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|
#!/usr/bin/env python
# -*- coding: utf-8 -*-
#
# Copyright (C) 2007-2011 Edgewall Software, 2013-2018 the Babel team
# All rights reserved.
#
# This software is licensed as described in the file LICENSE, which
# you should have received as part of this distribution. The terms
# are also available at http://babel.edgewall.org/wiki/License.
#
# This software consists of voluntary contributions made by many
# individuals. For the exact contribution history, see the revision
# history and logs, available at http://babel.edgewall.org/log/.
import collections
from optparse import OptionParser
import os
import re
import sys
try:
from xml.etree import cElementTree as ElementTree
except ImportError:
from xml.etree import ElementTree
# Make sure we're using Babel source, and not some previously installed version
CHECKOUT_ROOT = os.path.abspath(os.path.join(
os.path.dirname(__file__),
'..'
))
BABEL_PACKAGE_ROOT = os.path.join(CHECKOUT_ROOT, "babel")
sys.path.insert(0, CHECKOUT_ROOT)
from babel import dates, numbers
from babel._compat import pickle, text_type
from babel.dates import split_interval_pattern
from babel.localedata import Alias
from babel.plural import PluralRule
parse = ElementTree.parse
weekdays = {'mon': 0, 'tue': 1, 'wed': 2, 'thu': 3, 'fri': 4, 'sat': 5,
'sun': 6}
def _text(elem):
buf = [elem.text or '']
for child in elem:
buf.append(_text(child))
buf.append(elem.tail or '')
return u''.join(filter(None, buf)).strip()
NAME_RE = re.compile(r"^\w+$")
TYPE_ATTR_RE = re.compile(r"^\w+\[@type='(.*?)'\]$")
NAME_MAP = {
'dateFormats': 'date_formats',
'dateTimeFormats': 'datetime_formats',
'eraAbbr': 'abbreviated',
'eraNames': 'wide',
'eraNarrow': 'narrow',
'timeFormats': 'time_formats'
}
def log(message, *args):
if args:
message = message % args
sys.stderr.write(message + '\r\n')
sys.stderr.flush()
def error(message, *args):
log('ERROR: %s' % message, *args)
def need_conversion(dst_filename, data_dict, source_filename):
with open(source_filename, 'rb') as f:
blob = f.read(4096)
version = int(re.search(b'version number="\\$Revision: (\\d+)',
blob).group(1))
data_dict['_version'] = version
if not os.path.isfile(dst_filename):
return True
with open(dst_filename, 'rb') as f:
data = pickle.load(f)
return data.get('_version') != version
def _translate_alias(ctxt, path):
parts = path.split('/')
keys = ctxt[:]
for part in parts:
if part == '..':
keys.pop()
else:
match = TYPE_ATTR_RE.match(part)
if match:
keys.append(match.group(1))
else:
assert NAME_RE.match(part)
keys.append(NAME_MAP.get(part, part))
return keys
def _parse_currency_date(s):
if not s:
return None
parts = s.split('-', 2)
return tuple(map(int, parts + [1] * (3 - len(parts))))
def _currency_sort_key(tup):
code, start, end, tender = tup
return int(not tender), start or (1, 1, 1)
def _extract_plural_rules(file_path):
rule_dict = {}
prsup = parse(file_path)
for elem in prsup.findall('.//plurals/pluralRules'):
rules = []
for rule in elem.findall('pluralRule'):
rules.append((rule.attrib['count'], text_type(rule.text)))
pr = PluralRule(rules)
for locale in elem.attrib['locales'].split():
rule_dict[locale] = pr
return rule_dict
def _time_to_seconds_past_midnight(time_expr):
"""
Parse a time expression to seconds after midnight.
:param time_expr: Time expression string (H:M or H:M:S)
:rtype: int
"""
if time_expr is None:
return None
if time_expr.count(":") == 1:
time_expr += ":00"
hour, minute, second = [int(p, 10) for p in time_expr.split(":")]
return hour * 60 * 60 + minute * 60 + second
def _compact_dict(dict):
"""
"Compact" the given dict by removing items whose value is None or False.
