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#this is the interface module that imports all from the C extension _rl_accel _c_funcs = {} _py_funcs = {} ### NOTE! FP_STR SHOULD PROBABLY ALWAYS DO A PYTHON STR() CONVERSION ON ARGS ### IN CASE THEY ARE "LAZY OBJECTS". ACCELLERATOR DOESN'T DO THIS (YET) __all__ = list(filter(None,''' fp_str unicode2T1 instanceStringWidthT1 instanceStringWidthTTF asciiBase85Encode asciiBase85Decode escapePDF sameFrag calcChecksum add32 hex32 '''.split())) import reportlab testing = getattr(reportlab,'_rl_testing',False) del reportlab for fn in __all__: D={} try: exec('from reportlab.lib._rl_accel import %s as f' % fn,D) _c_funcs[fn] = D['f'] if testing: _py_funcs[fn] = None except ImportError: _py_funcs[fn] = None del D if _py_funcs: from reportlab.lib.utils import isBytes, isUnicode, isSeq, isPy3, rawBytes, asNative, asUnicode, asBytes from math import log from struct import unpack if 'fp_str' in _py_funcs: _log_10 = lambda x,log=log,_log_e_10=log(10.0): log(x)/_log_e_10 _fp_fmts = "%.0f", "%.1f", "%.2f", "%.3f", "%.4f", "%.5f", "%.6f" def fp_str(*a): '''convert separate arguments (or single sequence arg) into space separated numeric strings''' if len(a)==1 and isSeq(a[0]): a = a[0] s = [] A = s.append for i in a: sa =abs(i) if sa<=1e-7: A('0') else: l = sa<=1 and 6 or min(max(0,(6-int(_log_10(sa)))),6) n = _fp_fmts[l]%i if l: j = len(n) while j: j -= 1 if n[j]!='0': if n[j]!='.': j += 1 break n = n[:j] A((n[0]!='0' or len(n)==1) and n or n[1:]) return ' '.join(s) #hack test for comma users if ',' in fp_str(0.25): _FP_STR = _fp_str def _fp_str(*a): return _FP_STR(*a).replace(',','.') _py_funcs['fp_str'] = fp_str if 'unicode2T1' in _py_funcs: def unicode2T1(utext,fonts): '''return a list of (font,string) pairs representing the unicode text''' R = [] font, fonts = fonts[0], fonts[1:] enc = font.encName if 'UCS-2' in enc: enc = 'UTF16' while utext: try: if isUnicode(utext): s = utext.encode(enc) else: s = utext R.append((font,s)) break except UnicodeEncodeError as e: i0, il = e.args[2:4] if i0: R.append((font,utext[:i0].encode(enc))) if fonts: R.extend(unicode2T1(utext[i0:il],fonts)) else: R.append((font._notdefFont,font._notdefChar*(il-i0))) utext = utext[il:] return R _py_funcs['unicode2T1'] = unicode2T1 if 'instanceStringWidthT1' in _py_funcs: if isPy3: def instanceStringWidthT1(self, text, size, encoding='utf8'): """This is the "purist" approach to width""" if not isUnicode(text): text = text.decode(encoding) return sum([sum(map(f.widths.__getitem__,t)) for f, t in unicode2T1(text,[self]+self.substitutionFonts)])*0.001*size else: def instanceStringWidthT1(self, text, size, encoding='utf8'): """This is the "purist" approach to width""" if not isUnicode(text): text = text.decode(encoding) return sum([sum(map(f.widths.__getitem__,list(map(ord,t)))) for f, t in unicode2T1(text,[self]+self.substitutionFonts)])*0.001*size _py_funcs['instanceStringWidthT1'] = instanceStringWidthT1 if 'instanceStringWidthTTF' in _py_funcs: def instanceStringWidthTTF(self, text, size, encoding='utf-8'): "Calculate text width" if not isUnicode(text): text = text.decode(encoding or 'utf-8') g = self.face.charWidths.get dw = self.face.defaultWidth return 0.001*size*sum([g(ord(u),dw) for u in text]) _py_funcs['instanceStringWidthTTF'] = instanceStringWidthTTF