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/*
Copyright 2016 Fixstars Corporation
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 <cstdio>
#include "census_transform.hpp"
namespace sgm {
namespace {
static constexpr int BLOCK_SIZE = 128;
static constexpr int LINES_PER_BLOCK = 16;
template <typename T, int WINDOW_WIDTH, int WINDOW_HEIGHT>
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feature_type *dest,
const T *src,
int width,
int height,
int pitch)
{
using pixel_type = T;
static const int SMEM_BUFFER_SIZE = WINDOW_HEIGHT + 1;
const int half_kw = WINDOW_WIDTH / 2;
const int half_kh = WINDOW_HEIGHT / 2;
__shared__ pixel_type smem_lines[SMEM_BUFFER_SIZE][BLOCK_SIZE];
const int tid = threadIdx.x;
const int x0 = blockIdx.x * (BLOCK_SIZE - WINDOW_WIDTH + 1) - half_kw;
const int y0 = blockIdx.y * LINES_PER_BLOCK;
for(int i = 0; i < WINDOW_HEIGHT; ++i){
const int x = x0 + tid, y = y0 - half_kh + i;
pixel_type value = 0;
if(0 <= x && x < width && 0 <= y && y < height){
value = src[x + y * pitch];
}
smem_lines[i][tid] = value;
}
__syncthreads();
#pragma unroll
for(int i = 0; i < LINES_PER_BLOCK; ++i){
if(i + 1 < LINES_PER_BLOCK){
// Load to smem
const int x = x0 + tid, y = y0 + half_kh + i + 1;
pixel_type value = 0;
if(0 <= x && x < width && 0 <= y && y < height){
value = src[x + y * pitch];
}
const int smem_x = tid;
const int smem_y = (WINDOW_HEIGHT + i) % SMEM_BUFFER_SIZE;
smem_lines[smem_y][smem_x] = value;
}
if(half_kw <= tid && tid < BLOCK_SIZE - half_kw){
// Compute and store
const int x = x0 + tid, y = y0 + i;
if(half_kw <= x && x < width - half_kw && half_kh <= y && y < height - half_kh){
const int smem_x = tid;
const int smem_y = (half_kh + i) % SMEM_BUFFER_SIZE;
feature_type f = 0;
for(int dy = -half_kh; dy < 0; ++dy){
const int smem_y1 = (smem_y + dy + SMEM_BUFFER_SIZE) % SMEM_BUFFER_SIZE;
const int smem_y2 = (smem_y - dy + SMEM_BUFFER_SIZE) % SMEM_BUFFER_SIZE;
for(int dx = -half_kw; dx <= half_kw; ++dx){
const int smem_x1 = smem_x + dx;
const int smem_x2 = smem_x - dx;
const auto a = smem_lines[smem_y1][smem_x1];
const auto b = smem_lines[smem_y2][smem_x2];
f = (f << 1) | (a > b);
}
}
for(int dx = -half_kw; dx < 0; ++dx){
const int smem_x1 = smem_x + dx;
const int smem_x2 = smem_x - dx;
const auto a = smem_lines[smem_y][smem_x1];
const auto b = smem_lines[smem_y][smem_x2];
f = (f << 1) | (a > b);
}
dest[x + y * width] = f;
}
}
__syncthreads();
}
}
template <typename T, int WINDOW_WIDTH, int WINDOW_HEIGHT>
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__global__ void census_transform_kernel(
feature_type* __restrict__ dest,
const T* __restrict__ src,
int width,
int height,
int pitch)
{
static constexpr int RADIUS_X = WINDOW_WIDTH/2;
static constexpr int RADIUS_Y = WINDOW_HEIGHT/2;
const int x = (blockIdx.x*blockDim.x + threadIdx.x);
const int y = blockIdx.y*blockDim.y + threadIdx.y;
feature_type res = 0;
if (x >= RADIUS_X && y >= RADIUS_Y && x < width-RADIUS_X && y < height-RADIUS_Y) {
const T center = src[y*pitch+x];
#pragma unroll
for (int wy = -RADIUS_Y; wy <= RADIUS_Y; ++wy) {
const int i = (y + wy) * pitch + x;
#pragma unroll
for (int wx = -RADIUS_X; wx <= RADIUS_X; ++wx) {
res = (res << 1) | (center < (src[i+wx]) ? 1 : 0);
}
}
}
// FIXME: Should use feature pitch, not width.