"""
out_dict = {}
for key, value in dict.items():
if value is not None and value is not False:
out_dict[key] = value
return out_dict
def debug_repr(obj):
if isinstance(obj, PluralRule):
return obj.abstract
return repr(obj)
def write_datafile(path, data, dump_json=False):
with open(path, 'wb') as outfile:
pickle.dump(data, outfile, 2)
if dump_json:
import json
with open(path + '.json', 'w') as outfile:
json.dump(data, outfile, indent=4, default=debug_repr)
def main():
parser = OptionParser(usage='%prog path/to/cldr')
parser.add_option(
'-f', '--force', dest='force', action='store_true', default=False,
help='force import even if destination file seems up to date'
)
parser.add_option(
'-j', '--json', dest='dump_json', action='store_true', default=False,
help='also export debugging JSON dumps of locale data'
)
options, args = parser.parse_args()
if len(args) != 1:
parser.error('incorrect number of arguments')
return process_data(
srcdir=args[0],
destdir=BABEL_PACKAGE_ROOT,
force=bool(options.force),
dump_json=bool(options.dump_json)
)
def process_data(srcdir, destdir, force=False, dump_json=False):
sup_filename = os.path.join(srcdir, 'supplemental', 'supplementalData.xml')
sup = parse(sup_filename)
# Import global data from the supplemental files
global_path = os.path.join(destdir, 'global.dat')
global_data = {}
if force or need_conversion(global_path, global_data, sup_filename):
global_data.update(parse_global(srcdir, sup))
write_datafile(global_path, global_data, dump_json=dump_json)
_process_local_datas(sup, srcdir, destdir, force=force, dump_json=dump_json)
def parse_global(srcdir, sup):
global_data = {}
sup_dir = os.path.join(srcdir, 'supplemental')
territory_zones = global_data.setdefault('territory_zones', {})
zone_aliases = global_data.setdefault('zone_aliases', {})
zone_territories = global_data.setdefault('zone_territories', {})
win_mapping = global_data.setdefault('windows_zone_mapping', {})
language_aliases = global_data.setdefault('language_aliases', {})
territory_aliases = global_data.setdefault('territory_aliases', {})
script_aliases = global_data.setdefault('script_aliases', {})
variant_aliases = global_data.setdefault('variant_aliases', {})
likely_subtags = global_data.setdefault('likely_subtags', {})
territory_currencies = global_data.setdefault('territory_currencies', {})
parent_exceptions = global_data.setdefault('parent_exceptions', {})
all_currencies = collections.defaultdict(set)
currency_fractions = global_data.setdefault('currency_fractions', {})
territory_languages = global_data.setdefault('territory_languages', {})
bcp47_timezone = parse(os.path.join(srcdir, 'bcp47', 'timezone.xml'))
sup_windows_zones = parse(os.path.join(sup_dir, 'windowsZones.xml'))
sup_metadata = parse(os.path.join(sup_dir, 'supplementalMetadata.xml'))
sup_likely = parse(os.path.join(sup_dir, 'likelySubtags.xml'))
# create auxiliary zone->territory map from the windows zones (we don't set
# the 'zones_territories' map directly here, because there are some zones
# aliases listed and we defer the decision of which ones to choose to the
# 'bcp47' data
_zone_territory_map = {}
for map_zone in sup_windows_zones.findall('.//windowsZones/mapTimezones/mapZone'):
if map_zone.attrib.get('territory') == '001':
win_mapping[map_zone.attrib['other']] = map_zone.attrib['type'].split()[0]
for tzid in text_type(map_zone.attrib['type']).split():
_zone_territory_map[tzid] = text_type(map_zone.attrib['territory'])
for key_elem in bcp47_timezone.findall('.//keyword/key'):
if key_elem.attrib['name'] == 'tz':
for elem in key_elem.findall('type'):
if 'deprecated' not in elem.attrib:
aliases = text_type(elem.attrib['alias']).split()
tzid = aliases.pop(0)
territory = _zone_territory_map.get(tzid, '001')
territory_zones.setdefault(territory, []).append(tzid)
zone_territories[tzid] = territory
for alias in aliases:
zone_aliases[alias] = tzid
break
# Import Metazone mapping
meta_zones = global_data.setdefault('meta_zones', {})
tzsup = parse(os.path.join(srcdir, 'supplemental', 'metaZones.xml'))
for elem in tzsup.findall('.//timezone'):
for child in elem.findall('usesMetazone'):
if 'to' not in child.attrib: # FIXME: support old mappings
meta_zones[elem.attrib['type']] = child.attrib['mzone']
# Language aliases
for alias in sup_metadata.findall('.//alias/languageAlias'):
