Open Source Computer Vision Library https://opencv.org/
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#!/usr/bin/env python
'''
===============================================================================
Interactive Image Segmentation using GrabCut algorithm.
This sample shows interactive image segmentation using grabcut algorithm.
USAGE:
python grabcut.py <filename>
README FIRST:
Two windows will show up, one for input and one for output.
At first, in input window, draw a rectangle around the object using
mouse right button. Then press 'n' to segment the object (once or a few times)
For any finer touch-ups, you can press any of the keys below and draw lines on
the areas you want. Then again press 'n' for updating the output.
Key '0' - To select areas of sure background
Key '1' - To select areas of sure foreground
Key '2' - To select areas of probable background
Key '3' - To select areas of probable foreground
Key 'n' - To update the segmentation
Key 'r' - To reset the setup
Key 's' - To save the results
===============================================================================
'''
# Python 2/3 compatibility
from __future__ import print_function
import numpy as np
import cv2 as cv
import sys
class App():
BLUE = [255,0,0] # rectangle color
RED = [0,0,255] # PR BG
GREEN = [0,255,0] # PR FG
BLACK = [0,0,0] # sure BG
WHITE = [255,255,255] # sure FG
DRAW_BG = {'color' : BLACK, 'val' : 0}
DRAW_FG = {'color' : WHITE, 'val' : 1}
DRAW_PR_FG = {'color' : GREEN, 'val' : 3}
DRAW_PR_BG = {'color' : RED, 'val' : 2}
# setting up flags
rect = (0,0,1,1)
drawing = False # flag for drawing curves
rectangle = False # flag for drawing rect
rect_over = False # flag to check if rect drawn
rect_or_mask = 100 # flag for selecting rect or mask mode
value = DRAW_FG # drawing initialized to FG
thickness = 3 # brush thickness
def onmouse(self, event, x, y, flags, param):
# Draw Rectangle
if event == cv.EVENT_RBUTTONDOWN:
self.rectangle = True
self.ix, self.iy = x,y
elif event == cv.EVENT_MOUSEMOVE:
if self.rectangle == True:
self.img = self.img2.copy()
cv.rectangle(self.img, (self.ix, self.iy), (x, y), self.BLUE, 2)
self.rect = (min(self.ix, x), min(self.iy, y), abs(self.ix - x), abs(self.iy - y))
self.rect_or_mask = 0
elif event == cv.EVENT_RBUTTONUP:
self.rectangle = False
self.rect_over = True
cv.rectangle(self.img, (self.ix, self.iy), (x, y), self.BLUE, 2)
self.rect = (min(self.ix, x), min(self.iy, y), abs(self.ix - x), abs(self.iy - y))
self.rect_or_mask = 0
print(" Now press the key 'n' a few times until no further change \n")
# draw touchup curves
if event == cv.EVENT_LBUTTONDOWN:
if self.rect_over == False:
print("first draw rectangle \n")
else:
self.drawing = True
cv.circle(self.img, (x,y), self.thickness, self.value['color'], -1)
cv.circle(self.mask, (x,y), self.thickness, self.value['val'], -1)
elif event == cv.EVENT_MOUSEMOVE:
if self.drawing == True:
cv.circle(self.img, (x, y), self.thickness, self.value['color'], -1)
cv.circle(self.mask, (x, y), self.thickness, self.value['val'], -1)
elif event == cv.EVENT_LBUTTONUP:
if self.drawing == True:
self.drawing = False
cv.circle(self.img, (x, y), self.thickness, self.value['color'], -1)
cv.circle(self.mask, (x, y), self.thickness, self.value['val'], -1)
def run(self):
# Loading images
if len(sys.argv) == 2:
filename = sys.argv[1] # for drawing purposes
else:
print("No input image given, so loading default image, lena.jpg \n")
print("Correct Usage: python grabcut.py <filename> \n")
filename = 'lena.jpg'
self.img = cv.imread(cv.samples.findFile(filename))
self.img2 = self.img.copy() # a copy of original image
self.mask = np.zeros(self.img.shape[:2], dtype = np.uint8) # mask initialized to PR_BG
self.output = np.zeros(self.img.shape, np.uint8) # output image to be shown
# input and output windows
cv.namedWindow('output')
cv.namedWindow('input')
cv.setMouseCallback('input', self.onmouse)
cv.moveWindow('input', self.img.shape[1]+10,90)
print(" Instructions: \n")
print(" Draw a rectangle around the object using right mouse button \n")
while(1):
cv.imshow('output', self.output)
cv.imshow('input', self.img)
k = cv.waitKey(1)
# key bindings
if k == 27: # esc to exit
break
elif k == ord('0'): # BG drawing
print(" mark background regions with left mouse button \n")
self.value = self.DRAW_BG
elif k == ord('1'): # FG drawing
print(" mark foreground regions with left mouse button \n")
self.value = self.DRAW_FG
elif k == ord('2'): # PR_BG drawing
self.value = self.DRAW_PR_BG
elif k == ord('3'): # PR_FG drawing
self.value = self.DRAW_PR_FG
elif k == ord('s'): # save image
bar = np.zeros((self.img.shape[0], 5, 3), np.uint8)
res = np.hstack((self.img2, bar, self.img, bar, self.output))
cv.imwrite('grabcut_output.png', res)
print(" Result saved as image \n")
elif k == ord('r'): # reset everything
print("resetting \n")
self.rect = (0,0,1,1)
self.drawing = False
self.rectangle = False
self.rect_or_mask = 100
self.rect_over = False
self.value = self.DRAW_FG
self.img = self.img2.copy()
self.mask = np.zeros(self.img.shape[:2], dtype = np.uint8) # mask initialized to PR_BG
self.output = np.zeros(self.img.shape, np.uint8) # output image to be shown
elif k == ord('n'): # segment the image
print(""" For finer touchups, mark foreground and background after pressing keys 0-3
and again press 'n' \n""")
try:
if (self.rect_or_mask == 0): # grabcut with rect
bgdmodel = np.zeros((1, 65), np.float64)
fgdmodel = np.zeros((1, 65), np.float64)
cv.grabCut(self.img2, self.mask, self.rect, bgdmodel, fgdmodel, 1, cv.GC_INIT_WITH_RECT)
self.rect_or_mask = 1
elif self.rect_or_mask == 1: # grabcut with mask
bgdmodel = np.zeros((1, 65), np.float64)
fgdmodel = np.zeros((1, 65), np.float64)
cv.grabCut(self.img2, self.mask, self.rect, bgdmodel, fgdmodel, 1, cv.GC_INIT_WITH_MASK)
except:
import traceback
traceback.print_exc()
mask2 = np.where((self.mask==1) + (self.mask==3), 255, 0).astype('uint8')
self.output = cv.bitwise_and(self.img2, self.img2, mask=mask2)
print('Done')
if __name__ == '__main__':
print(__doc__)
App().run()
cv.destroyAllWindows()