mirror of
https://github.com/SickGear/SickGear.git
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454 lines
12 KiB
Python
454 lines
12 KiB
Python
#!/usr/bin/env python
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"""Humanizing functions for numbers."""
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import math
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import re
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from fractions import Fraction
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from .i18n import _gettext as _
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from .i18n import _ngettext
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from .i18n import _ngettext_noop as NS_
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from .i18n import _pgettext as P_
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from .i18n import thousands_separator
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def ordinal(value, gender="male"):
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"""Converts an integer to its ordinal as a string.
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For example, 1 is "1st", 2 is "2nd", 3 is "3rd", etc. Works for any integer or
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anything `int()` will turn into an integer. Anything other value will have nothing
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done to it.
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Examples:
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```pycon
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>>> ordinal(1)
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'1st'
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>>> ordinal(1002)
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'1002nd'
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>>> ordinal(103)
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'103rd'
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>>> ordinal(4)
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'4th'
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>>> ordinal(12)
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'12th'
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>>> ordinal(101)
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'101st'
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>>> ordinal(111)
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'111th'
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>>> ordinal("something else")
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'something else'
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>>> ordinal(None) is None
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True
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```
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Args:
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value (int, str, float): Integer to convert.
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gender (str): Gender for translations. Accepts either "male" or "female".
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Returns:
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str: Ordinal string.
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"""
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try:
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value = int(value)
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except (TypeError, ValueError):
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return value
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if gender == "male":
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t = (
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P_("0 (male)", "th"),
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P_("1 (male)", "st"),
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P_("2 (male)", "nd"),
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P_("3 (male)", "rd"),
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P_("4 (male)", "th"),
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P_("5 (male)", "th"),
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P_("6 (male)", "th"),
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P_("7 (male)", "th"),
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P_("8 (male)", "th"),
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P_("9 (male)", "th"),
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)
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else:
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t = (
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P_("0 (female)", "th"),
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P_("1 (female)", "st"),
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P_("2 (female)", "nd"),
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P_("3 (female)", "rd"),
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P_("4 (female)", "th"),
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P_("5 (female)", "th"),
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P_("6 (female)", "th"),
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P_("7 (female)", "th"),
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P_("8 (female)", "th"),
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P_("9 (female)", "th"),
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)
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if value % 100 in (11, 12, 13): # special case
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return f"{value}{t[0]}"
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return f"{value}{t[value % 10]}"
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def intcomma(value, ndigits=None):
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"""Converts an integer to a string containing commas every three digits.
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For example, 3000 becomes "3,000" and 45000 becomes "45,000". To maintain some
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compatibility with Django's `intcomma`, this function also accepts floats.
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Examples:
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```pycon
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>>> intcomma(100)
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'100'
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>>> intcomma("1000")
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'1,000'
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>>> intcomma(1_000_000)
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'1,000,000'
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>>> intcomma(1_234_567.25)
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'1,234,567.25'
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>>> intcomma(1234.5454545, 2)
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'1,234.55'
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>>> intcomma(14308.40, 1)
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'14,308.4'
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>>> intcomma(None) is None
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True
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```
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Args:
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value (int, float, str): Integer or float to convert.
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ndigits (int, None): Digits of precision for rounding after the decimal point.
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Returns:
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str: string containing commas every three digits.
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"""
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sep = thousands_separator()
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try:
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if isinstance(value, str):
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float(value.replace(sep, ""))
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else:
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float(value)
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except (TypeError, ValueError):
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return value
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if ndigits:
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orig = "{0:.{1}f}".format(value, ndigits)
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else:
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orig = str(value)
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new = re.sub(r"^(-?\d+)(\d{3})", rf"\g<1>{sep}\g<2>", orig)
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if orig == new:
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return new
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else:
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return intcomma(new)
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powers = [10**x for x in (3, 6, 9, 12, 15, 18, 21, 24, 27, 30, 33, 100)]
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human_powers = (
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NS_("thousand", "thousand"),
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NS_("million", "million"),
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NS_("billion", "billion"),
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NS_("trillion", "trillion"),
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NS_("quadrillion", "quadrillion"),
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NS_("quintillion", "quintillion"),
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NS_("sextillion", "sextillion"),
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NS_("septillion", "septillion"),
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NS_("octillion", "octillion"),
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NS_("nonillion", "nonillion"),
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NS_("decillion", "decillion"),
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NS_("googol", "googol"),
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)
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def intword(value, format="%.1f"):
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"""Converts a large integer to a friendly text representation.
