def test_round_digits_rounding(self):
val = "1.00011"
expected = "1.0001"
actual = utils.round_digits(val)
self.assertEquals(expected, actual)
val = "1.00016"
expected = "1.0002"
actual = utils.round_digits(val)
self.assertEquals(expected, actual)
def test_round_digits_rounding(self):
val = "1.00011"
expected = "1.0001"
actual = utils.round_digits(val)
self.assertEquals(expected, actual)
val = "1.00016"
expected = "1.0002"
actual = utils.round_digits(val)
self.assertEquals(expected, actual)
def _standardize_af(cls, value):
new_values = []
for val in value:
new_val = str(round(float(val.strip("%")) / 100, 6))
new_values.append(utils.round_digits(new_val))
return ",".join(new_values)
def _standardize_af(value):
new_values = []
for val in value:
new_values.append(utils.round_digits(val))
return ",".join(new_values)
def _standardize_af(cls, value):
new_values = []
for val in value:
new_val = str(round(float(val.strip("%")) / 100, 6))
new_values.append(utils.round_digits(new_val))
return ",".join(new_values)
def _standardize_af(value):
new_values = []
for val in value:
new_values.append(utils.round_digits(val))
return ",".join(new_values)
def _zscore_as_str(zscore):
if zscore == ".":
return zscore
else:
return utils.round_digits(repr(zscore))
def _standardize_af(value):
return utils.round_digits(value)
def _range(numeric_values):
if len(numeric_values) > 1:
value_range = str(max(numeric_values) - min(numeric_values))
return utils.round_digits(value_range)
return "."
def _average(numeric_values):
average = str(sum(numeric_values) / Decimal(len(numeric_values)))
return utils.round_digits(average)
def _zscore_as_str(zscore):
if zscore == ".":
return zscore
else:
return utils.round_digits(repr(zscore))
def _range(numeric_values):
if len(numeric_values) > 1:
value_range = str(max(numeric_values) - min(numeric_values))
return utils.round_digits(value_range)
return "."
def _average(numeric_values):
average = str(sum(numeric_values)/Decimal(len(numeric_values)))
return utils.round_digits(average)
