elementwise_op_function.h 55.6 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
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    http://www.apache.org/licenses/LICENSE-2.0
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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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#pragma once
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#include <glog/logging.h>
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#include <algorithm>
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#include <functional>  // for multiplies
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#include <iterator>
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#include <vector>
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#include "paddle/fluid/framework/eigen.h"
#include "paddle/fluid/framework/op_registry.h"
#include "paddle/fluid/framework/operator.h"
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#include "paddle/fluid/memory/malloc.h"
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#include "paddle/fluid/operators/elementwise/elementwise_functor.h"
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#include "paddle/fluid/platform/device/gpu/gpu_info.h"
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#include "paddle/fluid/platform/transform.h"
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#include "paddle/phi/api/lib/utils/tensor_utils.h"
#include "paddle/phi/kernels/cpu/elementwise.h"
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#include "paddle/phi/kernels/cpu/elementwise_grad.h"
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#if defined(__NVCC__) || defined(__HIPCC__)
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#ifdef __NVCC__
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#include <cuda.h>
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#elif defined(__HIPCC__)
#include <hip/hip_runtime.h>
#endif
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#include <thrust/iterator/iterator_adaptor.h>
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#include "paddle/fluid/operators/elementwise/elementwise_op_broadcast.cu.h"
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#include "paddle/fluid/operators/reduce_ops/reduce_op.cu.h"
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#include "paddle/fluid/platform/device/gpu/gpu_device_function.h"
#include "paddle/fluid/platform/device/gpu/gpu_primitives.h"
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#include "paddle/phi/kernels/gpu/elementwise_grad.h"
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#endif

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#include "paddle/fluid/platform/for_range.h"
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#include "paddle/phi/kernels/funcs/math_function.h"
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#define DIVUP(x, y) (((x) + (y)-1) / (y))

#define ROUNDUP(x, y) (DIVUP((x), (y)) * (y))

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namespace paddle {
namespace operators {

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/*
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 *  Pack input and output tensors into respective vectors with
 *  consideration of varible X`s class type.
 *  Input variable X is supported to be whether LoDTensor or
 *  SelectedRows class type in this package function, once X
 *  was SelectedRows type, a valid pointer x_for_selectedrows
 *  is excepted to be passed in from op kernel for acquisition
 *  of the valid address of LoDTensor created ahead in the function.
 */
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template <typename OutT>
int PackTensorsIntoVector(const framework::ExecutionContext &ctx,
                          std::vector<const framework::Tensor *> *ins,
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                          std::vector<framework::Tensor *> *outs,
                          framework::Tensor *x_for_selectedrows = nullptr) {
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  int axis = -1;
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  auto x_var = ctx.InputVar("X");
  PADDLE_ENFORCE_NOT_NULL(
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      x_var,
      platform::errors::InvalidArgument(
          "Unable to get input Variable X, Variable name is %s.\n",
          ctx.InputName("X")));
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  auto *y = ctx.Input<framework::LoDTensor>("Y");
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  framework::Tensor *z;

  if (x_var->IsType<framework::LoDTensor>()) {
    auto *x = ctx.Input<framework::LoDTensor>("X");
    z = ctx.Output<framework::LoDTensor>("Out");
    ins->emplace_back(x);
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  } else if (x_var->IsType<phi::SelectedRows>()) {
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    PADDLE_ENFORCE_EQ(y->dims().size() == 1 && y->dims()[0] == 1,
                      true,
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                      platform::errors::InvalidArgument(
                          "For elementwise_op, if X is Sparse, Y must be "
                          "scalar. But reveived the size of Y = %d.",
                          y->dims().size()));
    PADDLE_ENFORCE_NOT_NULL(
        x_for_selectedrows,
        platform::errors::InvalidArgument(
            "The parameter x_for_selectedrows is excepted to "
            "be valid, once input varible X`s class type is "
            "SelectedRows.\n"));
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    auto &x_sele = x_var->Get<phi::SelectedRows>();
    auto out_sele = ctx.Output<phi::SelectedRows>("Out");
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    *x_for_selectedrows = x_sele.value();
    out_sele->set_rows(x_sele.rows());
    out_sele->set_height(x_sele.height());
    out_sele->mutable_value()->Resize(x_sele.value().dims());
    out_sele->mutable_value()->mutable_data(ctx.GetPlace(),
                                            x_for_selectedrows->type());
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    z = ctx.Output<phi::SelectedRows>("Out")->mutable_value();
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    ins->emplace_back(x_for_selectedrows);
  } else {
    PADDLE_THROW(platform::errors::InvalidArgument(
        "X's type[%s] is not supported by elementwise_op. X's type should be "
        "LoDTensor or SelectedRows.",
        framework::ToTypeName(x_var->Type())));
  }
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  z->mutable_data<OutT>(ctx.GetPlace());
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  outs->emplace_back(z);

  if (y != nullptr) {
    ins->emplace_back(y);
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    axis = ctx.HasAttr("axis") ? ctx.Attr<int>("axis") : -1;
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  }
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  return axis;
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}

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inline void GetBroadcastDimsArrays(const framework::DDim &x_dims,
                                   const framework::DDim &y_dims,
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                                   int *x_dims_array,
                                   int *y_dims_array,
                                   int *out_dims_array,
                                   const int max_dim,
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                                   const int axis) {
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  phi::funcs::GetBroadcastDimsArrays(x_dims,
                                     y_dims,
                                     x_dims_array,
                                     y_dims_array,
                                     out_dims_array,
                                     max_dim,
                                     axis);
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}
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inline framework::DDim trim_trailing_singular_dims(
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    const framework::DDim &dims) {
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  return phi::funcs::TrimTrailingSingularDims(dims);
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}

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template <typename DeviceContext,
          typename T,
          typename DX_OP,
          typename DY_OP,
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          typename Tout = T>
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void ElemwiseGradCompute(const framework::ExecutionContext &ctx,
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                         const framework::Tensor &x,
                         const framework::Tensor &y,
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                         const framework::Tensor &out,
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                         const framework::Tensor &dout,
                         int axis,
                         framework::Tensor *dx,
                         framework::Tensor *dy,
                         DX_OP dx_op,
                         DY_OP dy_op) {
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  const auto &dev_ctx = ctx.template device_context<DeviceContext>();
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  phi::funcs::ElemwiseGradCompute<DeviceContext, T, DX_OP, DY_OP, Tout>(
      dev_ctx, x, y, out, dout, axis, dx, dy, dx_op, dy_op);
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}

