opencv/modules/gpu/test/utility.cpp

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/*M///////////////////////////////////////////////////////////////////////////////////////
//
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//
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// If you do not agree to this license, do not download, install,
// copy or use the software.
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//
// Intel License Agreement
// For Open Source Computer Vision Library
//
// Copyright (C) 2000, Intel Corporation, all rights reserved.
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#include "precomp.hpp"
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using namespace std;
using namespace cv;
using namespace cv::gpu;
using namespace cvtest;
int randomInt(int minVal, int maxVal)
{
RNG& rng = TS::ptr()->get_rng();
return rng.uniform(minVal, maxVal);
}
double randomDouble(double minVal, double maxVal)
{
RNG& rng = TS::ptr()->get_rng();
return rng.uniform(minVal, maxVal);
}
Size randomSize(int minVal, int maxVal)
{
return cv::Size(randomInt(minVal, maxVal), randomInt(minVal, maxVal));
}
Scalar randomScalar(double minVal, double maxVal)
{
return Scalar(randomDouble(minVal, maxVal), randomDouble(minVal, maxVal), randomDouble(minVal, maxVal), randomDouble(minVal, maxVal));
}
Mat randomMat(Size size, int type, double minVal, double maxVal)
{
return randomMat(TS::ptr()->get_rng(), size, type, minVal, maxVal, false);
}
cv::gpu::GpuMat createMat(cv::Size size, int type, bool useRoi)
{
Size size0 = size;
if (useRoi)
{
size0.width += randomInt(5, 15);
size0.height += randomInt(5, 15);
}
GpuMat d_m(size0, type);
if (size0 != size)
d_m = d_m(Rect((size0.width - size.width) / 2, (size0.height - size.height) / 2, size.width, size.height));
return d_m;
}
GpuMat loadMat(const Mat& m, bool useRoi)
{
GpuMat d_m = createMat(m.size(), m.type(), useRoi);
d_m.upload(m);
return d_m;
}
void showDiff(InputArray gold_, InputArray actual_, double eps)
{
Mat gold;
if (gold_.kind() == _InputArray::MAT)
gold = gold_.getMat();
else
gold_.getGpuMat().download(gold);
Mat actual;
if (actual_.kind() == _InputArray::MAT)
actual = actual_.getMat();
else
actual_.getGpuMat().download(actual);
Mat diff;
absdiff(gold, actual, diff);
threshold(diff, diff, eps, 255.0, cv::THRESH_BINARY);
namedWindow("gold", WINDOW_NORMAL);
namedWindow("actual", WINDOW_NORMAL);
namedWindow("diff", WINDOW_NORMAL);
imshow("gold", gold);
imshow("actual", actual);
imshow("diff", diff);
waitKey();
}
bool supportFeature(const DeviceInfo& info, FeatureSet feature)
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{
return TargetArchs::builtWith(feature) && info.supports(feature);
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}
const vector<DeviceInfo>& devices()
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{
static vector<DeviceInfo> devs;
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static bool first = true;
if (first)
{
int deviceCount = getCudaEnabledDeviceCount();
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devs.reserve(deviceCount);
for (int i = 0; i < deviceCount; ++i)
{
DeviceInfo info(i);
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if (info.isCompatible())
devs.push_back(info);
}
first = false;
}
return devs;
}
vector<DeviceInfo> devices(FeatureSet feature)
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{
const vector<DeviceInfo>& d = devices();
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vector<DeviceInfo> devs_filtered;
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if (TargetArchs::builtWith(feature))
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{
devs_filtered.reserve(d.size());
for (size_t i = 0, size = d.size(); i < size; ++i)
{
const DeviceInfo& info = d[i];
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if (info.supports(feature))
devs_filtered.push_back(info);
}
}
return devs_filtered;
}
vector<MatType> types(int depth_start, int depth_end, int cn_start, int cn_end)
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{
vector<MatType> v;
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v.reserve((depth_end - depth_start + 1) * (cn_end - cn_start + 1));
for (int depth = depth_start; depth <= depth_end; ++depth)
{
for (int cn = cn_start; cn <= cn_end; ++cn)
{
v.push_back(CV_MAKETYPE(depth, cn));
}
}
return v;
}
const vector<MatType>& all_types()
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{
static vector<MatType> v = types(CV_8U, CV_64F, 1, 4);
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return v;
}
Mat readImage(const string& fileName, int flags)
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{
return imread(string(cvtest::TS::ptr()->get_data_path()) + fileName, flags);
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}
Mat readImageType(const string& fname, int type)
{
Mat src = readImage(fname, CV_MAT_CN(type) == 1 ? IMREAD_GRAYSCALE : IMREAD_COLOR);
if (CV_MAT_CN(type) == 4)
{
Mat temp;
cvtColor(src, temp, cv::COLOR_BGR2BGRA);
swap(src, temp);
}
src.convertTo(src, CV_MAT_DEPTH(type));
return src;
}
double checkNorm(const Mat& m)
{
return norm(m, NORM_INF);
}
double checkNorm(const Mat& m1, const Mat& m2)
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{
return norm(m1, m2, NORM_INF);
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}
double checkSimilarity(const Mat& m1, const Mat& m2)
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{
Mat diff;
matchTemplate(m1, m2, diff, CV_TM_CCORR_NORMED);
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return std::abs(diff.at<float>(0, 0) - 1.f);
}
void cv::gpu::PrintTo(const DeviceInfo& info, ostream* os)
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{
(*os) << info.name();
}
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void PrintTo(const UseRoi& useRoi, std::ostream* os)
{
if (useRoi)
(*os) << "sub matrix";
else
(*os) << "whole matrix";
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}
void PrintTo(const Inverse& inverse, std::ostream* os)
{
if (inverse)
(*os) << "inverse";
else
(*os) << "direct";
}