opencv/samples/gpu/performance/tests.cpp

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#include <stdexcept>
#include "opencv2/imgproc/imgproc.hpp"
#include "opencv2/highgui/highgui.hpp"
#include "opencv2/calib3d/calib3d.hpp"
#include "opencv2/video/video.hpp"
#include "opencv2/gpu/gpu.hpp"
#include "opencv2/nonfree/nonfree.hpp"
#include "performance.h"
using namespace std;
using namespace cv;
void InitMatchTemplate()
{
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Mat src; gen(src, 500, 500, CV_32F, 0, 1);
Mat templ; gen(templ, 500, 500, CV_32F, 0, 1);
gpu::GpuMat d_src(src), d_templ(templ), d_dst;
gpu::matchTemplate(d_src, d_templ, d_dst, CV_TM_CCORR);
}
TEST(matchTemplate)
{
InitMatchTemplate();
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Mat src, templ, dst;
gen(src, 3000, 3000, CV_32F, 0, 1);
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gpu::GpuMat d_src(src), d_templ, d_dst;
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for (int templ_size = 5; templ_size < 200; templ_size *= 5)
{
SUBTEST << src.cols << 'x' << src.rows << ", 32FC1" << ", templ " << templ_size << 'x' << templ_size << ", CCORR";
gen(templ, templ_size, templ_size, CV_32F, 0, 1);
matchTemplate(src, templ, dst, CV_TM_CCORR);
CPU_ON;
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matchTemplate(src, templ, dst, CV_TM_CCORR);
CPU_OFF;
d_templ.upload(templ);
gpu::matchTemplate(d_src, d_templ, d_dst, CV_TM_CCORR);
GPU_ON;
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gpu::matchTemplate(d_src, d_templ, d_dst, CV_TM_CCORR);
GPU_OFF;
}
}
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TEST(minMaxLoc)
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{
Mat src;
gpu::GpuMat d_src;
double min_val, max_val;
Point min_loc, max_loc;
for (int size = 2000; size <= 8000; size *= 2)
{
SUBTEST << size << 'x' << size << ", 32F";
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gen(src, size, size, CV_32F, 0, 1);
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CPU_ON;
minMaxLoc(src, &min_val, &max_val, &min_loc, &max_loc);
CPU_OFF;
d_src.upload(src);
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GPU_ON;
gpu::minMaxLoc(d_src, &min_val, &max_val, &min_loc, &max_loc);
GPU_OFF;
}
}
TEST(remap)
{
Mat src, dst, xmap, ymap;
gpu::GpuMat d_src, d_dst, d_xmap, d_ymap;
int interpolation = INTER_LINEAR;
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int borderMode = BORDER_REPLICATE;
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for (int size = 1000; size <= 4000; size *= 2)
{
SUBTEST << size << 'x' << size << ", 8UC4, INTER_LINEAR, BORDER_REPLICATE";
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gen(src, size, size, CV_8UC4, 0, 256);
xmap.create(size, size, CV_32F);
ymap.create(size, size, CV_32F);
for (int i = 0; i < size; ++i)
{
float* xmap_row = xmap.ptr<float>(i);
float* ymap_row = ymap.ptr<float>(i);
for (int j = 0; j < size; ++j)
{
xmap_row[j] = (j - size * 0.5f) * 0.75f + size * 0.5f;
ymap_row[j] = (i - size * 0.5f) * 0.75f + size * 0.5f;
}
}
remap(src, dst, xmap, ymap, interpolation, borderMode);
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CPU_ON;
remap(src, dst, xmap, ymap, interpolation, borderMode);
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CPU_OFF;
d_src.upload(src);
d_xmap.upload(xmap);
d_ymap.upload(ymap);
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gpu::remap(d_src, d_dst, d_xmap, d_ymap, interpolation, borderMode);