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// It is a common implementation to compute binary calculation with the support
// of broadcast, supporting both CPU and GPU.
// - CPU implementation cannot support the case when x needs broadcast, thus
//   this function need to be called with XxxFunctor and XxxInverseFunctor,
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//   like AddFunctor and InverseAddFunctor.
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// - GPU implementation supports all the broadcast cases, thus there is no need
//   to define and call with XxxInverseFunctor.
// TODO(liuyiqun): optimize the CPU implementation to support all broadcast
// cases and avoid the need of XxxInverseFunctor.
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template <typename Functor,
          typename DeviceContext,
          typename T,
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          typename OutType = T>
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void ElementwiseComputeEx(const framework::ExecutionContext &ctx,
                          const framework::Tensor *x,
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                          const framework::Tensor *y,
                          int axis,
                          Functor func,
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                          framework::Tensor *z) {
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  z->mutable_data<OutType>(ctx.GetPlace());
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  const auto &dev_ctx = ctx.template device_context<DeviceContext>();
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  phi::funcs::ElementwiseCompute<Functor, T, OutType>(
      dev_ctx, *x, *y, axis, func, z);
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}

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// FusedElemwiseAndAct
// --- forward
template <typename T, typename CompoundFunctor, bool KeepIntermediateOut>
struct FusedElemwiseAndActNoBroadcast {
  HOSTDEVICE void operator()(size_t i) {
    T y_val = y_[i];
    T x_val = x_[i];
    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor_.GetIntermediateOut(x_val, y_val);
      intermediate_out_[i] = intermeidiate_out;
      out_[i] =
          compound_functor_.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out_[i] = compound_functor_.GetOut(x_val, y_val);
    }
  }

  const T *x_;
  const T *y_;
  CompoundFunctor compound_functor_;
  T *out_;
  T *intermediate_out_;
};

// FusedElemwiseAndActBroadcast1:
// In this case, X and Y can be reshaped to a matrix.
// For example shape(X) = (2, 3, 4, 5), shape(Y) = (4, 5) and axis = -1 or 2,
// X can be reshaped to (6, 20) and Y can be reshaped to (1, 20)
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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast1CPU(const T *x,
                                             const T *y,
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                                             CompoundFunctor compound_functor,
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                                             int h,
                                             int w,
                                             T *out,
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                                             T *intermediate_out) {
  for (int i = 0; i < h; ++i) {
    for (int j = 0; j < w; ++j) {
      int offset = i * w + j;

      T y_val = BcastY ? y[j] : y[offset];
      T x_val = BcastY ? x[offset] : x[j];
      int64_t intermediate_out_offset;
      if (KeepIntermediateOut) {
        T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

        if (SameShapeOfIntermediateOutAndOut) {
          // for the case of f1(f2(x, y))
          intermediate_out_offset = offset;
        } else if (BcastY) {
          intermediate_out_offset = j;
        } else {
          intermediate_out_offset = offset;
        }

        intermediate_out[intermediate_out_offset] = intermeidiate_out;
        out[offset] =
            compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
      } else {
        out[offset] = compound_functor.GetOut(x_val, y_val);
      }
    }
  }
}

// FusedElemwiseAndActBroadcast2
// In this case, X and Y can be reshaped to a matrix.
// For example shape(X) = (2, 3, 4, 5), shape(Y) = (3, 4) and axis = 1,
// X can be reshaped to (2, 12, 5) and Y can be reshaped to (1, 12, 1)
// pre = 2, n = 12, post = 5
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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast2CPU(const T *x,
                                             const T *y,
                                             int pre,
                                             int n,
                                             int post,
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                                             CompoundFunctor compound_functor,
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                                             T *out,
                                             T *intermediate_out) {
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  for (int i = 0; i < pre; ++i) {
    for (int j = 0; j < n; ++j) {
      for (int k = 0; k < post; ++k) {
        int offset = i * n * post + j * post + k;

        T y_val = BcastY ? y[j] : y[offset];
        T x_val = BcastY ? x[offset] : x[j];
        int64_t intermediate_out_offset;

        if (KeepIntermediateOut) {
          T intermeidiate_out =
              compound_functor.GetIntermediateOut(x_val, y_val);

          if (SameShapeOfIntermediateOutAndOut) {
            // for the case of f1(f2(x, y))
            intermediate_out_offset = offset;
          } else if (BcastY) {
            intermediate_out_offset = j;
          } else {
            intermediate_out_offset = offset;
          }

          intermediate_out[intermediate_out_offset] = intermeidiate_out;
          out[offset] = compound_functor.GetOutUseIntermediateOut(
              x_val, intermeidiate_out);
        } else {
          out[offset] = compound_functor.GetOut(x_val, y_val);
        }
      }
    }
  }
}

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#if defined(__NVCC__) || defined(__HIPCC__)
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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
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static __global__ void FusedElemwiseAndActBroadcast1CUDAKernel(
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    const T *x,
    const T *y,
    int h,
    int w,
    CompoundFunctor compound_functor,
    T *out,
    T *intermediate_out) {
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  int i = blockIdx.x;
  int j = threadIdx.x;
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  while (j < w) {
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    int offset = i * w + j;

    T y_val = BcastY ? y[j] : y[offset];
    T x_val = BcastY ? x[offset] : x[j];
    int64_t intermediate_out_offset;

    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

      if (SameShapeOfIntermediateOutAndOut) {
        // for the case of f1(f2(x, y))
        intermediate_out_offset = offset;
      } else if (BcastY) {
        intermediate_out_offset = j;
      } else {
        intermediate_out_offset = offset;
      }

      intermediate_out[intermediate_out_offset] = intermeidiate_out;
      out[offset] =
          compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out[offset] = compound_functor.GetOut(x_val, y_val);
    }

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    j += ELEMWISE_MAX_BLOCK_DIM;
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  }
}

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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast1CUDA(gpuStream_t stream,
                                              const T *x,
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                                              const T *y,
                                              CompoundFunctor compound_functor,
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                                              int h,
                                              int w,
                                              T *out,
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                                              T *intermediate_out) {
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  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, w);
  int gird_size = h;
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  FusedElemwiseAndActBroadcast1CUDAKernel<T,
                                          CompoundFunctor,
                                          BcastY,
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                                          KeepIntermediateOut,
                                          SameShapeOfIntermediateOutAndOut>
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      <<<gird_size, block_size, 0, stream>>>(
          x, y, h, w, compound_functor, out, intermediate_out);
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}

