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opencv--opencv/modules/features2d/test/test_akaze.cpp
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2026-07-13 12:06:04 +08:00

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// This file is part of OpenCV project.
// It is subject to the license terms in the LICENSE file found in the top-level directory
// of this distribution and at http://opencv.org/license.html
#include "test_precomp.hpp"
namespace opencv_test { namespace {
TEST(Features2d_AKAZE, detect_and_compute_split)
{
Mat testImg(100, 100, CV_8U);
theRNG().fill(testImg, RNG::UNIFORM, Scalar(0), Scalar(255), true);
Ptr<Feature2D> ext = AKAZE::create(AKAZE::DESCRIPTOR_MLDB, 0, 3, 0.001f, 1, 1, KAZE::DIFF_PM_G2);
vector<KeyPoint> detAndCompKps;
Mat desc;
ext->detectAndCompute(testImg, noArray(), detAndCompKps, desc);
vector<KeyPoint> detKps;
ext->detect(testImg, detKps);
ASSERT_EQ(detKps.size(), detAndCompKps.size());
for(size_t i = 0; i < detKps.size(); i++)
ASSERT_EQ(detKps[i].hash(), detAndCompKps[i].hash());
}
/**
* This test is here to guard propagation of NaNs that happens on this image. NaNs are guarded
* by debug asserts in AKAZE, which should fire for you if you are lucky.
*
* This test also reveals problems with uninitialized memory that happens only on this image.
* This is very hard to hit and depends a lot on particular allocator. Run this test in valgrind and check
* for uninitialized values if you think you are hitting this problem again.
*/
TEST(Features2d_AKAZE, uninitialized_and_nans)
{
Mat b1 = imread(cvtest::TS::ptr()->get_data_path() + "../stitching/b1.png");
ASSERT_FALSE(b1.empty());
vector<KeyPoint> keypoints;
Mat desc;
Ptr<Feature2D> akaze = AKAZE::create();
akaze->detectAndCompute(b1, noArray(), keypoints, desc);
}
// Test for https://github.com/opencv/opencv/issues/27134
TEST(Features2d_KAZE, diffusivity_charbonnier)
{
Mat testImg(200, 200, CV_8U);
theRNG().fill(testImg, RNG::UNIFORM, Scalar(0), Scalar(255), true);
// KAZE with DIFF_CHARBONNIER
Ptr<KAZE> kaze_charbonnier = KAZE::create(false, false, 0.001f, 4, 4, KAZE::DIFF_CHARBONNIER);
vector<KeyPoint> kps_charbonnier;
Mat desc_charbonnier;
kaze_charbonnier->detectAndCompute(testImg, noArray(), kps_charbonnier, desc_charbonnier);
// KAZE with DIFF_PM_G2 (default)
Ptr<KAZE> kaze_pm_g2 = KAZE::create(false, false, 0.001f, 4, 4, KAZE::DIFF_PM_G2);
vector<KeyPoint> kps_pm_g2;
Mat desc_pm_g2;
kaze_pm_g2->detectAndCompute(testImg, noArray(), kps_pm_g2, desc_pm_g2);
// Both should detect keypoints
ASSERT_FALSE(kps_charbonnier.empty());
ASSERT_FALSE(kps_pm_g2.empty());
// Check subpixel accuracy for DIFF_CHARBONNIER (issue #27134)
bool hasSubpixel = false;
for (size_t i = 0; i < kps_charbonnier.size(); i++)
{
float fx = kps_charbonnier[i].pt.x - std::floor(kps_charbonnier[i].pt.x);
float fy = kps_charbonnier[i].pt.y - std::floor(kps_charbonnier[i].pt.y);
if (fx > 1e-5f || fy > 1e-5f)
{
hasSubpixel = true;
break;
}
}
EXPECT_TRUE(hasSubpixel) << "KAZE with DIFF_CHARBONNIER should have subpixel keypoint coordinates";
// Descriptor dimensions should match
ASSERT_EQ(desc_charbonnier.cols, desc_pm_g2.cols);
}
}} // namespace