OpenCV C ++/Obj-C:连接附近的轮廓 [英] OpenCV C++/Obj-C: Connect nearby contours
本文介绍了OpenCV C ++/Obj-C:连接附近的轮廓的处理方法,对大家解决问题具有一定的参考价值,需要的朋友们下面随着小编来一起学习吧!
问题描述
是否具有连接两个(或多个)附近轮廓的功能?看看我的输入/输出,您会明白我的意思……
Is there a function to connect two (or more) nearby contours? Take a look at my in-/output and you'll see what I mean …
我的代码:
[... some processing ...]
// getting contours
std::vector<std::vector<cv::Point> > contours;
findContours(input, contours, CV_RETR_EXTERNAL, CV_CHAIN_APPROX_SIMPLE);
// approximate contours
std::vector<std::vector<cv::Point> > contours_poly( contours.size() );
for( int i = 0; i < contours.size(); i++ ) {
approxPolyDP(cv::Mat(contours[i]), contours_poly[i], 5, true );
}
// debugging
cv::Scalar colors[3];
colors[0] = cv::Scalar(255, 0, 0);
colors[1] = cv::Scalar(0, 255, 0);
colors[2] = cv::Scalar(0, 0, 255);
for (int idx = 0; idx < contours_poly.size(); idx++) {
cv::drawContours(output, contours_poly, idx, colors[idx % 3]);
}
推荐答案
我想出了这个解决方案,因为我只需要围绕整个对象的边界框即可.
I came up with this solution, because I just need the bounding box around the whole object:
[... some processing ...]
// getting contours
std::vector<std::vector<cv::Point> > contours;
findContours(input, contours, CV_RETR_EXTERNAL, CV_CHAIN_APPROX_SIMPLE);
// approximate contours
std::vector<std::vector<cv::Point> > contours_poly( contours.size() );
for( int i = 0; i < contours.size(); i++ ) {
approxPolyDP(cv::Mat(contours[i]), contours_poly[i], 5, true );
}
// merge all contours into one vector
std::vector<cv::Point> merged_contour_points;
for (int i = 0; i < contours_poly.size(); i++) {
for (int j = 0; j < contours_poly[i].size(); j++) {
merged_contour_points.push_back(contours_poly[i][j]);
}
}
// get rotated bounding box
std::vector<cv::Point> hull;
cv::convexHull(cv::Mat(merged_contour_points),hull);
cv::Mat hull_points(hull);
cv::RotatedRect rotated_bounding_rect = minAreaRect(hull_points);
有时消除胡椒粉噪音可以带来更好的效果:
Sometimes removing pepper noise can lead to better results:
void removePepperNoise(cv::Mat &mask)
{
for ( int y=2; y<mask.rows-2; y++ ) {
uchar *pUp2 = mask.ptr(y-2);
uchar *pUp1 = mask.ptr(y-1);
uchar *pThis = mask.ptr(y);
uchar *pDown1 = mask.ptr(y+1);
uchar *pDown2 = mask.ptr(y+2);
pThis += 2;
pUp1 += 2;
pUp2 += 2;
pDown1 += 2;
pDown2 += 2;
for (int x=2; x<mask.cols-2; x++) {
uchar value = *pThis; // Get this pixel value (0 or 255). // Check if this is a black pixel that is surrounded by white pixels
if (value == 0) {
bool above, left, below, right, surroundings;
above = *(pUp2 - 2) && *(pUp2 - 1) && *(pUp2) && *(pUp2 + 1) && *(pUp2 + 2);
left = *(pUp1 - 2) && *(pThis - 2) && *(pDown1 - 2);
below = *(pDown2 - 2) && *(pDown2 - 1) && *(pDown2) && *(pDown2 + 1) && *(pDown2 + 2);
right = *(pUp1 + 2) && *(pThis + 2) && *(pDown1 + 2);
surroundings = above && left && below && right;
if (surroundings == true) {
// Fill the whole 5x5 block as white. Since we know
// the 5x5 borders are already white, we just need to
// fill the 3x3 inner region.
*(pUp1 - 1) = 255;
*(pUp1 + 0) = 255;
*(pUp1 + 1) = 255;
*(pThis - 1) = 255;
*(pThis + 0) = 255;
*(pThis + 1) = 255;
*(pDown1 - 1) = 255;
*(pDown1 + 0) = 255;
*(pDown1 + 1) = 255;
// Since we just covered the whole 5x5 block with
// white, we know the next 2 pixels won't be black,
// so skip the next 2 pixels on the right.
pThis += 2;
pUp1 += 2;
pUp2 += 2;
pDown1 += 2;
pDown2 += 2;
}
}
// Move to the next pixel on the right.
pThis++;
pUp1++;
pUp2++;
pDown1++;
pDown2++;
}
}
}
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