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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
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static __global__ void FusedElemwiseAndActBroadcast2CUDAKernel(
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    const T *x,
    const T *y,
    CompoundFunctor compound_functor,
    int pre,
    int n,
    int post,
    T *out,
    T *intermediate_out) {
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  int tid = threadIdx.x;
  int j = blockIdx.x;

  while (true) {
    int i = tid / post;
    int k = tid % post;
    if (i >= pre) break;

    int offset = i * n * post + j * post + k;

    T y_val = BcastY ? y[j] : y[offset];
    T x_val = BcastY ? x[offset] : x[j];
    int64_t intermediate_out_offset;

    if (KeepIntermediateOut) {
      T intermeidiate_out = compound_functor.GetIntermediateOut(x_val, y_val);

      if (SameShapeOfIntermediateOutAndOut) {
        // for the case of f1(f2(x, y))
        intermediate_out_offset = offset;
      } else if (BcastY) {
        intermediate_out_offset = j;
      } else {
        intermediate_out_offset = offset;
      }

      intermediate_out[intermediate_out_offset] = intermeidiate_out;
      out[offset] =
          compound_functor.GetOutUseIntermediateOut(x_val, intermeidiate_out);
    } else {
      out[offset] = compound_functor.GetOut(x_val, y_val);
    }

    tid += ELEMWISE_MAX_BLOCK_DIM;
  }
}

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template <typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActBroadcast2CUDA(gpuStream_t stream,
                                              const T *x,
                                              const T *y,
                                              int pre,
                                              int n,
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                                              int post,
                                              CompoundFunctor compound_functor,
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                                              T *out,
                                              T *intermediate_out) {
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  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, pre * post);
  int gird_size = n;

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  FusedElemwiseAndActBroadcast2CUDAKernel<T,
                                          CompoundFunctor,
                                          BcastY,
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                                          KeepIntermediateOut,
                                          SameShapeOfIntermediateOutAndOut>
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      <<<gird_size, block_size, 0, stream>>>(
          x, y, compound_functor, pre, n, post, out, intermediate_out);
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}

#endif

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template <typename DeviceContext,
          typename T,
          typename CompoundFunctor,
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          bool KeepIntermediateOut>
void FusedElemwiseAndActComputeNoBroadcast(
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    const framework::ExecutionContext &ctx,
    const framework::DDim &x_dim,
    const framework::Tensor &x,
    const framework::Tensor &y,
    CompoundFunctor compound_functor,
    framework::Tensor *out,
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    framework::Tensor *intermediate_out) {
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  size_t N = static_cast<size_t>(phi::product(x_dim));
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  platform::ForRange<DeviceContext> for_range(
      ctx.template device_context<DeviceContext>(), N);

  for_range(
      FusedElemwiseAndActNoBroadcast<T, CompoundFunctor, KeepIntermediateOut>{
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          x.data<T>(),
          y.data<T>(),
          compound_functor,
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          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace())});
}

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template <typename DeviceContext,
          typename T,
          typename CompoundFunctor,
          bool BcastY,
          bool KeepIntermediateOut,
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          bool SameShapeOfIntermediateOutAndOut>
void FusedElemwiseAndActComputeWithBroadcast(
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    const framework::ExecutionContext &ctx,
    const framework::DDim &x_dim,
    const framework::DDim &y_dim_untrimed,
    const framework::Tensor &x,
    const framework::Tensor &y,
    CompoundFunctor compound_functor,
    int axis,
    framework::Tensor *out,
    framework::Tensor *intermediate_out) {
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  axis = (axis == -1 ? x_dim.size() - y_dim_untrimed.size() : axis);
  auto y_dim = trim_trailing_singular_dims(y_dim_untrimed);
  axis = (y_dim.size() == 0) ? x_dim.size() : axis;

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  int pre, n, post, is_run_common_broadcast;
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  phi::funcs::GetMidDims(
      x_dim, y_dim, axis, &pre, &n, &post, &is_run_common_broadcast);
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  if (post == 1) {
    int h = pre;
    int w = n;
    if (platform::is_gpu_place(ctx.GetPlace())) {
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#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActBroadcast1CUDA<T,
                                        CompoundFunctor,
                                        BcastY,
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                                        KeepIntermediateOut,
                                        SameShapeOfIntermediateOutAndOut>(
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          ctx.template device_context<DeviceContext>().stream(),
          x.data<T>(),
          y.data<T>(),
          compound_functor,
          h,
          w,
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          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
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      FusedElemwiseAndActBroadcast1CPU<T,
                                       CompoundFunctor,
                                       BcastY,
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                                       KeepIntermediateOut,
                                       SameShapeOfIntermediateOutAndOut>(
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          x.data<T>(),
          y.data<T>(),
          compound_functor,
          h,
          w,
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          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
    }
  } else {
    if (platform::is_gpu_place(ctx.GetPlace())) {
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#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActBroadcast2CUDA<T,
                                        CompoundFunctor,
                                        BcastY,
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                                        KeepIntermediateOut,
                                        SameShapeOfIntermediateOutAndOut>(
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          ctx.template device_context<DeviceContext>().stream(),
          x.data<T>(),
          y.data<T>(),
          pre,
          n,
          post,
          compound_functor,
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          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
#endif
    } else {
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      FusedElemwiseAndActBroadcast2CPU<T,
                                       CompoundFunctor,
                                       BcastY,
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                                       KeepIntermediateOut,
                                       SameShapeOfIntermediateOutAndOut>(
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          x.data<T>(),
          y.data<T>(),
          pre,
          n,
          post,
          compound_functor,
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          out->mutable_data<T>(ctx.GetPlace()),
          intermediate_out == nullptr
              ? nullptr
              : intermediate_out->mutable_data<T>(ctx.GetPlace()));
    }
  }
}

