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/* Copyright (c) 2018 PaddlePaddle Authors. All Rights Reserved.
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 * http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License. */

#pragma once
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#include <cmath>
#include <limits>
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#include <string>
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#include "paddle/fluid/operators/jit/helper.h"
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#include "paddle/fluid/operators/jit/kernel_base.h"
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#include "paddle/fluid/platform/enforce.h"

namespace paddle {
namespace operators {
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namespace jit {
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namespace refer {

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// Refer code only focus on correctness
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template <typename T>
void VMul(const T* x, const T* y, T* z, int n) {
  for (int i = 0; i < n; ++i) {
    z[i] = x[i] * y[i];
  }
}

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template <typename T>
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void VAdd(const T* x, const T* y, T* z, int n) {
  for (int i = 0; i < n; ++i) {
    z[i] = x[i] + y[i];
  }
}

template <typename T>
void VAddRelu(const T* x, const T* y, T* z, int n) {
  for (int i = 0; i < n; ++i) {
    z[i] = x[i] + y[i];
    z[i] = z[i] > 0 ? z[i] : 0;
  }
}

template <typename T>
void VSub(const T* x, const T* y, T* z, int n) {
  for (int i = 0; i < n; ++i) {
    z[i] = x[i] - y[i];
  }
}

template <typename T>
void VScal(const T* a, const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = a[0] * x[i];
  }
}

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template <typename T>
void VAddBias(const T* a, const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = a[0] + x[i];
  }
}

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template <typename T>
void VCopy(const T* x, T* y, int n) {
  std::memcpy(y, x, n * sizeof(T));
}

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// x shape: (x_len)
// y shape: (h, x_len)
template <typename T>
void VBroadcast(const T* x, T* y, int64_t y_h, int64_t x_len) {
  for (int64_t h = 0; h < y_h; ++h) {
    VCopy(x, y + h * x_len, x_len);
  }
}

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template <typename T>
void VRelu(const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = x[i] > 0 ? x[i] : 0;
  }
}

template <typename T>
inline void VIdentity(const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = x[i];
  }
}

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template <typename T>
inline void VSquare(const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = x[i] * x[i];
  }
}

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template <typename T>
void VExp(const T* x, T* y, int n) {
  for (int i = 0; i < n; ++i) {
    y[i] = std::exp(x[i]);
  }
}

template <typename T>
void VSigmoid(const T* x, T* y, int n) {
  // y = 1 / (1 + e^-x)
  const T min = SIGMOID_THRESHOLD_MIN;
  const T max = SIGMOID_THRESHOLD_MAX;
  for (int i = 0; i < n; ++i) {
    T tmp = (x[i] < min) ? min : ((x[i] > max) ? max : x[i]);
    y[i] = static_cast<T>(1) / (static_cast<T>(1) + std::exp(-tmp));
  }
}

template <typename T>
void VTanh(const T* x, T* y, int n) {
  // y = 2 * sigmoid(2x) - 1
  for (int i = 0; i < n; ++i) {
    y[i] = static_cast<T>(2) * x[i];
  }
  VSigmoid(y, y, n);
  for (int i = 0; i < n; ++i) {
    y[i] = static_cast<T>(2) * y[i] - static_cast<T>(1);
  }
}

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template <typename T>
void (*getActFunc(KernelType type))(const T*, T*, int) {  // NOLINT
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  if (type == kVSigmoid) {
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    return VSigmoid<T>;
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  } else if (type == kVRelu) {
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    return VRelu<T>;
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  } else if (type == kVTanh) {
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    return VTanh<T>;
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  } else if (type == kVIdentity) {
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    return VIdentity<T>;
  }
  PADDLE_THROW("Not support type: %s", type);
  return nullptr;
}

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// TODO(TJ): add refer gemm and make LSTM kernels combine as same GRU kernels

