1105 lines
39 KiB
Python
1105 lines
39 KiB
Python
# -*- coding: utf-8 -*-
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"""
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babel.numbers
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~~~~~~~~~~~~~
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Locale dependent formatting and parsing of numeric data.
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The default locale for the functions in this module is determined by the
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following environment variables, in that order:
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* ``LC_NUMERIC``,
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* ``LC_ALL``, and
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* ``LANG``
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:copyright: (c) 2013-2021 by the Babel Team.
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:license: BSD, see LICENSE for more details.
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"""
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# TODO:
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# Padding and rounding increments in pattern:
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# - https://www.unicode.org/reports/tr35/ (Appendix G.6)
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import re
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from datetime import date as date_, datetime as datetime_
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import warnings
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from babel.core import default_locale, Locale, get_global
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from babel._compat import decimal, string_types
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try:
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# Python 2
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long
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except NameError:
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# Python 3
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long = int
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LC_NUMERIC = default_locale('LC_NUMERIC')
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class UnknownCurrencyError(Exception):
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"""Exception thrown when a currency is requested for which no data is available.
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"""
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def __init__(self, identifier):
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"""Create the exception.
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:param identifier: the identifier string of the unsupported currency
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"""
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Exception.__init__(self, 'Unknown currency %r.' % identifier)
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#: The identifier of the locale that could not be found.
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self.identifier = identifier
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def list_currencies(locale=None):
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""" Return a `set` of normalized currency codes.
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.. versionadded:: 2.5.0
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:param locale: filters returned currency codes by the provided locale.
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Expected to be a locale instance or code. If no locale is
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provided, returns the list of all currencies from all
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locales.
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"""
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# Get locale-scoped currencies.
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if locale:
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currencies = Locale.parse(locale).currencies.keys()
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else:
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currencies = get_global('all_currencies')
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return set(currencies)
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def validate_currency(currency, locale=None):
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""" Check the currency code is recognized by Babel.
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Accepts a ``locale`` parameter for fined-grained validation, working as
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the one defined above in ``list_currencies()`` method.
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Raises a `UnknownCurrencyError` exception if the currency is unknown to Babel.
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"""
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if currency not in list_currencies(locale):
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raise UnknownCurrencyError(currency)
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def is_currency(currency, locale=None):
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""" Returns `True` only if a currency is recognized by Babel.
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This method always return a Boolean and never raise.
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"""
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if not currency or not isinstance(currency, string_types):
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return False
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try:
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validate_currency(currency, locale)
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except UnknownCurrencyError:
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return False
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return True
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def normalize_currency(currency, locale=None):
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"""Returns the normalized sting of any currency code.
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Accepts a ``locale`` parameter for fined-grained validation, working as
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the one defined above in ``list_currencies()`` method.
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Returns None if the currency is unknown to Babel.
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"""
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if isinstance(currency, string_types):
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currency = currency.upper()
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if not is_currency(currency, locale):
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return
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return currency
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def get_currency_name(currency, count=None, locale=LC_NUMERIC):
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"""Return the name used by the locale for the specified currency.
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>>> get_currency_name('USD', locale='en_US')
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u'US Dollar'
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.. versionadded:: 0.9.4
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:param currency: the currency code.
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:param count: the optional count. If provided the currency name
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will be pluralized to that number if possible.
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:param locale: the `Locale` object or locale identifier.
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"""
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loc = Locale.parse(locale)
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if count is not None:
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plural_form = loc.plural_form(count)
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plural_names = loc._data['currency_names_plural']
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if currency in plural_names:
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return plural_names[currency][plural_form]
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return loc.currencies.get(currency, currency)
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def get_currency_symbol(currency, locale=LC_NUMERIC):
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"""Return the symbol used by the locale for the specified currency.
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>>> get_currency_symbol('USD', locale='en_US')
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u'$'
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:param currency: the currency code.
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:param locale: the `Locale` object or locale identifier.
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"""
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return Locale.parse(locale).currency_symbols.get(currency, currency)
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def get_currency_precision(currency):
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"""Return currency's precision.
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Precision is the number of decimals found after the decimal point in the
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currency's format pattern.
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.. versionadded:: 2.5.0
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:param currency: the currency code.
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"""
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precisions = get_global('currency_fractions')
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return precisions.get(currency, precisions['DEFAULT'])[0]
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def get_currency_unit_pattern(currency, count=None, locale=LC_NUMERIC):
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"""
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Return the unit pattern used for long display of a currency value
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for a given locale.
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This is a string containing ``{0}`` where the numeric part
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should be substituted and ``{1}`` where the currency long display
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name should be substituted.
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>>> get_currency_unit_pattern('USD', locale='en_US', count=10)
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u'{0} {1}'
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.. versionadded:: 2.7.0
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:param currency: the currency code.
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:param count: the optional count. If provided the unit
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pattern for that number will be returned.
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:param locale: the `Locale` object or locale identifier.
