def test_filternoiselines(self): """Compare the output of alllines filtered by isnoiseline() with the known non-noise lines.""" nonNoiseLines = [ x for x in alllines.split('\n') if not NTPPeers.isnoiseline(x) ] self.assertEqual(nonNoiseLines, inactivepeerlines.split('\n') + peerlines.split('\n'))
def test_filternoiselines(self): """ Compare the output of alllines filtered by isnoiseline() with the known non-noise lines. """ nonNoiseLines = [x for x in alllines.split('\n') if not NTPPeers.isnoiseline(x)] self.assertEqual(nonNoiseLines, peerlines.split('\n'))
def test_isntnoiseline(self): for s in peerlines.split('\n'): self.assertFalse(NTPPeers.isnoiseline(s))
def test_isnoiseline(self): for s in noiselines.split('\n'): self.assertTrue(NTPPeers.isnoiseline(s))
def test_peerisntnoise(self): """Ensure valid peer lines aren't classified as noise.""" for s in peerlines.split('\n'): self.assertFalse(NTPPeers.isnoiseline(s))
def test_isnoiseline(self): """Ensure noise lines are classified as such.""" for s in noiselines.split('\n'): self.assertTrue(NTPPeers.isnoiseline(s))
def test_isntnoiseline(self): for s in peerlines.split('\n'): self.assertFalse(NTPPeers.isnoiseline(s))
def test_isnoiseline(self): for s in noiselines.split('\n'): self.assertTrue(NTPPeers.isnoiseline(s))
def test_peerisntnoise(self): """Ensure valid peer lines aren't classified as noise.""" for s in peerlines.split('\n'): self.assertFalse(NTPPeers.isnoiseline(s))
def test_isnoiseline(self): """Ensure noise lines are classified as such.""" for s in noiselines.split('\n'): self.assertTrue(NTPPeers.isnoiseline(s))