# We don't have a use for those at the moment. They don't
# pass our parser anyways.
if '_' in alias.attrib['type']:
continue
language_aliases[alias.attrib['type']] = alias.attrib['replacement']
# Territory aliases
for alias in sup_metadata.findall('.//alias/territoryAlias'):
territory_aliases[alias.attrib['type']] = alias.attrib['replacement'].split()
# Script aliases
for alias in sup_metadata.findall('.//alias/scriptAlias'):
script_aliases[alias.attrib['type']] = alias.attrib['replacement']
# Variant aliases
for alias in sup_metadata.findall('.//alias/variantAlias'):
repl = alias.attrib.get('replacement')
if repl:
variant_aliases[alias.attrib['type']] = repl
# Likely subtags
for likely_subtag in sup_likely.findall('.//likelySubtags/likelySubtag'):
likely_subtags[likely_subtag.attrib['from']] = likely_subtag.attrib['to']
# Currencies in territories
for region in sup.findall('.//currencyData/region'):
region_code = region.attrib['iso3166']
region_currencies = []
for currency in region.findall('./currency'):
cur_code = currency.attrib['iso4217']
cur_start = _parse_currency_date(currency.attrib.get('from'))
cur_end = _parse_currency_date(currency.attrib.get('to'))
cur_tender = currency.attrib.get('tender', 'true') == 'true'
# Tie region to currency.
region_currencies.append((cur_code, cur_start, cur_end, cur_tender))
# Keep a reverse index of currencies to territorie.
all_currencies[cur_code].add(region_code)
region_currencies.sort(key=_currency_sort_key)
territory_currencies[region_code] = region_currencies
global_data['all_currencies'] = dict([
(currency, tuple(sorted(regions))) for currency, regions in all_currencies.items()])
# Explicit parent locales
for paternity in sup.findall('.//parentLocales/parentLocale'):
parent = paternity.attrib['parent']
for child in paternity.attrib['locales'].split():
parent_exceptions[child] = parent
# Currency decimal and rounding digits
for fraction in sup.findall('.//currencyData/fractions/info'):
cur_code = fraction.attrib['iso4217']
cur_digits = int(fraction.attrib['digits'])
cur_rounding = int(fraction.attrib['rounding'])
cur_cdigits = int(fraction.attrib.get('cashDigits', cur_digits))
cur_crounding = int(fraction.attrib.get('cashRounding', cur_rounding))
currency_fractions[cur_code] = (cur_digits, cur_rounding, cur_cdigits, cur_crounding)
# Languages in territories
for territory in sup.findall('.//territoryInfo/territory'):
languages = {}
for language in territory.findall('./languagePopulation'):
languages[language.attrib['type']] = {
'population_percent': float(language.attrib['populationPercent']),
'official_status': language.attrib.get('officialStatus'),
}
territory_languages[territory.attrib['type']] = languages
return global_data
def _process_local_datas(sup, srcdir, destdir, force=False, dump_json=False):
day_period_rules = parse_day_period_rules(parse(os.path.join(srcdir, 'supplemental', 'dayPeriods.xml')))
# build a territory containment mapping for inheritance
regions = {}
for elem in sup.findall('.//territoryContainment/group'):
regions[elem.attrib['type']] = elem.attrib['contains'].split()
# Resolve territory containment
territory_containment = {}
region_items = sorted(regions.items())
for group, territory_list in region_items:
for territory in territory_list:
containers = territory_containment.setdefault(territory, set([]))
if group in territory_containment:
containers |= territory_containment[group]
containers.add(group)
# prepare the per-locale plural rules definitions
plural_rules = _extract_plural_rules(os.path.join(srcdir, 'supplemental', 'plurals.xml'))
ordinal_rules = _extract_plural_rules(os.path.join(srcdir, 'supplemental', 'ordinals.xml'))
