mirror of https://github.com/morpheus65535/bazarr
346 lines
14 KiB
Python
346 lines
14 KiB
Python
"""
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This is a python implementation of wcwidth() and wcswidth().
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https://github.com/jquast/wcwidth
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from Markus Kuhn's C code, retrieved from:
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http://www.cl.cam.ac.uk/~mgk25/ucs/wcwidth.c
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This is an implementation of wcwidth() and wcswidth() (defined in
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IEEE Std 1002.1-2001) for Unicode.
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http://www.opengroup.org/onlinepubs/007904975/functions/wcwidth.html
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http://www.opengroup.org/onlinepubs/007904975/functions/wcswidth.html
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In fixed-width output devices, Latin characters all occupy a single
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"cell" position of equal width, whereas ideographic CJK characters
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occupy two such cells. Interoperability between terminal-line
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applications and (teletype-style) character terminals using the
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UTF-8 encoding requires agreement on which character should advance
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the cursor by how many cell positions. No established formal
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standards exist at present on which Unicode character shall occupy
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how many cell positions on character terminals. These routines are
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a first attempt of defining such behavior based on simple rules
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applied to data provided by the Unicode Consortium.
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For some graphical characters, the Unicode standard explicitly
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defines a character-cell width via the definition of the East Asian
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FullWidth (F), Wide (W), Half-width (H), and Narrow (Na) classes.
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In all these cases, there is no ambiguity about which width a
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terminal shall use. For characters in the East Asian Ambiguous (A)
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class, the width choice depends purely on a preference of backward
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compatibility with either historic CJK or Western practice.
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Choosing single-width for these characters is easy to justify as
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the appropriate long-term solution, as the CJK practice of
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displaying these characters as double-width comes from historic
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implementation simplicity (8-bit encoded characters were displayed
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single-width and 16-bit ones double-width, even for Greek,
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Cyrillic, etc.) and not any typographic considerations.
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Much less clear is the choice of width for the Not East Asian
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(Neutral) class. Existing practice does not dictate a width for any
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of these characters. It would nevertheless make sense
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typographically to allocate two character cells to characters such
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as for instance EM SPACE or VOLUME INTEGRAL, which cannot be
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represented adequately with a single-width glyph. The following
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routines at present merely assign a single-cell width to all
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neutral characters, in the interest of simplicity. This is not
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entirely satisfactory and should be reconsidered before
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establishing a formal standard in this area. At the moment, the
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decision which Not East Asian (Neutral) characters should be
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represented by double-width glyphs cannot yet be answered by
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applying a simple rule from the Unicode database content. Setting
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up a proper standard for the behavior of UTF-8 character terminals
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will require a careful analysis not only of each Unicode character,
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but also of each presentation form, something the author of these
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routines has avoided to do so far.
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http://www.unicode.org/unicode/reports/tr11/
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Latest version: http://www.cl.cam.ac.uk/~mgk25/ucs/wcwidth.c
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"""
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from __future__ import division
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# std imports
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import os
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import sys
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import warnings
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# local
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from .table_vs16 import VS16_NARROW_TO_WIDE
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from .table_wide import WIDE_EASTASIAN
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from .table_zero import ZERO_WIDTH
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from .unicode_versions import list_versions
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try:
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# std imports
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from functools import lru_cache
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except ImportError:
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# lru_cache was added in Python 3.2
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# 3rd party
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from backports.functools_lru_cache import lru_cache
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# global cache
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_PY3 = sys.version_info[0] >= 3
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def _bisearch(ucs, table):
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"""
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Auxiliary function for binary search in interval table.
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:arg int ucs: Ordinal value of unicode character.
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:arg list table: List of starting and ending ranges of ordinal values,
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in form of ``[(start, end), ...]``.
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:rtype: int
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:returns: 1 if ordinal value ucs is found within lookup table, else 0.
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"""
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lbound = 0
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ubound = len(table) - 1
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if ucs < table[0][0] or ucs > table[ubound][1]:
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return 0
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while ubound >= lbound:
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mid = (lbound + ubound) // 2
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if ucs > table[mid][1]:
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lbound = mid + 1
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elif ucs < table[mid][0]:
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ubound = mid - 1
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else:
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return 1
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return 0
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@lru_cache(maxsize=1000)
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def wcwidth(wc, unicode_version='auto'):
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r"""
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Given one Unicode character, return its printable length on a terminal.