GPU_ON;
gpu::remap(d_src, d_dst, d_xmap, d_ymap, interpolation, borderMode);
GPU_OFF;
}
}
TEST(dft)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
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for (int size = 1000; size <= 4000; size *= 2)
{
SUBTEST << size << 'x' << size << ", 32FC2, complex-to-complex";
gen(src, size, size, CV_32FC2, Scalar::all(0), Scalar::all(1));
dft(src, dst);
CPU_ON;
dft(src, dst);
CPU_OFF;
d_src.upload(src);
gpu::dft(d_src, d_dst, Size(size, size));
GPU_ON;
gpu::dft(d_src, d_dst, Size(size, size));
GPU_OFF;
}
}
TEST(cornerHarris)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 1000; size <= 4000; size *= 2)
{
SUBTEST << size << 'x' << size << ", 32FC1, BORDER_REFLECT101";
gen(src, size, size, CV_32F, 0, 1);
cornerHarris(src, dst, 5, 7, 0.1, BORDER_REFLECT101);
CPU_ON;
cornerHarris(src, dst, 5, 7, 0.1, BORDER_REFLECT101);
CPU_OFF;
d_src.upload(src);
gpu::cornerHarris(d_src, d_dst, 5, 7, 0.1, BORDER_REFLECT101);
GPU_ON;
gpu::cornerHarris(d_src, d_dst, 5, 7, 0.1, BORDER_REFLECT101);
GPU_OFF;
}
}
TEST(integral)
{
Mat src, sum;
gpu::GpuMat d_src, d_sum, d_buf;
for (int size = 1000; size <= 4000; size *= 2)
{
SUBTEST << size << 'x' << size << ", 8UC1";
gen(src, size, size, CV_8U, 0, 256);
integral(src, sum);
CPU_ON;
integral(src, sum);
CPU_OFF;
d_src.upload(src);
gpu::integralBuffered(d_src, d_sum, d_buf);
GPU_ON;
gpu::integralBuffered(d_src, d_sum, d_buf);
GPU_OFF;
}
}
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TEST(norm)
{
Mat src;
gpu::GpuMat d_src, d_buf;
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for (int size = 2000; size <= 4000; size += 1000)
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{
SUBTEST << size << 'x' << size << ", 32FC4, NORM_INF";
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gen(src, size, size, CV_32FC4, Scalar::all(0), Scalar::all(1));
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norm(src, NORM_INF);
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CPU_ON;
norm(src, NORM_INF);
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CPU_OFF;
d_src.upload(src);
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gpu::norm(d_src, NORM_INF, d_buf);
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GPU_ON;
gpu::norm(d_src, NORM_INF, d_buf);
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GPU_OFF;
}
}
TEST(meanShift)
{
int sp = 10, sr = 10;
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 400; size <= 800; size *= 2)
{
SUBTEST << size << 'x' << size << ", 8UC3 vs 8UC4";
gen(src, size, size, CV_8UC3, Scalar::all(0), Scalar::all(256));
pyrMeanShiftFiltering(src, dst, sp, sr);
CPU_ON;
pyrMeanShiftFiltering(src, dst, sp, sr);
CPU_OFF;
gen(src, size, size, CV_8UC4, Scalar::all(0), Scalar::all(256));
d_src.upload(src);
gpu::meanShiftFiltering(d_src, d_dst, sp, sr);
GPU_ON;
gpu::meanShiftFiltering(d_src, d_dst, sp, sr);
GPU_OFF;
}
}
TEST(SURF)
{
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Mat src = imread(abspath("aloeL.jpg"), CV_LOAD_IMAGE_GRAYSCALE);
if (src.empty()) throw runtime_error("can't open aloeL.jpg");
SURF surf;
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vector<KeyPoint> keypoints;
vector<float> descriptors;
surf(src, Mat(), keypoints, descriptors);
CPU_ON;
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surf(src, Mat(), keypoints, descriptors);
