# -*- coding: utf-8 -*- # no-check-code # # License: MIT (see LICENSE file provided) # vim: set expandtab tabstop=4 shiftwidth=4 softtabstop=4: """ **polib** allows you to manipulate, create, modify gettext files (pot, po and mo files). You can load existing files, iterate through it's entries, add, modify entries, comments or metadata, etc. or create new po files from scratch. **polib** provides a simple and pythonic API via the :func:`~polib.pofile` and :func:`~polib.mofile` convenience functions. """ __author__ = 'David Jean Louis ' __version__ = '0.6.4' __all__ = ['pofile', 'POFile', 'POEntry', 'mofile', 'MOFile', 'MOEntry', 'detect_encoding', 'escape', 'unescape', 'detect_encoding',] import array import codecs import os import re import struct import sys import textwrap import types # the default encoding to use when encoding cannot be detected default_encoding = 'utf-8' # _pofile_or_mofile {{{ def _pofile_or_mofile(f, type, **kwargs): """ Internal function used by :func:`polib.pofile` and :func:`polib.mofile` to honor the DRY concept. """ # get the file encoding enc = kwargs.get('encoding') if enc is None: enc = detect_encoding(f, type == 'mofile') # parse the file kls = type == 'pofile' and _POFileParser or _MOFileParser parser = kls( f, encoding=enc, check_for_duplicates=kwargs.get('check_for_duplicates', False) ) instance = parser.parse() instance.wrapwidth = kwargs.get('wrapwidth', 78) return instance # }}} # function pofile() {{{ def pofile(pofile, **kwargs): """ Convenience function that parses the po or pot file ``pofile`` and returns a :class:`~polib.POFile` instance. Arguments: ``pofile`` string, full or relative path to the po/pot file or its content (data). ``wrapwidth`` integer, the wrap width, only useful when the ``-w`` option was passed to xgettext (optional, default: ``78``). ``encoding`` string, the encoding to use (e.g. "utf-8") (default: ``None``, the encoding will be auto-detected). ``check_for_duplicates`` whether to check for duplicate entries when adding entries to the file (optional, default: ``False``). """ return _pofile_or_mofile(pofile, 'pofile', **kwargs) # }}} # function mofile() {{{ def mofile(mofile, **kwargs): """ Convenience function that parses the mo file ``mofile`` and returns a :class:`~polib.MOFile` instance. Arguments: ``mofile`` string, full or relative path to the mo file or its content (data). ``wrapwidth`` integer, the wrap width, only useful when the ``-w`` option was passed to xgettext to generate the po file that was used to format the mo file (optional, default: ``78``). ``encoding`` string, the encoding to use (e.g. "utf-8") (default: ``None``, the encoding will be auto-detected). ``check_for_duplicates`` whether to check for duplicate entries when adding entries to the file (optional, default: ``False``). """ return _pofile_or_mofile(mofile, 'mofile', **kwargs) # }}} # function detect_encoding() {{{ def detect_encoding(file, binary_mode=False): """ Try to detect the encoding used by the ``file``. The ``file`` argument can be a PO or MO file path or a string containing the contents of the file. If the encoding cannot be detected, the function will return the value of ``default_encoding``. Arguments: ``file`` string, full or relative path to the po/mo file or its content. ``binary_mode`` boolean, set this to True if ``file`` is a mo file. """ rx = re.compile(r'"?Content-Type:.+? charset=([\w_\-:\.]+)') def charset_exists(charset): """Check whether ``charset`` is valid or not.""" try: codecs.lookup(charset) except LookupError: return False return True if not os.path.exists(file): match = rx.search(file) if match: enc = match.group(1).strip() if charset_exists(enc): return enc else: if binary_mode: mode = 'rb' else: mode = 'r' f = open(file, mode) for l in f.readlines(): match = rx.search(l) if match: f.close() enc = match.group(1).strip() if charset_exists(enc): return enc f.close() return default_encoding # }}} # function escape() {{{ def escape(st): """ Escapes the characters ``\\\\``, ``\\t``, ``\\n``, ``\\r`` and ``"`` in the given string ``st`` and returns it. """ return st.replace('\\', r'\\')\ .replace('\t', r'\t')\ .replace('\r', r'\r')\ .replace('\n', r'\n')\ .replace('\"', r'\"') # }}} # function unescape() {{{ def unescape(st): """ Unescapes the characters ``\\\\``, ``\\t``, ``\\n``, ``\\r`` and ``"`` in the given string ``st`` and returns it. """ def unescape_repl(m): m = m.group(1) if m == 'n': return '\n' if m == 't': return '\t' if m == 'r': return '\r' if m == '\\': return '\\' return m # handles escaped double quote return re.sub(r'\\(\\|n|t|r|")', unescape_repl, st) # }}} # class _BaseFile {{{ class _BaseFile(list): """ Common base class for the :class:`~polib.POFile` and :class:`~polib.MOFile` classes. This class should **not** be instanciated directly. """ def __init__(self, *args, **kwargs): """ Constructor, accepts the following keyword arguments: ``pofile`` string, the path to the po or mo file, or its content as a string. ``wrapwidth`` integer, the wrap width, only useful when the ``-w`` option was passed to xgettext (optional, default: ``78``). ``encoding`` string, the encoding to use, defaults to ``default_encoding`` global variable (optional). ``check_for_duplicates`` whether to check for duplicate entries when adding entries to the file, (optional, default: ``False``). """ list.__init__(self) # the opened file handle pofile = kwargs.get('pofile', None) if pofile and os.path.exists(pofile): self.fpath = pofile else: self.fpath = kwargs.get('fpath') # the width at which lines should be wrapped self.wrapwidth = kwargs.get('wrapwidth', 78) # the file encoding self.encoding = kwargs.get('encoding', default_encoding) # whether to check for duplicate entries or not self.check_for_duplicates = kwargs.get('check_for_duplicates', False) # header self.header = '' # both po and mo files have metadata self.metadata = {} self.metadata_is_fuzzy = 0 def __unicode__(self): """ Returns the unicode representation of the file. """ ret = [] entries = [self.metadata_as_entry()] + \ [e for e in self if not e.obsolete] for entry in entries: ret.append(entry.__unicode__(self.wrapwidth)) for entry in self.obsolete_entries(): ret.append(entry.__unicode__(self.wrapwidth)) ret = '\n'.join(ret) if type(ret) != types.UnicodeType: return unicode(ret, self.encoding) return ret def __str__(self): """ Returns the string representation of the file. """ return unicode(self).encode(self.encoding) def __contains__(self, entry): """ Overriden ``list`` method to implement the membership test (in and not in). The method considers that an entry is in the file if it finds an entry that has the same msgid (the test is **case sensitive**). Argument: ``entry`` an instance of :class:`~polib._BaseEntry`. """ return self.find(entry.msgid, by='msgid') is not None def __eq__(self, other): return unicode(self) == unicode(other) def append(self, entry): """ Overriden method to check for duplicates entries, if a user tries to add an entry that is already in the file, the method will raise a ``ValueError`` exception. Argument: ``entry`` an instance of :class:`~polib._BaseEntry`. """ if self.check_for_duplicates and entry in self: raise ValueError('Entry "%s" already exists' % entry.msgid) super(_BaseFile, self).append(entry) def insert(self, index, entry): """ Overriden method to check for duplicates entries, if a user tries to add an entry that is already in the file, the method will raise a ``ValueError`` exception. Arguments: ``index`` index at which the entry should be inserted. ``entry`` an instance of :class:`~polib._BaseEntry`. """ if self.check_for_duplicates and entry in self: raise ValueError('Entry "%s" already exists' % entry.msgid) super(_BaseFile, self).insert(index, entry) def metadata_as_entry(self): """ Returns the file metadata as a :class:`~polib.POFile` instance. """ e = POEntry(msgid='') mdata = self.ordered_metadata() if mdata: strs = [] for name, value in mdata: # Strip whitespace off each line in a multi-line entry strs.append('%s: %s' % (name, value)) e.msgstr = '\n'.join(strs) + '\n' if self.metadata_is_fuzzy: e.flags.append('fuzzy') return e def save(self, fpath=None, repr_method='__str__'): """ Saves the po file to ``fpath``. If it is an existing file and no ``fpath`` is provided, then the existing file is rewritten with the modified data. Keyword arguments: ``fpath`` string, full or relative path to the file. ``repr_method`` string, the method to use for output. """ if self.fpath is None and fpath is None: raise IOError('You must provide a file path to save() method') contents = getattr(self, repr_method)() if fpath is None: fpath = self.fpath if repr_method == 'to_binary': fhandle = open(fpath, 'wb') else: fhandle = codecs.open(fpath, 'w', self.encoding) if type(contents) != types.UnicodeType: contents = contents.decode(self.encoding) fhandle.write(contents) fhandle.close() # set the file path if not set if self.fpath is None and fpath: self.fpath = fpath def find(self, st, by='msgid', include_obsolete_entries=False, msgctxt=False): """ Find the entry which msgid (or property identified by the ``by`` argument) matches the string ``st``. Keyword arguments: ``st`` string, the string to search for. ``by`` string, the property to use for comparison (default: ``msgid``). ``include_obsolete_entries`` boolean, whether to also search in entries that are obsolete. ``msgctxt`` string, allows to specify a specific message context for the search. """ if include_obsolete_entries: entries = self[:] else: entries = [e for e in self if not e.obsolete] for e in entries: if getattr(e, by) == st: if msgctxt and e.msgctxt != msgctxt: continue return e return None def ordered_metadata(self): """ Convenience method that returns an ordered version of the metadata dictionary. The return value is list of tuples (metadata name, metadata_value). """ # copy the dict first metadata = self.metadata.copy() data_order = [ 'Project-Id-Version', 'Report-Msgid-Bugs-To', 'POT-Creation-Date', 'PO-Revision-Date', 'Last-Translator', 'Language-Team', 'MIME-Version', 'Content-Type', 'Content-Transfer-Encoding' ] ordered_data = [] for data in data_order: try: value = metadata.pop(data) ordered_data.append((data, value)) except KeyError: pass # the rest of the metadata will be alphabetically ordered since there # are no specs for this AFAIK keys = metadata.keys() keys.sort() for data in keys: value = metadata[data] ordered_data.append((data, value)) return ordered_data def to_binary(self): """ Return the binary representation of the file. """ offsets = [] entries = self.translated_entries() # the keys are sorted in the .mo file def cmp(_self, other): # msgfmt compares entries with msgctxt if it exists self_msgid = _self.msgctxt and _self.msgctxt or _self.msgid other_msgid = other.msgctxt and other.msgctxt or other.msgid if self_msgid > other_msgid: return 1 elif self_msgid < other_msgid: return -1 else: return 0 # add metadata entry entries.sort(cmp) mentry = self.metadata_as_entry() #mentry.msgstr = mentry.msgstr.replace('\\n', '').lstrip() entries = [mentry] + entries entries_len = len(entries) ids, strs = '', '' for e in entries: # For each string, we need size and file offset. Each string is # NUL terminated; the NUL does not count into the size. msgid = '' if e.msgctxt: # Contexts are stored by storing the concatenation of the # context, a byte, and the original string msgid = self._encode(e.msgctxt + '\4') if e.msgid_plural: indexes = e.msgstr_plural.keys() indexes.sort() msgstr = [] for index in indexes: msgstr.append(e.msgstr_plural[index]) msgid += self._encode(e.msgid + '\0' + e.msgid_plural) msgstr = self._encode('\0'.join(msgstr)) else: msgid += self._encode(e.msgid) msgstr = self._encode(e.msgstr) offsets.append((len(ids), len(msgid), len(strs), len(msgstr))) ids += msgid + '\0' strs += msgstr + '\0' # The header is 7 32-bit unsigned integers. keystart = 7*4+16*entries_len # and the values start after the keys valuestart = keystart + len(ids) koffsets = [] voffsets = [] # The string table first has the list of keys, then the list of