// --- backward
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template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
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          bool UseIntermediateOut>
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struct FusedElemwiseAndActGradNoBroadcast {
  HOSTDEVICE void operator()(size_t i) {
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    T zero = static_cast<T>(0);
    T x_val = (x_ == nullptr) ? zero : x_[i];
    T y_val = (y_ == nullptr) ? zero : y_[i];
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    T out_val = out_[i];
    T dout_val = dout_[i];
    T intermediate_out_val = UseIntermediateOut
                                 ? intermediate_out_[i]
                                 : dx_op_.GetIntermediateOut(x_val, y_val);
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    if (dx_ != nullptr) {
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      dx_[i] = dx_op_.UseIntermediateOut(
          x_val, y_val, intermediate_out_val, out_val, dout_val);
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    }
    if (dy_ != nullptr) {
613 614
      dy_[i] = dy_op_.UseIntermediateOut(
          x_val, y_val, intermediate_out_val, out_val, dout_val);
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    }
    if (dintermediate_ != nullptr) {
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      dintermediate_[i] = dintermediate_op_.UseIntermediateOut(
          x_val, intermediate_out_val, out_val, dout_val);
619 620 621 622 623 624 625 626 627 628
    }
  }

  const T *x_;
  const T *y_;
  const T *intermediate_out_;
  const T *out_;
  const T *dout_;
  DX_OP dx_op_;
  DY_OP dy_op_;
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  DIntermediate_OP dintermediate_op_;
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  T *dx_;
  T *dy_;
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  T *dintermediate_;
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};

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template <typename DeviceContext,
          typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut>
641
void FusedElemwiseAndActGradComputeNoBroadcast(
642 643 644 645 646 647 648 649 650 651 652 653 654 655
    const framework::ExecutionContext &ctx,
    const framework::DDim &x_dim,
    const framework::DDim &y_dim,
    const framework::Tensor *x,
    const framework::Tensor *y,
    const framework::Tensor *intermediate_out,
    const framework::Tensor *out,
    const framework::Tensor *dout,
    int axis,
    framework::Tensor *dx,
    framework::Tensor *dy,
    framework::Tensor *dintermediate,
    DX_OP dx_op,
    DY_OP dy_op,
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    DIntermediate_OP dintermediate_op) {
657
  size_t N = static_cast<size_t>(phi::product(x_dim));
658 659
  platform::ForRange<DeviceContext> for_range(
      ctx.template device_context<DeviceContext>(), N);
660 661 662 663 664
  const T *x_data = nullptr;
  const T *y_data = nullptr;
  if (x->IsInitialized()) x_data = x->data<T>();
  if (y->IsInitialized()) y_data = y->data<T>();

665 666 667 668 669 670 671 672 673 674 675 676 677
  for_range(FusedElemwiseAndActGradNoBroadcast<T,
                                               DX_OP,
                                               DY_OP,
                                               DIntermediate_OP,
                                               UseIntermediateOut>{
      x_data,
      y_data,
      intermediate_out ? intermediate_out->data<T>() : nullptr,
      out->data<T>(),
      dout->data<T>(),
      dx_op,
      dy_op,
      dintermediate_op,
678 679
      dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
      dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
680 681 682
      dintermediate == nullptr
          ? nullptr
          : dintermediate->mutable_data<T>(ctx.GetPlace())});
683 684
}

685 686 687 688 689 690
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast1CPU(
693 694 695 696 697 698 699 700 701 702 703 704 705
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int h,
    int w,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
    T *d_intermediate) {
706
  int64_t tmp_out_idx, x_idx, y_idx;
707
  T zero = static_cast<T>(0);
708 709 710 711 712 713 714
  for (int i = 0; i < h; ++i) {
    for (int j = 0; j < w; ++j) {
      int offset = i * w + j;

      tmp_out_idx = BcastY ? j : offset;
      y_idx = BcastY ? j : offset;
      x_idx = BcastY ? offset : j;
715 716
      T x_val = (x == nullptr) ? zero : x[x_idx];
      T y_val = (y == nullptr) ? zero : y[y_idx];
717 718 719 720 721 722 723

      if (SameShapeOfIntermediateOutAndOut) {
        tmp_out_idx = offset;
      }

      if (dx != nullptr) {
        T tmp = UseIntermediateOut
724 725
                    ? dx_op.UseIntermediateOut(x_val,
                                               y_val,
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                                               intermediate_out[tmp_out_idx],
727 728
                                               out[offset],
                                               dout[offset])
729
                    : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
730 731 732 733 734 735 736 737 738 739 740 741 742

        if (BcastY) {
          dx[x_idx] = tmp;
        } else {
          if (i == 0) {
            dx[x_idx] = tmp;
          } else {
            dx[x_idx] += tmp;
          }
        }
      }
      if (dy != nullptr) {
        T tmp = UseIntermediateOut
743 744
                    ? dy_op.UseIntermediateOut(x_val,
                                               y_val,
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                                               intermediate_out[tmp_out_idx],
746 747
                                               out[offset],
                                               dout[offset])
748
                    : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
749 750 751 752 753 754 755 756 757 758
        if (BcastY) {
          if (i == 0) {
            dy[y_idx] = tmp;
          } else {
            dy[y_idx] += tmp;
          }
        } else {
          dy[y_idx] = tmp;
        }
      }
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      if (d_intermediate != nullptr) {
760
        T tmp = UseIntermediateOut ? dintermediate_op.UseIntermediateOut(
761 762 763 764
                                         x_val,
                                         intermediate_out[tmp_out_idx],
                                         out[offset],
                                         dout[offset])
765 766
                                   : dintermediate_op.Recompute(
                                         x_val, y_val, out[offset], dout[i]);
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        if (SameShapeOfIntermediateOutAndOut) {
          d_intermediate[tmp_out_idx] = tmp;
        } else {
          if (i == 0) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            d_intermediate[tmp_out_idx] += tmp;
          }
        }
      }
777 778 779 780
    }
  }
}

781 782 783 784 785 786
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast2CPU(
789 790 791 792 793 794 795 796 797 798 799 800 801 802
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int pre,
    int n,
    int post,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
    T *d_intermediate) {
803
  int64_t tmp_out_idx, x_idx, y_idx;
804
  T zero = static_cast<T>(0);
805 806 807 808 809 810 811 812 813
  for (int i = 0; i < pre; ++i) {
    for (int j = 0; j < n; ++j) {
      for (int k = 0; k < post; ++k) {
        int offset = i * n * post + j * post + k;

        tmp_out_idx = BcastY ? j : offset;
        y_idx = BcastY ? j : offset;
        x_idx = BcastY ? offset : j;

814 815 816
        T x_val = (x == nullptr) ? zero : x[x_idx];
        T y_val = (y == nullptr) ? zero : y[y_idx];

