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I want to split an image into multiple parts using Python based on the faint grey line between questions.(as in image below). Is there a way to do so? Image to split

1 Answer 1

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You can create a mask of the horizontal lines, then use cv2.reduce to reduce the image to a column using the MAX value. By detecting contours you can calculate the starting vertical coordinate of the lines in the reduced mask and finally, crop the image using this info. Something like this:

# Set image path
imagePath = "D://opencvImages//"
imageName = "zlSGu.jpg"

# Read image:
inputImage = cv2.imread(imagePath + imageName)
# Store a copy for results:
inputCopy = inputImage.copy()

# Convert BGR to grayscale:
grayInput = cv2.cvtColor(inputImage, cv2.COLOR_BGR2GRAY)

# Set a lower and upper range for the threshold:
lowerThresh = 230
upperThresh = 235

# Get the lines mask:
mask = cv2.inRange(grayInput, lowerThresh, upperThresh)

This gives you the lines mask:

Which is a little bit noisy, your image is compressed. Let's apply an areaFilter with a minimum area of 50 to filter out this noise:

# Set a filter area on the mask:
minArea = 50
mask = areaFilter(minArea, mask)

This is the mask filtered:

Now, reduce the image to a column using the MAX (255) intensity value:

# Reduce matrix to a n row x 1 columns matrix:
reducedImage = cv2.reduce(mask, 1, cv2.REDUCE_MAX)

This is the reduced image, which is a little bit hard to see here, but only the gray lines (reduced to a column) are shown. Now, let's detect the starting and ending points of these lines - which are really just a vertical coordinate. We can calculate this coordinate from the line's bounding box:

# Find the big contours/blobs on the filtered image:
contours, hierarchy = cv2.findContours(mask, cv2.RETR_CCOMP, cv2.CHAIN_APPROX_SIMPLE)

# Store the lines here:
separatingLines = []

# We need some dimensions of the original image:
imageHeight = inputCopy.shape[0]
imageWidth = inputCopy.shape[1]

# Look for the outer bounding boxes:
for _, c in enumerate(contours):

    # Approximate the contour to a polygon:
    contoursPoly = cv2.approxPolyDP(c, 3, True)

    # Convert the polygon to a bounding rectangle:
    boundRect = cv2.boundingRect(contoursPoly)

    # Get the bounding rect's data:
    [x, y, w, h] = boundRect

    # Start point and end point:
    lineCenter = y + (0.5 * h)
    startPoint = (0,int(lineCenter))
    endPoint = (int(imageWidth), int(lineCenter))

    # Store the end point in list:
    separatingLines.append( endPoint )

    # Draw the line using the start and end points:
    color = (0, 255, 0)
    cv2.line(inputCopy, startPoint, endPoint, color, 2)

    # Show the image:
    cv2.imshow("inputCopy", inputCopy)
    cv2.waitKey(0)

I've additionally stored the line's data in the separatingLines list. Also, just for displaying purposes, I've drawn the lines on the original input. This is the image of the identified lines:

Now, these lines are unsorted. Let's sort them based on their vertical coordinate. After the lines are correctly sorted, we can crop each section as we loop through the lines list. Like this:

# Sort the list based on ascending Y values:
separatingLines = sorted(separatingLines, key=lambda x: x[1])

# The past processed vertical coordinate:
pastY = 0

# Crop the sections:
for i in range(len(separatingLines)):

    # Get the current line width and starting y:
    (sectionWidth, sectionHeight) = separatingLines[i]

    # Set the ROI:
    x = 0
    y = pastY
    cropWidth = sectionWidth
    cropHeight = sectionHeight - y

    # Crop the ROI:
    currentCrop = inputImage[y:y + cropHeight, x:x + cropWidth]
    cv2.imshow("Current Crop", currentCrop)
    cv2.waitKey(0)

    # Set the next starting vertical coordinate:
    pastY = sectionHeight

And these are the cropped portions of the image. Note that these are individual images:

This is the definition and implementation of the areaFilter function:

def areaFilter(minArea, inputImage):
    # Perform an area filter on the binary blobs:
    componentsNumber, labeledImage, componentStats, componentCentroids = \
    cv2.connectedComponentsWithStats(inputImage, connectivity=4)

    # Get the indices/labels of the remaining components based on the area stat
    # (skip the background component at index 0)
    remainingComponentLabels = [i for i in range(1, componentsNumber) if componentStats[i][4] >= minArea]

    # Filter the labeled pixels based on the remaining labels,
    # assign pixel intensity to 255 (uint8) for the remaining pixels
    filteredImage = np.where(np.isin(labeledImage, remainingComponentLabels) == True, 255, 0).astype('uint8')

    return filteredImage

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