if 'hex32' in _py_funcs: def hex32(i): return '0X%8.8X' % (int(i)&0xFFFFFFFF) _py_funcs['hex32'] = hex32 if 'add32' in _py_funcs: def add32(x, y): "Calculate (x + y) modulo 2**32" return (x+y) & 0xFFFFFFFF _py_funcs['add32'] = add32 if 'calcChecksum' in _py_funcs: def calcChecksum(data): """Calculates TTF-style checksums""" data = rawBytes(data) if len(data)&3: data = data + (4-(len(data)&3))*b"\0" return sum(unpack(">%dl" % (len(data)>>2), data)) & 0xFFFFFFFF _py_funcs['calcChecksum'] = calcChecksum if 'escapePDF' in _py_funcs: _ESCAPEDICT={} for c in range(256): if c<32 or c>=127: _ESCAPEDICT[c]= '\\%03o' % c elif c in (ord('\\'),ord('('),ord(')')): _ESCAPEDICT[c] = '\\'+chr(c) else: _ESCAPEDICT[c] = chr(c) del c #Michael Hudson donated this def escapePDF(s): r = [] for c in s: if not type(c) is int: c = ord(c) r.append(_ESCAPEDICT[c]) return ''.join(r) _py_funcs['escapePDF'] = escapePDF if 'asciiBase85Encode' in _py_funcs: def asciiBase85Encode(input): """Encodes input using ASCII-Base85 coding. This is a compact encoding used for binary data within a PDF file. Four bytes of binary data become five bytes of ASCII. This is the default method used for encoding images.""" doOrd = not isPy3 or isUnicode(input) # special rules apply if not a multiple of four bytes. whole_word_count, remainder_size = divmod(len(input), 4) cut = 4 * whole_word_count body, lastbit = input[0:cut], input[cut:] out = [].append for i in range(whole_word_count): offset = i*4 b1 = body[offset] b2 = body[offset+1] b3 = body[offset+2] b4 = body[offset+3] if doOrd: b1 = ord(b1) b2 = ord(b2) b3 = ord(b3) b4 = ord(b4) if b1<128: num = (((((b1<<8)|b2)<<8)|b3)<<8)|b4 else: num = 16777216 * b1 + 65536 * b2 + 256 * b3 + b4 if num == 0: #special case out('z') else: #solve for five base-85 numbers temp, c5 = divmod(num, 85) temp, c4 = divmod(temp, 85) temp, c3 = divmod(temp, 85) c1, c2 = divmod(temp, 85) assert ((85**4) * c1) + ((85**3) * c2) + ((85**2) * c3) + (85*c4) + c5 == num, 'dodgy code!' out(chr(c1+33)) out(chr(c2+33)) out(chr(c3+33)) out(chr(c4+33)) out(chr(c5+33)) # now we do the final bit at the end. I repeated this separately as # the loop above is the time-critical part of a script, whereas this # happens only once at the end. #encode however many bytes we have as usual if remainder_size > 0: lastbit += (4-len(lastbit))*('\0' if doOrd else b'\000') b1 = lastbit[0] b2 = lastbit[1] b3 = lastbit[2] b4 = lastbit[3] if doOrd: b1 = ord(b1) b2 = ord(b2) b3 = ord(b3) b4 = ord(b4) num = 16777216 * b1 + 65536 * b2 + 256 * b3 + b4 #solve for c1..c5 temp, c5 = divmod(num, 85) temp, c4 = divmod(temp, 85) temp, c3 = divmod(temp, 85) c1, c2 = divmod(temp, 85) #print 'encoding: %d %d %d %d -> %d -> %d %d %d %d %d' % ( # b1,b2,b3,b4,num,c1,c2,c3,c4,c5) lastword = chr(c1+33) + chr(c2+33) + chr(c3+33) + chr(c4+33) + chr(c5+33) #write out most of the bytes. out(lastword[0:remainder_size + 1]) #terminator code for ascii 85 out('~>') return ''.join(out.