# -*- coding: utf-8 -*- # vi:si:et:sw=4:sts=4:ts=4 # GPL 2008 import math import re ARTICLES = list(set([ # def sg, def pl, indef sg, indef pl (each m/f/n) 'der', 'die', 'das', 'ein', 'eine', # de 'the', 'a', 'an', # en 'el', 'la', 'lo', 'los', 'las', 'un', 'una', 'unos', 'unas', # es 'le', "l'", 'la', 'les', 'un', 'une', 'des', # fr 'il', 'lo', "l'" 'la', '_i', 'gli', 'le', # it 'de', 'het', 'een', # nl 'o', 'a', 'os', '_as', 'um', 'uma', '_uns', 'umas' # pt # some _disabled because of collisions ])) # see http://en.wikipedia.org/wiki/List_of_common_Chinese_surnames # and http://en.wikipedia.org/wiki/List_of_Korean_family_names ASIAN_NAMES = [ 'chan', 'chang', 'chao', 'chen', 'cheong', 'cheung', 'chong', 'choo', 'chu', 'chun', 'hou', 'hsieh', 'hsu', 'hu', 'huang', 'kuo', 'li', 'liang', 'lin', 'liu', '_park', 'sun', 'sung', 'tsao', 'wang', 'Wong', 'yang', 'yeong', 'yeung' ] PREFIXES = [ 'al', 'da', 'de', 'del', 'dem', 'den', 'der', 'di', 'dos', 'du', 'e', 'el', 'la', 'the', 'van', 'vom', 'von', 'y', 'zu' ] MIDFIXES = ['und'] SUFFIXES = ['ii', 'iii', 'jr', 'jr.', 'ph.d.', 'phd', 'sr', 'sr.'] def get_sort_name(name): """ >>> get_sort_name('Alfred Hitchcock') 'Hitchcock, Alfred' >>> get_sort_name('Jean-Luc Godard') 'Godard, Jean-Luc' >>> get_sort_name('Rainer Werner Fassbinder') 'Fassbinder, Rainer Werner' >>> get_sort_name('Brian De Palma') 'De Palma, Brian' >>> get_sort_name('Johan van der Keuken') 'van der Keuken, Johan' >>> get_sort_name('Edward D. Wood Jr.') 'Wood Jr., Edward D.' >>> get_sort_name('Bing Wang') 'Wang Bing' >>> get_sort_name('The Queen of England') 'Queen of England, The' >>> get_sort_name('Sham 69') 'Sham 69' >>> get_sort_name('Scorsese, Martin') 'Scorsese, Martin' """ if not ' ' in name or ', ' in name: return name if name.lower().startswith('the '): return get_sort_title(name) def add_name(): if len(first_names): last_names.insert(0, first_names.pop()) def find_name(names): return len(first_names) and first_names[-1].lower() in names first_names = name.split(' ') last_names = [] if re.search('^[0-9]+$', first_names[-1]): add_name() if find_name(SUFFIXES): add_name() add_name() if find_name(MIDFIXES): add_name() add_name() while find_name(PREFIXES): add_name() name = ' '.join(last_names) if len(first_names): separator = ' ' if last_names[0].lower() in ASIAN_NAMES else ', ' name += separator + ' '.join(first_names) return name def get_sort_title(title): """ >>> get_sort_title('Themroc') 'Themroc' >>> get_sort_title('Die Hard') 'Hard, Die' >>> get_sort_title("L'atalante") "atalante, L'" """ for article in ARTICLES: spaces = 0 if article.endswith("'") else 1 if title.lower().startswith(article + ' ' * spaces): length = len(article) return title[length + spaces:] + ', ' + title[:length] return title def findRe(string, regexp): result = re.compile(regexp, re.DOTALL).findall(string) if result: return result[0].strip() return '' def findString(string, string0='', string1 = ''): """Return the string between string0 and string1. If string0 or string1 is left out, begining or end of string is used. >>> findString('i am not there', string1=' not there') 'i am' >>> findString('i am not there', 'i am ', ' there') 'not' >>> findString('i am not there', 'i am not t') 'here' """ if string0: string0 = re.escape(string0) else: string0 = '^' if string1: string1 = re.escape(string1) else: string1 = '$' return findRe(string, string0 + '(.*?)' + string1) def removeSpecialCharacters(text): """ Removes special characters inserted by Word. """ text = text.replace(u'\u2013', '-') text = text.replace(u'\u2026O', "'") text = text.replace(u'\u2019', "'") text = text.replace(u'', "'") text = text.replace(u'', "'") text = text.replace(u'', "-") return text def wrap(text, width): """ A word-wrap function that preserves existing line breaks and most spaces in the text. Expects that existing line breaks are posix newlines (\n). See http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/148061 """ return reduce(lambda line, word, width=width: '%s%s%s' % (line, ' \n'[(len(line[line.rfind('\n')+1:]) + len(word.split('\n',1)[0] ) >= width)], word), text.split(' ') ) def wrapString(string, length=80, separator='\n', balance=False): ''' >>> wrapString(u"Anticonstitutionellement, Paris s'eveille", 16) u"Anticonstitution\\nellement, Paris \\ns'eveille" >>> wrapString(u'All you can eat', 12, '\\n', True) u'All you \\ncan eat' ''' words = string.split(' ') if balance: # balance lines: test if same number of lines # can be achieved with a shorter line length lines = wrapString(string, length, separator, False).split(separator) if len(lines) > 1: while length > max(map(lambda x : len(x), words)): length -= 1 if len(wrapString(string, length, separator, False).split(separator)) > len(lines): length += 1 break lines = [''] for word in words: if len(lines[len(lines) - 1] + word + u' ') <= length + 1: # word fits in current line lines[len(lines) - 1] += word + u' '; else: if len(word) <= length: # word fits in next line lines.append(word + u' ') else: # word is longer than line position = length - len(lines[len(lines) - 1]) lines[len(lines) - 1] += word[0:position] for i in range(position, len(word), length): lines.append(word[i:i+length]); lines[len(lines) - 1] += u' ' return separator.join(lines).strip() def truncateString(string, length, padding='...', position='right'): # >>> truncateString('anticonstitutionellement', 16, '...', 'left') # '...utionellement' # >>> truncateString('anticonstitutionellement', 16, '...', 'center') # 'anticon...lement' # >>> truncateString('anticonstitutionellement', 16, '...', 'right') # 'anticonstitut...' stringLength = len(string); paddingLength = len(padding) if stringLength > length: if position == 'left': string = '%s%s' % (padding, string[stringLength + paddingLength - length:]) elif position == 'center': left = int(math.ceil(float(length - paddingLength) / 2)) right = int(stringLength - math.floor(float(length - paddingLength) / 2)) string = '%s%s%s' % (string[:left], padding, string[right:]) elif position == 'right': string = '%s%s' % (string[:length - paddingLength], padding) return string; def truncateWords(s, num): """Truncates a string after a certain number of chacters, but ends with a word >>> truncateString('Truncates a string after a certain number of chacters, but ends with a word', 23) 'Truncates a string...' >>> truncateString('Truncates a string', 23) 'Truncates a string' """ length = int(num) if len(s) <= length: return s words = s.split() ts = "" while words and len(ts) + len(words[0]) < length: ts += " " + words.pop(0) if words: ts += "..." return ts.strip() def trimString(string, num): """Truncates a string after a certain number of chacters, adding ... at -10 characters >>> trimString('Truncates a string after a certain number of chacters', 23) 'Truncates ...f chacters' >>> trimString('Truncates a string', 23) 'Truncates a string' """ if len(string) > num: string = string[:num - 13] + '...' + string[-10:] return string def getValidFilename(s): """ Returns the given string converted to a string that can be used for a clean filename. Specifically, leading and trailing spaces are removed; all non-filename-safe characters are removed. >>> getValidFilename("john's portrait in 2004.jpg") 'john_s_portrait_in_2004.jpg' """ s = s.strip() s = s.replace(' ', '_') s = re.sub(r'[^-A-Za-z0-9_.\[\]\ ]', '_', s) s = s.replace('__', '_').replace('__', '_') return s def getTextList(list_, last_word='or'): """ >>> getTextList([u'a', u'b', u'c', u'd']) u'a, b, c or d' >>> getTextList([u'a', u'b', u'c'], 'and') u'a, b and c' >>> getTextList([u'a', u'b'], 'and') u'a and b' >>> getTextList([u'a']) u'a' >>> getTextList([]) '' """ if len(list_) == 0: return '' if len(list_) == 1: return list_[0] return u'%s %s %s' % (u', '.join([unicode(i) for i in list_][:-1]), last_word, list_[-1]) def getListText(text, last_word='or'): """ >>> getListText(u'a, b, c or d') [u'a', u'b', u'c', u'd'] >>> getListText(u'a, b and c', u'and') [u'a', u'b', u'c'] >>> getListText(u'a and b', u'and') [u'a', u'b'] >>> getListText(u'a') [u'a'] >>> getListText(u'') [] """ list_ = [] if text: list_ = text.split(u', ') if list_: i=len(list_)-1 last = list_[i].split(last_word) if len(last) == 2: list_[i] = last[0].strip() list_.append(last[1].strip()) return list_ def normalizeNewlines(text): return re.sub(r'\r\n|\r|\n', '\n', text) def recapitalize(text): "Recapitalizes text, placing caps after end-of-sentence punctuation." #capwords = () text = text.lower() capsRE = re.compile(r'(?:^|(?<=[\.\?\!] ))([a-z])') text = capsRE.sub(lambda x: x.group(1).upper(), text) #for capword in capwords: # capwordRE = re.compile(r'\b%s\b' % capword, re.I) # text = capwordRE.sub(capword, text) return text def phone2numeric(phone): "Converts a phone number with letters into its numeric equivalent." letters = re.compile(r'[A-PR-Y]', re.I) char2number = lambda m: {'a': '2', 'c': '2', 'b': '2', 'e': '3', 'd': '3', 'g': '4', 'f': '3', 'i': '4', 'h': '4', 'k': '5', 'j': '5', 'm': '6', 'l': '5', 'o': '6', 'n': '6', 'p': '7', 's': '7', 'r': '7', 'u': '8', 't': '8', 'w': '9', 'v': '8', 'y': '9', 'x': '9'}.get(m.group(0).lower()) return letters.sub(char2number, phone) def compressString(s): import cStringIO, gzip zbuf = cStringIO.StringIO() zfile = gzip.GzipFile(mode='wb', compresslevel=6, fileobj=zbuf) zfile.write(s) zfile.close() return zbuf.getvalue() smart_split_re = re.compile('("(?:[^"\\\\]*(?:\\\\.[^"\\\\]*)*)"|\'(?:[^\'\\\\]*(?:\\\\.[^\'\\\\]*)*)\'|[^\\s]+)') def smartSplit(text): """ Generator that splits a string by spaces, leaving quoted phrases together. Supports both single and double quotes, and supports escaping quotes with backslashes. In the output, strings will keep their initial and trailing quote marks. >>> list(smartSplit('This is "a person\\'s" test.')) ['This', 'is', '"a person\\'s"', 'test.'] """ for bit in smart_split_re.finditer(text): bit = bit.group(0) if bit[0] == '"': yield '"' + bit[1:-1].replace('\\"', '"').replace('\\\\', '\\') + '"' elif bit[0] == "'": yield "'" + bit[1:-1].replace("\\'", "'").replace("\\\\", "\\") + "'" else: yield bit