817 818 819 820 821
        if (SameShapeOfIntermediateOutAndOut) {
          tmp_out_idx = offset;
        }

        if (dx != nullptr) {
822 823
          T tmp =
              UseIntermediateOut
824 825
                  ? dx_op.UseIntermediateOut(x_val,
                                             y_val,
826
                                             intermediate_out[tmp_out_idx],
827 828
                                             out[offset],
                                             dout[offset])
829
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
830 831 832 833 834 835 836 837 838 839 840 841

          if (BcastY) {
            dx[x_idx] = tmp;
          } else {
            if (i == 0 && k == 0) {
              dx[x_idx] = tmp;
            } else {
              dx[x_idx] += tmp;
            }
          }
        }
        if (dy != nullptr) {
842 843
          T tmp =
              UseIntermediateOut
844 845
                  ? dy_op.UseIntermediateOut(x_val,
                                             y_val,
846
                                             intermediate_out[tmp_out_idx],
847 848
                                             out[offset],
                                             dout[offset])
849
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
850 851 852 853 854 855 856 857 858 859
          if (BcastY) {
            if (i == 0 && k == 0) {
              dy[y_idx] = tmp;
            } else {
              dy[y_idx] += tmp;
            }
          } else {
            dy[y_idx] = tmp;
          }
        }
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        if (d_intermediate != nullptr) {
861
          T tmp = UseIntermediateOut ? dintermediate_op.UseIntermediateOut(
862 863 864 865
                                           x_val,
                                           intermediate_out[tmp_out_idx],
                                           out[offset],
                                           dout[offset])
866 867
                                     : dintermediate_op.Recompute(
                                           x_val, y_val, out[offset], dout[i]);
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          if (SameShapeOfIntermediateOutAndOut) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            if (i == 0) {
              d_intermediate[tmp_out_idx] = tmp;
            } else {
              d_intermediate[tmp_out_idx] += tmp;
            }
          }
        }
878 879 880 881 882
      }
    }
  }
}

883
#if defined(__NVCC__) || defined(__HIPCC__)
884 885 886 887 888 889
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
891
static __global__ void FusedElemwiseAndActGradBroadcast1CUDAKernel(
892 893 894 895 896 897 898 899 900 901 902 903 904
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int h,
    int w,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
    T *d_intermediate) {
905 906 907 908 909 910
  __shared__ T sdata[BLOCK_Y][BLOCK_X];
  size_t idx = threadIdx.x + BLOCK_X * blockIdx.x;
  size_t width_stride = gridDim.x * BLOCK_X;

  size_t full_w = ROUNDUP(w, BLOCK_X);

911
  T zero = static_cast<T>(0);
912

913 914 915 916 917
  for (size_t j = idx; j < full_w; j += width_stride) {
    T val(0), inter_val(0);
    if (j < w) {
      for (size_t i = threadIdx.y; i < h; i += BLOCK_Y) {
        size_t offset = i * w + j;
918

919 920 921 922 923
        size_t tmp_out_idx = BcastY ? j : offset;
        size_t y_idx = BcastY ? j : offset;
        size_t x_idx = BcastY ? offset : j;
        T x_val = (x == nullptr) ? zero : x[x_idx];
        T y_val = (y == nullptr) ? zero : y[y_idx];
924

925 926 927
        if (SameShapeOfIntermediateOutAndOut) {
          tmp_out_idx = offset;
        }
928

929 930 931
        if (dx != nullptr) {
          T tmp =
              UseIntermediateOut
932 933
                  ? dx_op.UseIntermediateOut(x_val,
                                             y_val,
934
                                             intermediate_out[tmp_out_idx],
935 936
                                             out[offset],
                                             dout[offset])
937
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
938

939 940 941 942 943 944 945 946 947
          if (BcastY) {
            dx[x_idx] = tmp;
          } else {
            val += tmp;
          }
        }
        if (dy != nullptr) {
          T tmp =
              UseIntermediateOut
948 949
                  ? dy_op.UseIntermediateOut(x_val,
                                             y_val,
950
                                             intermediate_out[tmp_out_idx],
951 952
                                             out[offset],
                                             dout[offset])
953
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
954 955 956 957 958 959 960 961 962
          if (BcastY) {
            val += tmp;
          } else {
            dy[y_idx] = tmp;
          }
        }
        if (d_intermediate != nullptr) {
          T tmp = UseIntermediateOut
                      ? dintermediate_op.UseIntermediateOut(
963 964 965 966 967 968
                            y[y_idx],
                            intermediate_out[tmp_out_idx],
                            out[offset],
                            dout[offset])
                      : dintermediate_op.Recompute(
                            x_val, y_val, out[offset], dout[offset]);
969 970 971 972 973 974
          if (SameShapeOfIntermediateOutAndOut) {
            d_intermediate[tmp_out_idx] = tmp;
          } else {
            inter_val += tmp;
          }
        }
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      }
    }
977

978 979 980 981 982 983 984 985 986
    // transpose, for ReduceSum with wrap
    sdata[threadIdx.y][threadIdx.x] = val;
    __syncthreads();
    val = sdata[threadIdx.x][threadIdx.y];
#pragma unroll
    for (int i = BLOCK_X >> 1; i > 0; i >>= 1) {
      // reduce sum with wrap
      val += platform::CudaShuffleXorSync(0xFFFFFFFF, val, i);
    }
987

988 989 990 991
    size_t idx_j = j + threadIdx.y;
    if (BcastY) {
      if (dy) {
        if (threadIdx.x == 0 && (idx_j < w)) dy[idx_j] = val;
992
      }
993 994 995
    } else {
      if (dx) {
        if (threadIdx.x == 0 && (idx_j < w)) dx[idx_j] = val;
996 997
      }
    }
998 999 1000 1001 1002 1003 1004 1005 1006 1007 1008 1009

    if (!SameShapeOfIntermediateOutAndOut) {
      if (d_intermediate) {
        sdata[threadIdx.y][threadIdx.x] = inter_val;
        __syncthreads();
        inter_val = sdata[threadIdx.x][threadIdx.y];
#pragma unroll
        for (int i = BLOCK_X >> 1; i > 0; i >>= 1) {
          // reduce sum with wrap
          inter_val += platform::CudaShuffleXorSync(0xFFFFFFFF, inter_val, i);
        }
        if (threadIdx.x == 0 && (idx_j < w)) d_intermediate[idx_j] = inter_val;
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      }
    }
1012
  }  // end for
1013 1014
}

1015 1016 1017 1018 1019 1020
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
static void FusedElemwiseAndActGradBroadcast1CUDA(
1023 1024 1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035
    const framework::ExecutionContext &ctx,
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int h,
    int w,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
1036 1037 1038 1039 1040 1041 1042 1043 1044
    T *d_intermediate) {
  gpuStream_t stream = ctx.cuda_device_context().stream();

  dim3 blocks(BLOCK_X, BLOCK_Y);
  int max_gpu_threads = ctx.cuda_device_context().GetMaxPhysicalThreadCount();
  int max_blocks = std::max(max_gpu_threads / (BLOCK_X * BLOCK_Y), 1);
  int theory_block = (w + BLOCK_X - 1) / BLOCK_X;
  dim3 grids(std::min(theory_block, max_blocks));

