def findEllipses(edges):
contours, _ = cv2.findContours(edges.copy(), cv2.RETR_LIST, cv2.CHAIN_APPROX_SIMPLE)
ellipseMask = np.zeros(edges.shape, dtype=np.uint8)
contourMask = np.zeros(edges.shape, dtype=np.uint8)
pi_4 = np.pi * 4
for i, contour in enumerate(contours):
if len(contour) < 5:
continue
area = cv2.contourArea(contour)
if area <= 100: # skip ellipses smaller then 10x10
continue
arclen = cv2.arcLength(contour, True)
circularity = (pi_4 * area) / (arclen * arclen)
ellipse = cv2.fitEllipse(contour)
poly = cv2.ellipse2Poly((int(ellipse[0][0]), int(ellipse[0][1])), (int(ellipse[1][0] / 2), int(ellipse[1][1] / 2)), int(ellipse[2]), 0, 360, 5)
# if contour is circular enough
if circularity > 0.6:
cv2.fillPoly(ellipseMask, [poly], 255)
continue
# if contour has enough similarity to an ellipse
similarity = cv2.matchShapes(poly.reshape((poly.shape[0], 1, poly.shape[1])), contour, cv2.cv.CV_CONTOURS_MATCH_I2, 0)
if similarity <= 0.2:
cv2.fillPoly(contourMask, [poly], 255)
return ellipseMask, contourMask
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