158 lines
5.2 KiB
C++
158 lines
5.2 KiB
C++
// Copyright (c) 2022 PaddlePaddle Authors. All Rights Reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#include "paddle/phi/kernels/overlap_add_kernel.h"
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#include "paddle/phi/backends/cpu/cpu_context.h"
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#include "paddle/phi/core/kernel_registry.h"
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#include "paddle/phi/kernels/funcs/overlap_add_functor.h"
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namespace phi {
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template <typename T, typename Context>
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void OverlapAddKernel(const Context& dev_ctx,
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const DenseTensor& x,
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int hop_length,
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int axis,
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DenseTensor* out) {
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dev_ctx.template Alloc<T>(out);
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const int x_rank = x.dims().size();
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const size_t out_rank = out->dims().size();
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const int n_frames =
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static_cast<int>((axis == 0) ? x.dims()[0] : x.dims()[x_rank - 1]);
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const int frame_length =
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static_cast<int>((axis == 0) ? x.dims()[1] : x.dims()[x_rank - 2]);
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const int seq_length = static_cast<int>(
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(axis == 0) ? out->dims()[0]
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: out->dims()[static_cast<int>(out_rank) - 1]);
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// auto& dev_ctx = dev_ctx.device_context<Context>();
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DenseTensor x_(x.type());
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x_ = x;
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DDim preserved_dims;
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if (out_rank > 2) {
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// Save dims used to flatten both input and output tensors and restore
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// output tensor.
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DDim x_resized_dims;
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DDim out_resized_dims;
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if (axis == 0) {
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preserved_dims = slice_ddim(out->dims(), 1, static_cast<int>(out_rank));
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x_resized_dims = {
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n_frames, frame_length, common::product(preserved_dims)};
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out_resized_dims = {seq_length, common::product(preserved_dims)};
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} else {
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preserved_dims =
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slice_ddim(out->dims(), 0, static_cast<int>(out_rank) - 1);
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x_resized_dims = {
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common::product(preserved_dims), frame_length, n_frames};
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out_resized_dims = {common::product(preserved_dims), seq_length};
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}
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x_.Resize(x_resized_dims);
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out->Resize(out_resized_dims);
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}
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DenseTensor trans_x(x_.type());
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DenseTensor trans_out(out->type());
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// Transpose input and output in case that axis is 0.
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if (axis == 0) {
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if (out_rank == 1U) {
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trans_out = *out;
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std::vector<int> perm_x{1, 0};
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auto x_dims_vec = vectorize(x_.dims());
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for (int i = 0; i < x_.dims().size(); ++i) {
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x_dims_vec[i] = x_.dims()[perm_x[i]];
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}
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trans_x.Resize(x_dims_vec);
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dev_ctx.template Alloc<T>(&trans_x);
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funcs::TransCompute<Context, T>(
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perm_x.size(), dev_ctx, x_, &trans_x, perm_x);
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} else {
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std::vector<int> perm_out{1, 0};
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auto out_dims_vec = vectorize(out->dims());
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for (int i = 0; i < out->dims().size(); ++i) {
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out_dims_vec[i] = out->dims()[perm_out[i]];
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}
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trans_out.Resize(out_dims_vec);
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dev_ctx.template Alloc<T>(&trans_out);
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funcs::TransCompute<Context, T>(
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perm_out.size(), dev_ctx, *out, &trans_out, perm_out);
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std::vector<int> perm_x{2, 1, 0};
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auto x_dims_vec = vectorize(x_.dims());
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for (int i = 0; i < x_.dims().size(); ++i) {
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x_dims_vec[i] = x_.dims()[perm_x[i]];
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}
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trans_x.Resize(x_dims_vec);
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dev_ctx.template Alloc<T>(&trans_x);
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funcs::TransCompute<Context, T>(
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perm_x.size(), dev_ctx, x_, &trans_x, perm_x);
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}
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} else {
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trans_x = x_;
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trans_out = *out;
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}
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OverlapAddFunctor<Context, T>()(dev_ctx,
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&trans_x,
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&trans_out,
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seq_length,
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frame_length,
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n_frames,
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hop_length,
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/*is_grad*/ false);
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// Transpose output in case axis is 0.
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if (axis == 0 && out_rank > 1U) {
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std::vector<int> perm_out{1, 0};
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funcs::TransCompute<Context, T>(
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perm_out.size(), dev_ctx, trans_out, out, perm_out);
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}
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// Restore output dims when the number of dims is larger than 2.
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if (out_rank > 2) {
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std::vector<int64_t> restored_out_shape;
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restored_out_shape.reserve(preserved_dims.size());
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for (int i = 0; i < preserved_dims.size(); i++) {
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restored_out_shape.push_back(preserved_dims[i]);
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}
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if (axis == 0) {
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// (seq_length, ...)
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restored_out_shape.insert(restored_out_shape.begin(), seq_length);
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} else {
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// (..., seq_length)
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restored_out_shape.push_back(seq_length);
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}
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out->Resize(restored_out_shape);
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}
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}
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} // namespace phi
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PD_REGISTER_KERNEL(overlap_add,
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CPU,
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ALL_LAYOUT,
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phi::OverlapAddKernel,
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int,
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int64_t,
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float,
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double,
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phi::complex64,
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phi::complex128) {}
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