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// compute ct and ht
template <typename T>
void LSTMCtHt(lstm_t* step, const lstm_attr_t* attr) {
  T* gates = reinterpret_cast<T*>(step->gates);
  const T* ct_1 = reinterpret_cast<const T*>(step->ct_1);
  T* ct = reinterpret_cast<T*>(step->ct);
  T* ht = reinterpret_cast<T*>(step->ht);
  const T* wp = reinterpret_cast<const T*>(step->wp);
  T* checked = reinterpret_cast<T*>(step->checked);
  auto act_gate = getActFunc<T>(attr->act_gate);
  auto act_cand = getActFunc<T>(attr->act_cand);
  auto act_cell = getActFunc<T>(attr->act_cell);
  int d = attr->d;
  int d2 = d * 2;
  int d3 = d * 3;
  // gates: W_ch, W_ih, W_fh, W_oh
  if (attr->use_peephole) {
    VMul(wp, ct_1, checked, d);
    VMul(wp + d, ct_1, checked + d, d);
    VAdd(checked, gates + d, gates + d, d2);
    act_gate(gates + d, gates + d, d2);
  } else {
    act_gate(gates + d, gates + d, d3);
  }

  // C_t = C_t-1 * fgated + cand_gated * igated
  act_cand(gates, gates, d);
  VMul(gates, gates + d, gates + d, d);
  VMul(ct_1, gates + d2, gates + d2, d);
  VAdd(gates + d, gates + d2, ct, d);

  if (attr->use_peephole) {
    // get ogated
    VMul(wp + d2, ct, gates + d, d);
    VAdd(gates + d, gates + d3, gates + d3, d);
    act_gate(gates + d3, gates + d3, d);
  }
  // H_t = act_cell(C_t) * ogated
  act_cell(ct, gates + d2, d);
  VMul(gates + d2, gates + d3, ht, d);
}

// compute c1 and h1 without c0 or h0
template <typename T>
void LSTMC1H1(lstm_t* step, const lstm_attr_t* attr) {
  T* gates = reinterpret_cast<T*>(step->gates);
  T* ct = reinterpret_cast<T*>(step->ct);
  T* ht = reinterpret_cast<T*>(step->ht);
  auto act_gate = getActFunc<T>(attr->act_gate);
  auto act_cand = getActFunc<T>(attr->act_cand);
  auto act_cell = getActFunc<T>(attr->act_cell);
  int d = attr->d;
  int d2 = d * 2;
  int d3 = d * 3;
  /* C_t = igated * cgated*/
  act_gate(gates + d, gates + d, d);
  act_cand(gates, gates, d);
  VMul(gates, gates + d, ct, d);
  if (attr->use_peephole) {
    // get outgated, put W_oc * C_t on igated
    const T* wp = reinterpret_cast<const T*>(step->wp);
    VMul(wp + d2, ct, gates + d, d);
    VAdd(gates + d, gates + d3, gates + d3, d);
  }
  /* H_t = act_cell(C_t) * ogated */
  act_gate(gates + d3, gates + d3, d);
  act_cell(ct, gates + d2, d);
  VMul(gates + d2, gates + d3, ht, d);
}

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// compute h1 without h0
template <typename T>
void GRUH1(gru_t* step, const gru_attr_t* attr) {
  T* gates = reinterpret_cast<T*>(step->gates);
  T* ht = reinterpret_cast<T*>(step->ht);
  auto act_gate = getActFunc<T>(attr->act_gate);
  auto act_cand = getActFunc<T>(attr->act_cand);
  int d = attr->d;
  int d2 = d * 2;
  act_gate(gates, gates, d);
  act_cand(gates + d2, gates + d2, d);
  VMul(gates, gates + d2, ht, d);
}

// compute the first part of GRU: ht = act_gate(r) * ht_1
template <typename T>
void GRUHtPart1(gru_t* step, const gru_attr_t* attr) {
  // W: {W_update, W_reset; W_state}
  T* gates = reinterpret_cast<T*>(step->gates);
  T* ht = reinterpret_cast<T*>(step->ht);
  const T* ht_1 = reinterpret_cast<const T*>(step->ht_1);
  auto act_gate = getActFunc<T>(attr->act_gate);
  act_gate(gates + attr->d, gates + attr->d, attr->d);
  VMul(ht_1, gates + attr->d, ht, attr->d);
}