1045 1046 1047 1048 1049 1050
  FusedElemwiseAndActGradBroadcast1CUDAKernel<T,
                                              DX_OP,
                                              DY_OP,
                                              DIntermediate_OP,
                                              UseIntermediateOut,
                                              BcastY,
1051
                                              SameShapeOfIntermediateOutAndOut>
1052 1053 1054 1055 1056 1057 1058 1059 1060 1061 1062 1063
      <<<grids, blocks, 0, stream>>>(x,
                                     y,
                                     intermediate_out,
                                     out,
                                     dout,
                                     h,
                                     w,
                                     dx_op,
                                     dy_op,
                                     dintermediate_op,
                                     dx,
                                     dy,
1064
                                     d_intermediate);
1065 1066
}

1067 1068 1069 1070 1071 1072
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
1074
static __global__ void FusedElemwiseAndActGradBroadcast2CUDAKernel(
1075 1076 1077 1078 1079 1080 1081 1082 1083 1084 1085 1086 1087 1088
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int pre,
    int n,
    int post,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
    T *d_intermediate) {
1089 1090 1091
  int tid = threadIdx.x;
  int j = blockIdx.x;

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  T val(0), inter_val(0);
1093 1094
  int ttid = tid;
  int64_t tmp_out_idx, x_idx, y_idx;
1095
  T zero = static_cast<T>(0);
1096 1097 1098 1099 1100 1101 1102 1103 1104 1105
  while (true) {
    int i = ttid / post;
    int k = ttid % post;
    if (i >= pre) break;

    int offset = i * n * post + j * post + k;

    tmp_out_idx = BcastY ? j : offset;
    y_idx = BcastY ? j : offset;
    x_idx = BcastY ? offset : j;
1106 1107
    T x_val = (x == nullptr) ? zero : x[x_idx];
    T y_val = (y == nullptr) ? zero : y[y_idx];
1108 1109 1110 1111 1112 1113

    if (SameShapeOfIntermediateOutAndOut) {
      tmp_out_idx = offset;
    }

    if (dx != nullptr) {
1114
      T tmp = UseIntermediateOut
1115 1116
                  ? dx_op.UseIntermediateOut(x_val,
                                             y_val,
1117
                                             intermediate_out[tmp_out_idx],
1118 1119
                                             out[offset],
                                             dout[offset])
1120
                  : dx_op.Recompute(x_val, y_val, out[offset], dout[offset]);
1121 1122 1123 1124 1125 1126 1127 1128

      if (BcastY) {
        dx[x_idx] = tmp;
      } else {
        val += tmp;
      }
    }
    if (dy != nullptr) {
1129
      T tmp = UseIntermediateOut
1130 1131
                  ? dy_op.UseIntermediateOut(x_val,
                                             y_val,
1132
                                             intermediate_out[tmp_out_idx],
1133 1134
                                             out[offset],
                                             dout[offset])
1135
                  : dy_op.Recompute(x_val, y_val, out[offset], dout[offset]);
1136 1137 1138 1139 1140 1141
      if (BcastY) {
        val += tmp;
      } else {
        dy[y_idx] = tmp;
      }
    }
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    if (d_intermediate != nullptr) {
1143
      T tmp = UseIntermediateOut ? dintermediate_op.UseIntermediateOut(
1144 1145 1146 1147
                                       y_val,
                                       intermediate_out[tmp_out_idx],
                                       out[offset],
                                       dout[offset])
1148 1149
                                 : dintermediate_op.Recompute(
                                       x_val, y_val, out[offset], dout[offset]);
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      if (SameShapeOfIntermediateOutAndOut) {
        d_intermediate[tmp_out_idx] = tmp;
      } else {
        inter_val += tmp;
      }
    }
1156 1157 1158
    ttid += ELEMWISE_MAX_BLOCK_DIM;
  }

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  int h = pre * post;
  h = h > ELEMWISE_MAX_BLOCK_DIM ? ELEMWISE_MAX_BLOCK_DIM : h;
1161 1162 1163 1164 1165 1166 1167 1168 1169 1170 1171 1172 1173 1174 1175
  if (BcastY) {
    if (dy) {
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dy[j] = val;
      }
    }
  } else {
    if (dx) {
      val = paddle::platform::reduceSum(val, tid, h);
      if (threadIdx.x == 0) {
        dx[j] = val;
      }
    }
  }
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  if (!SameShapeOfIntermediateOutAndOut) {
    if (d_intermediate) {
      inter_val = paddle::platform::reduceSum(inter_val, tid, h);
      if (threadIdx.x == 0) {
        d_intermediate[j] = inter_val;
      }
    }
  }
1184 1185
}

1186 1187 1188 1189 1190 1191
template <typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
1193
static void FusedElemwiseAndActGradBroadcast2CUDA(
1194 1195 1196 1197 1198 1199 1200 1201 1202 1203 1204 1205 1206 1207
    gpuStream_t stream,
    const T *x,
    const T *y,
    const T *intermediate_out,
    const T *out,
    const T *dout,
    int pre,
    int n,
    int post,
    DX_OP dx_op,
    DY_OP dy_op,
    DIntermediate_OP dintermediate_op,
    T *dx,
    T *dy,
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    T *dintermediate) {
1209 1210
  int block_size = std::min(ELEMWISE_MAX_BLOCK_DIM, pre * post);
  int gird_size = n;
1211 1212 1213 1214 1215 1216
  FusedElemwiseAndActGradBroadcast2CUDAKernel<T,
                                              DX_OP,
                                              DY_OP,
                                              DIntermediate_OP,
                                              UseIntermediateOut,
                                              BcastY,
1217
                                              SameShapeOfIntermediateOutAndOut>
1218 1219 1220 1221 1222 1223 1224 1225 1226 1227 1228 1229 1230 1231
      <<<gird_size, block_size, 0, stream>>>(x,
                                             y,
                                             intermediate_out,
                                             out,
                                             dout,
                                             pre,
                                             n,
                                             post,
                                             dx_op,
                                             dy_op,
                                             dintermediate_op,
                                             dx,
                                             dy,
                                             dintermediate);
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}
#endif

