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|
"""cffLib: read/write Adobe CFF fonts
OpenType fonts with PostScript outlines contain a completely independent
font file, Adobe's *Compact Font Format*. So dealing with OpenType fonts
requires also dealing with CFF. This module allows you to read and write
fonts written in the CFF format.
In 2016, OpenType 1.8 introduced the `CFF2 <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2>`_
format which, along with other changes, extended the CFF format to deal with
the demands of variable fonts. This module parses both original CFF and CFF2.
"""
from fontTools.misc import sstruct
from fontTools.misc import psCharStrings
from fontTools.misc.arrayTools import unionRect, intRect
from fontTools.misc.textTools import (
bytechr,
byteord,
bytesjoin,
tobytes,
tostr,
safeEval,
)
from fontTools.ttLib import TTFont
from fontTools.ttLib.tables.otBase import OTTableWriter
from fontTools.ttLib.tables.otBase import OTTableReader
from fontTools.ttLib.tables import otTables as ot
from io import BytesIO
import struct
import logging
import re
# mute cffLib debug messages when running ttx in verbose mode
DEBUG = logging.DEBUG - 1
log = logging.getLogger(__name__)
cffHeaderFormat = """
major: B
minor: B
hdrSize: B
"""
maxStackLimit = 513
# maxstack operator has been deprecated. max stack is now always 513.
class StopHintCountEvent(Exception):
pass
class _DesubroutinizingT2Decompiler(psCharStrings.SimpleT2Decompiler):
stop_hintcount_ops = (
"op_hintmask",
"op_cntrmask",
"op_rmoveto",
"op_hmoveto",
"op_vmoveto",
)
def __init__(self, localSubrs, globalSubrs, private=None):
psCharStrings.SimpleT2Decompiler.__init__(
self, localSubrs, globalSubrs, private
)
def execute(self, charString):
self.need_hintcount = True # until proven otherwise
for op_name in self.stop_hintcount_ops:
setattr(self, op_name, self.stop_hint_count)
if hasattr(charString, "_desubroutinized"):
# If a charstring has already been desubroutinized, we will still
# need to execute it if we need to count hints in order to
# compute the byte length for mask arguments, and haven't finished
# counting hints pairs.
if self.need_hintcount and self.callingStack:
try:
psCharStrings.SimpleT2Decompiler.execute(self, charString)
except StopHintCountEvent:
del self.callingStack[-1]
return
charString._patches = []
psCharStrings.SimpleT2Decompiler.execute(self, charString)
desubroutinized = charString.program[:]
for idx, expansion in reversed(charString._patches):
assert idx >= 2
assert desubroutinized[idx - 1] in [
"callsubr",
"callgsubr",
], desubroutinized[idx - 1]
assert type(desubroutinized[idx - 2]) == int
if expansion[-1] == "return":
expansion = expansion[:-1]
desubroutinized[idx - 2 : idx] = expansion
if not self.private.in_cff2:
if "endchar" in desubroutinized:
# Cut off after first endchar
desubroutinized = desubroutinized[
: desubroutinized.index("endchar") + 1
]
else:
if not len(desubroutinized) or desubroutinized[-1] != "return":
desubroutinized.append("return")
charString._desubroutinized = desubroutinized
del charString._patches
def op_callsubr(self, index):
subr = self.localSubrs[self.operandStack[-1] + self.localBias]
psCharStrings.SimpleT2Decompiler.op_callsubr(self, index)
self.processSubr(index, subr)
def op_callgsubr(self, index):
subr = self.globalSubrs[self.operandStack[-1] + self.globalBias]
psCharStrings.SimpleT2Decompiler.op_callgsubr(self, index)
self.processSubr(index, subr)
def stop_hint_count(self, *args):
self.need_hintcount = False
for op_name in self.stop_hintcount_ops:
setattr(self, op_name, None)
cs = self.callingStack[-1]
if hasattr(cs, "_desubroutinized"):
raise StopHintCountEvent()
def op_hintmask(self, index):
psCharStrings.SimpleT2Decompiler.op_hintmask(self, index)
if self.need_hintcount:
self.stop_hint_count()
def processSubr(self, index, subr):
cs = self.callingStack[-1]
if not hasattr(cs, "_desubroutinized"):
cs._patches.append((index, subr._desubroutinized))
class CFFFontSet(object):
"""A CFF font "file" can contain more than one font, although this is
extremely rare (and not allowed within OpenType fonts).
This class is the entry point for parsing a CFF table. To actually
manipulate the data inside the CFF font, you will want to access the
``CFFFontSet``'s :class:`TopDict` object. To do this, a ``CFFFontSet``
object can either be treated as a dictionary (with appropriate
``keys()`` and ``values()`` methods) mapping font names to :class:`TopDict`
objects, or as a list.
.. code:: python
from fontTools import ttLib
tt = ttLib.TTFont("Tests/cffLib/data/LinLibertine_RBI.otf")
tt["CFF "].cff
# <fontTools.cffLib.CFFFontSet object at 0x101e24c90>
tt["CFF "].cff[0] # Here's your actual font data
# <fontTools.cffLib.TopDict object at 0x1020f1fd0>
"""
def decompile(self, file, otFont, isCFF2=None):
"""Parse a binary CFF file into an internal representation. ``file``
should be a file handle object. ``otFont`` is the top-level
:py:class:`fontTools.ttLib.ttFont.TTFont` object containing this CFF file.
If ``isCFF2`` is passed and set to ``True`` or ``False``, then the
library makes an assertion that the CFF header is of the appropriate
version.
"""
self.otFont = otFont
sstruct.unpack(cffHeaderFormat, file.read(3), self)
if isCFF2 is not None:
# called from ttLib: assert 'major' as read from file matches the
# expected version
expected_major = 2 if isCFF2 else 1
if self.major != expected_major:
raise ValueError(
"Invalid CFF 'major' version: expected %d, found %d"
% (expected_major, self.major)
)
else:
# use 'major' version from file to determine if isCFF2
assert self.major in (1, 2), "Unknown CFF format"
isCFF2 = self.major == 2
if not isCFF2:
self.offSize = struct.unpack("B", file.read(1))[0]
file.seek(self.hdrSize)
self.fontNames = list(tostr(s) for s in Index(file, isCFF2=isCFF2))
self.topDictIndex = TopDictIndex(file, isCFF2=isCFF2)
self.strings = IndexedStrings(file)
else: # isCFF2
self.topDictSize = struct.unpack(">H", file.read(2))[0]
file.seek(self.hdrSize)
self.fontNames = ["CFF2Font"]
cff2GetGlyphOrder = otFont.getGlyphOrder
# in CFF2, offsetSize is the size of the TopDict data.
self.topDictIndex = TopDictIndex(
file, cff2GetGlyphOrder, self.topDictSize, isCFF2=isCFF2
)
self.strings = None
self.GlobalSubrs = GlobalSubrsIndex(file, isCFF2=isCFF2)
self.topDictIndex.strings = self.strings
self.topDictIndex.GlobalSubrs = self.GlobalSubrs
def __len__(self):
return len(self.fontNames)
def keys(self):
return list(self.fontNames)
def values(self):
return self.topDictIndex
def __getitem__(self, nameOrIndex):
"""Return TopDict instance identified by name (str) or index (int
or any object that implements `__index__`).
"""
if hasattr(nameOrIndex, "__index__"):
index = nameOrIndex.__index__()
elif isinstance(nameOrIndex, str):
name = nameOrIndex
try:
index = self.fontNames.index(name)
except ValueError:
raise KeyError(nameOrIndex)
else:
raise TypeError(nameOrIndex)
return self.topDictIndex[index]
def compile(self, file, otFont, isCFF2=None):
"""Write the object back into binary representation onto the given file.
``file`` should be a file handle object. ``otFont`` is the top-level
:py:class:`fontTools.ttLib.ttFont.TTFont` object containing this CFF file.
If ``isCFF2`` is passed and set to ``True`` or ``False``, then the
library makes an assertion that the CFF header is of the appropriate
version.
"""
self.otFont = otFont
if isCFF2 is not None:
# called from ttLib: assert 'major' value matches expected version
expected_major = 2 if isCFF2 else 1
if self.major != expected_major:
raise ValueError(
"Invalid CFF 'major' version: expected %d, found %d"
% (expected_major, self.major)
)
else:
# use current 'major' value to determine output format
assert self.major in (1, 2), "Unknown CFF format"
isCFF2 = self.major == 2
if otFont.recalcBBoxes and not isCFF2:
for topDict in self.topDictIndex:
topDict.recalcFontBBox()
if not isCFF2:
strings = IndexedStrings()
else:
strings = None
writer = CFFWriter(isCFF2)
topCompiler = self.topDictIndex.getCompiler(strings, self, isCFF2=isCFF2)
if isCFF2:
self.hdrSize = 5
writer.add(sstruct.pack(cffHeaderFormat, self))
# Note: topDictSize will most likely change in CFFWriter.toFile().
self.topDictSize = topCompiler.getDataLength()
writer.add(struct.pack(">H", self.topDictSize))
else:
self.hdrSize = 4
self.offSize = 4 # will most likely change in CFFWriter.toFile().
writer.add(sstruct.pack(cffHeaderFormat, self))
writer.add(struct.pack("B", self.offSize))
if not isCFF2:
fontNames = Index()
for name in self.fontNames:
fontNames.append(name)
writer.add(fontNames.getCompiler(strings, self, isCFF2=isCFF2))
writer.add(topCompiler)
if not isCFF2:
writer.add(strings.getCompiler())
writer.add(self.GlobalSubrs.getCompiler(strings, self, isCFF2=isCFF2))
for topDict in self.topDictIndex:
if not hasattr(topDict, "charset") or topDict.charset is None:
charset = otFont.getGlyphOrder()
topDict.charset = charset
children = topCompiler.getChildren(strings)
for child in children:
writer.add(child)
writer.toFile(file)
def toXML(self, xmlWriter):
"""Write the object into XML representation onto the given
:class:`fontTools.misc.xmlWriter.XMLWriter`.
