operator.cc 97.5 KB
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/* Copyright (c) 2016 PaddlePaddle Authors. All Rights Reserved.
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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. */
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#include "paddle/fluid/framework/operator.h"

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#include <glog/logging.h>
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#include <sstream>
#include <string>
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#include "gflags/gflags.h"
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#include "paddle/fluid/framework/convert_utils.h"
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#include "paddle/fluid/framework/data_transform.h"
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#include "paddle/fluid/framework/data_type_transform.h"
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#include "paddle/fluid/framework/details/nan_inf_utils.h"
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#include "paddle/fluid/framework/op_call_stack.h"
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#include "paddle/fluid/framework/phi_utils.h"
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#include "paddle/fluid/framework/shape_inference.h"
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#include "paddle/fluid/framework/transfer_scope_cache.h"
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#include "paddle/fluid/framework/unused_var_check.h"
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#include "paddle/fluid/framework/var_type.h"
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#include "paddle/fluid/platform/device/device_wrapper.h"
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#include "paddle/fluid/platform/enforce.h"
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#include "paddle/fluid/platform/profiler.h"
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#include "paddle/fluid/platform/profiler/event_tracing.h"
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#include "paddle/phi/common/int_array.h"
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#include "paddle/phi/common/scalar.h"
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#include "paddle/phi/core/kernel_context.h"
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#include "paddle/phi/core/kernel_factory.h"
#include "paddle/phi/ops/compat/signatures.h"
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namespace phi {
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class DenseTensor;
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}  // namespace phi
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#ifdef PADDLE_WITH_XPU
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#include "paddle/fluid/platform/device/xpu/xpu_info.h"
#include "paddle/fluid/platform/device/xpu/xpu_op_list.h"
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#endif
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#ifdef PADDLE_WITH_MKLDNN
#include "paddle/fluid/platform/mkldnn_helper.h"
#endif

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#ifdef PADDLE_WITH_MLU
#include "paddle/fluid/platform/device/mlu/mlu_info.h"
#endif

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DECLARE_bool(benchmark);
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DECLARE_bool(check_nan_inf);
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DECLARE_bool(enable_unused_var_check);
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DECLARE_bool(run_kp_kernel);
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DECLARE_bool(enable_host_event_recorder_hook);
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namespace paddle {
namespace framework {

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std::vector<std::tuple<platform::Place, LibraryType>> kKernelPriority = {
    std::make_tuple(platform::CUDAPlace(0), LibraryType::kCUDNN),
    std::make_tuple(platform::CUDAPlace(0), LibraryType::kPlain),
    std::make_tuple(platform::CPUPlace(), LibraryType::kMKLDNN),
    std::make_tuple(platform::CPUPlace(), LibraryType::kPlain),
};
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static DDim GetDimsDebug(const ScopeBase& scope, const std::string& name,
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                         bool get_actual_dim = false) {
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  Variable* var = scope.FindVar(name);
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  if (var == nullptr) {
    return DDim({-1});
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  }

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  if (var->IsType<LoDTensor>()) {
    const LoDTensor& tensor = var->Get<LoDTensor>();
    return tensor.dims();
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  } else if (var->IsType<phi::SelectedRows>()) {
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    if (get_actual_dim) {
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      return var->Get<phi::SelectedRows>().value().dims();
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    } else {
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      return var->Get<phi::SelectedRows>().GetCompleteDims();
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    }
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  } else if (var->IsType<Strings>()) {
    return DDim({static_cast<int64_t>(var->Get<Strings>().size())});
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  } else {
    return DDim({-1});
  }
}

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static bool VarInited(const ScopeBase& scope, const std::string& name) {
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  Variable* var = scope.FindVar(name);
  if (var == nullptr) return false;
  return var->IsInitialized();
}

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static std::string GetDtype(const ScopeBase& scope, const std::string& name) {
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  Variable* var = scope.FindVar(name);
  if (var == nullptr) {
    return "";
  }
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  if (var->IsType<LoDTensor>()) {
    const LoDTensor& tensor = var->Get<LoDTensor>();
    if (UNLIKELY(!tensor.IsInitialized())) {
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      return "";
    }
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    return DataTypeToString(framework::TransToProtoVarType(tensor.dtype()));
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  } else if (var->IsType<phi::SelectedRows>()) {
    auto tensor = var->Get<phi::SelectedRows>().value();
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    if (UNLIKELY(!tensor.IsInitialized())) {
      return "uninited";
    } else {
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      return DataTypeToString(framework::TransToProtoVarType(tensor.dtype()));
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    }
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  } else if (var->IsType<Strings>()) {
    return "strings";
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  } else {
    return "";
  }
}

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static std::string GetPlace(const ScopeBase& scope, const std::string& name) {
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  Variable* var = scope.FindVar(name);
  if (var == nullptr) {
    return "";
  }
  auto to_string = [](const platform::Place& p) {
    std::stringstream sstream;
    sstream << p;
    return sstream.str();
  };

  if (var->IsType<LoDTensor>()) {
    const LoDTensor& tensor = var->Get<LoDTensor>();
    if (UNLIKELY(!tensor.IsInitialized())) {
      return "";
    }
    return to_string(tensor.place());
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  } else if (var->IsType<phi::SelectedRows>()) {
    auto tensor = var->Get<phi::SelectedRows>().value();
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    if (UNLIKELY(!tensor.IsInitialized())) {
      return "uninited";
    } else {
      return to_string(tensor.place());
    }
  } else {
    return "";
  }
}

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static int GetRowSize(const ScopeBase& scope, const std::string& name) {
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  Variable* var = scope.FindVar(name);
  if (var == nullptr) {
    return -1;
  }

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  if (var->IsType<phi::SelectedRows>()) {
    return var->Get<phi::SelectedRows>().rows().size();
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  }

  return -1;
}

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static LoD GetLoDDebug(const ScopeBase& scope, const std::string& name) {
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  Variable* var = scope.FindVar(name);
  auto default_lod = LoD({{}});

  if (var == nullptr) {
    return default_lod;
  }

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  if (var->IsType<LoDTensor>()) {
    const LoDTensor& tensor = var->Get<LoDTensor>();
    return tensor.lod();
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  } else {
    return default_lod;
  }
}

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RuntimeContext::RuntimeContext(const VariableNameMap& innames,
                               const VariableNameMap& outnames,
                               const Scope& scope) {
  for (auto& var_name_item : innames) {
    std::vector<Variable*>& input_vars = inputs[var_name_item.first];
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    input_vars.reserve(var_name_item.second.size());
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    for (auto& var_name : var_name_item.second) {
      input_vars.push_back(scope.FindVar(var_name));
    }
  }
  for (auto& var_name_item : outnames) {
    std::vector<Variable*>& output_vars = outputs[var_name_item.first];
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    output_vars.reserve(var_name_item.second.size());
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    for (auto& var_name : var_name_item.second) {
      output_vars.push_back(scope.FindVar(var_name));
    }
  }
}

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void OperatorBase::Run(const Scope& scope, const platform::Place& place) {
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  try {
    VLOG(4) << place << " " << DebugStringEx(&scope);
    if (platform::is_gpu_place(place)) {
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#if !defined(PADDLE_WITH_CUDA) && !defined(PADDLE_WITH_HIP)
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      PADDLE_THROW(platform::errors::Unavailable(
          "Cannot run operator on place %s, please recompile paddle or "
          "reinstall Paddle with CUDA support.",
          place));
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#else
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      auto dev_id = place.device;
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      platform::SetDeviceId(dev_id);
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#endif
    } else if (platform::is_xpu_place(place)) {
#ifndef PADDLE_WITH_XPU
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      PADDLE_THROW(platform::errors::Unavailable(
          "Cannot run operator on place %s, please recompile paddle or "
          "reinstall Paddle with XPU support.",
          place));
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#else
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      auto dev_id = place.device;
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      platform::SetXPUDeviceId(dev_id);
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#endif
    } else if (platform::is_npu_place(place)) {
#ifndef PADDLE_WITH_ASCEND_CL
      PADDLE_THROW(platform::errors::Unavailable(
          "Cannot run operator on place %s, please recompile paddle or "
          "reinstall Paddle with NPU support.",
          place));
#else
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      auto dev_id = place.device;
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      platform::SetNPUDeviceId(dev_id);
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#endif
    } else if (platform::is_mlu_place(place)) {
#ifndef PADDLE_WITH_MLU
      PADDLE_THROW(platform::errors::Unavailable(
          "Cannot run operator on place %s, please recompile paddle or "
          "reinstall Paddle with MLU support.",
          place));
#else
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      auto dev_id = place.device;
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      platform::SetMLUDeviceId(dev_id);
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#endif
    } else if (platform::is_custom_place(place)) {
#ifndef PADDLE_WITH_CUSTOM_DEVICE
      PADDLE_THROW(platform::errors::Unavailable(
          "Cannot run operator on place %s, please recompile paddle or "
          "reinstall Paddle with CustomDevice support.",
          place));
#else
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      phi::DeviceManager::SetDevice(place);
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#endif
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    }
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    {
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      // TODO(wangchaochaohu) : refine code to use only one RecordEvent)
      // in order to record different op type cost time
      // and different op name cost time,we set two event.
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      platform::RecordEvent op_type_record_event(
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          Type(), platform::TracerEventType::Operator, 1);
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      auto op_name = platform::OpName(outputs_, Type());
      platform::RecordEvent op_name_record_event(
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          op_name, platform::TracerEventType::Operator,
          FLAGS_enable_host_event_recorder_hook ? 20 : 1,
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          platform::EventRole::kUniqueOp);
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      RunImpl(scope, place);
    }
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    VLOG(3) << GetExecutionPlace(place) << " " << DebugStringEx(&scope);
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  } catch (platform::EnforceNotMet& exception) {
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    framework::InsertCallStackInfo(Type(), Attrs(), &exception);
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    throw std::move(exception);
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  } catch (platform::EOFException&) {
    std::rethrow_exception(std::current_exception());
  } catch (std::exception& ex) {
    LOG(WARNING) << Type() << " raises an exception "
                 << platform::demangle(typeid(ex).name()) << ", " << ex.what();
    std::rethrow_exception(std::current_exception());
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  } catch (...) {
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    LOG(WARNING) << Type() << " raises an unknown exception";
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    std::rethrow_exception(std::current_exception());
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  }
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}

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bool OperatorBase::HasInputs(const std::string& name) const {
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  return inputs_.find(name) != inputs_.end();
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}

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std::string OperatorBase::Input(const std::string& name) const {
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  auto& ins = Inputs(name);
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  PADDLE_ENFORCE_LE(
      ins.size(), 1UL,
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      platform::errors::InvalidArgument(
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          "Operator %s's input %s should contain only one variable.", type_,
          name));
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  return ins.empty() ? kEmptyVarName : ins[0];
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}

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const std::vector<std::string>& OperatorBase::Inputs(
    const std::string& name) const {
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  auto it = inputs_.find(name);
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  PADDLE_ENFORCE_NE(
      it, inputs_.end(),
      platform::errors::NotFound("Operator %s does not have the input %s.",
                                 type_, name));
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  return it->second;
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}

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bool OperatorBase::HasOutputs(const std::string& name) const {
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  if (outputs_.find(name) != outputs_.end()) {
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    return true;
  } else {
    return false;
  }
}

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std::string OperatorBase::Output(const std::string& name) const {
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  auto& outs = Outputs(name);
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  PADDLE_ENFORCE_LE(
      outs.size(), 1UL,
      platform::errors::InvalidArgument(
          "Operator %s's output %s should contain only one variable.", type_,
          name));
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  return outs.empty() ? kEmptyVarName : outs[0];
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}

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const std::vector<std::string>& OperatorBase::Outputs(
    const std::string& name) const {
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  auto it = outputs_.find(name);
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  PADDLE_ENFORCE_NE(
      it, outputs_.end(),
      platform::errors::NotFound(
          "Operator %s does not have an output called %s.", type_, name));
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  return it->second;
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}

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std::string OperatorBase::DebugStringEx(const ScopeBase* scope) const {
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  std::stringstream ss;
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  ss << "Op(" << type_ << "), inputs:{";
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  const std::unordered_set<std::string>* no_need_buffer_vars = nullptr;
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  if (info_ && info_->NoNeedBufferVarsInferer()) {
    no_need_buffer_vars =
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        &(Info().NoNeedBufferVarsInferer()(Inputs(), Outputs(), Attrs()));
    if (no_need_buffer_vars->empty()) no_need_buffer_vars = nullptr;
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  }

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  for (auto it = inputs_.begin(); it != inputs_.end();) {
    auto& input = *it;
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    bool is_no_need_buffer_var =
        (no_need_buffer_vars && no_need_buffer_vars->count(input.first) > 0);
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    ss << input.first << "[";
    for (size_t i = 0; i < input.second.size(); ++i) {
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      auto var_name = input.second[i];
      ss << var_name;
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      if (scope) {
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        if (!VarInited(*scope, var_name)) {
          ss << "[uninited]";
        } else {
          int row_size = GetRowSize(*scope, var_name);
          if (row_size >= 0) {
            ss << "[row_size=" << row_size << "]";
          }
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          std::string dtype = is_no_need_buffer_var
                                  ? "unknown_dtype"
                                  : GetDtype(*scope, var_name);
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          ss << ":" << dtype;
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          ss << "[" << GetDimsDebug(*scope, var_name, true) << "]";
          ss << "(" << GetLoDDebug(*scope, var_name) << ")";
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          ss << "(" << GetPlace(*scope, var_name) << ")";
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        }
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      }
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      if (i != input.second.size() - 1) {
        ss << ", ";
      }
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    }
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    ss << "]";
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    ++it;
    if (it != inputs_.end()) {
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      ss << ", ";
    }
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  }
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  ss << "}, outputs:{";
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  for (auto it = outputs_.begin(); it != outputs_.end();) {
    auto& output = *it;
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    ss << output.first << "[";
    for (size_t i = 0; i < output.second.size(); ++i) {
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      auto var_name = output.second[i];
      ss << var_name;
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      if (scope) {
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        if (!VarInited(*scope, var_name)) {
          ss << "[uninited]";
        } else {
          int row_size = GetRowSize(*scope, output.second[i]);
          if (row_size >= 0) {
            ss << "[row_size=" << row_size << "]";
          }
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          std::string dtype = GetDtype(*scope, output.second[i]);
          ss << ":" << dtype;
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          ss << "[" << GetDimsDebug(*scope, var_name, true) << "]";
          ss << "(" << GetLoDDebug(*scope, var_name) << ")";
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          ss << "(" << GetPlace(*scope, var_name) << ")";
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        }
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      }
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      if (i != output.second.size() - 1) {
        ss << ", ";
      }
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    }
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    ss << "]";
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    ++it;
    if (it != outputs_.end()) {
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      ss << ", ";
    }
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  }
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  ss << "}.";
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  return ss.str();
}