filenames = os.listdir(os.path.join(srcdir, 'main'))
filenames.remove('root.xml')
filenames.sort(key=len)
filenames.insert(0, 'root.xml')
for filename in filenames:
stem, ext = os.path.splitext(filename)
if ext != '.xml':
continue
full_filename = os.path.join(srcdir, 'main', filename)
data_filename = os.path.join(destdir, 'locale-data', stem + '.dat')
data = {}
if not (force or need_conversion(data_filename, data, full_filename)):
continue
tree = parse(full_filename)
language = None
elem = tree.find('.//identity/language')
if elem is not None:
language = elem.attrib['type']
territory = None
elem = tree.find('.//identity/territory')
if elem is not None:
territory = elem.attrib['type']
else:
territory = '001' # world
regions = territory_containment.get(territory, [])
log('Processing %s (Language = %s; Territory = %s)',
filename, language, territory)
locale_id = '_'.join(filter(None, [
language,
territory != '001' and territory or None
]))
data['locale_id'] = locale_id
if locale_id in plural_rules:
data['plural_form'] = plural_rules[locale_id]
if locale_id in ordinal_rules:
data['ordinal_form'] = ordinal_rules[locale_id]
if locale_id in day_period_rules:
data["day_period_rules"] = day_period_rules[locale_id]
parse_locale_display_names(data, tree)
parse_list_patterns(data, tree)
parse_dates(data, tree, sup, regions, territory)
for calendar in tree.findall('.//calendars/calendar'):
if calendar.attrib['type'] != 'gregorian':
# TODO: support other calendar types
continue
parse_calendar_months(data, calendar)
parse_calendar_days(data, calendar)
parse_calendar_quarters(data, calendar)
parse_calendar_eras(data, calendar)
parse_calendar_periods(data, calendar)
parse_calendar_date_formats(data, calendar)
parse_calendar_time_formats(data, calendar)
parse_calendar_datetime_skeletons(data, calendar)
parse_interval_formats(data, calendar)
parse_number_symbols(data, tree)
parse_decimal_formats(data, tree)
parse_scientific_formats(data, tree)
parse_percent_formats(data, tree)
parse_currency_formats(data, tree)
parse_currency_names(data, tree)
parse_unit_patterns(data, tree)
parse_date_fields(data, tree)
parse_character_order(data, tree)
parse_measurement_systems(data, tree)
write_datafile(data_filename, data, dump_json=dump_json)
def _should_skip_number_elem(data, elem):
"""
Figure out whether the numbering-containing element `elem` is in a currently
non-supported (i.e. currently non-Latin) numbering system.
If it is, a warning is raised.
:param data: The root data element, for formatting the warning.
:param elem: Element with `numberSystem` key
:return: Boolean
"""
number_system = elem.get('numberSystem', 'latn')
if number_system != 'latn':
log('%s: Unsupported number system "%s" in <%s numberSystem="%s">' % (
data['locale_id'],
number_system,
elem.tag,
number_system,
))
return True
return False
def _should_skip_elem(elem, type=None, dest=None):
"""
Check whether the given element should be skipped.
Elements are skipped if they are drafts or alternates of data that already exists in `dest`.
:param elem: XML element
:param type: Type string. May be elided if the dest dict is elided.
:param dest: Destination dict. May be elided to skip the dict check.
:return: skip boolean
"""
if 'draft' in elem.attrib or 'alt' in elem.attrib:
if dest is None or type in dest:
return True
def _import_type_text(dest, elem, type=None):
"""
Conditionally import the element's inner text(s) into the `dest` dict.
The condition being, namely, that the element isn't a draft/alternate version
of a pre-existing element.
:param dest: Destination dict
:param elem: XML element.
:param type: Override type. (By default, the `type` attr of the element.)
