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Commit b907bfe3 authored by Alexander Alekhin's avatar Alexander Alekhin
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Merge pull request #12222 from NCBee:master

parents b996b618 98c5ce93
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Showing with 125 additions and 97 deletions
modules/imgproc/src/intersection.cpp
View file @ b907bfe3
......@@ -51,12 +51,13 @@ int rotatedRectangleIntersection( const RotatedRect& rect1, const RotatedRect& r
{
CV_INSTRUMENT_REGION()
const float samePointEps = 0.00001f; // used to test if two points are the same
// L2 metric
const float samePointEps = std::max(1e-16f, 1e-6f * (float)std::max(rect1.size.area(), rect2.size.area()));
Point2f vec1[4], vec2[4];
Point2f pts1[4], pts2[4];
std::vector <Point2f> intersection;
std::vector <Point2f> intersection; intersection.reserve(24);
rect1.points(pts1);
rect2.points(pts2);
......@@ -219,41 +220,80 @@ int rotatedRectangleIntersection( const RotatedRect& rect1, const RotatedRect& r
}
}
// Get rid of dupes and order points.
for( int i = 0; i < (int)intersection.size()-1; i++ )
int N = (int)intersection.size();
if (N == 0)
{
float dx1 = intersection[i + 1].x - intersection[i].x;
float dy1 = intersection[i + 1].y - intersection[i].y;
for( size_t j = i+1; j < intersection.size(); j++ )
{
float dx = intersection[j].x - intersection[i].x;
float dy = intersection[j].y - intersection[i].y;
double d2 = dx*dx + dy*dy; // can be a really small number, need double here
return INTERSECT_NONE;
}
if( d2 < samePointEps*samePointEps )
// Get rid of duplicated points
int Nstride = N;
cv::AutoBuffer<float, 100> distPt(N * N);
cv::AutoBuffer<int> ptDistRemap(N);
for (int i = 0; i < N; ++i)
{
const Point2f pt0 = intersection[i];
ptDistRemap[i] = i;
for (int j = i + 1; j < N; )
{
const Point2f pt1 = intersection[j];
float d2 = normL2Sqr<float>(pt1 - pt0);
if(d2 <= samePointEps)
{
// Found a dupe, remove it
std::swap(intersection[j], intersection.back());
intersection.pop_back();
j--; // restart check
if (j < N - 1)
intersection[j] = intersection[N - 1];
N--;
continue;
}
else if (dx1 * dy - dy1 * dx < 0)
distPt[i*Nstride + j] = d2;
++j;
}
}
while (N > 8) // we still have duplicate points after samePointEps threshold (eliminate closest points)
{
int minI = 0;
int minJ = 1;
float minD = distPt[1];
for (int i = 0; i < N - 1; ++i)
{
float* pDist = distPt.data() + Nstride * ptDistRemap[i];
for (int j = i + 1; j < N; ++j)
{
std::swap(intersection[i + 1], intersection[j]);
dx1 = dx;
dy1 = dy;
float d = pDist[ptDistRemap[j]];
if (d < minD)
{
minD = d;
minI = i;
minJ = j;
}
}
}
CV_Assert(fabs(normL2Sqr<float>(intersection[minI] - intersection[minJ]) - minD) < 1e-6); // ptDistRemap is not corrupted
// drop minJ point
if (minJ < N - 1)
{
intersection[minJ] = intersection[N - 1];
ptDistRemap[minJ] = ptDistRemap[N - 1];
}
N--;
}
if( intersection.empty() )
// order points
for (int i = 0; i < N - 1; ++i)
{
return INTERSECT_NONE ;
Point2f diffI = intersection[i + 1] - intersection[i];
for (int j = i + 2; j < N; ++j)
{
Point2f diffJ = intersection[j] - intersection[i];
if (diffI.cross(diffJ) < 0)
{
std::swap(intersection[i + 1], intersection[j]);
diffI = diffJ;
}
}
}
// If this check fails then it means we're getting dupes, increase samePointEps
CV_Assert( intersection.size() <= 8 );
intersection.resize(N);
Mat(intersection).copyTo(intersectingRegion);
return ret;
......
