def _print_metric(prefix, key, unit, frac_digits=0):
def format_frac(k, sign=False):
format_string = '%'
if sign:
format_string += '+'
format_string += '.%d' % frac_digits
format_string += 'f'
return (format_string % k) + unit
ctrl_sample = ctrl_perfs[key]
expt_sample = expt_perfs[key]
ctrl_median = statistics.compute_median(ctrl_sample)
expt_median = statistics.compute_median(expt_sample)
diff_estimate_lower, diff_estimate_upper = (
bootstrap_estimation(
ctrl_sample, expt_sample,
statistics.compute_median,
parsed_args.confidence_level))
if diff_estimate_upper < 0:
significance = '[--]'
elif diff_estimate_lower > 0:
significance = '[++]'
else:
significance = '[not sgfnt.]'
print ' %s: ctrl=%s, expt=%s, diffCI=(%s,%s) %s' % (
prefix,
format_frac(ctrl_median),
format_frac(expt_median),
format_frac(diff_estimate_lower, sign=True),
format_frac(diff_estimate_upper, sign=True),
significance)
def _print_metric(prefix, key, unit, frac_digits=0):
def format_frac(k, sign=False):
format_string = '%'
if sign:
format_string += '+'
format_string += '.%d' % frac_digits
format_string += 'f'
return (format_string % k) + unit
ctrl_sample = ctrl_perfs[key]
expt_sample = expt_perfs[key]
ctrl_median = statistics.compute_median(ctrl_sample)
expt_median = statistics.compute_median(expt_sample)
diff_estimate_lower, diff_estimate_upper = (bootstrap_estimation(
ctrl_sample, expt_sample, statistics.compute_median,
parsed_args.confidence_level))
if diff_estimate_upper < 0:
significance = '[--]'
elif diff_estimate_lower > 0:
significance = '[++]'
else:
significance = '[not sgfnt.]'
print ' %s: ctrl=%s, expt=%s, diffCI=(%s,%s) %s' % (
prefix, format_frac(ctrl_median), format_frac(expt_median),
format_frac(diff_estimate_lower, sign=True),
format_frac(diff_estimate_upper, sign=True), significance)
def test_compute_percentiles(self):
self.assertTrue(
all(map(math.isnan, statistics.compute_percentiles([]))))
self.assertEquals(statistics.compute_median([5, 8]),
statistics.compute_percentiles([5, 8], [50])[0])
self.assertEquals(statistics.compute_median([2, 3, 7]),
statistics.compute_percentiles([2, 3, 7], [50])[0])
# All expected values below agree with Google Docs.
self.assertEquals((42, 42), statistics.compute_percentiles([42]))
self.assertEquals((6.5, 7.7), statistics.compute_percentiles([5, 8]))
self.assertEquals((3, 6.2), statistics.compute_percentiles([2, 3, 7]))
self.assertEquals((5, 8.4),
statistics.compute_percentiles([2, 3, 7, 9]))
self.assertEquals((7, 63.6),
statistics.compute_percentiles([2, 3, 7, 9, 100]))
self.assertEquals((39.5, 43.4),
statistics.compute_percentiles(
[6, 7, 15, 36, 39, 40, 41, 42, 43, 47]))
self.assertEquals((40.0, 47.0),
statistics.compute_percentiles(
[6, 7, 15, 36, 39, 40, 41, 42, 43, 47, 49]))
self.assertEquals(
(37.5, 40.5),
statistics.compute_percentiles([7, 15, 36, 39, 40, 41]))
self.assertEquals(
(39, 42.2),
statistics.compute_percentiles([6, 7, 15, 36, 39, 40, 41, 42, 43]))
def test_compute_percentiles(self):
self.assertTrue(all(map(math.isnan, statistics.compute_percentiles([]))))
self.assertEquals(statistics.compute_median([5, 8]),
statistics.compute_percentiles([5, 8], [50])[0])
self.assertEquals(statistics.compute_median([2, 3, 7]),
statistics.compute_percentiles([2, 3, 7], [50])[0])
# All expected values below agree with Google Docs.
self.assertEquals((42, 42), statistics.compute_percentiles([42]))
self.assertEquals((6.5, 7.7), statistics.compute_percentiles([5, 8]))
self.assertEquals((3, 6.2), statistics.compute_percentiles([2, 3, 7]))
self.assertEquals((5, 8.4), statistics.compute_percentiles([2, 3, 7, 9]))
self.assertEquals((7, 63.6),
statistics.compute_percentiles([2, 3, 7, 9, 100]))
self.assertEquals((39.5, 43.4),
statistics.compute_percentiles([6, 7, 15, 36, 39, 40,
41, 42, 43, 47]))
self.assertEquals((40.0, 47.0),
statistics.compute_percentiles([6, 7, 15, 36, 39, 40,
41, 42, 43, 47, 49]))
self.assertEquals((37.5, 40.5),
statistics.compute_percentiles([7, 15, 36, 39, 40, 41]))
self.assertEquals((39, 42.2),
statistics.compute_percentiles([6, 7, 15, 36, 39, 40,
41, 42, 43]))
def test_compute_median(self): self.assertTrue(math.isnan(statistics.compute_median([]))) self.assertEquals(42, statistics.compute_median([42])) self.assertEquals(6.5, statistics.compute_median([5, 8])) self.assertEquals(3, statistics.compute_median([2, 3, 7]))
def test_compute_median(self):
self.assertTrue(math.isnan(statistics.compute_median([])))
self.assertEquals(42, statistics.compute_median([42]))
self.assertEquals(6.5, statistics.compute_median([5, 8]))
self.assertEquals(3, statistics.compute_median([2, 3, 7]))