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"""
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loc = Locale.parse(locale)
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if count is not None:
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plural_form = loc.plural_form(count)
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try:
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return loc._data['currency_unit_patterns'][plural_form]
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except LookupError:
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# Fall back to 'other'
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pass
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return loc._data['currency_unit_patterns']['other']
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def get_territory_currencies(territory, start_date=None, end_date=None,
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tender=True, non_tender=False,
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include_details=False):
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"""Returns the list of currencies for the given territory that are valid for
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the given date range. In addition to that the currency database
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distinguishes between tender and non-tender currencies. By default only
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tender currencies are returned.
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The return value is a list of all currencies roughly ordered by the time
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of when the currency became active. The longer the currency is being in
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use the more to the left of the list it will be.
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The start date defaults to today. If no end date is given it will be the
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same as the start date. Otherwise a range can be defined. For instance
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this can be used to find the currencies in use in Austria between 1995 and
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2011:
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>>> from datetime import date
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>>> get_territory_currencies('AT', date(1995, 1, 1), date(2011, 1, 1))
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['ATS', 'EUR']
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Likewise it's also possible to find all the currencies in use on a
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single date:
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>>> get_territory_currencies('AT', date(1995, 1, 1))
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['ATS']
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>>> get_territory_currencies('AT', date(2011, 1, 1))
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['EUR']
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By default the return value only includes tender currencies. This
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however can be changed:
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>>> get_territory_currencies('US')
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['USD']
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>>> get_territory_currencies('US', tender=False, non_tender=True,
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... start_date=date(2014, 1, 1))
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['USN', 'USS']
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.. versionadded:: 2.0
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:param territory: the name of the territory to find the currency for.
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:param start_date: the start date. If not given today is assumed.
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:param end_date: the end date. If not given the start date is assumed.
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:param tender: controls whether tender currencies should be included.
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:param non_tender: controls whether non-tender currencies should be
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included.
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:param include_details: if set to `True`, instead of returning currency
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codes the return value will be dictionaries
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with detail information. In that case each
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dictionary will have the keys ``'currency'``,
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``'from'``, ``'to'``, and ``'tender'``.
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"""
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currencies = get_global('territory_currencies')
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if start_date is None:
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start_date = date_.today()
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elif isinstance(start_date, datetime_):
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start_date = start_date.date()
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if end_date is None:
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end_date = start_date
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elif isinstance(end_date, datetime_):
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end_date = end_date.date()
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curs = currencies.get(territory.upper(), ())
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# TODO: validate that the territory exists
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def _is_active(start, end):
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return (start is None or start <= end_date) and \
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(end is None or end >= start_date)
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result = []
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for currency_code, start, end, is_tender in curs:
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if start:
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start = date_(*start)
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if end:
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end = date_(*end)
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if ((is_tender and tender) or
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(not is_tender and non_tender)) and _is_active(start, end):
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if include_details:
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result.append({
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'currency': currency_code,
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'from': start,
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'to': end,
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'tender': is_tender,
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})
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else:
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result.append(currency_code)
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return result
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def get_decimal_symbol(locale=LC_NUMERIC):
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"""Return the symbol used by the locale to separate decimal fractions.
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>>> get_decimal_symbol('en_US')
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u'.'
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:param locale: the `Locale` object or locale identifier
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"""
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return Locale.parse(locale).number_symbols.get('decimal', u'.')
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def get_plus_sign_symbol(locale=LC_NUMERIC):
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"""Return the plus sign symbol used by the current locale.
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>>> get_plus_sign_symbol('en_US')
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u'+'
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:param locale: the `Locale` object or locale identifier
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"""
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return Locale.parse(locale).number_symbols.get('plusSign', u'+')
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def get_minus_sign_symbol(locale=LC_NUMERIC):
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"""Return the plus sign symbol used by the current locale.
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>>> get_minus_sign_symbol('en_US')
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u'-'
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:param locale: the `Locale` object or locale identifier
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"""
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return Locale.parse(locale).number_symbols.get('minusSign', u'-')
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def get_exponential_symbol(locale=LC_NUMERIC):
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"""Return the symbol used by the locale to separate mantissa and exponent.
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>>> get_exponential_symbol('en_US')
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u'E'
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:param locale: the `Locale` object or locale identifier
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"""
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return Locale.parse(locale).number_symbols.get('exponential', u'E')
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def get_group_symbol(locale=LC_NUMERIC):
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"""Return the symbol used by the locale to separate groups of thousands.
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>>> get_group_symbol('en_US')
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u','
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:param locale: the `Locale` object or locale identifier
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"""
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return Locale.parse(locale).number_symbols.get('group', u',')
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def format_number(number, locale=LC_NUMERIC):
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u"""Return the given number formatted for a specific locale.
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>>> format_number(1099, locale='en_US')
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u'1,099'
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>>> format_number(1099, locale='de_DE')
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u'1.099'
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.. deprecated:: 2.6.0
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Use babel.numbers.format_decimal() instead.
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:param number: the number to format
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:param locale: the `Locale` object or locale identifier
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"""
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warnings.warn('Use babel.numbers.format_decimal() instead.', DeprecationWarning)
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return format_decimal(number, locale=locale)
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def get_decimal_precision(number):
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"""Return maximum precision of a decimal instance's fractional part.
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Precision is extracted from the fractional part only.