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Works best for numbers over 1 million. For example, 1_000_000 becomes "1.0 million",
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1200000 becomes "1.2 million" and "1_200_000_000" becomes "1.2 billion". Supports up
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to decillion (33 digits) and googol (100 digits).
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Examples:
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```pycon
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>>> intword("100")
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'100'
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>>> intword("12400")
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'12.4 thousand'
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>>> intword("1000000")
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'1.0 million'
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>>> intword(1_200_000_000)
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'1.2 billion'
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>>> intword(8100000000000000000000000000000000)
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'8.1 decillion'
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>>> intword(None) is None
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True
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>>> intword("1234000", "%0.3f")
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'1.234 million'
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```
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Args:
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value (int, float, str): Integer to convert.
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format (str): To change the number of decimal or general format of the number
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portion.
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Returns:
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str: Friendly text representation as a string, unless the value passed could not
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be coaxed into an `int`.
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"""
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try:
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value = int(value)
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except (TypeError, ValueError):
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return value
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if value < powers[0]:
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return str(value)
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for ordinal, power in enumerate(powers[1:], 1):
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if value < power:
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chopped = value / float(powers[ordinal - 1])
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if float(format % chopped) == float(10**3):
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chopped = value / float(powers[ordinal])
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singular, plural = human_powers[ordinal]
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return (
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" ".join([format, _ngettext(singular, plural, math.ceil(chopped))])
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) % chopped
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else:
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singular, plural = human_powers[ordinal - 1]
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return (
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" ".join([format, _ngettext(singular, plural, math.ceil(chopped))])
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) % chopped
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return str(value)
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def apnumber(value):
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"""Converts an integer to Associated Press style.
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Examples:
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```pycon
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>>> apnumber(0)
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'zero'
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>>> apnumber(5)
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'five'
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>>> apnumber(10)
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'10'
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>>> apnumber("7")
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'seven'
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>>> apnumber("foo")
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'foo'
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>>> apnumber(None) is None
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True
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```
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Args:
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value (int, float, str): Integer to convert.
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Returns:
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str: For numbers 0-9, the number spelled out. Otherwise, the number. This always
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returns a string unless the value was not `int`-able, unlike the Django filter.
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"""
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try:
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value = int(value)
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except (TypeError, ValueError):
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return value
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if not 0 <= value < 10:
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return str(value)
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return (
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_("zero"),
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_("one"),
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_("two"),
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_("three"),
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_("four"),
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_("five"),
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_("six"),
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_("seven"),
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_("eight"),
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_("nine"),
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)[value]
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def fractional(value):
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"""Convert to fractional number.
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There will be some cases where one might not want to show ugly decimal places for
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floats and decimals.
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This function returns a human-readable fractional number in form of fractions and
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mixed fractions.
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Pass in a string, or a number or a float, and this function returns:
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* a string representation of a fraction
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* or a whole number
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* or a mixed fraction
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Examples:
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```pycon
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>>> fractional(0.3)
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'3/10'
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>>> fractional(1.3)
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'1 3/10'
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>>> fractional(float(1/3))
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'1/3'
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>>> fractional(1)
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'1'
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>>> fractional("ten")
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'ten'
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>>> fractional(None) is None
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True
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```
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Args:
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value (int, float, str): Integer to convert.
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Returns:
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str: Fractional number as a string.
