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answer_48.py
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answer_48.py
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import cv2
import numpy as np
import matplotlib.pyplot as plt
# Gray scale
def BGR2GRAY(img):
b = img[:, :, 0].copy()
g = img[:, :, 1].copy()
r = img[:, :, 2].copy()
# Gray scale
out = 0.2126 * r + 0.7152 * g + 0.0722 * b
out = out.astype(np.uint8)
return out
# Otsu Binalization
def otsu_binarization(img, th=128):
H, W = img.shape
out = img.copy()
max_sigma = 0
max_t = 0
# determine threshold
for _t in range(1, 255):
v0 = out[np.where(out < _t)]
m0 = np.mean(v0) if len(v0) > 0 else 0.
w0 = len(v0) / (H * W)
v1 = out[np.where(out >= _t)]
m1 = np.mean(v1) if len(v1) > 0 else 0.
w1 = len(v1) / (H * W)
sigma = w0 * w1 * ((m0 - m1) ** 2)
if sigma > max_sigma:
max_sigma = sigma
max_t = _t
# Binarization
print("threshold >>", max_t)
th = max_t
out[out < th] = 0
out[out >= th] = 255
return out
# Morphology Dilate
def Morphology_Dilate(img, Erode_time=1):
H, W = img.shape
out = img.copy()
# kernel
MF = np.array(((0, 1, 0),
(1, 0, 1),
(0, 1, 0)), dtype=np.int)
# each erode
for i in range(Erode_time):
tmp = np.pad(out, (1, 1), 'edge')
# erode
for y in range(1, H+1):
for x in range(1, W+1):
if np.sum(MF * tmp[y-1:y+2, x-1:x+2]) < 255*4:
out[y-1, x-1] = 0
return out
# Read image
img = cv2.imread("imori.jpg").astype(np.float32)
# Grayscale
gray = BGR2GRAY(img)
# Otsu's binarization
otsu = otsu_binarization(gray)
# Morphology - dilate
out = Morphology_Dilate(otsu, Erode_time=2)
# Save result
cv2.imwrite("out.jpg", out)
cv2.imshow("result", out)
cv2.waitKey(0)
cv2.destroyAllWindows()