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"""
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# Copied from: https://github.com/mahmoud/boltons/pull/59
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assert isinstance(number, decimal.Decimal)
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decimal_tuple = number.normalize().as_tuple()
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if decimal_tuple.exponent >= 0:
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return 0
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return abs(decimal_tuple.exponent)
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def get_decimal_quantum(precision):
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"""Return minimal quantum of a number, as defined by precision."""
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assert isinstance(precision, (int, long, decimal.Decimal))
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return decimal.Decimal(10) ** (-precision)
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def format_decimal(
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number, format=None, locale=LC_NUMERIC, decimal_quantization=True, group_separator=True):
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u"""Return the given decimal number formatted for a specific locale.
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>>> format_decimal(1.2345, locale='en_US')
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u'1.234'
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>>> format_decimal(1.2346, locale='en_US')
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u'1.235'
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>>> format_decimal(-1.2346, locale='en_US')
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u'-1.235'
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>>> format_decimal(1.2345, locale='sv_SE')
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u'1,234'
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>>> format_decimal(1.2345, locale='de')
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u'1,234'
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The appropriate thousands grouping and the decimal separator are used for
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each locale:
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>>> format_decimal(12345.5, locale='en_US')
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u'12,345.5'
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By default the locale is allowed to truncate and round a high-precision
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number by forcing its format pattern onto the decimal part. You can bypass
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this behavior with the `decimal_quantization` parameter:
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>>> format_decimal(1.2346, locale='en_US')
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u'1.235'
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>>> format_decimal(1.2346, locale='en_US', decimal_quantization=False)
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u'1.2346'
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>>> format_decimal(12345.67, locale='fr_CA', group_separator=False)
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u'12345,67'
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>>> format_decimal(12345.67, locale='en_US', group_separator=True)
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u'12,345.67'
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:param number: the number to format
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:param format:
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:param locale: the `Locale` object or locale identifier
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:param decimal_quantization: Truncate and round high-precision numbers to
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the format pattern. Defaults to `True`.
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:param group_separator: Boolean to switch group separator on/off in a locale's
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number format.
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"""
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locale = Locale.parse(locale)
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if not format:
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format = locale.decimal_formats.get(format)
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pattern = parse_pattern(format)
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return pattern.apply(
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number, locale, decimal_quantization=decimal_quantization, group_separator=group_separator)
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class UnknownCurrencyFormatError(KeyError):
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"""Exception raised when an unknown currency format is requested."""
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def format_currency(
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number, currency, format=None, locale=LC_NUMERIC, currency_digits=True,
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format_type='standard', decimal_quantization=True, group_separator=True):
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u"""Return formatted currency value.
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>>> format_currency(1099.98, 'USD', locale='en_US')
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u'$1,099.98'
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>>> format_currency(1099.98, 'USD', locale='es_CO')
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u'US$\\xa01.099,98'
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>>> format_currency(1099.98, 'EUR', locale='de_DE')
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u'1.099,98\\xa0\\u20ac'
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The format can also be specified explicitly. The currency is
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placed with the '¤' sign. As the sign gets repeated the format
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expands (¤ being the symbol, ¤¤ is the currency abbreviation and
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¤¤¤ is the full name of the currency):
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>>> format_currency(1099.98, 'EUR', u'\xa4\xa4 #,##0.00', locale='en_US')
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u'EUR 1,099.98'
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>>> format_currency(1099.98, 'EUR', u'#,##0.00 \xa4\xa4\xa4', locale='en_US')
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u'1,099.98 euros'
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Currencies usually have a specific number of decimal digits. This function
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favours that information over the given format:
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>>> format_currency(1099.98, 'JPY', locale='en_US')
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u'\\xa51,100'
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>>> format_currency(1099.98, 'COP', u'#,##0.00', locale='es_ES')
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u'1.099,98'
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However, the number of decimal digits can be overriden from the currency
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information, by setting the last parameter to ``False``:
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>>> format_currency(1099.98, 'JPY', locale='en_US', currency_digits=False)
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u'\\xa51,099.98'
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>>> format_currency(1099.98, 'COP', u'#,##0.00', locale='es_ES', currency_digits=False)
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u'1.099,98'
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If a format is not specified the type of currency format to use
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from the locale can be specified:
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>>> format_currency(1099.98, 'EUR', locale='en_US', format_type='standard')
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u'\\u20ac1,099.98'
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When the given currency format type is not available, an exception is
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raised:
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>>> format_currency('1099.98', 'EUR', locale='root', format_type='unknown')
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Traceback (most recent call last):
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...