values. # Each entry has first the size of the string, then the file offset. for o1, l1, o2, l2 in offsets: koffsets += [l1, o1+keystart] voffsets += [l2, o2+valuestart] offsets = koffsets + voffsets # check endianness for magic number if struct.pack('@h', 1) == struct.pack(' 1: lines = [''] + lines # start with initial empty line else: escaped_field = escape(field) specialchars_count = 0 for c in ['\\', '\n', '\r', '\t', '"']: specialchars_count += field.count(c) # comparison must take into account fieldname length + one space # + 2 quotes (eg. msgid "") flength = len(fieldname) + 3 if plural_index: flength += len(plural_index) real_wrapwidth = wrapwidth - flength + specialchars_count if wrapwidth > 0 and len(field) > real_wrapwidth: # Wrap the line but take field name into account lines = [''] + [unescape(item) for item in wrap( escaped_field, wrapwidth - 2, # 2 for quotes "" drop_whitespace=False, break_long_words=False )] else: lines = [field] if fieldname.startswith('previous_'): # quick and dirty trick to get the real field name fieldname = fieldname[9:] ret = ['%s%s%s "%s"' % (delflag, fieldname, plural_index, escape(lines.pop(0)))] for mstr in lines: ret.append('%s"%s"' % (delflag, escape(mstr))) return ret # }}} # class POEntry {{{ class POEntry(_BaseEntry): """ Represents a po file entry. """ def __init__(self, *args, **kwargs): """ Constructor, accepts the following keyword arguments: ``comment`` string, the entry comment. ``tcomment`` string, the entry translator comment. ``occurrences`` list, the entry occurrences. ``flags`` list, the entry flags. ``previous_msgctxt`` string, the entry previous context. ``previous_msgid`` string, the entry previous msgid. ``previous_msgid_plural`` string, the entry previous msgid_plural. """ _BaseEntry.__init__(self, *args, **kwargs) self.comment = kwargs.get('comment', '') self.tcomment = kwargs.get('tcomment', '') self.occurrences = kwargs.get('occurrences', []) self.flags = kwargs.get('flags', []) self.previous_msgctxt = kwargs.get('previous_msgctxt', None) self.previous_msgid = kwargs.get('previous_msgid', None) self.previous_msgid_plural = kwargs.get('previous_msgid_plural', None) def __unicode__(self, wrapwidth=78): """ Returns the unicode representation of the entry. """ if self.obsolete: return _BaseEntry.__unicode__(self, wrapwidth) ret = [] # comments first, if any (with text wrapping as xgettext does) comments = [('comment', '#. '), ('tcomment', '# ')] for c in comments: val = getattr(self, c[0]) if val: for comment in val.split('\n'): if wrapwidth > 0 and len(comment) + len(c[1]) > wrapwidth: ret += wrap( comment, wrapwidth, initial_indent=c[1], subsequent_indent=c[1], break_long_words=False ) else: ret.append('%s%s' % (c[1], comment)) # occurrences (with text wrapping as xgettext does) if self.occurrences: filelist = [] for fpath, lineno in self.occurrences: if lineno: filelist.append('%s:%s' % (fpath, lineno)) else: filelist.append(fpath) filestr = ' '.join(filelist) if wrapwidth > 0 and len(filestr) + 3 > wrapwidth: # textwrap split words that contain hyphen, this is not # what we want for filenames, so the dirty hack is to # temporally replace hyphens with a char that a file cannot # contain, like "*" ret += [l.replace('*', '-') for l in wrap( filestr.replace('-', '*'), wrapwidth, initial_indent='#: ', subsequent_indent='#: ', break_long_words=False )] else: ret.append('#: ' + filestr) # flags (TODO: wrapping ?) if self.flags: ret.append('#, %s' % ', '.join(self.flags)) # previous context and previous msgid/msgid_plural fields = ['previous_msgctxt', 'previous_msgid', 'previous_msgid_plural'] for f in fields: val = getattr(self, f) if val: ret += self._str_field(f, "#| ", "", val, wrapwidth) ret.append(_BaseEntry.