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Merge branch 'master' into master

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Marlon Rodriguez Garcia
2022-08-19 17:28:38 -04:00
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parent ddc496aa69 931d71b4dd
commit 46588097f0
26 changed files with 1120 additions and 97 deletions
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15
CHANGES.rst
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@@ -1,6 +1,21 @@
Changelog
=========
Version 0.5.12 -- 2022/08/19
----------------------------
* Support Japanese Reiwa (令和/れいわ) era. (#412)
* Add basic farsi support (#354)
* Added Tajik language support (#406)
* Fix Amharic language support (#465)
* Fix Hebrew pluralize and implement to_currency (#330)
* Add support to translate some currencies in italian language (#434)
* Fix Polish twenties (#345)
* Add uzs for ru and en (#422)
* Added support for Esperanto numbers. (#387)
* [ADD] to ordinal number for Turkish (#468)
* Fix zeroth in Dutch to nulde fixing (#326)
Version 0.5.11 -- 2022/08/03
----------------------------

2
README.rst
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@@ -76,6 +76,7 @@ Besides the numerical argument, there are two main optional arguments.
**lang:** The language in which to convert the number. Supported values are:
* ``en`` (English, default)
* ``am`` (Amharic)
* ``ar`` (Arabic)
* ``cz`` (Czech)
* ``de`` (German)
@@ -112,6 +113,7 @@ Besides the numerical argument, there are two main optional arguments.
* ``ro`` (Romanian)
* ``ru`` (Russian)
* ``te`` (Telugu)
* ``tg`` (Tajik)
* ``tr`` (Turkish)
* ``th`` (Thai)
* ``vi`` (Vietnamese)

2
bin/num2words
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@@ -55,7 +55,7 @@ import sys
from docopt import docopt
import num2words
__version__ = "0.5.11"
__version__ = "0.5.12"
__license__ = "LGPL"

18
num2words/__init__.py
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@@ -17,15 +17,17 @@
from __future__ import unicode_literals
from . import (lang_AR, lang_CZ, lang_DE, lang_DK, lang_EN, lang_EN_IN,
lang_ES, lang_ES_CO, lang_ES_NI, lang_ES_VE, lang_FA, lang_FI,
lang_FR, lang_FR_BE, lang_FR_CH, lang_FR_DZ, lang_HE, lang_HU,
lang_ID, lang_IT, lang_JA, lang_KN, lang_KO, lang_KZ, lang_LT,
lang_LV, lang_NL, lang_NO, lang_PL, lang_PT, lang_PT_BR,
lang_RO, lang_RU, lang_SL, lang_SR, lang_SV, lang_TE, lang_TH,
lang_TR, lang_UK, lang_VI)
from . import (lang_AM, lang_AR, lang_CZ, lang_DE, lang_DK, lang_EN,
lang_EN_IN, lang_EO, lang_ES, lang_ES_CO, lang_ES_NI,
lang_ES_VE, lang_FA, lang_FI, lang_FR, lang_FR_BE, lang_FR_CH,
lang_FR_DZ, lang_HE, lang_HU, lang_ID, lang_IT, lang_JA,
lang_KN, lang_KO, lang_KZ, lang_LT, lang_LV, lang_NL, lang_NO,
lang_PL, lang_PT, lang_PT_BR, lang_RO, lang_RU, lang_SL,
lang_SR, lang_SV, lang_TE, lang_TG, lang_TH, lang_TR, lang_UK,
lang_VI)
CONVERTER_CLASSES = {
'am': lang_AM.Num2Word_AM(),
'ar': lang_AR.Num2Word_AR(),
'cz': lang_CZ.Num2Word_CZ(),
'en': lang_EN.Num2Word_EN(),
@@ -37,6 +39,7 @@ CONVERTER_CLASSES = {
'fr_DZ': lang_FR_DZ.Num2Word_FR_DZ(),
'de': lang_DE.Num2Word_DE(),
'fi': lang_FI.Num2Word_FI(),
'eo': lang_EO.Num2Word_EO(),
'es': lang_ES.Num2Word_ES(),
'es_CO': lang_ES_CO.Num2Word_ES_CO(),
'es_NI': lang_ES_NI.Num2Word_ES_NI(),
@@ -61,6 +64,7 @@ CONVERTER_CLASSES = {
'he': lang_HE.Num2Word_HE(),
'it': lang_IT.Num2Word_IT(),
'vi': lang_VI.Num2Word_VI(),
'tg': lang_TG.Num2Word_TG(),
'th': lang_TH.Num2Word_TH(),
'tr': lang_TR.Num2Word_TR(),
'nl': lang_NL.Num2Word_NL(),

129
num2words/lang_AM.py Normal file
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@@ -0,0 +1,129 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2003, Taro Ogawa. All Rights Reserved.
# Copyright (c) 2013, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from __future__ import division, print_function, unicode_literals
from . import lang_EU
class Num2Word_AM(lang_EU.Num2Word_EU):
CURRENCY_FORMS = {'ETB': (('ብር', 'ብር'), ('ሳንቲም', 'ሳንቲም'))}
GIGA_SUFFIX = 'ቢሊዮን'
MEGA_SUFFIX = 'ሚሊዮን'
def set_high_numwords(self, high):
cap = 3 * (len(high) + 1)
for word, n in zip(high, range(cap, 5, -3)):
if n == 9:
self.cards[10 ** n] = word + self.GIGA_SUFFIX
else:
self.cards[10 ** n] = word + self.MEGA_SUFFIX
def setup(self):
super(Num2Word_AM, self).setup()
self.negword = 'አሉታዊ '
self.pointword = 'ነጥብ'
self.exclude_title = ['እና', 'ነጥብ', 'አሉታዊ']
self.mid_numwords = [(1000, 'ሺህ'), (100, 'መቶ'), (90, 'ዘጠና'),
(80, 'ሰማኒያ'), (70, 'ሰባ'), (60, 'ስድሳ'),
(50, 'አምሳ'), (40, 'አርባ'), (30, 'ሠላሳ')]
self.low_numwords = ['ሃያ', 'አሥራ ዘጠኝ', 'አሥራ ስምንት', 'አሥራ ሰባት',
'አስራ ስድስት', 'አሥራ አምስት', 'አሥራ አራት', 'አሥራ ሦስት',
'አሥራ ሁለት', 'አሥራ አንድ', 'አሥር', 'ዘጠኝ', 'ስምንት',
'ሰባት', 'ስድስት', 'አምስት', 'አራት', 'ሦስት', 'ሁለት',
'አንድ', 'ዜሮ']
self.ords = {'አንድ': 'አንደኛ',
'ሁለት': 'ሁለተኛ',
'ሦስት': 'ሦስተኛ',
'አራት': 'አራተኛ',
'አምስት': 'አምስተኛ',
'ስድስት': 'ስድስተኛ',
'ሰባት': 'ሰባተኛ',
'ስምንት': 'ስምንተኛ',
'ዘጠኝ': 'ዘጠነኛ',
'አሥር': 'አሥረኛ',
'አሥራ አንድ': 'አሥራ አንደኛ',
'አሥራ ሁለት': 'አሥራ ሁለተኛ',
'አሥራ ሦስት': 'አሥራ ሦስተኛ',
'አሥራ አራት': 'አሥራ አራተኛ',
'አሥራ አምስት': 'አሥራ አምስተኛ',
'አሥራ ስድስት': 'አሥራ ስድስተኛ',
'አሥራ ሰባት': 'አሥራ ሰባተኛ',
'አሥራ ስምንት': 'አሥራ ስምንተኛ',
'አሥራ ዘጠኝ': 'አሥራ ዘጠነኛ'}
def to_cardinal(self, value):
try:
assert int(value) == value
except (ValueError, TypeError, AssertionError):
return self.to_cardinal_float(value)
out = ''
if value >= self.MAXVAL:
raise OverflowError(self.errmsg_toobig % (value, self.MAXVAL))
if value == 100:
return self.title(out + 'መቶ')
else:
val = self.splitnum(value)
words, num = self.clean(val)
return self.title(out + words)
def merge(self, lpair, rpair):
ltext, lnum = lpair
rtext, rnum = rpair
if lnum == 1 and rnum < 100:
return rtext, rnum
elif 100 > lnum > rnum:
return '%s %s' % (ltext, rtext), lnum + rnum
elif lnum >= 100 > rnum:
return '%s %s' % (ltext, rtext), lnum + rnum
elif rnum > lnum:
return '%s %s' % (ltext, rtext), lnum * rnum
def to_ordinal(self, value):
self.verify_ordinal(value)
outwords = self.to_cardinal(value).split(' ')
lastwords = outwords[-1].split('-')
lastword = lastwords[-1].lower()
try:
lastword = self.ords[lastword]
except KeyError:
lastword += ''
lastwords[-1] = self.title(lastword)
outwords[-1] = ' '.join(lastwords)
return ' '.join(outwords)
def to_ordinal_num(self, value):
self.verify_ordinal(value)
return '%s%s' % (value, self.to_ordinal(value)[-1:])
def to_currency(self, val, currency='ብር', cents=True, separator='',
adjective=True):
result = super(Num2Word_AM, self).to_currency(
val, currency=currency, cents=cents, separator=separator,
adjective=adjective)
return result
def to_year(self, val, longval=True):
if not (val // 100) % 10:
return self.to_cardinal(val)
return self.to_splitnum(val, hightxt='መቶ', longval=longval)