.. code:: python
writer = xmlWriter.XMLWriter(sys.stdout)
tt["CFF "].cff.toXML(writer)
"""
xmlWriter.simpletag("major", value=self.major)
xmlWriter.newline()
xmlWriter.simpletag("minor", value=self.minor)
xmlWriter.newline()
for fontName in self.fontNames:
xmlWriter.begintag("CFFFont", name=tostr(fontName))
xmlWriter.newline()
font = self[fontName]
font.toXML(xmlWriter)
xmlWriter.endtag("CFFFont")
xmlWriter.newline()
xmlWriter.newline()
xmlWriter.begintag("GlobalSubrs")
xmlWriter.newline()
self.GlobalSubrs.toXML(xmlWriter)
xmlWriter.endtag("GlobalSubrs")
xmlWriter.newline()
def fromXML(self, name, attrs, content, otFont=None):
"""Reads data from the XML element into the ``CFFFontSet`` object."""
self.otFont = otFont
# set defaults. These will be replaced if there are entries for them
# in the XML file.
if not hasattr(self, "major"):
self.major = 1
if not hasattr(self, "minor"):
self.minor = 0
if name == "CFFFont":
if self.major == 1:
if not hasattr(self, "offSize"):
# this will be recalculated when the cff is compiled.
self.offSize = 4
if not hasattr(self, "hdrSize"):
self.hdrSize = 4
if not hasattr(self, "GlobalSubrs"):
self.GlobalSubrs = GlobalSubrsIndex()
if not hasattr(self, "fontNames"):
self.fontNames = []
self.topDictIndex = TopDictIndex()
fontName = attrs["name"]
self.fontNames.append(fontName)
topDict = TopDict(GlobalSubrs=self.GlobalSubrs)
topDict.charset = None # gets filled in later
elif self.major == 2:
if not hasattr(self, "hdrSize"):
self.hdrSize = 5
if not hasattr(self, "GlobalSubrs"):
self.GlobalSubrs = GlobalSubrsIndex()
if not hasattr(self, "fontNames"):
self.fontNames = ["CFF2Font"]
cff2GetGlyphOrder = self.otFont.getGlyphOrder
topDict = TopDict(
GlobalSubrs=self.GlobalSubrs, cff2GetGlyphOrder=cff2GetGlyphOrder
)
self.topDictIndex = TopDictIndex(None, cff2GetGlyphOrder)
self.topDictIndex.append(topDict)
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
topDict.fromXML(name, attrs, content)
if hasattr(topDict, "VarStore") and topDict.FDArray[0].vstore is None:
fdArray = topDict.FDArray
for fontDict in fdArray:
if hasattr(fontDict, "Private"):
fontDict.Private.vstore = topDict.VarStore
elif name == "GlobalSubrs":
subrCharStringClass = psCharStrings.T2CharString
if not hasattr(self, "GlobalSubrs"):
self.GlobalSubrs = GlobalSubrsIndex()
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
subr = subrCharStringClass()
subr.fromXML(name, attrs, content)
self.GlobalSubrs.append(subr)
elif name == "major":
self.major = int(attrs["value"])
elif name == "minor":
self.minor = int(attrs["value"])
def convertCFFToCFF2(self, otFont):
"""Converts this object from CFF format to CFF2 format. This conversion
is done 'in-place'. The conversion cannot be reversed.
This assumes a decompiled CFF table. (i.e. that the object has been
filled via :meth:`decompile`.)"""
self.major = 2
cff2GetGlyphOrder = self.otFont.getGlyphOrder
topDictData = TopDictIndex(None, cff2GetGlyphOrder)
topDictData.items = self.topDictIndex.items
self.topDictIndex = topDictData
topDict = topDictData[0]
if hasattr(topDict, "Private"):
privateDict = topDict.Private
else:
privateDict = None
opOrder = buildOrder(topDictOperators2)
topDict.order = opOrder
topDict.cff2GetGlyphOrder = cff2GetGlyphOrder
for entry in topDictOperators:
key = entry[1]
if key not in opOrder:
if key in topDict.rawDict:
del topDict.rawDict[key]
if hasattr(topDict, key):
delattr(topDict, key)
if not hasattr(topDict, "FDArray"):
fdArray = topDict.FDArray = FDArrayIndex()
fdArray.strings = None
fdArray.GlobalSubrs = topDict.GlobalSubrs
topDict.GlobalSubrs.fdArray = fdArray
charStrings = topDict.CharStrings
if charStrings.charStringsAreIndexed:
charStrings.charStringsIndex.fdArray = fdArray
else:
charStrings.fdArray = fdArray
fontDict = FontDict()
fontDict.setCFF2(True)
fdArray.append(fontDict)
fontDict.Private = privateDict
privateOpOrder = buildOrder(privateDictOperators2)
for entry in privateDictOperators:
key = entry[1]
if key not in privateOpOrder:
if key in privateDict.rawDict:
# print "Removing private dict", key
del privateDict.rawDict[key]
if hasattr(privateDict, key):
delattr(privateDict, key)
# print "Removing privateDict attr", key
else:
# clean up the PrivateDicts in the fdArray
fdArray = topDict.FDArray
privateOpOrder = buildOrder(privateDictOperators2)
for fontDict in fdArray:
fontDict.setCFF2(True)
for key in fontDict.rawDict.keys():
if key not in fontDict.order:
del fontDict.rawDict[key]
if hasattr(fontDict, key):
delattr(fontDict, key)
privateDict = fontDict.Private
for entry in privateDictOperators:
key = entry[1]
if key not in privateOpOrder:
if key in privateDict.rawDict:
# print "Removing private dict", key
del privateDict.rawDict[key]
if hasattr(privateDict, key):
delattr(privateDict, key)
# print "Removing privateDict attr", key
# At this point, the Subrs and Charstrings are all still T2Charstring class
# easiest to fix this by compiling, then decompiling again
file = BytesIO()
self.compile(file, otFont, isCFF2=True)
file.seek(0)
self.decompile(file, otFont, isCFF2=True)
def desubroutinize(self):
for fontName in self.fontNames:
font = self[fontName]
cs = font.CharStrings
for g in font.charset:
c, _ = cs.getItemAndSelector(g)
c.decompile()
subrs = getattr(c.private, "Subrs", [])
decompiler = _DesubroutinizingT2Decompiler(
subrs, c.globalSubrs, c.private
)
decompiler.execute(c)
c.program = c._desubroutinized
del c._desubroutinized
# Delete all the local subrs
if hasattr(font, "FDArray"):
for fd in font.FDArray:
pd = fd.Private
if hasattr(pd, "Subrs"):
del pd.Subrs
if "Subrs" in pd.rawDict:
del pd.rawDict["Subrs"]
else:
pd = font.Private
if hasattr(pd, "Subrs"):
del pd.Subrs
if "Subrs" in pd.rawDict:
del pd.rawDict["Subrs"]
# as well as the global subrs
self.GlobalSubrs.clear()
class CFFWriter(object):
"""Helper class for serializing CFF data to binary. Used by
:meth:`CFFFontSet.compile`."""
def __init__(self, isCFF2):
self.data = []
self.isCFF2 = isCFF2
def add(self, table):
self.data.append(table)
def toFile(self, file):
lastPosList = None
count = 1
while True:
log.log(DEBUG, "CFFWriter.toFile() iteration: %d", count)
count = count + 1
pos = 0
posList = [pos]
for item in self.data:
if hasattr(item, "getDataLength"):
endPos = pos + item.getDataLength()
if isinstance(item, TopDictIndexCompiler) and item.isCFF2:
self.topDictSize = item.getDataLength()
else:
endPos = pos + len(item)
if hasattr(item, "setPos"):
item.setPos(pos, endPos)
pos = endPos
posList.append(pos)
if posList == lastPosList:
break
lastPosList = posList
log.log(DEBUG, "CFFWriter.toFile() writing to file.")
begin = file.tell()
if self.isCFF2:
self.data[1] = struct.pack(">H", self.topDictSize)
else:
self.offSize = calcOffSize(lastPosList[-1])
self.data[1] = struct.pack("B", self.offSize)
posList = [0]
for item in self.data:
if hasattr(item, "toFile"):
item.toFile(file)
else:
file.write(item)
posList.append(file.tell() - begin)
assert posList == lastPosList
def calcOffSize(largestOffset):
if largestOffset < 0x100:
offSize = 1
elif largestOffset < 0x10000:
offSize = 2
elif largestOffset < 0x1000000:
offSize = 3
else:
offSize = 4
return offSize
class IndexCompiler(object):
"""Base class for writing CFF `INDEX data <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#5-index-data>`_
to binary."""
def __init__(self, items, strings, parent, isCFF2=None):
if isCFF2 is None and hasattr(parent, "isCFF2"):
isCFF2 = parent.isCFF2
assert isCFF2 is not None
self.isCFF2 = isCFF2
self.items = self.getItems(items, strings)
self.parent = parent
def getItems(self, items, strings):
return items
def getOffsets(self):
# An empty INDEX contains only the count field.
if self.items:
pos = 1
offsets = [pos]
for item in self.items:
if hasattr(item, "getDataLength"):
pos = pos + item.getDataLength()
else:
pos = pos + len(item)
offsets.append(pos)
else:
offsets = []
return offsets
def getDataLength(self):
if self.isCFF2:
countSize = 4
else:
countSize = 2
if self.items:
lastOffset = self.getOffsets()[-1]
offSize = calcOffSize(lastOffset)
dataLength = (
countSize
+ 1 # count
+ (len(self.items) + 1) * offSize # offSize
+ lastOffset # the offsets
- 1 # size of object data
)
else:
# count. For empty INDEX tables, this is the only entry.
dataLength = countSize
return dataLength
def toFile(self, file):
offsets = self.getOffsets()
if self.isCFF2:
writeCard32(file, len(self.items))
else:
writeCard16(file, len(self.items))
# An empty INDEX contains only the count field.
if self.items:
offSize = calcOffSize(offsets[-1])
writeCard8(file, offSize)
offSize = -offSize
pack = struct.pack
for offset in offsets:
binOffset = pack(">l", offset)[offSize:]
assert len(binOffset) == -offSize
file.write(binOffset)
for item in self.items:
if hasattr(item, "toFile"):
item.toFile(file)
else:
data = tobytes(item, encoding="latin1")
file.write(data)
class IndexedStringsCompiler(IndexCompiler):
def getItems(self, items, strings):
return items.strings
class TopDictIndexCompiler(IndexCompiler):
"""Helper class for writing the TopDict to binary."""