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OperatorBase::OperatorBase(const std::string& type,
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                           const VariableNameMap& inputs,
                           const VariableNameMap& outputs,
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                           const AttributeMap& attrs)
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    : type_(type),
      inputs_(inputs),
      outputs_(outputs),
      attrs_(attrs),
      // NOTE(zjl): why op_info may be nullptr?
      info_(OpInfoMap::Instance().GetNullable(type)) {
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  // In dygraph mode, all the OperatorBase will be constructed by function:
  // framework::OpRegistry::CreateOp(type, {}, {}, {}, false).
  // Inputs, outputs and attrs will be set to empty map
  // to improve the execution efficiency of dygraph.
  if (inputs_.size() > 0 || outputs_.size() > 0) {
    GenerateTemporaryNames();
    CheckAllInputOutputSet();
  }
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}
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std::vector<std::string> OperatorBase::InputVars() const {
  std::vector<std::string> ret_val;
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  for (auto& o : inputs_) {
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    ret_val.reserve(ret_val.size() + o.second.size());
    ret_val.insert(ret_val.end(), o.second.begin(), o.second.end());
  }
  return ret_val;
}

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std::vector<std::string> OperatorBase::OutputVars(bool has_intermediate) const {
  std::vector<std::string> ret_val;
  if (has_intermediate) {
    // push all outputs into ret_val
    for (auto& o : outputs_) {
      ret_val.reserve(ret_val.size() + o.second.size());
      ret_val.insert(ret_val.end(), o.second.begin(), o.second.end());
    }
    return ret_val;
  }
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  auto& info = Info();
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  // get all OpProto::Var for outputs
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  for (auto& o : info.Proto().outputs()) {
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    // ignore all intermediate output
    if (o.intermediate()) continue;
    auto out = outputs_.find(o.name());
    if (out != outputs_.end()) {
      ret_val.reserve(ret_val.size() + out->second.size());
      ret_val.insert(ret_val.end(), out->second.begin(), out->second.end());
    }
  }
  return ret_val;
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}

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void OperatorBase::CheckAllInputOutputSet() const {
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  if (info_ == nullptr || info_->proto_ == nullptr) return;
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  for (auto& in : info_->Proto().inputs()) {
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    if (!in.dispensable() && !in.extra()) {
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      PADDLE_ENFORCE_NE(
          inputs_.find(in.name()), inputs_.end(),
          platform::errors::NotFound("Operator %s's input (%s) is not set.",
                                     Type(), in.name()));
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    }
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  }

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  for (auto& out : info_->Proto().outputs()) {
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    if (!out.dispensable() && !out.extra()) {
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      PADDLE_ENFORCE_NE(
          outputs_.find(out.name()), outputs_.end(),
          platform::errors::NotFound("Operator %s's output (%s) is not set.",
                                     Type(), out.name()));
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    }
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  }
}

void OperatorBase::GenerateTemporaryNames() {
  static std::atomic<size_t> gUniqId(0UL);
  for (auto& output : outputs_) {
    for (auto& output_name : output.second) {
      if (output_name == kTempVarName) {
        output_name += type_;
        output_name += "@";
        output_name += std::to_string(gUniqId.fetch_add(1));
      }
    }
  }
}
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const Tensor* GetLoDTensorOrSelectedRowsValueFromVar(const Variable& var) {
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  if (var.IsType<LoDTensor>()) {
    return static_cast<const Tensor*>(&(var.Get<LoDTensor>()));
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  } else if (var.IsType<phi::SelectedRows>()) {
    return &(var.Get<phi::SelectedRows>().value());
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  } else {
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    PADDLE_THROW(platform::errors::InvalidArgument(
        "Variable type is %s, expect LoDTensor or SelectedRows.",
        ToTypeName(var.Type())));
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  }
}

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Tensor* GetMutableLoDTensorOrSelectedRowsValueFromVar(Variable* var) {
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  if (var->IsType<LoDTensor>()) {
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    return var->GetMutable<LoDTensor>();
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  } else if (var->IsType<phi::SelectedRows>()) {
    return var->GetMutable<phi::SelectedRows>()->mutable_value();
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  } else {
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    PADDLE_THROW(platform::errors::InvalidArgument(
        "Variable type is %s, expect LoDTensor or SelectedRows.",
        ToTypeName(var->Type())));
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  }
}

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bool ExecutionContext::HasInput(const std::string& name) const {
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  auto* var = InputVar(name);
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  return var != nullptr;
}

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bool ExecutionContext::HasInputs(const std::string& name) const {
  const auto& ins = ctx_.inputs;
  auto it = ins.find(name);
  if (it == ins.end() || it->second.empty()) {
    return false;
  }
  for (const auto* input : it->second) {
    if (input == nullptr) {
      return false;
    }
  }
  return true;
}

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bool ExecutionContext::HasOutput(const std::string& name) const {
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  auto* var = OutputVar(name);
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  return var != nullptr;
}

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const Variable* ExecutionContext::InputVar(const std::string& name) const {
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  LogVarUsageIfUnusedVarCheckEnabled(name);

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  auto it = ctx_.inputs.find(name);
  if (it == ctx_.inputs.end()) return nullptr;

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  PADDLE_ENFORCE_LE(
      it->second.size(), 1UL,
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      platform::errors::InvalidArgument(
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          "Operator %s's input %s should contain only one variable.",
          op_.Type(), name));
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  return it->second.empty() ? nullptr : it->second[0];
}

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Variable* ExecutionContext::OutputVar(const std::string& name) const {
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  auto it = ctx_.outputs.find(name);
  if (it == ctx_.outputs.end()) return nullptr;

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  PADDLE_ENFORCE_LE(
      it->second.size(), 1UL,
      platform::errors::InvalidArgument(
          "Operator %s's output %s should contain only one variable.",
          op_.Type(), name));
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  return it->second.empty() ? nullptr : it->second[0];
}

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template <>
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const std::vector<const Tensor*> ExecutionContext::MultiInput<Tensor>(
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    const std::string& name) const {
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  LogVarUsageIfUnusedVarCheckEnabled(name);

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  auto vars = MultiInputVar(name);
  if (vars.size() == 0) {
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    return {};
  }
  std::vector<const Tensor*> res;
  res.reserve(vars.size());
  std::transform(vars.begin(), vars.end(), std::back_inserter(res),
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                 [&](const Variable* var) -> const Tensor* {
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                   if (var == nullptr) return nullptr;
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                   PADDLE_ENFORCE_EQ(var->IsType<LoDTensor>(), true,
                                     platform::errors::InvalidArgument(
                                         "Input variable should be LoDTensor, "
                                         "but the received type is %s.",
                                         ToTypeName(var->Type())));
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                   return &(var->Get<LoDTensor>());
                 });
  return res;
}

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template <>
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std::vector<Tensor*> ExecutionContext::MultiOutput<Tensor>(
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    const std::string& name) const {
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  auto vars = MultiOutputVar(name);

  if (vars.size() == 0) {
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    return {};
  }
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  std::vector<Tensor*> res;
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  res.reserve(vars.size());
  std::transform(vars.begin(), vars.end(), std::back_inserter(res),
                 [&](Variable* var) -> Tensor* {
                   return var == nullptr ? nullptr
                                         : var->GetMutable<LoDTensor>();
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                 });
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  return res;
}

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bool OpSupportGPU(const std::string& op_type) {
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  // check in new Function kernel first
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  bool has_phi_kernel = false;
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  auto& kernel_factory = phi::KernelFactory::Instance();
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  auto kernel_key_map =
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      kernel_factory.SelectKernelMap(phi::TransToPhiKernelName(op_type));
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  for (auto& kernel : kernel_key_map) {
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    has_phi_kernel = true;
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    if (platform::is_gpu_place(phi::TransToPhiPlace(kernel.first.backend()))) {
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      return true;
    }
  }

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  auto& all_kernels = OperatorWithKernel::AllOpKernels();
  auto it = all_kernels.find(op_type);
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  if (it != all_kernels.end()) {
    for (auto& kern_pair : it->second) {
      if (platform::is_gpu_place(kern_pair.first.place_)) {
        return true;
      }
    }
  } else {
    if (has_phi_kernel) {
      // if has phi kernel, but not find phi gpu kernel and fluid gpu kernel,
      // this op doesn't support GPU
      return false;
    } else {
      // All control operator must support GPU
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      return true;
    }
  }
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  return false;
}

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class RuntimeInferShapeContext : public InferShapeContext {
 public:
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  RuntimeInferShapeContext(const OperatorBase& op, const RuntimeContext& ctx)
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      : op_(op), ctx_(ctx) {}
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  bool HasInput(const std::string& name) const override {
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    // has only one input
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    const auto& ins = ctx_.inputs;
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    auto it = ins.find(name);
    if (it == ins.end()) {
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      return false;
    }
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    const auto& in = it->second;
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    if (in.size() == 0) return false;
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    PADDLE_ENFORCE_EQ(
        in.size(), 1UL,
        platform::errors::InvalidArgument(
            "Input %s should not contain more than one inputs.", name));
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    return in[0] != nullptr;
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  }

  bool HasOutput(const std::string& name) const override {
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    // has only one output
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    const auto& outs = ctx_.outputs;
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    auto it = outs.find(name);
    if (it == outs.end()) {
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      return false;
    }
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    const auto& out = it->second;
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    if (out.size() == 0) {
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      return false;
    }
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    PADDLE_ENFORCE_EQ(
        out.size(), 1UL,
        platform::errors::InvalidArgument(
            "Output %s should not contain more than one outputs.", name));
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    return out[0] != nullptr;
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  }

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  bool HasAttr(const std::string& name) const override {
    return op_.HasAttr(name);
  }

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  bool HasInputs(const std::string& name) const override {
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    const auto& ins = ctx_.inputs;
    auto it = ins.find(name);
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    if (it == ins.end() || it->second.empty()) {
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      return false;
    }
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    for (auto& input : it->second) {
      if (input == nullptr) {
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        return false;
      }
    }
    return true;
  }

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  bool HasOutputs(const std::string& name,
                  bool allow_null = false) const override {
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    const auto& outs = ctx_.outputs;
    auto it = outs.find(name);
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    if (it == outs.end() || it->second.empty()) {
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      return false;
    }
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    if (allow_null) {
      for (auto& output : it->second) {
        if (output != nullptr) return true;
      }
      return false;
    } else {
      for (auto& output : it->second) {
        if (output == nullptr) return false;
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      }
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      return true;
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    }
  }

  AttrReader Attrs() const override { return AttrReader(op_.Attrs()); }

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  std::vector<std::string> Inputs(const std::string& name) const override {
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    return op_.Inputs(name);
  }

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  std::vector<std::string> Outputs(const std::string& name) const override {
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    return op_.Outputs(name);
  }

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  std::string GetInputNameByIdx(size_t idx) const override {
    auto& op_proto =
        paddle::framework::OpInfoMap::Instance().Get(op_.Type()).proto_;
    PADDLE_ENFORCE_LT(idx, op_proto->inputs().size(),
                      platform::errors::OutOfRange(
                          "The index should be less than the size of inputs of "
                          "operator %s, but got index is %d and size is %d",
                          op_.Type(), idx, op_proto->inputs().size()));
    return op_proto->inputs()[idx].name();
  }

  std::string GetOutputNameByIdx(size_t idx) const override {
    auto& op_proto =
        paddle::framework::OpInfoMap::Instance().Get(op_.Type()).proto_;
    PADDLE_ENFORCE_LT(
        idx, op_proto->outputs().size(),
        platform::errors::OutOfRange(
            "The index should be less than the size of outputs of "
            "operator %s, but got index is %d and size is %d",
            op_.Type(), idx, op_proto->outputs().size()));
    return op_proto->outputs()[idx].name();
  }