130
num2words/lang_EO.py Normal file
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@@ -0,0 +1,130 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2021, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from __future__ import print_function, unicode_literals
from .base import Num2Word_Base
class Num2Word_EO(Num2Word_Base):
CURRENCY_FORMS = {
"EUR": (("eŭro", "eŭroj"), ("centimo", "centimoj")),
"USD": (("dolaro", "dolaroj"), ("cendo", "cendoj")),
"FRF": (("franko", "frankoj"), ("centimo", "centimoj")),
"GBP": (("pundo", "pundoj"), ("penco", "pencoj")),
"CNY": (("juano", "juanoj"), ("feno", "fenoj")),
}
GIGA_SUFFIX = "iliardo"
MEGA_SUFFIX = "iliono"
def set_high_numwords(self, high):
cap = 3 + 6 * len(high)
for word, n in zip(high, range(cap, 3, -6)):
if self.GIGA_SUFFIX:
self.cards[10 ** n] = word + self.GIGA_SUFFIX
if self.MEGA_SUFFIX:
self.cards[10 ** (n - 3)] = word + self.MEGA_SUFFIX
def gen_high_numwords(self, units, tens, lows):
out = [u + t for t in tens for u in units]
out.reverse()
return out + lows
def setup(self):
lows = ["naŭ", "ok", "sep", "ses", "kvin", "kvar", "tr", "b", "m"]
units = ["", "un", "duo", "tre", "kvatuor",
"kvin", "seks", "septen", "okto", "novem"]
tens = ["dek", "vigint", "trigint", "kvadragint", "kvinkvagint",
"seksagint", "septuagint", "oktogint", "nonagint"]
self.high_numwords = ["cent"] + self.gen_high_numwords(units, tens,
lows)
self.negword = "minus "
self.pointword = "komo"
self.errmsg_nonnum = u"Sole nombroj povas esti konvertita en vortojn."
self.errmsg_toobig = (
u"Tro granda nombro por esti konvertita en vortojn."
)
self.exclude_title = ["kaj", "komo", "minus"]
self.mid_numwords = [(1000, "mil"), (100, "cent"), (90, "naŭdek"),
(80, "okdek"), (70, "sepdek"), (60, "sesdek"),
(50, "kvindek"), (40, "kvardek"), (30, "tridek")]
self.low_numwords = ["dudek", "dek naŭ", "dek ok", "dek sep",
"dek ses", "dek kvin", "dek kvar", "dek tri",
"dek du", "dek unu", "dek", "naŭ", "ok", "sep",
"ses", "kvin", "kvar", "tri", "du", "unu", "nul"]
self.ords = {
"unu": "unua",
"du": "dua",
"tri": "tria",
"kvar": "kvara",
"kvin": "kvina",
"ses": "sesa",
"sep": "sepa",
"ok": "oka",
"naŭ": "naŭa",
"dek": "deka"
}
def merge(self, curr, next):
ctext, cnum, ntext, nnum = curr + next
if cnum == 1 and nnum < 1000000:
return next
if nnum >= 10**6 and cnum > 1:
return ("%s %sj" % (ctext, ntext), cnum + nnum)
if nnum == 100:
return ("%s%s" % (ctext, ntext), cnum + nnum)
return ("%s %s" % (ctext, ntext), cnum + nnum)
def to_ordinal(self, value):
self.verify_ordinal(value)
word = self.to_cardinal(value)
for src, repl in self.ords.items():
if word.endswith(src):
word = word[:-len(src)] + repl
return word
if word.endswith("o"):
word = word[:-1] + "a"
elif word.endswith("oj"):
word = word[:-2] + "a"
else:
word = word + "a"
return word
def to_ordinal_num(self, value):
self.verify_ordinal(value)
out = str(value)
out += "a"
return out
def to_currency(self, val, currency="EUR", cents=True, separator=" kaj",
adjective=False):
result = super(Num2Word_EO, self).to_currency(
val, currency=currency, cents=cents, separator=separator,
adjective=adjective)
return result
def pluralize(self, n, forms):
form = 0 if n <= 1 else 1
return forms[form]

6
num2words/lang_EU.py
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@@ -43,7 +43,8 @@ class Num2Word_EU(Num2Word_Base):
'MXN': (('peso', 'pesos'), GENERIC_CENTS),
'RON': (('leu', 'lei', 'de lei'), ('ban', 'bani', 'de bani')),
'INR': (('rupee', 'rupees'), ('paisa', 'paise')),
'HUF': (('forint', 'forint'), ('fillér', 'fillér'))
'HUF': (('forint', 'forint'), ('fillér', 'fillér')),
'UZS': (('sum', 'sums'), ('tiyin', 'tiyins'))
}
CURRENCY_ADJECTIVES = {
@@ -56,7 +57,8 @@ class Num2Word_EU(Num2Word_Base):
'MXN': 'Mexican',
'RON': 'Romanian',
'INR': 'Indian',
'HUF': 'Hungarian'
'HUF': 'Hungarian',
'UZS': 'Uzbekistan'
}
GIGA_SUFFIX = "illiard"

