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test1 / detectron2 /layers /csrc /nms_rotated /nms_rotated_cuda.cu
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// Copyright (c) Facebook, Inc. and its affiliates.
#include <ATen/ATen.h>
#include <ATen/cuda/CUDAContext.h>
#include <c10/cuda/CUDAGuard.h>
#include <ATen/cuda/CUDAApplyUtils.cuh>
#ifdef WITH_CUDA
#include "../box_iou_rotated/box_iou_rotated_utils.h"
#endif
// TODO avoid this when pytorch supports "same directory" hipification
#ifdef WITH_HIP
#include "box_iou_rotated/box_iou_rotated_utils.h"
#endif
using namespace detectron2;
namespace {
int const threadsPerBlock = sizeof(unsigned long long) * 8;
}
template <typename T>
__global__ void nms_rotated_cuda_kernel(
const int n_boxes,
const double iou_threshold,
const T* dev_boxes,
unsigned long long* dev_mask) {
// nms_rotated_cuda_kernel is modified from torchvision's nms_cuda_kernel
const int row_start = blockIdx.y;
const int col_start = blockIdx.x;
// if (row_start > col_start) return;
const int row_size =
min(n_boxes - row_start * threadsPerBlock, threadsPerBlock);
const int col_size =
min(n_boxes - col_start * threadsPerBlock, threadsPerBlock);
// Compared to nms_cuda_kernel, where each box is represented with 4 values
// (x1, y1, x2, y2), each rotated box is represented with 5 values
// (x_center, y_center, width, height, angle_degrees) here.
__shared__ T block_boxes[threadsPerBlock * 5];
if (threadIdx.x < col_size) {
block_boxes[threadIdx.x * 5 + 0] =
dev_boxes[(threadsPerBlock * col_start + threadIdx.x) * 5 + 0];
block_boxes[threadIdx.x * 5 + 1] =
dev_boxes[(threadsPerBlock * col_start + threadIdx.x) * 5 + 1];
block_boxes[threadIdx.x * 5 + 2] =
dev_boxes[(threadsPerBlock * col_start + threadIdx.x) * 5 + 2];
block_boxes[threadIdx.x * 5 + 3] =
dev_boxes[(threadsPerBlock * col_start + threadIdx.x) * 5 + 3];
block_boxes[threadIdx.x * 5 + 4] =
dev_boxes[(threadsPerBlock * col_start + threadIdx.x) * 5 + 4];
}
__syncthreads();
if (threadIdx.x < row_size) {
const int cur_box_idx = threadsPerBlock * row_start + threadIdx.x;
const T* cur_box = dev_boxes + cur_box_idx * 5;
int i = 0;
unsigned long long t = 0;
int start = 0;
if (row_start == col_start) {
start = threadIdx.x + 1;
}
for (i = start; i < col_size; i++) {
// Instead of devIoU used by original horizontal nms, here
// we use the single_box_iou_rotated function from box_iou_rotated_utils.h
if (single_box_iou_rotated<T>(cur_box, block_boxes + i * 5) >
iou_threshold) {
t |= 1ULL << i;
}
}
const int col_blocks = at::cuda::ATenCeilDiv(n_boxes, threadsPerBlock);
dev_mask[cur_box_idx * col_blocks + col_start] = t;
}
}
namespace detectron2 {
at::Tensor nms_rotated_cuda(
// input must be contiguous
const at::Tensor& dets,
const at::Tensor& scores,
double iou_threshold) {
// using scalar_t = float;
AT_ASSERTM(dets.is_cuda(), "dets must be a CUDA tensor");
AT_ASSERTM(scores.is_cuda(), "scores must be a CUDA tensor");
at::cuda::CUDAGuard device_guard(dets.device());
auto order_t = std::get<1>(scores.sort(0, /* descending=*/true));
auto dets_sorted = dets.index_select(0, order_t);
auto dets_num = dets.size(0);
const int col_blocks =
at::cuda::ATenCeilDiv(static_cast<int>(dets_num), threadsPerBlock);
at::Tensor mask =
at::empty({dets_num * col_blocks}, dets.options().dtype(at::kLong));
dim3 blocks(col_blocks, col_blocks);
dim3 threads(threadsPerBlock);
cudaStream_t stream = at::cuda::getCurrentCUDAStream();
AT_DISPATCH_FLOATING_TYPES(
dets_sorted.scalar_type(), "nms_rotated_kernel_cuda", [&] {
nms_rotated_cuda_kernel<scalar_t><<<blocks, threads, 0, stream>>>(
dets_num,
iou_threshold,
dets_sorted.data_ptr<scalar_t>(),
(unsigned long long*)mask.data_ptr<int64_t>());
});
at::Tensor mask_cpu = mask.to(at::kCPU);
unsigned long long* mask_host =
(unsigned long long*)mask_cpu.data_ptr<int64_t>();
std::vector<unsigned long long> remv(col_blocks);
memset(&remv[0], 0, sizeof(unsigned long long) * col_blocks);
at::Tensor keep =
at::empty({dets_num}, dets.options().dtype(at::kLong).device(at::kCPU));
int64_t* keep_out = keep.data_ptr<int64_t>();
int num_to_keep = 0;
for (int i = 0; i < dets_num; i++) {
int nblock = i / threadsPerBlock;
int inblock = i % threadsPerBlock;
if (!(remv[nblock] & (1ULL << inblock))) {
keep_out[num_to_keep++] = i;
unsigned long long* p = mask_host + i * col_blocks;
for (int j = nblock; j < col_blocks; j++) {
remv[j] |= p[j];
}
}
}
AT_CUDA_CHECK(cudaGetLastError());
return order_t.index(
{keep.narrow(/*dim=*/0, /*start=*/0, /*length=*/num_to_keep)
.to(order_t.device(), keep.scalar_type())});
}
} // namespace detectron2