CPU_OFF;
gpu::SURF_GPU d_surf;
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gpu::GpuMat d_src(src);
gpu::GpuMat d_keypoints;
gpu::GpuMat d_descriptors;
d_surf(d_src, gpu::GpuMat(), d_keypoints, d_descriptors);
GPU_ON;
d_surf(d_src, gpu::GpuMat(), d_keypoints, d_descriptors);
GPU_OFF;
}
TEST(FAST)
{
Mat src = imread(abspath("aloeL.jpg"), CV_LOAD_IMAGE_GRAYSCALE);
if (src.empty()) throw runtime_error("can't open aloeL.jpg");
vector<KeyPoint> keypoints;
FAST(src, keypoints, 20);
CPU_ON;
FAST(src, keypoints, 20);
CPU_OFF;
gpu::FAST_GPU d_FAST(20);
gpu::GpuMat d_src(src);
gpu::GpuMat d_keypoints;
d_FAST(d_src, gpu::GpuMat(), d_keypoints);
GPU_ON;
d_FAST(d_src, gpu::GpuMat(), d_keypoints);
GPU_OFF;
}
TEST(ORB)
{
Mat src = imread(abspath("aloeL.jpg"), CV_LOAD_IMAGE_GRAYSCALE);
if (src.empty()) throw runtime_error("can't open aloeL.jpg");
ORB orb(4000);
vector<KeyPoint> keypoints;
Mat descriptors;
orb(src, Mat(), keypoints, descriptors);
CPU_ON;
orb(src, Mat(), keypoints, descriptors);
CPU_OFF;
gpu::ORB_GPU d_orb;
gpu::GpuMat d_src(src);
gpu::GpuMat d_keypoints;
gpu::GpuMat d_descriptors;
d_orb(d_src, gpu::GpuMat(), d_keypoints, d_descriptors);
GPU_ON;
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d_orb(d_src, gpu::GpuMat(), d_keypoints, d_descriptors);
GPU_OFF;
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}
TEST(BruteForceMatcher)
{
// Init CPU matcher
int desc_len = 64;
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BFMatcher matcher(NORM_L2);
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Mat query;
gen(query, 3000, desc_len, CV_32F, 0, 1);
Mat train;
gen(train, 3000, desc_len, CV_32F, 0, 1);
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// Init GPU matcher
gpu::BruteForceMatcher_GPU< L2<float> > d_matcher;
gpu::GpuMat d_query(query);
gpu::GpuMat d_train(train);
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// Output
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vector< vector<DMatch> > matches(2);
gpu::GpuMat d_trainIdx, d_distance, d_allDist, d_nMatches;
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SUBTEST << "match";
matcher.match(query, train, matches[0]);
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CPU_ON;
matcher.match(query, train, matches[0]);
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CPU_OFF;
d_matcher.matchSingle(d_query, d_train, d_trainIdx, d_distance);
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GPU_ON;
d_matcher.matchSingle(d_query, d_train, d_trainIdx, d_distance);
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GPU_OFF;
SUBTEST << "knnMatch";
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matcher.knnMatch(query, train, matches, 2);
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CPU_ON;
matcher.knnMatch(query, train, matches, 2);
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CPU_OFF;
d_matcher.knnMatchSingle(d_query, d_train, d_trainIdx, d_distance, d_allDist, 2);
GPU_ON;
d_matcher.knnMatchSingle(d_query, d_train, d_trainIdx, d_distance, d_allDist, 2);
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GPU_OFF;
SUBTEST << "radiusMatch";
float max_distance = 2.0f;
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matcher.radiusMatch(query, train, matches, max_distance);
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CPU_ON;
matcher.radiusMatch(query, train, matches, max_distance);
