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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/platypus/paragraph.py __all__=( 'Paragraph', 'cleanBlockQuotedText', 'ParaLines', 'FragLine', ) __version__='3.5.20' __doc__='''The standard paragraph implementation''' from string import whitespace from operator import truth from unicodedata import category from reportlab.pdfbase.pdfmetrics import stringWidth, getAscentDescent from reportlab.platypus.paraparser import ParaParser, _PCT, _num as _parser_num, _re_us_value from reportlab.platypus.flowables import Flowable from reportlab.lib.colors import Color from reportlab.lib.enums import TA_LEFT, TA_RIGHT, TA_CENTER, TA_JUSTIFY from reportlab.lib.geomutils import normalizeTRBL from reportlab.lib.textsplit import wordSplit, ALL_CANNOT_START from reportlab.lib.styles import ParagraphStyle from copy import deepcopy from reportlab.lib.abag import ABag from reportlab.rl_config import decimalSymbol, _FUZZ, paraFontSizeHeightOffset,\ hyphenationMinWordLength from reportlab.lib.utils import _className, isBytes, isStr from reportlab.lib.rl_accel import sameFrag import re from types import MethodType try: import pyphen except: pyphen = None #on UTF8/py33 branch, split and strip must be unicode-safe! #thanks to Dirk Holtwick for helpful discussions/insight #on this one _wsc = ''.join(( u'\u0009', # HORIZONTAL TABULATION u'\u000A', # LINE FEED u'\u000B', # VERTICAL TABULATION u'\u000C', # FORM FEED u'\u000D', # CARRIAGE RETURN u'\u001C', # FILE SEPARATOR u'\u001D', # GROUP SEPARATOR u'\u001E', # RECORD SEPARATOR u'\u001F', # UNIT SEPARATOR u'\u0020', # SPACE u'\u0085', # NEXT LINE #u'\u00A0', # NO-BREAK SPACE u'\u1680', # OGHAM SPACE MARK u'\u2000', # EN QUAD u'\u2001', # EM QUAD u'\u2002', # EN SPACE u'\u2003', # EM SPACE u'\u2004', # THREE-PER-EM SPACE u'\u2005', # FOUR-PER-EM SPACE u'\u2006', # SIX-PER-EM SPACE u'\u2007', # FIGURE SPACE u'\u2008', # PUNCTUATION SPACE u'\u2009', # THIN SPACE u'\u200A', # HAIR SPACE u'\u200B', # ZERO WIDTH SPACE u'\u2028', # LINE SEPARATOR u'\u2029', # PARAGRAPH SEPARATOR u'\u202F', # NARROW NO-BREAK SPACE u'\u205F', # MEDIUM MATHEMATICAL SPACE u'\u3000', # IDEOGRAPHIC SPACE )) _wsc_re_split=re.compile('[%s]+'% re.escape(_wsc)).split _wsc_end_search=re.compile('[%s]+$'% re.escape(_wsc)).search def _usConv(s, vMap, default=None): '''convert a strike/underline distance to a number''' if isStr(s): s = s.strip() if s: m = _re_us_value.match(s) if m: return float(m.group(1))*vMap[m.group(2)] else: return _parser_num(s,allowRelative=False) elif default: return default return s def split(text, delim=None): if isBytes(text): text = text.decode('utf8') if delim is not None and isBytes(delim): delim = delim.decode('utf8') return [uword for uword in (_wsc_re_split(text) if delim is None and u'\xa0' in text else text.split(delim))] def strip(text): if isBytes(text): text = text.decode('utf8') return text.strip(_wsc) def lstrip(text): if isBytes(text): text = text.decode('utf8') return text.lstrip(_wsc) def rstrip(text): if isBytes(text): text = text.decode('utf8') return text.rstrip(_wsc) class ParaLines(ABag): """ class ParaLines contains the broken into lines representation of Paragraphs kind=0 Simple fontName, fontSize, textColor apply to whole Paragraph lines [(extraSpace1,words1),....,(extraspaceN,wordsN)] kind==1 Complex lines [FragLine1,...,FragLineN] """ class FragLine(ABag): """ class FragLine contains a styled line (ie a line with more than one style):: extraSpace unused space for justification only wordCount 1+spaces in line for justification purposes words [ParaFrags] style text lumps to be concatenated together fontSize maximum fontSize seen on the line; not used at present, but could be used for line spacing. """ def _lineClean(L): return ' '.join(list(filter(truth,split(strip(L))))) def cleanBlockQuotedText(text,joiner=' '): """This is an internal utility which takes triple- quoted text form within the document and returns (hopefully) the paragraph the user intended originally.""" L=list(filter(truth,list(map(_lineClean, split(text, '\n'))))) return joiner.join(L) def setXPos(tx,dx): if dx>1e-6 or dx<-1e-6: tx.setXPos(dx) def _nbspCount(w): if isBytes(w): return w.count(b'\xc2\xa0') else: return w.count(u'\xa0') def _leftDrawParaLine( tx, offset, extraspace, words, last=0): simple = extraspace>-1e-8 or getattr(tx,'preformatted',False) text = ' '.join(words) setXPos(tx,offset) if not simple: nSpaces = len(words)+_nbspCount(text)-1 simple = nSpaces<=0 if simple: tx._textOut(text,1) else: tx.setWordSpace(extraspace / float(nSpaces)) tx._textOut(text,1) tx.setWordSpace(0) setXPos(tx,-offset) return offset def _centerDrawParaLine( tx, offset, extraspace, words, last=0): simple = extraspace>-1e-8 or getattr(tx,'preformatted',False) text = ' '.join(words) if not simple: nSpaces = len(words)+_nbspCount(text)-1 simple = nSpaces<=0 if simple: m = offset + 0.5 * extraspace setXPos(tx,m) tx._textOut(text,1) else: m = offset tx.setWordSpace(extraspace / float(nSpaces)) setXPos(tx,m) tx._textOut(text,1) tx.setWordSpace(0) setXPos(tx,-m) return m def _rightDrawParaLine( tx, offset, extraspace, words, last=0): simple = extraspace>-1e-8 or getattr(tx,'preformatted',False) text = ' '.join(words) if not simple: nSpaces = len(words)+_nbspCount(text)-1 simple = nSpaces<=0 if simple: m = offset + extraspace setXPos(tx,m) tx._textOut(' '.join(words),1) else: m = offset tx.setWordSpace(extraspace / float(nSpaces)) setXPos(tx,m) tx._textOut(text,1) tx.setWordSpace(0) setXPos(tx,-m) return m def _justifyDrawParaLine( tx, offset, extraspace, words, last=0): setXPos(tx,offset) text = ' '.join(words) simple = getattr(tx,'preformatted',False) or (-1e-8<extraspace<=1e-8) or (last and extraspace>-1e-8) if not simple: nSpaces = len(words)+_nbspCount(text)-1 simple = nSpaces<=0 if simple: #last one or no extra space so left align tx._textOut(text,1) else: tx.setWordSpace(extraspace / float(nSpaces)) tx._textOut(text,1) tx.setWordSpace(0) setXPos(tx,-offset) return offset def _justifyDrawParaLineRTL( tx, offset, extraspace, words, last=0): return (_rightDrawParaLine if last else _justifyDrawParaLine)(tx, offset, extraspace, words, last) def imgVRange(h,va,fontSize): '''return bottom,top offsets relative to baseline(0)''' if va=='baseline': iyo = 0 elif va in ('text-top','top'): iyo = fontSize-h elif va=='middle': iyo = fontSize - (1.2*fontSize+h)*0.5 elif va in ('text-bottom','bottom'): iyo = fontSize - 1.2*fontSize elif va=='super': iyo = 0.5*fontSize elif va=='sub': iyo = -0.5*fontSize elif hasattr(va,'normalizedValue'): iyo = va.normalizedValue(fontSize) else: iyo = va return iyo,iyo+h def imgNormV(v,nv): if hasattr(v,'normalizedValue'): return v.normalizedValue(nv) else: return v def _getDotsInfo(style): dots = style.endDots if isStr(dots): text = dots fontName = style.fontName fontSize = style.fontSize textColor = style.textColor backColor = style.backColor dy = 0 else: text = getattr(dots,'text','.') fontName = getattr(dots,'fontName',style.fontName) fontSize = getattr(dots,'fontSize',style.fontSize) textColor = getattr(dots,'textColor',style.textColor) backColor = getattr(dots,'backColor',style.backColor) dy = getattr(dots,'dy',0) return text,fontName,fontSize,textColor,backColor,dy _56=5./6 _16=1./6 def _putFragLine(cur_x, tx, line, last, pKind): linkRecord = getattr(tx,'_linkRecord',lambda *args, **kwds: None) preformatted = tx.preformatted xs = tx.XtraState cur_y = xs.cur_y x0 = tx._x0 autoLeading = xs.autoLeading leading = xs.leading cur_x += xs.leftIndent dal = autoLeading in ('min','max') if dal: if autoLeading=='max': ascent = max(_56*leading,line.ascent) descent = max(_16*leading,-line.descent) else: ascent = line.ascent descent = -line.descent leading = ascent+descent if tx._leading!=leading: tx.setLeading(leading) if dal: olb = tx._olb if olb is not None: xcy = olb-ascent if tx._oleading!=leading: cur_y += leading - tx._oleading if abs(xcy-cur_y)>1e-8: cur_y = xcy tx.setTextOrigin(x0,cur_y) xs.cur_y = cur_y tx._olb = cur_y - descent tx._oleading = leading ws = getattr(tx,'_wordSpace',0) nSpaces = 0 words = line.words AL = [] LL = [] us_lines = xs.us_lines links = xs.links for i, f in enumerate(words): if hasattr(f,'cbDefn'): cbDefn = f.cbDefn kind = cbDefn.kind if kind=='img': #draw image cbDefn,cur_y,cur_x txfs = tx._fontsize if txfs is None: txfs = xs.style.fontSize w = imgNormV(cbDefn.width,xs.paraWidth) h = imgNormV(cbDefn.height,txfs) iy0,iy1 = imgVRange(h,cbDefn.valign,txfs) cur_x_s = cur_x + nSpaces*ws tx._canvas.drawImage(cbDefn.image,cur_x_s,cur_y+iy0,w,h,mask='auto') cur_x += w cur_x_s += w setXPos(tx,cur_x_s-tx._x0) else: name = cbDefn.name if kind=='anchor': tx._canvas.bookmarkHorizontal(name,cur_x,cur_y+leading) else: func = getattr(tx._canvas,name,None) if not func: raise AttributeError("Missing %s callback attribute '%s'" % (kind,name)) tx._canvas._curr_tx_info=dict(tx=tx,cur_x=cur_x,cur_y=cur_y,leading=leading,xs=tx.XtraState) try: func(tx._canvas,kind,getattr(cbDefn,'label',None)) finally: del tx._canvas._curr_tx_info if f is words[-1]: if not tx._fontname: tx.setFont(xs.style.fontName,xs.style.fontSize) tx._textOut('',1) else: cur_x_s = cur_x + nSpaces*ws end_x = cur_x_s fontSize = f.fontSize textColor = f.textColor rise = f.rise if i > 0: end_x = cur_x_s - (0 if preformatted else _trailingSpaceLength(words[i-1].text, tx)) if (tx._fontname,tx._fontsize)!=(f.fontName,fontSize): tx._setFont(f.fontName, fontSize) if xs.textColor!=textColor: xs.textColor = textColor tx.setFillColor(textColor) if xs.rise!=rise: xs.rise=rise tx.setRise(rise) #we should end stuff bfore outputting more text so we can record #the text code position correctly if needed if LL != f.us_lines: S = set(LL) NS = set(f.us_lines) nLL = NS - S #new lines eLL = S - NS #ending lines for l in eLL: us_lines[l] = us_lines[l],end_x if AL != f.link: S = set(AL) NS = set(f.link) nAL = NS - S #new linkis eAL = S - NS #ending links for l in eAL: links[l] = links[l],end_x linkRecord(l,'end') text = f.text tx._textOut(text,f is words[-1]) # cheap textOut if LL != f.us_lines: for l in nLL: us_lines[l] = (l,fontSize,textColor,cur_x_s),fontSize LL = f.us_lines if LL: for l in LL: l0, fsmax = us_lines[l] if fontSize>fsmax: us_lines[l] = l0, fontSize nlo = rise - 0.2*fontSize nhi = rise + fontSize if AL != f.link: for l in nAL: links[l] = (l,cur_x),nlo,nhi linkRecord(l,'start') AL = f.link if AL: for l in AL: l0, lo, hi = links[l] if nlo<lo or nhi>hi: links[l] = l0,min(nlo,lo),max(nhi,hi) bg = getattr(f,'backColor',None) if bg and not xs.backColor: xs.backColor = bg xs.backColor_x = cur_x_s elif xs.backColor: if not bg: xs.backColors.append( (xs.backColor_x, end_x, xs.backColor) ) xs.backColor = None elif f.backColor!