def getItems(self, items, strings):
out = []
for item in items:
out.append(item.getCompiler(strings, self))
return out
def getChildren(self, strings):
children = []
for topDict in self.items:
children.extend(topDict.getChildren(strings))
return children
def getOffsets(self):
if self.isCFF2:
offsets = [0, self.items[0].getDataLength()]
return offsets
else:
return super(TopDictIndexCompiler, self).getOffsets()
def getDataLength(self):
if self.isCFF2:
dataLength = self.items[0].getDataLength()
return dataLength
else:
return super(TopDictIndexCompiler, self).getDataLength()
def toFile(self, file):
if self.isCFF2:
self.items[0].toFile(file)
else:
super(TopDictIndexCompiler, self).toFile(file)
class FDArrayIndexCompiler(IndexCompiler):
"""Helper class for writing the
`Font DICT INDEX <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#10-font-dict-index-font-dicts-and-fdselect>`_
to binary."""
def getItems(self, items, strings):
out = []
for item in items:
out.append(item.getCompiler(strings, self))
return out
def getChildren(self, strings):
children = []
for fontDict in self.items:
children.extend(fontDict.getChildren(strings))
return children
def toFile(self, file):
offsets = self.getOffsets()
if self.isCFF2:
writeCard32(file, len(self.items))
else:
writeCard16(file, len(self.items))
offSize = calcOffSize(offsets[-1])
writeCard8(file, offSize)
offSize = -offSize
pack = struct.pack
for offset in offsets:
binOffset = pack(">l", offset)[offSize:]
assert len(binOffset) == -offSize
file.write(binOffset)
for item in self.items:
if hasattr(item, "toFile"):
item.toFile(file)
else:
file.write(item)
def setPos(self, pos, endPos):
self.parent.rawDict["FDArray"] = pos
class GlobalSubrsCompiler(IndexCompiler):
"""Helper class for writing the `global subroutine INDEX <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#9-local-and-global-subr-indexes>`_
to binary."""
def getItems(self, items, strings):
out = []
for cs in items:
cs.compile(self.isCFF2)
out.append(cs.bytecode)
return out
class SubrsCompiler(GlobalSubrsCompiler):
"""Helper class for writing the `local subroutine INDEX <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#9-local-and-global-subr-indexes>`_
to binary."""
def setPos(self, pos, endPos):
offset = pos - self.parent.pos
self.parent.rawDict["Subrs"] = offset
class CharStringsCompiler(GlobalSubrsCompiler):
"""Helper class for writing the `CharStrings INDEX <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#9-local-and-global-subr-indexes>`_
to binary."""
def getItems(self, items, strings):
out = []
for cs in items:
cs.compile(self.isCFF2)
out.append(cs.bytecode)
return out
def setPos(self, pos, endPos):
self.parent.rawDict["CharStrings"] = pos
class Index(object):
"""This class represents what the CFF spec calls an INDEX (an array of
variable-sized objects). `Index` items can be addressed and set using
Python list indexing."""
compilerClass = IndexCompiler
def __init__(self, file=None, isCFF2=None):
assert (isCFF2 is None) == (file is None)
self.items = []
name = self.__class__.__name__
if file is None:
return
self._isCFF2 = isCFF2
log.log(DEBUG, "loading %s at %s", name, file.tell())
self.file = file
if isCFF2:
count = readCard32(file)
else:
count = readCard16(file)
if count == 0:
return
self.items = [None] * count
offSize = readCard8(file)
log.log(DEBUG, " index count: %s offSize: %s", count, offSize)
assert offSize <= 4, "offSize too large: %s" % offSize
self.offsets = offsets = []
pad = b"\0" * (4 - offSize)
for index in range(count + 1):
chunk = file.read(offSize)
chunk = pad + chunk
(offset,) = struct.unpack(">L", chunk)
offsets.append(int(offset))
self.offsetBase = file.tell() - 1
file.seek(self.offsetBase + offsets[-1]) # pretend we've read the whole lot
log.log(DEBUG, " end of %s at %s", name, file.tell())
def __len__(self):
return len(self.items)
def __getitem__(self, index):
item = self.items[index]
if item is not None:
return item
offset = self.offsets[index] + self.offsetBase
size = self.offsets[index + 1] - self.offsets[index]
file = self.file
file.seek(offset)
data = file.read(size)
assert len(data) == size
item = self.produceItem(index, data, file, offset)
self.items[index] = item
return item
def __setitem__(self, index, item):
self.items[index] = item
def produceItem(self, index, data, file, offset):
return data
def append(self, item):
"""Add an item to an INDEX."""
self.items.append(item)
def getCompiler(self, strings, parent, isCFF2=None):
return self.compilerClass(self, strings, parent, isCFF2=isCFF2)
def clear(self):
"""Empty the INDEX."""
del self.items[:]
class GlobalSubrsIndex(Index):
"""This index contains all the global subroutines in the font. A global
subroutine is a set of ``CharString`` data which is accessible to any
glyph in the font, and are used to store repeated instructions - for
example, components may be encoded as global subroutines, but so could
hinting instructions.
Remember that when interpreting a ``callgsubr`` instruction (or indeed
a ``callsubr`` instruction) that you will need to add the "subroutine
number bias" to number given:
.. code:: python
tt = ttLib.TTFont("Almendra-Bold.otf")
u = tt["CFF "].cff[0].CharStrings["udieresis"]
u.decompile()
u.toXML(XMLWriter(sys.stdout))
# <some stuff>
# -64 callgsubr <-- Subroutine which implements the dieresis mark
# <other stuff>
tt["CFF "].cff[0].GlobalSubrs[-64] # <-- WRONG
# <T2CharString (bytecode) at 103451d10>
tt["CFF "].cff[0].GlobalSubrs[-64 + 107] # <-- RIGHT
# <T2CharString (source) at 103451390>
("The bias applied depends on the number of subrs (gsubrs). If the number of
subrs (gsubrs) is less than 1240, the bias is 107. Otherwise if it is less
than 33900, it is 1131; otherwise it is 32768.",
`Subroutine Operators <https://docs.microsoft.com/en-us/typography/opentype/otspec180/cff2charstr#section4.4>`)
"""
compilerClass = GlobalSubrsCompiler
subrClass = psCharStrings.T2CharString
charStringClass = psCharStrings.T2CharString
def __init__(
self,
file=None,
globalSubrs=None,
private=None,
fdSelect=None,
fdArray=None,
isCFF2=None,
):
super(GlobalSubrsIndex, self).__init__(file, isCFF2=isCFF2)
self.globalSubrs = globalSubrs
self.private = private
if fdSelect:
self.fdSelect = fdSelect
if fdArray:
self.fdArray = fdArray
def produceItem(self, index, data, file, offset):
if self.private is not None:
private = self.private
elif hasattr(self, "fdArray") and self.fdArray is not None:
if hasattr(self, "fdSelect") and self.fdSelect is not None:
fdIndex = self.fdSelect[index]
else:
fdIndex = 0
private = self.fdArray[fdIndex].Private
else:
private = None
return self.subrClass(data, private=private, globalSubrs=self.globalSubrs)
def toXML(self, xmlWriter):
"""Write the subroutines index into XML representation onto the given
:class:`fontTools.misc.xmlWriter.XMLWriter`.
.. code:: python
writer = xmlWriter.XMLWriter(sys.stdout)
tt["CFF "].cff[0].GlobalSubrs.toXML(writer)
"""
xmlWriter.comment(
"The 'index' attribute is only for humans; " "it is ignored when parsed."
)
xmlWriter.newline()
for i in range(len(self)):
subr = self[i]
if subr.needsDecompilation():
xmlWriter.begintag("CharString", index=i, raw=1)
else:
xmlWriter.begintag("CharString", index=i)
xmlWriter.newline()
subr.toXML(xmlWriter)
xmlWriter.endtag("CharString")
xmlWriter.newline()
def fromXML(self, name, attrs, content):
if name != "CharString":
return
subr = self.subrClass()
subr.fromXML(name, attrs, content)
self.append(subr)
def getItemAndSelector(self, index):
sel = None
if hasattr(self, "fdSelect"):
sel = self.fdSelect[index]
return self[index], sel
class SubrsIndex(GlobalSubrsIndex):
"""This index contains a glyph's local subroutines. A local subroutine is a
private set of ``CharString`` data which is accessible only to the glyph to
which the index is attached."""
compilerClass = SubrsCompiler
class TopDictIndex(Index):
"""This index represents the array of ``TopDict`` structures in the font
(again, usually only one entry is present). Hence the following calls are
equivalent:
.. code:: python
tt["CFF "].cff[0]
# <fontTools.cffLib.TopDict object at 0x102ed6e50>
tt["CFF "].cff.topDictIndex[0]
# <fontTools.cffLib.TopDict object at 0x102ed6e50>
"""
compilerClass = TopDictIndexCompiler
def __init__(self, file=None, cff2GetGlyphOrder=None, topSize=0, isCFF2=None):
assert (isCFF2 is None) == (file is None)
self.cff2GetGlyphOrder = cff2GetGlyphOrder
if file is not None and isCFF2:
self._isCFF2 = isCFF2
self.items = []
name = self.__class__.__name__
log.log(DEBUG, "loading %s at %s", name, file.tell())
self.file = file
count = 1
self.items = [None] * count
self.offsets = [0, topSize]
self.offsetBase = file.tell()
# pretend we've read the whole lot
file.seek(self.offsetBase + topSize)
log.log(DEBUG, " end of %s at %s", name, file.tell())
else:
super(TopDictIndex, self).__init__(file, isCFF2=isCFF2)
def produceItem(self, index, data, file, offset):
top = TopDict(
self.strings,
file,
offset,
self.GlobalSubrs,
self.cff2GetGlyphOrder,
isCFF2=self._isCFF2,
)
top.decompile(data)
return top
def toXML(self, xmlWriter):
for i in range(len(self)):
xmlWriter.begintag("FontDict", index=i)
xmlWriter.newline()
self[i].toXML(xmlWriter)
xmlWriter.endtag("FontDict")
xmlWriter.newline()
class FDArrayIndex(Index):
compilerClass = FDArrayIndexCompiler
def toXML(self, xmlWriter):
for i in range(len(self)):
xmlWriter.begintag("FontDict", index=i)
xmlWriter.newline()
self[i].toXML(xmlWriter)
xmlWriter.endtag("FontDict")
xmlWriter.newline()
def produceItem(self, index, data, file, offset):
fontDict = FontDict(
self.strings,
file,
offset,
self.GlobalSubrs,
isCFF2=self._isCFF2,
vstore=self.vstore,
)
fontDict.decompile(data)
return fontDict
def fromXML(self, name, attrs, content):
if name != "FontDict":
return
fontDict = FontDict()
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
fontDict.fromXML(name, attrs, content)
self.append(fontDict)
class VarStoreData(object):
def __init__(self, file=None, otVarStore=None):
self.file = file
self.data = None
self.otVarStore = otVarStore
self.font = TTFont() # dummy font for the decompile function.
