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Tetragramm
GitHub Repository: Tetragramm/opencv
 Path: blob/master/modules/features2d/test/test_invariance_utils.hpp
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// 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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#ifndef __OPENCV_TEST_INVARIANCE_UTILS_HPP__

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#define __OPENCV_TEST_INVARIANCE_UTILS_HPP__

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namespace opencv_test { namespace {

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Mat generateHomography(float angle)

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{

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    // angle - rotation around Oz in degrees

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    float angleRadian = static_cast<float>(angle * CV_PI / 180);

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    Mat H = Mat::eye(3, 3, CV_32FC1);

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    H.at<float>(0,0) = H.at<float>(1,1) = std::cos(angleRadian);

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    H.at<float>(0,1) = -std::sin(angleRadian);

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    H.at<float>(1,0) =  std::sin(angleRadian);

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    return H;

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}

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Mat rotateImage(const Mat& srcImage, const Mat& srcMask, float angle, Mat& dstImage, Mat& dstMask)

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{

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    // angle - rotation around Oz in degrees

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    float diag = std::sqrt(static_cast<float>(srcImage.cols * srcImage.cols + srcImage.rows * srcImage.rows));

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    Mat LUShift = Mat::eye(3, 3, CV_32FC1); // left up

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    LUShift.at<float>(0,2) = static_cast<float>(-srcImage.cols/2);

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    LUShift.at<float>(1,2) = static_cast<float>(-srcImage.rows/2);

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    Mat RDShift = Mat::eye(3, 3, CV_32FC1); // right down

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    RDShift.at<float>(0,2) = diag/2;

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    RDShift.at<float>(1,2) = diag/2;

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    Size sz(cvRound(diag), cvRound(diag));

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    Mat H = RDShift * generateHomography(angle) * LUShift;

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    warpPerspective(srcImage, dstImage, H, sz);

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    warpPerspective(srcMask, dstMask, H, sz);

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    return H;

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}

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float calcCirclesIntersectArea(const Point2f& p0, float r0, const Point2f& p1, float r1)

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{

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    float c = static_cast<float>(cv::norm(p0 - p1)), sqr_c = c * c;

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    float sqr_r0 = r0 * r0;

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    float sqr_r1 = r1 * r1;

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    if(r0 + r1 <= c)

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       return 0;

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    float minR = std::min(r0, r1);

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    float maxR = std::max(r0, r1);

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    if(c + minR <= maxR)

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        return static_cast<float>(CV_PI * minR * minR);

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    float cos_halfA0 = (sqr_r0 + sqr_c - sqr_r1) / (2 * r0 * c);

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    float cos_halfA1 = (sqr_r1 + sqr_c - sqr_r0) / (2 * r1 * c);

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    float A0 = 2 * acos(cos_halfA0);

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    float A1 = 2 * acos(cos_halfA1);

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    return  0.5f * sqr_r0 * (A0 - sin(A0)) +

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            0.5f * sqr_r1 * (A1 - sin(A1));

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}

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float calcIntersectRatio(const Point2f& p0, float r0, const Point2f& p1, float r1)

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{

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    float intersectArea = calcCirclesIntersectArea(p0, r0, p1, r1);

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    float unionArea = static_cast<float>(CV_PI) * (r0 * r0 + r1 * r1) - intersectArea;

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    return intersectArea / unionArea;

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}

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void scaleKeyPoints(const vector<KeyPoint>& src, vector<KeyPoint>& dst, float scale)

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{

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    dst.resize(src.size());

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    for (size_t i = 0; i < src.size(); i++) {

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        dst[i] = src[i];

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        dst[i].pt.x *= scale;

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        dst[i].pt.y *= scale;

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        dst[i].size *= scale;

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    }

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}

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}} // namespace

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#endif // __OPENCV_TEST_INVARIANCE_UTILS_HPP__

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