::errors::InvalidArgument(
                        "Detected NULL grad. Please check if you have manually "
                        "cleared the grad inside autograd_meta"));

  if (!grad->defined()) {
1856
    RETURN_PY_NONE
1857 1858
  }
  if (grad->is_dense_tensor()) {
1859
    auto* grad_tensor = static_cast<phi::DenseTensor*>(grad->impl().get());
1860 1861 1862 1863
    return ToPyObject(grad_tensor);
  } else {
    PADDLE_THROW(paddle::platform::errors::Fatal(
        "this method is only supported for DenseTensor"));
1864
    RETURN_PY_NONE
1865 1866 1867 1868
  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1869 1870
static PyObject* tensor__unset_fake_empty(TensorObject* self,
                                          PyObject* args,
1871 1872 1873 1874
                                          PyObject* kwargs) {
  EAGER_TRY
  paddle::experimental::Tensor* grad =
      egr::EagerUtils::mutable_grad(self->tensor);
1875 1876
  PADDLE_ENFORCE_EQ(grad != nullptr,
                    true,
1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890
                    platform::errors::InvalidArgument(
                        "Detected NULL grad. Please check if you have manually "
                        "cleared the grad inside autograd_meta"));

  bool is_leaf = egr::egr_utils_api::IsLeafTensor(self->tensor);
  if (is_leaf) {
    std::static_pointer_cast<egr::GradNodeAccumulation>(
        egr::EagerUtils::grad_node(self->tensor))
        ->SetFakeEmpty(false);
  }
  RETURN_PY_NONE
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903
static PyObject* tensor_data_ptr(TensorObject* self,
                                 PyObject* args,
                                 PyObject* kwargs) {
  EAGER_TRY
  if (self->tensor.initialized() && self->tensor.is_dense_tensor()) {
    ToPyObject((int64_t)std::dynamic_pointer_cast<phi::DenseTensor>(  // NOLINT
                   self->tensor.impl())
                   ->data());
  }
  RETURN_PY_NONE
  EAGER_CATCH_AND_THROW_RETURN_NULL
}

1904
#if defined(PADDLE_WITH_CUDA)
1905 1906
static PyObject* tensor_method__uva(TensorObject* self,
                                    PyObject* args,
1907 1908 1909
                                    PyObject* kwargs) {
  EAGER_TRY
  VLOG(4) << "Running in tensor_method__uva.";
1910 1911
  PADDLE_ENFORCE_EQ(self->tensor.is_dense_tensor(),
                    true,
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                    platform::errors::InvalidArgument(
                        "Unified virtual addressing only support "
                        "DenseTensor currently."));
1915 1916
  PADDLE_ENFORCE_EQ(platform::is_cpu_place(self->tensor.place()),
                    true,
1917 1918 1919 1920
                    platform::errors::InvalidArgument(
                        "Unified virtual addressing only support "
                        "CPU Tensor currently."));
  int device_id = pybind::CastPyArg2AttrLong(PyTuple_GET_ITEM(args, 0), 0);
1921
  auto* self_tensor = static_cast<phi::DenseTensor*>(self->tensor.impl().get());
1922 1923
  tensor_uva(self_tensor, device_id);

1924 1925
  RETURN_PY_NONE

1926 1927 1928
  EAGER_CATCH_AND_THROW_RETURN_NULL
}
#endif
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static PyObject* tensor_method__is_string_tensor_hold_allocation(
    TensorObject* self, PyObject* args, PyObject* kwargs) {
  EAGER_TRY
  auto string_tensor =
      std::dynamic_pointer_cast<phi::StringTensor>(self->tensor.impl());
  if (string_tensor) {
    return ToPyObject(string_tensor->initialized());
  } else {
    return ToPyObject(false);
  }
  EAGER_CATCH_AND_THROW_RETURN_NULL
}
1941