=xs.backColor or xs.textColor!=xs.backColor: xs.backColors.append( (xs.backColor_x, end_x, xs.backColor) ) xs.backColor = bg xs.backColor_x = cur_x_s txtlen = tx._canvas.stringWidth(text, tx._fontname, tx._fontsize) cur_x += txtlen nSpaces += text.count(' ')+_nbspCount(text) cur_x_s = cur_x+(nSpaces-1)*ws if last and xs.style.endDots: if xs.style.wordWrap!='RTL': #assume dots left --> right if pKind!='right': _do_dots_frag(cur_x,cur_x_s,line.maxWidth,xs,tx) elif pKind!='left': start = tx._x_offset _do_dots_frag(start, start, x0 - start, xs, tx, left=False) if LL: for l in LL: us_lines[l] = us_lines[l], cur_x_s if AL: for l in AL: links[l] = links[l], cur_x_s linkRecord(l,'end') if xs.backColor: xs.backColors.append( (xs.backColor_x, cur_x_s, xs.backColor) ) if tx._x0!=x0: setXPos(tx,x0-tx._x0) def _do_dots_frag(cur_x, cur_x_s, maxWidth, xs, tx, left=True): text,fontName,fontSize,textColor,backColor,dy = _getDotsInfo(xs.style) txtlen = tx._canvas.stringWidth(text, fontName, fontSize) if cur_x_s+txtlen<=maxWidth: if tx._fontname!=fontName or tx._fontsize!=fontSize: tx.setFont(fontName,fontSize) if left: maxWidth += getattr(tx,'_dotsOffsetX',tx._x0) tx.setTextOrigin(0,xs.cur_y+dy) setXPos(tx,cur_x_s-cur_x) n = int((maxWidth-cur_x_s)/txtlen) setXPos(tx,maxWidth - txtlen*n) if xs.textColor!=textColor: tx.setFillColor(textColor) if backColor: xs.backColors.append((cur_x,maxWidth,backColor)) tx._textOut(n*text,1) if dy: tx.setTextOrigin(tx._x0,xs.cur_y-dy) def _leftDrawParaLineX( tx, offset, line, last=0): tx._x_offset = offset setXPos(tx,offset) extraSpace = line.extraSpace simple = extraSpace>-1e-8 or getattr(line,'preformatted',False) if not simple: nSpaces = line.wordCount+sum([_nbspCount(w.text) for w in line.words if not hasattr(w,'cbDefn')])-1 simple = nSpaces<=0 if simple: _putFragLine(offset, tx, line, last, 'left') else: tx.setWordSpace(extraSpace / float(nSpaces)) _putFragLine(offset, tx, line, last, 'left') tx.setWordSpace(0) setXPos(tx,-offset) def _centerDrawParaLineX( tx, offset, line, last=0): tx._x_offset = offset tx._dotsOffsetX = offset + tx._x0 try: extraSpace = line.extraSpace simple = extraSpace>-1e-8 or getattr(line,'preformatted',False) if not simple: nSpaces = line.wordCount+sum([_nbspCount(w.text) for w in line.words if not hasattr(w,'cbDefn')])-1 simple = nSpaces<=0 if simple: m = offset+0.5*line.extraSpace setXPos(tx,m) _putFragLine(m, tx, line, last,'center') else: m = offset tx.setWordSpace(extraSpace / float(nSpaces)) _putFragLine(m, tx, line, last, 'center') tx.setWordSpace(0) setXPos(tx,-m) finally: del tx._dotsOffsetX def _rightDrawParaLineX( tx, offset, line, last=0): tx._x_offset = offset extraSpace = line.extraSpace simple = extraSpace>-1e-8 or getattr(line,'preformatted',False) if not simple: nSpaces = line.wordCount+sum([_nbspCount(w.text) for w in line.words if not hasattr(w,'cbDefn')])-1 simple = nSpaces<=0 if simple: m = offset+line.extraSpace setXPos(tx,m) _putFragLine(m,tx, line, last, 'right') else: m = offset tx.setWordSpace(extraSpace / float(nSpaces)) _putFragLine(m, tx, line, last, 'right') tx.setWordSpace(0) setXPos(tx,-m) def _justifyDrawParaLineX( tx, offset, line, last=0): tx._x_offset = offset setXPos(tx,offset) extraSpace = line.extraSpace simple = line.lineBreak or (-1e-8<extraSpace<=1e-8) or (last and extraSpace>-1e-8) if not simple: nSpaces = line.wordCount+sum([_nbspCount(w.text) for w in line.words if not hasattr(w,'cbDefn')])-1 simple = nSpaces<=0 if not simple: tx.setWordSpace(extraSpace / float(nSpaces)) _putFragLine(offset, tx, line, last, 'justify') tx.setWordSpace(0) else: _putFragLine(offset, tx, line, last, 'justify') #no space modification setXPos(tx,-offset) def _justifyDrawParaLineXRTL( tx, offset, line, last=0): return (_rightDrawParaLineX if last else _justifyDrawParaLineX)( tx, offset, line, last) def _trailingSpaceLength(text, tx): ws = _wsc_end_search(text) return tx._canvas.stringWidth(ws.group(), tx._fontname, tx._fontsize) if ws else 0 class _HSFrag(list): '''a frag that's followed by a space''' pass class _InjectedFrag(list): '''a frag that's injected in breaklines and must be removed on reprocessing''' pass class _SplitFrag(list): '''a split frag''' pass class _SplitFragH(_SplitFrag): '''a split frag that's the head part of the split''' pass class _SplitFragHY(_SplitFragH): '''a head split frag that needs '-' removing before rejoining''' pass class _SplitFragHS(_SplitFrag,_HSFrag): """a split frag that's followed by a space""" pass class _SplitFragLL(_SplitFragHS): """a frag that is forced to end in - because of paragraph split""" pass class _SHYIndexedStr(str): def __new__(cls, u, X=None): if not X: u = u.split(_shy) X = [] a = X.append x = 0 for s in u: x += len(s) a(x) u = u''.join(u) X = X[:-1] self = str.__new__(cls,u) self._shyIndices = X return self def _shyUnsplit(s,ss=None): '''rejoin two parts of an original _SHYIndexedStr or str that was split''' u = s.rstrip(u'-') if isinstance(s,_SHYIndexedStr): X = s._shyIndices[:] x = X[-1] if ss: if hasattr(ss,'_shyIndices'): X.extend([_+x for _ in ss._shyIndices]) u += ss return _SHYIndexedStr(u,X) elif ss: u += ss if hasattr(ss,'_shyIndices'): X.extend([_+x for _ in ss._shyIndices]) return _SHYIndexedStr(u,X) return u class _SHYWord(list): '''a fragword containing soft hyphens some of its strings are _SHYIndexedStr''' def shyphenate(self, newWidth, maxWidth): ww = self[0] self._fsww = 0x7fffffff if ww==0: return [] possible = None exceeded = False baseWidth = baseWidth0 = newWidth - ww fsww = None for i,(f,t) in enumerate(self[1:]): sW = lambda s: stringWidth(s, f.fontName, f.fontSize) if isinstance(t,_SHYIndexedStr): # there's a shy in this bit shyLen = sW(u'-') bw = baseWidth + shyLen for j, x in enumerate(t._shyIndices): left, right = t[:x], t[x:] leftw = bw+sW(left) if fsww is None: fsww = leftw exceeded = leftw > maxWidth if exceeded: break possible = i, j, x, leftw, left, right, shyLen baseWidth += sW(t) else: baseWidth += sW(t) exceeded = baseWidth > maxWidth if exceeded and fsww is not None: break self._fsww = fsww-baseWidth0 if fsww is not None else 0x7fffffff if not possible: return [] i, j, x, leftw, left, right, shyLen = possible i1 = i+1 f, t = self[i1] #we're splitting this subfrag X = t._shyIndices lefts = _SHYIndexedStr(left+u'-',X[:j+1]) L = self[:i1] + [(f,lefts)] L[0] = leftw - baseWidth0 R = [ww-L[0]+shyLen]+([] if not right else [(f,_SHYIndexedStr(right,[_-x for _ in X[j+1:]]))]) + self[i1+1:] return _SplitFragSHY(L), _SHYWordHS(R) class _SplitFragSHY(_SHYWord, _SplitFragHY): '''a head split frag that requires removal of a hyphen at the end before rejoining''' class _SHYWordHS(_SHYWord,_SplitFragHS): '''a fragword containing soft hyphens that's followed by a space''' pass def _processed_frags(frags): try: return isinstance(frags[0][0],(float,int)) except: return False _FK_TEXT = 0 _FK_IMG = 1 _FK_APPEND = 2 _FK_BREAK = 3 def _rejoinSplitFragWords(F): '''F should be a list of _SplitFrags''' R = [0] aR = R.append wLen = 0 psty = None for f in F: wLen += f[0] rmhy = isinstance(f,_SplitFragHY) for ff in f[1:]: sty, t = ff if rmhy and ff is f[-1]: wLen -= stringWidth(t[-1],sty.fontName,sty.fontSize) + 1e-8 t = _shyUnsplit(t) #strip the '-' if psty is sty: R[-1] = (sty, _shyUnsplit(R[-1][1],t)) else: aR((sty,t)) psty = sty R[0] = wLen return _reconstructSplitFrags(f)(R) def _reconstructSplitFrags(f): return ((_SHYWordHS if isinstance(f,_HSFrag) else _SHYWord) if isinstance(f,_SHYWord) else ((_SplitFragLL if isinstance(f,_SplitFragLL) else _HSFrag) if isinstance(f,_HSFrag) else list)) def _getFragWords(frags,maxWidth=None): ''' given a Parafrag list return a list of fragwords [[size, (f00,w00), ..., (f0n,w0n)],....,[size, (fm0,wm0), ..., (f0n,wmn)]] each pair f,w represents a style and some string each sublist represents a word ''' def _rescaleFrag(f): w = f[0] if isinstance(w,_PCT): if w._normalizer!=maxWidth: w._normalizer = maxWidth w = w.normalizedValue(maxWidth) f[0] = w R = [] aR = R.append W = [] if _processed_frags(frags): aW = W.append #print('\nprocessed frags') #for _i,_r in enumerate(frags): # print('%3d: [%d, [%s]](%s)' % (_i,_r[0],', '.join(('%r' % _ff[1] for _ff in _r[1:])), type(_r))) if True: for f in frags: if isinstance(f,_InjectedFrag): continue _rescaleFrag(f) if isinstance(f,_SplitFrag): aW(f) if isinstance(f, _HSFrag): aR(_rejoinSplitFragWords(W)) del W[:] else: if W: aR(_rejoinSplitFragWords(W)) del W[:] aR(f) if W: aR(_rejoinSplitFragWords(W)) else: for f in frags: if isinstance(f,_InjectedFrag): continue _rescaleFrag(f) if isinstance(f,_SplitFrag): f0 = f[0] if not W: Wlen = 0 sty = None else: if isinstance(lf,_SplitFragHY): sty, t = W[-1] Wlen -= stringWidth(t[-1],sty.fontName,sty.fontSize) + 1e-8 W[-1] = (sty,_shyUnsplit(t)) #strip the '-' Wlen += f0 for ts,t in f[1:]: if ts is sty: W[-1] = (sty, _shyUnsplit(W[-1][1],t)) else: aW((ts,t)) sty = ts if isinstance(f, _HSFrag): lf = None aR(_reconstructSplitFrags(f)([Wlen]+W)) #aR((((_SHYWordHS if isinstance(f,_HSFrag) else _SHYWord) if isinstance(f,_SHYWord) # else (_HSFrag if isinstance(f,_HSFrag) else list)) # )([Wlen]+W)) del W[:] else: lf = f #latest f in W else: if W: #must end a joining aR(_reconstructSplitFrags(f)([Wlen]+W)) #aR((((_SHYWordHS if isinstance(lf,_HSFrag) else _SHYWord) if isinstance(lf,_SHYWord) # else (_HSFrag if isinstance(lf,_HSFrag) else list)) # )([Wlen]+W)) del W[:] aR(f) if W: #must end a joining aR(_reconstructSplitFrags(lf)([Wlen]+W)) #aR((((_SHYWordHS if isinstance(lf,_HSFrag) else _SHYWord) if isinstance(lf,_SHYWord) # else (_HSFrag if isinstance(lf,_HSFrag) else list)) # )([Wlen]+W)) #print('\nreconstructed frag words') #for _i,_r in enumerate(R): # print('%3d: [%d, [%s]](%s)' % (_i,_r[0],', '.join(('%r' % _ff[1] for _ff in _r[1:])), type(_r))) else: hangingSpace = False n = 0 hangingStrip = True shyIndices = False for f in frags: text = f.text if text!