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CPU_OFF;
d_trainIdx.release();
d_matcher.radiusMatchSingle(d_query, d_train, d_trainIdx, d_distance, d_nMatches, max_distance);
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GPU_ON;
d_matcher.radiusMatchSingle(d_query, d_train, d_trainIdx, d_distance, d_nMatches, max_distance);
GPU_OFF;
}
TEST(magnitude)
{
Mat x, y, mag;
gpu::GpuMat d_x, d_y, d_mag;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 32FC1";
gen(x, size, size, CV_32F, 0, 1);
gen(y, size, size, CV_32F, 0, 1);
magnitude(x, y, mag);
CPU_ON;
magnitude(x, y, mag);
CPU_OFF;
d_x.upload(x);
d_y.upload(y);
gpu::magnitude(d_x, d_y, d_mag);
GPU_ON;
gpu::magnitude(d_x, d_y, d_mag);
GPU_OFF;
}
}
TEST(add)
{
Mat src1, src2, dst;
gpu::GpuMat d_src1, d_src2, d_dst;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 32FC1";
gen(src1, size, size, CV_32F, 0, 1);
gen(src2, size, size, CV_32F, 0, 1);
add(src1, src2, dst);
CPU_ON;
add(src1, src2, dst);
CPU_OFF;
d_src1.upload(src1);
d_src2.upload(src2);
gpu::add(d_src1, d_src2, d_dst);
GPU_ON;
gpu::add(d_src1, d_src2, d_dst);
GPU_OFF;
}
}
TEST(log)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 32F";
gen(src, size, size, CV_32F, 1, 10);
log(src, dst);
CPU_ON;
log(src, dst);
CPU_OFF;
d_src.upload(src);
gpu::log(d_src, d_dst);
GPU_ON;
gpu::log(d_src, d_dst);
GPU_OFF;
}
}
TEST(mulSpectrums)
{
Mat src1, src2, dst;
gpu::GpuMat d_src1, d_src2, d_dst;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size;
gen(src1, size, size, CV_32FC2, Scalar::all(0), Scalar::all(1));
gen(src2, size, size, CV_32FC2, Scalar::all(0), Scalar::all(1));
mulSpectrums(src1, src2, dst, 0, true);
CPU_ON;
mulSpectrums(src1, src2, dst, 0, true);
CPU_OFF;
d_src1.upload(src1);
d_src2.upload(src2);
gpu::mulSpectrums(d_src1, d_src2, d_dst, 0, true);
GPU_ON;
gpu::mulSpectrums(d_src1, d_src2, d_dst, 0, true);
GPU_OFF;
}
}
TEST(resize)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 1000; size <= 3000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 8UC4, up";
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gen(src, size, size, CV_8UC4, 0, 256);
resize(src, dst, Size(), 2.0, 2.0);
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CPU_ON;
resize(src, dst, Size(), 2.0, 2.0);
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CPU_OFF;
d_src.upload(src);
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gpu::resize(d_src, d_dst, Size(), 2.0, 2.0);
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GPU_ON;
gpu::resize(d_src, d_dst, Size(), 2.0, 2.0);
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GPU_OFF;
}
for (int size = 1000; size <= 3000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 8UC4, down";
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gen(src, size, size, CV_8UC4, 0, 256);
resize(src, dst, Size(), 0.5, 0.5);
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CPU_ON;
resize(src, dst, Size(), 0.5, 0.5);
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CPU_OFF;
d_src.upload(src);
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gpu::resize(d_src, d_dst, Size(), 0.5, 0.5);
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GPU_ON;
gpu::resize(d_src, d_dst, Size(), 0.5, 0.5);
GPU_OFF;
}
}
TEST(cvtColor)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
gen(src, 4000, 4000, CV_8UC1, 0, 255);
d_src.upload(src);
SUBTEST << "4000x4000, 8UC1, CV_GRAY2BGRA";
cvtColor(src, dst, CV_GRAY2BGRA, 4);
