179 lines
5.4 KiB
C++
179 lines
5.4 KiB
C++
// This file is part of OpenCV project.
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// It is subject to the license terms in the LICENSE file found in the top-level directory
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// of this distribution and at http://opencv.org/license.html.
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#include "test_precomp.hpp"
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namespace opencv_test {
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Ptr<AdaptiveManifoldFilter> createAMFilterRefImpl(double sigma_s, double sigma_r, bool adjust_outliers = false);
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namespace {
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#ifndef SQR
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#define SQR(x) ((x)*(x))
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#endif
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static string getOpenCVExtraDir()
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{
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return cvtest::TS::ptr()->get_data_path();
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}
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static void checkSimilarity(InputArray res, InputArray ref, double maxNormInf = 1, double maxNormL2 = 1.0 / 64)
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{
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double normInf = cvtest::norm(res, ref, NORM_INF);
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double normL2 = cvtest::norm(res, ref, NORM_L2) / res.total();
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if (maxNormInf >= 0) { EXPECT_LE(normInf, maxNormInf); }
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if (maxNormL2 >= 0) { EXPECT_LE(normL2, maxNormL2); }
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}
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TEST(AdaptiveManifoldTest, SplatSurfaceAccuracy)
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{
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RNG rnd(0);
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for (int i = 0; i < 5; i++)
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{
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Size sz(rnd.uniform(512, 1024), rnd.uniform(512, 1024));
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int guideCn = rnd.uniform(1, 8);
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Mat guide(sz, CV_MAKE_TYPE(CV_32F, guideCn));
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randu(guide, 0, 1);
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Scalar surfaceValue;
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int srcCn = rnd.uniform(1, 4);
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rnd.fill(surfaceValue, RNG::UNIFORM, 0, 255);
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Mat src(sz, CV_MAKE_TYPE(CV_8U, srcCn), surfaceValue);
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double sigma_s = rnd.uniform(1.0, 50.0);
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double sigma_r = rnd.uniform(0.1, 0.9);
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Mat res;
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amFilter(guide, src, res, sigma_s, sigma_r, false);
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double normInf = cvtest::norm(src, res, NORM_INF);
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EXPECT_EQ(normInf, 0);
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}
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}
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TEST(AdaptiveManifoldTest, AuthorsReferenceAccuracy)
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{
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String srcImgPath = "cv/edgefilter/kodim23.png";
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String refPaths[] =
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{
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"cv/edgefilter/amf/kodim23_amf_ss5_sr0.3_ref.png",
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"cv/edgefilter/amf/kodim23_amf_ss30_sr0.1_ref.png",
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"cv/edgefilter/amf/kodim23_amf_ss50_sr0.3_ref.png"
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};
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pair<double, double> refParams[] =
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{
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make_pair(5.0, 0.3),
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make_pair(30.0, 0.1),
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make_pair(50.0, 0.3)
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};
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String refOutliersPaths[] =
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{
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"cv/edgefilter/amf/kodim23_amf_ss5_sr0.1_outliers_ref.png",
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"cv/edgefilter/amf/kodim23_amf_ss15_sr0.3_outliers_ref.png",
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"cv/edgefilter/amf/kodim23_amf_ss50_sr0.5_outliers_ref.png"
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};
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pair<double, double> refOutliersParams[] =
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{
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make_pair(5.0, 0.1),
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make_pair(15.0, 0.3),
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make_pair(50.0, 0.5),
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};
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Mat srcImg = imread(getOpenCVExtraDir() + srcImgPath);
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ASSERT_TRUE(!srcImg.empty());
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for (int i = 0; i < 3; i++)
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{
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Mat refRes = imread(getOpenCVExtraDir() + refPaths[i]);
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double sigma_s = refParams[i].first;
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double sigma_r = refParams[i].second;
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ASSERT_TRUE(!refRes.empty());
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Mat res;
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Ptr<AdaptiveManifoldFilter> amf = createAMFilter(sigma_s, sigma_r, false);
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amf->setUseRNG(false);
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amf->filter(srcImg, res, srcImg);
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amf->collectGarbage();
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checkSimilarity(res, refRes);
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}
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for (int i = 0; i < 3; i++)
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{
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Mat refRes = imread(getOpenCVExtraDir() + refOutliersPaths[i]);
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double sigma_s = refOutliersParams[i].first;
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double sigma_r = refOutliersParams[i].second;
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ASSERT_TRUE(!refRes.empty());
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Mat res;
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Ptr<AdaptiveManifoldFilter> amf = createAMFilter(sigma_s, sigma_r, true);
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amf->setUseRNG(false);
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amf->filter(srcImg, res, srcImg);
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amf->collectGarbage();
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checkSimilarity(res, refRes);
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}
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}
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typedef tuple<string, string> AMRefTestParams;
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typedef TestWithParam<AMRefTestParams> AdaptiveManifoldRefImplTest;
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TEST_P(AdaptiveManifoldRefImplTest, RefImplAccuracy)
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{
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AMRefTestParams params = GetParam();
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string guideFileName = get<0>(params);
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string srcFileName = get<1>(params);
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Mat guide = imread(getOpenCVExtraDir() + guideFileName);
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Mat src = imread(getOpenCVExtraDir() + srcFileName);
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ASSERT_TRUE(!guide.empty() && !src.empty());
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int seed = 10 * (int)guideFileName.length() + (int)srcFileName.length();
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RNG rnd(seed);
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//inconsistent downsample/upsample operations in reference implementation
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Size dstSize((guide.cols + 15) & ~15, (guide.rows + 15) & ~15);
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resize(guide, guide, dstSize, 0, 0, INTER_LINEAR_EXACT);
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resize(src, src, dstSize, 0, 0, INTER_LINEAR_EXACT);
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int nThreads = cv::getNumThreads();
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if (nThreads == 1)
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throw SkipTestException("Single thread environment");
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for (int iter = 0; iter < 4; iter++)
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{
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double sigma_s = rnd.uniform(1.0, 50.0);
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double sigma_r = rnd.uniform(0.1, 0.9);
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bool adjust_outliers = (iter % 2 == 0);
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cv::setNumThreads(nThreads);
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Mat res;
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amFilter(guide, src, res, sigma_s, sigma_r, adjust_outliers);
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cv::setNumThreads(1);
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Mat resRef;
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Ptr<AdaptiveManifoldFilter> amf = createAMFilterRefImpl(sigma_s, sigma_r, adjust_outliers);
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amf->filter(src, resRef, guide);
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//results of reference implementation may differ on small sigma_s into small isolated region
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//due to low single-precision floating point numbers accuracy
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//therefore the threshold of inf norm was increased
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checkSimilarity(res, resRef, 25);
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}
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}
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INSTANTIATE_TEST_CASE_P(TypicalSet, AdaptiveManifoldRefImplTest,
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Combine(
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Values("cv/edgefilter/kodim23.png", "cv/npr/test4.png"),
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Values("cv/edgefilter/kodim23.png", "cv/npr/test4.png")
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));
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}} // namespace
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