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template <typename DeviceContext,
          typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
          bool BcastY,
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          bool SameShapeOfIntermediateOutAndOut>
void FusedElemwiseAndActGradComputeWithBroadcast(
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    const framework::ExecutionContext &ctx,
    const framework::DDim &x_dim,
    const framework::DDim &y_dim_untrimed,
    const framework::Tensor *x,
    const framework::Tensor *y,
    const framework::Tensor *intermediate_out,
    const framework::Tensor *out,
    const framework::Tensor *dout,
    int axis,
    framework::Tensor *dx,
    framework::Tensor *dy,
    framework::Tensor *dintermediate,
    DX_OP dx_op,
    DY_OP dy_op,
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    DIntermediate_OP dintermediate_op) {
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  axis = (axis == -1 ? x_dim.size() - y_dim_untrimed.size() : axis);
  auto y_dim = trim_trailing_singular_dims(y_dim_untrimed);
  axis = (y_dim.size() == 0) ? x_dim.size() : axis;

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  int pre, n, post, is_run_common_broadcast;
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  phi::funcs::GetMidDims(
      x_dim, y_dim, axis, &pre, &n, &post, &is_run_common_broadcast);
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  const T *x_data = nullptr;
  const T *y_data = nullptr;
  if (x->IsInitialized()) x_data = x->data<T>();
  if (y->IsInitialized()) y_data = y->data<T>();
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  if (post == 1) {
    int h = pre;
    int w = n;
1273

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    if (platform::is_gpu_place(ctx.GetPlace())) {
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#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActGradBroadcast1CUDA<T,
                                            DX_OP,
                                            DY_OP,
                                            DIntermediate_OP,
                                            UseIntermediateOut,
                                            BcastY,
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                                            SameShapeOfIntermediateOutAndOut>(
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          ctx,
          x_data,
          y_data,
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          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(),
          dout->data<T>(),
          h,
          w,
          dx_op,
          dy_op,
          dintermediate_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
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          dintermediate == nullptr
              ? nullptr
              : dintermediate->mutable_data<T>(ctx.GetPlace()));
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#endif
    } else {
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      FusedElemwiseAndActGradBroadcast1CPU<T,
                                           DX_OP,
                                           DY_OP,
                                           DIntermediate_OP,
                                           UseIntermediateOut,
                                           BcastY,
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                                           SameShapeOfIntermediateOutAndOut>(
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          x_data,
          y_data,
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          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(),
          dout->data<T>(),
          h,
          w,
          dx_op,
          dy_op,
          dintermediate_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
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          dintermediate == nullptr
              ? nullptr
              : dintermediate->mutable_data<T>(ctx.GetPlace()));
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    }
  } else {
    if (platform::is_gpu_place(ctx.GetPlace())) {
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#if defined(__NVCC__) || defined(__HIPCC__)
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      FusedElemwiseAndActGradBroadcast2CUDA<T,
                                            DX_OP,
                                            DY_OP,
                                            DIntermediate_OP,
                                            UseIntermediateOut,
                                            BcastY,
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                                            SameShapeOfIntermediateOutAndOut>(
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          ctx.template device_context<DeviceContext>().stream(),
          x_data,
          y_data,
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          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(),
          dout->data<T>(),
          pre,
          n,
          post,
          dx_op,
          dy_op,
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          dintermediate_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
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          dintermediate == nullptr
              ? nullptr
              : dintermediate->mutable_data<T>(ctx.GetPlace()));
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#endif
    } else {
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      FusedElemwiseAndActGradBroadcast2CPU<T,
                                           DX_OP,
                                           DY_OP,
                                           DIntermediate_OP,
                                           UseIntermediateOut,
                                           BcastY,
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                                           SameShapeOfIntermediateOutAndOut>(
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          x_data,
          y_data,
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          intermediate_out == nullptr ? nullptr : intermediate_out->data<T>(),
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          out->data<T>(),
          dout->data<T>(),
          pre,
          n,
          post,
          dx_op,
          dy_op,
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          dintermediate_op,
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          dx == nullptr ? nullptr : dx->mutable_data<T>(ctx.GetPlace()),
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          dy == nullptr ? nullptr : dy->mutable_data<T>(ctx.GetPlace()),
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          dintermediate == nullptr
              ? nullptr
              : dintermediate->mutable_data<T>(ctx.GetPlace()));
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    }
  }
}

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template <typename DeviceContext,
          typename T,
          typename DX_OP,
          typename DY_OP,
          typename DIntermediate_OP,
          bool UseIntermediateOut,
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          bool SameShapeOfIntermediateOutAndOut>
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void FusedElemwiseAndActGradComputeEx(const framework::ExecutionContext &ctx,
                                      const framework::Tensor *x,
                                      const framework::Tensor *y,
                                      const framework::Tensor *out,
                                      const framework::Tensor *intermediate_out,
                                      const framework::Tensor *dout,
                                      int axis,
                                      framework::Tensor *dx,
                                      framework::Tensor *dy,
                                      framework::Tensor *dintermediate,
                                      DX_OP dx_op,
                                      DY_OP dy_op,
                                      DIntermediate_OP dintermediate_op) {
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  const framework::DDim &x_dim = x->dims();
  const framework::DDim &y_dim = y->dims();
  if (UseIntermediateOut) {
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    PADDLE_ENFORCE_NOT_NULL(
        intermediate_out,
        platform::errors::InvalidArgument("Intermediate out is null pointer."));
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  }
  if (x_dim == y_dim) {
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    FusedElemwiseAndActGradComputeNoBroadcast<DeviceContext,
                                              T,
                                              DX_OP,
                                              DY_OP,
                                              DIntermediate_OP,
                                              UseIntermediateOut>(
        ctx,
        x_dim,
        y_dim,
        x,
        y,
        intermediate_out,
        out,
        dout,
        axis,
        dx,
        dy,
        dintermediate,
        dx_op,
        dy_op,
        dintermediate_op);
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  } else {  // Y is a scalar
    bool bcast_y = x_dim.size() >= y_dim.size();
    if (x_dim.size() == y_dim.size()) {
      for (int i = 0; i < x_dim.size(); ++i) {
        if (x_dim[i] < y_dim[i]) {
          bcast_y = false;
          break;
        }
      }
    }