def decompile(self):
if self.file:
# read data in from file. Assume position is correct.
length = readCard16(self.file)
self.data = self.file.read(length)
globalState = {}
reader = OTTableReader(self.data, globalState)
self.otVarStore = ot.VarStore()
self.otVarStore.decompile(reader, self.font)
return self
def compile(self):
writer = OTTableWriter()
self.otVarStore.compile(writer, self.font)
# Note that this omits the initial Card16 length from the CFF2
# VarStore data block
self.data = writer.getAllData()
def writeXML(self, xmlWriter, name):
self.otVarStore.toXML(xmlWriter, self.font)
def xmlRead(self, name, attrs, content, parent):
self.otVarStore = ot.VarStore()
for element in content:
if isinstance(element, tuple):
name, attrs, content = element
self.otVarStore.fromXML(name, attrs, content, self.font)
else:
pass
return None
def __len__(self):
return len(self.data)
def getNumRegions(self, vsIndex):
if vsIndex is None:
vsIndex = 0
varData = self.otVarStore.VarData[vsIndex]
numRegions = varData.VarRegionCount
return numRegions
class FDSelect(object):
def __init__(self, file=None, numGlyphs=None, format=None):
if file:
# read data in from file
self.format = readCard8(file)
if self.format == 0:
from array import array
self.gidArray = array("B", file.read(numGlyphs)).tolist()
elif self.format == 3:
gidArray = [None] * numGlyphs
nRanges = readCard16(file)
fd = None
prev = None
for i in range(nRanges):
first = readCard16(file)
if prev is not None:
for glyphID in range(prev, first):
gidArray[glyphID] = fd
prev = first
fd = readCard8(file)
if prev is not None:
first = readCard16(file)
for glyphID in range(prev, first):
gidArray[glyphID] = fd
self.gidArray = gidArray
elif self.format == 4:
gidArray = [None] * numGlyphs
nRanges = readCard32(file)
fd = None
prev = None
for i in range(nRanges):
first = readCard32(file)
if prev is not None:
for glyphID in range(prev, first):
gidArray[glyphID] = fd
prev = first
fd = readCard16(file)
if prev is not None:
first = readCard32(file)
for glyphID in range(prev, first):
gidArray[glyphID] = fd
self.gidArray = gidArray
else:
assert False, "unsupported FDSelect format: %s" % format
else:
# reading from XML. Make empty gidArray, and leave format as passed in.
# format is None will result in the smallest representation being used.
self.format = format
self.gidArray = []
def __len__(self):
return len(self.gidArray)
def __getitem__(self, index):
return self.gidArray[index]
def __setitem__(self, index, fdSelectValue):
self.gidArray[index] = fdSelectValue
def append(self, fdSelectValue):
self.gidArray.append(fdSelectValue)
class CharStrings(object):
"""The ``CharStrings`` in the font represent the instructions for drawing
each glyph. This object presents a dictionary interface to the font's
CharStrings, indexed by glyph name:
.. code:: python
tt["CFF "].cff[0].CharStrings["a"]
# <T2CharString (bytecode) at 103451e90>
See :class:`fontTools.misc.psCharStrings.T1CharString` and
:class:`fontTools.misc.psCharStrings.T2CharString` for how to decompile,
compile and interpret the glyph drawing instructions in the returned objects.
"""
def __init__(
self,
file,
charset,
globalSubrs,
private,
fdSelect,
fdArray,
isCFF2=None,
varStore=None,
):
self.globalSubrs = globalSubrs
self.varStore = varStore
if file is not None:
self.charStringsIndex = SubrsIndex(
file, globalSubrs, private, fdSelect, fdArray, isCFF2=isCFF2
)
self.charStrings = charStrings = {}
for i in range(len(charset)):
charStrings[charset[i]] = i
# read from OTF file: charStrings.values() are indices into
# charStringsIndex.
self.charStringsAreIndexed = 1
else:
self.charStrings = {}
# read from ttx file: charStrings.values() are actual charstrings
self.charStringsAreIndexed = 0
self.private = private
if fdSelect is not None:
self.fdSelect = fdSelect
if fdArray is not None:
self.fdArray = fdArray
def keys(self):
return list(self.charStrings.keys())
def values(self):
if self.charStringsAreIndexed:
return self.charStringsIndex
else:
return list(self.charStrings.values())
def has_key(self, name):
return name in self.charStrings
__contains__ = has_key
def __len__(self):
return len(self.charStrings)
def __getitem__(self, name):
charString = self.charStrings[name]
if self.charStringsAreIndexed:
charString = self.charStringsIndex[charString]
return charString
def __setitem__(self, name, charString):
if self.charStringsAreIndexed:
index = self.charStrings[name]
self.charStringsIndex[index] = charString
else:
self.charStrings[name] = charString
def getItemAndSelector(self, name):
if self.charStringsAreIndexed:
index = self.charStrings[name]
return self.charStringsIndex.getItemAndSelector(index)
else:
if hasattr(self, "fdArray"):
if hasattr(self, "fdSelect"):
sel = self.charStrings[name].fdSelectIndex
else:
sel = 0
else:
sel = None
return self.charStrings[name], sel
def toXML(self, xmlWriter):
names = sorted(self.keys())
for name in names:
charStr, fdSelectIndex = self.getItemAndSelector(name)
if charStr.needsDecompilation():
raw = [("raw", 1)]
else:
raw = []
if fdSelectIndex is None:
xmlWriter.begintag("CharString", [("name", name)] + raw)
else:
xmlWriter.begintag(
"CharString",
[("name", name), ("fdSelectIndex", fdSelectIndex)] + raw,
)
xmlWriter.newline()
charStr.toXML(xmlWriter)
xmlWriter.endtag("CharString")
xmlWriter.newline()
def fromXML(self, name, attrs, content):
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
if name != "CharString":
continue
fdID = -1
if hasattr(self, "fdArray"):
try:
fdID = safeEval(attrs["fdSelectIndex"])
except KeyError:
fdID = 0
private = self.fdArray[fdID].Private
else:
private = self.private
glyphName = attrs["name"]
charStringClass = psCharStrings.T2CharString
charString = charStringClass(private=private, globalSubrs=self.globalSubrs)
charString.fromXML(name, attrs, content)
if fdID >= 0:
charString.fdSelectIndex = fdID
self[glyphName] = charString
def readCard8(file):
return byteord(file.read(1))
def readCard16(file):
(value,) = struct.unpack(">H", file.read(2))
return value
def readCard32(file):
(value,) = struct.unpack(">L", file.read(4))
return value
def writeCard8(file, value):
file.write(bytechr(value))
def writeCard16(file, value):
file.write(struct.pack(">H", value))
def writeCard32(file, value):
file.write(struct.pack(">L", value))
def packCard8(value):
return bytechr(value)
def packCard16(value):
return struct.pack(">H", value)
def packCard32(value):
return struct.pack(">L", value)
def buildOperatorDict(table):
d = {}
for op, name, arg, default, conv in table:
d[op] = (name, arg)
return d
def buildOpcodeDict(table):
d = {}
for op, name, arg, default, conv in table:
if isinstance(op, tuple):
op = bytechr(op[0]) + bytechr(op[1])
else:
op = bytechr(op)
d[name] = (op, arg)
return d
def buildOrder(table):
l = []
for op, name, arg, default, conv in table:
l.append(name)
return l
def buildDefaults(table):
d = {}
for op, name, arg, default, conv in table:
if default is not None:
d[name] = default
return d
def buildConverters(table):
d = {}
for op, name, arg, default, conv in table:
d[name] = conv
return d
class SimpleConverter(object):
def read(self, parent, value):
if not hasattr(parent, "file"):
return self._read(parent, value)
file = parent.file
pos = file.tell()
try:
return self._read(parent, value)
finally:
file.seek(pos)
def _read(self, parent, value):
return value
def write(self, parent, value):
return value
def xmlWrite(self, xmlWriter, name, value):
xmlWriter.simpletag(name, value=value)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
return attrs["value"]
class ASCIIConverter(SimpleConverter):
def _read(self, parent, value):
return tostr(value, encoding="ascii")
def write(self, parent, value):
return tobytes(value, encoding="ascii")
def xmlWrite(self, xmlWriter, name, value):
xmlWriter.simpletag(name, value=tostr(value, encoding="ascii"))
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
return tobytes(attrs["value"], encoding=("ascii"))
class Latin1Converter(SimpleConverter):
def _read(self, parent, value):
return tostr(value, encoding="latin1")
def write(self, parent, value):
return tobytes(value, encoding="latin1")
def xmlWrite(self, xmlWriter, name, value):
value = tostr(value, encoding="latin1")
if name in ["Notice", "Copyright"]:
value = re.sub(r"[\r\n]\s+", " ", value)
xmlWriter.simpletag(name, value=value)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
return tobytes(attrs["value"], encoding=("latin1"))
def parseNum(s):
try:
value = int(s)
except:
value = float(s)
return value
def parseBlendList(s):
valueList = []
for element in s:
if isinstance(element, str):
continue
name, attrs, content = element
blendList = attrs["value"].split()
blendList = [eval(val) for val in blendList]
valueList.append(blendList)
if len(valueList) == 1:
valueList = valueList[0]
return valueList
class NumberConverter(SimpleConverter):
def xmlWrite(self, xmlWriter, name, value):
if isinstance(value, list):
xmlWriter.begintag(name)
xmlWriter.newline()
xmlWriter.indent()
blendValue = " ".join([str(val) for val in value])
xmlWriter.simpletag(kBlendDictOpName, value=blendValue)
xmlWriter.newline()
xmlWriter.dedent()
xmlWriter.endtag(name)
xmlWriter.newline()
else:
xmlWriter.simpletag(name, value=value)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
valueString = attrs.get("value", None)
if valueString is None:
value = parseBlendList(content)
else:
value = parseNum(attrs["value"])
return value
class ArrayConverter(SimpleConverter):
def xmlWrite(self, xmlWriter, name, value):
if value and isinstance(value[0], list):
xmlWriter.begintag(name)
xmlWriter.newline()
xmlWriter.indent()
for valueList in value:
blendValue = " ".join([str(val) for val in valueList])
xmlWriter.simpletag(kBlendDictOpName, value=blendValue)
xmlWriter.newline()
xmlWriter.dedent()
xmlWriter.endtag(name)
xmlWriter.newline()
else:
value = " ".join([str(val) for val in value])
xmlWriter.simpletag(name, value=value)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
valueString = attrs.get("value", None)
if valueString is None:
valueList = parseBlendList(content)
else:
values = valueString.split()
valueList = [parseNum(value) for value in values]
return valueList
class TableConverter(SimpleConverter):
def xmlWrite(self, xmlWriter, name, value):
xmlWriter.begintag(name)
