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shuffle_channel_layer.cpp
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shuffle_channel_layer.cpp
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#include <algorithm>
#include <vector>
#include "caffe/layers/shuffle_channel_layer.hpp"
namespace caffe {
template <typename Dtype>
void ShuffleChannelLayer<Dtype>::LayerSetUp(const vector<Blob<Dtype> *> &bottom, const vector<Blob<Dtype> *> &top)
{
group_ = this->layer_param_.shuffle_channel_param().group();
CHECK_GT(group_, 0) << "group must be greater than 0";
//temp_blob_.ReshapeLike(*bottom[0]);
top[0]->ReshapeLike(*bottom[0]);
}
template <typename Dtype>
void ShuffleChannelLayer<Dtype>::Resize_cpu(Dtype *output, const Dtype *input, int group_row, int group_column, int len)
{
for (int i = 0; i < group_row; ++i) // 2
{
for(int j = 0; j < group_column ; ++j) // 3
{
const Dtype* p_i = input + (i * group_column + j ) * len;
Dtype* p_o = output + (j * group_row + i ) * len;
caffe_copy(len, p_i, p_o);
}
}
}
template <typename Dtype>
void ShuffleChannelLayer<Dtype>::Reshape(const vector<Blob<Dtype> *> &bottom, const vector<Blob<Dtype> *> &top)
{
int channels_ = bottom[0]->channels();
int height_ = bottom[0]->height();
int width_ = bottom[0]->width();
top[0]->Reshape(bottom[0]->num(), channels_, height_, width_);
}
template <typename Dtype>
void ShuffleChannelLayer<Dtype>::Forward_cpu(const vector<Blob<Dtype>*>& bottom,
const vector<Blob<Dtype>*>& top) {
const Dtype* bottom_data = bottom[0]->cpu_data();
Dtype* top_data = top[0]->mutable_cpu_data();
const int num = bottom[0]->shape(0);
const int feature_map_size = bottom[0]->count(1);
const int sp_sz = bottom[0]->count(2);
const int chs = bottom[0]->shape(1);
int group_row = group_;
int group_column = int(chs / group_row);
CHECK_EQ(chs, (group_column * group_row)) << "Wrong group size.";
//Dtype* temp_data = temp_blob_.mutable_cpu_data();
for(int n = 0; n < num; ++n)
{
Resize_cpu(top_data + n*feature_map_size, bottom_data + n*feature_map_size, group_row, group_column, sp_sz);
}
//caffe_copy(bottom[0]->count(), temp_blob_.cpu_data(), top_data);
}
template <typename Dtype>
void ShuffleChannelLayer<Dtype>::Backward_cpu(const vector<Blob<Dtype>*>& top,
const vector<bool>& propagate_down,
const vector<Blob<Dtype>*>& bottom) {
if (propagate_down[0]) {
const Dtype* top_diff = top[0]->cpu_diff();
Dtype* bottom_diff = bottom[0]->mutable_cpu_diff();
const int num = bottom[0]->shape(0);
const int feature_map_size = bottom[0]->count(1);
const int sp_sz = bottom[0]->count(2);
const int chs = bottom[0]->shape(1);
int group_row = int(chs / group_);
int group_column = group_;
//Dtype* temp_diff = temp_blob_.mutable_cpu_diff();
for(int n = 0; n < num; ++n)
{
Resize_cpu(bottom_diff + n * feature_map_size, top_diff + n*feature_map_size, group_row, group_column, sp_sz);
}
//caffe_copy(top[0]->count(), temp_blob_.cpu_diff(), bottom_diff);
}
}
#ifdef CPU_ONLY
STUB_GPU(ShuffleChannelLayer);
#endif
INSTANTIATE_CLASS(ShuffleChannelLayer);
REGISTER_LAYER_CLASS(ShuffleChannel);
} // namespace caffe