    // z = f1(x, f2(y))
    // z = f1(f2(x, y))
    if (bcast_y) {  // Y should be broadcast.
      FusedElemwiseAndActGradComputeWithBroadcast<
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          DeviceContext,
          T,
          DX_OP,
          DY_OP,
          DIntermediate_OP,
          UseIntermediateOut,
          true /*BcastY*/,
          SameShapeOfIntermediateOutAndOut>(ctx,
                                            x_dim,
                                            y_dim,
                                            x,
                                            y,
                                            intermediate_out,
                                            out,
                                            dout,
                                            axis,
                                            dx,
                                            dy,
                                            dintermediate,
                                            dx_op,
                                            dy_op,
                                            dintermediate_op);
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    } else {
      FusedElemwiseAndActGradComputeWithBroadcast<
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          DeviceContext,
          T,
          DX_OP,
          DY_OP,
          DIntermediate_OP,
          UseIntermediateOut,
          false /*BcastY*/,
          SameShapeOfIntermediateOutAndOut>(ctx,
                                            y_dim,
                                            x_dim,
                                            x,
                                            y,
                                            intermediate_out,
                                            out,
                                            dout,
                                            axis,
                                            dx,
                                            dy,
                                            dintermediate,
                                            dx_op,
                                            dy_op,
                                            dintermediate_op);
1490 1491 1492 1493
    }
  }
}

1494 1495 1496 1497 1498
template <typename DeviceContext,
          typename T,
          typename CompoundFunctor,
          bool KeepIntermediateOut,
          bool SameShapeOfIntermediateOutAndOut>
1499 1500
void FusedElemwiseAndActComputeEx(const framework::ExecutionContext &ctx,
                                  const framework::Tensor &x,
1501 1502
                                  const framework::Tensor &y,
                                  int axis,
1503 1504 1505 1506
                                  CompoundFunctor compound_functor,
                                  framework::Tensor *out,
                                  framework::Tensor *intermediate_out) {
  if (KeepIntermediateOut) {
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    PADDLE_ENFORCE_NOT_NULL(
        intermediate_out,
        platform::errors::InvalidArgument(
            "The save_intermediate_out is opened, intermediate "
            "out is null pointer."));
1512 1513 1514 1515 1516
  }

  const framework::DDim &x_dim = x.dims();
  const framework::DDim &y_dim = y.dims();
  if (x.dims() == y.dims()) {
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    FusedElemwiseAndActComputeNoBroadcast<DeviceContext,
                                          T,
                                          CompoundFunctor,
1520 1521 1522 1523 1524
                                          KeepIntermediateOut>(
        ctx, x_dim, x, y, compound_functor, out, intermediate_out);
  } else {
    // Whether the shape of Y is a continuous subsequence of X,
    // For more information please refer to the op's introduction.
1525
    bool bcast_y = x.numel() >= y.numel();
1526 1527 1528 1529
    // z = f1(x, f2(y))
    // z = f1(f2(x, y))
    if (bcast_y) {  // Y should be broadcast.
      // In this case,
1530 1531
      // for 'f2(y)', the shape of intermediate_out should be equal to the
      // shape
1532 1533 1534 1535
      // of Y.
      // for 'f2(x, y)', the shape of intermediate_out should be equal to the
      // shape of Out.
      // the shape of Out should be equal to the shape of X.
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      FusedElemwiseAndActComputeWithBroadcast<DeviceContext,
                                              T,
                                              CompoundFunctor,
                                              true /*BcastY*/,
                                              KeepIntermediateOut,
                                              SameShapeOfIntermediateOutAndOut>(
          ctx,
          x_dim /*OutShape*/,
          y_dim,
          x,
          y,
          compound_functor,
          axis,
          out,
1550 1551 1552
          intermediate_out);
    } else {
      // In this case,
1553 1554
      // for 'f2(y)', the shape of intermediate_out should be equal to the
      // shape
1555 1556 1557 1558
      // of Out.
      // for 'f2(x, y)', the shape of intermediate_out should be equal to the
      // shape of Out.
      // the shape of Out should be equal to the shape of Y.
1559 1560 1561 1562 1563 1564 1565 1566 1567 1568 1569 1570 1571 1572
      FusedElemwiseAndActComputeWithBroadcast<DeviceContext,
                                              T,
                                              CompoundFunctor,
                                              false /*BcastY*/,
                                              KeepIntermediateOut,
                                              SameShapeOfIntermediateOutAndOut>(
          ctx,
          y_dim /*OutShape*/,
          x_dim,
          x,
          y,
          compound_functor,
          axis,
          out,
1573 1574 1575 1576
          intermediate_out);
    }
  }
}
1577 1578 1579

template <typename DeviceContext, typename T>
static inline void GetDoubleGradSafeTensor(
1580 1581 1582 1583
    const framework::ExecutionContext &ctx,
    const framework::Tensor *x,
    const framework::Tensor *ddx,
    framework::Tensor *ddx_safe) {
1584
  const auto &dev_ctx = ctx.template device_context<DeviceContext>();
1585 1586
  phi::funcs::GetDoubleGradSafeTensor<DeviceContext, T>(
      dev_ctx, *x, ddx, ddx_safe);
1587 1588
}

1589 1590 1591 1592
// for broadcast backwards
static inline std::vector<int> GetReduceDim(const framework::DDim &in,
                                            const framework::DDim &out,
                                            int axis) {
1593
  return phi::funcs::GetReduceDim(in, out, axis);
1594
}
1595 1596 1597 1598 1599

#if defined(__NVCC__) || defined(__HIPCC__)

template <ElementwiseType ET, typename T, typename Functor>
void GetGradXAndYOut(const platform::CUDADeviceContext &dev_ctx,
1600 1601
                     const platform::Place &place,
                     int axis,
1602
                     std::vector<const framework::Tensor *> ins,
1603 1604 1605 1606 1607 1608
                     const framework::Tensor *dout,
                     framework::Tensor *dx,
                     framework::Tensor *dy,
                     Functor func) {
  phi::GetGradXAndYOut<ET, T, Functor>(
      dev_ctx, place, axis, ins, *dout, dx, dy, func);
1609 1610 1611 1612
}

template <ElementwiseType ET, typename T, typename Functor>
void GetGradXOrYOut(const platform::CUDADeviceContext &dev_ctx,
1613 1614
                    const platform::Place &place,
                    int axis,
1615
                    std::vector<const framework::Tensor *> ins,
1616 1617
                    const framework::Tensor *dout,
                    framework::Tensor *dxy,
1618
                    Functor func) {
1619 1620
  phi::GetGradXOrYOut<ET, T, Functor>(
      dev_ctx, place, axis, ins, *dout, dxy, func);
1621 1622 1623 1624
}

#endif

1625 1626
}  // namespace operators
}  // namespace paddle