27
num2words/lang_HE.py
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@@ -81,11 +81,7 @@ AND = u'ו'
def pluralize(n, forms):
# gettext implementation:
# (n%10==1 && n%100!=11 ? 0 : n != 0 ? 1 : 2)
form = 0 if (n % 10 == 1 and n % 100 != 11) else 1 if n != 0 else 2
form = 1 if n == 0 else 0 if n == 1 else 1
return forms[form]
@@ -140,17 +136,30 @@ def n2w(n):
return int2word(int(n))
def to_currency(n, currency='EUR', cents=True, separator=','):
raise NotImplementedError()
class Num2Word_HE(Num2Word_Base):
CURRENCY_FORMS = {
'NIS': (('שקל', 'שקלים'), ('אגורה', 'אגורות')),
'EUR': (('אירו', 'אירו'), ('סנט', 'סנט')),
'USD': (('דולר', 'דולרים'), ('סנט', 'סנט')),
}
def to_cardinal(self, number):
return n2w(number)
def to_ordinal(self, number):
raise NotImplementedError()
def pluralize(self, n, forms):
return pluralize(n, forms)
def to_currency(self, val, currency='NIS', cents=True, separator=' ו',
adjective=False):
result = super(Num2Word_HE, self).to_currency(
val, currency=currency, cents=cents, separator=separator,
adjective=adjective)
# In Hebrew the separator is along with the following word
return result.replace(" ו ", " ו")
if __name__ == '__main__':
yo = Num2Word_HE()

119
num2words/lang_IT.py
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@@ -16,6 +16,8 @@
from __future__ import unicode_literals
from .lang_EU import Num2Word_EU
# Globals
# -------
@@ -43,57 +45,27 @@ EXPONENT_PREFIXES = [
]
# Utils
# =====
def phonetic_contraction(string):
return (string
.replace("oo", "o") # ex. "centootto"
.replace("ao", "o") # ex. "settantaotto"
.replace("io", "o") # ex. "ventiotto"
.replace("au", "u") # ex. "trentauno"
.replace("iu", "u") # ex. "ventiunesimo"
)
def exponent_length_to_string(exponent_length):
# We always assume `exponent` to be a multiple of 3. If it's not true, then
# Num2Word_IT.big_number_to_cardinal did something wrong.
prefix = EXPONENT_PREFIXES[exponent_length // 6]
if exponent_length % 6 == 0:
return prefix + "ilione"
else:
return prefix + "iliardo"
def accentuate(string):
# This is inefficient: it may do several rewritings when deleting
# half-sentence accents. However, it is the easiest method and speed is
# not crucial (duh), so...
return " ".join(
# Deletes half-sentence accents and accentuates the last "tre"
[w.replace("tré", "tre")[:-3] + "tré"
# We shouldn't accentuate a single "tre": is has to be a composite
# word. ~~~~~~~~~~
if w[-3:] == "tre" and len(w) > 3
# Deletes half-sentence accents anyway
# ~~~~~~~~~~~~~~~~~~~~~~
else w.replace("tré", "tre")
for w in string.split()
])
def omitt_if_zero(number_to_string):
return "" if number_to_string == ZERO else number_to_string
GENERIC_DOLLARS = ('dollaro', 'dollari')
GENERIC_CENTS = ('centesimo', 'centesimi')
CURRENCIES_UNA = ('GBP')
# Main class
# ==========
class Num2Word_IT:
class Num2Word_IT(Num2Word_EU):
CURRENCY_FORMS = {
'EUR': (('euro', 'euro'), GENERIC_CENTS),
'USD': (GENERIC_DOLLARS, GENERIC_CENTS),
'GBP': (('sterlina', 'sterline'), ('penny', 'penny')),
'CNY': (('yuan', 'yuan'), ('fen', 'fen')),
}
MINUS_PREFIX_WORD = "meno "
FLOAT_INFIX_WORD = " virgola "
def setup(self):
Num2Word_EU.setup(self)
def __init__(self):
pass
@@ -206,3 +178,64 @@ class Num2Word_IT:
if string[-3:] == "mil":
string += "l"
return string + "esimo"
def to_currency(self, val, currency='EUR', cents=True, separator=' e',
adjective=False):
result = super(Num2Word_IT, self).to_currency(
val, currency=currency, cents=cents, separator=separator,
adjective=adjective)
# Handle exception. In italian language is "un euro",
# "un dollaro" etc. (not "uno euro", "uno dollaro").
# There is an exception, some currencies need "una":
# e.g. "una sterlina"
if currency in CURRENCIES_UNA:
list_result = result.split(" ")
if list_result[0] == "uno":
list_result[0] = list_result[0].replace("uno", "una")
result = " ".join(list_result)
result = result.replace("uno", "un")
return result
# Utils
# =====
def phonetic_contraction(string):
return (string
.replace("oo", "o") # ex. "centootto"
.replace("ao", "o") # ex. "settantaotto"
.replace("io", "o") # ex. "ventiotto"
.replace("au", "u") # ex. "trentauno"
.replace("iu", "u") # ex. "ventiunesimo"
)
def exponent_length_to_string(exponent_length):
# We always assume `exponent` to be a multiple of 3. If it's not true, then
# Num2Word_IT.big_number_to_cardinal did something wrong.
prefix = EXPONENT_PREFIXES[exponent_length // 6]
if exponent_length % 6 == 0:
return prefix + "ilione"
else:
return prefix + "iliardo"
def accentuate(string):
# This is inefficient: it may do several rewritings when deleting
# half-sentence accents. However, it is the easiest method and speed is
# not crucial (duh), so...
return " ".join(
# Deletes half-sentence accents and accentuates the last "tre"
[w.replace("tré", "tre")[:-3] + "tré"
# We shouldn't accentuate a single "tre": is has to be a composite
# word. ~~~~~~~~~~
if w[-3:] == "tre" and len(w) > 3
# Deletes half-sentence accents anyway
# ~~~~~~~~~~~~~~~~~~~~~~
else w.replace("tré", "tre")
for w in string.split()
])
def omitt_if_zero(number_to_string):
return "" if number_to_string == ZERO else number_to_string

5
num2words/lang_NL.py
View File

@@ -76,7 +76,10 @@ class Num2Word_NL(Num2Word_EU):
"zes", "vijf", "vier", "drie", "twee", "één",
"nul"]
self.ords = {"één": "eerst",
# Wiktionary says it is "nulde", not "nulte" or "nule"
# https://en.wiktionary.org/wiki/nulde
self.ords = {"nul": "nuld",
"één": "eerst",
"twee": "tweed",
"drie": "derd",
"vier": "vierd",

2
num2words/lang_PL.py
View File

@@ -80,7 +80,7 @@ TWENTIES = {
6: ('sześćdziesiąt',),
7: ('siedemdziesiąt',),
8: ('osiemdziesiąt',),
9: ('dziewięćdzisiąt',),
9: ('dziewięćdziesiąt',),
}
TWENTIES_ORDINALS = {

6
num2words/lang_PT_BR.py
View File

@@ -49,10 +49,12 @@ class Num2Word_PT_BR(lang_PT.Num2Word_PT):
if nnum < 1000000:
return next
ctext = "um"
elif cnum == 100 and not nnum == 1000:
elif cnum == 100 and nnum % 1000 != 0:
ctext = "cento"
if nnum < cnum:
if cnum < 100:
return ("%s e %s" % (ctext, ntext), cnum + nnum)
return ("%s e %s" % (ctext, ntext), cnum + nnum)
elif (not nnum % 1000000) and cnum > 1:
@@ -75,7 +77,7 @@ class Num2Word_PT_BR(lang_PT.Num2Word_PT):
for ext in (
'mil', 'milhão', 'milhões', 'bilhão', 'bilhões',
'trilhão', 'trilhões', 'quatrilhão', 'quatrilhões'):
if re.match('.*{} e \\w*ento'.format(ext), result):
if re.match('.*{} e \\w*entos? (?=.*e)'.format(ext), result):
result = result.replace(
'{} e'.format(ext), '{},'.format(ext), 1
)