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  void ShareDim(const std::string& in, const std::string& out, size_t i = 0,
                size_t j = 0) override {
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    auto in_it = ctx_.inputs.find(in);
    auto out_it = ctx_.outputs.find(out);
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    PADDLE_ENFORCE_NE(
        in_it, ctx_.inputs.end(),
        platform::errors::NotFound("Input %s does not exist.", in));
    PADDLE_ENFORCE_NE(
        out_it, ctx_.outputs.end(),
        platform::errors::NotFound("Output %s does not exist.", out));
    PADDLE_ENFORCE_LT(i, in_it->second.size(),
                      platform::errors::InvalidArgument(
                          "The index of input dimension is out of range, "
                          "excepted index less than %zu, but received %zu.",
                          in_it->second.size(), i));
    PADDLE_ENFORCE_LT(j, out_it->second.size(),
                      platform::errors::InvalidArgument(
                          "The index of output dimension is out of range, "
                          "excepted index less than %zu, but received %zu.",
                          out_it->second.size(), j));
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    Variable* in_var = in_it->second[i];
    Variable* out_var = out_it->second[j];
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    PADDLE_ENFORCE_EQ(
        in_var->Type(), out_var->Type(),
        platform::errors::InvalidArgument(
            "The type of input (%s) and output (%s) are inconsistent.", in,
            out));
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    if (in_var->IsType<phi::SelectedRows>()) {
      auto& in_sele_rows = in_var->Get<phi::SelectedRows>();
      auto out_sele_rows = out_var->GetMutable<phi::SelectedRows>();
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      out_sele_rows->mutable_value()->Resize(in_sele_rows.value().dims());
      out_sele_rows->set_rows(in_sele_rows.rows());
      out_sele_rows->set_height(in_sele_rows.height());
    } else if (in_var->IsType<framework::LoDTensor>()) {
      auto& in_lod_tensor = in_var->Get<framework::LoDTensor>();
      auto* out_lod_tensor = out_var->GetMutable<framework::LoDTensor>();
      out_lod_tensor->Resize(in_lod_tensor.dims());
    } else {
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      PADDLE_THROW(platform::errors::Unimplemented(
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          "Currently, the input type of ShareDim only can be LoDTensor "
818
          "or SelectedRows."));
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    }
  }

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  void ShareAllLoD(const std::string& in,
                   const std::string& out) const override {
    auto in_it = ctx_.inputs.find(in);
    auto out_it = ctx_.outputs.find(out);
    PADDLE_ENFORCE_NE(in_it, ctx_.inputs.end(),
                      platform::errors::NotFound(
                          "Input [%s] found error in Op [%s]", in, op_.Type()));
    PADDLE_ENFORCE_NE(
        out_it, ctx_.outputs.end(),
        platform::errors::NotFound("Output [%s] found error in Op [%s]", out,
                                   op_.Type()));

    auto& in_var_list = in_it->second;
    auto& out_var_list = out_it->second;

    PADDLE_ENFORCE_EQ(
        in_var_list.size(), out_var_list.size(),
        platform::errors::PreconditionNotMet(
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            "Op [%s]: Input var size should be equal with output var size",
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            op_.Type()));

    auto& out_var_names = op_.Outputs(out);

    for (size_t i = 0; i < in_var_list.size(); ++i) {
      if (out_var_names[i] == framework::kEmptyVarName) {
        continue;
      }

      Variable* in_var = in_var_list[i];
      if (!in_var->IsType<LoDTensor>()) return;
      Variable* out_var = out_var_list[i];
      PADDLE_ENFORCE_EQ(out_var->IsType<LoDTensor>(), true,
                        platform::errors::PreconditionNotMet(
                            "The %d-th output of Output(%s) must be LoDTensor.",
                            i, out_var_names[i]));
      auto& in_tensor = in_var->Get<LoDTensor>();
      auto* out_tensor = out_var->GetMutable<LoDTensor>();
      out_tensor->set_lod(in_tensor.lod());
#ifdef PADDLE_WITH_MKLDNN
      if (in_tensor.layout() != DataLayout::kMKLDNN)
#endif
        out_tensor->set_layout(in_tensor.layout());
    }
  }

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  void ShareLoD(const std::string& in, const std::string& out, size_t i = 0,
                size_t j = 0) const override {
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    auto in_it = ctx_.inputs.find(in);
    auto out_it = ctx_.outputs.find(out);
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    PADDLE_ENFORCE_NE(
        in_it, ctx_.inputs.end(),
        platform::errors::NotFound("Input %s does not exist.", in));
    PADDLE_ENFORCE_NE(
        out_it, ctx_.outputs.end(),
        platform::errors::NotFound("Output %s does not exist.", out));
    PADDLE_ENFORCE_LT(i, in_it->second.size(),
                      platform::errors::InvalidArgument(
                          "The index of input dimension is out of range, "
                          "excepted index less than %zu, but received %zu.",
                          in_it->second.size(), i));
    PADDLE_ENFORCE_LT(j, out_it->second.size(),
                      platform::errors::InvalidArgument(
                          "The index of output dimension is out of range, "
                          "excepted index less than %zu, but received %zu.",
                          out_it->second.size(), j));
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    Variable* in_var = in_it->second.at(i);
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    if (!in_var->IsType<LoDTensor>()) return;
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    Variable* out_var = out_it->second.at(j);
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    PADDLE_ENFORCE_EQ(
        out_var->IsType<LoDTensor>(), true,
        platform::errors::InvalidArgument(
            "The %zu-th output of Output(%s) must be LoDTensor.", j, out));
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    auto& in_tensor = in_var->Get<LoDTensor>();
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    auto* out_tensor = out_var->GetMutable<LoDTensor>();
    out_tensor->set_lod(in_tensor.lod());
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// TODO(dzhwinter) : reuse ShareLoD in most operators.
// Need to call ShareLayout explicitly in sequence related ops.
// Shall we have a better method to shared info between in/out Tensor?
#ifdef PADDLE_WITH_MKLDNN
    // Fix me: ugly workaround below
    // Correct solution:
    //    set_layout() should NOT be called here (i.e. ShareLoD). Instead,
    //    layout of output tensor should be set "manually" in Compute()
    //    of each OPKernel. The reason layout should NOT be shared between
    //    input and output "automatically" (now by InferShape()->ShareLoD())
    //    is that layout transform may occur after InferShape().
    // Workaround:
    //    Skip set_layout() when input layout is kMKLDNN
    //    This is to avoid kMKLDNN is populated wrongly into a non-MKLDNN
    //    OPKernel. In all MKLDNN OPkernel, set_layout(kMKLDNN) should be called
    //    in Compute()
    if (in_tensor.layout() != DataLayout::kMKLDNN)
#endif
      out_tensor->set_layout(in_tensor.layout());
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  }

920
  int32_t GetLoDLevel(const std::string& in, size_t i = 0) const override {
921
    PADDLE_THROW(platform::errors::PreconditionNotMet(
922
        "GetLoDLevel is only used in compile time. The calculation of "
923
        "output's actual lod is different among operators so that should be "
924
        "set in the runtime kernel."));
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  }

927 928
  void SetLoDLevel(const std::string& out, int32_t lod_level,
                   size_t j = 0) const override {
929
    PADDLE_THROW(platform::errors::PreconditionNotMet(
930
        "SetLoDLevel is only used in compile time. The calculation of "
931
        "output's actual lod is different among operators so that should be "
932
        "set in the runtime kernel."));
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  }

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  bool IsRuntime() const override { return true; }

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  bool IsRunMKLDNNKernel() const override {
    try {
      auto& op_with_kernel = dynamic_cast<const OperatorWithKernel&>(op_);
      return ((op_with_kernel.kernel_type()) &&
              (op_with_kernel.kernel_type()->data_layout_ ==
               framework::DataLayout::kMKLDNN));
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    } catch (const std::bad_cast& exp) {
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      return false;
    }
  }

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  // TODO(paddle-dev): Can this be template?
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  paddle::small_vector<InferShapeVarPtr, phi::kInputSmallVectorSize>
950
  GetInputVarPtrs(const std::string& name) const override {
951
    const std::vector<Variable*>& vars = InputVars(name);
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    paddle::small_vector<InferShapeVarPtr, phi::kInputSmallVectorSize> res;
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    res.reserve(vars.size());
    res.insert(res.begin(), vars.begin(), vars.end());
    return res;
  }

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  paddle::small_vector<InferShapeVarPtr, phi::kOutputSmallVectorSize>
959
  GetOutputVarPtrs(const std::string& name) const override {
960
    const std::vector<Variable*>& vars = OutputVars(name);
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    paddle::small_vector<InferShapeVarPtr, phi::kOutputSmallVectorSize> res;
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    res.reserve(vars.size());
    res.insert(res.begin(), vars.begin(), vars.end());
    return res;
  }

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  DDim GetInputDim(const std::string& name) const override {
    const std::vector<Variable*>& vars = InputVars(name);
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    PADDLE_ENFORCE_EQ(
        vars.size(), 1UL,
        platform::errors::InvalidArgument(
            "Input(%s) should hold one element, but now it holds %zu elements.",
            name, vars.size()));
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    return this->GetDim(vars[0]);
  }

  std::vector<DDim> GetInputsDim(const std::string& name) const override {
    const std::vector<Variable*>& vars = InputVars(name);
    return GetDims(vars);
  }

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  proto::VarType::Type GetInputVarType(const std::string& name) const override {
    return GetVarType(InputVars(name).at(0));
  }

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  std::vector<proto::VarType::Type> GetInputsVarType(
      const std::string& name) const override {
    return GetVarTypes(InputVars(name));
  }

  std::vector<proto::VarType::Type> GetOutputsVarType(
      const std::string& name) const override {
    return GetVarTypes(OutputVars(name));
  }

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  void SetOutputDim(const std::string& name, const DDim& dim) override {
    auto& vars = OutputVars(name);
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    PADDLE_ENFORCE_EQ(
        vars.size(), 1UL,
        platform::errors::InvalidArgument("Output(%s) should hold one element, "
                                          "but now it holds %zu elements.",
                                          name, vars.size()));
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    SetDim(vars[0], dim);
  }

  void SetOutputsDim(const std::string& name,
                     const std::vector<DDim>& dims) override {
    auto& vars = OutputVars(name);
    SetDims(vars, dims);
  }

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  const phi::ArgumentMappingFn* GetPhiArgumentMappingFn() const override {
    return phi::OpUtilsMap::Instance().GetArgumentMappingFn(op_.Type());
  }

  const phi::KernelSignature* GetPhiDefaultKernelSignature() const override {
    return &phi::DefaultKernelSignatureMap::Instance().Get(op_.Type());
  }

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 protected:
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  DDim GetDim(Variable* var) const {
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    PADDLE_ENFORCE_NOT_NULL(
        var, platform::errors::InvalidArgument("Input variable is nullptr."));
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    if (var->IsType<LoDTensor>()) {
      return var->Get<LoDTensor>().dims();
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    } else if (var->IsType<phi::SelectedRows>()) {
      return var->Get<phi::SelectedRows>().GetCompleteDims();
1028
    } else {
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      PADDLE_THROW(platform::errors::InvalidArgument(
          "Only LoDTensor or SelectedRows support 'GetDim', but input "
          "Variable's type is %s.",
          ToTypeName(var->Type())));
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    }
  }

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  std::vector<DDim> GetDims(const std::vector<Variable*>& vars) const {
    std::vector<DDim> ret;
    ret.reserve(vars.size());
    std::transform(vars.begin(), vars.end(), std::back_inserter(ret),
                   [this](Variable* var) { return this->GetDim(var); });
    return ret;
  }

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  std::vector<DDim> GetRepeatedDims(const std::string& name) const override {
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    PADDLE_THROW(platform::errors::PreconditionNotMet(
        "GetRepeatedDims method only ban be used in compile time."));
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  }

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  void SetDim(Variable* var, const DDim& dim) {
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    if (var->IsType<LoDTensor>()) {
      var->GetMutable<LoDTensor>()->Resize(dim);
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    } else if (var->IsType<phi::SelectedRows>()) {
      var->GetMutable<phi::SelectedRows>()->set_height(dim[0]);
1054
    } else {
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      PADDLE_THROW(platform::errors::Unimplemented(
          "Variable type error, expect LoDTensor or SelectedRows, but received "
          "(%s).",
          ToTypeName(var->Type())));
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    }
  }

  void SetDims(const std::vector<Variable*>& vars,
               const std::vector<DDim>& dims) {
    size_t length = vars.size();
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    PADDLE_ENFORCE_EQ(length, dims.size(),
                      platform::errors::InvalidArgument(
                          "The number of input variables do not match the "
                          "number of input dimensions, the number of variables "
                          "is %zu, the number of dimensions is %zu.",
                          length, dims.size()));
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    for (size_t i = 0; i < length; ++i) {
      if (vars[i] == nullptr) {
        continue;
      }
      SetDim(vars[i], dims[i]);
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    }
  }

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  void SetRepeatedDims(const std::string& name,
                       const std::vector<DDim>& dims) override {
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    PADDLE_THROW(platform::errors::PreconditionNotMet(
        "SetRepeatedDims method only can be used in compile time."));
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  }

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  std::vector<proto::VarType::Type> GetVarTypes(
      const std::vector<Variable*>& vars) const {
    std::vector<proto::VarType::Type> retv;
    retv.resize(vars.size());
    std::transform(vars.begin(), vars.end(), retv.begin(),
                   std::bind(std::mem_fn(&RuntimeInferShapeContext::GetVarType),
                             this, std::placeholders::_1));
    return retv;
  }

  proto::VarType::Type GetVarType(Variable* var) const {
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    return ToVarType(var->Type());
  }

1099 1100 1101
 private:
  const std::vector<Variable*>& InputVars(const std::string& name) const {
    auto it = ctx_.inputs.find(name);
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    PADDLE_ENFORCE_NE(
        it, ctx_.inputs.end(),
        platform::errors::NotFound(
            "Operator (%s) does not have the input (%s).", op_.Type(), name));
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    return it->second;
  }

  const std::vector<Variable*>& OutputVars(const std::string& name) const {
    auto it = ctx_.outputs.find(name);
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    PADDLE_ENFORCE_NE(
        it, ctx_.outputs.end(),
        platform::errors::NotFound(
            "Operator (%s) does not have the outputs (%s).", op_.Type(), name));
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    return it->second;
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  }

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  const OperatorBase& op_;
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  const RuntimeContext& ctx_;
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};