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"""
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try:
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number = float(value)
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except (TypeError, ValueError):
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return value
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whole_number = int(number)
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frac = Fraction(number - whole_number).limit_denominator(1000)
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numerator = frac._numerator
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denominator = frac._denominator
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if whole_number and not numerator and denominator == 1:
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# this means that an integer was passed in
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# (or variants of that integer like 1.0000)
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return f"{whole_number:.0f}"
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elif not whole_number:
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return f"{numerator:.0f}/{denominator:.0f}"
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else:
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return f"{whole_number:.0f} {numerator:.0f}/{denominator:.0f}"
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def scientific(value, precision=2):
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"""Return number in string scientific notation z.wq x 10ⁿ.
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Examples:
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```pycon
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>>> scientific(float(0.3))
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'3.00 x 10⁻¹'
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>>> scientific(int(500))
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'5.00 x 10²'
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>>> scientific(-1000)
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'1.00 x 10⁻³'
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>>> scientific(1000, 1)
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'1.0 x 10³'
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>>> scientific(1000, 3)
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'1.000 x 10³'
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>>> scientific("99")
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'9.90 x 10¹'
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>>> scientific("foo")
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'foo'
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>>> scientific(None) is None
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True
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```
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Args:
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value (int, float, str): Input number.
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precision (int): Number of decimal for first part of the number.
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Returns:
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str: Number in scientific notation z.wq x 10ⁿ.
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"""
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exponents = {
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"0": "⁰",
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"1": "¹",
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"2": "²",
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"3": "³",
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"4": "⁴",
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"5": "⁵",
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"6": "⁶",
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"7": "⁷",
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"8": "⁸",
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"9": "⁹",
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"+": "⁺",
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"-": "⁻",
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}
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negative = False
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try:
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if "-" in str(value):
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value = str(value).replace("-", "")
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negative = True
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if isinstance(value, str):
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value = float(value)
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fmt = "{:.%se}" % str(int(precision))
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n = fmt.format(value)
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except (ValueError, TypeError):
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return value
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part1, part2 = n.split("e")
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if "-0" in part2:
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part2 = part2.replace("-0", "-")
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if "+0" in part2:
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part2 = part2.replace("+0", "")
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new_part2 = []
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if negative:
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new_part2.append(exponents["-"])
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for char in part2:
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new_part2.append(exponents[char])
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final_str = part1 + " x 10" + "".join(new_part2)
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return final_str
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def clamp(value, format="{:}", floor=None, ceil=None, floor_token="<", ceil_token=">"):
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"""Returns number with the specified format, clamped between floor and ceil.
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If the number is larger than ceil or smaller than floor, then the respective limit
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will be returned, formatted and prepended with a token specifying as such.
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Examples:
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```pycon
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>>> clamp(123.456)
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'123.456'
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>>> clamp(0.0001, floor=0.01)
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'<0.01'
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>>> clamp(0.99, format="{:.0%}", ceil=0.99)
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'99%'
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>>> clamp(0.999, format="{:.0%}", ceil=0.99)
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'>99%'
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>>> clamp(1, format=intword, floor=1e6, floor_token="under ")
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'under 1.0 million'
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>>> clamp(None) is None
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True
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```
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Args:
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value (int, float): Input number.
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format (str OR callable): Can either be a formatting string, or a callable
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function than receives value and returns a string.
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floor (int, float): Smallest value before clamping.
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ceil (int, float): Largest value before clamping.
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floor_token (str): If value is smaller than floor, token will be prepended
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to output.
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ceil_token (str): If value is larger than ceil, token will be prepended
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to output.
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Returns:
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str: Formatted number. The output is clamped between the indicated floor and
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ceil. If the number if larger than ceil or smaller than floor, the output will
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be prepended with a token indicating as such.
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"""
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if value is None:
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return None
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if floor is not None and value < floor:
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value = floor
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token = floor_token
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elif ceil is not None and value > ceil:
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value = ceil
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token = ceil_token
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else:
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token = ""
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if isinstance(format, str):
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return token + format.format(value)
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elif callable(format):
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return token + format(value)
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else:
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raise ValueError(
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"Invalid format. Must be either a valid formatting string, or a function "
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"that accepts value and returns a string."
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)
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