3
num2words/lang_RU.py
View File

@@ -113,6 +113,9 @@ class Num2Word_RU(Num2Word_Base):
'KZT': (
('тенге', 'тенге', 'тенге'), ('тиын', 'тиына', 'тиынов')
),
'UZS': (
('сум', 'сума', 'сумов'), ('тийин', 'тийина', 'тийинов')
),
}
def setup(self):

149
num2words/lang_TG.py Normal file
View File

@@ -0,0 +1,149 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2003, Taro Ogawa. All Rights Reserved.
# Copyright (c) 2013, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from __future__ import division, print_function, unicode_literals
from . import lang_EU
GENERIC_DOLLARS = ("доллар", "доллар")
GENERIC_CENTS = ("сент", "сент")
class Num2Word_TG(lang_EU.Num2Word_EU):
CURRENCY_FORMS = {
# repalced by EUR
"EUR": (("евро", "евро"), GENERIC_CENTS),
# replaced by EUR
"USD": (GENERIC_DOLLARS, GENERIC_CENTS),
"RUB": (("рубл", "рубл"), ("копейк", "копейк")),
"TJS": (("сомонӣ", "сомонӣ"), ("дирам", "дирам")),
}
GIGA_SUFFIX = "иллиард"
MEGA_SUFFIX = "иллион"
def set_high_numwords(self, high):
cap = 3 * (len(high) + 1)
for word, n in zip(high, range(cap, 5, -3)):
if n == 9:
self.cards[10 ** n] = word + self.GIGA_SUFFIX
else:
self.cards[10 ** n] = word + self.MEGA_SUFFIX
def setup(self):
super(Num2Word_TG, self).setup()
lows = ["квинт", "квадр", "тр", "м", "м"]
self.high_numwords = self.gen_high_numwords([], [], lows)
self.negword = "минус "
self.pointword = "нуқта"
self.exclude_title = ["ва", "минус", "нуқта"]
self.mid_numwords = [
(1000, "ҳазор"),
(100, "сад"),
(90, "навад"),
(80, "ҳаштод"),
(70, "ҳафтод"),
(60, "шаст"),
(50, "панҷоҳ"),
(40, "чил"),
(30, "си"),
]
self.low_numwords = [
"бист",
"нуздаҳ",
"ҳаждаҳ",
"ҳабдаҳ",
"шонздаҳ",
"понздаҳ",
"чордаҳ",
"сенздаҳ",
"дувоздаҳ",
"ёздаҳ",
"даҳ",
"нӯҳ",
"ҳашт",
"ҳафт",
"шаш",
"панҷ",
"чор",
"се",
"ду",
"як",
"сифр",
]
def to_cardinal(self, value):
try:
assert int(value) == value
except (ValueError, TypeError, AssertionError):
return self.to_cardinal_float(value)
out = ""
if value < 0:
value = abs(value)
out = self.negword
if value >= self.MAXVAL:
raise OverflowError(self.errmsg_toobig % (value, self.MAXVAL))
if value == 100:
return self.title(out + "сад")
else:
val = self.splitnum(value)
words, num = self.clean(val)
return self.title(out + words)
def merge(self, lpair, rpair):
ltext, lnum = lpair
rtext, rnum = rpair
if lnum == 1 and rnum < 100:
return (rtext, rnum)
elif 100 > lnum > rnum:
if ltext == "си":
return ("%sю %s" % (ltext, rtext), lnum + rnum)
elif ltext == "панҷоҳ":
return ("панҷову %s" % (rtext), lnum + rnum)
else:
return ("%sу %s" % (ltext, rtext), lnum + rnum)
elif lnum >= 100 > rnum:
return ("%sу %s" % (ltext, rtext), lnum + rnum)
elif rnum > lnum:
if ltext == "яксад" and rtext not in self.low_numwords:
return ("сад %s" % (rtext), lnum * rnum)
if rtext == "сад":
return ("%s%s" % (ltext, rtext), lnum * rnum)
else:
return ("%s %s" % (ltext, rtext), lnum * rnum)
return ("%sу %s" % (ltext, rtext), lnum + rnum)
def to_ordinal(self, value):
self.verify_ordinal(value)
cardinal = self.to_cardinal(value)
outwords = cardinal.split(" ")
lastword = outwords[-1]
if lastword in ["ду", "се", "си"]:
return "%sюм" % (cardinal)
else:
return "%sум" % (cardinal)
def to_ordinal_num(self, value):
self.verify_ordinal(value)
return "%s%s" % (value, self.to_ordinal(value)[-2:])

