opencv::轮廓周围绘制矩形框和圆形框
基于RDP算法实现,目的是减少多边形轮廓点数 approxPolyDP(InputArray curve, OutputArray approxCurve, double epsilon, bool closed)
cv::boundingRect(InputArray points)//得到轮廓周围最小矩形左上交点坐标和右下角点坐标,绘制一个矩形 cv::minAreaRect(InputArray points)//得到一个旋转的矩形,返回旋转矩形 cv::minEnclosingCircle( InputArray points, //得到最小区域圆形 Point2f& center, // 圆心位置 float& radius // 圆的半径 ) cv::fitEllipse(InputArray points)//得到最小椭圆
步骤
首先将图像变为二值图像
发现轮廓,找到图像轮廓
通过相关API在轮廓点上找到最小包含矩形和圆,旋转矩形与椭圆。
绘制它们。
Mat src, gray_src, drawImg; int threshold_v = 170; int threshold_max = 255; RNG rng(12345); void Contours_Callback(int, void*); int main(int argc, char** argv) { src = imread(STRPAHT2); if (!src.data) { printf("could not load image...\n"); return -1; } cvtColor(src, gray_src, CV_BGR2GRAY); blur(gray_src, gray_src, Size(3, 3), Point(-1, -1)); imshow("source_win", src); createTrackbar("Threshold Value:", "output_win", &threshold_v, threshold_max, Contours_Callback); Contours_Callback(0, 0); waitKey(0); return 0; } void Contours_Callback(int, void*) { Mat binary_output; vector<vector<Point>> contours; vector<Vec4i> hierachy; threshold(gray_src, binary_output, threshold_v, threshold_max, THRESH_BINARY); //imshow("binary image", binary_output); findContours(binary_output, contours, hierachy, RETR_TREE, CHAIN_APPROX_SIMPLE, Point(-1, -1)); vector<vector<Point>> contours_ploy(contours.size()); vector<Rect> ploy_rects(contours.size()); vector<Point2f> ccs(contours.size()); vector<float> radius(contours.size()); vector<RotatedRect> minRects(contours.size()); vector<RotatedRect> myellipse(contours.size()); for (size_t i = 0; i < contours.size(); i++) { //轮廓周围绘制矩形 approxPolyDP(Mat(contours[i]), contours_ploy[i], 3, true); //得到轮廓周围最小矩形左上交点坐标和右下角点坐标,绘制一个矩形 ploy_rects[i] = boundingRect(contours_ploy[i]); //得到一个旋转的矩形,返回旋转矩形 minEnclosingCircle(contours_ploy[i], ccs[i], radius[i]); if (contours_ploy[i].size() > 5) { myellipse[i] = fitEllipse(contours_ploy[i]); minRects[i] = minAreaRect(contours_ploy[i]); } } // draw it drawImg = Mat::zeros(src.size(), src.type()); Point2f pts[4]; for (size_t t = 0; t < contours.size(); t++) { Scalar color = Scalar(rng.uniform(0, 255), rng.uniform(0, 255), rng.uniform(0, 255)); //矩形 //rectangle(drawImg, ploy_rects[t], color, 2, 8); //圆 //circle(drawImg, ccs[t], radius[t], color, 2, 8); if (contours_ploy[t].size() > 5) { ellipse(drawImg, myellipse[t], color, 1, 8); minRects[t].points(pts); for (int r = 0; r < 4; r++) { line(drawImg, pts[r], pts[(r + 1) % 4], color, 1, 8); } } } imshow("output_win", drawImg); return; }