// compute the second part of GRU:
// ht = act_gate(u) * act_cand(s) + (1-act_gate(u)) * ht_1
template <typename T>
void GRUHtPart2(gru_t* step, const gru_attr_t* attr) {
  T* gates = reinterpret_cast<T*>(step->gates);
  T* ht = reinterpret_cast<T*>(step->ht);
  const T* ht_1 = reinterpret_cast<const T*>(step->ht_1);
  auto act_gate = getActFunc<T>(attr->act_gate);
  auto act_cand = getActFunc<T>(attr->act_cand);
  int d = attr->d;
  T* y = gates + d * 2;
  act_gate(gates, gates, d);
  act_cand(y, y, d);
  // out = zt*ht~ + (1-zt)*ht_1
  for (int i = 0; i < d; ++i) {
    ht[i] = gates[i] * y[i] + (static_cast<T>(1) - gates[i]) * ht_1[i];
  }
}

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template <typename T>
void CRFDecoding(const int seq_len, const T* x, const T* w, T* alpha,
                 int* track, int right) {
  constexpr int state_trans_base_idx = 2;
  for (int i = 0; i < right; ++i) {
    alpha[i] = w[i] + x[i];
  }
  for (int k = 1; k < seq_len; ++k) {
    for (int i = 0; i < right; ++i) {
      T max_score = -std::numeric_limits<T>::max();
      int max_j = 0;
      for (int j = 0; j < right; ++j) {
        T score = alpha[(k - 1) * right + j] +
                  w[(j + state_trans_base_idx) * right + i];
        if (score > max_score) {
          max_score = score;
          max_j = j;
        }
      }
      alpha[k * right + i] = max_score + x[k * right + i];
      track[k * right + i] = max_j;
    }
  }
}

template <typename T>
void LayerNorm(T* x, T* out, T* mean, T* var, const T* scale, const T* bias,
               int height, const float epsilon, int right) {
  // get mean
  for (int i = 0; i < height; i++) {
    T sum = 0.0;
    int offset = i * right;
    for (int j = 0; j < right; j++) {
      sum += x[offset + j];
    }
    mean[i] = sum / right;
  }

  // get variance
  for (int i = 0; i < height; i++) {
    T sum = 0.0;
    int offset = i * right;
    for (int j = 0; j < right; j++) {
      sum += (x[offset + j] - mean[i]) * (x[offset + j] - mean[i]);
    }
    var[i] = sum / right;
  }

  for (int i = 0; i < height; i++) {
    int offset = i * right;
    T sqrt_var = std::sqrt(var[i] + (T)epsilon);
    for (int j = 0; j < right; j++) {
      out[offset + j] = (x[offset + j] - mean[i]) / sqrt_var;
    }
  }
  if (scale) {
    for (int i = 0; i < height; i++) {
      int offset = i * right;
      for (int j = 0; j < right; j++) {
        out[offset + j] *= scale[j];
      }
    }
  }

  if (bias) {
    for (int i = 0; i < height; i++) {
      int offset = i * right;
      for (int j = 0; j < right; j++) {
        out[offset + j] += bias[j];
      }
    }
  }
}

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template <typename T>
void NCHW16CMulNC(const T* x, const T* y, T* z, int height, int width) {
  int offset = 0;
  for (int h = 0; h < height; ++h) {
    for (int w = 0; w < width; ++w) {
      for (int i = 0; i < 16; ++i) {
        z[i + offset] = y[i] * x[i + offset];
      }
      offset += ZMM_FLOAT_BLOCK;
    }
  }
}

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template <typename T>
void SeqPool(const T* x, T* y, const seq_pool_attr_t* attr) {
  for (int w = 0; w < attr->w; ++w) {
    const T* src = x + w;
    T* dst = y + w;
    *dst = static_cast<T>(0);
    for (int h = 0; h < attr->h; ++h) {
      *dst = *dst + *src;
      src += attr->w;
    }
  }
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  if (attr->type == SeqPoolType::kAvg || attr->type == SeqPoolType::kSqrt) {
    T scalar = static_cast<T>(1);
    if (attr->type == SeqPoolType::kAvg) {
      scalar = scalar / static_cast<T>(attr->h);
    } else {
      scalar = scalar / std::sqrt(static_cast<T>(attr->h));
    }
    VScal<T>(&scalar, y, y, attr->w);
  }
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}

