def test_disagreement_large(self): ''' Test agreement upon a hypothetical dataset containing large disagreement. ''' agreement = actual_agreement_linear(LARGE_DISAGREEMENT) self.assertTrue(agreement >= 0) self.assertEqual(agreement, Decimal('0'))
def test_agreement_complete(self): ''' Test agreement upon a hypothetical dataset containing complete agreement. ''' agreement = actual_agreement_linear(COMPLETE_AGREEMENT) self.assertTrue(agreement >= 0) self.assertEqual(agreement, Decimal('1'))
def test_agreement_g2(self): ''' Test agreement upon Group 2 of Kazantseva (2012) data. ''' agreement = actual_agreement_linear(KAZANTSEVA2012_G2) self.assertTrue(agreement > 0) self.assertEqual(agreement, Decimal('0.4201773835920177383592017738'))
def test_agreement_g5(self): ''' Test agreement upon Group 5 of Kazantseva (2012) data. ''' agreement = actual_agreement_linear(KAZANTSEVA2012_G5) self.assertTrue(agreement > 0) self.assertEqual(agreement, Decimal('0.2564575645756457564575645756'))
def test_agreement_g2_ch2(self): ''' Test agreement upon Group 2, Chapter 2, of Kazantseva (2012) data. ''' data = KAZANTSEVA2012_G2['ch2'] data = {'ch2': data} agreement = actual_agreement_linear(data) self.assertTrue(agreement > 0) self.assertEqual(agreement, Decimal('0.5465116279069767441860465116'))
def test_agreement_g5_ch1(self): ''' Test agreement upon Group 5, Chapter 1, of Kazantseva (2012) data. ''' data = KAZANTSEVA2012_G5['ch1'] data = {'ch1': data} agreement = actual_agreement_linear(data) self.assertTrue(agreement > 0) self.assertEqual(agreement, Decimal('0.25'))