xmlWriter.newline()
value.toXML(xmlWriter)
xmlWriter.endtag(name)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
ob = self.getClass()()
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
ob.fromXML(name, attrs, content)
return ob
class PrivateDictConverter(TableConverter):
def getClass(self):
return PrivateDict
def _read(self, parent, value):
size, offset = value
file = parent.file
isCFF2 = parent._isCFF2
try:
vstore = parent.vstore
except AttributeError:
vstore = None
priv = PrivateDict(parent.strings, file, offset, isCFF2=isCFF2, vstore=vstore)
file.seek(offset)
data = file.read(size)
assert len(data) == size
priv.decompile(data)
return priv
def write(self, parent, value):
return (0, 0) # dummy value
class SubrsConverter(TableConverter):
def getClass(self):
return SubrsIndex
def _read(self, parent, value):
file = parent.file
isCFF2 = parent._isCFF2
file.seek(parent.offset + value) # Offset(self)
return SubrsIndex(file, isCFF2=isCFF2)
def write(self, parent, value):
return 0 # dummy value
class CharStringsConverter(TableConverter):
def _read(self, parent, value):
file = parent.file
isCFF2 = parent._isCFF2
charset = parent.charset
varStore = getattr(parent, "VarStore", None)
globalSubrs = parent.GlobalSubrs
if hasattr(parent, "FDArray"):
fdArray = parent.FDArray
if hasattr(parent, "FDSelect"):
fdSelect = parent.FDSelect
else:
fdSelect = None
private = None
else:
fdSelect, fdArray = None, None
private = parent.Private
file.seek(value) # Offset(0)
charStrings = CharStrings(
file,
charset,
globalSubrs,
private,
fdSelect,
fdArray,
isCFF2=isCFF2,
varStore=varStore,
)
return charStrings
def write(self, parent, value):
return 0 # dummy value
def xmlRead(self, name, attrs, content, parent):
if hasattr(parent, "FDArray"):
# if it is a CID-keyed font, then the private Dict is extracted from the
# parent.FDArray
fdArray = parent.FDArray
if hasattr(parent, "FDSelect"):
fdSelect = parent.FDSelect
else:
fdSelect = None
private = None
else:
# if it is a name-keyed font, then the private dict is in the top dict,
# and
# there is no fdArray.
private, fdSelect, fdArray = parent.Private, None, None
charStrings = CharStrings(
None,
None,
parent.GlobalSubrs,
private,
fdSelect,
fdArray,
varStore=getattr(parent, "VarStore", None),
)
charStrings.fromXML(name, attrs, content)
return charStrings
class CharsetConverter(SimpleConverter):
def _read(self, parent, value):
isCID = hasattr(parent, "ROS")
if value > 2:
numGlyphs = parent.numGlyphs
file = parent.file
file.seek(value)
log.log(DEBUG, "loading charset at %s", value)
format = readCard8(file)
if format == 0:
charset = parseCharset0(numGlyphs, file, parent.strings, isCID)
elif format == 1 or format == 2:
charset = parseCharset(numGlyphs, file, parent.strings, isCID, format)
else:
raise NotImplementedError
assert len(charset) == numGlyphs
log.log(DEBUG, " charset end at %s", file.tell())
# make sure glyph names are unique
allNames = {}
newCharset = []
for glyphName in charset:
if glyphName in allNames:
# make up a new glyphName that's unique
n = allNames[glyphName]
while (glyphName + "#" + str(n)) in allNames:
n += 1
allNames[glyphName] = n + 1
glyphName = glyphName + "#" + str(n)
allNames[glyphName] = 1
newCharset.append(glyphName)
charset = newCharset
else: # offset == 0 -> no charset data.
if isCID or "CharStrings" not in parent.rawDict:
# We get here only when processing fontDicts from the FDArray of
# CFF-CID fonts. Only the real topDict references the chrset.
assert value == 0
charset = None
elif value == 0:
charset = cffISOAdobeStrings
elif value == 1:
charset = cffIExpertStrings
elif value == 2:
charset = cffExpertSubsetStrings
if charset and (len(charset) != parent.numGlyphs):
charset = charset[: parent.numGlyphs]
return charset
def write(self, parent, value):
return 0 # dummy value
def xmlWrite(self, xmlWriter, name, value):
# XXX only write charset when not in OT/TTX context, where we
# dump charset as a separate "GlyphOrder" table.
# # xmlWriter.simpletag("charset")
xmlWriter.comment("charset is dumped separately as the 'GlyphOrder' element")
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
pass
class CharsetCompiler(object):
def __init__(self, strings, charset, parent):
assert charset[0] == ".notdef"
isCID = hasattr(parent.dictObj, "ROS")
data0 = packCharset0(charset, isCID, strings)
data = packCharset(charset, isCID, strings)
if len(data) < len(data0):
self.data = data
else:
self.data = data0
self.parent = parent
def setPos(self, pos, endPos):
self.parent.rawDict["charset"] = pos
def getDataLength(self):
return len(self.data)
def toFile(self, file):
file.write(self.data)
def getStdCharSet(charset):
# check to see if we can use a predefined charset value.
predefinedCharSetVal = None
predefinedCharSets = [
(cffISOAdobeStringCount, cffISOAdobeStrings, 0),
(cffExpertStringCount, cffIExpertStrings, 1),
(cffExpertSubsetStringCount, cffExpertSubsetStrings, 2),
]
lcs = len(charset)
for cnt, pcs, csv in predefinedCharSets:
if predefinedCharSetVal is not None:
break
if lcs > cnt:
continue
predefinedCharSetVal = csv
for i in range(lcs):
if charset[i] != pcs[i]:
predefinedCharSetVal = None
break
return predefinedCharSetVal
def getCIDfromName(name, strings):
return int(name[3:])
def getSIDfromName(name, strings):
return strings.getSID(name)
def packCharset0(charset, isCID, strings):
fmt = 0
data = [packCard8(fmt)]
if isCID:
getNameID = getCIDfromName
else:
getNameID = getSIDfromName
for name in charset[1:]:
data.append(packCard16(getNameID(name, strings)))
return bytesjoin(data)
def packCharset(charset, isCID, strings):
fmt = 1
ranges = []
first = None
end = 0
if isCID:
getNameID = getCIDfromName
else:
getNameID = getSIDfromName
for name in charset[1:]:
SID = getNameID(name, strings)
if first is None:
first = SID
elif end + 1 != SID:
nLeft = end - first
if nLeft > 255:
fmt = 2
ranges.append((first, nLeft))
first = SID
end = SID
if end:
nLeft = end - first
if nLeft > 255:
fmt = 2
ranges.append((first, nLeft))
data = [packCard8(fmt)]
if fmt == 1:
nLeftFunc = packCard8
else:
nLeftFunc = packCard16
for first, nLeft in ranges:
data.append(packCard16(first) + nLeftFunc(nLeft))
return bytesjoin(data)
def parseCharset0(numGlyphs, file, strings, isCID):
charset = [".notdef"]
if isCID:
for i in range(numGlyphs - 1):
CID = readCard16(file)
charset.append("cid" + str(CID).zfill(5))
else:
for i in range(numGlyphs - 1):
SID = readCard16(file)
charset.append(strings[SID])
return charset
def parseCharset(numGlyphs, file, strings, isCID, fmt):
charset = [".notdef"]
count = 1
if fmt == 1:
nLeftFunc = readCard8
else:
nLeftFunc = readCard16
while count < numGlyphs:
first = readCard16(file)
nLeft = nLeftFunc(file)
if isCID:
for CID in range(first, first + nLeft + 1):
charset.append("cid" + str(CID).zfill(5))
else:
for SID in range(first, first + nLeft + 1):
charset.append(strings[SID])
count = count + nLeft + 1
return charset
class EncodingCompiler(object):
def __init__(self, strings, encoding, parent):
assert not isinstance(encoding, str)
data0 = packEncoding0(parent.dictObj.charset, encoding, parent.strings)
data1 = packEncoding1(parent.dictObj.charset, encoding, parent.strings)
if len(data0) < len(data1):
self.data = data0
else:
self.data = data1
self.parent = parent
def setPos(self, pos, endPos):
self.parent.rawDict["Encoding"] = pos
def getDataLength(self):
return len(self.data)
def toFile(self, file):
file.write(self.data)
class EncodingConverter(SimpleConverter):
def _read(self, parent, value):
if value == 0:
return "StandardEncoding"
elif value == 1:
return "ExpertEncoding"
else:
assert value > 1
file = parent.file
file.seek(value)
log.log(DEBUG, "loading Encoding at %s", value)
fmt = readCard8(file)
haveSupplement = fmt & 0x80
if haveSupplement:
raise NotImplementedError("Encoding supplements are not yet supported")
fmt = fmt & 0x7F
if fmt == 0:
encoding = parseEncoding0(
parent.charset, file, haveSupplement, parent.strings
)
elif fmt == 1:
encoding = parseEncoding1(
parent.charset, file, haveSupplement, parent.strings
)
return encoding
def write(self, parent, value):
if value == "StandardEncoding":
return 0
elif value == "ExpertEncoding":
return 1
return 0 # dummy value
def xmlWrite(self, xmlWriter, name, value):
if value in ("StandardEncoding", "ExpertEncoding"):
xmlWriter.simpletag(name, name=value)
xmlWriter.newline()
return
xmlWriter.begintag(name)
xmlWriter.newline()
for code in range(len(value)):
glyphName = value[code]
if glyphName != ".notdef":
xmlWriter.simpletag("map", code=hex(code), name=glyphName)
xmlWriter.newline()
xmlWriter.endtag(name)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
if "name" in attrs:
return attrs["name"]
encoding = [".notdef"] * 256
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
code = safeEval(attrs["code"])
glyphName = attrs["name"]
encoding[code] = glyphName
return encoding
def parseEncoding0(charset, file, haveSupplement, strings):
nCodes = readCard8(file)
encoding = [".notdef"] * 256
for glyphID in range(1, nCodes + 1):
code = readCard8(file)
if code != 0:
encoding[code] = charset[glyphID]
return encoding
def parseEncoding1(charset, file, haveSupplement, strings):
nRanges = readCard8(file)
encoding = [".notdef"] * 256
glyphID = 1
for i in range(nRanges):
code = readCard8(file)
nLeft = readCard8(file)
for glyphID in range(glyphID, glyphID + nLeft + 1):
encoding[code] = charset[glyphID]
code = code + 1
glyphID = glyphID + 1
return encoding
def packEncoding0(charset, encoding, strings):
fmt = 0
m = {}
for code in range(len(encoding)):
name = encoding[code]
if name != ".notdef":
m[name] = code
codes = []
for name in charset[1:]:
code = m.get(name)
codes.append(code)
while codes and codes[-1] is None:
codes.pop()
data = [packCard8(fmt), packCard8(len(codes))]
for code in codes:
if code is None:
code = 0
data.append(packCard8(code))
return bytesjoin(data)
def packEncoding1(charset, encoding, strings):
fmt = 1
m = {}
for code in range(len(encoding)):
name = encoding[code]
if name != ".notdef":
m[name] = code
ranges = []
first = None
end = 0
for name in charset[1:]:
code = m.get(name, -1)
if first is None:
first = code
elif end + 1 != code:
nLeft = end - first
ranges.append((first, nLeft))
first = code
end = code
nLeft = end - first
ranges.append((first, nLeft))