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static void CheckTensorNANOrInf(const std::string& op_type,
                                const std::string& name,
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                                const framework::Tensor& tensor) {
  if (tensor.memory_size() == 0) {
    return;
  }
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  if (framework::TransToProtoVarType(tensor.dtype()) != proto::VarType::FP32 &&
      framework::TransToProtoVarType(tensor.dtype()) != proto::VarType::FP64) {
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    return;
  }
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  PADDLE_ENFORCE_NE(
      framework::TensorContainsInf(tensor), true,
      platform::errors::Fatal("Operator %s output Tensor %s contains Inf.",
                              op_type, name));
  PADDLE_ENFORCE_NE(
      framework::TensorContainsNAN(tensor), true,
      platform::errors::Fatal("Operator %s output Tensor %s contains NAN.",
                              op_type, name));
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}

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bool OperatorWithKernel::SupportGPU() const {
  auto phi_kernels = phi::KernelFactory::Instance().SelectKernelMap(
      phi::TransToPhiKernelName(type_));
  auto has_phi_kernel =
      std::any_of(phi_kernels.begin(), phi_kernels.end(),
                  [](phi::KernelKeyMap::const_reference kern_pair) {
                    return kern_pair.first.backend() == phi::Backend::GPU;
                  });
  if (has_phi_kernel) {
    return true;
  } else {
    auto kernel_iter = OperatorWithKernel::AllOpKernels().find(type_);
    if (kernel_iter == OperatorWithKernel::AllOpKernels().end()) {
      return false;
    } else {
      auto& op_kernels = kernel_iter->second;
      return std::any_of(
          op_kernels.begin(), op_kernels.end(),
          [](OpKernelMap::const_reference kern_pair) {
            return platform::is_gpu_place(kern_pair.first.place_);
          });
    }
  }
}

bool OperatorWithKernel::SupportNPU() const {
  auto phi_kernels = phi::KernelFactory::Instance().SelectKernelMap(
      phi::TransToPhiKernelName(type_));
  auto has_phi_kernel =
      std::any_of(phi_kernels.begin(), phi_kernels.end(),
                  [](phi::KernelKeyMap::const_reference kern_pair) {
                    return kern_pair.first.backend() == phi::Backend::NPU;
                  });
  if (has_phi_kernel) {
    return true;
  } else {
    auto kernel_iter = OperatorWithKernel::AllOpKernels().find(type_);
    if (kernel_iter == OperatorWithKernel::AllOpKernels().end()) {
      return false;
    } else {
      auto& op_kernels = kernel_iter->second;
      return std::any_of(
          op_kernels.begin(), op_kernels.end(),
          [](OpKernelMap::const_reference kern_pair) {
            return platform::is_npu_place(kern_pair.first.place_);
          });
    }
  }
}

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bool OperatorWithKernel::SupportsMKLDNN(
    const proto::VarType::Type data_type) const {
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  auto op_kernel_iter = OperatorWithKernel::AllOpKernels().find(type_);
  if (op_kernel_iter == OperatorWithKernel::AllOpKernels().end()) {
    VLOG(6) << "Warning: " << type_ << " don't find its MKLDNN Kernel in Fluid "
                                       "Registered Kernels. And We don't "
                                       "search its kernels in phi lib, "
                                       "SupportsMKLDNN() return false.";
    return false;
  }
  auto& op_kernels = op_kernel_iter->second;
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  return std::any_of(op_kernels.begin(), op_kernels.end(),
1204
                     [data_type](OpKernelMap::const_reference kern_pair) {
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                       return platform::is_cpu_place(kern_pair.first.place_) &&
                              kern_pair.first.library_type_ ==
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                                  LibraryType::kMKLDNN &&
                              kern_pair.first.data_type_ == data_type;
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                     });
}

1212 1213
bool OperatorWithKernel::CanMKLDNNBeUsed(const framework::ExecutionContext& ctx,
                                         proto::VarType::Type data_type) const {
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  const auto& attrs_map = ctx.Attrs();
  auto iter = attrs_map.find("use_mkldnn");
  bool use_mkldnn_ctx = iter != attrs_map.end() &&
                        BOOST_GET_CONST(bool, iter->second) &&
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                        platform::is_cpu_place(ctx.GetPlace());
1219
  return use_mkldnn_ctx && this->SupportsMKLDNN(data_type);
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}

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void OperatorWithKernel::InferShape(InferShapeContext* ctx) const {
  PADDLE_THROW(platform::errors::PermissionDenied(
      "The default InferShape function of OperatorWithKernel is not allowed to "
      "be called, please override corresponding InferShape function in the "
      "specific operator."));
}

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void OperatorWithKernel::RuntimeInferShape(const Scope& scope,
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                                           const platform::Place& place,
                                           const RuntimeContext& ctx) const {
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  RuntimeInferShapeContext infer_shape_ctx(*this, ctx);
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  this->Info().infer_shape_(&infer_shape_ctx);
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}

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void OperatorWithKernel::RunImpl(const Scope& scope,
                                 const platform::Place& place) const {
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  // To reduce the elapsed time of HasAttr, we use bool variable to record the
  // result of HasAttr.
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  if (!enable_cache_runtime_context_ && HasAttr(kEnableCacheRuntimeContext))
    enable_cache_runtime_context_ = true;
  if (!all_kernels_must_compute_runtime_shape_ &&
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      HasAttr(kAllKernelsMustComputeRuntimeShape))
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    all_kernels_must_compute_runtime_shape_ = true;
1245
  const Scope* cur_scope = &scope;
1246
  if (!enable_cache_runtime_context_) {
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    RuntimeContext ctx(Inputs(), Outputs(), scope);
    RunImpl(scope, place, &ctx);
1249
    pre_scope_ = cur_scope;
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  } else {
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    if (runtime_ctx_.get() == nullptr || pre_scope_ != cur_scope) {
      std::lock_guard<std::mutex> lock(cache_update_mutex_);
      if (runtime_ctx_.get() == nullptr || pre_scope_ != cur_scope) {
        runtime_ctx_.reset(new RuntimeContext(Inputs(), Outputs(), scope));
        pre_scope_ = cur_scope;
      }
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    }
    RunImpl(scope, place, runtime_ctx_.get());
  }
}

void OperatorWithKernel::RunImpl(const Scope& scope,
                                 const platform::Place& place,
                                 RuntimeContext* runtime_ctx) const {
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  platform::DeviceContextPool& pool = platform::DeviceContextPool::Instance();
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  auto* dev_ctx = pool.Get(place);
1267

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#ifdef PADDLE_WITH_ASCEND_CL
  // NOTE(wangxi): nan/inf cannot be detected on NPU by checking the variable
  // values, but only through special `float_status` to checks whether
  // the operation is overflow. More about `float_status`, see:
  // https://gitee.com/ascend/modelzoo/issues/I3NF8V?from=project-issue
  if (FLAGS_check_nan_inf) {
    framework::details::NPUAllocAndClearFloatStatus(*this, scope, place);
  }
#endif

1278
  auto exe_ctx = ExecutionContext(*this, scope, *dev_ctx, *runtime_ctx);
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  // using cache
  if (kernel_type_.get()) {
    dev_ctx = pool.Get(kernel_type_->place_);
  }
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  // TODO(chenweihang): Now we are still reusing a lot of the original fluid
  // implementation, this is a gradual replacement process
  // TODO(chenweihang): in the first phase of project, we only support CPU, CUDA
  // and RCOM backend, the XPU, NPU and MKLDNN will be supported in the second
  // phase
1289
  phi::KernelKey pt_kernel_key;
1290
  std::string pt_kernel_name;
1291
  if (phi::KernelFactory::Instance().HasCompatiblePhiKernel(type_)) {
1292 1293 1294 1295
    if (kernel_signature_ == nullptr || pt_kernel_ == nullptr) {
      kernel_signature_.reset(new phi::KernelSignature(
          std::move(GetExpectedPhiKernelArgs(exe_ctx))));
      VLOG(6) << *kernel_signature_.get();
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      kernel_type_.reset(
          new OpKernelType(std::move(InnerGetExpectedKernelType(exe_ctx))));
      dev_ctx = pool.Get(kernel_type_->place_);

1301
      pt_kernel_name = kernel_signature_->name;
1302
      pt_kernel_key = TransOpKernelTypeToPhiKernelKey(*kernel_type_.get());
1303
      pt_kernel_.reset(
1304
          new phi::Kernel(phi::KernelFactory::Instance().SelectKernel(
1305 1306 1307
              pt_kernel_name, pt_kernel_key)));

      if (pt_kernel_->IsValid()) {
1308
        VLOG(6) << "Static mode ChoosePhiKernel - kernel name: "
1309 1310 1311
                << pt_kernel_name << " | kernel key: " << pt_kernel_key
                << " | kernel: " << *pt_kernel_;
      } else {
1312
        VLOG(6) << "Static mode ChoosePhiKernel - kernel `" << pt_kernel_name
1313 1314
                << "` not found.";
      }
1315
    } else {
1316
      pt_kernel_name = kernel_signature_->name;
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// NOTE(Liu-xiandong): The register kernel used KP have library_type[KP],
// But the default library_type is Plain, so we need to modify the
// library_type here, otherwise it can't work.
#ifdef PADDLE_WITH_XPU_KP
      if (paddle::platform::is_xpu_place(kernel_type_->place_)) {
        bool use_xpu_kp_kernel_rt =
            FLAGS_run_kp_kernel &&
            paddle::platform::is_xpu_kp_support_op(type_, *kernel_type_);
        bool use_xpu_kp_kernel_debug =
            paddle::platform::is_in_xpu_kpwhite_list(type_);
        if (use_xpu_kp_kernel_rt) {
          VLOG(3) << "phi xpu_kp using rt mode in static graph";
        }
        if (use_xpu_kp_kernel_debug) {
          VLOG(3) << "phi xpu_kp using debug mode in static graph";
        }
        bool is_xpu_kp_support =
            (use_xpu_kp_kernel_rt || use_xpu_kp_kernel_debug);
        if (is_xpu_kp_support) {
          auto expected_kernel_key_library_type = kernel_type_->library_type_;
          kernel_type_->library_type_ = LibraryType::kKP;
          VLOG(3) << "modifing XPU KP kernel in static graph: " << type_
                  << ", using_kernel_key:" << *kernel_type_.get();
          auto try_pt_kernel_key =
              TransOpKernelTypeToPhiKernelKey(*kernel_type_.get());
1342 1343
          if (!phi::KernelFactory::Instance().HasKernel(pt_kernel_name,
                                                        try_pt_kernel_key)) {
1344 1345 1346 1347 1348 1349 1350
            kernel_type_->library_type_ = expected_kernel_key_library_type;
            VLOG(3) << "modify XPU KP kernel in static graph: " << type_
                    << " is failed " << *kernel_type_.get();
          }
        }
      }
#endif
1351
      pt_kernel_key = TransOpKernelTypeToPhiKernelKey(*kernel_type_.get());
1352
    }
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// NOTE(Liu-xiandong): Determine whether the selected kernel is valid
// If not, use the kernel registered in fluid. And if the fluid do not
// contains the related heterogeneous kernel, use phi CPU kernel.
1357
#if defined(PADDLE_WITH_XPU)
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    bool is_xpu_unsupport =
        paddle::platform::is_xpu_place(kernel_type_->place_) &&
            !paddle::platform::is_xpu_support_op(type_, *kernel_type_.get()) ||
        paddle::platform::is_in_xpu_black_list(type_);
#endif
    if (pt_kernel_->IsValid()
1364
#if defined(PADDLE_WITH_XPU) && !defined(PADDLE_WITH_XPU_KP)
1365 1366 1367
        && !is_xpu_unsupport
#endif
        ) {
1368
      run_phi_kernel_ = true;
1369 1370 1371
    } else {
      auto& all_op_kernels = AllOpKernels();
      auto kernels_iter = all_op_kernels.find(type_);
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// NOTE(Liu-xiandong): If we can't find heterogeneous kernel in phi,
// we need to select the heterogeneous kernel in fluid, but the kernel
// registered in KP use library_type[KP], we need to modify it.
#ifdef PADDLE_WITH_XPU_KP
      bool use_xpu_kp_kernel_rt =
          paddle::platform::is_xpu_place(kernel_type_->place_) &&
          FLAGS_run_kp_kernel &&
          paddle::platform::is_xpu_kp_support_op(type_, *kernel_type_);
      bool use_xpu_kp_kernel_debug =
          paddle::platform::is_xpu_place(kernel_type_->place_) &&
          paddle::platform::is_in_xpu_kpwhite_list(type_);
      bool is_xpu_kp_support =
          (use_xpu_kp_kernel_rt || use_xpu_kp_kernel_debug);
      if (is_xpu_kp_support) {
        kernel_type_->library_type_ = LibraryType::kKP;
      }
#endif

1391 1392 1393
      if (kernels_iter == all_op_kernels.end() ||
          kernels_iter->second.find(*kernel_type_.get()) ==
              kernels_iter->second.end()
1394
#if defined(PADDLE_WITH_XPU) && !defined(PADDLE_WITH_XPU_KP)
1395
          || is_xpu_unsupport
1396
#endif
1397 1398 1399 1400
#if defined(PADDLE_WITH_XPU_KP)
          || (is_xpu_unsupport && !is_xpu_kp_support)
#endif
              ) {
1401 1402 1403
        auto pt_cpu_kernel_key =
            FallBackToCpu(*kernel_type_.get(), pt_kernel_key, *this);
        pt_kernel_.reset(
1404
            new phi::Kernel(phi::KernelFactory::Instance().SelectKernel(
1405 1406 1407 1408 1409 1410 1411
                pt_kernel_name, pt_cpu_kernel_key)));

        dev_ctx = pool.Get(platform::CPUPlace());
        if (pt_kernel_->IsValid()) {
          VLOG(6) << "Static mode PrepareImpl - kernel name: " << pt_kernel_name
                  << " | kernel key: " << pt_cpu_kernel_key
                  << " | kernel: " << *pt_kernel_;
1412
          run_phi_kernel_ = true;
1413 1414
        }
      }
1415 1416
    }
  }
1417
  if (!run_phi_kernel_) {
1418 1419
    if (kernel_type_.get() == nullptr || kernel_func_.get() == nullptr) {
      ChooseKernel(exe_ctx);
1420
      dev_ctx = pool.Get(kernel_type_->place_);
1421
    }
1422 1423
  }