CPU_ON;
cvtColor(src, dst, CV_GRAY2BGRA, 4);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_GRAY2BGRA, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_GRAY2BGRA, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC3 vs 8UC4, CV_BGR2YCrCb";
cvtColor(src, dst, CV_BGR2YCrCb);
CPU_ON;
cvtColor(src, dst, CV_BGR2YCrCb);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_BGR2YCrCb, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_BGR2YCrCb, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC4, CV_YCrCb2BGR";
cvtColor(src, dst, CV_YCrCb2BGR, 4);
CPU_ON;
cvtColor(src, dst, CV_YCrCb2BGR, 4);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_YCrCb2BGR, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_YCrCb2BGR, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC3 vs 8UC4, CV_BGR2XYZ";
cvtColor(src, dst, CV_BGR2XYZ);
CPU_ON;
cvtColor(src, dst, CV_BGR2XYZ);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_BGR2XYZ, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_BGR2XYZ, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC4, CV_XYZ2BGR";
cvtColor(src, dst, CV_XYZ2BGR, 4);
CPU_ON;
cvtColor(src, dst, CV_XYZ2BGR, 4);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_XYZ2BGR, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_XYZ2BGR, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC3 vs 8UC4, CV_BGR2HSV";
cvtColor(src, dst, CV_BGR2HSV);
CPU_ON;
cvtColor(src, dst, CV_BGR2HSV);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_BGR2HSV, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_BGR2HSV, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
SUBTEST << "4000x4000, 8UC4, CV_HSV2BGR";
cvtColor(src, dst, CV_HSV2BGR, 4);
CPU_ON;
cvtColor(src, dst, CV_HSV2BGR, 4);
CPU_OFF;
gpu::cvtColor(d_src, d_dst, CV_HSV2BGR, 4);
GPU_ON;
gpu::cvtColor(d_src, d_dst, CV_HSV2BGR, 4);
GPU_OFF;
cv::swap(src, dst);
d_src.swap(d_dst);
}
TEST(erode)
{
Mat src, dst, ker;
gpu::GpuMat d_src, d_buf, d_dst;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size;
gen(src, size, size, CV_8UC4, Scalar::all(0), Scalar::all(256));
ker = getStructuringElement(MORPH_RECT, Size(3, 3));
erode(src, dst, ker);
CPU_ON;
erode(src, dst, ker);
CPU_OFF;
d_src.upload(src);
gpu::erode(d_src, d_dst, ker, d_buf);
GPU_ON;
gpu::erode(d_src, d_dst, ker, d_buf);
GPU_OFF;
}
}
TEST(threshold)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 8UC1, THRESH_BINARY";
gen(src, size, size, CV_8U, 0, 100);
threshold(src, dst, 50.0, 0.0, THRESH_BINARY);
CPU_ON;
threshold(src, dst, 50.0, 0.0, THRESH_BINARY);
CPU_OFF;
d_src.upload(src);
gpu::threshold(d_src, d_dst, 50.0, 0.0, THRESH_BINARY);
GPU_ON;
gpu::threshold(d_src, d_dst, 50.0, 0.0, THRESH_BINARY);
GPU_OFF;
}
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for (int size = 2000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 32FC1, THRESH_TRUNC [NPP]";
gen(src, size, size, CV_32FC1, 0, 100);
threshold(src, dst, 50.0, 0.0, THRESH_TRUNC);
CPU_ON;
threshold(src, dst, 50.0, 0.0, THRESH_TRUNC);
CPU_OFF;
d_src.upload(src);
gpu::threshold(d_src, d_dst, 50.0, 0.0, THRESH_TRUNC);
GPU_ON;
gpu::threshold(d_src, d_dst, 50.0, 0.0, THRESH_TRUNC);
GPU_OFF;
}
}
TEST(pow)
{
Mat src, dst;
gpu::GpuMat d_src, d_dst;
for (int size = 1000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 32F";
gen(src, size, size, CV_32F, 0, 100);
pow(src, -2.0, dst);
CPU_ON;
pow(src, -2.0, dst);
CPU_OFF;
d_src.upload(src);