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UnknownCurrencyFormatError: "'unknown' is not a known currency format type"
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>>> format_currency(101299.98, 'USD', locale='en_US', group_separator=False)
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u'$101299.98'
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>>> format_currency(101299.98, 'USD', locale='en_US', group_separator=True)
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u'$101,299.98'
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You can also pass format_type='name' to use long display names. The order of
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the number and currency name, along with the correct localized plural form
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of the currency name, is chosen according to locale:
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>>> format_currency(1, 'USD', locale='en_US', format_type='name')
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u'1.00 US dollar'
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>>> format_currency(1099.98, 'USD', locale='en_US', format_type='name')
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u'1,099.98 US dollars'
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>>> format_currency(1099.98, 'USD', locale='ee', format_type='name')
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u'us ga dollar 1,099.98'
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By default the locale is allowed to truncate and round a high-precision
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number by forcing its format pattern onto the decimal part. You can bypass
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this behavior with the `decimal_quantization` parameter:
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>>> format_currency(1099.9876, 'USD', locale='en_US')
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u'$1,099.99'
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>>> format_currency(1099.9876, 'USD', locale='en_US', decimal_quantization=False)
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u'$1,099.9876'
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:param number: the number to format
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:param currency: the currency code
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:param format: the format string to use
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:param locale: the `Locale` object or locale identifier
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:param currency_digits: use the currency's natural number of decimal digits
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:param format_type: the currency format type to use
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:param decimal_quantization: Truncate and round high-precision numbers to
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the format pattern. Defaults to `True`.
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:param group_separator: Boolean to switch group separator on/off in a locale's
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number format.
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"""
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if format_type == 'name':
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return _format_currency_long_name(number, currency, format=format,
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|
locale=locale, currency_digits=currency_digits,
|
|
decimal_quantization=decimal_quantization, group_separator=group_separator)
|
|
locale = Locale.parse(locale)
|
|
if format:
|
|
pattern = parse_pattern(format)
|
|
else:
|
|
try:
|
|
pattern = locale.currency_formats[format_type]
|
|
except KeyError:
|
|
raise UnknownCurrencyFormatError(
|
|
"%r is not a known currency format type" % format_type)
|
|
|
|
return pattern.apply(
|
|
number, locale, currency=currency, currency_digits=currency_digits,
|
|
decimal_quantization=decimal_quantization, group_separator=group_separator)
|
|
|
|
|
|
def _format_currency_long_name(
|
|
number, currency, format=None, locale=LC_NUMERIC, currency_digits=True,
|
|
format_type='standard', decimal_quantization=True, group_separator=True):
|
|
# Algorithm described here:
|
|
# https://www.unicode.org/reports/tr35/tr35-numbers.html#Currencies
|
|
locale = Locale.parse(locale)
|
|
# Step 1.
|
|
# There are no examples of items with explicit count (0 or 1) in current
|
|
# locale data. So there is no point implementing that.
|
|
# Step 2.
|
|
|
|
# Correct number to numeric type, important for looking up plural rules:
|
|
if isinstance(number, string_types):
|
|
number_n = float(number)
|
|
else:
|
|
number_n = number
|
|
|
|
# Step 3.
|
|
unit_pattern = get_currency_unit_pattern(currency, count=number_n, locale=locale)
|
|
|
|
# Step 4.
|
|
display_name = get_currency_name(currency, count=number_n, locale=locale)
|
|
|
|
# Step 5.
|
|
if not format:
|
|
format = locale.decimal_formats.get(format)
|
|
|
|
pattern = parse_pattern(format)
|
|
|
|
number_part = pattern.apply(
|
|
number, locale, currency=currency, currency_digits=currency_digits,
|
|
decimal_quantization=decimal_quantization, group_separator=group_separator)
|
|
|
|
return unit_pattern.format(number_part, display_name)
|
|
|
|
|
|
def format_percent(
|
|
number, format=None, locale=LC_NUMERIC, decimal_quantization=True, group_separator=True):
|
|
"""Return formatted percent value for a specific locale.
|
|
|
|
>>> format_percent(0.34, locale='en_US')
|
|
u'34%'
|
|
>>> format_percent(25.1234, locale='en_US')
|
|
u'2,512%'
|
|
>>> format_percent(25.1234, locale='sv_SE')
|
|
u'2\\xa0512\\xa0%'
|
|
|
|
The format pattern can also be specified explicitly:
|
|
|
|
>>> format_percent(25.1234, u'#,##0\u2030', locale='en_US')
|
|
u'25,123\u2030'
|
|
|
|
By default the locale is allowed to truncate and round a high-precision
|
|
number by forcing its format pattern onto the decimal part. You can bypass
|
|
this behavior with the `decimal_quantization` parameter:
|
|
|
|
>>> format_percent(23.9876, locale='en_US')
|
|
u'2,399%'
|
|
>>> format_percent(23.9876, locale='en_US', decimal_quantization=False)
|
|
u'2,398.76%'
|
|
|
|
>>> format_percent(229291.1234, locale='pt_BR', group_separator=False)
|
|
u'22929112%'
|
|
|
|
>>> format_percent(229291.1234, locale='pt_BR', group_separator=True)
|
|
u'22.929.112%'
|
|
|
|
:param number: the percent number to format
|
|
:param format:
|
|
:param locale: the `Locale` object or locale identifier
|
|
:param decimal_quantization: Truncate and round high-precision numbers to
|
|
the format pattern. Defaults to `True`.
|
|
:param group_separator: Boolean to switch group separator on/off in a locale's
|
|
number format.