:return:
"""
if type is None:
type = elem.attrib['type']
if _should_skip_elem(elem, type, dest):
return
dest[type] = _text(elem)
def parse_locale_display_names(data, tree):
territories = data.setdefault('territories', {})
for elem in tree.findall('.//territories/territory'):
_import_type_text(territories, elem)
languages = data.setdefault('languages', {})
for elem in tree.findall('.//languages/language'):
_import_type_text(languages, elem)
variants = data.setdefault('variants', {})
for elem in tree.findall('.//variants/variant'):
_import_type_text(variants, elem)
scripts = data.setdefault('scripts', {})
for elem in tree.findall('.//scripts/script'):
_import_type_text(scripts, elem)
def parse_list_patterns(data, tree):
list_patterns = data.setdefault('list_patterns', {})
for listType in tree.findall('.//listPatterns/listPattern'):
by_type = list_patterns.setdefault(listType.attrib.get('type', 'standard'), {})
for listPattern in listType.findall('listPatternPart'):
by_type[listPattern.attrib['type']] = _text(listPattern)
def parse_dates(data, tree, sup, regions, territory):
week_data = data.setdefault('week_data', {})
supelem = sup.find('.//weekData')
for elem in supelem.findall('minDays'):
territories = elem.attrib['territories'].split()
if territory in territories or any([r in territories for r in regions]):
week_data['min_days'] = int(elem.attrib['count'])
for elem in supelem.findall('firstDay'):
territories = elem.attrib['territories'].split()
if territory in territories or any([r in territories for r in regions]):
week_data['first_day'] = weekdays[elem.attrib['day']]
for elem in supelem.findall('weekendStart'):
territories = elem.attrib['territories'].split()
if territory in territories or any([r in territories for r in regions]):
week_data['weekend_start'] = weekdays[elem.attrib['day']]
for elem in supelem.findall('weekendEnd'):
territories = elem.attrib['territories'].split()
if territory in territories or any([r in territories for r in regions]):
week_data['weekend_end'] = weekdays[elem.attrib['day']]
zone_formats = data.setdefault('zone_formats', {})
for elem in tree.findall('.//timeZoneNames/gmtFormat'):
if not _should_skip_elem(elem):
zone_formats['gmt'] = text_type(elem.text).replace('{0}', '%s')
break
for elem in tree.findall('.//timeZoneNames/regionFormat'):
if not _should_skip_elem(elem):
zone_formats['region'] = text_type(elem.text).replace('{0}', '%s')
break
for elem in tree.findall('.//timeZoneNames/fallbackFormat'):
if not _should_skip_elem(elem):
zone_formats['fallback'] = (
text_type(elem.text).replace('{0}', '%(0)s').replace('{1}', '%(1)s')
)
break
for elem in tree.findall('.//timeZoneNames/fallbackRegionFormat'):
if not _should_skip_elem(elem):
zone_formats['fallback_region'] = (
text_type(elem.text).replace('{0}', '%(0)s').replace('{1}', '%(1)s')
)
break
time_zones = data.setdefault('time_zones', {})
for elem in tree.findall('.//timeZoneNames/zone'):
info = {}
city = elem.findtext('exemplarCity')
if city:
info['city'] = text_type(city)
for child in elem.findall('long/*'):
info.setdefault('long', {})[child.tag] = text_type(child.text)
for child in elem.findall('short/*'):
info.setdefault('short', {})[child.tag] = text_type(child.text)
time_zones[elem.attrib['type']] = info
meta_zones = data.setdefault('meta_zones', {})
for elem in tree.findall('.//timeZoneNames/metazone'):
info = {}
city = elem.findtext('exemplarCity')
if city:
info['city'] = text_type(city)
for child in elem.findall('long/*'):
info.setdefault('long', {})[child.tag] = text_type(child.text)
for child in elem.findall('short/*'):
info.setdefault('short', {})[child.tag] = text_type(child.text)
meta_zones[elem.attrib['type']] = info
def parse_calendar_months(data, calendar):
months = data.setdefault('months', {})
for ctxt in calendar.findall('months/monthContext'):
ctxt_type = ctxt.attrib['type']
ctxts = months.setdefault(ctxt_type, {})
for width in ctxt.findall('monthWidth'):
width_type = width.attrib['type']
widths = ctxts.setdefault(width_type, {})
for elem in width.getiterator():
if elem.tag == 'month':
_import_type_text(widths, elem, int(elem.attrib['type']))
elif elem.tag == 'alias':
ctxts[width_type] = Alias(
_translate_alias(['months', ctxt_type, width_type],
elem.attrib['path'])
)
def parse_calendar_days(data, calendar):
days = data.setdefault('days', {})
for ctxt in calendar.findall('days/dayContext'):
ctxt_type = ctxt.attrib['type']
ctxts = days.setdefault(ctxt_type, {})
for width in ctxt.findall('dayWidth'):
width_type = width.attrib['type']
widths = ctxts.setdefault(width_type, {})
for elem in width.getiterator():
if elem.tag == 'day':
_import_type_text(widths, elem, weekdays[elem.attrib['type']])
