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I am trying to implement the algorithm found here in python with OpenCV. I am new to OpenCV so bare with me.

I am trying to implement the part of the algorithm that remove irrelevant edge boundaries based on the number of interior boundaries that they have.

  • If the current edge boundary has exactly one or two interior edge boundaries, the internal boundaries can be ignored
  • If the current edge boundary has more than two interior edge boundaries, it can be ignored

I am having trouble determining the tree structure of the contours I have extracted from the image.

My current source:

import cv2

# Load the image
img = cv2.imread('test.png')
cv2.copyMakeBorder(img, 50,50,50,50,cv2.BORDER_CONSTANT, img, (255,255,255))

# Split out each channel
blue = cv2.split(img)[0]
green = cv2.split(img)[1]
red = cv2.split(img)[2]

# Run canny edge detection on each channel
blue_edges = cv2.Canny(blue, 1, 255)
green_edges = cv2.Canny(green, 1, 255)
red_edges = cv2.Canny(red, 1, 255)

# Join edges back into image
edges = blue_edges | green_edges | red_edges

# Find the contours
contours,hierarchy = cv2.findContours(edges.copy(),cv2.RETR_TREE,cv2.CHAIN_APPROX_SIMPLE)

# For each contour, find the bounding rectangle and draw it
for cnt in contours:
    x,y,w,h = cv2.boundingRect(cnt)

# Finally show the image

I assumed that using RETR_TREE would give me a nice nested array of the contours but that doesn't seem to be the case. How do I retrieve the tree structure of my contours?

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You can find more details on hierarchy on this article : opencvpython.blogspot.com/2013/01/contours-5-hierarchy.html –  Abid Rahman K Jan 11 '13 at 11:40
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1 Answer

up vote 4 down vote accepted

The main confusion here is probably the fact that the hierarchy returned is a numpy array with more dimensions than necessary. On top of that, it looks like the Python FindContours function returns a tuple that is a LIST of contours, and and NDARRAY of the hierarchy...

You can get a sensible array of hierarchy information that is more in line with the C docs by just taking hierarchy[0]. It would then be an appropriate shape to zip, for example, with the contours.

Below is an example that, will draw the outermost rectangles in green and the innermost rectangles in red on this image:

enter image description here


enter image description here

Note, by the way, that the wording in the OpenCV docs is a little ambiguous, but hierarchyDataOfAContour[2] describes the children of that contour (if it is negative then that is an inner contour), and hierarchyDataOfAContour[3] describes the parents of that contour (if it is negative then that is an exterior contour).

Also note: I looked into implementing the algorithm that you referred to in the OCR paper, and I saw that FindContours was giving me a lot of repeats of near-identical contours. This would complicate the finding of "Edge Boxes" as the paper describes. This may be because the Canny thresholds were too low (note that I was playing around with them as described in the paper), but there may be some way to reduce that effect or just look at the average deviation of the four corners of all the boxes and eliminate duplicates...

import cv2
import numpy

# Load the image
img = cv2.imread("/ContourTest.PNG")

# Split out each channel
blue, green, red = cv2.split(img)

def medianCanny(img, thresh1, thresh2):
    median = numpy.median(img)
    img = cv2.Canny(img, int(thresh1 * median), int(thresh2 * median))
    return img

# Run canny edge detection on each channel
blue_edges = medianCanny(blue, 0.2, 0.3)
green_edges = medianCanny(green, 0.2, 0.3)
red_edges = medianCanny(red, 0.2, 0.3)

# Join edges back into image
edges = blue_edges | green_edges | red_edges

# Find the contours
contours,hierarchy = cv2.findContours(edges, cv2.RETR_TREE,cv2.CHAIN_APPROX_SIMPLE)

hierarchy = hierarchy[0] # get the actual inner list of hierarchy descriptions

# For each contour, find the bounding rectangle and draw it
for component in zip(contours, hierarchy):
    currentContour = component[0]
    currentHierarchy = component[1]
    x,y,w,h = cv2.boundingRect(currentContour)
    if currentHierarchy[2] < 0:
        # these are the innermost child components
    elif currentHierarchy[3] < 0:
        # these are the outermost parent components

# Finally show the image
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Thanks for the answer. I also ran into the same problem of getting duplicate contours. I posted to the OpenCV group but haven't heard anything: tech.groups.yahoo.com/group/OpenCV/message/88940 –  jasonlfunk Aug 4 '12 at 15:43
I have implemented the algorithm as well as I knew how. It seems to be working pretty well. Check it out at github.com/jasonlfunk/ocr-text-extraction –  jasonlfunk Aug 4 '12 at 15:44
Looks good. One other thing you might want to check out is the "Stroke Width Transform". Google it... The first hit's (paper by Epshtein) link is broken right now you can see it in "Quick View" –  bellkev Aug 7 '12 at 6:19
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