If you don't know the number of lines in the image you can use the cv::partition
function to split lines on equivalency group.
I suggest you the following procedure:
Split your lines using cv::partition
. You need to specify a good predicate function. It really depends on lines which you extract from image, but I think it should check following conditions:
- Angle between lines should be quite small (less 3 degrees, for example). Use dot product to calculate angle's cosine.
- Distance between centers of segments should be less than half of maximum length of two segments.
For example, it can be implemented as follows:
bool isEqual(const Vec4i& _l1, const Vec4i& _l2)
{
Vec4i l1(_l1), l2(_l2);
float length1 = sqrtf((l1[2] - l1[0])*(l1[2] - l1[0]) + (l1[3] - l1[1])*(l1[3] - l1[1]));
float length2 = sqrtf((l2[2] - l2[0])*(l2[2] - l2[0]) + (l2[3] - l2[1])*(l2[3] - l2[1]));
float product = (l1[2] - l1[0])*(l2[2] - l2[0]) + (l1[3] - l1[1])*(l2[3] - l2[1]);
if (fabs(product / (length1 * length2)) < cos(CV_PI / 30))
return false;
float mx1 = (l1[0] + l1[2]) * 0.5f;
float mx2 = (l2[0] + l2[2]) * 0.5f;
float my1 = (l1[1] + l1[3]) * 0.5f;
float my2 = (l2[1] + l2[3]) * 0.5f;
float dist = sqrtf((mx1 - mx2)*(mx1 - mx2) + (my1 - my2)*(my1 - my2));
if (dist > std::max(length1, length2) * 0.5f)
return false;
return true;
}
Guess you have your lines in vector<Vec4i> lines;
. Next, you should call cv::partition
as follows:
vector<Vec4i> lines;
std::vector<int> labels;
int numberOfLines = cv::partition(lines, labels, isEqual);
You need to call cv::partition
once and it will clusterize all lines. Vector labels
will store for each line label of cluster to which it belongs. See documentation for cv::partition
- After you get all groups of line you should merge them. I suggest calculating average angle of all lines in group and estimate "border" points. For example, if angle is zero (i.e. all lines are almost horizontal) it would be the left-most and right-most points. It remains only to draw a line between this points.
I noticed that all lines in your examples are horizontal or vertical. In such case you can calculate point which is average of all segment's centers and "border" points, and then just draw horizontal or vertical line limited by "border" points through center point.
Please note that cv::partition
takes O(N^2) time, so if you process a huge number of lines it may take a lot of time.
I hope it will help. I used such approach for similar task.
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