='': f._fkind = _FK_TEXT if hangingStrip: text = lstrip(text) if not text: continue hangingStrip = False S = split(text) if text[0] in whitespace or not S: if W: W.insert(0,n) #end preceding word aR(_SHYWord(W) if shyIndices else W) whs = hangingSpace W = [] shyIndices = False hangingSpace = False n = 0 else: whs = R and isinstance(R[-1],_HSFrag) if not whs: S.insert(0,'') elif not S: continue for w in S[:-1]: if _shy in w: w = _SHYIndexedStr(w) shyIndices = True W.append((f,w)) n += stringWidth(w, f.fontName, f.fontSize) W.insert(0,n) aR(_SHYWordHS(W) if shyIndices or isinstance(W,_SHYWord) else _HSFrag(W)) W = [] shyIndices = False n = 0 hangingSpace = False w = S[-1] if _shy in w: w = _SHYIndexedStr(w) shyIndices = True W.append((f,w)) n += stringWidth(w, f.fontName, f.fontSize) if text and text[-1] in whitespace: W.insert(0,n) aR(_SHYWord(W) if shyIndices or isinstance(W,_SHYWord) else _HSFrag(W)) W = [] shyIndices = False n = 0 elif hasattr(f,'cbDefn'): cb = f.cbDefn w = getattr(cb,'width',0) if w: if hasattr(w,'normalizedValue'): w._normalizer = maxWidth w = w.normalizedValue(maxWidth) if W: W.insert(0,n) aR(_HSFrag(W) if hangingSpace else W) W = [] shyIndices = False hangingSpace = False n = 0 f._fkind = _FK_IMG aR([w,(f,'')]) hangingStrip = False else: f._fkind = _FK_APPEND if not W and R and isinstance(R[-1],_HSFrag): R[-1].append((f,'')) else: W.append((f,'')) elif hasattr(f, 'lineBreak'): #pass the frag through. The line breaker will scan for it. if W: W.insert(0,n) aR(W) W = [] n = 0 shyIndices = False hangingSpace = False f._fkind = _FK_BREAK aR([0,(f,'')]) hangingStrip = True if W: W.insert(0,n) aR(_SHYWord(W) if shyIndices or isinstance(W,_SHYWord) else W) if not R: if frags: f = frags[0] f._fkind = _FK_TEXT R = [[0,(f,u'')]] #print('\nreturned frag words') #for _i,_r in enumerate(R): # print('%3d: [%d, [%s]](%s)' % (_i,_r[0],', '.join(('%r' % _ff[1] for _ff in _r[1:])), type(_r))) return R def _fragWordIter(w): for f, s in w[1:]: if hasattr(f,'cbDefn'): yield f, getattr(f.cbDefn,'width',0), s elif s: if isBytes(s): s = s.decode('utf8') #only encoding allowed for c in s: yield f, stringWidth(c,f.fontName, f.fontSize), c else: yield f, 0, s def _splitFragWord(w,maxWidth,maxWidths,lineno): '''given a frag word, w, as returned by getFragWords split it into frag words that fit in lines of length maxWidth maxWidths[lineno+1] ..... maxWidths[lineno+n] return the new word list which is either _SplitFrag....._SPlitFrag or _SplitFrag....._SplitFragHS if the word is hanging space. ''' R = [] maxlineno = len(maxWidths)-1 W = [] lineWidth = 0 fragText = u'' wordWidth = 0 f = w[1][0] for g,cw,c in _fragWordIter(w): newLineWidth = lineWidth+cw tooLong = newLineWidth>maxWidth if g is not f or tooLong: f = f.clone() if hasattr(f,'text'): f.text = fragText W.append((f,fragText)) if tooLong: W = _SplitFrag([wordWidth]+W) R.append(W) lineno += 1 maxWidth = maxWidths[min(maxlineno,lineno)] W = [] newLineWidth = cw wordWidth = 0 fragText = u'' f = g wordWidth += cw fragText += c lineWidth = newLineWidth W.append((f,fragText)) W = (_SplitFragHS if isinstance(w,_HSFrag) else _SplitFragH)([wordWidth]+W) R.append(W) return R #derived from Django validator #https://github.com/django/django/blob/master/django/core/validators.py uri_pat = re.compile(u'(^(?:[a-z0-9\\.\\-\\+]*)://)(?:\\S+(?::\\S*)?@)?(?:(?:25[0-5]|2[0-4]\\d|[0-1]?\\d?\\d)(?:\\.(?:25[0-5]|2[0-4]\\d|[0-1]?\\d?\\d)){3}|\\[[0-9a-f:\\.]+\\]|([a-z\xa1-\uffff0-9](?:[a-z\xa1-\uffff0-9-]{0,61}[a-z\xa1-\uffff0-9])?(?:\\.(?!-)[a-z\xa1-\uffff0-9-]{1,63}(?<!-))*\\.(?!-)(?:[a-z\xa1-\uffff-]{2,63}|xn--[a-z0-9]{1,59})(?<!-)\\.?|localhost))(?::\\d{2,5})?(?:[/?#][^\\s]*)?\\Z', re.I) def _slash_parts(uri,scheme,slash): tail = u'' while uri.endswith(slash): tail += slash uri = uri[:-1] i = 2 while True: i = uri.find(slash,i) if i<0: break i += 1 yield scheme+uri[:i],uri[i:]+tail def _uri_split_pairs(uri): if isBytes(uri): uri = uri.decode('utf8') m = uri_pat.match(uri) if not m: return None scheme = m.group(1) uri = uri[len(scheme):] slash = (u'\\' if not scheme and u'/' not in uri #might be a microsoft pattern else u'/') R = ([(scheme, uri)] if scheme and uri else []) + list(_slash_parts(uri,scheme,slash)) R.reverse() return R #valid letters determined by inspection of # https://en.wikipedia.org/wiki/List_of_Unicode_characters#Latin_script _hy_letters=u'A-Za-z\xc0-\xd6\xd8-\xf6\xf8-\u024f\u1e80-\u1e85\u1e00-\u1eff\u0410-\u044f\u1e02\u1e03\u1e0a\u1e0b\u1e1e\u1e1f\u1e40\u1e41\u1e56\u1e57\u1e60\u1e61\u1e6a\u1e6b\u1e9b\u1ef2\u1ef3' #explicit hyphens _shy = u'\xad' _hy_shy = u'-\xad' _hy_pfx_pat = re.compile(u'^[\'"([{\xbf\u2018\u201a\u201c\u201e]+') _hy_sfx_pat = re.compile(u'[]\'")}?!.,;:\u2019\u201b\u201d\u201f]+$') _hy_letters_pat=re.compile(u''.join((u"^[",_hy_letters,u"]+$"))) _hy_shy_letters_pat=re.compile(u''.join((u"^[",_hy_shy,_hy_letters,"]+$"))) _hy_shy_pat = re.compile(u''.join((u"([",_hy_shy,u"])"))) def _hyGenPair(hyphenator, s, ww, newWidth, maxWidth, fontName, fontSize, uriWasteReduce, embeddedHyphenation, hymwl): if isBytes(s): s = s.decode('utf8') #only encoding allowed m = _hy_pfx_pat.match(s) if m: pfx = m.group(0) s = s[len(pfx):] else: pfx = u'' if isinstance(s,_SplitWordLL) and s[-1]=='-': sfx = u'-' s = s[:-1] else: m = _hy_sfx_pat.search(s) if m: sfx = m.group(0) s = s[:-len(sfx)] else: sfx = u'' if len(s) < hymwl: return w0 = newWidth - ww R = _uri_split_pairs(s) if R is not None: #a uri match was seen if ww>maxWidth or (uriWasteReduce and w0 <= (1-uriWasteReduce)*maxWidth): #we matched a uri and it makes sense to split for h, t in R: h = pfx+h t = t + sfx hw = stringWidth(h,fontName,fontSize) tw = w0 + hw if tw<=maxWidth: return u'',0,hw,ww-hw,h,t return H = _hy_shy_pat.split(s) if hyphenator and (_hy_letters_pat.match(s) or (_hy_shy_letters_pat.match(s) and u'' not in H)): hylen = stringWidth(u'-',fontName,fontSize) for h,t in hyphenator(s): h = pfx + h if not _hy_shy_pat.match(h[-1]): jc = u'-' jclen = hylen else: jc = u'' jclen = 0 t = t + sfx hw = stringWidth(h,fontName,fontSize) tw = hw+w0 + jclen if tw<=maxWidth: return jc,jclen,hw,ww-hw,h,t #even though the above tries for words with '-' it may be that no split ended with '-' #so this may succeed where the above does not n = len(H) if n>=3 and embeddedHyphenation and u'' not in H and _hy_shy_letters_pat.match(s): for i in reversed(range(2,n,2)): h = pfx + ''.join(H[:i]) t = ''.join(H[i:]) + sfx hw = stringWidth(h,fontName,fontSize) tw = hw+w0 if tw<=maxWidth: return u'',0,hw,ww-hw,h,t def _fragWordSplitRep(FW): '''takes a frag word and assembles a unicode word from it if a rise is seen or a non-zerowidth cbdefn then we return None. Otherwise we return (uword,([i1,c1],[i2,c2],...]) where each ii is the index of the word fragment in the word ''' cc = plen = 0 X = [] eX = X.extend U = [] aU = U.append for i in range(1,len(FW)): f, t = FW[i] if f.rise!=0: return None if hasattr(f,'cbDefn') and getattr(f.cbDefn,'width',0): return if not t: continue if isBytes(t): t = t.decode('utf8') aU(t) eX(len(t)*[(i,cc)]) cc += len(t) return u''.join(U),tuple(X) def _rebuildFragWord(F): '''F are the frags''' return [sum((stringWidth(u,s.fontName,s.fontSize) for s,u in F))]+F def _hyGenFragsPair(hyphenator, FW, newWidth, maxWidth, uriWasteReduce, embeddedHyphenation, hymwl): X = _fragWordSplitRep(FW) if not X: return s, X = X if isBytes(s): s = s.decode('utf8') #only encoding allowed m = _hy_pfx_pat.match(s) if m: pfx = m.group(0) s = s[len(pfx):] else: pfx = u'' if isinstance(FW,_SplitFragLL) and FW[-1][1][-1]=='-': sfx = u'-' s = s[:-1] else: m = _hy_sfx_pat.search(s) if m: sfx = m.group(0) s = s[:-len(sfx)] else: sfx = u'' if len(s) < hymwl: return ww = FW[0] w0 = newWidth - ww #try for a uri R = _uri_split_pairs(s) if R is not None: #a uri match was seen if ww>maxWidth or (uriWasteReduce and w0 <= (1-uriWasteReduce)*maxWidth): #we matched a uri and it makes sense to split for h, t in R: h = pfx+h pos = len(h) #FW[fx] is split fx, cc = X[pos] FL = FW[1:fx] ffx, sfx = FW[fx] sfxl = sfx[:pos-cc] if sfxl: FL.append((ffx,sfxl)) sfxr = sfx[pos-cc:] FR = FW[fx+1:] if sfxr: FR.insert(0,(ffx,sfxr)) h = _rebuildFragWord(FL) if w0+h[0]<=maxWidth: return u'',h,_rebuildFragWord(FR) return H = _hy_shy_pat.split(s) if hyphenator and (_hy_letters_pat.match(s) or (_hy_shy_letters_pat.match(s) and u'' not in H)): #not too diffcult for now for h,t in hyphenator(s): h = pfx+h pos = len(h) #FW[fx] is split fx, cc = X[pos] FL = FW[1:fx] ffx, sfx = FW[fx] sfxl = sfx[:pos-cc] if not _hy_shy_pat.match(h[-1]): jc = u'-' else: jc = u'' if sfxl or jc: FL.append((ffx,sfxl+jc)) sfxr = sfx[pos-cc:] FR = FW[fx+1:] if sfxr: FR.insert(0,(ffx,sfxr)) h = _rebuildFragWord(FL) if w0+h[0]<=maxWidth: return jc,h,_rebuildFragWord(FR) #even though the above tries for words with '-' it may be that no split ended with '-' #so this may succeed where the above does not n = len(H) if n>=3 and embeddedHyphenation and u'' not in H and _hy_shy_letters_pat.match(s): for i in reversed(range(2,n,2)): pos = len(pfx + u''.join(H[:i])) fx, cc = X[pos] #FW[fx] is split FL = FW[1:fx] ffx, sfx = FW[fx] sfxl = sfx[:pos-cc] if sfxl: FL.append((ffx,sfxl)) sfxr = sfx[pos-cc:] FR = FW[fx+1:] if sfxr: FR.insert(0,(ffx,sfxr)) h = _rebuildFragWord(FL) if w0+h[0]<=maxWidth: return u'',h,_rebuildFragWord(FR) def _hyphenateFragWord(hyphenator,FW,newWidth,maxWidth,uriWasteReduce,embeddedHyphenation, hymwl=hyphenationMinWordLength): ww = FW[0] if ww==0: return [] if len(FW)==2: f, s = FW[1] if isinstance(FW,_SplitFragLL): s = _SplitWordLL(s) R = _hyGenPair(hyphenator, s, ww, newWidth, maxWidth, f.fontName, f.fontSize,uriWasteReduce,embeddedHyphenation, hymwl) if R: jc, hylen, hw, tw, h, t = R return [(_SplitFragHY if jc else _SplitFragH)([hw+hylen,(f,h+jc)]),(_SplitFragHS if isinstance(FW,_HSFrag) else _SplitFrag)([tw,(f,t)])] else: R = _hyGenFragsPair(hyphenator, FW, newWidth, maxWidth,uriWasteReduce,embeddedHyphenation, hymwl) if R: jc, h, t = R return [(_SplitFragHY if jc else _SplitFragH)(h),(_SplitFragHS if isinstance(FW,_HSFrag) else _SplitFrag)(t)] return None class _SplitWord(str): pass class _SplitWordEnd(_SplitWord): pass class _SplitWordH(_SplitWord): pass class _SplitWordHY(_SplitWordH): '''head part of a hyphenation word pair''' pass class _SplitWordLL(str): '''a word that's forced to end with - because of paragraph split''' pass class _SHYStr(str): '''for simple soft hyphenated words''' def __new__(cls,s): S = s.split(_shy) if len(S)>1: self = str.__new__(cls, u''.join(S)) sp = [0] asp = sp.append for ss in S: asp(sp[-1]+len(ss)) self.__sp__ = sp[1:-1] else: self = str.__new__(cls, s) self.__sp__ = [] return self def __shysplit__(self, fontName, fontSize, baseWidth, limWidth, encoding='utf8'): ''' baseWidth = currentWidth + spaceWidth + hyphenWidth limWidth = maxWidth + spaceShrink ''' self._fsww = 0x7fffffff for i, sp in reversed(list(enumerate(self.