def test_roundness(): Y, X = -24 + np.indices((48, 48)).astype(float) r = roundness((Y**2. + X**2.) < 4**2.) assert r > 0 r2 = roundness((Y**2. + 2 * X**2.) < 4**2.) assert r2 > 0 assert r2 < r
def test_roundness(): Y,X = -24 + np.indices((48,48)).astype(float) r = roundness( (Y ** 2. + X**2.) < 4**2. ) assert r > 0 r2 = roundness( (Y ** 2. + 2* X**2.) < 4**2. ) assert r2 > 0 assert r2 < r
def test_roundness(): Y,X = -240 + np.indices((480,480)).astype(float) #X[0][0] = X[0][0] - 1 #print(X[0][0]) #print((Y ** 2. + X**2.) <= 100**2.) r = roundness( (Y ** 2. + X**2.) <= 100**2.) print(r) #print(X) #print(Y) #print((Y ** 2. + X**2.) <= 150**2.) r = roundness( ((Y+1) ** 2. + X**2.) <= 100**2. ) assert r > 0 print(r)
def test_zeros(): assert roundness(np.zeros((10, 10))) == 0 assert eccentricity(np.zeros((10, 10))) == 0 I = np.zeros((16, 16)) I[8:4:12] = 1 assert eccentricity(I) == 0
def test_zeros(): assert roundness(np.zeros((10,10))) == 0 assert eccentricity(np.zeros((10,10))) == 0 I = np.zeros((16,16)) I[8:4:12] = 1 assert eccentricity(I) == 0