|
|
"""
|
|
locale = Locale.parse(locale)
|
|
if not format:
|
|
format = locale.percent_formats.get(format)
|
|
pattern = parse_pattern(format)
|
|
return pattern.apply(
|
|
number, locale, decimal_quantization=decimal_quantization, group_separator=group_separator)
|
|
|
|
|
|
def format_scientific(
|
|
number, format=None, locale=LC_NUMERIC, decimal_quantization=True):
|
|
"""Return value formatted in scientific notation for a specific locale.
|
|
|
|
>>> format_scientific(10000, locale='en_US')
|
|
u'1E4'
|
|
|
|
The format pattern can also be specified explicitly:
|
|
|
|
>>> format_scientific(1234567, u'##0.##E00', locale='en_US')
|
|
u'1.23E06'
|
|
|
|
By default the locale is allowed to truncate and round a high-precision
|
|
number by forcing its format pattern onto the decimal part. You can bypass
|
|
this behavior with the `decimal_quantization` parameter:
|
|
|
|
>>> format_scientific(1234.9876, u'#.##E0', locale='en_US')
|
|
u'1.23E3'
|
|
>>> format_scientific(1234.9876, u'#.##E0', locale='en_US', decimal_quantization=False)
|
|
u'1.2349876E3'
|
|
|
|
:param number: the number to format
|
|
:param format:
|
|
:param locale: the `Locale` object or locale identifier
|
|
:param decimal_quantization: Truncate and round high-precision numbers to
|
|
the format pattern. Defaults to `True`.
|
|
"""
|
|
locale = Locale.parse(locale)
|
|
if not format:
|
|
format = locale.scientific_formats.get(format)
|
|
pattern = parse_pattern(format)
|
|
return pattern.apply(
|
|
number, locale, decimal_quantization=decimal_quantization)
|
|
|
|
|
|
class NumberFormatError(ValueError):
|
|
"""Exception raised when a string cannot be parsed into a number."""
|
|
|
|
def __init__(self, message, suggestions=None):
|
|
super(NumberFormatError, self).__init__(message)
|
|
#: a list of properly formatted numbers derived from the invalid input
|
|
self.suggestions = suggestions
|
|
|
|
|
|
def parse_number(string, locale=LC_NUMERIC):
|
|
"""Parse localized number string into an integer.
|
|
|
|
>>> parse_number('1,099', locale='en_US')
|
|
1099
|
|
>>> parse_number('1.099', locale='de_DE')
|
|
1099
|
|
|
|
When the given string cannot be parsed, an exception is raised:
|
|
|
|
>>> parse_number('1.099,98', locale='de')
|
|
Traceback (most recent call last):
|
|
...
|
|
NumberFormatError: '1.099,98' is not a valid number
|
|
|
|
:param string: the string to parse
|
|
:param locale: the `Locale` object or locale identifier
|
|
:return: the parsed number
|
|
:raise `NumberFormatError`: if the string can not be converted to a number
|
|
"""
|
|
try:
|
|
return int(string.replace(get_group_symbol(locale), ''))
|
|
except ValueError:
|
|
raise NumberFormatError('%r is not a valid number' % string)
|
|
|
|
|
|
def parse_decimal(string, locale=LC_NUMERIC, strict=False):
|
|
"""Parse localized decimal string into a decimal.
|
|
|
|
>>> parse_decimal('1,099.98', locale='en_US')
|
|
Decimal('1099.98')
|
|
>>> parse_decimal('1.099,98', locale='de')
|
|
Decimal('1099.98')
|
|
>>> parse_decimal('12 345,123', locale='ru')
|
|
Decimal('12345.123')
|
|
|
|
When the given string cannot be parsed, an exception is raised:
|
|
|
|
>>> parse_decimal('2,109,998', locale='de')
|
|
Traceback (most recent call last):
|
|
...
|
|
NumberFormatError: '2,109,998' is not a valid decimal number
|
|
|
|
If `strict` is set to `True` and the given string contains a number
|
|
formatted in an irregular way, an exception is raised:
|
|
|
|
>>> parse_decimal('30.00', locale='de', strict=True)
|
|
Traceback (most recent call last):
|
|
...
|
|
NumberFormatError: '30.00' is not a properly formatted decimal number. Did you mean '3.000'? Or maybe '30,00'?
|
|
|
|
>>> parse_decimal('0.00', locale='de', strict=True)
|
|
Traceback (most recent call last):
|
|
...
|
|
NumberFormatError: '0.00' is not a properly formatted decimal number. Did you mean '0'?
|
|
|
|
:param string: the string to parse
|
|
:param locale: the `Locale` object or locale identifier
|
|
:param strict: controls whether numbers formatted in a weird way are
|
|
accepted or rejected
|
|
:raise NumberFormatError: if the string can not be converted to a
|
|
decimal number
|
|
"""
|
|
locale = Locale.parse(locale)
|
|
group_symbol = get_group_symbol(locale)
|
|
decimal_symbol = get_decimal_symbol(locale)
|
|
|
|
if not strict and (
|
|
group_symbol == u'\xa0' and # if the grouping symbol is U+00A0 NO-BREAK SPACE,
|
|
group_symbol not in string and # and the string to be parsed does not contain it,
|
|
' ' in string # but it does contain a space instead,
|
|
):
|
|
# ... it's reasonable to assume it is taking the place of the grouping symbol.
|
|
string = string.replace(' ', group_symbol)
|
|
|
|
try:
|
|
parsed = decimal.Decimal(string.replace(group_symbol, '')
|
|
.replace(decimal_symbol, '.'))