__sp__))): #we iterate backwards so that we return the longest that fits #else we will end up with the shortest value in self._fsww sw = self[:sp] sww = stringWidth(sw, fontName, fontSize, encoding) if not i: self._fsww = sww swnw = baseWidth + sww if swnw <= limWidth: #we found a suitable split in a soft-hyphenated word T = self.__sp__[i:] + [len(self)] S = [self[T[j]:T[j+1]] for j in range(len(T)-1)] sw = _SHYStr(sw+u'-') sw.__sp__ = self.__sp__[:i] return [sw,_SHYStr(_shy.join(S))] class _SHYSplitHY(_SHYStr,_SplitWordHY): pass class _SHYSplit(_SHYStr,_SplitWord): pass def _hyphenateWord(hyphenator,fontName,fontSize,w,ww,newWidth,maxWidth, uriWasteReduce,embeddedHyphenation, hymwl=hyphenationMinWordLength): if ww==0: return [] R = _hyGenPair(hyphenator, w, ww, newWidth, maxWidth, fontName, fontSize, uriWasteReduce,embeddedHyphenation, hymwl) if R: hy, hylen, hw, tw, h, t = R return [(_SplitWordHY if hy else _SplitWordH)(h+hy),_SplitWordEnd(t)] def _splitWord(w, lineWidth, maxWidths, lineno, fontName, fontSize, encoding='utf8'): ''' split w into words that fit in lines of length maxWidth maxWidths[lineno+1] ..... maxWidths[lineno+n] then push those new words onto words ''' #TODO fix this to use binary search for the split points R = [] aR = R.append maxlineno = len(maxWidths)-1 wordText = u'' maxWidth = maxWidths[min(maxlineno,lineno)] if isBytes(w): w = w.decode(encoding) for c in w: cw = stringWidth(c,fontName,fontSize,encoding) newLineWidth = lineWidth+cw if newLineWidth>maxWidth: aR(_SplitWord(wordText)) lineno += 1 maxWidth = maxWidths[min(maxlineno,lineno)] newLineWidth = cw wordText = u'' wordText += c lineWidth = newLineWidth aR(_SplitWordEnd(wordText)) return R def _rejoinSplitWords(R): '''R can be a list of pure _SplitWord or _SHYStr''' if isinstance(R[0],_SHYStr): r = R[0] for _ in R[:]: r = _shyUnsplit(r,_) return r elif isinstance(R[0],_SplitWordHY): cf = str if isinstance(R[-1], _SplitWordEnd) else _SplitWordHY s = u''.join((_[:-1] if isinstance(_,_SplitWordHY) else _ for _ in R)) return s if isinstance(R[-1], _SplitWordEnd) else _SplitWordHY(s+u'-') else: return ''.join(R) def _yieldBLParaWords(blPara,start,stop): R = [] aR = R.append for l in blPara.lines[start:stop]: for w in l[1]: if isinstance(w,_SplitWord): aR(w) if isinstance(w,_SplitWordEnd): yield _rejoinSplitWords(R) del R[:] continue else: if R: yield _rejoinSplitWords(R) del R[:] yield w if R: yield _rejoinSplitWords(R) def _split_blParaSimple(blPara,start,stop): f = blPara.clone() for a in ('lines', 'kind', 'text'): if hasattr(f,a): delattr(f,a) f.words = list(_yieldBLParaWords(blPara,start,stop)) if isinstance(f.words[-1],_SplitWordHY): f.words[-1].__class__ = _SHYSplit if isinstance(f.words[-1],_SHYStr) else _SplitWordLL return [f] def _split_blParaHard(blPara,start,stop): f = [] lines = blPara.lines[start:stop] for l in lines: for w in l.words: f.append(w) if l is not lines[-1]: i = len(f)-1 while i>=0 and hasattr(f[i],'cbDefn') and not getattr(f[i].cbDefn,'width',0): i -= 1 if i>=0: g = f[i] if not g.text: g.text = ' ' elif g.text[-1]!=' ': g.text += ' ' return f def _drawBullet(canvas, offset, cur_y, bulletText, style, rtl): '''draw a bullet text could be a simple string or a frag list''' bulletAnchor = style.bulletAnchor if rtl or style.bulletAnchor!='start': numeric = bulletAnchor=='numeric' if isStr(bulletText): t = bulletText q = numeric and decimalSymbol in t if q: t = t[:t.index(decimalSymbol)] bulletWidth = stringWidth(t, style.bulletFontName, style.bulletFontSize) if q: bulletWidth += 0.5 * stringWidth(decimalSymbol, style.bulletFontName, style.bulletFontSize) else: #it's a list of fragments bulletWidth = 0 for f in bulletText: t = f.text q = numeric and decimalSymbol in t if q: t = t[:t.index(decimalSymbol)] bulletWidth += 0.5 * stringWidth(decimalSymbol, f.fontName, f.fontSize) bulletWidth += stringWidth(t, f.fontName, f.fontSize) if q: break else: bulletWidth = 0 if bulletAnchor=='middle': bulletWidth *= 0.5 cur_y += getattr(style,"bulletOffsetY",0) if not rtl: tx2 = canvas.beginText(style.bulletIndent-bulletWidth,cur_y) else: width = rtl[0] bulletStart = width+style.rightIndent-(style.bulletIndent+bulletWidth) tx2 = canvas.beginText(bulletStart, cur_y) tx2.setFont(style.bulletFontName, style.bulletFontSize) tx2.setFillColor(getattr(style,'bulletColor',style.textColor)) if isStr(bulletText): tx2.textOut(bulletText) else: for f in bulletText: tx2.setFont(f.fontName, f.fontSize) tx2.setFillColor(f.textColor) tx2.textOut(f.text) canvas.drawText(tx2) if not rtl: #AR making definition lists a bit less ugly #bulletEnd = tx2.getX() bulletEnd = tx2.getX() + style.bulletFontSize * 0.6 offset = max(offset,bulletEnd - style.leftIndent) return offset def _handleBulletWidth(bulletText,style,maxWidths): '''work out bullet width and adjust maxWidths[0] if neccessary ''' if bulletText: if isStr(bulletText): bulletWidth = stringWidth( bulletText, style.bulletFontName, style.bulletFontSize) else: #it's a list of fragments bulletWidth = 0 for f in bulletText: bulletWidth += stringWidth(f.text, f.fontName, f.fontSize) bulletLen = style.bulletIndent + bulletWidth + 0.6 * style.bulletFontSize if style.wordWrap=='RTL': indent = style.rightIndent+style.firstLineIndent else: indent = style.leftIndent+style.firstLineIndent if bulletLen > indent: #..then it overruns, and we have less space available on line 1 maxWidths[0] -= (bulletLen - indent) def splitLines0(frags,widths): ''' given a list of ParaFrags we return a list of ParaLines each ParaLine has 1) ExtraSpace 2) blankCount 3) [textDefns....] each text definition is a (ParaFrag, start, limit) triplet ''' #initialise the algorithm lines = [] lineNum = 0 maxW = widths[lineNum] i = -1 l = len(frags) lim = start = 0 while 1: #find a non whitespace character while i<l: while start<lim and text[start]==' ': start += 1 if start==lim: i += 1 if i==l: break start = 0 f = frags[i] text = f.text lim = len(text) else: break # we found one if start==lim: break #if we didn't find one we are done #start of a line g = (None,None,None) line = [] cLen = 0 nSpaces = 0 while cLen<maxW: j = text.find(' ',start) if j<0: j==lim w = stringWidth(text[start:j],f.fontName,f.fontSize) cLen += w if cLen>maxW and line!=[]: cLen = cLen-w #this is the end of the line while g.text[lim]==' ': lim = lim - 1 nSpaces = nSpaces-1 break if j<0: j = lim if g[0] is f: g[2] = j #extend else: g = (f,start,j) line.append(g) if j==lim: i += 1 def _do_line(tx, x1, y1, x2, y2, nlw, nsc): canv = tx._canvas olw = canv._lineWidth if nlw!=olw: canv.setLineWidth(nlw) osc = canv._strokeColorObj if nsc!=osc: canv.setStrokeColor(nsc) canv.line(x1, y1, x2, y2) def _do_under_line(i, x1, ws, tx, us_lines): xs = tx.XtraState style = xs.style y0 = xs.cur_y - i*style.leading f = xs.f fs = f.fontSize tc = f.textColor values = dict(L=fs,F=fs,f=fs) dw = tx._defaultLineWidth x2 = x1 + tx._canvas.stringWidth(' '.join(tx.XtraState.lines[i][1]), tx._fontname, fs) + ws for n,k,c,w,o,r,m,g in us_lines: underline = k=='underline' lw = _usConv(w,values,default=tx._defaultLineWidth) lg = _usConv(g,values,default=1) dy = lg+lw if not underline: dy = -dy y = y0 + r + _usConv(('-0.125*L' if underline else '0.25*L') if o=='' else o,values) if not c: c = tc while m>0: tx._do_line(x1, y, x2, y, lw, c) y -= dy m -= 1 _scheme_re = re.compile('^[a-zA-Z][-+a-zA-Z0-9]+$') def _doLink(tx,link,rect): if not link: return if link.startswith('#'): tx._canvas.linkRect("", link[1:], rect, relative=1) else: parts = link.split(':',1) scheme = len(parts)==2 and parts[0].lower() or '' if scheme=='document': tx._canvas.linkRect("", parts[1], rect, relative=1) elif _scheme_re.match(scheme): kind=scheme.lower()=='pdf' and 'GoToR' or 'URI' if kind=='GoToR': link = parts[1] tx._canvas.linkURL(link, rect, relative=1, kind=kind) else: tx._canvas.linkURL(link, rect, relative=1, kind='URI') def _do_link_line(i, t_off, ws, tx): xs = tx.XtraState leading = xs.style.leading y = xs.cur_y - i*leading - xs.f.fontSize/8.0 # 8.0 factor copied from para.py text = ' '.join(xs.lines[i][1]) textlen = tx._canvas.stringWidth(text, tx._fontname, tx._fontsize) for n, link in xs.link: _doLink(tx, link, (t_off, y, t_off+textlen, y+leading)) def _do_post_text(tx): xs = tx.XtraState y0 = xs.cur_y f = xs.f leading = xs.style.leading autoLeading = xs.autoLeading fontSize = f.fontSize if autoLeading=='max': leading = max(leading,1.2*fontSize) elif autoLeading=='min': leading = 1.2*fontSize if xs.backColors: yl = y0 + fontSize ydesc = yl - leading for x1,x2,c in xs.backColors: tx._canvas.setFillColor(c) tx._canvas.rect(x1,ydesc,x2-x1,leading,stroke=0,fill=1) xs.backColors=[] xs.backColor=None for (((n,link),x1),lo,hi),x2 in sorted(xs.links.values()): _doLink(tx, link, (x1, y0+lo, x2, y0+hi)) xs.links = {} if xs.us_lines: #print 'lines' dw = tx._defaultLineWidth values = dict(L=fontSize) for (((n,k,c,w,o,r,m,g),fs,tc,x1),fsmax),x2 in sorted(xs.us_lines.values()): underline = k=='underline' values['f'] = fs values['F'] = fsmax lw = _usConv(w,values,default=tx._defaultLineWidth) lg = _usConv(g,values,default=1) dy = lg+lw if not underline: dy = -dy y = y0 + r + _usConv(o if o!='' else ('-0.125*L' if underline else '0.25*L'),values) #print 'n=%s k=%s x1=%s x2=%s r=%s c=%s w=%r o=%r fs=%r tc=%s y=%s lw=%r offs=%r' % (n,k,x1,x2,r,(c.hexval() if c else ''),w,o,fs,tc.hexval(),y,lw,y-y0-r) if not c: c = tc while m>0: tx._do_line(x1, y, x2, y, lw, c) y -= dy m -= 1 xs.us_lines = {} xs.cur_y -= leading def textTransformFrags(frags,style): tt = style.textTransform if tt: tt=tt.lower() if tt=='lowercase': tt = str.lower elif tt=='uppercase': tt = str.upper elif tt=='capitalize': tt = str.title elif tt=='none': return else: raise ValueError('ParaStyle.textTransform value %r is invalid' % style.textTransform) n = len(frags) if n==1: #single fragment the easy case frags[0].text = tt(frags[0].text) elif tt is str.title: pb = True for f in frags: u = f.text if not u: continue if u.startswith(u' ') or pb: u = tt(u) else: i = u.find(u' ') if i>=0: u = u[:i]+tt(u[i:]) pb = u.endswith(u' ') f.text = u else: for f in frags: u = f.text if not u: continue f.text = tt(u) class cjkU(str): '''simple class to hold the frag corresponding to a str''' def __new__(cls,value,frag,encoding): self = str.