elif elem.tag == 'alias':
ctxts[width_type] = Alias(
_translate_alias(['days', ctxt_type, width_type],
elem.attrib['path'])
)
def parse_calendar_quarters(data, calendar):
quarters = data.setdefault('quarters', {})
for ctxt in calendar.findall('quarters/quarterContext'):
ctxt_type = ctxt.attrib['type']
ctxts = quarters.setdefault(ctxt.attrib['type'], {})
for width in ctxt.findall('quarterWidth'):
width_type = width.attrib['type']
widths = ctxts.setdefault(width_type, {})
for elem in width.getiterator():
if elem.tag == 'quarter':
_import_type_text(widths, elem, int(elem.attrib['type']))
elif elem.tag == 'alias':
ctxts[width_type] = Alias(
_translate_alias(['quarters', ctxt_type,
width_type],
elem.attrib['path']))
def parse_calendar_eras(data, calendar):
eras = data.setdefault('eras', {})
for width in calendar.findall('eras/*'):
width_type = NAME_MAP[width.tag]
widths = eras.setdefault(width_type, {})
for elem in width.getiterator():
if elem.tag == 'era':
_import_type_text(widths, elem, type=int(elem.attrib.get('type')))
elif elem.tag == 'alias':
eras[width_type] = Alias(
_translate_alias(['eras', width_type],
elem.attrib['path'])
)
def parse_calendar_periods(data, calendar):
# Day periods (AM/PM/others)
periods = data.setdefault('day_periods', {})
for day_period_ctx in calendar.findall('dayPeriods/dayPeriodContext'):
ctx_type = day_period_ctx.attrib["type"]
for day_period_width in day_period_ctx.findall('dayPeriodWidth'):
width_type = day_period_width.attrib["type"]
dest_dict = periods.setdefault(ctx_type, {}).setdefault(width_type, {})
for day_period in day_period_width.findall('dayPeriod'):
period_type = day_period.attrib['type']
if 'alt' not in day_period.attrib:
dest_dict[period_type] = text_type(day_period.text)
def parse_calendar_date_formats(data, calendar):
date_formats = data.setdefault('date_formats', {})
for format in calendar.findall('dateFormats'):
for elem in format.getiterator():
if elem.tag == 'dateFormatLength':
type = elem.attrib.get('type')
if _should_skip_elem(elem, type, date_formats):
continue
try:
date_formats[type] = dates.parse_pattern(
text_type(elem.findtext('dateFormat/pattern'))
)
except ValueError as e:
error(e)
elif elem.tag == 'alias':
date_formats = Alias(_translate_alias(
['date_formats'], elem.attrib['path'])
)
def parse_calendar_time_formats(data, calendar):
time_formats = data.setdefault('time_formats', {})
for format in calendar.findall('timeFormats'):
for elem in format.getiterator():
if elem.tag == 'timeFormatLength':
type = elem.attrib.get('type')
if _should_skip_elem(elem, type, time_formats):
continue
try:
time_formats[type] = dates.parse_pattern(
text_type(elem.findtext('timeFormat/pattern'))
)
except ValueError as e:
error(e)
elif elem.tag == 'alias':
time_formats = Alias(_translate_alias(
['time_formats'], elem.attrib['path'])
)
def parse_calendar_datetime_skeletons(data, calendar):
datetime_formats = data.setdefault('datetime_formats', {})
datetime_skeletons = data.setdefault('datetime_skeletons', {})
for format in calendar.findall('dateTimeFormats'):
for elem in format.getiterator():
if elem.tag == 'dateTimeFormatLength':
type = elem.attrib.get('type')
if _should_skip_elem(elem, type, datetime_formats):
continue
try:
datetime_formats[type] = text_type(elem.findtext('dateTimeFormat/pattern'))
except ValueError as e:
error(e)
elif elem.tag == 'alias':
datetime_formats = Alias(_translate_alias(
['datetime_formats'], elem.attrib['path'])
)
elif elem.tag == 'availableFormats':
for datetime_skeleton in elem.findall('dateFormatItem'):
datetime_skeletons[datetime_skeleton.attrib['id']] = (
dates.parse_pattern(text_type(datetime_skeleton.text))
)
def parse_number_symbols(data, tree):
number_symbols = data.setdefault('number_symbols', {})
for symbol_elem in tree.findall('.//numbers/symbols'):
if _should_skip_number_elem(data, symbol_elem): # TODO: Support other number systems
continue
for elem in symbol_elem.findall('./*'):
if _should_skip_elem(elem):
continue
number_symbols[elem.tag] = text_type(elem.text)
def parse_decimal_formats(data, tree):
decimal_formats = data.setdefault('decimal_formats', {})
for df_elem in tree.findall('.//decimalFormats'):
if _should_skip_number_elem(data, df_elem): # TODO: Support other number systems
continue
for elem in df_elem.findall('./decimalFormatLength'):
length_type = elem.attrib.get('type')
if _should_skip_elem(elem, length_type, decimal_formats):
continue
if elem.findall('./alias'):
# TODO map the alias to its target
continue
for pattern_el in elem.findall('./decimalFormat/pattern'):
pattern_type = pattern_el.attrib.get('type')
pattern = numbers.parse_pattern(text_type(pattern_el.text))
if pattern_type:
