| 123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354 |
- #!/usr/bin/env python
- '''
- Morphology operations.
- '''
- # Python 2/3 compatibility
- from __future__ import print_function
- import sys
- PY3 = sys.version_info[0] == 3
- import numpy as np
- import cv2 as cv
- from tests_common import NewOpenCVTests
- class morphology_test(NewOpenCVTests):
- def test_morphology(self):
- fn = 'samples/data/rubberwhale1.png'
- img = self.get_sample(fn)
- modes = ['erode/dilate', 'open/close', 'blackhat/tophat', 'gradient']
- str_modes = ['ellipse', 'rect', 'cross']
- referenceHashes = { modes[0]: '071a526425b79e45b4d0d71ef51b0562', modes[1] : '071a526425b79e45b4d0d71ef51b0562',
- modes[2] : '427e89f581b7df1b60a831b1ed4c8618', modes[3] : '0dd8ad251088a63d0dd022bcdc57361c'}
- def update(cur_mode):
- cur_str_mode = str_modes[0]
- sz = 10
- iters = 1
- opers = cur_mode.split('/')
- if len(opers) > 1:
- sz = sz - 10
- op = opers[sz > 0]
- sz = abs(sz)
- else:
- op = opers[0]
- sz = sz*2+1
- str_name = 'MORPH_' + cur_str_mode.upper()
- oper_name = 'MORPH_' + op.upper()
- st = cv.getStructuringElement(getattr(cv, str_name), (sz, sz))
- return cv.morphologyEx(img, getattr(cv, oper_name), st, iterations=iters)
- for mode in modes:
- res = update(mode)
- self.assertEqual(self.hashimg(res), referenceHashes[mode])
- if __name__ == '__main__':
- NewOpenCVTests.bootstrap()
|