__new__(cls,value) self._frag = frag if hasattr(frag,'cbDefn'): w = getattr(frag.cbDefn,'width',0) self._width = w else: self._width = stringWidth(value,frag.fontName,frag.fontSize) return self frag = property(lambda self: self._frag) width = property(lambda self: self._width) def makeCJKParaLine(U,maxWidth,widthUsed,extraSpace,lineBreak,calcBounds): words = [] CW = [] f0 = FragLine() maxSize = maxAscent = minDescent = 0 for u in U: f = u.frag fontSize = f.fontSize if calcBounds: cbDefn = getattr(f,'cbDefn',None) if getattr(cbDefn,'width',0): descent, ascent = imgVRange(imgNormV(cbDefn.height,fontSize),cbDefn.valign,fontSize) else: ascent, descent = getAscentDescent(f.fontName,fontSize) else: ascent, descent = getAscentDescent(f.fontName,fontSize) maxSize = max(maxSize,fontSize) maxAscent = max(maxAscent,ascent) minDescent = min(minDescent,descent) if not sameFrag(f0,f): f0=f0.clone() f0.text = u''.join(CW) words.append(f0) CW = [] f0 = f CW.append(u) if CW: f0=f0.clone() f0.text = u''.join(CW) words.append(f0) return FragLine(kind=1,extraSpace=extraSpace,wordCount=1,words=words[1:],fontSize=maxSize,ascent=maxAscent,descent=minDescent,maxWidth=maxWidth,currentWidth=widthUsed,lineBreak=lineBreak) def cjkFragSplit(frags, maxWidths, calcBounds, encoding='utf8'): '''This attempts to be wordSplit for frags using the dumb algorithm''' U = [] #get a list of single glyphs with their widths etc etc for f in frags: text = f.text if isBytes(text): text = text.decode(encoding) if text: U.extend([cjkU(t,f,encoding) for t in text]) else: U.append(cjkU(text,f,encoding)) lines = [] i = widthUsed = lineStartPos = 0 maxWidth = maxWidths[0] nU = len(U) while i<nU: u = U[i] i += 1 w = u.width if hasattr(w,'normalizedValue'): w._normalizer = maxWidth w = w.normalizedValue(maxWidth) widthUsed += w lineBreak = hasattr(u.frag,'lineBreak') endLine = (widthUsed>maxWidth + _FUZZ and widthUsed>0) or lineBreak if endLine: extraSpace = maxWidth - widthUsed if not lineBreak: if ord(u)<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): uj = U[j] if uj and category(uj)=='Zs' or ord(uj)>=0x3000: k = j+1 if k<i: j = k+1 extraSpace += sum(U[ii].width for ii in range(j,i)) w = U[k].width u = U[k] i = j break #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 u 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(makeCJKParaLine(U[lineStartPos:i],maxWidth,widthUsed,extraSpace,lineBreak,calcBounds)) 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(makeCJKParaLine(U[lineStartPos:],maxWidth,widthUsed,maxWidth-widthUsed,False,calcBounds)) return ParaLines(kind=1,lines=lines) def _setTXLineProps(tx, canvas, style): tx._defaultLineWidth = canvas._lineWidth tx._underlineColor = getattr(style,'underlineColor','') tx._underlineWidth = getattr(style,'underlineWidth','') tx._underlineOffset = getattr(style,'underlineOffset','') or '-0.125f' tx._strikeColor = getattr(style,'strikeColor','') tx._strikeWidth = getattr(style,'strikeWidth','') tx._strikeOffset = getattr(style,'strikeOffset','') or '0.25f' class Paragraph(Flowable): """ Paragraph(text, style, bulletText=None, caseSensitive=1) text a string of stuff to go into the paragraph. style is a style definition as in reportlab.lib.styles. bulletText is an optional bullet defintion. caseSensitive set this to 0 if you want the markup tags and their attributes to be case-insensitive. This class is a flowable that can format a block of text into a paragraph with a given style. The paragraph Text can contain XML-like markup including the tags: <b> ... </b> - bold < u [color="red"] [width="pts"] [offset="pts"]> < /u > - underline width and offset can be empty meaning use existing canvas line width or with an f/F suffix regarded as a fraction of the font size < strike > < /strike > - strike through has the same parameters as underline <i> ... </i> - italics <u> ... </u> - underline <strike> ... </strike> - strike through <super> ... </super> - superscript <sub> ... </sub> - subscript <font name=fontfamily/fontname color=colorname size=float> <span name=fontfamily/fontname color=colorname backcolor=colorname size=float style=stylename> <onDraw name=callable label="a label"/> <index [name="callablecanvasattribute"] label="a label"/> <link>link text</link> attributes of links size/fontSize/uwidth/uoffset=num name/face/fontName=name fg/textColor/color/ucolor=color backcolor/backColor/bgcolor=color dest/destination/target/href/link=target underline=bool turn on underline <a>anchor text</a> attributes of anchors size/fontSize/uwidth/uoffset=num fontName=name fg/textColor/color/ucolor=color backcolor/backColor/bgcolor=color href=href underline="yes|no" <a name="anchorpoint"/> <unichar name="unicode character name"/> <unichar value="unicode code point"/> <img src="path" width="1in" height="1in" valign="bottom"/> width="w%" --> fontSize*w/100 idea from Roberto Alsina height="h%" --> linewidth*h/100 <ralsina@netmanagers.com.ar> The whole may be surrounded by <para> </para> tags The <b> and <i> tags will work for the built-in fonts (Helvetica /Times / Courier). For other fonts you need to register a family of 4 fonts using reportlab.pdfbase.pdfmetrics.registerFont; then use the addMapping function to tell the library that these 4 fonts form a family e.g. from reportlab.lib.fonts import addMapping addMapping('Vera', 0, 0, 'Vera') #normal addMapping('Vera', 0, 1, 'Vera-Italic') #italic addMapping('Vera', 1, 0, 'Vera-Bold') #bold addMapping('Vera', 1, 1, 'Vera-BoldItalic') #italic and bold It will also be able to handle any MathML specified Greek characters. """ def __init__(self, text, style=None, bulletText = None, frags=None, caseSensitive=1, encoding='utf8'): if style is None: style = ParagraphStyle(name='paragraphImplicitDefaultStyle') self.caseSensitive = caseSensitive self.encoding = encoding self._setup(text, style, bulletText or getattr(style,'bulletText',None), frags, cleanBlockQuotedText) def __repr__(self): n = self.__class__.__name__ L = [n+"("] keys = list(self.__dict__.keys()) for k in keys: L.append('%s: %s' % (repr(k).replace("\n", " ").replace(" "," "),repr(getattr(self, k)).replace("\n", " ").replace(" "," "))) L.append(") #"+n) return '\n'.join(L) def _setup(self, text, style, bulletText, frags, cleaner): #This used to be a global parser to save overhead. #In the interests of thread safety it is being instantiated per paragraph. #On the next release, we'll replace with a cElementTree parser if frags is None: text = cleaner(text) _parser = ParaParser() _parser.caseSensitive = self.caseSensitive style, frags, bulletTextFrags = _parser.parse(text,style) if frags is None: raise ValueError("xml parser error (%s) in paragraph beginning\n'%s'"\ % (_parser.errors[0],text[:min(30,len(text))])) textTransformFrags(frags,style) if bulletTextFrags: bulletText = bulletTextFrags #AR hack self.text = text self.frags = frags #either the parse fragments or frag word list self.style = style self.bulletText = bulletText self.debug = 0 #turn this on to see a pretty one with all the margins etc. def wrap(self, availWidth, availHeight): if availWidth<_FUZZ: #we cannot fit here return 0, 0x7fffffff # work out widths array for breaking self.width = availWidth style = self.style leftIndent = style.leftIndent first_line_width = availWidth - (leftIndent+style.firstLineIndent) - style.rightIndent later_widths = availWidth - leftIndent - style.rightIndent self._wrapWidths = [first_line_width, later_widths] if style.wordWrap == 'CJK': #use Asian text wrap algorithm to break characters blPara = self.breakLinesCJK(self._wrapWidths) else: blPara = self.breakLines(self._wrapWidths) self.blPara = blPara autoLeading = getattr(self,'autoLeading',getattr(style,'autoLeading','')) leading = style.leading if blPara.kind==1: if autoLeading not in ('','off'): height = 0 if autoLeading=='max': for l in blPara.lines: height += max(l.ascent-l.descent,leading) elif autoLeading=='min': for l in blPara.lines: height += l.ascent - l.descent else: raise ValueError('invalid autoLeading value %r' % autoLeading) else: height = len(blPara.lines) * leading else: if autoLeading=='max': leading = max(leading,blPara.ascent-blPara.descent) elif autoLeading=='min': leading = blPara.ascent-blPara.descent height = len(blPara.lines) * leading self.height = height return self.width, height def minWidth(self): 'Attempt to determine a minimum sensible width' frags = self.frags nFrags= len(frags) if not nFrags: return 0 if nFrags==1 and not _processed_frags(frags): f = frags[0] fS = f.fontSize fN = f.fontName return max(stringWidth(w,fN,fS) for w in (split(f.text, ' ') if hasattr(f,'text') else f.words)) else: return max(w[0] for w in _getFragWords(frags)) def _split_blParaProcessed(self,blPara,start,stop): if not stop: return [] lines = blPara.lines sFW = lines[start].sFW sFWN = lines[stop].sFW if stop!=len(lines) else len(self.frags) F = self.frags[sFW:sFWN] while F and isinstance(F[-1],_InjectedFrag): del F[-1] if isinstance(F[-1],_SplitFragHY): F[-1].__class__ = _SHYWordHS if isinstance(F[-1],_SHYWord) else _SplitFragLL return F def _get_split_blParaFunc(self): return (_split_blParaSimple if self.blPara.kind==0 else (_split_blParaHard if not _processed_frags(self.frags) else self._split_blParaProcessed)) def split(self,availWidth, availHeight): if len(self.frags)<=0 or availWidth<_FUZZ or availHeight<_FUZZ: return [] #the split information is all inside self.blPara if not hasattr(self,'blPara'): self.wrap(availWidth,availHeight) blPara = self.blPara style = self.style autoLeading = getattr(self,'autoLeading',getattr(style,'autoLeading','')) leading = style.leading lines = blPara.lines if blPara.kind==1 and autoLeading not in ('','off'): s = height = 0 if autoLeading=='max': for i,l in enumerate(blPara.lines): h = max(l.ascent-l.descent,leading) n = height+h if n>availHeight+1e-8: break height = n s = i+1 elif autoLeading=='min': for i,l in enumerate(blPara.lines): n = height+l.ascent-l.descent if n>availHeight+1e-8: break height = n s = i+1 else: raise ValueError('invalid autoLeading value %r' % autoLeading) else: l = leading if autoLeading=='max': l = max(leading,1.2*style.fontSize) elif autoLeading=='min': l = 1.2*style.fontSize s = int(availHeight/float(l)) height = s*l allowOrphans = getattr(self,'allowOrphans',getattr(style,'allowOrphans',0)) if (not allowOrphans and s<=1) or s==0: #orphan or not enough room del self.blPara return [] n = len(lines) allowWidows = getattr(self,'allowWidows',getattr(style,'allowWidows',1)) if n<=s: return [self] if not allowWidows: if n==s+1: #widow? if (allowOrphans and n==3) or n>3: s -= 1 #give the widow some company else: del self.blPara #no room for adjustment; force the whole para onwards return [] func = self._get_split_blParaFunc() if style.endDots: style1 = deepcopy(style) style1.endDots = None else: style1 = style P1=self.