# remove unencoded glyphs at the end.
while ranges and ranges[-1][0] == -1:
ranges.pop()
data = [packCard8(fmt), packCard8(len(ranges))]
for first, nLeft in ranges:
if first == -1: # unencoded
first = 0
data.append(packCard8(first) + packCard8(nLeft))
return bytesjoin(data)
class FDArrayConverter(TableConverter):
def _read(self, parent, value):
try:
vstore = parent.VarStore
except AttributeError:
vstore = None
file = parent.file
isCFF2 = parent._isCFF2
file.seek(value)
fdArray = FDArrayIndex(file, isCFF2=isCFF2)
fdArray.vstore = vstore
fdArray.strings = parent.strings
fdArray.GlobalSubrs = parent.GlobalSubrs
return fdArray
def write(self, parent, value):
return 0 # dummy value
def xmlRead(self, name, attrs, content, parent):
fdArray = FDArrayIndex()
for element in content:
if isinstance(element, str):
continue
name, attrs, content = element
fdArray.fromXML(name, attrs, content)
return fdArray
class FDSelectConverter(SimpleConverter):
def _read(self, parent, value):
file = parent.file
file.seek(value)
fdSelect = FDSelect(file, parent.numGlyphs)
return fdSelect
def write(self, parent, value):
return 0 # dummy value
# The FDSelect glyph data is written out to XML in the charstring keys,
# so we write out only the format selector
def xmlWrite(self, xmlWriter, name, value):
xmlWriter.simpletag(name, [("format", value.format)])
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
fmt = safeEval(attrs["format"])
file = None
numGlyphs = None
fdSelect = FDSelect(file, numGlyphs, fmt)
return fdSelect
class VarStoreConverter(SimpleConverter):
def _read(self, parent, value):
file = parent.file
file.seek(value)
varStore = VarStoreData(file)
varStore.decompile()
return varStore
def write(self, parent, value):
return 0 # dummy value
def xmlWrite(self, xmlWriter, name, value):
value.writeXML(xmlWriter, name)
def xmlRead(self, name, attrs, content, parent):
varStore = VarStoreData()
varStore.xmlRead(name, attrs, content, parent)
return varStore
def packFDSelect0(fdSelectArray):
fmt = 0
data = [packCard8(fmt)]
for index in fdSelectArray:
data.append(packCard8(index))
return bytesjoin(data)
def packFDSelect3(fdSelectArray):
fmt = 3
fdRanges = []
lenArray = len(fdSelectArray)
lastFDIndex = -1
for i in range(lenArray):
fdIndex = fdSelectArray[i]
if lastFDIndex != fdIndex:
fdRanges.append([i, fdIndex])
lastFDIndex = fdIndex
sentinelGID = i + 1
data = [packCard8(fmt)]
data.append(packCard16(len(fdRanges)))
for fdRange in fdRanges:
data.append(packCard16(fdRange[0]))
data.append(packCard8(fdRange[1]))
data.append(packCard16(sentinelGID))
return bytesjoin(data)
def packFDSelect4(fdSelectArray):
fmt = 4
fdRanges = []
lenArray = len(fdSelectArray)
lastFDIndex = -1
for i in range(lenArray):
fdIndex = fdSelectArray[i]
if lastFDIndex != fdIndex:
fdRanges.append([i, fdIndex])
lastFDIndex = fdIndex
sentinelGID = i + 1
data = [packCard8(fmt)]
data.append(packCard32(len(fdRanges)))
for fdRange in fdRanges:
data.append(packCard32(fdRange[0]))
data.append(packCard16(fdRange[1]))
data.append(packCard32(sentinelGID))
return bytesjoin(data)
class FDSelectCompiler(object):
def __init__(self, fdSelect, parent):
fmt = fdSelect.format
fdSelectArray = fdSelect.gidArray
if fmt == 0:
self.data = packFDSelect0(fdSelectArray)
elif fmt == 3:
self.data = packFDSelect3(fdSelectArray)
elif fmt == 4:
self.data = packFDSelect4(fdSelectArray)
else:
# choose smaller of the two formats
data0 = packFDSelect0(fdSelectArray)
data3 = packFDSelect3(fdSelectArray)
if len(data0) < len(data3):
self.data = data0
fdSelect.format = 0
else:
self.data = data3
fdSelect.format = 3
self.parent = parent
def setPos(self, pos, endPos):
self.parent.rawDict["FDSelect"] = pos
def getDataLength(self):
return len(self.data)
def toFile(self, file):
file.write(self.data)
class VarStoreCompiler(object):
def __init__(self, varStoreData, parent):
self.parent = parent
if not varStoreData.data:
varStoreData.compile()
data = [packCard16(len(varStoreData.data)), varStoreData.data]
self.data = bytesjoin(data)
def setPos(self, pos, endPos):
self.parent.rawDict["VarStore"] = pos
def getDataLength(self):
return len(self.data)
def toFile(self, file):
file.write(self.data)
class ROSConverter(SimpleConverter):
def xmlWrite(self, xmlWriter, name, value):
registry, order, supplement = value
xmlWriter.simpletag(
name,
[
("Registry", tostr(registry)),
("Order", tostr(order)),
("Supplement", supplement),
],
)
xmlWriter.newline()
def xmlRead(self, name, attrs, content, parent):
return (attrs["Registry"], attrs["Order"], safeEval(attrs["Supplement"]))
topDictOperators = [
# opcode name argument type default converter
(25, "maxstack", "number", None, None),
((12, 30), "ROS", ("SID", "SID", "number"), None, ROSConverter()),
((12, 20), "SyntheticBase", "number", None, None),
(0, "version", "SID", None, None),
(1, "Notice", "SID", None, Latin1Converter()),
((12, 0), "Copyright", "SID", None, Latin1Converter()),
(2, "FullName", "SID", None, Latin1Converter()),
((12, 38), "FontName", "SID", None, Latin1Converter()),
(3, "FamilyName", "SID", None, Latin1Converter()),
(4, "Weight", "SID", None, None),
((12, 1), "isFixedPitch", "number", 0, None),
((12, 2), "ItalicAngle", "number", 0, None),
((12, 3), "UnderlinePosition", "number", -100, None),
((12, 4), "UnderlineThickness", "number", 50, None),
((12, 5), "PaintType", "number", 0, None),
((12, 6), "CharstringType", "number", 2, None),
((12, 7), "FontMatrix", "array", [0.001, 0, 0, 0.001, 0, 0], None),
(13, "UniqueID", "number", None, None),
(5, "FontBBox", "array", [0, 0, 0, 0], None),
((12, 8), "StrokeWidth", "number", 0, None),
(14, "XUID", "array", None, None),
((12, 21), "PostScript", "SID", None, None),
((12, 22), "BaseFontName", "SID", None, None),
((12, 23), "BaseFontBlend", "delta", None, None),
((12, 31), "CIDFontVersion", "number", 0, None),
((12, 32), "CIDFontRevision", "number", 0, None),
((12, 33), "CIDFontType", "number", 0, None),
((12, 34), "CIDCount", "number", 8720, None),
(15, "charset", "number", None, CharsetConverter()),
((12, 35), "UIDBase", "number", None, None),
(16, "Encoding", "number", 0, EncodingConverter()),
(18, "Private", ("number", "number"), None, PrivateDictConverter()),
((12, 37), "FDSelect", "number", None, FDSelectConverter()),
((12, 36), "FDArray", "number", None, FDArrayConverter()),
(17, "CharStrings", "number", None, CharStringsConverter()),
(24, "VarStore", "number", None, VarStoreConverter()),
]
topDictOperators2 = [
# opcode name argument type default converter
(25, "maxstack", "number", None, None),
((12, 7), "FontMatrix", "array", [0.001, 0, 0, 0.001, 0, 0], None),
((12, 37), "FDSelect", "number", None, FDSelectConverter()),
((12, 36), "FDArray", "number", None, FDArrayConverter()),
(17, "CharStrings", "number", None, CharStringsConverter()),
(24, "VarStore", "number", None, VarStoreConverter()),
]
# Note! FDSelect and FDArray must both preceed CharStrings in the output XML build order,
# in order for the font to compile back from xml.
kBlendDictOpName = "blend"
blendOp = 23
privateDictOperators = [
# opcode name argument type default converter
(22, "vsindex", "number", None, None),
(
blendOp,
kBlendDictOpName,
"blendList",
None,
None,
), # This is for reading to/from XML: it not written to CFF.