gpu::pow(d_src, -2.0, d_dst);
GPU_ON;
gpu::pow(d_src, -2.0, d_dst);
GPU_OFF;
}
}
TEST(projectPoints)
{
Mat src;
vector<Point2f> dst;
gpu::GpuMat d_src, d_dst;
Mat rvec; gen(rvec, 1, 3, CV_32F, 0, 1);
Mat tvec; gen(tvec, 1, 3, CV_32F, 0, 1);
Mat camera_mat; gen(camera_mat, 3, 3, CV_32F, 0, 1);
camera_mat.at<float>(0, 1) = 0.f;
camera_mat.at<float>(1, 0) = 0.f;
camera_mat.at<float>(2, 0) = 0.f;
camera_mat.at<float>(2, 1) = 0.f;
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for (int size = (int)1e6, count = 0; size >= 1e5 && count < 5; size = int(size / 1.4), count++)
{
SUBTEST << size;
gen(src, 1, size, CV_32FC3, Scalar::all(0), Scalar::all(10));
projectPoints(src, rvec, tvec, camera_mat, Mat::zeros(1, 8, CV_32F), dst);
CPU_ON;
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projectPoints(src, rvec, tvec, camera_mat, Mat::zeros(1, 8, CV_32F), dst);
CPU_OFF;
d_src.upload(src);
gpu::projectPoints(d_src, rvec, tvec, camera_mat, Mat(), d_dst);
GPU_ON;
gpu::projectPoints(d_src, rvec, tvec, camera_mat, Mat(), d_dst);
GPU_OFF;
}
}
void InitSolvePnpRansac()
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{
Mat object; gen(object, 1, 4, CV_32FC3, Scalar::all(0), Scalar::all(100));
Mat image; gen(image, 1, 4, CV_32FC2, Scalar::all(0), Scalar::all(100));
Mat rvec, tvec;
gpu::solvePnPRansac(object, image, Mat::eye(3, 3, CV_32F), Mat(), rvec, tvec);
}
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TEST(solvePnPRansac)
{
InitSolvePnpRansac();
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for (int num_points = 5000; num_points <= 300000; num_points = int(num_points * 3.76))
{
SUBTEST << num_points;
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Mat object; gen(object, 1, num_points, CV_32FC3, Scalar::all(10), Scalar::all(100));
Mat image; gen(image, 1, num_points, CV_32FC2, Scalar::all(10), Scalar::all(100));
Mat camera_mat; gen(camera_mat, 3, 3, CV_32F, 0.5, 1);
camera_mat.at<float>(0, 1) = 0.f;
camera_mat.at<float>(1, 0) = 0.f;
camera_mat.at<float>(2, 0) = 0.f;
camera_mat.at<float>(2, 1) = 0.f;
Mat rvec, tvec;
const int num_iters = 200;
const float max_dist = 2.0f;
vector<int> inliers_cpu, inliers_gpu;
CPU_ON;
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solvePnPRansac(object, image, camera_mat, Mat::zeros(1, 8, CV_32F), rvec, tvec, false, num_iters,
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max_dist, int(num_points * 0.05), inliers_cpu);
CPU_OFF;
GPU_ON;
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gpu::solvePnPRansac(object, image, camera_mat, Mat::zeros(1, 8, CV_32F), rvec, tvec, false, num_iters,
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max_dist, int(num_points * 0.05), &inliers_gpu);
GPU_OFF;
}
}
TEST(GaussianBlur)
{
for (int size = 1000; size <= 4000; size += 1000)
{
SUBTEST << size << 'x' << size << ", 8UC4";
Mat src, dst;
gen(src, size, size, CV_8UC4, 0, 256);
GaussianBlur(src, dst, Size(3, 3), 1);
CPU_ON;
GaussianBlur(src, dst, Size(3, 3), 1);
CPU_OFF;
gpu::GpuMat d_src(src);
gpu::GpuMat d_dst(src.size(), src.type());
gpu::GpuMat d_buf;
gpu::GaussianBlur(d_src, d_dst, Size(3, 3), d_buf, 1);
GPU_ON;
gpu::GaussianBlur(d_src, d_dst, Size(3, 3), d_buf, 1);
GPU_OFF;
}
}
TEST(pyrDown)
{
for (int size = 4000; size >= 1000; size -= 1000)
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{
SUBTEST << size << 'x' << size << ", 8UC4";
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Mat src, dst;