__class__(None,style1,bulletText=self.bulletText,frags=func(blPara,0,s)) #this is a major hack P1.blPara = ParaLines(kind=1,lines=blPara.lines[0:s],aH=availHeight,aW=availWidth) #do not justify text if linebreak was inserted after the text #bug reported and fix contributed by Niharika Singh <nsingh@shoobx.com> P1._JustifyLast = not (isinstance(blPara.lines[s-1],FragLine) and hasattr(blPara.lines[s-1], 'lineBreak') and blPara.lines[s-1].lineBreak) P1._splitpara = 1 P1.height = height P1.width = availWidth if style.firstLineIndent != 0: style = deepcopy(style) style.firstLineIndent = 0 P2=self.__class__(None,style,bulletText=None,frags=func(blPara,s,n)) #propagate attributes that might be on self; suggestion from Dirk Holtwick for a in ('autoLeading', #possible attributes that might be directly on self. ): if hasattr(self,a): setattr(P1,a,getattr(self,a)) setattr(P2,a,getattr(self,a)) return [P1,P2] def draw(self): #call another method for historical reasons. Besides, I #suspect I will be playing with alternate drawing routines #so not doing it here makes it easier to switch. self.drawPara(self.debug) def breakLines(self, width): """ Returns a broken line structure. There are two cases A) For the simple case of a single formatting input fragment the output is A fragment specifier with - kind = 0 - fontName, fontSize, leading, textColor - lines= A list of lines Each line has two items. 1. unused width in points 2. word list B) When there is more than one input formatting fragment the output is A fragment specifier with - kind = 1 - lines= A list of fragments each having fields - extraspace (needed for justified) - fontSize - words=word list each word is itself a fragment with various settings in addition frags becomes a frag word list This structure can be used to easily draw paragraphs with the various alignments. You can supply either a single width or a list of widths; the latter will have its last item repeated until necessary. A 2-element list is useful when there is a different first line indent; a longer list could be created to facilitate custom wraps around irregular objects.""" self._width_max = 0 if not isinstance(width,(tuple,list)): maxWidths = [width] else: maxWidths = width lines = [] self.height = lineno = 0 maxlineno = len(maxWidths)-1 style = self.style hyphenator = getattr(style,'hyphenationLang','') if hyphenator: if isStr(hyphenator): hyphenator = hyphenator.strip() if hyphenator and pyphen: hyphenator = pyphen.Pyphen(lang=hyphenator).iterate else: hyphenator = None elif not callable(hyphenator): raise ValueError('hyphenator should be a language spec or a callable unicode --> pairs not %r' % hyphenator) else: hyphenator = None uriWasteReduce = style.uriWasteReduce embeddedHyphenation = style.embeddedHyphenation hyphenation2 = embeddedHyphenation>1 spaceShrinkage = style.spaceShrinkage splitLongWords = style.splitLongWords attemptHyphenation = hyphenator or uriWasteReduce or embeddedHyphenation if attemptHyphenation: hymwl = getattr(style,'hyphenationMinWordLength',hyphenationMinWordLength) self._splitLongWordCount = self._hyphenations = 0 #for bullets, work out width and ensure we wrap the right amount onto line one _handleBulletWidth(self.bulletText,style,maxWidths) maxWidth = maxWidths[0] autoLeading = getattr(self,'autoLeading',getattr(style,'autoLeading','')) calcBounds = autoLeading not in ('','off') frags = self.frags nFrags= len(frags) if (nFrags==1 and not (style.endDots or hasattr(frags[0],'cbDefn') or hasattr(frags[0],'backColor') or _processed_frags(frags))): f = frags[0] fontSize = f.fontSize fontName = f.fontName ascent, descent = getAscentDescent(fontName,fontSize) if hasattr(f,'text'): text = strip(f.text) if not text: return f.clone(kind=0, lines=[],ascent=ascent,descent=descent,fontSize=fontSize) else: words = split(text) else: words = f.words[:] for w in words: if strip(w): break else: return f.clone(kind=0, lines=[],ascent=ascent,descent=descent,fontSize=fontSize) spaceWidth = stringWidth(' ', fontName, fontSize, self.encoding) dSpaceShrink = spaceShrinkage*spaceWidth cLine = [] currentWidth = -spaceWidth # hack to get around extra space for word 1 hyw = stringWidth('-', fontName, fontSize, self.encoding) forcedSplit = 0 while words: word = words.pop(0) if not word and isinstance(word,_SplitWord): forcedSplit = 1 elif _shy in word: word = _SHYStr(word) #allow for soft hyphenation #this underscores my feeling that Unicode throughout would be easier! wordWidth = stringWidth(word, fontName, fontSize, self.encoding) newWidth = currentWidth + spaceWidth + wordWidth limWidth = maxWidth + dSpaceShrink*len(cLine) #print(f's: {currentWidth=} spaceShrink={limWidth-maxWidth} {newWidth=} {limWidth=} {newWidth>limWidth} cond={newWidth>limWidth and not (isinstance(word,_SplitWordH) or forcedSplit)} {word=}') if newWidth>limWidth and not (isinstance(word,_SplitWordH) or forcedSplit): if isinstance(word,_SHYStr): hsw = word.__shysplit__( fontName, fontSize, currentWidth + spaceWidth + hyw - 1e-8, limWidth, encoding = self.encoding, ) if hsw: words[0:0] = hsw self._hyphenations += 1 forcedSplit = 1 continue elif len(cLine): nMW = maxWidths[min(maxlineno,lineno)] if hyphenation2 or (word._fsww+hyw+1e-8)<=nMW: hsw = word.__shysplit__( fontName, fontSize, 0 + hyw - 1e-8, nMW, encoding = self.encoding, ) if hsw: words[0:0] = [word] forcedSplit = 1 word = None newWidth = currentWidth elif attemptHyphenation: hyOk = not getattr(f,'nobr',False) hsw = _hyphenateWord(hyphenator if hyOk else None, fontName, fontSize, word, wordWidth, newWidth, limWidth, uriWasteReduce if hyOk else False, embeddedHyphenation and hyOk, hymwl) if hsw: words[0:0] = hsw self._hyphenations += 1 forcedSplit = 1 continue elif hyphenation2 and len(cLine): hsw = _hyphenateWord(hyphenator if hyOk else None, fontName, fontSize, word, wordWidth, wordWidth, maxWidth, uriWasteReduce if hyOk else False, embeddedHyphenation and hyOk, hymwl) if hsw: words[0:0] = [word] forcedSplit = 1 newWidth = currentWidth word = None if splitLongWords and not (isinstance(word,_SplitWord) or forcedSplit): nmw = min(lineno,maxlineno) if wordWidth>max(maxWidths[nmw:nmw+1]): #a long word words[0:0] = _splitWord(word,currentWidth+spaceWidth,maxWidths,lineno,fontName,fontSize,self.encoding) self._splitLongWordCount += 1 forcedSplit = 1 continue if newWidth<=limWidth or not len(cLine) or forcedSplit: # fit one more on this line if word: cLine.append(word) #print(f's: |line|={len(cLine)} {newWidth=} spaceShrink={limWidth-maxWidth}') if forcedSplit: forcedSplit = 0 if newWidth > self._width_max: self._width_max = newWidth lines.append((maxWidth - newWidth, cLine)) cLine = [] currentWidth = -spaceWidth lineno += 1 maxWidth = maxWidths[min(maxlineno,lineno)] else: currentWidth = newWidth else: if currentWidth > self._width_max: self._width_max = currentWidth #end of line lines.append((maxWidth - currentWidth, cLine)) cLine = [word] currentWidth = wordWidth lineno += 1 maxWidth = maxWidths[min(maxlineno,lineno)] #deal with any leftovers on the final line if cLine!=[]: if currentWidth>self._width_max: self._width_max = currentWidth lines.append((maxWidth - currentWidth, cLine)) return f.clone(kind=0, lines=lines,ascent=ascent,descent=descent,fontSize=fontSize) elif nFrags<=0: return ParaLines(kind=0, fontSize=style.fontSize, fontName=style.fontName, textColor=style.textColor, ascent=style.fontSize,descent=-0.2*style.fontSize, lines=[]) else: njlbv = not style.justifyBreaks words = [] FW = [] aFW = FW.append _words = _getFragWords(frags,maxWidth) sFW = 0 while _words: w = _words.pop(0) aFW(w) f = w[-1][0] fontName = f.fontName fontSize = f.fontSize if not words: n = spaceWidth = currentWidth = 0 maxSize = fontSize maxAscent, minDescent = getAscentDescent(fontName,fontSize) wordWidth = w[0] f = w[1][0] if wordWidth>0: newWidth = currentWidth + spaceWidth + wordWidth else: newWidth = currentWidth #test to see if this frag is a line break. If it is we will only act on it #if the current width is non-negative or the previous thing was a deliberate lineBreak lineBreak = f._fkind==_FK_BREAK limWidth = maxWidth if spaceShrinkage: spaceShrink = spaceWidth for wi in words: if wi._fkind==_FK_TEXT: ns = wi.text.count(' ') if ns: spaceShrink += ns*stringWidth(' ',wi.fontName,wi.fontSize) spaceShrink *= spaceShrinkage limWidth += spaceShrink #print(f'c: {currentWidth=} {spaceShrink=} {newWidth=} {limWidth=} {newWidth>(maxWidth+spaceShrink)} cond={not lineBreak and newWidth>limWidth and not isinstance(w,_SplitFragH) and not hasattr(f,"cbDefn")} word={w[1][1]}') if not lineBreak and newWidth>limWidth and not isinstance(w,_SplitFragH) and not hasattr(f,'cbDefn'): if isinstance(w,_SHYWord): hsw = w.shyphenate(newWidth, limWidth) if hsw: _words[0:0] = hsw _words.insert(1,_InjectedFrag([0,(f.clone(_fkind=_FK_BREAK,text=''),'')])) FW.pop(-1) #remove this as we are doing this one again self._hyphenations += 1 continue elif len(FW)>1: #only if we are not the first word on the line nMW = maxWidths[min(maxlineno,lineno)] #next maxWidth or current one if hyphenation2 or w._fsww+1e-8<=nMW: hsw = w.shyphenate(wordWidth, nMW) if hsw: _words[0:0] = [_InjectedFrag([0,(f.clone(_fkind=_FK_BREAK,text=''),'')]),w] FW.pop(-1) #remove this as we are doing this one again continue #else: try to split an overlong word elif attemptHyphenation: hyOk = not getattr(f,'nobr',False) hsw = _hyphenateFragWord(hyphenator if hyOk else None, w,newWidth,limWidth, uriWasteReduce if hyOk else False, embeddedHyphenation and hyOk, hymwl) if hsw: _words[0:0] = hsw _words.insert(1,_InjectedFrag([0,(f.clone(_fkind=_FK_BREAK,text=''),'')])) FW.pop(-1) #remove this as we are doing this one again self._hyphenations += 1 continue elif hyphenation2 and len(FW)>1: hsw = _hyphenateFragWord(hyphenator if hyOk else None, w,wordWidth,maxWidth, uriWasteReduce if hyOk else False, embeddedHyphenation and hyOk, hymwl) if hsw: _words[0:0] = [_InjectedFrag([0,(f.clone(_fkind=_FK_BREAK,text=''),'')]),w] FW.pop(-1) #remove this as we are doing this one again continue #else: try to split an overlong word if splitLongWords and not isinstance(w,_SplitFrag): nmw = min(lineno,maxlineno) if wordWidth>max(maxWidths[nmw:nmw+1]): #a long word _words[0:0] = _splitFragWord(w,maxWidth-spaceWidth-currentWidth,maxWidths,lineno) _words.insert(1,_InjectedFrag([0,(f.clone(_fkind=_FK_BREAK,text=''),'')])) FW.pop(-1) #remove this as we are doing this one again self._splitLongWordCount += 1 continue endLine = (newWidth>limWidth and n>0) or lineBreak if not endLine: #print(f'c: |line|={len(words)} {newWidth=} spaceShrink={limWidth-maxWidth}') if lineBreak: continue #throw it away nText = w[1][1] if nText: n += 1 fontSize = f.fontSize if calcBounds: if f._fkind==_FK_IMG: descent,ascent = imgVRange(imgNormV(f.cbDefn.height,fontSize),f.cbDefn.valign,fontSize) else: ascent, descent = getAscentDescent(f.fontName,fontSize) else: ascent, descent = getAscentDescent(f.fontName,fontSize) maxSize = max(maxSize,fontSize) maxAscent = max(maxAscent,ascent) minDescent = min(minDescent,descent) if not words: g = f.clone() words = [g] g.text = nText elif not sameFrag(g,f): if spaceWidth: i = len(words)-1 while i>=0: wi = words[i] i -= 1 if wi._fkind==_FK_TEXT: if not wi.text.endswith(' '): wi.text += ' ' break g = f.clone() words.append(g) g.text = nText elif spaceWidth: if not g.text.endswith(' '): g.text += ' ' + nText else: g.text += nText else: g.text += nText spaceWidth = stringWidth(' ',fontName,fontSize) if isinstance(w,_HSFrag) else 0 #of the space following this word ni = 0 for i in w[2:]: g = i[0].clone() g.text=i[1] if g.text: ni = 1 words.append(g) fontSize = g.fontSize if calcBounds: if g._fkind==_FK_IMG: descent,ascent = imgVRange(imgNormV(g.cbDefn.height,fontSize),g.cbDefn.valign,fontSize) else: ascent, descent = getAscentDescent(g.fontName,fontSize) else: ascent, descent = getAscentDescent(g.fontName,fontSize) maxSize = max(maxSize,fontSize) maxAscent = max(maxAscent,ascent) minDescent = min(minDescent,descent) if not nText and ni: #one bit at least of the word was real n+=1 #print(f'{n=} words={[_.text for _ in words]!r}') currentWidth = newWidth else: #either it won't fit, or it's a lineBreak tag if lineBreak: g = f.clone() #del g.lineBreak words.append(g) llb = njlbv and not isinstance(w,_InjectedFrag) else: llb = False if currentWidth>self._width_max: self._width_max = currentWidth #end of line lines.append(FragLine(extraSpace=maxWidth-currentWidth, wordCount=n, lineBreak=llb, words=words, fontSize=maxSize, ascent=maxAscent, descent=minDescent, maxWidth=maxWidth, sFW=sFW)) sFW = len(FW)-1 #start new line lineno += 1 maxWidth = maxWidths[min(maxlineno,lineno)] if lineBreak: words = [] continue spaceWidth = stringWidth(' ',fontName,fontSize) if isinstance(w,_HSFrag) else 0 #of the space following this word dSpaceShrink = spaceWidth*spaceShrinkage currentWidth = wordWidth n = 1 g = f.clone() maxSize = g.fontSize if calcBounds: if g._fkind==_FK_IMG: descent,ascent = imgVRange(imgNormV(g.cbDefn.height,fontSize),g.cbDefn.valign,fontSize) else: maxAscent, minDescent = getAscentDescent(g.fontName,maxSize) else: maxAscent, minDescent = getAscentDescent(g.fontName,maxSize) words = [g] g.text = w[1][1] for i in w[2:]: g = i[0].clone() g.text=i[1] words.append(g) fontSize = g.fontSize if calcBounds: if g._fkind==_FK_IMG: descent,ascent = imgVRange(imgNormV(g.cbDefn.height,fontSize),g.cbDefn.valign,fontSize) else: ascent, descent = getAscentDescent(g.fontName,fontSize) else: ascent, descent = getAscentDescent(g.fontName,fontSize) maxSize = max(maxSize,fontSize) maxAscent = max(maxAscent,ascent) minDescent = min(minDescent,descent) #deal with any leftovers on the final line if words: if currentWidth>self._width_max: self._width_max = currentWidth lines.append(ParaLines(extraSpace=(maxWidth - currentWidth),wordCount=n,lineBreak=False, words=words, fontSize=maxSize,ascent=maxAscent,descent=minDescent,maxWidth=maxWidth,sFW=sFW)) self.frags = FW return ParaLines(kind=1, lines=lines) def breakLinesCJK(self, maxWidths): """Initially, the dumbest possible wrapping algorithm. Cannot handle font variations.""" if not isinstance(maxWidths,(list,tuple)): maxWidths = [maxWidths] style = self.style self.height = 0 #for bullets, work out width and ensure we wrap the right amount onto line one _handleBulletWidth(self.bulletText, style, maxWidths) frags = self.frags nFrags = len(frags) if nFrags==1 and not hasattr(frags[0],'cbDefn') and not style.endDots: f = frags[0] if hasattr(self,'blPara') and getattr(self,'_splitpara',0): return f.clone(kind=0, lines=self.blPara.lines) #single frag case lines = [] lineno = 0 if hasattr(f,'text'): text = f.text else: text = ''.join(getattr(f,'words',[])) lines = wordSplit(text, maxWidths, f.fontName, f.fontSize) #the paragraph drawing routine assumes multiple frags per line, so we need an #extra list like this # [space, [text]] # wrappedLines = [(sp, [line]) for (sp, line) in lines] return f.clone(kind=0, lines=wrappedLines, ascent=f.fontSize, descent=-0.2*f.fontSize) elif nFrags<=0: return ParaLines(kind=0, fontSize=style.fontSize, fontName=style.fontName, textColor=style.textColor, lines=[],ascent=style.fontSize,descent=-0.2*style.fontSize) #general case nFrags>1 or special if hasattr(self,'blPara') and getattr(self,'_splitpara',0): return self.blPara autoLeading = getattr(self,'autoLeading',getattr(style,'autoLeading','')) calcBounds = autoLeading not in ('','off') return cjkFragSplit(frags, maxWidths, calcBounds) def beginText(self, x, y): return self.canv.beginText(x, y) def drawPara(self,debug=0): """Draws a paragraph according to the given style. Returns the final y position at the bottom. Not safe for paragraphs without spaces e.g. Japanese; wrapping algorithm will go infinite.""" #stash the key facts locally for speed canvas = self.canv style = self.style blPara = self.blPara lines = blPara.lines leading = style.leading autoLeading = getattr(self,'autoLeading',getattr(style,'autoLeading','')) #work out the origin for line 1 leftIndent = style.leftIndent cur_x = leftIndent if debug: bw = 0.5 bc = Color(1,1,0) bg = Color(0.9,0.9,0.9) else: bw = getattr(style,'borderWidth',None) bc = getattr(style,'borderColor',None) bg = style.backColor #if has a background or border, draw it if bg or (bc and bw): canvas.saveState() op = canvas.rect kwds = dict(fill=0,stroke=0) if bc and bw: canvas.setStrokeColor(bc) canvas.setLineWidth(bw) kwds['stroke'] = 1 br = getattr(style,'borderRadius',0) if br and not debug: op = canvas.roundRect kwds['radius'] = br if bg: canvas.setFillColor(bg) kwds['fill'] = 1 bp = getattr(style,'borderPadding',0) tbp, rbp, bbp, lbp = normalizeTRBL(bp) op(leftIndent - lbp, -bbp, self.width - (leftIndent+style.rightIndent) + lbp+rbp, self.height + tbp+bbp, **kwds) canvas.restoreState() nLines = len(lines) bulletText = self.bulletText if nLines > 0: _offsets = getattr(self,'_offsets',[0]) _offsets += (nLines-len(_offsets))*[_offsets[-1]] canvas.saveState() #canvas.addLiteral('%% %s.drawPara' % _className(self)) alignment = style.alignment offset = style.firstLineIndent+_offsets[0] lim = nLines-1 noJustifyLast = not getattr(self,'_JustifyLast',False) jllwc = style.justifyLastLine isRTL = style.wordWrap=='RTL' bRTL = isRTL and self._wrapWidths or False if blPara.kind==0: if alignment == TA_LEFT: dpl = _leftDrawParaLine elif alignment == TA_CENTER: dpl = _centerDrawParaLine elif alignment == TA_RIGHT: dpl = _rightDrawParaLine elif alignment == TA_JUSTIFY: dpl = _justifyDrawParaLineRTL if isRTL else _justifyDrawParaLine f = blPara if paraFontSizeHeightOffset: cur_y = self.height - f.fontSize else: cur_y = self.height - getattr(f,'ascent',f.fontSize) if bulletText: offset = _drawBullet(canvas,offset,cur_y,bulletText,style,rtl=bRTL) #set up the font etc. canvas.setFillColor(f.textColor) tx = self.beginText(cur_x, cur_y) tx.preformatted = 'preformatted' in self.__class__.__name__.lower() if autoLeading=='max': leading = max(leading,blPara.ascent-blPara.descent) elif autoLeading=='min': leading = blPara.ascent-blPara.descent # set the paragraph direction tx.direction = self.style.wordWrap #now the font for the rest of the paragraph tx.setFont(f.fontName, f.fontSize, leading) ws = lines[0][0] words = lines[0][1] lastLine = noJustifyLast and nLines==1 if lastLine and jllwc and len(words)>jllwc: lastLine=False t_off = dpl( tx, offset, ws, words, lastLine) if f.us_lines or f.link:# or style.endDots: tx._do_line = MethodType(_do_line,tx) tx.xs = xs = tx.XtraState = ABag() _setTXLineProps(tx, canvas, style) xs.cur_y = cur_y xs.f = f xs.style = style xs.lines = lines xs.link=f.link xs.textColor = f.textColor xs.backColors = [] dx = t_off+leftIndent if alignment!=TA_JUSTIFY or lastLine: ws = 0 if f.us_lines: _do_under_line(0, dx, ws, tx, f.us_lines) if f.link: _do_link_line(0, dx, ws, tx) #if lastLine and style.endDots and dpl!=_rightDrawParaLine: _do_dots(0, dx, ws, xs, tx, dpl) #now the middle of the paragraph, aligned with the left margin which is our origin. for i in range(1, nLines): ws = lines[i][0] words = lines[i][1] lastLine = noJustifyLast and i==lim if lastLine and jllwc and len(words)>jllwc: lastLine=False t_off = dpl( tx, _offsets[i], ws, words, lastLine) dx = t_off+leftIndent if alignment!=TA_JUSTIFY or lastLine: ws = 0 if f.us_lines: _do_under_line(i, t_off, ws, tx, f.us_lines) if f.link: _do_link_line(i, dx, ws, tx) #if lastLine and style.endDots and dpl!=_rightDrawParaLine: _do_dots(i, dx, ws, xs, tx, dpl) else: for i in range(1, nLines): words = lines[i][1] lastLine = noJustifyLast and i==lim if lastLine and jllwc and len(words)>jllwc: lastLine=False dpl( tx, _offsets[i], lines[i][0], words, lastLine) else: if isRTL: for line in lines: line.words = line.words[::-1] f = lines[0] if paraFontSizeHeightOffset: cur_y = self.height - f.fontSize else: cur_y = self.height - getattr(f,'ascent',f.fontSize) # default? dpl = _leftDrawParaLineX if bulletText: oo = offset offset = _drawBullet(canvas,offset,cur_y,bulletText,style, rtl=bRTL) if alignment == TA_LEFT: dpl = _leftDrawParaLineX elif alignment == TA_CENTER: dpl = _centerDrawParaLineX elif alignment == TA_RIGHT: dpl = _rightDrawParaLineX elif alignment == TA_JUSTIFY: dpl = _justifyDrawParaLineXRTL if isRTL else _justifyDrawParaLineX else: raise ValueError("bad align %s" % repr(alignment)) #set up the font etc. tx = self.beginText(cur_x, cur_y) tx.preformatted = 'preformatted' in self.__class__.