__unicode__(self, wrapwidth)) ret = '\n'.join(ret) if type(ret) != types.UnicodeType: return unicode(ret, self.encoding) return ret def __cmp__(self, other): """ Called by comparison operations if rich comparison is not defined. """ def compare_occurrences(a, b): """ Compare an entry occurrence with another one. """ if a[0] != b[0]: return a[0] < b[0] if a[1] != b[1]: return a[1] < b[1] return 0 # First: Obsolete test if self.obsolete != other.obsolete: if self.obsolete: return -1 else: return 1 # Work on a copy to protect original occ1 = self.occurrences[:] occ2 = other.occurrences[:] # Sorting using compare method occ1.sort(compare_occurrences) occ2.sort(compare_occurrences) # Comparing sorted occurrences pos = 0 for entry1 in occ1: try: entry2 = occ2[pos] except IndexError: return 1 pos = pos + 1 if entry1[0] != entry2[0]: if entry1[0] > entry2[0]: return 1 else: return -1 if entry1[1] != entry2[1]: if entry1[1] > entry2[1]: return 1 else: return -1 # Finally: Compare message ID if self.msgid > other.msgid: return 1 else: return -1 def translated(self): """ Returns ``True`` if the entry has been translated or ``False`` otherwise. """ if self.obsolete or 'fuzzy' in self.flags: return False if self.msgstr != '': return True if self.msgstr_plural: for pos in self.msgstr_plural: if self.msgstr_plural[pos] == '': return False return True return False def merge(self, other): """ Merge the current entry with the given pot entry. """ self.msgid = other.msgid self.msgctxt = other.msgctxt self.occurrences = other.occurrences self.comment = other.comment fuzzy = 'fuzzy' in self.flags self.flags = other.flags[:] # clone flags if fuzzy: self.flags.append('fuzzy') self.msgid_plural = other.msgid_plural self.obsolete = other.obsolete self.previous_msgctxt = other.previous_msgctxt self.previous_msgid = other.previous_msgid self.previous_msgid_plural = other.previous_msgid_plural if other.msgstr_plural: for pos in other.msgstr_plural: try: # keep existing translation at pos if any self.msgstr_plural[pos] except KeyError: self.msgstr_plural[pos] = '' # }}} # class MOEntry {{{ class MOEntry(_BaseEntry): """ Represents a mo file entry. """ pass # }}} # class _POFileParser {{{ class _POFileParser(object): """ A finite state machine to parse efficiently and correctly po file format. """ def __init__(self, pofile, *args, **kwargs): """ Constructor. Keyword arguments: ``pofile`` string, path to the po file or its content ``encoding`` string, the encoding to use, defaults to ``default_encoding`` global variable (optional). ``check_for_duplicates`` whether to check for duplicate entries when adding entries to the file (optional, default: ``False``). """ enc = kwargs.get('encoding', default_encoding) if os.path.exists(pofile): try: self.fhandle = codecs.open(pofile, 'rU', enc) except LookupError: enc = default_encoding self.fhandle = codecs.open(pofile, 'rU', enc) else: self.fhandle = pofile.splitlines() self.instance = POFile( pofile=pofile, encoding=enc, check_for_duplicates=kwargs.get('check_for_duplicates', False) ) self.transitions = {} self.current_entry = POEntry() self.current_state = 'ST' self.current_token = None # two memo flags used in handlers self.msgstr_index = 0 self.entry_obsolete = 0 # Configure the state machine, by adding transitions. # Signification of symbols: # * ST: Beginning of the file (start) # * HE: Header # * TC: a translation comment # * GC: a generated comment # * OC: a file/line occurence # * FL: a flags line # * CT: a message context # * PC: a previous msgctxt # * PM: a previous msgid # * PP: a previous msgid_plural # * MI: a msgid # * MP: a msgid plural # * MS: a msgstr # * MX: a msgstr plural # * MC: a msgid or msgstr continuation line all = ['ST', 'HE', 'GC', 'OC', 'FL', 'CT', 'PC', 'PM', 'PP', 'TC', 'MS', 'MP', 'MX', 'MI'] self.add('TC', ['ST', 'HE'], 'HE') self.add('TC', ['GC', 'OC', 'FL', 'TC', 'PC', 'PM', 'PP', 'MS', 'MP', 'MX', 'MI'], 'TC') self.add('GC', all, 'GC') self.add('OC', all, 'OC') self.add('FL', all, 'FL') self.add('PC', all, 'PC') self.add('PM', all, 'PM') self.add('PP', all, 'PP') self.add('CT', ['ST', 'HE', 'GC', 'OC', 'FL', 'TC', 'PC', 'PM', 'PP', 'MS', 'MX'], 'CT') self.add('MI', ['ST', 'HE', 'GC', 'OC', 'FL', 'CT', 'TC', 'PC', 'PM', 'PP', 'MS', 'MX'], 'MI') self.add('MP', ['TC', 'GC', 'PC', 'PM', 'PP', 'MI'], 