52
num2words/lang_TR.py
View File

@@ -124,11 +124,17 @@ class Num2Word_TR(Num2Word_Base):
if not int(value) == value:
return self.to_cardinal_float(value)
if str(value).startswith("-"):
pre_word, value = self.negword, float(str(value)[1:])
else:
pre_word, value = "", float(value)
self.to_splitnum(value)
if self.order_of_last_zero_digit >= len(self.integers_to_read[0]):
# number like 00 and all 0s and even more, raise error
return wrd
return "%s%s" % (pre_word, wrd)
if self.total_triplets_to_read == 1:
if self.total_digits_outside_triplets == 2:
@@ -137,7 +143,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TENS.get(
self.integers_to_read[0][0], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == 0:
# number like xy, read cardinal xy and return
wrd += self.CARDINAL_TENS.get(
@@ -146,7 +152,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_ONES.get(
self.integers_to_read[0][1], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
if self.total_digits_outside_triplets == 1:
if self.order_of_last_zero_digit == 0:
@@ -156,7 +162,7 @@ class Num2Word_TR(Num2Word_Base):
)
if self.integers_to_read[0][0] == "0":
return self.ZERO
return wrd
return "%s%s" % (pre_word, wrd)
if self.total_digits_outside_triplets == 0:
if self.order_of_last_zero_digit == 2:
@@ -165,7 +171,7 @@ class Num2Word_TR(Num2Word_Base):
self.integers_to_read[0][0], ""
)
wrd += self.CARDINAL_HUNDRED[0]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == 1:
# number like xy0, read cardinal xy0 and return
wrd += self.HUNDREDS.get(
@@ -175,7 +181,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TENS.get(
self.integers_to_read[0][1], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == 0:
# number like xyz, read cardinal xyz and return
wrd += self.HUNDREDS.get(
@@ -188,7 +194,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_ONES.get(
self.integers_to_read[0][2], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
if self.total_triplets_to_read >= 2:
if self.total_digits_outside_triplets == 2:
@@ -202,7 +208,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == len(
self.integers_to_read[0]) - 2:
# number like xy and all 0s, read cardinal xy 0..0
@@ -216,7 +222,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit < len(
self.integers_to_read[0]) - 2:
# number like xy and others, read cardinal xy n..n
@@ -244,7 +250,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit < len(
self.integers_to_read[0]) - 1:
# number like x and others, read cardinal x n..n
@@ -268,7 +274,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == len(
self.integers_to_read[0]) - 2:
# number like xy0 and all 0s, read cardinal xy0 0..0
@@ -283,7 +289,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit == len(
self.integers_to_read[0]) - 3:
# number like xyz and all 0s, read cardinal xyz 0..0
@@ -299,7 +305,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[
self.total_triplets_to_read - 1
]
return wrd
return "%s%s" % (pre_word, wrd)
if self.order_of_last_zero_digit < len(
self.integers_to_read[0]) - 3:
# number like xyz and all others, read cardinal xyz n..n
@@ -339,11 +345,11 @@ class Num2Word_TR(Num2Word_Base):
last_read_digit_order) - 1:
if i == 1:
wrd += self.CARDINAL_HUNDRED[0]
return wrd
return "%s%s" % (pre_word, wrd)
elif i > 1:
wrd += self.CARDINAL_HUNDRED[0]
wrd += self.CARDINAL_TRIPLETS[i - 1]
return wrd
return "%s%s" % (pre_word, wrd)
else:
wrd += self.CARDINAL_HUNDRED[0]
@@ -357,14 +363,14 @@ class Num2Word_TR(Num2Word_Base):
self.integers_to_read[0][
last_read_digit_order + 1], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
elif i > 1:
wrd += self.CARDINAL_TENS.get(
self.integers_to_read[0][
last_read_digit_order + 1], ""
)
wrd += self.CARDINAL_TRIPLETS[i - 1]
return wrd
return "%s%s" % (pre_word, wrd)
else:
wrd += self.CARDINAL_TENS.get(
self.integers_to_read[0][
@@ -381,7 +387,7 @@ class Num2Word_TR(Num2Word_Base):
self.integers_to_read[0][
last_read_digit_order + 2], ""
)
return wrd
return "%s%s" % (pre_word, wrd)
if i == 2:
if not self.integers_to_read[0][
last_read_digit_order:
@@ -398,14 +404,14 @@ class Num2Word_TR(Num2Word_Base):
last_read_digit_order + 2], ""
)
wrd += self.CARDINAL_TRIPLETS[i - 1]
return wrd
return "%s%s" % (pre_word, wrd)
if i > 2:
wrd += self.CARDINAL_ONES.get(
self.integers_to_read[0][
last_read_digit_order + 2], ""
)
wrd += self.CARDINAL_TRIPLETS[i - 1]
return wrd
return "%s%s" % (pre_word, wrd)
else:
if not self.integers_to_read[0][
last_read_digit_order:
@@ -435,7 +441,7 @@ class Num2Word_TR(Num2Word_Base):
wrd += self.CARDINAL_TRIPLETS[i - 1]
return wrd
return "%s%s" % (pre_word, wrd)
def to_cardinal_float(self, value):
self.to_splitnum(value)
@@ -806,6 +812,10 @@ class Num2Word_TR(Num2Word_Base):
return wrd
def to_ordinal_num(self, value):
self.verify_ordinal(value)
return "%s%s" % (value, self.to_ordinal(value)[-4:])
def to_splitnum(self, val):
float_digits = str(int(val * 10 ** self.precision))
if not int(val) == 0:

94
tests/test_am.py Normal file
View File

@@ -0,0 +1,94 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2003, Taro Ogawa. All Rights Reserved.
# Copyright (c) 2013, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from unittest import TestCase
from num2words import num2words
class Num2WordsAMTest(TestCase):
def test_cardinal(self):
self.assertEqual(num2words(100, lang='am'), 'መቶ')
self.assertEqual(num2words(100000, lang='am'), 'አንድ መቶ ሺህ')
self.assertEqual(num2words(101, lang='am'), 'አንድ መቶ አንድ')
def test_and_join_199(self):
self.assertEqual(num2words(199, lang='am'), 'አንድ መቶ ዘጠና ዘጠኝ')
def test_to_ordinal(self):
self.assertEqual(
num2words(1, lang='am', to='ordinal'),
'አንደኛ'
)
self.assertEqual(
num2words(13, lang='am', to='ordinal'),
'አሥራ ሦስተኛ'
)
self.assertEqual(
num2words(22, lang='am', to='ordinal'),
'ሃያ ሁለተኛ'
)
self.assertEqual(
num2words(10000, lang='am', to='ordinal'),
'አሥር ሺህኛ'
)
def test_to_ordinal_num(self):
self.assertEqual(num2words(10, lang='am', to='ordinal_num'), '10ኛ')
self.assertEqual(num2words(21, lang='am', to='ordinal_num'), '21ኛ')
self.assertEqual(num2words(102, lang='am', to='ordinal_num'), '102ኛ')
def test_cardinal_for_float_number(self):
self.assertEqual(num2words(12.5, lang='am'), 'አሥራ ሁለት ነጥብ አምስት')
self.assertEqual(num2words(12.51, lang='am'), 'አሥራ ሁለት ነጥብ አምስት አንድ')
self.assertEqual(num2words(12.53, lang='am'), 'አሥራ ሁለት ነጥብ አምስት ሦስት')
def test_to_overflow(self):
with self.assertRaises(OverflowError):
num2words('1000000000000000000000000000000000000000000000000000000'
'0000000000000000000000000000000000000000000000000000000'
'0000000000000000000000000000000000000000000000000000000'
'0000000000000000000000000000000000000000000000000000000'
'0000000000000000000000000000000000000000000000000000000'
'00000000000000000000000000000000', lang='am')
def test_to_currency(self):
self.assertEqual(
num2words('38.4', lang='am', to='currency', cents=False,
currency='ETB'), 'ሠላሳ ስምንት ብር ከ 40 ሳንቲም'
)
self.assertEqual(
num2words('0', lang='am', to='currency', separator=' እና',
cents=True, currency='ETB'), 'ዜሮ ብር እና ዜሮ ሳንቲም'
)
self.assertEqual(
num2words('1.50', lang='am', to='currency', cents=True,
currency='ETB'), 'አንድ ብር ከ አምሳ ሳንቲም'
)
def test_to_year(self):
self.assertEqual(num2words(1990, lang='am', to='year'),
'አሥራ ዘጠኝ መቶ ዘጠና')
self.assertEqual(num2words(5555, lang='am', to='year'),
'አምሳ አምስት መቶ አምሳ አምስት')
self.assertEqual(num2words(2017, lang='am', to='year'),
'ሁለት ሺህ አሥራ ሰባት')
self.assertEqual(num2words(1066, lang='am', to='year'),
'አንድ ሺህ ስድሳ ስድስት')
self.assertEqual(num2words(1865, lang='am', to='year'),
'አሥራ ስምንት መቶ ስድሳ አምስት')

6
tests/test_en.py
View File

@@ -131,6 +131,12 @@ class Num2WordsENTest(TestCase):
"four pesos and one cent"
)
self.assertEqual(
num2words('2000.00', lang='en', to='currency', separator=' and',
cents=True, currency='UZS'),
"two thousand sums and zero tiyins"
)
def test_to_year(self):
# issue 141
# "e2 e2"

