def test_fourth_quadrant(self): # check for calculation of fourth quadrant val = pupil_driver.det_angle(0.85, '(0.7, 0.49)', 0.65) self.assertTrue(val > 90) self.assertTrue(val < 180) val1 = pupil_driver.det_angle(0.85, '(0.56, 0.1)', 0.65) self.assertTrue(val1 > 90) self.assertTrue(val1 < 180)
def test_third_quadrant(self): # check for calculation of third quadrant val = pupil_driver.det_angle(0.85, '(0.4, 0.4)', 0.65) self.assertTrue(val > 180) self.assertTrue(val <= 270) val1 = pupil_driver.det_angle(0.85, '(0.1, 0.1)', 0.65) self.assertTrue(val1 > 180) self.assertTrue(val1 <= 270)
def test_second_quadrant(self): # check for calculation of second quadrant # first data point val = pupil_driver.det_angle(0.85, '(0.3, 0.65)', 0.65) self.assertTrue(val >= 270) self.assertTrue(val <= 360) # second data point val1 = pupil_driver.det_angle(0.85, '(0.45, 0.9)', 0.65) self.assertTrue(val1 >= 270) self.assertTrue(val1 <= 360)
def test_first_quadrant(self): # check for calculation of first quadrant # first point # pdb.set_trace() val = pupil_driver.det_angle(0.85, '(0.7, 0.6)', 0.65) self.assertTrue(val >= 0) self.assertTrue(val <= 90) # second point val1 = pupil_driver.det_angle(0.85, '(0.75, 0.5)', 0.65) print "val1 = %s" % (str(val1)) self.assertTrue(val1 <= 90)
def test_less_confident(self): # check for less confident self.assertEqual(pupil_driver.det_angle(0.50, '(0.60, 0.70)', 0.65), None) self.assertEqual(pupil_driver.det_angle(0.60, '(0.4, 0.4)', 0.65), None)
def test_nonangel(self): # check for within consider threshold self.assertEqual(pupil_driver.det_angle(1, '(0.5, 0.5)', 0.65), None) self.assertEqual(pupil_driver.det_angle(0.80, '(0.5, 0.55)', 0.65), None)