1942
PyMethodDef variable_methods[] = {
1943 1944 1945 1946
    {"numpy",
     (PyCFunction)(void (*)(void))tensor_method_numpy,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
1947
    {"_is_initialized",
1948
     (PyCFunction)(void (*)(void))tensor_method__is_initialized,
1949 1950
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_is_dense_tensor_hold_allocation",
1952 1953
     (PyCFunction)(void (*)(
         void))tensor_method__is_dense_tensor_hold_allocation,
1954 1955 1956 1957 1958 1959 1960 1961 1962 1963
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_copy_to",
     (PyCFunction)(void (*)(void))tensor_method__copy_to,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"copy_",
     (PyCFunction)(void (*)(void))tensor_method_copy_,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
1964 1965 1966 1967
    {"clone",
     (PyCFunction)(void (*)(void))tensor_method_clone,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
1968
    {"reconstruct_from_",
1969
     (PyCFunction)(void (*)(void))tensor_method_reconstruct_from_,
1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"retain_grads",
     (PyCFunction)(void (*)(void))tensor_retain_grads,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"clear_gradient",
     (PyCFunction)(void (*)(void))tensor_clear_gradient,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"is_dense",
     (PyCFunction)(void (*)(void))tensor_method_is_dense,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_zero_grads",
     (PyCFunction)(void (*)(void))tensor__zero_grads,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_share_buffer_to",
     (PyCFunction)(void (*)(void))tensor__share_buffer_to,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
1992
    {"_is_shared_buffer_with",
1993
     (PyCFunction)(void (*)(void))tensor__is_shared_buffer_with,
1994 1995
     METH_VARARGS | METH_KEYWORDS,
     NULL},
1996
    {"_share_underline_tensor_to",
1997
     (PyCFunction)(void (*)(void))tensor__share_underline_tensor_to,
1998 1999
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2000
    {"_is_shared_underline_tensor_with",
2001
     (PyCFunction)(void (*)(void))tensor__is_shared_underline_tensor_with,
2002 2003 2004 2005 2006 2007
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"detach",
     (PyCFunction)(void (*)(void))tensor_method_detach,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2008
    {"get_tensor",
2009
     (PyCFunction)(void (*)(void))tensor_method_get_underline_tensor,
2010 2011
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2012 2013
    {"get_selected_rows",
     (PyCFunction)(void (*)(void))tensor_method_get_underline_selected_rows,
2014 2015
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2016 2017 2018 2019
    {"_get_tensor_from_selected_rows",
     (PyCFunction)(void (*)(void))tensor_method__get_tensor_from_selected_rows,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_getitem_index_not_tensor",
     (PyCFunction)(void (*)(void))tensor__getitem_index_not_tensor,
2022 2023
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_getitem_from_offset",
     (PyCFunction)(void (*)(void))tensor__getitem_from_offset,
2026 2027
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"__setitem_eager_tensor__",
     (PyCFunction)(void (*)(void))tensor_method__setitem_eager_tensor,
2030 2031
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2032 2033
    {"_register_grad_hook",
     (PyCFunction)(void (*)(void))tensor_register_grad_hook,
2034 2035 2036 2037 2038 2039
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_remove_grad_hook",
     (PyCFunction)(void (*)(void))tensor_remove_grad_hook,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2040 2041
    {"_register_backward_hook",
     (PyCFunction)(void (*)(void))tensor_register_reduce_hook,
2042 2043 2044 2045 2046 2047 2048 2049 2050 2051
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_set_grad_type",
     (PyCFunction)(void (*)(void))tensor__set_grad_type,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_clear",
     (PyCFunction)(void (*)(void))tensor__clear,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_copy_gradient_from",
     (PyCFunction)(void (*)(void))tensor__copy_gradient_from,
2054 2055
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2056 2057 2058 2059
    {"_tensor_use_cudnn",
     (PyCFunction)(void (*)(void))tensor__use_cudnn,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2060 2061 2062
    /** the methods to adapt old dygraph, will be removed in the future **/
    {"set_string_list",
     (PyCFunction)(void (*)(void))tensor_method_set_string_list,
2063 2064 2065 2066 2067 2068
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"set_vocab",