gen(src, size, size, CV_8UC4, 0, 256);
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pyrDown(src, dst);
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CPU_ON;
pyrDown(src, dst);
CPU_OFF;
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gpu::GpuMat d_src(src);
gpu::GpuMat d_dst;
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gpu::pyrDown(d_src, d_dst);
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GPU_ON;
gpu::pyrDown(d_src, d_dst);
GPU_OFF;
}
}
TEST(pyrUp)
{
for (int size = 2000; size >= 1000; size -= 1000)
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{
SUBTEST << size << 'x' << size << ", 8UC4";
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Mat src, dst;
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gen(src, size, size, CV_8UC4, 0, 256);
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pyrUp(src, dst);
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CPU_ON;
pyrUp(src, dst);
CPU_OFF;
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gpu::GpuMat d_src(src);
gpu::GpuMat d_dst;
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gpu::pyrUp(d_src, d_dst);
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GPU_ON;
gpu::pyrUp(d_src, d_dst);
GPU_OFF;
}
}
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TEST(equalizeHist)
{
for (int size = 1000; size < 4000; size += 1000)
{
SUBTEST << size << 'x' << size;
Mat src, dst;
gen(src, size, size, CV_8UC1, 0, 256);
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equalizeHist(src, dst);
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CPU_ON;
equalizeHist(src, dst);
CPU_OFF;
gpu::GpuMat d_src(src);
gpu::GpuMat d_dst;
gpu::GpuMat d_hist;
gpu::GpuMat d_buf;
gpu::equalizeHist(d_src, d_dst, d_hist, d_buf);
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GPU_ON;
gpu::equalizeHist(d_src, d_dst, d_hist, d_buf);
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GPU_OFF;
}
}
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TEST(Canny)
{
Mat img = imread(abspath("aloeL.jpg"), CV_LOAD_IMAGE_GRAYSCALE);
if (img.empty()) throw runtime_error("can't open aloeL.jpg");
Mat edges(img.size(), CV_8UC1);
CPU_ON;
Canny(img, edges, 50.0, 100.0);
CPU_OFF;
gpu::GpuMat d_img(img);
gpu::GpuMat d_edges;
gpu::CannyBuf d_buf;
gpu::Canny(d_img, d_buf, d_edges, 50.0, 100.0);
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GPU_ON;
gpu::Canny(d_img, d_buf, d_edges, 50.0, 100.0);
GPU_OFF;
}
TEST(reduce)
{
for (int size = 1000; size < 4000; size += 1000)
{
Mat src;
gen(src, size, size, CV_32F, 0, 255);
Mat dst0;
Mat dst1;
gpu::GpuMat d_src(src);
gpu::GpuMat d_dst0;
gpu::GpuMat d_dst1;
SUBTEST << size << 'x' << size << ", dim = 0";
reduce(src, dst0, 0, CV_REDUCE_MIN);
CPU_ON;
reduce(src, dst0, 0, CV_REDUCE_MIN);
CPU_OFF;
gpu::reduce(d_src, d_dst0, 0, CV_REDUCE_MIN);
GPU_ON;
gpu::reduce(d_src, d_dst0, 0, CV_REDUCE_MIN);
GPU_OFF;
SUBTEST << size << 'x' << size << ", dim = 1";
reduce(src, dst1, 1, CV_REDUCE_MIN);
CPU_ON;
reduce(src, dst1, 1, CV_REDUCE_MIN);
CPU_OFF;
gpu::reduce(d_src, d_dst1, 1, CV_REDUCE_MIN);
GPU_ON;
gpu::reduce(d_src, d_dst1, 1, CV_REDUCE_MIN);
GPU_OFF;
}
}
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TEST(gemm)
{
Mat src1, src2, src3, dst;
gpu::GpuMat d_src1, d_src2, d_src3, d_dst;
for (int size = 512; size <= 1024; size *= 2)
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{