|
|
except decimal.InvalidOperation:
|
|
raise NumberFormatError('%r is not a valid decimal number' % string)
|
|
if strict and group_symbol in string:
|
|
proper = format_decimal(parsed, locale=locale, decimal_quantization=False)
|
|
if string != proper and string.rstrip('0') != (proper + decimal_symbol):
|
|
try:
|
|
parsed_alt = decimal.Decimal(string.replace(decimal_symbol, '')
|
|
.replace(group_symbol, '.'))
|
|
except decimal.InvalidOperation:
|
|
raise NumberFormatError((
|
|
"%r is not a properly formatted decimal number. Did you mean %r?" %
|
|
(string, proper)
|
|
), suggestions=[proper])
|
|
else:
|
|
proper_alt = format_decimal(parsed_alt, locale=locale, decimal_quantization=False)
|
|
if proper_alt == proper:
|
|
raise NumberFormatError((
|
|
"%r is not a properly formatted decimal number. Did you mean %r?" %
|
|
(string, proper)
|
|
), suggestions=[proper])
|
|
else:
|
|
raise NumberFormatError((
|
|
"%r is not a properly formatted decimal number. Did you mean %r? Or maybe %r?" %
|
|
(string, proper, proper_alt)
|
|
), suggestions=[proper, proper_alt])
|
|
return parsed
|
|
|
|
|
|
PREFIX_END = r'[^0-9@#.,]'
|
|
NUMBER_TOKEN = r'[0-9@#.,E+]'
|
|
|
|
PREFIX_PATTERN = r"(?P<prefix>(?:'[^']*'|%s)*)" % PREFIX_END
|
|
NUMBER_PATTERN = r"(?P<number>%s*)" % NUMBER_TOKEN
|
|
SUFFIX_PATTERN = r"(?P<suffix>.*)"
|
|
|
|
number_re = re.compile(r"%s%s%s" % (PREFIX_PATTERN, NUMBER_PATTERN,
|
|
SUFFIX_PATTERN))
|
|
|
|
|
|
def parse_grouping(p):
|
|
"""Parse primary and secondary digit grouping
|
|
|
|
>>> parse_grouping('##')
|
|
(1000, 1000)
|
|
>>> parse_grouping('#,###')
|
|
(3, 3)
|
|
>>> parse_grouping('#,####,###')
|
|
(3, 4)
|
|
"""
|
|
width = len(p)
|
|
g1 = p.rfind(',')
|
|
if g1 == -1:
|
|
return 1000, 1000
|
|
g1 = width - g1 - 1
|
|
g2 = p[:-g1 - 1].rfind(',')
|
|
if g2 == -1:
|
|
return g1, g1
|
|
g2 = width - g1 - g2 - 2
|
|
return g1, g2
|
|
|
|
|
|
def parse_pattern(pattern):
|
|
"""Parse number format patterns"""
|
|
if isinstance(pattern, NumberPattern):
|
|
return pattern
|
|
|
|
def _match_number(pattern):
|
|
rv = number_re.search(pattern)
|
|
if rv is None:
|
|
raise ValueError('Invalid number pattern %r' % pattern)
|
|
return rv.groups()
|
|
|
|
pos_pattern = pattern
|
|
|
|
# Do we have a negative subpattern?
|
|
if ';' in pattern:
|
|
pos_pattern, neg_pattern = pattern.split(';', 1)
|
|
pos_prefix, number, pos_suffix = _match_number(pos_pattern)
|
|
neg_prefix, _, neg_suffix = _match_number(neg_pattern)
|
|
else:
|
|
pos_prefix, number, pos_suffix = _match_number(pos_pattern)
|
|
neg_prefix = '-' + pos_prefix
|
|
neg_suffix = pos_suffix
|
|
if 'E' in number:
|
|
number, exp = number.split('E', 1)
|
|
else:
|
|
exp = None
|
|
if '@' in number:
|
|
if '.' in number and '0' in number:
|
|
raise ValueError('Significant digit patterns can not contain '
|
|
'"@" or "0"')
|
|
if '.' in number:
|
|
integer, fraction = number.rsplit('.', 1)
|
|
else:
|
|
integer = number
|
|
fraction = ''
|
|
|
|
def parse_precision(p):
|
|
"""Calculate the min and max allowed digits"""
|
|
min = max = 0
|
|
for c in p:
|
|
if c in '@0':
|
|
min += 1
|
|
max += 1
|
|
elif c == '#':
|
|
max += 1
|
|
elif c == ',':
|
|
continue
|
|
else:
|
|
break
|
|
return min, max
|
|
|
|
int_prec = parse_precision(integer)
|
|
frac_prec = parse_precision(fraction)
|
|
if exp:
|
|
exp_plus = exp.startswith('+')
|
|
exp = exp.lstrip('+')
|
|
exp_prec = parse_precision(exp)
|
|
else:
|
|
exp_plus = None
|
|
exp_prec = None
|
|
grouping = parse_grouping(integer)
|
|
return NumberPattern(pattern, (pos_prefix, neg_prefix),
|
|
(pos_suffix, neg_suffix), grouping,
|
|
int_prec, frac_prec,
|
|
exp_prec, exp_plus)
|
|
|
|
|
|
class NumberPattern(object):
|
|
|
|
def __init__(self, pattern, prefix, suffix, grouping,
|
|
int_prec, frac_prec, exp_prec, exp_plus):
