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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
from bisect import bisect_left
import operator
import java.lang.Character
# XXX - this is intended as a stopgap measure until 2.5.1, which will have a Java implementation
# requires java 6 for `normalize` function
# only has one version of the database
# does not normalized ideographs
_codepoints = {}
_eaw = {}
_names = {}
_segments = []
_eaw_segments = []
Nonesuch = object()
def get_int(col):
try:
return int(col)
except ValueError:
return None
def get_yn(col):
if col == 'Y': return 1
else: return 0
def get_numeric(col):
try:
return float(col)
except ValueError:
try:
a, b = col.split('/')
return float(a)/float(b)
except:
return None
def init_unicodedata(data):
for row in data:
cols = row.split(';')
codepoint = int(cols[0], 16)
name = cols[1]
if name == '':
lookup_name = 'CJK UNIFIED IDEOGRAPH'
else:
lookup_name = name
data = (
cols[2],
get_int(cols[3]),
cols[4],
cols[5],
get_int(cols[6]),
get_int(cols[7]),
get_numeric(cols[8]),
get_yn(cols[9]),
lookup_name,
)
if name.find('First') >= 0:
start = codepoint
elif name.find('Last') >= 0:
_segments.append((start, (start, codepoint), data))
else:
_names[name] = unichr(codepoint)
_codepoints[codepoint] = data
def init_east_asian_width(data):
for row in data:
if row.startswith('#'):
continue
row = row.partition('#')[0]
cols = row.split(';')
if len(cols) < 2:
continue
cr = cols[0].split('..')
width = cols[1].rstrip()
if len(cr) == 1:
codepoint = int(cr[0], 16)
_eaw[codepoint] = width
else:
start = int(cr[0], 16)
end = int(cr[1], 16)
_eaw_segments.append((start, (start, end), width))
# xxx - need to normalize the segments, so
# ==> CJK UNIFIED IDEOGRAPH;
# may need to do some sort of analysis against CPython for the normalization!
def name(unichr, default=None):
codepoint = get_codepoint(unichr, "name")
v = _codepoints.get(codepoint, None)
if v is None:
v = check_segments(codepoint, _segments)
if v is not None:
return "%s-%X" % (v[8], codepoint)
if v is None:
if default is not Nonesuch:
return default
raise ValueError()
return v[8]
# xxx - also need to add logic here so that if it's CJK UNIFIED
# IDEOGRAPH-8000, we go against the segment to verify the prefix
def lookup(name):
return _names[name]
def check_segments(codepoint, segments):
i = bisect_left(segments, (codepoint,))
if i < len(segments):
segment = segments[i - 1]
if codepoint <= segment[1][1]:
return segment[2]
return None
def get_codepoint(unichr, fn=None):
if not(isinstance(unichr, unicode)):
raise TypeError(fn, "() argument 1 must be unicode, not " + type(unichr))
if len(unichr) > 1 or len(unichr) == 0:
raise TypeError("need a single Unicode character as parameter")
return ord(unichr)
def get_eaw(unichr, default, fn):
codepoint = get_codepoint(unichr, fn)
v = _eaw.get(codepoint, None)
if v is None:
v = check_segments(codepoint, _eaw_segments)
if v is None:
if default is not Nonesuch:
return default
raise ValueError()
return v
def get(unichr, default, fn, getter):
codepoint = get_codepoint(unichr, fn)
data = _codepoints.get(codepoint, None)
if data is None:
data = check_segments(codepoint, _segments)
if data is None:
if default is not Nonesuch:
return default
raise ValueError()
v = getter(data)
if v is None:
if default is not Nonesuch:
return default
raise ValueError()
else:
return v
category_getter = operator.itemgetter(0)
combining_getter = operator.itemgetter(1)
bidirectional_getter = operator.itemgetter(2)
decomposition_getter = operator.itemgetter(3)
decimal_getter = operator.itemgetter(4)
digit_getter = operator.itemgetter(5)
numeric_getter = operator.itemgetter(6)
mirrored_getter = operator.itemgetter(7)
def decimal(unichr, default=Nonesuch):
return get(unichr, default, 'decimal', decimal_getter)
def decomposition(unichr, default=''):
return get(unichr, default, 'decomposition', decomposition_getter)
def digit(unichr, default=Nonesuch):
return get(unichr, default, 'digit', digit_getter)
def numeric(unichr, default=Nonesuch):
return get(unichr, default, 'numeric', numeric_getter)
def category(unichr):
return get(unichr, 'Cn', 'catgegory', category_getter)
def bidirectional(unichr):
return get(unichr, '', 'bidirectional', bidirectional_getter)
def combining(unichr):
return get(unichr, 0, 'combining', combining_getter)
def mirrored(unichr):
return get(unichr, 0, 'mirrored', mirrored_getter)
def east_asian_width(unichr):
return get_eaw(unichr, 'N', 'east_asian_width')
def jymirrored(unichr):
return java.lang.Character.isMirrored(get_codepoint(unichr, 'mirrored'))
try:
from java.text import Normalizer
_forms = {
'NFC': Normalizer.Form.NFC,
'NFKC': Normalizer.Form.NFKC,
'NFD': Normalizer.Form.NFD,
'NFKD': Normalizer.Form.NFKD
}
def normalize(form, unistr):
"""
Return the normal form 'form' for the Unicode string unistr. Valid
values for form are 'NFC', 'NFKC', 'NFD', and 'NFKD'.
"""
try:
normalizer_form = _forms[form]
except KeyError:
raise ValueError('invalid normalization form')
return Normalizer.normalize(unistr, normalizer_form)
except ImportError:
pass
def init():
import pkgutil
import os.path
import StringIO
import sys
my_path = os.path.dirname(__file__)
loader = pkgutil.get_loader('unicodedata')
init_unicodedata(StringIO.StringIO(loader.get_data(os.path.join(my_path,'UnicodeData.txt'))))
init_east_asian_width(StringIO.StringIO(loader.get_data(os.path.join(my_path,'EastAsianWidth.txt'))))
init()