def testCorrelation(self): mm = Correlation(dependency=['close', 'open']) for i, (openPrice, closePrice) in enumerate(zip(self.samplesOpen, self.samplesClose)): mm.push(dict(open=openPrice, close=closePrice)) if i == 0: self.assertTrue(np.isnan(mm.result())) if i >= 1: expected = np.corrcoef(self.samplesOpen[:i + 1], self.samplesClose[:i + 1])[0, 1] calculated = mm.result() self.assertAlmostEqual(expected, calculated, 10, "at index {0:d}\n" "expected correlation: {1:f}\n" "calculated correlation: {2:f}".format(i, expected, calculated))
def testCorrelation(self): mm = Correlation(dependency=['close', 'open']) for i, (openPrice, closePrice) in enumerate( zip(self.samplesOpen, self.samplesClose)): mm.push(dict(open=openPrice, close=closePrice)) if i == 0: self.assertTrue(np.isnan(mm.result())) if i >= 1: expected = np.corrcoef(self.samplesOpen[:i + 1], self.samplesClose[:i + 1])[0, 1] calculated = mm.result() self.assertAlmostEqual( expected, calculated, 10, "at index {0:d}\n" "expected correlation: {1:f}\n" "calculated correlation: {2:f}".format( i, expected, calculated))
def testCompoundedOperator(self): ma5 = MovingAverage(5, 'x') maxer = Max('close') max5ma = Max('close') >> MovingAverage(5) max5ma2 = MovingAverage(5, Max('close')) average = Average('close') sumM = Sum('close') mvTest = Correlation(dependency=('x', 'y')) mvCorr = (Average('close') ^ Sum('close')) >> Correlation(dependency=('x', 'y')) for i, close in enumerate(self.sampleClose): data = {'close': close, 'open': 1.} maxer.push(data) data2 = {'x': maxer.result()} ma5.push(data2) max5ma.push(data) max5ma2.push(data) average.push(data) sumM.push(data) data3 = {'x': average.result(), 'y': sumM.result()} mvTest.push(data3) mvCorr.push(data) expected = ma5.result() calculated = max5ma.result() self.assertAlmostEqual( calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) calculated = max5ma2.result() self.assertAlmostEqual( calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) if i >= 1: expected = mvTest.result() calculated = mvCorr.result() self.assertAlmostEqual( calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) with self.assertRaises(ValueError): _ = Max('close') >> math.sqrt with self.assertRaises(ValueError): _ = (Max('close') ^ Min('close')) >> MovingCorrelation( 20, dependency=('x', 'y', 'z')) (Max('close') ^ Min('close')) >> MovingCorrelation( 20, dependency=('x', 'y'))
def testCompoundedOperator(self): ma5 = MovingAverage(5, 'x') maxer = Max('close') max5ma = Max('close') >> MovingAverage(5) max5ma2 = MovingAverage(5, Max('close')) average = Average('close') sumM = Sum('close') mvTest = Correlation(dependency=('x', 'y')) mvCorr = (Average('close') ^ Sum('close')) >> Correlation(dependency=('x', 'y')) for i, close in enumerate(self.sampleClose): data = {'close': close, 'open': open} maxer.push(data) data2 = {'x': maxer.result()} ma5.push(data2) max5ma.push(data) max5ma2.push(data) average.push(data) sumM.push(data) data3 = {'x': average.result(), 'y': sumM.result()} mvTest.push(data3) mvCorr.push(data) expected = ma5.result() calculated = max5ma.result() self.assertAlmostEqual(calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) calculated = max5ma2.result() self.assertAlmostEqual(calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) if i >= 1: expected = mvTest.result() calculated = mvCorr.result() self.assertAlmostEqual(calculated, expected, 12, "at index {0:d}\n" "expected: {1:f}\n" "calculated: {2:f}".format(i, expected, calculated)) with self.assertRaises(ValueError): _ = Max('close') >> math.sqrt with self.assertRaises(ValueError): _ = (Max('close') ^ Minimum('close')) >> MovingCorrelation(20, dependency=('x', 'y', 'z')) (Max('close') ^ Minimum('close')) >> MovingCorrelation(20, dependency=('x', 'y'))