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  // do data transformScope &transfer_scope;
  std::vector<std::string> transfered_inplace_vars;
1426 1427
  Scope* transfer_scope = nullptr;
  {
1428
    platform::RecordEvent record_event("prepare_data",
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                                       platform::TracerEventType::OperatorInner,
                                       1, platform::EventRole::kInnerOp);
1431 1432 1433 1434
    if (need_prepare_data_) {
      transfer_scope = PrepareData(scope, *kernel_type_,
                                   &transfered_inplace_vars, runtime_ctx);
    }
1435
  }
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  // exec scope is the scope that kernel actually executed on.
  const Scope& exec_scope =
      (transfer_scope == nullptr ? scope : *transfer_scope);

1440
  if (!all_kernels_must_compute_runtime_shape_) {
1441
    platform::RecordEvent record_event("infer_shape",
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                                       platform::TracerEventType::OperatorInner,
                                       1, platform::EventRole::kInnerOp);
1444
    RuntimeInferShapeContext infer_shape_ctx(*this, *runtime_ctx);
1445
    this->Info().infer_shape_(&infer_shape_ctx);
1446
  }
1447 1448 1449 1450 1451

  if (FLAGS_enable_unused_var_check) {
    GetThreadLocalUsedVarNameSet()->clear();
  }

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  // TODO(panyx0718): ExecutionContext should only depend on RuntimeContext
  // not Scope. Imperative mode only pass inputs and get outputs.
1454
  {
1455
    platform::RecordEvent record_event("compute",
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                                       platform::TracerEventType::OperatorInner,
                                       1, platform::EventRole::kInnerOp);
1458
    if (run_phi_kernel_) {
1459
      phi::KernelContext pt_kernel_context;
1460
      // Do data transform before building KernelContext
1461
      // TODO(zhiqiu): support TransferInplaceVarsBack
1462
      PreparePhiData(exec_scope, *pt_kernel_, *kernel_signature_, runtime_ctx);
1463
      BuildPhiKernelContext(*runtime_ctx, dev_ctx, &pt_kernel_context);
1464
      (*pt_kernel_)(&pt_kernel_context);
1465 1466 1467 1468
    } else {
      (*kernel_func_)(
          ExecutionContext(*this, exec_scope, *dev_ctx, *runtime_ctx));
    }
1469
  }
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  if (!transfered_inplace_vars.empty()) {
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    // there is inplace variable has been transferred.
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    TransferInplaceVarsBack(scope, transfered_inplace_vars, *transfer_scope);
1474
  }
1475 1476 1477 1478 1479 1480 1481

  // See [ Why need handle complex gradient to real gradient? ]
  // Only handle the case where the current kernel data type is complex
  if (framework::IsComplexType(kernel_type_->data_type_)) {
    HandleComplexGradToRealGrad(scope, runtime_ctx);
  }

1482 1483 1484 1485 1486 1487 1488 1489
  if (FLAGS_enable_unused_var_check) {
    // skip op that uses mkldnn because it has different memory reuse strategy.
    // use attr here because some GradMakers (like ActivationGradOpMaker) add
    // input when use_mkldnn=true;
    if (!(HasAttr("use_mkldnn") && Attr<bool>("use_mkldnn"))) {
      CheckUnusedVar(*this, scope);
    }
  }
1490

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  /*For profiling/benchmark only*/
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  if (FLAGS_benchmark) {
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    dev_ctx->Wait();
1494 1495
#if defined(PADDLE_WITH_CUDA) || defined(PADLDE_WITH_ROCM)
    PADDLE_ENFORCE_GPU_SUCCESS(platform::GpuGetLastError());
1496 1497
#endif
    VLOG(4) << "Operator(" << Type() << "): context wait and get last error";
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  }
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  if (FLAGS_check_nan_inf) {
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    framework::details::CheckOpHasNanOrInf(*this, exec_scope, place);
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  }
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  // To solve issue #15032, have a discussion with @Luotao for cpu inference,
  // do not cache transfer scope, hence in this case delete transfer scope
  // after run to avoid memory leak
  if (transfer_scope && !run_by_executor_ && !enable_cache_transfer_scope_) {
    scope.DeleteScope(transfer_scope);
  }
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OpKernelType OperatorWithKernel::InnerGetExpectedKernelType(
    const ExecutionContext& ctx) const {
  auto expected_kernel_key = this->GetExpectedKernelType(ctx);
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  if (HasAttr("op_device")) {
    if (Attr<std::string>("op_device") == "cpu") {
      expected_kernel_key.place_ = platform::CPUPlace();
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    } else if (Attr<std::string>("op_device").find("gpu") !=
               std::string::npos) {
      auto device = Attr<std::string>("op_device");
      size_t pos = device.find(':');
      if (pos != std::string::npos) {
        device = device.substr(0, pos);
        LOG_FIRST_N(WARNING, 1)
            << "Device index is only supported under pipeline parallelism, "
            << "so it will be ignored.";
      }
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      // when the Op that only has CPUKernel is assigned to GPU, the CPUKernel
      // will be executed and a warning will be given at the same time.
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      expected_kernel_key.place_ = platform::CPUPlace();
#if defined(PADDLE_WITH_CUDA) || defined(PADDLE_WITH_HIP)
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      if (SupportGPU()) {
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        auto& dev_ctx = ctx.device_context();
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        expected_kernel_key.place_ = dev_ctx.GetPlace();
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      }
#endif
#ifdef PADDLE_WITH_ASCEND_CL
      if (SupportNPU()) {
        auto& dev_ctx = ctx.device_context();
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        expected_kernel_key.place_ = dev_ctx.GetPlace();
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      }
#endif
      if (platform::is_cpu_place(expected_kernel_key.place_)) {
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        LOG_FIRST_N(WARNING, 1)
            << "Op(" << type_
            << ") has no CUDA implementation. It will be assigned to CPUPlace.";
      }
    }
  }
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  VLOG(3) << "op type:" << type_
          << ", expected_kernel_key:" << expected_kernel_key;
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  return expected_kernel_key;
}

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phi::KernelKey OperatorWithKernel::ChoosePhiKernel(
1556
    const ExecutionContext& ctx) const {
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  kernel_signature_.reset(
      new phi::KernelSignature(std::move(GetExpectedPhiKernelArgs(ctx))));
  VLOG(6) << *kernel_signature_.get();
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  kernel_type_.reset(
      new OpKernelType(std::move(InnerGetExpectedKernelType(ctx))));

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  auto pt_kernel_name = kernel_signature_->name;
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  auto pt_kernel_key = TransOpKernelTypeToPhiKernelKey(*kernel_type_.get());
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  pt_kernel_.reset(new phi::Kernel(phi::KernelFactory::Instance().SelectKernel(
      pt_kernel_name, pt_kernel_key)));
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  if (pt_kernel_->IsValid()) {
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    VLOG(6) << "Static mode ChoosePhiKernel - kernel name: " << pt_kernel_name
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            << " | kernel key: " << pt_kernel_key
            << " | kernel: " << *pt_kernel_;
  } else {
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    VLOG(6) << "Static mode ChoosePhiKernel - kernel `" << pt_kernel_name
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            << "` not found.";
  }
1577
  return pt_kernel_key;
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}

void OperatorWithKernel::ChooseKernel(const ExecutionContext& ctx) const {
  // check if op[type] has kernel registered.
  auto& all_op_kernels = AllOpKernels();
  auto kernels_iter = all_op_kernels.find(type_);
  PADDLE_ENFORCE_NE(
      kernels_iter, all_op_kernels.end(),
      platform::errors::Unavailable(
          "There are no kernels which are registered in the %s operator.",
          type_));

  OpKernelMap& kernels = kernels_iter->second;

  auto expected_kernel_key = InnerGetExpectedKernelType(ctx);
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  auto kernel_iter = kernels.find(expected_kernel_key);
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#ifdef PADDLE_WITH_MKLDNN
  // workaround for missing MKLDNN kernel when FLAGS_use_mkldnn env var is set
  if (kernel_iter == kernels.end() &&
      expected_kernel_key.library_type_ == LibraryType::kMKLDNN) {
    VLOG(3) << "missing MKLDNN kernel: fallbacking to PLAIN one";
    expected_kernel_key.library_type_ = LibraryType::kPlain;
    expected_kernel_key.data_layout_ = DataLayout::kAnyLayout;
    kernel_iter = kernels.find(expected_kernel_key);
  }
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#endif
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#if defined(PADDLE_WITH_XPU) && !defined(PADDLE_WITH_XPU_KP)
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  if (platform::is_xpu_place(expected_kernel_key.place_) &&
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      (kernel_iter == kernels.end() ||
       !paddle::platform::is_xpu_support_op(type_, expected_kernel_key) ||
       paddle::platform::is_in_xpu_black_list(type_))) {
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    VLOG(3) << "missing XPU kernel: " << type_
            << ", expected_kernel_key:" << expected_kernel_key
            << ", fallbacking to CPU one!";
    expected_kernel_key.place_ = platform::CPUPlace();
    kernel_iter = kernels.find(expected_kernel_key);
  }
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#endif
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#ifdef PADDLE_WITH_XPU_KP
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  if (paddle::platform::is_xpu_place(expected_kernel_key.place_)) {
    bool use_xpu_kp_kernel_rt =
        FLAGS_run_kp_kernel &&
        paddle::platform::is_xpu_kp_support_op(type_, expected_kernel_key);
    bool use_xpu_kp_kernel_debug =
        paddle::platform::is_in_xpu_kpwhite_list(type_);
    if (use_xpu_kp_kernel_rt) {
      VLOG(3) << "xpu_kp using rt mode ";
    }
    if (use_xpu_kp_kernel_debug) {
      VLOG(3) << "xpu_kp using debug mode ";
    }
    bool is_xpu_kp_support = (use_xpu_kp_kernel_rt || use_xpu_kp_kernel_debug);
    if (is_xpu_kp_support) {
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      auto cache_expected_kernel_key_library_type =
          expected_kernel_key.library_type_;
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      expected_kernel_key.library_type_ = LibraryType::kKP;
      kernel_iter = kernels.find(expected_kernel_key);
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      // if can't find corresponding kernel when is_xpu_kp_support is on
      // if the fluid do not register related kernel, it can't work and hava
      // error as before
      if (kernel_iter == kernels.end()) {
        expected_kernel_key.library_type_ =
            cache_expected_kernel_key_library_type;
        expected_kernel_key.place_ = platform::CPUPlace();
        kernel_iter = kernels.find(expected_kernel_key);
      } else {
        VLOG(3) << "using XPU KP kernel: " << type_
                << ", using_kernel_key:" << expected_kernel_key;
      }
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    }
    bool is_xpu_unsupport =
        (!paddle::platform::is_xpu_support_op(type_, expected_kernel_key) ||
         paddle::platform::is_in_xpu_black_list(type_));
    if (!is_xpu_kp_support &&
        (kernel_iter == kernels.end() || is_xpu_unsupport)) {
      VLOG(3) << "missing XPU kernel: " << type_
              << ", expected_kernel_key:" << expected_kernel_key
              << ", fallbacking to CPU one!";
      expected_kernel_key.place_ = platform::CPUPlace();
      kernel_iter = kernels.find(expected_kernel_key);
    }
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  }
#endif

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#ifdef PADDLE_WITH_IPU
  if (kernel_iter == kernels.end() &&
      platform::is_ipu_place(expected_kernel_key.place_)) {
    VLOG(3) << "missing IPU kernel: " << type_
            << ", expected_kernel_key:" << expected_kernel_key
            << ", fallbacking to CPU one!";
    expected_kernel_key.place_ = platform::CPUPlace();
    kernel_iter = kernels.find(expected_kernel_key);
  }
#endif
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#ifdef PADDLE_WITH_ASCEND_CL
  if (kernel_iter == kernels.end() &&
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      platform::is_npu_place(expected_kernel_key.place_)) {
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    VLOG(3) << "missing NPU kernel: " << type_
            << ", expected_kernel_key:" << expected_kernel_key
            << ", fallbacking to CPU one!";
    expected_kernel_key.place_ = platform::CPUPlace();
    kernel_iter = kernels.find(expected_kernel_key);
  }
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#endif
#ifdef PADDLE_WITH_MLU
  if (kernel_iter == kernels.end() &&
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      platform::is_mlu_place(expected_kernel_key.place_)) {
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    VLOG(3) << "missing MLU kernel: " << type_
            << ", expected_kernel_key:" << expected_kernel_key
            << ", fallbacking to CPU one!";
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    expected_kernel_key.place_ = platform::CPUPlace();
    kernel_iter = kernels.find(expected_kernel_key);
  }
#endif
#ifdef PADDLE_WITH_CUSTOM_DEVICE
  if (kernel_iter == kernels.end() &&
      platform::is_custom_place(expected_kernel_key.place_)) {
    VLOG(3) << "missing " << expected_kernel_key.place_.GetDeviceType()
            << " kernel: " << type_
            << ", expected_kernel_key:" << expected_kernel_key
            << ", fallbacking to CPU one!";
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    expected_kernel_key.place_ = platform::CPUPlace();
    kernel_iter = kernels.find(expected_kernel_key);
  }
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#endif
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  PADDLE_ENFORCE_NE(kernel_iter, kernels.end(),
                    platform::errors::NotFound(
                        "Operator (%s) does not have kernel for %s.", type_,
                        KernelTypeToString(expected_kernel_key)));
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  std::lock_guard<std::mutex> lock(cache_update_mutex_);
  if (kernel_type_.get() == nullptr || kernel_func_.get() == nullptr) {
    kernel_type_.reset(new OpKernelType(expected_kernel_key));
    kernel_func_.reset(new OpKernelFunc(kernel_iter->second));
  }
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}