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:param str wc: A single Unicode character.
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:param str unicode_version: A Unicode version number, such as
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``'6.0.0'``. A list of version levels suported by wcwidth
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is returned by :func:`list_versions`.
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Any version string may be specified without error -- the nearest
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matching version is selected. When ``latest`` (default), the
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highest Unicode version level is used.
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:return: The width, in cells, necessary to display the character of
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Unicode string character, ``wc``. Returns 0 if the ``wc`` argument has
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no printable effect on a terminal (such as NUL '\0'), -1 if ``wc`` is
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not printable, or has an indeterminate effect on the terminal, such as
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a control character. Otherwise, the number of column positions the
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character occupies on a graphic terminal (1 or 2) is returned.
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:rtype: int
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See :ref:`Specification` for details of cell measurement.
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"""
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ucs = ord(wc) if wc else 0
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# small optimization: early return of 1 for printable ASCII, this provides
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# approximately 40% performance improvement for mostly-ascii documents, with
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# less than 1% impact to others.
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if 32 <= ucs < 0x7f:
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return 1
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# C0/C1 control characters are -1 for compatibility with POSIX-like calls
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if ucs and ucs < 32 or 0x07F <= ucs < 0x0A0:
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return -1
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_unicode_version = _wcmatch_version(unicode_version)
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# Zero width
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if _bisearch(ucs, ZERO_WIDTH[_unicode_version]):
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return 0
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# 1 or 2 width
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return 1 + _bisearch(ucs, WIDE_EASTASIAN[_unicode_version])
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def wcswidth(pwcs, n=None, unicode_version='auto'):
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"""
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Given a unicode string, return its printable length on a terminal.
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:param str pwcs: Measure width of given unicode string.
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:param int n: When ``n`` is None (default), return the length of the entire
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string, otherwise only the first ``n`` characters are measured. This
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argument exists only for compatibility with the C POSIX function
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signature. It is suggested instead to use python's string slicing
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capability, ``wcswidth(pwcs[:n])``
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:param str unicode_version: An explicit definition of the unicode version
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level to use for determination, may be ``auto`` (default), which uses
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the Environment Variable, ``UNICODE_VERSION`` if defined, or the latest
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available unicode version, otherwise.
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:rtype: int
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:returns: The width, in cells, needed to display the first ``n`` characters
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of the unicode string ``pwcs``. Returns ``-1`` for C0 and C1 control
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characters!
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See :ref:`Specification` for details of cell measurement.
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"""
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# this 'n' argument is a holdover for POSIX function
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_unicode_version = None
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end = len(pwcs) if n is None else n
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width = 0
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idx = 0
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last_measured_char = None
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while idx < end:
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char = pwcs[idx]
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if char == u'\u200D':
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# Zero Width Joiner, do not measure this or next character
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idx += 2
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continue
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if char == u'\uFE0F' and last_measured_char:
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# on variation selector 16 (VS16) following another character,
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# conditionally add '1' to the measured width if that character is
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# known to be converted from narrow to wide by the VS16 character.
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if _unicode_version is None:
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_unicode_version = _wcversion_value(_wcmatch_version(unicode_version))
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if _unicode_version >= (9, 0, 0):
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width += _bisearch(ord(last_measured_char), VS16_NARROW_TO_WIDE["9.0.0"])
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last_measured_char = None
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idx += 1
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continue
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# measure character at current index
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wcw = wcwidth(char, unicode_version)
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if wcw < 0:
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# early return -1 on C0 and C1 control characters
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return wcw
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if wcw > 0:
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# track last character measured to contain a cell, so that
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# subsequent VS-16 modifiers may be understood
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last_measured_char = char
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width += wcw
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idx += 1
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return width
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@lru_cache(maxsize=128)
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def _wcversion_value(ver_string):
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"""
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Integer-mapped value of given dotted version string.
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:param str ver_string: Unicode version string, of form ``n.n.n``.
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:rtype: tuple(int)
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:returns: tuple of digit tuples, ``tuple(int, [...])``.
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"""
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retval = tuple(map(int, (ver_string.split('.'))))
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return retval
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@lru_cache(maxsize=8)
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def _wcmatch_version(given_version):
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"""
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Return nearest matching supported Unicode version level.