     (PyCFunction)(void (*)(void))tensor_method_set_vocab,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2069 2070
    {"get_map_tensor",
     (PyCFunction)(void (*)(void))tensor_method_get_map_tensor,
2071 2072
     METH_VARARGS | METH_KEYWORDS,
     NULL},
2073
    /***the method of sparse tensor****/
2074 2075 2076 2077
    {"nnz",
     (PyCFunction)(void (*)(void))tensor_method_get_non_zero_nums,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"indices",
     (PyCFunction)(void (*)(void))tensor_method_get_non_zero_indices,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"values",
     (PyCFunction)(void (*)(void))tensor_method_get_non_zero_elements,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"crows",
     (PyCFunction)(void (*)(void))tensor_method_get_non_zero_crows,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"cols",
     (PyCFunction)(void (*)(void))tensor_method_get_non_zero_cols,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"is_sparse",
     (PyCFunction)(void (*)(void))tensor_method_is_sparse,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"is_sparse_coo",
     (PyCFunction)(void (*)(void))tensor_method_is_sparse_coo,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"is_sparse_csr",
     (PyCFunction)(void (*)(void))tensor_method_is_sparse_csr,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"is_same_shape",
     (PyCFunction)(void (*)(void))tensor_method_is_same_shape,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"to_sparse_csr",
     (PyCFunction)(void (*)(void))tensor_method_to_sparse_csr,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"element_size",
     (PyCFunction)(void (*)(void))tensor_method_element_size,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    /***the method of sparse tensor****/
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    {"_inplace_version",
     (PyCFunction)(void (*)(void))tensor__inplace_version,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_bump_inplace_version",
     (PyCFunction)(void (*)(void))tensor__bump_inplace_version,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"is_selected_rows",
     (PyCFunction)(void (*)(void))tensor_method_is_selected_rows,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"rows",
     (PyCFunction)(void (*)(void))tensor_method_get_rows,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"element_size",
     (PyCFunction)(void (*)(void))tensor_methon_element_size,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_reset_grad_inplace_version",
     (PyCFunction)(void (*)(void))tensor__reset_grad_inplace_version,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_share_memory",
     (PyCFunction)(void (*)(void))tensor_method__share_memory,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_offset",
     (PyCFunction)(void (*)(void))tensor__offset,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_grad_name",
     (PyCFunction)(void (*)(void))tensor__grad_name,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_grad_value",
     (PyCFunction)(void (*)(void))tensor__grad_value,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
    {"_unset_fake_empty",
     (PyCFunction)(void (*)(void))tensor__unset_fake_empty,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"data_ptr",
     (PyCFunction)(void (*)(void))tensor_data_ptr,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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#if defined(PADDLE_WITH_CUDA)
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    {"_tensor_uva",
     (PyCFunction)(void (*)(void))tensor_method__uva,
     METH_VARARGS | METH_KEYWORDS,
     NULL},
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#endif
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    {NULL, NULL, 0, NULL}};

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// variable_methods for core.eager.StringTensor
PyMethodDef string_tensor_variable_methods[] = {
    {"numpy",
     (PyCFunction)(void (*)(void))tensor_method_numpy_for_string_tensor,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_is_initialized",
     (PyCFunction)(void (*)(void))tensor_method__is_initialized,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    {"_is_string_tensor_hold_allocation",
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     (PyCFunction)(void (*)(
         void))tensor_method__is_string_tensor_hold_allocation,
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     METH_VARARGS | METH_KEYWORDS,
     NULL},
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    // TODO(zhoushunjie): Need to add _copy_to, copy_ for StringTensor.
    {NULL, NULL, 0, NULL}};

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}  // namespace pybind
}  // namespace paddle