190
tests/test_eo.py Normal file
View File

@@ -0,0 +1,190 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2021, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from __future__ import unicode_literals
from unittest import TestCase
from num2words import num2words
TEST_CASES_CARDINAL = (
(1, "unu"),
(2, "du"),
(3, "tri"),
(5.5, "kvin komo kvin"),
(11, "dek unu"),
(12, "dek du"),
(16, "dek ses"),
(17.42, "dek sep komo kvar du"),
(19, "dek naŭ"),
(20, "dudek"),
(21, "dudek unu"),
(26, "dudek ses"),
(27.312, "dudek sep komo tri unu du"),
(28, "dudek ok"),
(30, "tridek"),
(31, "tridek unu"),
(40, "kvardek"),
(44, "kvardek kvar"),
(50, "kvindek"),
(53.486, "kvindek tri komo kvar ok ses"),
(55, "kvindek kvin"),
(60, "sesdek"),
(67, "sesdek sep"),
(70, "sepdek"),
(79, "sepdek naŭ"),
(89, "okdek naŭ"),
(95, "naŭdek kvin"),
(100, "cent"),
(101, "cent unu"),
(199, "cent naŭdek naŭ"),
(203, "ducent tri"),
(287, "ducent okdek sep"),
(300.42, "tricent komo kvar du"),
(356, "tricent kvindek ses"),
(400, "kvarcent"),
(434, "kvarcent tridek kvar"),
(578, "kvincent sepdek ok"),
(689, "sescent okdek naŭ"),
(729, "sepcent dudek naŭ"),
(894, "okcent naŭdek kvar"),
(999, "naŭcent naŭdek naŭ"),
(1000, "mil"),
(1001, "mil unu"),
(1097, "mil naŭdek sep"),
(1104, "mil cent kvar"),
(1243, "mil ducent kvardek tri"),
(2385, "du mil tricent okdek kvin"),
(3766, "tri mil sepcent sesdek ses"),
(4196, "kvar mil cent naŭdek ses"),
(4196.42, "kvar mil cent naŭdek ses komo kvar du"),
(5846, "kvin mil okcent kvardek ses"),
(6459, "ses mil kvarcent kvindek naŭ"),
(7232, "sep mil ducent tridek du"),
(8569, "ok mil kvincent sesdek naŭ"),
(9539, "naŭ mil kvincent tridek naŭ"),
(1000000, "unu miliono"),
(1000001, "unu miliono unu"),
(4000000, "kvar milionoj"),
(4000004, "kvar milionoj kvar"),
(4300000, "kvar milionoj tricent mil"),
(80000000, "okdek milionoj"),
(300000000, "tricent milionoj"),
(10000000000000, "dek bilionoj"),
(10000000000010, "dek bilionoj dek"),
(100000000000000, "cent bilionoj"),
(1000000000000000000, "unu triliono"),
(1000000000000000000000, "unu triliardo"),
(10000000000000000000000000, "dek kvarilionoj")
)
TEST_CASES_ORDINAL = (
(1, "unua"),
(8, "oka"),
(12, "dek dua"),
(14, "dek kvara"),
(28, "dudek oka"),
(100, "centa"),
(1000, "mila"),
(1000000, "unu miliona"),
(1000000000000000, "unu biliarda"),
(1000000000000000000, "unu triliona")
)
TEST_CASES_ORDINAL_NUM = (
(1, "1a"),
(8, "8a"),
(11, "11a"),
(12, "12a"),
(14, "14a"),
(21, "21a"),
(28, "28a"),
(100, "100a"),
(101, "101a"),
(1000, "1000a"),
(1000000, "1000000a")
)
TEST_CASES_TO_CURRENCY_EUR = (
(1.00, "unu eŭro kaj nul centimo"),
(2.01, "du eŭroj kaj unu centimo"),
(8.10, "ok eŭroj kaj dek centimoj"),
(12.26, "dek du eŭroj kaj dudek ses centimoj"),
(21.29, "dudek unu eŭroj kaj dudek naŭ centimoj"),
(81.25, "okdek unu eŭroj kaj dudek kvin centimoj"),
(100.00, "cent eŭroj kaj nul centimo"),
)
TEST_CASES_TO_CURRENCY_FRF = (
(1.00, "unu franko kaj nul centimo"),
(2.01, "du frankoj kaj unu centimo"),
(8.10, "ok frankoj kaj dek centimoj"),
(12.27, "dek du frankoj kaj dudek sep centimoj"),
(21.29, "dudek unu frankoj kaj dudek naŭ centimoj"),
(81.25, "okdek unu frankoj kaj dudek kvin centimoj"),
(100.00, "cent frankoj kaj nul centimo"),
)
TEST_CASES_TO_CURRENCY_USD = (
(1.00, "unu dolaro kaj nul cendo"),
(2.01, "du dolaroj kaj unu cendo"),
(8.10, "ok dolaroj kaj dek cendoj"),
(12.26, "dek du dolaroj kaj dudek ses cendoj"),
(21.29, "dudek unu dolaroj kaj dudek naŭ cendoj"),
(81.25, "okdek unu dolaroj kaj dudek kvin cendoj"),
(100.00, "cent dolaroj kaj nul cendo"),
)
class Num2WordsEOTest(TestCase):
def test_number(self):
for test in TEST_CASES_CARDINAL:
self.assertEqual(num2words(test[0], lang="eo"), test[1])
def test_ordinal(self):
for test in TEST_CASES_ORDINAL:
self.assertEqual(
num2words(test[0], lang="eo", ordinal=True),
test[1]
)
def test_ordinal_num(self):
for test in TEST_CASES_ORDINAL_NUM:
self.assertEqual(
num2words(test[0], lang="eo", to="ordinal_num"),
test[1]
)
def test_currency_eur(self):
for test in TEST_CASES_TO_CURRENCY_EUR:
self.assertEqual(
num2words(test[0], lang="eo", to="currency", currency="EUR"),
test[1]
)
def test_currency_frf(self):
for test in TEST_CASES_TO_CURRENCY_FRF:
self.assertEqual(
num2words(test[0], lang="eo", to="currency", currency="FRF"),
test[1]
)
def test_currency_usd(self):
for test in TEST_CASES_TO_CURRENCY_USD:
self.assertEqual(
num2words(test[0], lang="eo", to="currency", currency="USD"),
test[1]
)

43
tests/test_he.py
View File

@@ -20,6 +20,7 @@ from __future__ import unicode_literals
from unittest import TestCase
from num2words import num2words
from num2words.lang_HE import Num2Word_HE
class Num2WordsHETest(TestCase):
@@ -71,3 +72,45 @@ class Num2WordsHETest(TestCase):
self.assertEqual(
num2words(6870, lang="he"), u'ששת אלפים שמונה מאות ושבעים'
)
def test_pluralize(self):
n = Num2Word_HE()
cr1, cr2 = n.CURRENCY_FORMS['NIS']
self.assertEqual(n.pluralize(1, cr1), 'שקל')
self.assertEqual(n.pluralize(2, cr1), 'שקלים')
self.assertEqual(n.pluralize(1, cr2), 'אגורה')
self.assertEqual(n.pluralize(2, cr2), 'אגורות')
cr1, cr2 = n.CURRENCY_FORMS['USD']
self.assertEqual(n.pluralize(1, cr1), 'דולר')
self.assertEqual(n.pluralize(2, cr1), 'דולרים')
self.assertEqual(n.pluralize(1, cr2), 'סנט')
self.assertEqual(n.pluralize(2, cr2), 'סנט')
def test_to_currency(self):
n = Num2Word_HE()
self.assertEqual(
n.to_currency(20.0, currency='NIS'), 'עשרים שקלים ואפס אגורות'
)
self.assertEqual(
n.to_currency(100.0, currency='NIS'), 'מאה שקלים ואפס אגורות'
)
self.assertEqual(
n.to_currency(100.50, currency='NIS'), 'מאה שקלים וחמישים אגורות'
)
def test_to_cardinal(self):
n = Num2Word_HE()
self.assertEqual(n.to_cardinal(1500), u'אלף וחמש מאות')
class Num2WordsHETestNotImplementedMethofs(TestCase):
n = Num2Word_HE()
def test_to_ordinal(self):
with self.assertRaises(NotImplementedError):
self.n.to_ordinal('1')
def test_large_number(self):
with self.assertRaises(NotImplementedError):
num2words(2000000, lang="he")