__self__) _py_funcs['asciiBase85Encode'] = asciiBase85Encode if 'asciiBase85Decode' in _py_funcs: def asciiBase85Decode(input): """Decodes input using ASCII-Base85 coding. This is not normally used - Acrobat Reader decodes for you - but a round trip is essential for testing.""" #strip all whitespace stripped = ''.join(asNative(input).split()) #check end assert stripped[-2:] == '~>', 'Invalid terminator for Ascii Base 85 Stream' stripped = stripped[:-2] #chop off terminator #may have 'z' in it which complicates matters - expand them stripped = stripped.replace('z','!!!!!') # special rules apply if not a multiple of five bytes. whole_word_count, remainder_size = divmod(len(stripped), 5) #print '%d words, %d leftover' % (whole_word_count, remainder_size) #assert remainder_size != 1, 'invalid Ascii 85 stream!' cut = 5 * whole_word_count body, lastbit = stripped[0:cut], stripped[cut:] out = [].append for i in range(whole_word_count): offset = i*5 c1 = ord(body[offset]) - 33 c2 = ord(body[offset+1]) - 33 c3 = ord(body[offset+2]) - 33 c4 = ord(body[offset+3]) - 33 c5 = ord(body[offset+4]) - 33 num = ((85**4) * c1) + ((85**3) * c2) + ((85**2) * c3) + (85*c4) + c5 temp, b4 = divmod(num,256) temp, b3 = divmod(temp,256) b1, b2 = divmod(temp, 256) assert num == 16777216 * b1 + 65536 * b2 + 256 * b3 + b4, 'dodgy code!' out(chr(b1)) out(chr(b2)) out(chr(b3)) out(chr(b4)) #decode however many bytes we have as usual if remainder_size > 0: while len(lastbit) < 5: lastbit = lastbit + '!' c1 = ord(lastbit[0]) - 33 c2 = ord(lastbit[1]) - 33 c3 = ord(lastbit[2]) - 33 c4 = ord(lastbit[3]) - 33 c5 = ord(lastbit[4]) - 33 num = (((85*c1+c2)*85+c3)*85+c4)*85 + (c5 +(0,0,0xFFFFFF,0xFFFF,0xFF)[remainder_size]) temp, b4 = divmod(num,256) temp, b3 = divmod(temp,256) b1, b2 = divmod(temp, 256) assert num == 16777216 * b1 + 65536 * b2 + 256 * b3 + b4, 'dodgy code!' #print 'decoding: %d %d %d %d %d -> %d -> %d %d %d %d' % ( # c1,c2,c3,c4,c5,num,b1,b2,b3,b4) #the last character needs 1 adding; the encoding loses #data by rounding the number to x bytes, and when #divided repeatedly we get one less if remainder_size == 2: lastword = chr(b1) elif remainder_size == 3: lastword = chr(b1) + chr(b2) elif remainder_size == 4: lastword = chr(b1) + chr(b2) + chr(b3) else: lastword = '' out(lastword) r = ''.join(out.__self__) return asBytes(r,enc='latin1') _py_funcs['asciiBase85Decode'] = asciiBase85Decode if 'sameFrag' in _py_funcs: def sameFrag(f,g): 'returns 1 if two ParaFrags map out the same' if (hasattr(f,'cbDefn') or hasattr(g,'cbDefn') or hasattr(f,'lineBreak') or hasattr(g,'lineBreak')): return 0 for a in ('fontName', 'fontSize', 'textColor', 'rise', 'us_lines', 'link', "backColor", "nobr"): if getattr(f,a,None)!=getattr(g,a,None): return 0 return 1 _py_funcs['sameFrag'] = sameFrag G=globals() for fn in __all__: f = _c_funcs[fn] if fn in _c_funcs else _py_funcs[fn] if not f: raise RuntimeError('function %s is not properly defined' % fn) G[fn] = f del fn, f, G if __name__=='__main__': import sys, os, subprocess for modname in 'reportlab.lib.rl_accel','reportlab.lib._rl_accel': for cmd in ( #"unicode2T1('abcde fghi . jkl ; mno',fonts)", #"unicode2T1(u'abcde fghi . jkl ; mno',fonts)", "instanceStringWidthT1(font,'abcde fghi . jkl ; mno',10)", "instanceStringWidthT1(font,u'abcde fghi . jkl ; mno',10)", ): print('%s %s' % (modname,cmd)) s=';'.join(( "from reportlab.pdfbase.pdfmetrics import getFont", "from %s import unicode2T1,instanceStringWidthT1" % modname, "fonts=[getFont('Helvetica')]+getFont('Helvetica').substitutionFonts""", "font=fonts[0]", )) subprocess.check_call([sys.executable,'-mtimeit','-s',s,cmd])