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void OperatorWithKernel::TransferInplaceVarsBack(
    const Scope& scope, const std::vector<std::string>& inplace_vars,
    const Scope& transfer_scope) const {
  for (auto& var_name : inplace_vars) {
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    VLOG(3) << "share inplace var " + var_name + " back to it's original scope";
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    auto* origin_var = scope.FindVar(var_name);
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    PADDLE_ENFORCE_NOT_NULL(origin_var,
                            platform::errors::InvalidArgument(
                                "The variable[%s] is nullptr.", var_name));
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    auto* original_tensor =
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        GetMutableLoDTensorOrSelectedRowsValueFromVar(origin_var);
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    auto* var = transfer_scope.FindVar(var_name);
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    PADDLE_ENFORCE_NOT_NULL(var, platform::errors::InvalidArgument(
                                     "The variable[%s] is nullptr.", var_name));
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    auto* transformed_tensor = GetLoDTensorOrSelectedRowsValueFromVar(*var);
1734
    auto original_dims = original_tensor->dims();
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    original_tensor->ShareDataWith(*transformed_tensor);
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    // In order to solve the problem that the output latitude of NPU reshape
    // operator is not changed when inplace.
    if (type_ != "reshape2" && type_ != "reshape2_grad") {
      original_tensor->Resize(original_dims);
    }
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  }
}

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void OperatorWithKernel::HandleComplexGradToRealGrad(
    const Scope& scope, RuntimeContext* ctx) const {
  for (auto& var_name_item : Outputs()) {
    std::vector<Variable*>& output_vars = ctx->outputs[var_name_item.first];
    for (size_t i = 0; i < var_name_item.second.size(); ++i) {
      // 1. find grad_var & check whether is complex tensor
      auto var_name = var_name_item.second[i];
      auto orig_var_name = GradOriginalVarName(var_name);
      // only focus on gradient var
      if (var_name == orig_var_name) {
        continue;
      }
      auto* grad_var = output_vars[i];
      // skip nullptr var
      if (grad_var == nullptr) {
        continue;
      }
      // don't process LoDTensorArray temporarily,
      // add support if necessary for complex number calculations in the future
      if (!VarIsTensor(*grad_var)) {
        continue;
      }
      auto* grad_tensor =
          GetMutableLoDTensorOrSelectedRowsValueFromVar(grad_var);
      // skip nullptr tensor
      if (grad_tensor == nullptr || !grad_tensor->IsInitialized()) {
        continue;
      }
      // only focus on complex dtype now
1773
      auto src_type = framework::TransToProtoVarType(grad_tensor->dtype());
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      if (!IsComplexType(src_type)) {
        continue;
      }

      // 2. find forward var & check whether need to cast
      auto* var = scope.FindVar(orig_var_name);
      // if forward var not exists, do nothing
      if (var == nullptr) {
        continue;
      }
      if (!VarIsTensor(*var)) {
        continue;
      }
      const auto* tensor = GetLoDTensorOrSelectedRowsValueFromVar(*var);
      PADDLE_ENFORCE_NOT_NULL(
          tensor,
          platform::errors::Unavailable(
              "Forward tensor is nullptr when handle complex data to real."));
      // only need record type, the allocation may have been released
1793
      auto dst_type = framework::TransToProtoVarType(tensor->dtype());
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      // only focus on real dtype and need casting
      if (IsComplexType(dst_type)) {
        continue;
      }

      // 3. cast complex grad to real grad
      VLOG(6) << "Transform " << framework::DataTypeToString(src_type)
              << " var `" << var_name << "` to "
              << framework::DataTypeToString(dst_type)
              << " real var in static graph.";
      Tensor out;
      TransComplexToReal(dst_type, src_type, *grad_tensor, &out);
      SetTensorToVariable(*grad_var, out, grad_var);
    }
  }
}

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Scope* OperatorWithKernel::PrepareData(
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    const Scope& scope, const OpKernelType& expected_kernel_key,
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    std::vector<std::string>* transfered_inplace_vars,
    RuntimeContext* ctx) const {
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  Scope* new_scope = nullptr;
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1817
  const std::unordered_set<std::string>* no_buffer_ins = nullptr;
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  if (info_) {
    auto& no_buffer_inferer = info_->NoNeedBufferVarsInferer();
    // Some op may not register NoNeedBufferVarsInferer
    if (no_buffer_inferer) {
1822 1823
      no_buffer_ins = &(no_buffer_inferer(Inputs(), Outputs(), Attrs()));
      if (no_buffer_ins->empty()) no_buffer_ins = nullptr;
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    }
  }

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  for (auto& var_name_item : Inputs()) {
1828 1829
    bool should_skip_input =
        no_buffer_ins && no_buffer_ins->count(var_name_item.first) > 0;
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    std::vector<Variable*>& input_vars = ctx->inputs[var_name_item.first];

    for (size_t i = 0; i < var_name_item.second.size(); ++i) {
      auto& var_name = var_name_item.second[i];
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      auto* var = input_vars[i];
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      // Only tensor can be tranfer to another device.
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      if (var == nullptr || !VarIsTensor(*var)) {
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        continue;
      }

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      auto* tensor_in = GetLoDTensorOrSelectedRowsValueFromVar(*var);
1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857

      // When no_buffer_ins then checking of Tensor::holder_ is
      // not a thread safe. And for infershape scenario checks
      // to be omitted are not really needed
      if (should_skip_input == true) {
#ifdef PADDLE_WITH_MKLDNN
        // Var without buffer may be needed
        // for some situation like InferShape().
        // In this situation We cannot skip Var analysis, as
        // MKL-DNN shape of Var may differ from kNHWC Var
        // In such situation corressponding resized Var
        // has to be created and registered
        if ((tensor_in->layout() == DataLayout::kMKLDNN) &&
            (var->IsType<LoDTensor>() == true) &&
            (expected_kernel_key.data_layout_ != DataLayout::kMKLDNN) &&
1858 1859
            (paddle::platform::MKLDNNDeviceContext::tls()
                 .get_cur_paddle_data_layout() == DataLayout::kNHWC)) {
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          // Mixed execution : MKL-DNN and GPU is not supported!
          if (!new_scope) {
            new_scope = &scope.NewScope();
          }
          auto* trans_var = new_scope->Var(var_name);
          input_vars[i] = trans_var;
          auto out = trans_var->GetMutable<LoDTensor>();
          out->Resize(tensor_in->dims());
          platform::MatchShapeToLayout(out, tensor_in->layout(),
                                       DataLayout::kNHWC);
          VLOG(7) << "Created reshaped dummy input based on MKL-DNN Tensor , "
                     "but kNHWC layout"
                  << var_name_item.first << " in Operator " << type_;
        } else {
          VLOG(7) << "Skip scanning input " << var_name_item.first
                  << " in Operator " << type_;
        }
#endif
        continue;
      }

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      if (!tensor_in->IsInitialized()) {
        continue;
      }

      auto kernel_type_for_var = GetKernelTypeForVar(
          var_name_item.first, *tensor_in, expected_kernel_key);

      if (!NeedTransform(kernel_type_for_var, expected_kernel_key)) {
        continue;
      }

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      VLOG(3) << "Transform Variable " << var_name << " from "
              << kernel_type_for_var << " to " << expected_kernel_key;
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1895 1896 1897
      // In the inference scenerio, the scopes will be reused across the
      // batches, so the `new_scope` here will result in GPU memroy explosion
      // over the  running of operators.
1898
      // We use a thread_local cache to fix that issue, the key in the cache is
1899 1900 1901 1902 1903
      // the combination of the `scope` argument, from_kernel_type,
      // target_kernel_type.
      // Have a discussion with @Superjomn or the inference developers if some
      // changes on this logic for this macro might not tested on the other
      // scenerios.
1904 1905
      // If this op is not called by an Executor or ParallelExecutor, it should
      // called by a NaiveExecutor, the NaiveExecutor will cache the scopes and
1906
      // variables, that behavior a lot different.
1907 1908 1909 1910 1911 1912 1913 1914 1915
      //
      // To solve issue #15032, have a discussion with @Luotao for cpu
      // inference, for all cpu kernels cases without GPU participation, here
      // not do transfer scope caching, and cpu inference performance is not
      // impacted by test.
      enable_cache_transfer_scope_ = false;
      if (!run_by_executor_ &&
          (platform::is_gpu_place(kernel_type_for_var.place_) ||
           platform::is_gpu_place(expected_kernel_key.place_))) {
1916 1917
        new_scope = TryCreateTransferScope(kernel_type_for_var,
                                           expected_kernel_key, &scope);
1918
        enable_cache_transfer_scope_ = true;
1919
      }
1920
      if (!new_scope) {
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        new_scope = &scope.NewScope();
      }
1923 1924 1925 1926
      // For inference, if a gpu model has an op which could only run on CPU,
      // each result of different input will be the same with the first one.
      // The reason is that if a gpu tensor is the input of a cpu kernel,
      // we will create a new cpu tensor in new scope.
1927
      // However, if enable_cache_runtime_context_, we get the cpu tensor each
1928 1929
      // time, not the gpu tensor. Thus, we set pre_scope_ = nullptr
      // to trigger `new RuntimeContext()` in RunImpl().
1930
      if (enable_cache_runtime_context_) {
1931 1932
        pre_scope_ = nullptr;
      }
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      // Create new var with the same name in transfer scopes
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      auto* trans_var = new_scope->Var(var_name);
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      input_vars[i] = trans_var;
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      // Find if inplace exists between input and output
      // If inplace exists, set the new created var to inplaced output, and
      // record its name in transfered_inplace_vars.
      for (auto& pair : Outputs()) {
        for (size_t j = 0; j < pair.second.size(); ++j) {
          if (pair.second[j] == var_name) {
            VLOG(4) << "Found inplace between input(" << var_name_item.first
                    << ") and output(" << pair.first
                    << "), the variable name is " << var_name;
            ctx->outputs[pair.first][j] = trans_var;
            transfered_inplace_vars->emplace_back(var_name);
          }
        }
      }

      // Do transfer
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      Tensor out;
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      TransformData(expected_kernel_key, kernel_type_for_var, *tensor_in, &out);
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      SetTensorToVariable(*var, out, trans_var);
    }
  }
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  // If pre_scope = &scope, it means that scope is cached and the op is not in
  // while block. If new_scope = nullptr, it means that for each input of this
  // Op, there is no need to do PrepareData. So PrepareData could be skipped at
  // the rest iterations to save the elapsed time.
  // We do not support skipping PrepareData in while block, because the Op's
  // input may be changed by subsequent Ops, which may cause an error.
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  // For inference, ops that behind conditional branch aren't supported well,
  // so disable prepare optimization conservatively.
  bool force_prepare_data = HasAttr("inference_force_prepare_data") &&
                            Attr<bool>("inference_force_prepare_data");
  if (pre_scope_ == &scope && new_scope == nullptr && !force_prepare_data) {
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    need_prepare_data_ = false;
  }
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  return new_scope;
}
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1978
void OperatorWithKernel::ParseInputDataType(
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    const Variable* var, const std::string& name,
    proto::VarType::Type* data_type) const {
  if (var != nullptr) {
    const Tensor* t = nullptr;
    if (var->IsType<Tensor>()) {
      t = &var->Get<Tensor>();
    } else if (var->IsType<LoDTensor>()) {
      t = &var->Get<LoDTensor>();
    } else if (var->IsType<phi::SelectedRows>()) {
      t = &(var->Get<phi::SelectedRows>().value());
    } else if (var->IsType<LoDTensorArray>()) {
      auto t_arr = &var->Get<LoDTensorArray>();
      for (size_t j = 0; j < t_arr->size(); j++) {
        if (t_arr->at(j).IsInitialized()) {
          t = &(t_arr->at(j));
        }
      }
    }
    if (t != nullptr) {
      PADDLE_ENFORCE_EQ(
          t->IsInitialized(), true,
          platform::errors::InvalidArgument("The %s Op's Input Variable `%s` "
                                            "contains uninitialized Tensor.",
                                            Type(), name));
      *data_type = paddle::framework::TransToProtoVarType(t->dtype());
    }
  }
}

void OperatorWithKernel::ParseMultiInputDataType(
2009
    const std::vector<Variable*>& vars, const std::string& name,
2010
    proto::VarType::Type* data_type) const {
2011
  proto::VarType::Type default_data_type =
2012 2013 2014 2015 2016 2017 2018 2019 2020
      static_cast<proto::VarType::Type>(-1);
  for (size_t i = 0; i < vars.size(); ++i) {
    const Variable* var = vars[i];
    if (var != nullptr) {
      const Tensor* t = nullptr;
      if (var->IsType<Tensor>()) {
        t = &var->Get<Tensor>();
      } else if (var->IsType<LoDTensor>()) {
        t = &var->Get<LoDTensor>();
2021 2022
      } else if (var->IsType<phi::SelectedRows>()) {
        t = &(var->Get<phi::SelectedRows>().value());
2023
      } else if (var->IsType<LoDTensorArray>()) {
2024 2025 2026 2027
        auto t_arr = &var->Get<LoDTensorArray>();
        for (size_t j = 0; j < t_arr->size(); j++) {
          if (t_arr->at(j).IsInitialized()) {
            t = &(t_arr->at(j));
2028 2029
          }
        }
2030 2031
      }
      if (t != nullptr) {
2032 2033
        PADDLE_ENFORCE_EQ(
            t->IsInitialized(), true,
2034 2035 2036
            platform::errors::InvalidArgument("The %s Op's Input Variable `%s` "
                                              "contains uninitialized Tensor.",
                                              Type(), name));
2037 2038
        proto::VarType::Type tmp =
            paddle::framework::TransToProtoVarType(t->dtype());
2039 2040 2041 2042 2043 2044 2045 2046 2047
        PADDLE_ENFORCE(tmp == *data_type || *data_type == default_data_type,
                       platform::errors::InvalidArgument(
                           "The DataType of %s Op's duplicable or different "
                           "slot Variable %s must be "
                           "consistent or reigster GetExpectedKernelType. The "
                           "current variable type is (%s), but the "
                           "previous variable type is (%s).",
                           Type(), name, DataTypeToString(tmp),
                           DataTypeToString(*data_type)));
2048 2049 2050 2051 2052 2053
        *data_type = tmp;
      }
    }
  }
}