51
tests/test_it.py
View File

@@ -21,6 +21,36 @@ from unittest import TestCase
from num2words import num2words
TEST_CASES_TO_CURRENCY_EUR = (
(1.00, 'un euro e zero centesimi'),
(2.01, 'due euro e un centesimo'),
(8.10, 'otto euro e dieci centesimi'),
(12.26, 'dodici euro e ventisei centesimi'),
(21.29, 'ventun euro e ventinove centesimi'),
(81.25, 'ottantun euro e venticinque centesimi'),
(100.00, 'cento euro e zero centesimi'),
)
TEST_CASES_TO_CURRENCY_USD = (
(1.00, 'un dollaro e zero centesimi'),
(2.01, 'due dollari e un centesimo'),
(8.10, 'otto dollari e dieci centesimi'),
(12.26, 'dodici dollari e ventisei centesimi'),
(21.29, 'ventun dollari e ventinove centesimi'),
(81.25, 'ottantun dollari e venticinque centesimi'),
(100.00, 'cento dollari e zero centesimi'),
)
TEST_CASES_TO_CURRENCY_GBP = (
(1.00, 'una sterlina e zero penny'),
(2.01, 'due sterline e un penny'),
(8.10, 'otto sterline e dieci penny'),
(12.26, 'dodici sterline e ventisei penny'),
(21.29, 'ventun sterline e ventinove penny'),
(81.25, 'ottantun sterline e venticinque penny'),
(100.00, 'cento sterline e zero penny'),
)
class Num2WordsITTest(TestCase):
maxDiff = None
@@ -240,3 +270,24 @@ class Num2WordsITTest(TestCase):
self.assertAlmostEqual(
num2words(1.1, lang="it"), "uno virgola uno"
)
def test_currency_eur(self):
for test in TEST_CASES_TO_CURRENCY_EUR:
self.assertEqual(
num2words(test[0], lang='it', to='currency', currency='EUR'),
test[1]
)
def test_currency_usd(self):
for test in TEST_CASES_TO_CURRENCY_USD:
self.assertEqual(
num2words(test[0], lang='it', to='currency', currency='USD'),
test[1]
)
def test_currency_gbp(self):
for test in TEST_CASES_TO_CURRENCY_GBP:
self.assertEqual(
num2words(test[0], lang='it', to='currency', currency='GBP'),
test[1]
)

1
tests/test_nl.py
View File

@@ -36,6 +36,7 @@ class Num2WordsNLTest(TestCase):
)
def test_ordinal_at_crucial_number(self):
self.assertEqual(num2words(0, ordinal=True, lang='nl'), "nulde")
self.assertEqual(num2words(100, ordinal=True, lang='nl'), "honderdste")
self.assertEqual(
num2words(1000, ordinal=True, lang='nl'), "duizendste"

19
tests/test_pl.py
View File

@@ -24,11 +24,13 @@ from num2words import num2words
class Num2WordsPLTest(TestCase):
def test_cardinal(self):
self.assertEqual(num2words(90, lang='pl'), "dziewięćdziesiąt")
self.assertEqual(num2words(100, lang='pl'), "sto")
self.assertEqual(num2words(101, lang='pl'), "sto jeden")
self.assertEqual(num2words(110, lang='pl'), "sto dziesięć")
self.assertEqual(num2words(115, lang='pl'), "sto piętnaście")
self.assertEqual(num2words(123, lang='pl'), "sto dwadzieścia trzy")
self.assertEqual(num2words(400, lang='pl'), "czterysta")
self.assertEqual(num2words(1000, lang='pl'), "tysiąc")
self.assertEqual(num2words(1001, lang='pl'), "tysiąc jeden")
self.assertEqual(num2words(2012, lang='pl'), "dwa tysiące dwanaście")
@@ -52,7 +54,7 @@ class Num2WordsPLTest(TestCase):
self.assertEqual(
num2words(1234567890, lang='pl'),
"miliard dwieście trzydzieści cztery miliony pięćset "
"sześćdziesiąt siedem tysięcy osiemset dziewięćdzisiąt"
"sześćdziesiąt siedem tysięcy osiemset dziewięćdziesiąt"
)
self.assertEqual(
num2words(10000000001000000100000, lang='pl'),
@@ -62,20 +64,20 @@ class Num2WordsPLTest(TestCase):
num2words(215461407892039002157189883901676, lang='pl'),
"dwieście piętnaście kwintylionów czterysta sześćdziesiąt jeden "
"kwadryliardów czterysta siedem kwadrylionów osiemset "
"dziewięćdzisiąt dwa tryliardy trzydzieści dziewięć trylionów "
"dziewięćdziesiąt dwa tryliardy trzydzieści dziewięć trylionów "
"dwa biliardy sto pięćdziesiąt siedem bilionów sto osiemdziesiąt "
"dziewięć miliardów osiemset osiemdziesiąt trzy miliony "
"dziewięćset jeden tysięcy sześćset siedemdziesiąt sześć"
)
self.assertEqual(
num2words(719094234693663034822824384220291, lang='pl'),
"siedemset dziewiętnaście kwintylionów dziewięćdzisiąt cztery "
"siedemset dziewiętnaście kwintylionów dziewięćdziesiąt cztery "
"kwadryliardy dwieście trzydzieści cztery kwadryliony sześćset "
"dziewięćdzisiąt trzy tryliardy sześćset sześćdziesiąt trzy "
"dziewięćdziesiąt trzy tryliardy sześćset sześćdziesiąt trzy "
"tryliony trzydzieści cztery biliardy osiemset dwadzieścia dwa "
"biliony osiemset dwadzieścia cztery miliardy trzysta "
"osiemdziesiąt cztery miliony dwieście dwadzieścia "
"tysięcy dwieście dziewięćdzisiąt jeden"
"tysięcy dwieście dziewięćdziesiąt jeden"
)
self.assertEqual(
num2words(
@@ -94,6 +96,9 @@ class Num2WordsPLTest(TestCase):
self.assertEqual(num2words(100, lang='pl', to='ordinal'), "setny")
self.assertEqual(
num2words(101, lang='pl', to='ordinal'), "sto pierwszy")
self.assertEqual(num2words(120, lang='pl', to='ordinal'),
"sto dwudziesty")
self.assertEqual(num2words(20, lang='pl', to='ordinal'), "dwudziesty")
self.assertEqual(num2words(121, lang='pl', to='ordinal'),
"sto dwudziesty pierwszy")
self.assertEqual(
@@ -118,6 +123,10 @@ class Num2WordsPLTest(TestCase):
self.assertEqual(num2words(1000000, lang='pl',
to='ordinal'), "milionowy")
def test_to_ordinal_error(self):
with self.assertRaises(NotImplementedError):
num2words(1.5, lang='pl', to='ordinal')
def test_currency(self):
self.assertEqual(
num2words(1.0, lang='pl', to='currency', currency='EUR'),