(6, "BlueValues", "delta", None, None),
(7, "OtherBlues", "delta", None, None),
(8, "FamilyBlues", "delta", None, None),
(9, "FamilyOtherBlues", "delta", None, None),
((12, 9), "BlueScale", "number", 0.039625, None),
((12, 10), "BlueShift", "number", 7, None),
((12, 11), "BlueFuzz", "number", 1, None),
(10, "StdHW", "number", None, None),
(11, "StdVW", "number", None, None),
((12, 12), "StemSnapH", "delta", None, None),
((12, 13), "StemSnapV", "delta", None, None),
((12, 14), "ForceBold", "number", 0, None),
((12, 15), "ForceBoldThreshold", "number", None, None), # deprecated
((12, 16), "lenIV", "number", None, None), # deprecated
((12, 17), "LanguageGroup", "number", 0, None),
((12, 18), "ExpansionFactor", "number", 0.06, None),
((12, 19), "initialRandomSeed", "number", 0, None),
(20, "defaultWidthX", "number", 0, None),
(21, "nominalWidthX", "number", 0, None),
(19, "Subrs", "number", None, SubrsConverter()),
]
privateDictOperators2 = [
# opcode name argument type default converter
(22, "vsindex", "number", None, None),
(
blendOp,
kBlendDictOpName,
"blendList",
None,
None,
), # This is for reading to/from XML: it not written to CFF.
(6, "BlueValues", "delta", None, None),
(7, "OtherBlues", "delta", None, None),
(8, "FamilyBlues", "delta", None, None),
(9, "FamilyOtherBlues", "delta", None, None),
((12, 9), "BlueScale", "number", 0.039625, None),
((12, 10), "BlueShift", "number", 7, None),
((12, 11), "BlueFuzz", "number", 1, None),
(10, "StdHW", "number", None, None),
(11, "StdVW", "number", None, None),
((12, 12), "StemSnapH", "delta", None, None),
((12, 13), "StemSnapV", "delta", None, None),
((12, 17), "LanguageGroup", "number", 0, None),
((12, 18), "ExpansionFactor", "number", 0.06, None),
(19, "Subrs", "number", None, SubrsConverter()),
]
def addConverters(table):
for i in range(len(table)):
op, name, arg, default, conv = table[i]
if conv is not None:
continue
if arg in ("delta", "array"):
conv = ArrayConverter()
elif arg == "number":
conv = NumberConverter()
elif arg == "SID":
conv = ASCIIConverter()
elif arg == "blendList":
conv = None
else:
assert False
table[i] = op, name, arg, default, conv
addConverters(privateDictOperators)
addConverters(topDictOperators)
class TopDictDecompiler(psCharStrings.DictDecompiler):
operators = buildOperatorDict(topDictOperators)
class PrivateDictDecompiler(psCharStrings.DictDecompiler):
operators = buildOperatorDict(privateDictOperators)
class DictCompiler(object):
maxBlendStack = 0
def __init__(self, dictObj, strings, parent, isCFF2=None):
if strings:
assert isinstance(strings, IndexedStrings)
if isCFF2 is None and hasattr(parent, "isCFF2"):
isCFF2 = parent.isCFF2
assert isCFF2 is not None
self.isCFF2 = isCFF2
self.dictObj = dictObj
self.strings = strings
self.parent = parent
rawDict = {}
for name in dictObj.order:
value = getattr(dictObj, name, None)
if value is None:
continue
conv = dictObj.converters[name]
value = conv.write(dictObj, value)
if value == dictObj.defaults.get(name):
continue
rawDict[name] = value
self.rawDict = rawDict
def setPos(self, pos, endPos):
pass
def getDataLength(self):
return len(self.compile("getDataLength"))
def compile(self, reason):
log.log(DEBUG, "-- compiling %s for %s", self.__class__.__name__, reason)
rawDict = self.rawDict
data = []
for name in self.dictObj.order:
value = rawDict.get(name)
if value is None:
continue
op, argType = self.opcodes[name]
if isinstance(argType, tuple):
l = len(argType)
assert len(value) == l, "value doesn't match arg type"
for i in range(l):
arg = argType[i]
v = value[i]
arghandler = getattr(self, "arg_" + arg)
data.append(arghandler(v))
else:
arghandler = getattr(self, "arg_" + argType)
data.append(arghandler(value))
data.append(op)
data = bytesjoin(data)
return data
def toFile(self, file):
data = self.compile("toFile")
file.write(data)
def arg_number(self, num):
if isinstance(num, list):
data = [encodeNumber(val) for val in num]
data.append(encodeNumber(1))
data.append(bytechr(blendOp))
datum = bytesjoin(data)
else:
datum = encodeNumber(num)
return datum
def arg_SID(self, s):
return psCharStrings.encodeIntCFF(self.strings.getSID(s))
def arg_array(self, value):
data = []
for num in value:
data.append(self.arg_number(num))
return bytesjoin(data)
def arg_delta(self, value):
if not value:
return b""
val0 = value[0]
if isinstance(val0, list):
data = self.arg_delta_blend(value)
else:
out = []
last = 0
for v in value:
out.append(v - last)
last = v
data = []
for num in out:
data.append(encodeNumber(num))
return bytesjoin(data)
def arg_delta_blend(self, value):
"""A delta list with blend lists has to be *all* blend lists.
The value is a list is arranged as follows::
[
[V0, d0..dn]
[V1, d0..dn]
...
[Vm, d0..dn]
]
``V`` is the absolute coordinate value from the default font, and ``d0-dn``
are the delta values from the *n* regions. Each ``V`` is an absolute
coordinate from the default font.
We want to return a list::
[
[v0, v1..vm]
[d0..dn]
...
[d0..dn]
numBlends
blendOp
]
where each ``v`` is relative to the previous default font value.
"""
numMasters = len(value[0])
numBlends = len(value)
numStack = (numBlends * numMasters) + 1
if numStack > self.maxBlendStack:
# Figure out the max number of value we can blend
# and divide this list up into chunks of that size.
numBlendValues = int((self.maxBlendStack - 1) / numMasters)
out = []
while True:
numVal = min(len(value), numBlendValues)
if numVal == 0:
break
valList = value[0:numVal]
out1 = self.arg_delta_blend(valList)
out.extend(out1)
value = value[numVal:]
else:
firstList = [0] * numBlends
deltaList = [None] * numBlends
i = 0
prevVal = 0
while i < numBlends:
# For PrivateDict BlueValues, the default font
# values are absolute, not relative.
# Must convert these back to relative coordinates
# befor writing to CFF2.
defaultValue = value[i][0]
firstList[i] = defaultValue - prevVal
prevVal = defaultValue
deltaList[i] = value[i][1:]
i += 1
relValueList = firstList
for blendList in deltaList:
relValueList.extend(blendList)
out = [encodeNumber(val) for val in relValueList]
out.append(encodeNumber(numBlends))
out.append(bytechr(blendOp))
return out
def encodeNumber(num):
if isinstance(num, float):
return psCharStrings.encodeFloat(num)
else:
return psCharStrings.encodeIntCFF(num)
class TopDictCompiler(DictCompiler):
opcodes = buildOpcodeDict(topDictOperators)
def getChildren(self, strings):
isCFF2 = self.isCFF2
children = []
if self.dictObj.cff2GetGlyphOrder is None:
if hasattr(self.dictObj, "charset") and self.dictObj.charset:
if hasattr(self.dictObj, "ROS"): # aka isCID
charsetCode = None
else:
charsetCode = getStdCharSet(self.dictObj.charset)
if charsetCode is None:
children.append(
CharsetCompiler(strings, self.dictObj.charset, self)
)
else:
self.rawDict["charset"] = charsetCode
if hasattr(self.dictObj, "Encoding") and self.dictObj.Encoding:
encoding = self.dictObj.Encoding
if not isinstance(encoding, str):
children.append(EncodingCompiler(strings, encoding, self))
else:
if hasattr(self.dictObj, "VarStore"):
varStoreData = self.dictObj.VarStore
varStoreComp = VarStoreCompiler(varStoreData, self)
children.append(varStoreComp)
if hasattr(self.dictObj, "FDSelect"):
# I have not yet supported merging a ttx CFF-CID font, as there are
# interesting issues about merging the FDArrays. Here I assume that
# either the font was read from XML, and the FDSelect indices are all
# in the charstring data, or the FDSelect array is already fully defined.
fdSelect = self.dictObj.FDSelect
# probably read in from XML; assume fdIndex in CharString data
if len(fdSelect) == 0:
charStrings = self.dictObj.CharStrings
for name in self.dictObj.charset:
fdSelect.append(charStrings[name].fdSelectIndex)
fdSelectComp = FDSelectCompiler(fdSelect, self)
children.append(fdSelectComp)
if hasattr(self.dictObj, "CharStrings"):
items = []
charStrings = self.dictObj.CharStrings
for name in self.dictObj.charset:
items.append(charStrings[name])
charStringsComp = CharStringsCompiler(items, strings, self, isCFF2=isCFF2)
children.append(charStringsComp)
if hasattr(self.dictObj, "FDArray"):
# I have not yet supported merging a ttx CFF-CID font, as there are
# interesting issues about merging the FDArrays. Here I assume that the
# FDArray info is correct and complete.
fdArrayIndexComp = self.dictObj.FDArray.getCompiler(strings, self)
children.append(fdArrayIndexComp)
children.extend(fdArrayIndexComp.getChildren(strings))
if hasattr(self.dictObj, "Private"):
privComp = self.dictObj.Private.getCompiler(strings, self)
children.append(privComp)
children.extend(privComp.getChildren(strings))
return children
class FontDictCompiler(DictCompiler):
opcodes = buildOpcodeDict(topDictOperators)
def __init__(self, dictObj, strings, parent, isCFF2=None):
super(FontDictCompiler, self).__init__(dictObj, strings, parent, isCFF2=isCFF2)