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If an exact match is not determined, the nearest lowest version level is
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returned after a warning is emitted. For example, given supported levels
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``4.1.0`` and ``5.0.0``, and a version string of ``4.9.9``, then ``4.1.0``
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is selected and returned:
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>>> _wcmatch_version('4.9.9')
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'4.1.0'
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>>> _wcmatch_version('8.0')
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'8.0.0'
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>>> _wcmatch_version('1')
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'4.1.0'
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:param str given_version: given version for compare, may be ``auto``
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(default), to select Unicode Version from Environment Variable,
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``UNICODE_VERSION``. If the environment variable is not set, then the
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latest is used.
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:rtype: str
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:returns: unicode string, or non-unicode ``str`` type for python 2
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when given ``version`` is also type ``str``.
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"""
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# Design note: the choice to return the same type that is given certainly
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# complicates it for python 2 str-type, but allows us to define an api that
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# uses 'string-type' for unicode version level definitions, so all of our
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# example code works with all versions of python.
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#
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# That, along with the string-to-numeric and comparisons of earliest,
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# latest, matching, or nearest, greatly complicates this function.
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# Performance is somewhat curbed by memoization.
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_return_str = not _PY3 and isinstance(given_version, str)
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if _return_str:
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# avoid list-comprehension to work around a coverage issue:
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# https://github.com/nedbat/coveragepy/issues/753
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unicode_versions = list(map(lambda ucs: ucs.encode(), list_versions()))
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else:
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unicode_versions = list_versions()
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latest_version = unicode_versions[-1]
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if given_version in (u'auto', 'auto'):
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given_version = os.environ.get(
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'UNICODE_VERSION',
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'latest' if not _return_str else latest_version.encode())
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if given_version in (u'latest', 'latest'):
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# default match, when given as 'latest', use the most latest unicode
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# version specification level supported.
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return latest_version if not _return_str else latest_version.encode()
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if given_version in unicode_versions:
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# exact match, downstream has specified an explicit matching version
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# matching any value of list_versions().
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return given_version if not _return_str else given_version.encode()
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# The user's version is not supported by ours. We return the newest unicode
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# version level that we support below their given value.
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try:
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cmp_given = _wcversion_value(given_version)
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except ValueError:
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# submitted value raises ValueError in int(), warn and use latest.
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warnings.warn("UNICODE_VERSION value, {given_version!r}, is invalid. "
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"Value should be in form of `integer[.]+', the latest "
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"supported unicode version {latest_version!r} has been "
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"inferred.".format(given_version=given_version,
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latest_version=latest_version))
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return latest_version if not _return_str else latest_version.encode()
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# given version is less than any available version, return earliest
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# version.
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earliest_version = unicode_versions[0]
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cmp_earliest_version = _wcversion_value(earliest_version)
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if cmp_given <= cmp_earliest_version:
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# this probably isn't what you wanted, the oldest wcwidth.c you will
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# find in the wild is likely version 5 or 6, which we both support,
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# but it's better than not saying anything at all.
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warnings.warn("UNICODE_VERSION value, {given_version!r}, is lower "
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"than any available unicode version. Returning lowest "
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"version level, {earliest_version!r}".format(
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given_version=given_version,
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earliest_version=earliest_version))
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return earliest_version if not _return_str else earliest_version.encode()
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# create list of versions which are less than our equal to given version,
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# and return the tail value, which is the highest level we may support,
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# or the latest value we support, when completely unmatched or higher
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# than any supported version.
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#
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# function will never complete, always returns.
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for idx, unicode_version in enumerate(unicode_versions):
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# look ahead to next value
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try:
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cmp_next_version = _wcversion_value(unicode_versions[idx + 1])
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except IndexError:
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# at end of list, return latest version
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return latest_version if not _return_str else latest_version.encode()
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# Maybe our given version has less parts, as in tuple(8, 0), than the
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# next compare version tuple(8, 0, 0). Test for an exact match by
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# comparison of only the leading dotted piece(s): (8, 0) == (8, 0).
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if cmp_given == cmp_next_version[:len(cmp_given)]:
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return unicode_versions[idx + 1]
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# Or, if any next value is greater than our given support level
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# version, return the current value in index. Even though it must
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# be less than the given value, its our closest possible match. That
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# is, 4.1 is returned for given 4.9.9, where 4.1 and 5.0 are available.
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if cmp_next_version > cmp_given:
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return unicode_version
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assert False, ("Code path unreachable", given_version, unicode_versions) # pragma: no cover
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