6
tests/test_pt_BR.py
View File

@@ -80,6 +80,12 @@ class Num2WordsPTBRTest(TestCase):
self.assertEqual(
num2words(6000000, lang='pt_BR'), 'seis milhões'
)
self.assertEqual(
num2words(100000000, lang='pt_BR'), 'cem milhões'
)
self.assertEqual(
num2words(100000000000, lang='pt_BR'), 'cem bilhões'
)
self.assertEqual(
num2words(19000000000, lang='pt_BR'), 'dezenove bilhões'
)

5
tests/test_ru.py
View File

@@ -272,3 +272,8 @@ class Num2WordsRUTest(TestCase):
'одна тысяча двести тридцать четыре доллара, пятьдесят шесть '
'центов'
)
self.assertEqual(
num2words(10122, lang='ru', to='currency', currency='UZS',
separator=' и'),
'сто один сум и двадцать два тийина'
)

118
tests/test_tg.py Normal file
View File

@@ -0,0 +1,118 @@
# -*- coding: utf-8 -*-
# Copyright (c) 2003, Taro Ogawa. All Rights Reserved.
# Copyright (c) 2013, Savoir-faire Linux inc. All Rights Reserved.
# This library is free software; you can redistribute it and/or
# modify it under the terms of the GNU Lesser General Public
# License as published by the Free Software Foundation; either
# version 2.1 of the License, or (at your option) any later version.
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# Lesser General Public License for more details.
# You should have received a copy of the GNU Lesser General Public
# License along with this library; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
# MA 02110-1301 USA
from __future__ import unicode_literals
from unittest import TestCase
from num2words import num2words
class Num2WordsTGTest(TestCase):
def test_cardinal(self):
with self.assertRaises(OverflowError):
num2words(1000000000000000000000000, lang="tg")
self.assertEqual(num2words(100, lang="tg"), "сад")
self.assertEqual(num2words(100000, lang="tg"), "сад ҳазор")
self.assertEqual(num2words(101, lang="tg"), "яксаду як")
self.assertEqual(num2words(110, lang="tg"), "яксаду даҳ")
self.assertEqual(num2words(115, lang="tg"), "яксаду понздаҳ")
self.assertEqual(num2words(123, lang="tg"), "яксаду бисту се")
self.assertEqual(num2words(1000, lang="tg"), "як ҳазор")
self.assertEqual(num2words(1001, lang="tg"), "як ҳазору як")
self.assertEqual(num2words(2012, lang="tg"), "ду ҳазору дувоздаҳ")
self.assertEqual(
num2words(12519.85, lang="tg"),
"дувоздаҳ ҳазору панҷсаду нуздаҳ нуқта ҳашт панҷ",
)
self.assertEqual(
num2words(1234567890, lang="tg"),
"як миллиарду дусаду сию чор миллиону панҷсаду шасту ҳафт ҳазору "
"ҳаштсаду навад",
)
self.assertEqual(num2words(1000000, lang="tg"), "як миллион")
self.assertEqual(num2words(1000000000, lang="tg"), "як миллиард")
self.assertEqual(num2words(1000000000000, lang="tg"), "як триллион")
self.assertEqual(num2words(5, lang="tg"), "панҷ")
self.assertEqual(num2words(-1, lang="tg"), "минус як")
self.assertEqual(num2words(-15, lang="tg"), "минус понздаҳ")
self.assertEqual(num2words(-100, lang="tg"), "минус сад")
def test_to_ordinal(self):
self.assertEqual(num2words(1, lang="tg", to="ordinal"), "якум")
self.assertEqual(num2words(2, lang="tg", to="ordinal"), "дуюм")
self.assertEqual(num2words(3, lang="tg", to="ordinal"), "сеюм")
self.assertEqual(num2words(30, lang="tg", to="ordinal"), "сиюм")
self.assertEqual(num2words(13, lang="tg", to="ordinal"), "сенздаҳум")
self.assertEqual(num2words(20, lang="tg", to="ordinal"), "бистум")
self.assertEqual(num2words(23, lang="tg", to="ordinal"), "бисту сеюм")
self.assertEqual(num2words(100, lang="tg", to="ordinal"), "садум")
self.assertEqual(
num2words(136, lang="tg", to="ordinal"), "яксаду сию шашум"
)
self.assertEqual(num2words(500, lang="tg", to="ordinal"), "панҷсадум")
self.assertEqual(
num2words(1000, lang="tg", to="ordinal"), "як ҳазорум"
)
self.assertEqual(
num2words(1001, lang="tg", to="ordinal"), "як ҳазору якум"
)
self.assertEqual(
num2words(2000, lang="tg", to="ordinal"), "ду ҳазорум"
)
self.assertEqual(
num2words(1000000, lang="tg", to="ordinal"), "як миллионум"
)
self.assertEqual(
num2words(1000000000, lang="tg", to="ordinal"), "як миллиардум"
)
def test_to_currency(self):
self.assertEqual(
num2words(1.0, lang="tg", to="currency", currency="EUR"),
"як евро, сифр сент",
)
self.assertEqual(
num2words(1.0, lang="tg", to="currency", currency="TJS"),
"як сомонӣ, сифр дирам",
)
self.assertEqual(
num2words(1234.56, lang="tg", to="currency", currency="TJS"),
"як ҳазору дусаду сию чор сомонӣ, панҷову шаш дирам",
)
self.assertEqual(
num2words(1234.56, lang="tg", to="currency", currency="RUB"),
"як ҳазору дусаду сию чор рубл, панҷову шаш копейк",
)
self.assertEqual(
num2words(
12519.85, lang="tg", to="currency", currency="TJS", cents=False
),
"дувоздаҳ ҳазору панҷсаду нуздаҳ сомонӣ, 85 дирам",
)
self.assertEqual(
num2words("1230.56", lang="tg", to="currency", currency="USD"),
"як ҳазору дусаду си доллар, панҷову шаш сент",
)
def test_to_ordinal_num(self):
self.assertEqual(
num2words("100", lang="tg", to="ordinal_num"),
"100ум",
)

11
tests/test_tr.py
View File

@@ -182,7 +182,16 @@ class Num2WordsTRTest(TestCase):
{"test": 101101011010.02, "to": "cardinal",
"expected": u"yüzbirmilyaryüzbirmilyononbirbinonvirgüliki"},
{"test": 101101011010.2, "to": "cardinal",
"expected": u"yüzbirmilyaryüzbirmilyononbirbinonvirgülyirmi"}
"expected": u"yüzbirmilyaryüzbirmilyononbirbinonvirgülyirmi"},
{"test": 10, "to": "ordinal_num", "expected": u"10uncu"},
{"test": 1, "to": "ordinal_num", "expected": u"1inci"},
{"test": 3, "to": "ordinal_num", "expected": u"3üncü"},
{"test": 6, "to": "ordinal_num", "expected": u"6ıncı"},
{"test": -5, "to": "cardinal", "expected": u"eksibeş"},
{"test": -55, "to": "cardinal", "expected": u"eksiellibeş"},
{"test": -576, "to": "cardinal",
"expected": u"eksibeşyüzyetmişaltı"},
{"test": -3, "to": "currency", "expected": u"eksiüçlira"},
]
for casedata in testcases: