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#Copyright ReportLab Europe Ltd. 2000-2017 #see license.txt for license details #history https://hg.reportlab.com/hg-public/reportlab/log/tip/src/reportlab/lib/textsplit.py """Helpers for text wrapping, hyphenation, Asian text splitting and kinsoku shori. How to split a 'big word' depends on the language and the writing system. This module works on a Unicode string. It ought to grow by allowing ore algoriths to be plugged in based on possible knowledge of the language and desirable 'niceness' of the algorithm. """ __version__='3.3.0' from unicodedata import category from reportlab.pdfbase.pdfmetrics import stringWidth from reportlab.rl_config import _FUZZ from reportlab.lib.utils import isUnicode CANNOT_START_LINE = [ #strongly prohibited e.g. end brackets, stop, exclamation... u'!\',.:;?!")]\u3001\u3002\u300d\u300f\u3011\u3015\uff3d\u3011\uff09', #middle priority e.g. continuation small vowels - wrapped on two lines but one string... u'\u3005\u2015\u3041\u3043\u3045\u3047\u3049\u3063\u3083\u3085\u3087\u308e\u30a1\u30a3' u'\u30a5\u30a7\u30a9\u30c3\u30e3\u30e5\u30e7\u30ee\u30fc\u30f5\u30f6', #weakly prohibited - continuations, celsius symbol etc. u'\u309b\u309c\u30fb\u30fd\u30fe\u309d\u309e\u2015\u2010\xb0\u2032\u2033\u2103\uffe0\uff05\u2030' ] ALL_CANNOT_START = u''.join(CANNOT_START_LINE) CANNOT_END_LINE = [ #strongly prohibited u'\u2018\u201c\uff08[{\uff08\u3014\uff3b\uff5b\u3008\u300a\u300c\u300e\u3010', #weaker - currency symbols, hash, postcode - prefixes u'$\u00a3@#\uffe5\uff04\uffe1\uff20\u3012\u00a7' ] ALL_CANNOT_END = u''.join(CANNOT_END_LINE) def is_multi_byte(ch): "Is this an Asian character?" return (ord(ch) >= 0x3000) def getCharWidths(word, fontName, fontSize): """Returns a list of glyph widths. >>> getCharWidths('Hello', 'Courier', 10) [6.0, 6.0, 6.0, 6.0, 6.0] >>> from reportlab.pdfbase.cidfonts import UnicodeCIDFont >>> from reportlab.pdfbase.pdfmetrics import registerFont >>> registerFont(UnicodeCIDFont('HeiseiMin-W3')) >>> getCharWidths(u'\u6771\u4EAC', 'HeiseiMin-W3', 10) #most kanji are 100 ems [10.0, 10.0] """ #character-level function call; the performance is going to SUCK return [stringWidth(uChar, fontName, fontSize) for uChar in word] def wordSplit(word, maxWidths, fontName, fontSize, encoding='utf8'): """Attempts to break a word which lacks spaces into two parts, the first of which fits in the remaining space. It is allowed to add hyphens or whatever it wishes. This is intended as a wrapper for some language- and user-choice-specific splitting algorithms. It should only be called after line breaking on spaces, which covers western languages and is highly optimised already. It works on the 'last unsplit word'. Presumably with further study one could write a Unicode splitting algorithm for text fragments whick was much faster. Courier characters should be 6 points wide. >>> wordSplit('HelloWorld', 30, 'Courier', 10) [[0.0, 'Hello'], [0.0, 'World']] >>> wordSplit('HelloWorld', 31, 'Courier', 10) [[1.0, 'Hello'], [1.0, 'World']] """ if not isUnicode(word): uword = word.decode(encoding) else: uword = word charWidths = getCharWidths(uword, fontName, fontSize) lines = dumbSplit(uword, charWidths, maxWidths) if not isUnicode(word): lines2 = [] #convert back for (extraSpace, text) in lines: lines2.append([extraSpace, text.encode(encoding)]) lines = lines2 return lines def dumbSplit(word, widths, maxWidths): """This function attempts to fit as many characters as possible into the available space, cutting "like a knife" between characters. This would do for Chinese. It returns a list of (text, extraSpace) items where text is a Unicode string, and extraSpace is the points of unused space available on the line. This is a structure which is fairly easy to display, and supports 'backtracking' approaches after the fact. Test cases assume each character is ten points wide... >>> dumbSplit(u'Hello', [10]*5, 60) [[10, u'Hello']] >>> dumbSplit(u'Hello', [10]*5, 50) [[0, u'Hello']] >>> dumbSplit(u'Hello', [10]*5, 