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// A(M,K) * B(K,N) = C(M,N)
template <typename T>
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void MatMul(const T* A, const T* B, T* C, const matmul_attr_t* attr) {
  int M = attr->m;
  int N = attr->n;
  int K = attr->k;
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  for (int m = 0; m < M; ++m) {
    const T* pa = A + m * K;
    T* pc = C + m * N;
    for (int n = 0; n < N; ++n) {
      const T* pb = B + n;
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      pc[n] = pa[0] * pb[0];
      for (int k = 1; k < K; ++k) {
        pc[n] += pa[k] * pb[k * N];
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      }
    }
  }
}
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template <typename T>
void HMax(const T* x, T* res, int n) {
  res[0] = x[0];
  for (int i = 1; i < n; ++i) {
    res[0] = res[0] < x[i] ? x[i] : res[0];
  }
}

template <typename T>
void HSum(const T* x, T* res, int n) {
  res[0] = x[0];
  for (int i = 1; i < n; ++i) {
    res[0] += x[i];
  }
}

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template <typename T>
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void StrideASum(const T* x, T* res, int n, int stride) {
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  res[0] = x[0];
  for (int i = stride; i < n; i+=stride) {
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    res[0] += std::abs(x[i]);
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  }
}

template <typename T>
void StrideScal(const T* a, const T* x, T* y, int n , int stride) {
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  for (int i = 0; i < n; ++i) {
    if (i % stride == 0) {
      y[i] = x[i] * a[0];
    } else {
      y[i] = x[i];
    }
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  }
}

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// y = e^(x - max(x))
// y = y / sum(y)
template <typename T>
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void Softmax(const T* x, T* y, int n, int bs = 1, int remain = 1) {
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  for (int i = 0; i < bs; ++i) {
    T scalar;
    HMax(x, &scalar, n);
    scalar = static_cast<T>(0) - scalar;
    VAddBias(&scalar, x, y, n);  // x - max
    VExp(y, y, n);
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    if (remain == 1) {
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      HSum(y, &scalar, n);
      scalar = static_cast<T>(1) / scalar;
      VScal(&scalar, y, y, n);
    } else {
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      for (int j = 0; j < remain; j++) {
        StrideASum(&y[j], &scalar, n, remain);
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        scalar = static_cast<T>(1) / scalar;
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        StrideScal(&scalar, &y[j], &y[j], n, remain);
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      }
    }
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    x += n;
    y += n;
  }
}

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// embedding seq pool
// table is a matrix with (tbl_h, tbl_w)
// idx is a matrix with (idx_h, idx_w)
// output is a vector with length tbl_w * idx_w
template <typename T>
void EmbSeqPool(const T* table, const int64_t* idx, T* out,
                const emb_seq_pool_attr_t* attr) {
  PADDLE_ENFORCE_EQ(attr->table_width * attr->index_width, attr->out_width);

  auto check_idx_value_valid = [&](int64_t i) {
    PADDLE_ENFORCE_LT(idx[i], attr->table_height, "idx value: %d, i: %d",
                      idx[i], i);
    PADDLE_ENFORCE_GE(idx[i], 0, "idx value: %d, i: %d", idx[i], i);
  };

  for (int64_t w = 0; w != attr->index_width; ++w) {
    check_idx_value_valid(w);
    std::memcpy(out + w * attr->table_width, table + idx[w] * attr->table_width,
                attr->table_width * sizeof(T));
  }

  for (int64_t h = 1; h < attr->index_height; ++h) {
    for (int64_t w = 0; w < attr->index_width; ++w) {
      int64_t i = h * attr->index_width + w;
      check_idx_value_valid(i);
      VAdd(table + idx[i] * attr->table_width, out + w * attr->table_width,
           out + w * attr->table_width, attr->table_width);
    }
  }
}