# This is a compact decimal format, see:
# http://www.unicode.org/reports/tr35/tr35-45/tr35-numbers.html#Compact_Number_Formats
# These are mapped into a `compact_decimal_formats` dictionary
# with the format {length: {count: {multiplier: pattern}}}.
# TODO: Add support for formatting them.
compact_decimal_formats = data.setdefault('compact_decimal_formats', {})
length_map = compact_decimal_formats.setdefault(length_type, {})
length_count_map = length_map.setdefault(pattern_el.attrib['count'], {})
length_count_map[pattern_type] = pattern
else:
# Regular decimal format.
decimal_formats[length_type] = pattern
def parse_scientific_formats(data, tree):
scientific_formats = data.setdefault('scientific_formats', {})
for sf_elem in tree.findall('.//scientificFormats'):
if _should_skip_number_elem(data, sf_elem): # TODO: Support other number systems
continue
for elem in sf_elem.findall('./scientificFormatLength'):
type = elem.attrib.get('type')
if _should_skip_elem(elem, type, scientific_formats):
continue
pattern = text_type(elem.findtext('scientificFormat/pattern'))
scientific_formats[type] = numbers.parse_pattern(pattern)
def parse_percent_formats(data, tree):
percent_formats = data.setdefault('percent_formats', {})
for pf_elem in tree.findall('.//percentFormats'):
if _should_skip_number_elem(data, pf_elem): # TODO: Support other number systems
continue
for elem in pf_elem.findall('.//percentFormatLength'):
type = elem.attrib.get('type')
if _should_skip_elem(elem, type, percent_formats):
continue
pattern = text_type(elem.findtext('percentFormat/pattern'))
percent_formats[type] = numbers.parse_pattern(pattern)
def parse_currency_names(data, tree):
currency_names = data.setdefault('currency_names', {})
currency_names_plural = data.setdefault('currency_names_plural', {})
currency_symbols = data.setdefault('currency_symbols', {})
for elem in tree.findall('.//currencies/currency'):
code = elem.attrib['type']
for name in elem.findall('displayName'):
if ('draft' in name.attrib) and code in currency_names:
continue
if 'count' in name.attrib:
currency_names_plural.setdefault(code, {})[
name.attrib['count']] = text_type(name.text)
else:
currency_names[code] = text_type(name.text)
for symbol in elem.findall('symbol'):
if 'draft' in symbol.attrib or 'choice' in symbol.attrib: # Skip drafts and choice-patterns
continue
if symbol.attrib.get('alt'): # Skip alternate forms
continue
currency_symbols[code] = text_type(symbol.text)
def parse_unit_patterns(data, tree):
unit_patterns = data.setdefault('unit_patterns', {})
compound_patterns = data.setdefault('compound_unit_patterns', {})
unit_display_names = data.setdefault('unit_display_names', {})
for elem in tree.findall('.//units/unitLength'):
unit_length_type = elem.attrib['type']
for unit in elem.findall('unit'):
unit_type = unit.attrib['type']
unit_and_length_patterns = unit_patterns.setdefault(unit_type, {}).setdefault(unit_length_type, {})
for pattern in unit.findall('unitPattern'):
unit_and_length_patterns[pattern.attrib['count']] = _text(pattern)
per_unit_pat = unit.find('perUnitPattern')
if per_unit_pat is not None:
unit_and_length_patterns['per'] = _text(per_unit_pat)
display_name = unit.find('displayName')
if display_name is not None:
unit_display_names.setdefault(unit_type, {})[unit_length_type] = _text(display_name)
for unit in elem.findall('compoundUnit'):
unit_type = unit.attrib['type']
compound_patterns.setdefault(unit_type, {})[unit_length_type] = (
_text(unit.find('compoundUnitPattern'))
)
def parse_date_fields(data, tree):