if (x < width && y < height) dest[x+y*width] = res;
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template <typename T>
__global__ void circle_ct_3_kernel(
feature_type* __restrict__ dest,
const T* __restrict__ src,
int width,
int height,
int pitch)
{
static constexpr int RADIUS_X = 3;
static constexpr int RADIUS_Y = 3;
const int x = (blockIdx.x*blockDim.x + threadIdx.x);
const int y = blockIdx.y*blockDim.y + threadIdx.y;
feature_type res = 0;
if (x >= RADIUS_X && y >= RADIUS_Y && x < width-RADIUS_X && y < height-RADIUS_Y) {
const T center = src[y*pitch+x];
int yix = y*pitch+x;
res = (res << 1) | (center < (src[yix-3]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+3]) ? 1 : 0);
yix = (y-1)*pitch+x;
res = (res << 1) | (center < (src[yix-2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+2]) ? 1 : 0);
yix = (y-2)*pitch+x;
res = (res << 1) | (center < (src[yix-2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+2]) ? 1 : 0);
yix = (y-3)*pitch+x;
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
yix = (y+1)*pitch+x;
res = (res << 1) | (center < (src[yix-2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+2]) ? 1 : 0);
yix = (y+2)*pitch+x;
res = (res << 1) | (center < (src[yix-2]) ? 1 : 0);
res = (res << 1) | (center < (src[yix-1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+1]) ? 1 : 0);
res = (res << 1) | (center < (src[yix+2]) ? 1 : 0);
yix = (y+3)*pitch+x;
res = (res << 1) | (center < (src[yix]) ? 1 : 0);
}
// FIXME: Should use feature pitch, not width.
if (x < width && y < height) dest[x+y*width] = res;
}
template <typename T>
void enqueue_census_transform(
feature_type *dest,
const T *src,
int width,
int height,
int pitch,
/* Disable the original center symmetric algorithm */
if (ct_shape == sgm::CensusShape::CS_CT_9X7) {
const int width_per_block = BLOCK_SIZE - 9 + 1;
const int height_per_block = LINES_PER_BLOCK;
const dim3 gdim(
(width + width_per_block - 1) / width_per_block,
(height + height_per_block - 1) / height_per_block);
const dim3 bdim(BLOCK_SIZE);
cs_census_transform_kernel<T, 9, 7><<<gdim, bdim, 0, stream>>>(dest, src, width, height, pitch);
} else if (ct_shape == sgm::CensusShape::CT_5X5) {
static constexpr int THREADS_X = 16;
static constexpr int THREADS_Y = 16;
const dim3 gdim((width + THREADS_X - 1)/THREADS_X, (height + THREADS_Y - 1)/THREADS_Y);
const dim3 bdim(THREADS_X, THREADS_Y);
census_transform_kernel<T, 5, 5><<<gdim, bdim, 0, stream>>>(dest, src, width, height, pitch);
} else if (ct_shape == sgm::CensusShape::CIRCLE_3) {
static constexpr int THREADS_X = 16;
static constexpr int THREADS_Y = 16;
const dim3 gdim((width + THREADS_X - 1)/THREADS_X, (height + THREADS_Y - 1)/THREADS_Y);
const dim3 bdim(THREADS_X, THREADS_Y);
circle_ct_3_kernel<<<gdim, bdim, 0, stream>>>(dest, src, width, height, pitch);
}
}
template <typename T>
CensusTransform<T>::CensusTransform()
: m_feature_buffer()
{ }
template <typename T>
void CensusTransform<T>::enqueue(
const input_type *src,
int width,
int height,
int pitch,
cudaStream_t stream)
{
if(m_feature_buffer.size() < static_cast<size_t>(width * height)){
m_feature_buffer = DeviceBuffer<feature_type>(width * height);
}
enqueue_census_transform(
m_feature_buffer.data(), src, width, height, pitch, ct_shape, stream);
}
template class CensusTransform<uint8_t>;
template class CensusTransform<uint16_t>;
}