2054
proto::VarType::Type OperatorWithKernel::IndicateDataType(
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    const ExecutionContext& ctx) const {
2056 2057 2058
  proto::VarType::Type dafault_data_type =
      static_cast<proto::VarType::Type>(-1);
  proto::VarType::Type data_type = dafault_data_type;
2059 2060 2061 2062 2063 2064
  for (auto* name : ctx.InNameList()) {
    if (ctx.InputSize(*name) == 1UL) {
      ParseInputDataType(ctx.InputVar(*name), *name, &data_type);
    } else {
      ParseMultiInputDataType(ctx.MultiInputVar(*name), *name, &data_type);
    }
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  }
2066 2067 2068 2069
  PADDLE_ENFORCE_NE(
      data_type, dafault_data_type,
      platform::errors::NotFound(
          "DataType should be indicated by input Variable at %s.", Type()));
2070 2071 2072 2073 2074 2075 2076 2077
  return data_type;
}

proto::VarType::Type OperatorWithKernel::IndicateVarDataType(
    const ExecutionContext& ctx, const std::string& name) const {
  proto::VarType::Type dafault_data_type =
      static_cast<proto::VarType::Type>(-1);
  proto::VarType::Type data_type = dafault_data_type;
2078 2079 2080 2081 2082
  if (ctx.InputSize(name) == 1UL) {
    ParseInputDataType(ctx.InputVar(name), name, &data_type);
  } else {
    ParseMultiInputDataType(ctx.MultiInputVar(name), name, &data_type);
  }
2083 2084
  PADDLE_ENFORCE_NE(
      data_type, dafault_data_type,
2085 2086 2087 2088 2089
      platform::errors::InvalidArgument(
          "The Input Variable(%s) of (%s) Operator used to determine kernel "
          "data type is empty or not LoDTensor or SelectedRows or "
          "LoDTensorArray.",
          name, Type()));
2090
  return data_type;
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}
2092

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Tensor* OperatorWithKernel::GetTensorFormInputSafely(
    const ExecutionContext& ctx, const std::string& name) const {
  // 1. get variable and check
  // NOTE: only supports signal input var now
  // NOTE: using const_cast is because we don't have method
  // can get single mutable var, and here will not change
  // the var's data, only use some attribute
  Variable* var = const_cast<Variable*>(ctx.InputVar(name));
  PADDLE_ENFORCE_NOT_NULL(
      var,
      platform::errors::NotFound(
          "The variable %s is not found when promote complex types.", name));
  // 2. get tensor and check
  Tensor* t = nullptr;
  if (var->IsType<Tensor>()) {
    t = var->GetMutable<Tensor>();
  } else if (var->IsType<LoDTensor>()) {
    t = var->GetMutable<LoDTensor>();
2111 2112
  } else if (var->IsType<phi::SelectedRows>()) {
    t = var->GetMutable<phi::SelectedRows>()->mutable_value();
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  } else {
    PADDLE_THROW(platform::errors::Unimplemented(
        "Unsupported input variable type in complex type promotion."));
  }
  PADDLE_ENFORCE_NOT_NULL(
      t,
      platform::errors::InvalidArgument(
          "The Tensor of variable %s is nullptr when promote complex types."));
  PADDLE_ENFORCE_EQ(t->IsInitialized(), true,
                    platform::errors::InvalidArgument(
                        "The Tensor in the %s Op's Input Variable %s(%s) is "
                        "not initialized.",
                        Type(), name, ctx.InputName(name)));
  return t;
}

/** NOTE(chenweihang): For safety reasons, we now only
 * perform type promotes for binary operations with
 * complex type inputs, which is used to support the
 * paddle quantum function.
 * In other cases, the first input data type is used as
 * the kernel data type.
 */
proto::VarType::Type OperatorWithKernel::IndicateOrPromoteVarDataTypes(
    const ExecutionContext& ctx, const std::string& name1,
    const std::string& name2) const {
  // 1. Get tensor
  auto* tensor_a = GetTensorFormInputSafely(ctx, name1);
  auto* tensor_b = GetTensorFormInputSafely(ctx, name2);

  // 2. Get two input types
2144 2145
  auto type_a = framework::TransToProtoVarType(tensor_a->dtype());
  auto type_b = framework::TransToProtoVarType(tensor_b->dtype());
2146 2147 2148 2149 2150 2151 2152

  // 3. Get first input type or promote complex types
  auto target_type = PromoteTypesIfComplexExists(type_a, type_b);

  return target_type;
}

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OpKernelType OperatorWithKernel::GetExpectedKernelType(
    const ExecutionContext& ctx) const {
  return OpKernelType(IndicateDataType(ctx), ctx.GetPlace());
}

OpKernelType OperatorWithKernel::GetKernelTypeForVar(
    const std::string& var_name, const Tensor& tensor,
    const OpKernelType& expected_kernel_type) const {
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  return OpKernelType(expected_kernel_type.data_type_, tensor.place(),
                      tensor.layout());
2163 2164
}

2165
phi::KernelSignature OperatorWithKernel::GetExpectedPhiKernelArgs(
2166
    const ExecutionContext& ctx) const {
2167
  ExecutionArgumentMappingContext arg_mapping_ctx(ctx);
2168
  if (arg_map_fn_ == nullptr) {
2169 2170 2171 2172
    auto* arg_map_fn = phi::OpUtilsMap::Instance().GetArgumentMappingFn(type_);
    if (arg_map_fn) {
      arg_map_fn_.reset(new phi::ArgumentMappingFn(*arg_map_fn));
    } else {
2173 2174
      auto func = [this](
          const phi::ArgumentMappingContext& ctx) -> phi::KernelSignature {
2175 2176 2177 2178
        return phi::DefaultKernelSignatureMap::Instance().Get(type_);
      };
      arg_map_fn_.reset(new phi::ArgumentMappingFn(func));
    }
2179 2180
  }
  return (*arg_map_fn_)(arg_mapping_ctx);
2181 2182
}

2183
Scope* OperatorWithKernel::PreparePhiData(
2184
    const Scope& scope, const phi::Kernel& pt_kernel,
2185 2186
    const phi::KernelSignature& pt_kernel_signature,
    RuntimeContext* ctx) const {
2187
  const auto& input_names = pt_kernel_signature.input_names;
2188 2189 2190 2191 2192 2193 2194
  auto input_defs = pt_kernel.args_def().input_defs();
  PADDLE_ENFORCE_EQ(input_names.size(), input_defs.size(),
                    platform::errors::InvalidArgument(
                        "The size of inputs_args names (%d) must be equal to "
                        "the size of kernel input_defs (%d).",
                        input_names.size(), input_defs.size()));
  Scope* new_scope = nullptr;
2195
  auto& name_map = Inputs();
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  const std::unordered_set<std::string>* no_buffer_ins = nullptr;
  if (info_) {
    auto& no_buffer_inferer = info_->NoNeedBufferVarsInferer();
    // Some op may not register NoNeedBufferVarsInferer
    if (no_buffer_inferer) {
      no_buffer_ins = &(no_buffer_inferer(Inputs(), Outputs(), Attrs()));
      if (no_buffer_ins->empty()) no_buffer_ins = nullptr;
    }
  }

2206 2207
  for (size_t i = 0; i < input_defs.size(); ++i) {
    auto& in_def = input_defs.at(i);
2208
    if (ctx->inputs.find(input_names[i]) == ctx->inputs.end()) {
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      continue;
    }
2211
    auto& ins_vector = ctx->inputs.at(input_names[i]);
2212
    auto& name_vec = name_map.at(input_names[i]);
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    bool should_skip_input =
        no_buffer_ins && no_buffer_ins->count(input_names[i]) > 0;

2216 2217 2218 2219 2220 2221 2222
    for (size_t offset = 0; offset < ins_vector.size(); ++offset) {
      // Only tensor can be tranfer to another device.
      auto* var = ins_vector[offset];
      if (var == nullptr || !VarIsTensor(*var)) {
        continue;
      }
      auto* tensor_in = GetLoDTensorOrSelectedRowsValueFromVar(*var);
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      // When no_buffer_ins then checking of Tensor::holder_ is
      // not a thread safe. And for infershape scenario checks
      // to be omitted are not really needed
      if (should_skip_input == true) {
        // TODO(YuanRisheng) : There need to supplement MKLDNN code later
        continue;
      }

2232 2233 2234 2235
      if (!tensor_in->IsInitialized()) {
        continue;
      }

2236 2237 2238
      if (in_def.backend == phi::Backend::ALL_BACKEND) {
        continue;
      }
2239 2240 2241 2242 2243

      auto tensor_backend = phi::TransToPhiBackend(tensor_in->place());
      if (in_def.backend == tensor_backend ||
          (in_def.backend == phi::Backend::GPUDNN &&
           tensor_backend == phi::Backend::GPU)) {
2244 2245 2246
        continue;
      }

2247
      auto expected_place = phi::TransToPhiPlace(in_def.backend);
2248
      VLOG(3) << "phi Transform Variable " << input_names[i] << " from "
2249
              << tensor_in->place() << " to " << expected_place;
2250

2251 2252 2253
      if (!new_scope) {
        new_scope = &scope.NewScope();
      }
2254 2255 2256 2257 2258 2259 2260 2261 2262 2263
      // For inference, if a gpu model has an op which could only run on CPU,
      // each result of different input will be the same with the first one.
      // The reason is that if a gpu tensor is the input of a cpu kernel,
      // we will create a new cpu tensor in new scope.
      // However, if enable_cache_runtime_context_, we get the cpu tensor each
      // time, not the gpu tensor. Thus, we set pre_scope_ = nullptr
      // to trigger `new RuntimeContext()` in RunImpl().
      if (enable_cache_runtime_context_) {
        pre_scope_ = nullptr;
      }
2264

2265
      // Create new var with the same name in transfer scopes
2266
      auto* trans_var = new_scope->Var(name_vec[offset]);
2267
      ins_vector[offset] = trans_var;
2268

2269 2270 2271 2272
      // Do transfer
      Tensor out;
      framework::TensorCopySync(*tensor_in, expected_place, &out);
      SetTensorToVariable(*var, out, trans_var);
2273 2274 2275 2276 2277 2278
    }
  }

  return new_scope;
}

2279
void OperatorWithKernel::BuildPhiKernelContext(
2280
    const RuntimeContext& ctx, platform::DeviceContext* dev_ctx,
2281
    phi::KernelContext* pt_kernel_context) const {
2282
  pt_kernel_context->SetDeviceContext(dev_ctx);
2283

2284 2285 2286
  auto& input_names = kernel_signature_->input_names;
  auto& attr_names = kernel_signature_->attr_names;
  auto& output_names = kernel_signature_->output_names;
2287 2288 2289 2290 2291 2292 2293 2294 2295 2296 2297 2298 2299 2300 2301 2302 2303 2304 2305 2306 2307 2308 2309 2310

  auto input_defs = pt_kernel_->args_def().input_defs();
  auto attr_defs = pt_kernel_->args_def().attribute_defs();
  auto output_defs = pt_kernel_->args_def().output_defs();

  PADDLE_ENFORCE_EQ(input_names.size(), input_defs.size(),
                    platform::errors::InvalidArgument(
                        "The size of inputs_args names (%d) must be equal to "
                        "the size of kernel input_defs (%d).",
                        input_names.size(), input_defs.size()));

  PADDLE_ENFORCE_EQ(output_names.size(), output_defs.size(),
                    platform::errors::InvalidArgument(
                        "The size of outputs_args names (%d) must be equal to "
                        "the size of kernel output_defs (%d).",
                        output_names.size(), output_defs.size()));

  PADDLE_ENFORCE_EQ(attr_names.size(), attr_defs.size(),
                    platform::errors::InvalidArgument(
                        "The size of attribute_args names (%d) must be equal "
                        "to the size of kernel attribute_defs (%d).",
                        attr_names.size(), attr_defs.size()));

  for (size_t i = 0; i < input_names.size(); ++i) {
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    auto it = ctx.inputs.find(input_names[i]);
2312 2313 2314

    // calcute the start and end index of the input tensors
    size_t start_idx =
2315
        (i == 0 ? 0 : pt_kernel_context->InputRangeAt(i - 1).second);
2316