'MP') self.add('MS', ['MI', 'MP', 'TC'], 'MS') self.add('MX', ['MI', 'MX', 'MP', 'TC'], 'MX') self.add('MC', ['CT', 'MI', 'MP', 'MS', 'MX', 'PM', 'PP', 'PC'], 'MC') def parse(self): """ Run the state machine, parse the file line by line and call process() with the current matched symbol. """ i = 0 keywords = { 'msgctxt': 'CT', 'msgid': 'MI', 'msgstr': 'MS', 'msgid_plural': 'MP', } prev_keywords = { 'msgid_plural': 'PP', 'msgid': 'PM', 'msgctxt': 'PC', } for line in self.fhandle: i += 1 line = line.strip() if line == '': continue tokens = line.split(None, 2) nb_tokens = len(tokens) if tokens[0] == '#~' and nb_tokens > 1: line = line[3:].strip() tokens = tokens[1:] nb_tokens -= 1 self.entry_obsolete = 1 else: self.entry_obsolete = 0 # Take care of keywords like # msgid, msgid_plural, msgctxt & msgstr. if tokens[0] in keywords and nb_tokens > 1: line = line[len(tokens[0]):].lstrip() self.current_token = line self.process(keywords[tokens[0]], i) continue self.current_token = line if tokens[0] == '#:' and nb_tokens > 1: # we are on a occurrences line self.process('OC', i) elif line[:1] == '"': # we are on a continuation line self.process('MC', i) elif line[:7] == 'msgstr[': # we are on a msgstr plural self.process('MX', i) elif tokens[0] == '#,' and nb_tokens > 1: # we are on a flags line self.process('FL', i) elif tokens[0] == '#': if line == '#': line += ' ' # we are on a translator comment line self.process('TC', i) elif tokens[0] == '#.' and nb_tokens > 1: # we are on a generated comment line self.process('GC', i) elif tokens[0] == '#|': if nb_tokens < 2: self.process('??', i) continue # Remove the marker and any whitespace right after that. line = line[2:].lstrip() self.current_token = line if tokens[1].startswith('"'): # Continuation of previous metadata. self.process('MC', i) continue if nb_tokens == 2: # Invalid continuation line. self.process('??', i) # we are on a "previous translation" comment line, if tokens[1] not in prev_keywords: # Unknown keyword in previous translation comment. self.process('??', i) # Remove the keyword and any whitespace # between it and the starting quote. line = line[len(tokens[1]):].lstrip() self.current_token = line self.process(prev_keywords[tokens[1]], i) else: self.process('??', i) if self.current_entry: # since entries are added when another entry is found, we must add # the last entry here (only if there are lines) self.instance.append(self.current_entry) # before returning the instance, check if there's metadata and if # so extract it in a dict firstentry = self.instance[0] if firstentry.msgid == '': # metadata found # remove the entry firstentry = self.instance.pop(0) self.instance.metadata_is_fuzzy = firstentry.flags key = None for msg in firstentry.msgstr.splitlines(): try: key, val = msg.split(':', 1) self.instance.metadata[key] = val.strip() except: if key is not None: self.instance.metadata[key] += '\n'+ msg.strip() # close opened file if isinstance(self.fhandle, file): self.fhandle.close() return self.instance def add(self, symbol, states, next_state): """ Add a transition to the state machine. Keywords arguments: ``symbol`` string, the matched token (two chars symbol). ``states`` list, a list of states (two chars symbols). ``next_state`` the next state the fsm will have after the action. """ for state in states: action = getattr(self, 'handle_%s' % next_state.lower()) self.transitions[(symbol, state)] = (action, next_state) def process(self, symbol, linenum): """ Process the transition corresponding to the current state and the symbol provided. Keywords arguments: ``symbol`` string, the matched token (two chars symbol). ``linenum`` integer, the current line number of the parsed file. """ try: (action, state) = self.transitions[(symbol, self.current_state)] if action(): self.current_state = state except Exception, exc: raise IOError('Syntax error in po file (line %s)' % linenum) # state handlers def handle_he(self): """Handle a header comment.""" if self.instance.header != '': self.instance.header += '\n' self.instance.header += self.current_token[2:] return 1 def handle_tc(self): """Handle a translator comment.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() if self.current_entry.tcomment != '': self.current_entry.tcomment += '\n' self.current_entry.tcomment += self.current_token[2:] return True def handle_gc(self): """Handle a generated comment.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() if self.current_entry.comment != '': self.current_entry.comment += '\n' self.current_entry.comment += self.current_token[3:] return True def handle_oc(self): """Handle a file:num occurence.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() occurrences = self.current_token[3:].split() for occurrence in occurrences: if occurrence != '': try: fil, line = occurrence.split(':') if not line.isdigit(): fil = fil + line line = '' self.current_entry.occurrences.append((fil, line)) except: self.current_entry.occurrences.append((occurrence, '')) return True def handle_fl(self): """Handle a flags line.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.flags += self.current_token[3:].split(', ') return True def handle_pp(self): """Handle a previous msgid_plural line.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.previous_msgid_plural = \ unescape(self.current_token[1:-1]) return True def handle_pm(self): """Handle a previous msgid line.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.previous_msgid = \ unescape(self.current_token[1:-1]) return True def handle_pc(self): """Handle a previous msgctxt line.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.previous_msgctxt = \ unescape(self.current_token[1:-1]) return True def handle_ct(self): """Handle a msgctxt.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.msgctxt = unescape(self.current_token[1:-1]) return True def handle_mi(self): """Handle a msgid.""" if self.current_state in ['MC', 'MS', 'MX']: self.instance.append(self.current_entry) self.current_entry = POEntry() self.current_entry.obsolete = self.entry_obsolete self.current_entry.msgid = unescape(self.current_token[1:-1]) return True def handle_mp(self): """Handle a msgid plural.""" self.current_entry.msgid_plural = unescape(self.current_token[1:-1]) return True def handle_ms(self): """Handle a msgstr.""" self.current_entry.msgstr = unescape(self.current_token[1:-1]) return True def handle_mx(self): """Handle a msgstr plural.""" index, value = self.current_token[7], self.current_token[11:-1] self.current_entry.msgstr_plural[index] = unescape(value) self.msgstr_index = index return True def handle_mc(self): """Handle a msgid or msgstr continuation line.""" token = unescape(self.current_token[1:-1]) if self.current_state == 'CT': typ = 'msgctxt' self.current_entry.msgctxt += token elif self.current_state == 'MI': typ = 'msgid' self.current_entry.msgid += token elif self.current_state == 'MP': typ = 'msgid_plural' self.current_entry.msgid_plural += token elif self.current_state == 'MS': typ = 'msgstr' self.current_entry.msgstr += token elif self.current_state == 'MX': typ = 'msgstr[%s]' % self.msgstr_index self.current_entry.msgstr_plural[self.msgstr_index] += token elif self.current_state == 'PP': typ = 'previous_msgid_plural' token = token[3:] self.current_entry.previous_msgid_plural += token elif self.current_state == 'PM': typ = 'previous_msgid' token = token[3:] self.current_entry.previous_msgid += token elif self.current_state == 'PC': typ = 'previous_msgctxt' token = token[3:] self.current_entry.previous_msgctxt += token # don't change the current state return False # }}} # class _MOFileParser {{{ class _MOFileParser(object): """ A class to parse binary mo files. """ def __init__(self, mofile, *args, **kwargs): """ Constructor. Keyword arguments: ``mofile`` string, path to the mo file or its content ``encoding`` string, the encoding to use, defaults to ``default_encoding`` global variable (optional). ``check_for_duplicates`` whether to check for duplicate entries when adding entries to the file (optional, default: ``False``). """ self.fhandle = open(mofile, 'rb') self.instance = MOFile( fpath=mofile, encoding=kwargs.get('encoding', default_encoding), check_for_duplicates=kwargs.get('check_for_duplicates', False) ) def parse(self): """ Build the instance with the file handle provided in the constructor. """ # parse magic number magic_number = self._readbinary(' 1: entry = self._build_entry( msgid=msgid_tokens[0], msgid_plural=msgid_tokens[1], msgstr_plural=dict((k,v) for k,v in enumerate(msgstr.split('\0'))) ) else: entry = self._build_entry(msgid=msgid, msgstr=msgstr) self.instance.append(entry) # close opened file self.fhandle.close() return self.instance def _build_entry(self, msgid, msgstr=None, msgid_plural=None, msgstr_plural=None): msgctxt_msgid = msgid.split('\x04') if len(msgctxt_msgid) > 1: kwargs = { 'msgctxt': msgctxt_msgid[0], 'msgid' : msgctxt_msgid[1], } else: kwargs = {'msgid': msgid} if msgstr: kwargs['msgstr'] = msgstr if msgid_plural: kwargs['msgid_plural'] = msgid_plural if msgstr_plural: kwargs['msgstr_plural'] = msgstr_plural return MOEntry(**kwargs) def _readbinary(self, fmt, numbytes): """ Private method that unpack n bytes of data using format . It returns a tuple or a mixed value if the tuple length is 1. """ bytes = self.fhandle.read(numbytes) tup = struct.unpack(fmt, bytes) if len(tup) == 1: return tup[0] return tup # }}} # class TextWrapper {{{ class TextWrapper(textwrap.TextWrapper): """ Subclass of textwrap.TextWrapper that backport the drop_whitespace option. """ def __init__(self, *args, **kwargs): drop_whitespace = kwargs.pop('drop_whitespace', True) textwrap.TextWrapper.__init__(self, *args, **kwargs) self.drop_whitespace = drop_whitespace def _wrap_chunks(self, chunks): """_wrap_chunks(chunks : [string]) -> [string] Wrap a sequence of text chunks and return a list of lines of length 'self.width' or less. (If 'break_long_words' is false, some lines may be longer than this.) Chunks correspond roughly to words and the whitespace between them: each chunk is indivisible (modulo 'break_long_words'), but a line break can come between any two chunks. Chunks should not have internal whitespace; ie. a chunk is either all whitespace or a "word". Whitespace chunks will be removed from the beginning and end of lines, but apart from that whitespace is preserved. """ lines = [] if self.width <= 0: raise ValueError("invalid width %r (must be > 0)" % self.width) # Arrange in reverse order so items can be efficiently popped # from a stack of chucks. chunks.reverse() while chunks: # Start the list of chunks that will make up the current line. # cur_len is just the length of all the chunks in cur_line. cur_line = [] cur_len = 0 # Figure out which static string will prefix this line. if lines: indent = self.subsequent_indent else: indent = self.initial_indent # Maximum width for this line. width = self.width - len(indent) # First chunk on line is whitespace -- drop it, unless this # is the very beginning of the text (ie. no lines started yet). if self.drop_whitespace and chunks[-1].strip() == '' and lines: del chunks[-1] while chunks: l = len(chunks[-1]) # Can at least squeeze this chunk onto the current line. if cur_len + l <= width: cur_line.append(chunks.pop()) cur_len += l # Nope, this line is full. else: break # The current line is full, and the next chunk is too big to # fit on *any* line (not just this one). if chunks and len(chunks[-1]) > width: self._handle_long_word(chunks, cur_line, cur_len, width) # If the last chunk on this line is all whitespace, drop it. if self.drop_whitespace and cur_line and cur_line[-1].strip() == '': del cur_line[-1] # Convert current line back to a string and store it in list # of all lines (return value). if cur_line: lines.append(indent + ''.join(cur_line)) return lines # }}} # function wrap() {{{ def wrap(text, width=70, **kwargs): """ Wrap a single paragraph of text, returning a list of wrapped lines. """ if sys.version_info < (2, 6): return TextWrapper(width=width, **kwargs).wrap(text) return textwrap.wrap(text, width=width, **kwargs) #}}}