|
|
# Metadata of the decomposed parsed pattern.
|
|
self.pattern = pattern
|
|
self.prefix = prefix
|
|
self.suffix = suffix
|
|
self.grouping = grouping
|
|
self.int_prec = int_prec
|
|
self.frac_prec = frac_prec
|
|
self.exp_prec = exp_prec
|
|
self.exp_plus = exp_plus
|
|
self.scale = self.compute_scale()
|
|
|
|
def __repr__(self):
|
|
return '<%s %r>' % (type(self).__name__, self.pattern)
|
|
|
|
def compute_scale(self):
|
|
"""Return the scaling factor to apply to the number before rendering.
|
|
|
|
Auto-set to a factor of 2 or 3 if presence of a ``%`` or ``‰`` sign is
|
|
detected in the prefix or suffix of the pattern. Default is to not mess
|
|
with the scale at all and keep it to 0.
|
|
"""
|
|
scale = 0
|
|
if '%' in ''.join(self.prefix + self.suffix):
|
|
scale = 2
|
|
elif u'‰' in ''.join(self.prefix + self.suffix):
|
|
scale = 3
|
|
return scale
|
|
|
|
def scientific_notation_elements(self, value, locale):
|
|
""" Returns normalized scientific notation components of a value.
|
|
"""
|
|
# Normalize value to only have one lead digit.
|
|
exp = value.adjusted()
|
|
value = value * get_decimal_quantum(exp)
|
|
assert value.adjusted() == 0
|
|
|
|
# Shift exponent and value by the minimum number of leading digits
|
|
# imposed by the rendering pattern. And always make that number
|
|
# greater or equal to 1.
|
|
lead_shift = max([1, min(self.int_prec)]) - 1
|
|
exp = exp - lead_shift
|
|
value = value * get_decimal_quantum(-lead_shift)
|
|
|
|
# Get exponent sign symbol.
|
|
exp_sign = ''
|
|
if exp < 0:
|
|
exp_sign = get_minus_sign_symbol(locale)
|
|
elif self.exp_plus:
|
|
exp_sign = get_plus_sign_symbol(locale)
|
|
|
|
# Normalize exponent value now that we have the sign.
|
|
exp = abs(exp)
|
|
|
|
return value, exp, exp_sign
|
|
|
|
def apply(
|
|
self,
|
|
value,
|
|
locale,
|
|
currency=None,
|
|
currency_digits=True,
|
|
decimal_quantization=True,
|
|
force_frac=None,
|
|
group_separator=True,
|
|
):
|
|
"""Renders into a string a number following the defined pattern.
|
|
|
|
Forced decimal quantization is active by default so we'll produce a
|
|
number string that is strictly following CLDR pattern definitions.
|
|
|
|
:param value: The value to format. If this is not a Decimal object,
|
|
it will be cast to one.
|
|
:type value: decimal.Decimal|float|int
|
|
:param locale: The locale to use for formatting.
|
|
:type locale: str|babel.core.Locale
|
|
:param currency: Which currency, if any, to format as.
|
|
:type currency: str|None
|
|
:param currency_digits: Whether or not to use the currency's precision.
|
|
If false, the pattern's precision is used.
|
|
:type currency_digits: bool
|
|
:param decimal_quantization: Whether decimal numbers should be forcibly
|
|
quantized to produce a formatted output
|
|
strictly matching the CLDR definition for
|
|
the locale.
|
|
:type decimal_quantization: bool
|
|
:param force_frac: DEPRECATED - a forced override for `self.frac_prec`
|
|
for a single formatting invocation.
|
|
:return: Formatted decimal string.
|
|
:rtype: str
|
|
"""
|
|
if not isinstance(value, decimal.Decimal):
|
|
value = decimal.Decimal(str(value))
|
|
|
|
value = value.scaleb(self.scale)
|
|
|
|
# Separate the absolute value from its sign.
|
|
is_negative = int(value.is_signed())
|
|
value = abs(value).normalize()
|
|
|
|
# Prepare scientific notation metadata.
|
|
if self.exp_prec:
|
|
value, exp, exp_sign = self.scientific_notation_elements(value, locale)
|
|
|
|
# Adjust the precision of the fractional part and force it to the
|
|
# currency's if necessary.
|
|
if force_frac:
|
|
# TODO (3.x?): Remove this parameter
|
|
warnings.warn('The force_frac parameter to NumberPattern.apply() is deprecated.', DeprecationWarning)
|
|
frac_prec = force_frac
|
|
elif currency and currency_digits:
|
|
frac_prec = (get_currency_precision(currency), ) * 2
|
|
else:
|
|
frac_prec = self.frac_prec
|
|
|
|
# Bump decimal precision to the natural precision of the number if it
|
|
# exceeds the one we're about to use. This adaptative precision is only
|
|
# triggered if the decimal quantization is disabled or if a scientific
|
|
# notation pattern has a missing mandatory fractional part (as in the
|
|
# default '#E0' pattern). This special case has been extensively
|
|
# discussed at https://github.com/python-babel/babel/pull/494#issuecomment-307649969 .
|
|
if not decimal_quantization or (self.exp_prec and frac_prec == (0, 0)):
|
|
frac_prec = (frac_prec[0], max([frac_prec[1], get_decimal_precision(value)]))
|
|
|
|
# Render scientific notation.
|
|
if self.exp_prec:
|
|
number = ''.join([
|
|
self._quantize_value(value, locale, frac_prec, group_separator),
|
|
get_exponential_symbol(locale),
|
|
exp_sign,
|
|
self._format_int(
|
|
str(exp), self.exp_prec[0], self.exp_prec[1], locale)])
|
|
|
|
# Is it a siginificant digits pattern?
|
|
elif '@' in self.pattern:
|
|
text = self._format_significant(value,
|
|
self.int_prec[0],
|
|
self.int_prec[1])
|
|
a, sep, b = text.partition(".")
|
|
number = self._format_int(a, 0, 1000, locale)
|
|
if sep:
|
|
number += get_decimal_symbol(locale) + b
|
|
|
|
# A normal number pattern.
|
|
else:
|
|
number = self._quantize_value(value, locale, frac_prec, group_separator)
|
|
|
|
retval = ''.join([
|
|
self.prefix[is_negative],
|
|
number,
|
|
self.suffix[is_negative]])
|
|
|
|
if u'¤' in retval:
|
|
retval = retval.replace(u'¤¤¤',
|
|
get_currency_name(currency, value, locale))
|
|
retval = retval.replace(u'¤¤', currency.upper())
|
|
retval = retval.replace(u'¤', get_currency_symbol(currency, locale))
|
|
|
|
return retval
|
|
|
|
#
|
|
# This is one tricky piece of code. The idea is to rely as much as possible
|
|
# on the decimal module to minimize the amount of code.
|
|
#
|
|
# Conceptually, the implementation of this method can be summarized in the
|
|
# following steps:
|
|
#
|
|
# - Move or shift the decimal point (i.e. the exponent) so the maximum
|
|
# amount of significant digits fall into the integer part (i.e. to the
|
|
# left of the decimal point)
|
|
#
|
|
# - Round the number to the nearest integer, discarding all the fractional
|
|
# part which contained extra digits to be eliminated
|
|
#
|
|
# - Convert the rounded integer to a string, that will contain the final
|
|
# sequence of significant digits already trimmed to the maximum
|
|
#
|
|
# - Restore the original position of the decimal point, potentially
|
|
# padding with zeroes on either side
|
|
#
|
|
def _format_significant(self, value, minimum, maximum):
|
|
exp = value.adjusted()
|
|
scale = maximum - 1 - exp
|
|
digits = str(value.scaleb(scale).quantize(decimal.Decimal(1)))
|
|
if scale <= 0:
|
|
result = digits + '0' * -scale
|
|
else:
|
|
intpart = digits[:-scale]
|
|
i = len(intpart)
|
|
j = i + max(minimum - i, 0)
|
|
result = "{intpart}.{pad:0<{fill}}{fracpart}{fracextra}".format(
|
|
intpart=intpart or '0',
|
|
pad='',
|
|
fill=-min(exp + 1, 0),
|
|
fracpart=digits[i:j],
|
|
fracextra=digits[j:].rstrip('0'),
|
|
).rstrip('.')
|
|
return result
|
|
|
|
def _format_int(self, value, min, max, locale):
|
|
width = len(value)
|
|
if width < min:
|
|
value = '0' * (min - width) + value
|
|
gsize = self.grouping[0]
|
|
ret = ''
|
|
symbol = get_group_symbol(locale)
|
|
while len(value) > gsize:
|
|
ret = symbol + value[-gsize:] + ret
|
|
value = value[:-gsize]
|
|
gsize = self.grouping[1]
|
|
return value + ret
|
|
|
|
def _quantize_value(self, value, locale, frac_prec, group_separator):
|
|
quantum = get_decimal_quantum(frac_prec[1])
|
|
rounded = value.quantize(quantum)
|
|
a, sep, b = "{:f}".format(rounded).partition(".")
|
|
integer_part = a
|
|
if group_separator:
|
|
integer_part = self._format_int(a, self.int_prec[0], self.int_prec[1], locale)
|
|
number = integer_part + self._format_frac(b or '0', locale, frac_prec)
|
|
return number
|
|
|
|
def _format_frac(self, value, locale, force_frac=None):
|
|
min, max = force_frac or self.frac_prec
|
|
if len(value) < min:
|
|
value += ('0' * (min - len(value)))
|
|
if max == 0 or (min == 0 and int(value) == 0):
|
|
return ''
|
|
while len(value) > min and value[-1] == '0':
|
|
value = value[:-1]
|
|
return get_decimal_symbol(locale) + value
|