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// SGD algorithm:
// lr is pointor of learning rate scalar
// param is an input matrix with (param_h, param_w)
// grad is an input matrix with (grad_h, grad_w), here grad_w == param_w
// selected_rows is a vectot<int64_t> with size selected_rows_size( <= grad_h )
// out is an output matrix with (param_h, param_w)
//
// support both regular and sparse grad
// regular SGD: out[:] = param[:] - lr[0] * grad[:];
// sparse SGD: out[rows[i]][:] = param[rows[i]][:] - lr[0] * grad[i][:]
//
// Note: when use sparse SGD, and if out != param,
// the out rows which are not selected have not beed changed, which maybe empty
template <typename T>
void Sgd(const T* lr, const T* param, const T* grad, const int64_t* rows,
         T* out, const sgd_attr_t* attr) {
  PADDLE_ENFORCE_EQ(attr->param_width, attr->grad_width);
  PADDLE_ENFORCE_LE(attr->selected_rows_size, attr->grad_height);
  for (int64_t i = 0; i < attr->selected_rows_size; ++i) {
    auto h_idx = rows[i];
    PADDLE_ENFORCE_LT(h_idx, attr->param_height);
    PADDLE_ENFORCE_GE(h_idx, 0);
    for (int64_t j = 0; j < attr->grad_width; ++j) {
      out[h_idx * attr->grad_width + j] =
          param[h_idx * attr->grad_width + j] -
          lr[0] * grad[i * attr->grad_width + j];
    }
  }
}

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#define DECLARE_REFER_KERNEL(name)                          \
  template <typename T>                                     \
  class name##Kernel : public ReferKernel<name##Tuple<T>> { \
   public:                                                  \
    name##Kernel() { this->func = name<T>; }                \
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  }

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// const T* x, const T* y, T* z, int n
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DECLARE_REFER_KERNEL(VMul);
DECLARE_REFER_KERNEL(VAdd);
DECLARE_REFER_KERNEL(VAddRelu);
DECLARE_REFER_KERNEL(VSub);
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// const T* a, const T* x, T* y, int n
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DECLARE_REFER_KERNEL(VScal);
DECLARE_REFER_KERNEL(VAddBias);
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// const T* a, const T* x, T* y, int n, int stride
DECLARE_REFER_KERNEL(StrideScal);

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// const T* x, T* y, int n
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DECLARE_REFER_KERNEL(VRelu);
DECLARE_REFER_KERNEL(VIdentity);
DECLARE_REFER_KERNEL(VExp);
DECLARE_REFER_KERNEL(VSigmoid);
DECLARE_REFER_KERNEL(VTanh);
DECLARE_REFER_KERNEL(VSquare);
DECLARE_REFER_KERNEL(VCopy);
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// lstm_t*, const lstm_attr_t*
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DECLARE_REFER_KERNEL(LSTMCtHt);
DECLARE_REFER_KERNEL(LSTMC1H1);
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// gru_t*, const gru_attr_t*
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DECLARE_REFER_KERNEL(GRUH1);
DECLARE_REFER_KERNEL(GRUHtPart1);
DECLARE_REFER_KERNEL(GRUHtPart2);

DECLARE_REFER_KERNEL(HMax);
DECLARE_REFER_KERNEL(HSum);

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DECLARE_REFER_KERNEL(StrideASum);
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// others
DECLARE_REFER_KERNEL(CRFDecoding);
DECLARE_REFER_KERNEL(LayerNorm);
DECLARE_REFER_KERNEL(NCHW16CMulNC);
DECLARE_REFER_KERNEL(SeqPool);
DECLARE_REFER_KERNEL(MatMul);
DECLARE_REFER_KERNEL(Softmax);
DECLARE_REFER_KERNEL(EmbSeqPool);
DECLARE_REFER_KERNEL(Sgd);
DECLARE_REFER_KERNEL(VBroadcast);
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#undef DECLARE_REFER_KERNEL
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}  // namespace refer
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}  // namespace jit
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}  // namespace operators
}  // namespace paddle