__name__.lower() _setTXLineProps(tx, canvas, style) tx._do_line = MethodType(_do_line,tx) # set the paragraph direction tx.direction = self.style.wordWrap xs = tx.XtraState=ABag() xs.textColor=None xs.backColor=None xs.rise=0 xs.backColors=[] xs.us_lines = {} xs.links = {} xs.link={} xs.leading = style.leading xs.leftIndent = leftIndent tx._leading = None tx._olb = None xs.cur_y = cur_y xs.f = f xs.style = style xs.autoLeading = autoLeading xs.paraWidth = self.width tx._fontname,tx._fontsize = None, None line = lines[0] lastLine = noJustifyLast and nLines==1 if lastLine and jllwc and line.wordCount>jllwc: lastLine=False dpl( tx, offset, line, lastLine) _do_post_text(tx) #now the middle of the paragraph, aligned with the left margin which is our origin. for i in range(1, nLines): line = lines[i] lastLine = noJustifyLast and i==lim if lastLine and jllwc and line.wordCount>jllwc: lastLine=False dpl( tx, _offsets[i], line, lastLine) _do_post_text(tx) canvas.drawText(tx) canvas.restoreState() def getPlainText(self,identify=None): """Convenience function for templates which want access to the raw text, without XML tags. """ frags = getattr(self,'frags',None) if frags: plains = [] plains_append = plains.append if _processed_frags(frags): for word in frags: for style,text in word[1:]: plains_append(text) if isinstance(word,_HSFrag): plains_append(' ') else: for frag in frags: if hasattr(frag, 'text'): plains_append(frag.text) return ''.join(plains) elif identify: text = getattr(self,'text',None) if text is None: text = repr(self) return text else: return '' def getActualLineWidths0(self): """Convenience function; tells you how wide each line actually is. For justified styles, this will be the same as the wrap width; for others it might be useful for seeing if paragraphs will fit in spaces.""" assert hasattr(self, 'width'), "Cannot call this method before wrap()" if self.blPara.kind: func = lambda frag, w=self.width: w - frag.extraSpace else: func = lambda frag, w=self.width: w - frag[0] return list(map(func,self.blPara.lines)) @staticmethod def dumpFrags(frags,indent=4,full=False): R = ['['] aR = R.append for i,f in enumerate(frags): if full: aR(' [%r,' % f[0]) for fx in f[1:]: aR(' (%s,)' % repr(fx[0])) aR(' %r),' % fx[1]) aR(' ], #%d %s' % (i,f.__class__.__name__)) aR(' ]') else: aR('[%r, %s], #%d %s' % (f[0],', '.join(('(%s,%r)' % (fx[0].__class__.__name__,fx[1]) for fx in f[1:])),i,f.__class__.__name__)) i = indent*' ' return i + ('\n'+i).join(R) if __name__=='__main__': #NORUNTESTS def dumpParagraphLines(P): print('dumpParagraphLines(<Paragraph @ %d>)' % id(P)) lines = P.blPara.lines outw = sys.stdout.write for l,line in enumerate(lines): line = lines[l] if hasattr(line,'words'): words = line.words else: words = line[1] nwords = len(words) outw('line%d: %d(%s)\n ' % (l,nwords,str(getattr(line,'wordCount','Unknown')))) for w in range(nwords): outw(" %d:'%s'"%(w,getattr(words[w],'text',words[w]))) print() def fragDump(w): R= ["'%s'" % w[1]] for a in ('fontName', 'fontSize', 'textColor', 'rise', 'underline', 'strike', 'link', 'cbDefn','lineBreak'): if hasattr(w[0],a): R.append('%s=%r' % (a,getattr(w[0],a))) return ', '.join(R) def dumpParagraphFrags(P): print('dumpParagraphFrags(<Paragraph @ %d>) minWidth() = %.2f' % (id(P), P.minWidth())) frags = P.frags n =len(frags) for l in range(n): print("frag%d: '%s' %s" % (l, frags[l].text,' '.join(['%s=%s' % (k,getattr(frags[l],k)) for k in frags[l].__dict__ if k!=text]))) outw = sys.stdout.write l = 0 cum = 0 for W in _getFragWords(frags,360): cum += W[0] outw("fragword%d: cum=%3d size=%d" % (l, cum, W[0])) for w in W[1:]: outw(' (%s)' % fragDump(w)) print() l += 1 def dumpProcessedFrags(P,label='processed_frags'): if isinstance(P2.frags[0],list): _F = {} _S = [].append def _showWord(w): t = [].append for _ in w[1:]: fid = id(_[0]) if fid not in _F: _F[fid] = (len(_F),_[0]) t('(__frag_%s__, %r)' % (_F[fid][0],_[1])) return '\x20\x20%s([%s, %s]),' % (w.__class__.__name__, w[0], ', '.join(t.__self__)) for _ in P2.frags: _S(_showWord(_)) print('from reportlab.platypus.paragraph import _HSFrag, _SplitFragHS, _SplitFragHY, _SplitFrag, _getFragWords\nfrom reportlab.platypus.paraparser import ParaFrag\nfrom reportlab.lib.colors import Color') print('\n'.join(('__frag_%s__ = %r' % _ for _ in sorted(_F.values())))) print('%s=[\n%s\x20\x20]' % (processed_frags,'\n'.join(_S.__self__))) print('print(_getFragWords(processed_frags))') from reportlab.lib.styles import getSampleStyleSheet, ParagraphStyle from reportlab.lib.units import cm import sys TESTS = sys.argv[1:] if TESTS==[]: TESTS=['4'] def flagged(i,TESTS=TESTS): return 'all' in TESTS or '*' in TESTS or str(i) in TESTS styleSheet = getSampleStyleSheet() B = styleSheet['BodyText'] style = ParagraphStyle("discussiontext", parent=B) style.fontName= 'Helvetica' if flagged(1): text='''The <font name=courier color=green>CMYK</font> or subtractive method follows the way a printer mixes three pigments (cyan, magenta, and yellow) to form colors. Because mixing chemicals is more difficult than combining light there is a fourth parameter for darkness. For example a chemical combination of the <font name=courier color=green>CMY</font> pigments generally never makes a perfect black -- instead producing a muddy color -- so, to get black printers don't use the <font name=courier color=green>CMY</font> pigments but use a direct black ink. Because <font name=courier color=green>CMYK</font> maps more directly to the way printer hardware works it may be the case that &| & | colors specified in <font name=courier color=green>CMYK</font> will provide better fidelity and better control when printed. ''' P=Paragraph(text,style) dumpParagraphFrags(P) aW, aH = 456.0, 42.8 w,h = P.wrap(aW, aH) dumpParagraphLines(P) S = P.split(aW,aH) for s in S: s.wrap(aW,aH) dumpParagraphLines(s) aH = 500 if flagged(2): P=Paragraph("""Price<super><font color="red">*</font></super>""", styleSheet['Normal']) dumpParagraphFrags(P) w,h = P.wrap(24, 200) dumpParagraphLines(P) if flagged(3): text = """Dieses Kapitel bietet eine schnelle <b><font color=red>Programme :: starten</font></b> <onDraw name=myIndex label="Programme :: starten"> <b><font color=red>Eingabeaufforderung :: (>>>)</font></b> <onDraw name=myIndex label="Eingabeaufforderung :: (>>>)"> <b><font color=red>>>> (Eingabeaufforderung)</font></b> <onDraw name=myIndex label=">>> (Eingabeaufforderung)"> Einführung in Python <b><font color=red>Python :: Einführung</font></b> <onDraw name=myIndex label="Python :: Einführung">. Das Ziel ist, die grundlegenden Eigenschaften von Python darzustellen, ohne sich zu sehr in speziellen Regeln oder Details zu verstricken. Dazu behandelt dieses Kapitel kurz die wesentlichen Konzepte wie Variablen, Ausdrücke, Kontrollfluss, Funktionen sowie Ein- und Ausgabe. Es erhebt nicht den Anspruch, umfassend zu sein.""" P=Paragraph(text, styleSheet['Code']) dumpParagraphFrags(P) w,h = P.wrap(6*72, 9.7*72) dumpParagraphLines(P) if flagged(4): text='''Die eingebaute Funktion <font name=Courier>range(i, j [, stride])</font><onDraw name=myIndex label="eingebaute Funktionen::range()"><onDraw name=myIndex label="range() (Funktion)"><onDraw name=myIndex label="Funktionen::range()"> erzeugt eine Liste von Ganzzahlen und füllt sie mit Werten <font name=Courier>k</font>, für die gilt: <font name=Courier>i <= k < j</font>. Man kann auch eine optionale Schrittweite angeben. Die eingebaute Funktion <font name=Courier>range()</font><onDraw name=myIndex label="eingebaute Funktionen::range()"><onDraw name=myIndex label="range() (Funktion)"><onDraw name=myIndex label="Funktionen::range()"> erfüllt einen ähnlichen Zweck, gibt aber eine unveränderliche Sequenz vom Typ <font name=Courier>RangeType</font><onDraw name=myIndex label="RangeType"> zurück. Anstatt alle Werte in der Liste abzuspeichern, berechnet diese Liste ihre Werte, wann immer sie angefordert werden. Das ist sehr viel speicherschonender, wenn mit sehr langen Listen von Ganzzahlen gearbeitet wird. <font name=Courier>RangeType</font> kennt eine einzige Methode, <font name=Courier>s.tolist()</font><onDraw name=myIndex label="RangeType::tolist() (Methode)"><onDraw name=myIndex label="s.tolist() (Methode)"><onDraw name=myIndex label="Methoden::s.tolist()">, die seine Werte in eine Liste umwandelt.''' aW = 420 aH = 64.4 P=Paragraph(text, B) dumpParagraphFrags(P) w,h = P.wrap(aW,aH) print('After initial wrap',w,h) dumpParagraphLines(P) S = P.split(aW,aH) dumpParagraphFrags(S[0]) w0,h0 = S[0].wrap(aW,aH) print('After split wrap',w0,h0) dumpParagraphLines(S[0]) if flagged(5): text = '<para> %s <![CDATA[</font></b>& %s < >]]></para>' % (chr(163),chr(163)) P=Paragraph(text, styleSheet['Code']) dumpParagraphFrags(P) w,h = P.wrap(6*72, 9.7*72) dumpParagraphLines(P) if flagged(6): for text in ['''Here comes <FONT FACE="Helvetica" SIZE="14pt">Helvetica 14</FONT> with <STRONG>strong</STRONG> <EM>emphasis</EM>.''', '''Here comes <font face="Helvetica" size="14pt">Helvetica 14</font> with <Strong>strong</Strong> <em>emphasis</em>.''', '''Here comes <font face="Courier" size="3cm">Courier 3cm</font> and normal again.''', ]: P=Paragraph(text, styleSheet['Normal'], caseSensitive=0) dumpParagraphFrags(P) w,h = P.wrap(6*72, 9.7*72) dumpParagraphLines(P) if flagged(7): text = """<para align="CENTER" fontSize="24" leading="30"><b>Generated by:</b>Dilbert</para>""" P=Paragraph(text, styleSheet['Code']) dumpParagraphFrags(P) w,h = P.wrap(6*72, 9.7*72) dumpParagraphLines(P) if flagged(8): text ="""- bullet 0<br/>- bullet 1<br/>- bullet 2<br/>- bullet 3<br/>- bullet 4<br/>- bullet 5""" P=Paragraph(text, styleSheet['Normal']) dumpParagraphFrags(P) w,h = P.wrap(6*72, 9.7*72) dumpParagraphLines(P) S = P.split(6*72,h/2.0) print(len(S)) dumpParagraphFrags(S[0]) dumpParagraphLines(S[0]) S[1].wrap(6*72, 9.7*72) dumpParagraphFrags(S[1]) dumpParagraphLines(S[1]) if flagged(9): text="""Furthermore, the fundamental error of regarding <img src="../docs/images/testimg.gif" width="3" height="7"/> functional notions as categorial delimits a general convention regarding the forms of the<br/> grammar. I suggested that these results would follow from the assumption that""" P=Paragraph(text,ParagraphStyle('aaa',parent=styleSheet['Normal'],align=TA_JUSTIFY)) dumpParagraphFrags(P) w,h = P.wrap(6*cm-12, 9.7*72) dumpParagraphLines(P) if flagged(10): text="""a b c\xc2\xa0d e f""" P=Paragraph(text,ParagraphStyle('aaa',parent=styleSheet['Normal'],align=TA_JUSTIFY)) dumpParagraphFrags(P) w,h = P.wrap(6*cm-12, 9.7*72) dumpParagraphLines(P) if flagged(11): text="""This page tests out a number of attributes of the <b>paraStyle</b><onDraw name="_indexAdd" label="paraStyle"/> tag. This paragraph is in a style we have called "style1". It should be a normal <onDraw name="_indexAdd" label="normal"/> paragraph, set in Courier 12 pt. It should be a normal<onDraw name="_indexAdd" label="normal"/> paragraph, set in Courier (not bold). It should be a normal<onDraw name="_indexAdd" label="normal"/> paragraph, set in Courier 12 pt.""" P=Paragraph(text,style=ParagraphStyle('style1',fontName="Courier",fontSize=10)) dumpParagraphFrags(P) w,h = P.wrap(6.27*72-12,10000) dumpParagraphLines(P)