40) [[0, u'Hell'], [30, u'o']] """ _more = """ #>>> dumbSplit(u'Hello', [10]*5, 4) # less than one character #(u'', u'Hello') # this says 'Nihongo wa muzukashii desu ne!' (Japanese is difficult isn't it?) in 12 characters >>> jtext = u'\u65e5\u672c\u8a9e\u306f\u96e3\u3057\u3044\u3067\u3059\u306d\uff01' >>> dumbSplit(jtext, [10]*11, 30) # (u'\u65e5\u672c\u8a9e', u'\u306f\u96e3\u3057\u3044\u3067\u3059\u306d\uff01') """ if not isinstance(maxWidths,(list,tuple)): maxWidths = [maxWidths] assert isUnicode(word) lines = [] i = widthUsed = lineStartPos = 0 maxWidth = maxWidths[0] nW = len(word) while i<nW: w = widths[i] c = word[i] widthUsed += w i += 1 if widthUsed > maxWidth + _FUZZ and widthUsed>0: extraSpace = maxWidth - widthUsed if ord(c)<0x3000: # we appear to be inside a non-Asian script section. # (this is a very crude test but quick to compute). # This is likely to be quite rare so the speed of the # code below is hopefully not a big issue. The main # situation requiring this is that a document title # with an english product name in it got cut. # we count back and look for # - a space-like character # - reversion to Kanji (which would be a good split point) # - in the worst case, roughly half way back along the line limitCheck = (lineStartPos+i)>>1 #(arbitrary taste issue) for j in range(i-1,limitCheck,-1): cj = word[j] if category(cj)=='Zs' or ord(cj)>=0x3000: k = j+1 if k<i: j = k+1 extraSpace += sum(widths[j:i]) w = widths[k] c = word[k] i = j break #end of English-within-Asian special case #we are pushing this character back, but #the most important of the Japanese typography rules #if this character cannot start a line, wrap it up to this line so it hangs #in the right margin. We won't do two or more though - that's unlikely and #would result in growing ugliness. #and increase the extra space #bug fix contributed by Alexander Vasilenko <alexs.vasilenko@gmail.com> if c not in ALL_CANNOT_START and i>lineStartPos+1: #otherwise we need to push the character back #the i>lineStart+1 condition ensures progress i -= 1 extraSpace += w #lines.append([maxWidth-sum(widths[lineStartPos:i]), word[lineStartPos:i].strip()]) lines.append([extraSpace, word[lineStartPos:i].strip()]) try: maxWidth = maxWidths[len(lines)] except IndexError: maxWidth = maxWidths[-1] # use the last one lineStartPos = i widthUsed = 0 #any characters left? if widthUsed > 0: lines.append([maxWidth - widthUsed, word[lineStartPos:]]) return lines def kinsokuShoriSplit(word, widths, availWidth): #NOT USED OR FINISHED YET! """Split according to Japanese rules according to CJKV (Lunde). Essentially look for "nice splits" so that we don't end a line with an open bracket, or start one with a full stop, or stuff like that. There is no attempt to try to split compound words into constituent kanji. It currently uses wrap-down: packs as much on a line as possible, then backtracks if needed This returns a number of words each of which should just about fit on a line. If you give it a whole paragraph at once, it will do all the splits. It's possible we might slightly step over the width limit if we do hanging punctuation marks in future (e.g. dangle a Japanese full stop in the right margin rather than using a whole character box. """ lines = [] assert len(word) == len(widths) curWidth = 0.0 curLine = [] i = 0 #character index - we backtrack at times so cannot use for loop while 1: ch = word[i] w = widths[i] if curWidth + w < availWidth: curLine.append(ch) curWidth += w else: #end of line. check legality if ch in CANNOT_END_LINE[0]: pass #to be completed # This recipe refers: # # http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/148061 import re rx=re.compile("([\u2e80-\uffff])", re.UNICODE) def cjkwrap(text, width, encoding="utf8"): 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) or line[-1:] == '\0' and 2], word), rx.sub(r'\1\0 ', str(text,encoding)).split(' ') ).replace('\0', '').encode(encoding) if __name__=='__main__': import doctest from reportlab.lib import textsplit doctest.testmod(textsplit)