modules/imgproc/test/test_intersection.cpp
View file @ b907bfe3
......@@ -49,29 +49,18 @@ namespace opencv_test { namespace {
#define ACCURACY 0.00001
class CV_RotatedRectangleIntersectionTest: public cvtest::ArrayTest
{
public:
protected:
void run (int);
private:
void test1();
void test2();
void test3();
void test4();
void test5();
void test6();
void test7();
void test8();
void test9();
void test10();
void test11();
void test12();
void test13();
void test14();
};
// See pics/intersection.png for the scenarios we are testing
// Test the following scenarios:
// 1 - no intersection
// 2 - partial intersection, rectangle translated
// 3 - partial intersection, rectangle rotated 45 degree on the corner, forms a triangle intersection
// 4 - full intersection, rectangles of same size directly on top of each other
// 5 - partial intersection, rectangle on top rotated 45 degrees
// 6 - partial intersection, rectangle on top of different size
// 7 - full intersection, rectangle fully enclosed in the other
// 8 - partial intersection, rectangle corner just touching. point contact
// 9 - partial intersetion. rectangle side by side, line contact
static void compare(const std::vector<Point2f>& test, const std::vector<Point2f>& target)
{
......@@ -80,45 +69,12 @@ static void compare(const std::vector<Point2f>& test, const std::vector<Point2f>
ASSERT_TRUE(target.size() < 4 || isContourConvex(target));
for( size_t i = 0; i < test.size(); i++ )
{
double dx = test[i].x - target[i].x;
double dy = test[i].y - target[i].y;
double r = sqrt(dx*dx + dy*dy);
double r = sqrt(normL2Sqr<double>(test[i] - target[i]));
ASSERT_LT(r, ACCURACY);
}
}
void CV_RotatedRectangleIntersectionTest::run(int)
{
// See pics/intersection.png for the scenarios we are testing
// Test the following scenarios:
// 1 - no intersection
// 2 - partial intersection, rectangle translated
// 3 - partial intersection, rectangle rotated 45 degree on the corner, forms a triangle intersection
// 4 - full intersection, rectangles of same size directly on top of each other
// 5 - partial intersection, rectangle on top rotated 45 degrees
// 6 - partial intersection, rectangle on top of different size
// 7 - full intersection, rectangle fully enclosed in the other
// 8 - partial intersection, rectangle corner just touching. point contact
// 9 - partial intersetion. rectangle side by side, line contact
test1();
test2();
test3();
test4();
test5();
test6();
test7();
test8();
test9();
test10();
test11();
test12();
test13();
test14();
}
void CV_RotatedRectangleIntersectionTest::test1()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_1)
{
// no intersection
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 12.0f);
......@@ -131,7 +87,7 @@ void CV_RotatedRectangleIntersectionTest::test1()
CV_Assert(vertices.empty());
}
void CV_RotatedRectangleIntersectionTest::test2()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_2)
{
// partial intersection, rectangles translated
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -150,7 +106,7 @@ void CV_RotatedRectangleIntersectionTest::test2()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test3()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_3)
{
// partial intersection, rectangles rotated 45 degree on the corner, forms a triangle intersection
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -168,7 +124,7 @@ void CV_RotatedRectangleIntersectionTest::test3()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test4()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_4)
{
// full intersection, rectangles of same size directly on top of each other
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -187,7 +143,7 @@ void CV_RotatedRectangleIntersectionTest::test4()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test5()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_5)
{
// partial intersection, rectangle on top rotated 45 degrees
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -210,7 +166,7 @@ void CV_RotatedRectangleIntersectionTest::test5()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test6()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_6)
{
// 6 - partial intersection, rectangle on top of different size
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -229,7 +185,7 @@ void CV_RotatedRectangleIntersectionTest::test6()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test7()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_7)
{
// full intersection, rectangle fully enclosed in the other
RotatedRect rect1(Point2f(0, 0), Size2f(12.34f, 56.78f), 0.0f);
......@@ -248,7 +204,7 @@ void CV_RotatedRectangleIntersectionTest::test7()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test8()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_8)
{
// intersection by a single vertex
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -261,7 +217,7 @@ void CV_RotatedRectangleIntersectionTest::test8()
compare(vertices, vector<Point2f>(1, Point2f(1.0f, 1.0f)));
}
void CV_RotatedRectangleIntersectionTest::test9()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_9)
{
// full intersection, rectangle fully enclosed in the other
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -278,7 +234,7 @@ void CV_RotatedRectangleIntersectionTest::test9()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test10()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_10)
{
// three points of rect2 are inside rect1.
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
......@@ -298,7 +254,7 @@ void CV_RotatedRectangleIntersectionTest::test10()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test11()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_11)
{
RotatedRect rect1(Point2f(0, 0), Size2f(4, 2), 0.0f);
RotatedRect rect2(Point2f(0, 0), Size2f(2, 2), -45.0f);
......@@ -318,7 +274,7 @@ void CV_RotatedRectangleIntersectionTest::test11()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test12()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_12)
{
RotatedRect rect1(Point2f(0, 0), Size2f(2, 2), 0.0f);
RotatedRect rect2(Point2f(0, 1), Size2f(1, 1), 0.0f);
......@@ -336,7 +292,7 @@ void CV_RotatedRectangleIntersectionTest::test12()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test13()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_13)
{
RotatedRect rect1(Point2f(0, 0), Size2f(1, 3), 0.0f);
RotatedRect rect2(Point2f(0, 1), Size2f(3, 1), 0.0f);
......@@ -354,7 +310,7 @@ void CV_RotatedRectangleIntersectionTest::test13()
compare(vertices, targetVertices);
}
void CV_RotatedRectangleIntersectionTest::test14()
TEST(Imgproc_RotatedRectangleIntersection, accuracy_14)
{
const int kNumTests = 100;
const float kWidth = 5;
......@@ -376,6 +332,38 @@ void CV_RotatedRectangleIntersectionTest::test14()
}
}
TEST (Imgproc_RotatedRectangleIntersection, accuracy) { CV_RotatedRectangleIntersectionTest test; test.safe_run(); }
TEST(Imgproc_RotatedRectangleIntersection, regression_12221_1)
{
RotatedRect r1(
Point2f(259.65081787109375, 51.58895492553711),
Size2f(5487.8779296875, 233.8921661376953),
-29.488616943359375);
RotatedRect r2(
Point2f(293.70465087890625, 112.10154724121094),
Size2f(5487.8896484375, 234.87368774414062),
-31.27001953125);
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(r1, r2, intersections);
EXPECT_EQ(INTERSECT_PARTIAL, interType);
EXPECT_LE(intersections.size(), (size_t)8);
}
TEST(Imgproc_RotatedRectangleIntersection, regression_12221_2)
{
RotatedRect r1(
Point2f(239.78500366210938, 515.72021484375),
Size2f(70.23420715332031, 39.74684524536133),
-42.86162567138672);
RotatedRect r2(
Point2f(242.4205322265625, 510.1195373535156),
Size2f(66.85948944091797, 61.46455383300781),
-9.840961456298828);
std::vector<Point2f> intersections;
int interType = cv::rotatedRectangleIntersection(r1, r2, intersections);
EXPECT_EQ(INTERSECT_PARTIAL, interType);
EXPECT_LE(intersections.size(), (size_t)8);
}
}} // namespace
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