分水岭(20)
代码:
import cv2 as cv import numpy as np # 分水岭算法 def water_image(): print(src.shape) blurred = cv.pyrMeanShiftFiltering(src, 10, 100) # 去除噪点 # gray\binary image gray = cv.cvtColor(blurred, cv.COLOR_BGR2GRAY) ret, binary = cv.threshold(gray, 0, 255, cv.THRESH_BINARY | cv.THRESH_OTSU) cv.imshow("二值图像", binary) # morphology operation kernel = cv.getStructuringElement(cv.MORPH_RECT, (3, 3)) mb = cv.morphologyEx(binary, cv.MORPH_OPEN, kernel, iterations=2) sure_bg = cv.dilate(mb, kernel, iterations=3) cv.imshow("形态操作", sure_bg) # distance transform dist = cv.distanceTransform(mb, cv.DIST_L2, 3) dist_output = cv.normalize(dist, 0, 1.0, cv.NORM_MINMAX) cv.imshow("距离变换", dist_output*70) ret, surface = cv.threshold(dist, dist.max()*0.6, 255, cv.THRESH_BINARY) cv.imshow("寻找种子", surface) surface_fg = np.uint8(surface) unknown = cv.subtract(sure_bg, surface_fg) ret, markers = cv.connectedComponents(surface_fg) print(ret) # watershed transfrom markers += 1 markers[unknown == 255] = 0 markers = cv.watershed(src, markers=markers) src[markers == -1] = [0, 0, 255] cv.imshow("分水岭结果", src) src = cv.imread("C://02.png") cv.imshow("原来", src) water_image() cv.waitKey(0) cv.destroyAllWindows()
结果