date_fields = data.setdefault('date_fields', {})
for elem in tree.findall('.//dates/fields/field'):
field_type = elem.attrib['type']
date_fields.setdefault(field_type, {})
for rel_time in elem.findall('relativeTime'):
rel_time_type = rel_time.attrib['type']
for pattern in rel_time.findall('relativeTimePattern'):
type_dict = date_fields[field_type].setdefault(rel_time_type, {})
type_dict[pattern.attrib['count']] = text_type(pattern.text)
def parse_interval_formats(data, tree):
# http://www.unicode.org/reports/tr35/tr35-dates.html#intervalFormats
interval_formats = data.setdefault("interval_formats", {})
for elem in tree.findall("dateTimeFormats/intervalFormats/*"):
if 'draft' in elem.attrib:
continue
if elem.tag == "intervalFormatFallback":
interval_formats[None] = elem.text
elif elem.tag == "intervalFormatItem":
skel_data = interval_formats.setdefault(elem.attrib["id"], {})
for item_sub in elem.getchildren():
if item_sub.tag == "greatestDifference":
skel_data[item_sub.attrib["id"]] = split_interval_pattern(item_sub.text)
else:
raise NotImplementedError("Not implemented: %s(%r)" % (item_sub.tag, item_sub.attrib))
def parse_currency_formats(data, tree):
currency_formats = data.setdefault('currency_formats', {})
for currency_format in tree.findall('.//currencyFormats'):
if _should_skip_number_elem(data, currency_format): # TODO: Support other number systems
continue
for length_elem in currency_format.findall('./currencyFormatLength'):
curr_length_type = length_elem.attrib.get('type')
for elem in length_elem.findall('currencyFormat'):
type = elem.attrib.get('type')
if curr_length_type:
# Handle `<currencyFormatLength type="short">`, etc.
# TODO(3.x): use nested dicts instead of colon-separated madness
type = '%s:%s' % (type, curr_length_type)
if _should_skip_elem(elem, type, currency_formats):
continue
for child in elem.getiterator():
if child.tag == 'alias':
currency_formats[type] = Alias(
_translate_alias(['currency_formats', elem.attrib['type']],
child.attrib['path'])
)
elif child.tag == 'pattern':
pattern = text_type(child.text)
currency_formats[type] = numbers.parse_pattern(pattern)
def parse_day_period_rules(tree):
"""
Parse dayPeriodRule data into a dict.
:param tree: ElementTree
"""
day_periods = {}
for ruleset in tree.findall(".//dayPeriodRuleSet"):
ruleset_type = ruleset.attrib.get("type") # None|"selection"
for rules in ruleset.findall("dayPeriodRules"):
locales = rules.attrib["locales"].split()
for rule in rules.findall("dayPeriodRule"):
type = rule.attrib["type"]
if type in ("am", "pm"): # These fixed periods are handled separately by `get_period_id`
continue
rule = _compact_dict(dict(
(key, _time_to_seconds_past_midnight(rule.attrib.get(key)))
for key in ("after", "at", "before", "from", "to")
))
for locale in locales:
dest_list = day_periods.setdefault(locale, {}).setdefault(ruleset_type, {}).setdefault(type, [])
dest_list.append(rule)
return day_periods
def parse_character_order(data, tree):
for elem in tree.findall('.//layout/orientation/characterOrder'):
data['character_order'] = elem.text
def parse_measurement_systems(data, tree):
measurement_systems = data.setdefault('measurement_systems', {})
for measurement_system in tree.findall('.//measurementSystemNames/measurementSystemName'):
type = measurement_system.attrib['type']
if not _should_skip_elem(measurement_system, type=type, dest=measurement_systems):
_import_type_text(measurement_systems, measurement_system, type=type)
if __name__ == '__main__':
main()
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