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I am using OpenCV's MSER feature detector to find text regions. With the following Python code, I can detect texts (and some non-texts) and draw polygonal curves around each alphabet. Now, I need to plot these texts (more specifically each alphabet) using matplotlib using different colors. Different colors are important here. I am new to matplotlib and I cannot figure out how to implement that. I seek your guidance. I do not need a full solution, but some hints will be helpful.

enter image description here

import numpy as np
import cv2
import matplotlib.pyplot as plt #plt.plot(x,y) plt.show()

img = cv2.imread('TestText.png')
mser = cv2.MSER_create()

gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)
vis = img.copy()

regions = mser.detectRegions(gray, None)
hulls = [cv2.convexHull(p.reshape(-1, 1, 2)) for p in regions]
cv2.polylines(vis, hulls, 1, (0, 255, 0)) 
# cv2.putText(vis, str('change'), (20, 20), cv2.FONT_HERSHEY_SIMPLEX, 2, (255, 0, 0))
# cv2.fillPoly(vis, hulls, (0, 255, 0))


# cv2.imwrite("test.png", vis)    
cv2.imshow('img', vis)
cv2.waitKey(0)
cv2.destroyAllWindows()
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  • use drawContours with CV_FILLED and some random color, as you would do with contours returned by findContours
    – Miki
    Dec 21, 2015 at 15:32

1 Answer 1

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May be, you want the result just like Matlab. You should do more steps to do to get the result. Find the coordinates, modify the values with random color.

enter image description here

Here is my Python 3 code for OpenCV 3.3 .

#!/usr/bin/python3
# 2017.10.05 10:52:58 CST
# 2017.10.05 13:27:18 CST
"""
Text detection with MSER, and fill with random colors for each detection.
"""

import numpy as np
import cv2

## Read image and change the color space
imgname = "handicapSign.jpg"
img = cv2.imread(imgname)
gray = cv2.cvtColor(img, cv2.COLOR_BGR2GRAY)

## Get mser, and set parameters
mser = cv2.MSER_create()
mser.setMinArea(100)
mser.setMaxArea(800)

## Do mser detection, get the coodinates and bboxes
coordinates, bboxes = mser.detectRegions(gray)

## Filter the coordinates
vis = img.copy()
coords = []
for coord in coordinates:
    bbox = cv2.boundingRect(coord)
    x,y,w,h = bbox
    if w< 10 or h < 10 or w/h > 5 or h/w > 5:
        continue
    coords.append(coord)

## colors 
colors = [[43, 43, 200], [43, 75, 200], [43, 106, 200], [43, 137, 200], [43, 169, 200], [43, 200, 195], [43, 200, 163], [43, 200, 132], [43, 200, 101], [43, 200, 69], [54, 200, 43], [85, 200, 43], [116, 200, 43], [148, 200, 43], [179, 200, 43], [200, 184, 43], [200, 153, 43], [200, 122, 43], [200, 90, 43], [200, 59, 43], [200, 43, 64], [200, 43, 95], [200, 43, 127], [200, 43, 158], [200, 43, 190], [174, 43, 200], [142, 43, 200], [111, 43, 200], [80, 43, 200], [43, 43, 200]]

## Fill with random colors
np.random.seed(0)
canvas1 = img.copy()
canvas2 = cv2.cvtColor(gray, cv2.COLOR_GRAY2BGR)
canvas3 = np.zeros_like(img)

for cnt in coords:
    xx = cnt[:,0]
    yy = cnt[:,1]
    color = colors[np.random.choice(len(colors))]
    canvas1[yy, xx] = color
    canvas2[yy, xx] = color
    canvas3[yy, xx] = color

## Save 
cv2.imwrite("result1.png", canvas1)
cv2.imwrite("result2.png", canvas2)
cv2.imwrite("result3.png", canvas3)

The original image (handicapSign.jpg):

enter image description here

The result:

enter image description here

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