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    // deal with optional here
2318
    if ((it == ctx.inputs.end() || it->second.size() == 0) &&
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        (input_defs[i].type_index ==
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             std::type_index(
                 typeid(paddle::optional<const phi::DenseTensor&>)) ||
         input_defs[i].type_index ==
             std::type_index(
2324 2325 2326 2327 2328
                 typeid(paddle::optional<const phi::SelectedRows&>)) ||
         input_defs[i].type_index ==
             std::type_index(
                 typeid(paddle::optional<
                        const std::vector<const phi::DenseTensor*>>)))) {
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      pt_kernel_context->EmplaceBackInputWithoutSetRange(nullptr);
      auto end_idx = start_idx + 1;
      pt_kernel_context->AssignInputRange(std::make_pair(start_idx, end_idx),
                                          i);
      continue;
    }
    auto ins_vector = it->second;
    size_t end_idx = start_idx + ins_vector.size();
2337
    for (size_t offset = 0; offset < ins_vector.size(); ++offset) {
2338
      const phi::TensorBase* tensor_in = nullptr;
2339
      auto* var = ins_vector[offset];
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2340 2341
      if (var->IsType<framework::LoDTensor>()) {
        tensor_in = &(var->Get<framework::LoDTensor>());
2342
        pt_kernel_context->EmplaceBackInputWithoutSetRange(tensor_in);
2343 2344
      } else if (var->IsType<phi::SelectedRows>()) {
        tensor_in = &(var->Get<phi::SelectedRows>());
2345 2346
        pt_kernel_context->EmplaceBackInputWithoutSetRange(tensor_in);
      } else if (var->IsType<framework::LoDTensorArray>()) {
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        paddle::small_vector<const phi::TensorBase*> tensor_vector;
2348 2349 2350 2351 2352 2353
        auto& tensor_array = var->Get<framework::LoDTensorArray>();
        for (auto& t : tensor_array) {
          tensor_vector.emplace_back(&t);
        }
        pt_kernel_context->EmplaceBackInputsWithoutSetRange(tensor_vector);
        end_idx += tensor_array.size() - 1;
2354 2355 2356 2357
      } else {
        PADDLE_THROW(platform::errors::Unimplemented(
            "Unsupported input `%s` type when call pt kernel.",
            framework::ToTypeName(var->Type())));
2358
      }
2359
    }
2360
    // Note: here cannot deal with vector<LoDTensorArray> input
2361
    pt_kernel_context->AssignInputRange(std::make_pair(start_idx, end_idx), i);
2362
  }
2363
  VLOG(4) << "Done inputs";
2364 2365

  for (size_t i = 0; i < output_names.size(); ++i) {
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    auto it = ctx.outputs.find(output_names[i]);
2367
    size_t start_idx =
2368
        (i == 0 ? 0 : pt_kernel_context->OutputRangeAt(i - 1).second);
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    if (it == ctx.outputs.end() || it->second.empty()) {
      // Deal with the case that some outputs are not found or be NULL when run
      // the kernel.
      // For example : the outputs of matmul_grad are dx and dy,
      // sometimes dx or dy may be NULL.
      pt_kernel_context->EmplaceBackOutputWithoutSetRange(nullptr);
      auto end_idx = start_idx + 1;
      pt_kernel_context->AssignOutputRange(std::make_pair(start_idx, end_idx),
                                           i);
      continue;
    }
    auto& outs_vector = it->second;

2383
    size_t end_idx = start_idx + outs_vector.size();
2384 2385

    for (size_t offset = 0; offset < outs_vector.size(); ++offset) {
2386
      phi::TensorBase* tensor_out = nullptr;
2387
      auto* var = outs_vector[offset];
2388 2389 2390
      if (var) {
        if (var->template IsType<framework::LoDTensor>()) {
          tensor_out = var->template GetMutable<framework::LoDTensor>();
2391
          pt_kernel_context->EmplaceBackOutputWithoutSetRange(tensor_out);
2392 2393
        } else if (var->template IsType<phi::SelectedRows>()) {
          tensor_out = var->template GetMutable<phi::SelectedRows>();
2394 2395
          pt_kernel_context->EmplaceBackOutputWithoutSetRange(tensor_out);
        } else if (var->template IsType<framework::LoDTensorArray>()) {
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          paddle::small_vector<phi::TensorBase*> tensor_vector;
2397 2398 2399 2400 2401 2402 2403 2404 2405
          auto* tensor_array =
              var->template GetMutable<framework::LoDTensorArray>();
          // Note: If the input LoDTensorArray size is 0, the output
          // LoDTensorArray is also 0
          for (auto& t : *tensor_array) {
            tensor_vector.emplace_back(&t);
          }
          pt_kernel_context->EmplaceBackOutputsWithoutSetRange(tensor_vector);
          end_idx += tensor_array->size() - 1;
2406 2407 2408 2409 2410
        } else {
          PADDLE_THROW(platform::errors::Unimplemented(
              "Unsupported output `%s` type when call pt kernel.",
              framework::ToTypeName(var->Type())));
        }
2411 2412
      } else {
        pt_kernel_context->EmplaceBackOutputWithoutSetRange(tensor_out);
2413
      }
2414
    }
2415
    pt_kernel_context->AssignOutputRange(std::make_pair(start_idx, end_idx), i);
2416
  }
2417
  VLOG(4) << "Done outputs";
2418 2419

  for (size_t i = 0; i < attr_names.size(); ++i) {
2420
    if (attr_defs[i].type_index == phi::AttributeType::INT_ARRAY) {
2421 2422
      auto attr_iter = Attrs().find(attr_names[i]);
      if (attr_iter != Attrs().end()) {  // shape is in the attribute
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        auto& attr = attr_iter->second;
        if (AttrTypeID(attr) == proto::AttrType::LONGS) {
2425
          pt_kernel_context->EmplaceBackAttr(std::move(
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              phi::IntArray(BOOST_GET_CONST(std::vector<int64_t>, attr))));
        } else if (AttrTypeID(attr) == proto::AttrType::INTS) {
          pt_kernel_context->EmplaceBackAttr(std::move(
              phi::IntArray(BOOST_GET_CONST(std::vector<int32_t>, attr))));
        } else if (AttrTypeID(attr) == proto::AttrType::INT) {
          pt_kernel_context->EmplaceBackAttr(
              std::move(phi::IntArray(&BOOST_GET_CONST(int32_t, attr), 1)));
2433 2434
        } else {
          PADDLE_THROW(platform::errors::Unimplemented(
2435
              "Unsupported cast op attribute `%s` to IntArray when "
2436 2437 2438 2439 2440 2441
              "construct KernelContext.",
              attr_names[i]));
        }
      } else {  // shape is in the input
        auto& ins_vector = ctx.inputs.at(attr_names[i]);
        if (ins_vector.size() == 1) {  // ShapeTensor
2442
          pt_kernel_context->EmplaceBackAttr(std::move(
2443
              experimental::MakePhiIntArrayFromVar(*ins_vector.front())));
2444
        } else {  // ShapeTensorList
2445 2446
          pt_kernel_context->EmplaceBackAttr(
              std::move(experimental::MakePhiIntArrayFromVarList(ins_vector)));
2447 2448
        }
      }
2449
    } else if (attr_defs[i].type_index == phi::AttributeType::SCALAR) {
2450 2451
      auto attr_iter = Attrs().find(attr_names[i]);
      if (attr_iter != Attrs().end()) {  // scalar is in the attribute
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        auto& attr = attr_iter->second;
        if (AttrTypeID(attr) == proto::AttrType::FLOAT) {
2454
          pt_kernel_context->EmplaceBackAttr(
2455
              std::move(phi::Scalar(BOOST_GET_CONST(float, attr))));
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        } else if (AttrTypeID(attr) == proto::AttrType::STRING) {
2457
          pt_kernel_context->EmplaceBackAttr(
2458
              std::move(phi::Scalar(BOOST_GET_CONST(std::string, attr))));
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        } else if (AttrTypeID(attr) == proto::AttrType::INT) {
2460
          pt_kernel_context->EmplaceBackAttr(
2461
              std::move(phi::Scalar(BOOST_GET_CONST(int, attr))));
2462 2463 2464 2465 2466 2467
        } else {
          PADDLE_THROW(platform::errors::Unimplemented(
              "Unsupported cast op attribute `%s` to Scalar when construct "
              "KernelContext.",
              attr_names[i]));
        }
2468
      } else {
2469
        auto& ins_vector = ctx.inputs.at(attr_names[i]);
2470 2471
        pt_kernel_context->EmplaceBackAttr(
            std::move(experimental::MakePhiScalarFromVar(*ins_vector.front())));
2472
      }
2473

2474
    } else if (attr_defs[i].type_index == phi::AttributeType::SCALARS) {
2475
      auto& attr = Attrs().at(attr_names[i]);
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      if (AttrTypeID(attr) == proto::AttrType::INTS) {
2477 2478 2479 2480 2481 2482 2483
        const auto& vec = BOOST_GET_CONST(std::vector<int32_t>, attr);
        std::vector<phi::Scalar> scalar_list;
        scalar_list.reserve(vec.size());
        for (const auto& val : vec) {
          scalar_list.emplace_back(val);
        }
        pt_kernel_context->EmplaceBackAttr(std::move(scalar_list));
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2484
      } else if (AttrTypeID(attr) == proto::AttrType::LONGS) {
2485 2486 2487 2488 2489 2490 2491
        const auto& vec = BOOST_GET_CONST(std::vector<int64_t>, attr);
        std::vector<phi::Scalar> scalar_list;
        scalar_list.reserve(vec.size());
        for (const auto& val : vec) {
          scalar_list.emplace_back(val);
        }
        pt_kernel_context->EmplaceBackAttr(std::move(scalar_list));
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2492
      } else if (AttrTypeID(attr) == proto::AttrType::FLOATS) {
2493 2494 2495 2496 2497 2498 2499
        const auto& vec = BOOST_GET_CONST(std::vector<float>, attr);
        std::vector<phi::Scalar> scalar_list;
        scalar_list.reserve(vec.size());
        for (const auto& val : vec) {
          scalar_list.emplace_back(val);
        }
        pt_kernel_context->EmplaceBackAttr(std::move(scalar_list));
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      } else if (AttrTypeID(attr) == proto::AttrType::FLOAT64S) {
2501 2502 2503 2504 2505 2506 2507 2508 2509 2510 2511 2512 2513
        const auto& vec = BOOST_GET_CONST(std::vector<double>, attr);
        std::vector<phi::Scalar> scalar_list;
        scalar_list.reserve(vec.size());
        for (const auto& val : vec) {
          scalar_list.emplace_back(val);
        }
        pt_kernel_context->EmplaceBackAttr(std::move(scalar_list));
      } else {
        PADDLE_THROW(platform::errors::Unimplemented(
            "Unsupported cast op attribute `%s` to vector<Scalar> when "
            "construct KernelContext.",
            attr_names[i]));
      }
2514
    } else {
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      auto attr_it = attrs_.find(attr_names[i]);
2516
      if (attr_defs[i].type_index == phi::AttributeType::INT32) {
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2517 2518 2519 2520 2521 2522 2523 2524 2525 2526 2527 2528 2529 2530 2531 2532
        if (attr_it == attrs_.end()) {
          auto in_it = ctx.inputs.find(attr_names[i]);
          if (in_it != ctx.inputs.end()) {
            // get data from input
            auto val = experimental::MakePhiScalarFromVar(*(in_it->second[0]));
            int32_t val_int = val.template to<int32_t>();
            pt_kernel_context->EmplaceBackAttr(val_int);
          } else {
            PADDLE_THROW(platform::errors::NotFound(
                "can not find attribute `%s` both in attribute and input ",
                attr_names[i]));
          }
        } else {
          pt_kernel_context->EmplaceBackAttr(
              BOOST_GET_CONST(int, attr_it->second));
        }
2533
      } else if (attr_defs[i].type_index == phi::AttributeType::FLOAT32) {
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        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(float, attr_it->second));
2536
      } else if (attr_defs[i].type_index == phi::AttributeType::BOOL) {
H
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2537 2538
        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(bool, attr_it->second));
2539
      } else if (attr_defs[i].type_index == phi::AttributeType::INT64) {
H
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2540 2541
        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(int64_t, attr_it->second));
2542
      } else if (attr_defs[i].type_index == phi::AttributeType::STRING) {
H
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2543 2544
        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(std::string, attr_it->second));
2545
      } else if (attr_defs[i].type_index == phi::AttributeType::DATA_TYPE) {
2546
        auto data_type = paddle::framework::TransToPhiDataType(
2547
            static_cast<framework::proto::VarType::Type>(
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2548
                BOOST_GET_CONST(int, attr_it->second)));
2549
        pt_kernel_context->EmplaceBackAttr(data_type);
2550
      } else if (attr_defs[i].type_index == phi::AttributeType::INT64S) {
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2551
        if (AttrTypeID(attr_it->second) == proto::AttrType::LONGS) {
2552
          pt_kernel_context->EmplaceBackAttr(
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2553
              BOOST_GET_CONST(std::vector<int64_t>, attr_it->second));
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2554
        } else if (AttrTypeID(attr_it->second) == proto::AttrType::INTS) {
2555
          // Emplace Back Attr according to the type of Phi_Kernel args.
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2556 2557
          const auto& vector_int_attr =
              BOOST_GET_CONST(std::vector<int>, attr_it->second);
2558 2559
          const std::vector<int64_t> vector_int64_attr(vector_int_attr.begin(),
                                                       vector_int_attr.end());
2560
          pt_kernel_context->EmplaceBackAttr(vector_int64_attr);
2561
        }
2562
      } else if (attr_defs[i].type_index == phi::AttributeType::INT32S) {
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2563 2564
        const auto& vector_int_attr =
            BOOST_GET_CONST(std::vector<int>, attr_it->second);
H
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2565
        pt_kernel_context->EmplaceBackAttr(vector_int_attr);
2566
      } else if (attr_defs[i].type_index == phi::AttributeType::STRINGS) {
2567 2568
        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(std::vector<std::string>, attr_it->second));
2569
      } else if (attr_defs[i].type_index == phi::AttributeType::FLOAT32S) {
2570 2571
        pt_kernel_context->EmplaceBackAttr(
            BOOST_GET_CONST(std::vector<float>, attr_it->second));
2572 2573
      } else {
        PADDLE_THROW(platform::errors::Unimplemented(
2574
            "Unsupported cast op attribute `%s` when construct "
2575 2576 2577 2578 2579
            "KernelContext.",
            attr_names[i]));
      }
    }
  }
2580
  VLOG(4) << "Done attributes";
2581 2582
}

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2583
}  // namespace framework
L
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2584
}  // namespace paddle