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// Copyright (c) 2024 PaddlePaddle Authors. All Rights Reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include "paddle/phi/kernels/gpu/gru_kernel.h"
#include "paddle/phi/core/kernel_registry.h"
#include "paddle/phi/kernels/impl/gru_kernel_impl.h"
namespace phi {
template <typename T, typename Context>
void GRUKernel(const Context &dev_ctx,
const DenseTensor &input,
const optional<DenseTensor> &h0,
const DenseTensor &weight,
const optional<DenseTensor> &bias,
const std::string &activation,
const std::string &gate_activation,
bool is_reverse,
bool origin_mode,
bool is_test,
DenseTensor *param_batch_gate,
DenseTensor *param_batch_reset_hidden_prev,
DenseTensor *param_batch_hidden,
DenseTensor *hidden) {
const T *weight_data = weight.data<T>();
dev_ctx.template Alloc<T>(hidden);
auto input_dims = input.dims();
auto hidden_dims = hidden->dims();
DenseTensor *batch_gate;
DenseTensor *batch_reset_hidden_prev;
DenseTensor *batch_hidden;
DenseTensor batch_gate_tmp, batch_reset_hidden_prev_tmp, batch_hidden_tmp;
if (is_test) {
batch_gate = &batch_gate_tmp;
batch_gate->Resize(input_dims);
batch_reset_hidden_prev = &batch_reset_hidden_prev_tmp;
batch_reset_hidden_prev->Resize(hidden_dims);
batch_hidden = &batch_hidden_tmp;
batch_hidden->Resize(hidden_dims);
} else {
batch_gate = param_batch_gate;
batch_hidden = param_batch_hidden;
batch_reset_hidden_prev = param_batch_reset_hidden_prev;
}
dev_ctx.template Alloc<T>(batch_gate);
dev_ctx.template Alloc<T>(batch_reset_hidden_prev);
dev_ctx.template Alloc<T>(batch_hidden);
funcs::DenseTensor2BatchFunctor<Context, T> to_batch;
to_batch(dev_ctx, input, batch_gate, true, is_reverse);
if (bias) {
funcs::RowwiseAdd<Context, T> add_bias;
add_bias(dev_ctx, *batch_gate, *bias, batch_gate);
}
int frame_size = hidden_dims[1];
funcs::GRUMetaValue<T> gru_value;
gru_value.gate_weight = const_cast<T *>(weight_data);
gru_value.state_weight =
const_cast<T *>(weight_data + 2 * frame_size * frame_size);
DenseTensor ordered_h0;
Vector<size_t> order(batch_gate->lod()[2]);
if (h0) {
// Since the batch computing for GRU reorders the input sequences
// according to their length. The initialized cell state also needs
// to reorder.
ReorderInitState<Context, T>(dev_ctx, *h0, order, &ordered_h0, true);
gru_value.prev_out_value = ordered_h0.data<T>();
} else {
gru_value.prev_out_value = nullptr;
}
auto batch_starts = batch_gate->lod()[0];
size_t num_batch = batch_starts.size() - 1;
auto active_node = funcs::detail::GetActivationType(activation);
auto active_gate = funcs::detail::GetActivationType(gate_activation);
for (size_t n = 0; n < num_batch; n++) {
int bstart = static_cast<int>(batch_starts[n]);
int bend = static_cast<int>(batch_starts[n + 1]);
int cur_batch_size = bend - bstart;
DenseTensor gate_t = batch_gate->Slice(bstart, bend);
DenseTensor reset_hidden_prev_t =
batch_reset_hidden_prev->Slice(bstart, bend);
DenseTensor hidden_t = batch_hidden->Slice(bstart, bend);
gru_value.output_value = hidden_t.data<T>();
gru_value.gate_value = gate_t.data<T>();
gru_value.reset_output_value = reset_hidden_prev_t.data<T>();
funcs::GRUUnitFunctor<Context, T>::compute(dev_ctx, // NOLINT
gru_value,
frame_size,
cur_batch_size,
active_node,
active_gate,
origin_mode);
gru_value.prev_out_value = gru_value.output_value;
}
funcs::Batch2DenseTensorFunctor<Context, T> to_seq;
batch_hidden->set_lod(batch_gate->lod());
to_seq(dev_ctx, *batch_hidden, hidden);
}
} // namespace phi
PD_REGISTER_KERNEL(gru, GPU, ALL_LAYOUT, phi::GRUKernel, float, double) {}