SUBTEST << size << 'x' << size;
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gen(src1, size, size, CV_32FC1, Scalar::all(-10), Scalar::all(10));
gen(src2, size, size, CV_32FC1, Scalar::all(-10), Scalar::all(10));
gen(src3, size, size, CV_32FC1, Scalar::all(-10), Scalar::all(10));
gemm(src1, src2, 1.0, src3, 1.0, dst);
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CPU_ON;
gemm(src1, src2, 1.0, src3, 1.0, dst);
CPU_OFF;
d_src1.upload(src1);
d_src2.upload(src2);
d_src3.upload(src3);
gpu::gemm(d_src1, d_src2, 1.0, d_src3, 1.0, d_dst);
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GPU_ON;
gpu::gemm(d_src1, d_src2, 1.0, d_src3, 1.0, d_dst);
GPU_OFF;
}
}
TEST(GoodFeaturesToTrack)
{
Mat src = imread(abspath("aloeL.jpg"), IMREAD_GRAYSCALE);
if (src.empty()) throw runtime_error("can't open aloeL.jpg");
vector<Point2f> pts;
goodFeaturesToTrack(src, pts, 8000, 0.01, 0.0);
CPU_ON;
goodFeaturesToTrack(src, pts, 8000, 0.01, 0.0);
CPU_OFF;
gpu::GoodFeaturesToTrackDetector_GPU detector(8000, 0.01, 0.0);
gpu::GpuMat d_src(src);
gpu::GpuMat d_pts;
detector(d_src, d_pts);
GPU_ON;
detector(d_src, d_pts);
GPU_OFF;
}
TEST(PyrLKOpticalFlow)
{
Mat frame0 = imread(abspath("rubberwhale1.png"));
if (frame0.empty()) throw runtime_error("can't open rubberwhale1.png");
Mat frame1 = imread(abspath("rubberwhale2.png"));
if (frame1.empty()) throw runtime_error("can't open rubberwhale2.png");
Mat gray_frame;
cvtColor(frame0, gray_frame, COLOR_BGR2GRAY);
for (int points = 1000; points <= 8000; points *= 2)
{
SUBTEST << points;
vector<Point2f> pts;
goodFeaturesToTrack(gray_frame, pts, points, 0.01, 0.0);
vector<Point2f> nextPts;
vector<unsigned char> status;
vector<float> err;
calcOpticalFlowPyrLK(frame0, frame1, pts, nextPts, status, err);
CPU_ON;
calcOpticalFlowPyrLK(frame0, frame1, pts, nextPts, status, err);
CPU_OFF;
gpu::PyrLKOpticalFlow d_pyrLK;
gpu::GpuMat d_frame0(frame0);
gpu::GpuMat d_frame1(frame1);
gpu::GpuMat d_pts;
Mat pts_mat(1, (int)pts.size(), CV_32FC2, (void*)&pts[0]);
d_pts.upload(pts_mat);
gpu::GpuMat d_nextPts;
gpu::GpuMat d_status;
gpu::GpuMat d_err;
d_pyrLK.sparse(d_frame0, d_frame1, d_pts, d_nextPts, d_status, &d_err);
GPU_ON;
d_pyrLK.sparse(d_frame0, d_frame1, d_pts, d_nextPts, d_status, &d_err);
GPU_OFF;
}
}
TEST(FarnebackOpticalFlow)
{
const string datasets[] = {"rubberwhale", "basketball"};
for (size_t i = 0; i < sizeof(datasets)/sizeof(*datasets); ++i) {
for (int fastPyramids = 0; fastPyramids < 2; ++fastPyramids) {
for (int useGaussianBlur = 0; useGaussianBlur < 2; ++useGaussianBlur) {
SUBTEST << "dataset=" << datasets[i] << ", fastPyramids=" << fastPyramids << ", useGaussianBlur=" << useGaussianBlur;
Mat frame0 = imread(abspath(datasets[i] + "1.png"), IMREAD_GRAYSCALE);
Mat frame1 = imread(abspath(datasets[i] + "2.png"), IMREAD_GRAYSCALE);
if (frame0.empty()) throw runtime_error("can't open " + datasets[i] + "1.png");
if (frame1.empty()) throw runtime_error("can't open " + datasets[i] + "2.png");
gpu::FarnebackOpticalFlow calc;
calc.fastPyramids = fastPyramids != 0;
calc.flags |= useGaussianBlur ? OPTFLOW_FARNEBACK_GAUSSIAN : 0;
gpu::GpuMat d_frame0(frame0), d_frame1(frame1), d_flowx, d_flowy;
GPU_ON;
calc(d_frame0, d_frame1, d_flowx, d_flowy);
GPU_OFF;
Mat flow;
CPU_ON;
calcOpticalFlowFarneback(frame0, frame1, flow, calc.pyrScale, calc.numLevels, calc.winSize, calc.numIters, calc.polyN, calc.polySigma, calc.flags);
CPU_OFF;
}}}
}