#
# We now take some effort to detect if there were any key/value pairs
# supplied that were ignored in the FontDict context, and issue a warning
# for those cases.
#
ignoredNames = []
dictObj = self.dictObj
for name in sorted(set(dictObj.converters) - set(dictObj.order)):
if name in dictObj.rawDict:
# The font was directly read from binary. In this
# case, we want to report *all* "useless" key/value
# pairs that are in the font, not just the ones that
# are different from the default.
ignoredNames.append(name)
else:
# The font was probably read from a TTX file. We only
# warn about keys whos value is not the default. The
# ones that have the default value will not be written
# to binary anyway.
default = dictObj.defaults.get(name)
if default is not None:
conv = dictObj.converters[name]
default = conv.read(dictObj, default)
if getattr(dictObj, name, None) != default:
ignoredNames.append(name)
if ignoredNames:
log.warning(
"Some CFF FDArray/FontDict keys were ignored upon compile: "
+ " ".join(sorted(ignoredNames))
)
def getChildren(self, strings):
children = []
if hasattr(self.dictObj, "Private"):
privComp = self.dictObj.Private.getCompiler(strings, self)
children.append(privComp)
children.extend(privComp.getChildren(strings))
return children
class PrivateDictCompiler(DictCompiler):
maxBlendStack = maxStackLimit
opcodes = buildOpcodeDict(privateDictOperators)
def setPos(self, pos, endPos):
size = endPos - pos
self.parent.rawDict["Private"] = size, pos
self.pos = pos
def getChildren(self, strings):
children = []
if hasattr(self.dictObj, "Subrs"):
children.append(self.dictObj.Subrs.getCompiler(strings, self))
return children
class BaseDict(object):
def __init__(self, strings=None, file=None, offset=None, isCFF2=None):
assert (isCFF2 is None) == (file is None)
self.rawDict = {}
self.skipNames = []
self.strings = strings
if file is None:
return
self._isCFF2 = isCFF2
self.file = file
if offset is not None:
log.log(DEBUG, "loading %s at %s", self.__class__.__name__, offset)
self.offset = offset
def decompile(self, data):
log.log(DEBUG, " length %s is %d", self.__class__.__name__, len(data))
dec = self.decompilerClass(self.strings, self)
dec.decompile(data)
self.rawDict = dec.getDict()
self.postDecompile()
def postDecompile(self):
pass
def getCompiler(self, strings, parent, isCFF2=None):
return self.compilerClass(self, strings, parent, isCFF2=isCFF2)
def __getattr__(self, name):
if name[:2] == name[-2:] == "__":
# to make deepcopy() and pickle.load() work, we need to signal with
# AttributeError that dunder methods like '__deepcopy__' or '__getstate__'
# aren't implemented. For more details, see:
# https://github.com/fonttools/fonttools/pull/1488
raise AttributeError(name)
value = self.rawDict.get(name, None)
if value is None:
value = self.defaults.get(name)
if value is None:
raise AttributeError(name)
conv = self.converters[name]
value = conv.read(self, value)
setattr(self, name, value)
return value
def toXML(self, xmlWriter):
for name in self.order:
if name in self.skipNames:
continue
value = getattr(self, name, None)
# XXX For "charset" we never skip calling xmlWrite even if the
# value is None, so we always write the following XML comment:
#
# <!-- charset is dumped separately as the 'GlyphOrder' element -->
#
# Charset is None when 'CFF ' table is imported from XML into an
# empty TTFont(). By writing this comment all the time, we obtain
# the same XML output whether roundtripping XML-to-XML or
# dumping binary-to-XML
if value is None and name != "charset":
continue
conv = self.converters[name]
conv.xmlWrite(xmlWriter, name, value)
ignoredNames = set(self.rawDict) - set(self.order)
if ignoredNames:
xmlWriter.comment(
"some keys were ignored: %s" % " ".join(sorted(ignoredNames))
)
xmlWriter.newline()
def fromXML(self, name, attrs, content):
conv = self.converters[name]
value = conv.xmlRead(name, attrs, content, self)
setattr(self, name, value)
class TopDict(BaseDict):
"""The ``TopDict`` represents the top-level dictionary holding font
information. CFF2 tables contain a restricted set of top-level entries
as described `here <https://docs.microsoft.com/en-us/typography/opentype/spec/cff2#7-top-dict-data>`_,
but CFF tables may contain a wider range of information. This information
can be accessed through attributes or through the dictionary returned
through the ``rawDict`` property:
.. code:: python
font = tt["CFF "].cff[0]
font.FamilyName
# 'Linux Libertine O'
font.rawDict["FamilyName"]
# 'Linux Libertine O'
More information is available in the CFF file's private dictionary, accessed
via the ``Private`` property:
.. code:: python
tt["CFF "].cff[0].Private.BlueValues
# [-15, 0, 515, 515, 666, 666]
"""
defaults = buildDefaults(topDictOperators)
converters = buildConverters(topDictOperators)
compilerClass = TopDictCompiler
order = buildOrder(topDictOperators)
decompilerClass = TopDictDecompiler
def __init__(
self,
strings=None,
file=None,
offset=None,
GlobalSubrs=None,
cff2GetGlyphOrder=None,
isCFF2=None,
):
super(TopDict, self).__init__(strings, file, offset, isCFF2=isCFF2)
self.cff2GetGlyphOrder = cff2GetGlyphOrder
self.GlobalSubrs = GlobalSubrs
if isCFF2:
self.defaults = buildDefaults(topDictOperators2)
self.charset = cff2GetGlyphOrder()
self.order = buildOrder(topDictOperators2)
else:
self.defaults = buildDefaults(topDictOperators)
self.order = buildOrder(topDictOperators)
def getGlyphOrder(self):
"""Returns a list of glyph names in the CFF font."""
return self.charset
def postDecompile(self):
offset = self.rawDict.get("CharStrings")
if offset is None:
return
# get the number of glyphs beforehand.
self.file.seek(offset)
if self._isCFF2:
self.numGlyphs = readCard32(self.file)
else:
self.numGlyphs = readCard16(self.file)
def toXML(self, xmlWriter):
if hasattr(self, "CharStrings"):
self.decompileAllCharStrings()
if hasattr(self, "ROS"):
self.skipNames = ["Encoding"]
if not hasattr(self, "ROS") or not hasattr(self, "CharStrings"):
# these values have default values, but I only want them to show up
# in CID fonts.
self.skipNames = [
"CIDFontVersion",
"CIDFontRevision",
"CIDFontType",
"CIDCount",
]
BaseDict.toXML(self, xmlWriter)
def decompileAllCharStrings(self):
# Make sure that all the Private Dicts have been instantiated.
for i, charString in enumerate(self.CharStrings.values()):
try:
charString.decompile()
except:
log.error("Error in charstring %s", i)
raise
def recalcFontBBox(self):
fontBBox = None
for charString in self.CharStrings.values():
bounds = charString.calcBounds(self.CharStrings)
if bounds is not None:
if fontBBox is not None:
fontBBox = unionRect(fontBBox, bounds)
else:
fontBBox = bounds
if fontBBox is None:
self.FontBBox = self.defaults["FontBBox"][:]
else:
self.FontBBox = list(intRect(fontBBox))
class FontDict(BaseDict):
#
# Since fonttools used to pass a lot of fields that are not relevant in the FDArray
# FontDict, there are 'ttx' files in the wild that contain all these. These got in
# the ttx files because fonttools writes explicit values for all the TopDict default
# values. These are not actually illegal in the context of an FDArray FontDict - you
# can legally, per spec, put any arbitrary key/value pair in a FontDict - but are
# useless since current major company CFF interpreters ignore anything but the set
# listed in this file. So, we just silently skip them. An exception is Weight: this
# is not used by any interpreter, but some foundries have asked that this be
# supported in FDArray FontDicts just to preserve information about the design when
# the font is being inspected.
#
# On top of that, there are fonts out there that contain such useless FontDict values.
#
# By subclassing TopDict, we *allow* all key/values from TopDict, both when reading
# from binary or when reading from XML, but by overriding `order` with a limited
# list of names, we ensure that only the useful names ever get exported to XML and
# ever get compiled into the binary font.
#
# We override compilerClass so we can warn about "useless" key/value pairs, either
# from the original binary font or from TTX input.
#
# See:
# - https://github.com/fonttools/fonttools/issues/740
# - https://github.com/fonttools/fonttools/issues/601
# - https://github.com/adobe-type-tools/afdko/issues/137
#
defaults = {}
converters = buildConverters(topDictOperators)
compilerClass = FontDictCompiler
orderCFF = ["FontName", "FontMatrix", "Weight", "Private"]
orderCFF2 = ["Private"]
decompilerClass = TopDictDecompiler
def __init__(
self,
strings=None,
file=None,
offset=None,
GlobalSubrs=None,
isCFF2=None,
vstore=None,
):
super(FontDict, self).__init__(strings, file, offset, isCFF2=isCFF2)
self.vstore = vstore
self.setCFF2(isCFF2)
def setCFF2(self, isCFF2):
# isCFF2 may be None.
if isCFF2:
self.order = self.orderCFF2
self._isCFF2 = True
else:
self.order = self.orderCFF
self._isCFF2 = False
class PrivateDict(BaseDict):
defaults = buildDefaults(privateDictOperators)
converters = buildConverters(privateDictOperators)
order = buildOrder(privateDictOperators)
decompilerClass = PrivateDictDecompiler
compilerClass = PrivateDictCompiler
def __init__(self, strings=None, file=None, offset=None, isCFF2=None, vstore=None):
super(PrivateDict, self).__init__(strings, file, offset, isCFF2=isCFF2)
self.vstore = vstore
if isCFF2:
self.defaults = buildDefaults(privateDictOperators2)
self.order = buildOrder(privateDictOperators2)
# Provide dummy values. This avoids needing to provide
# an isCFF2 state in a lot of places.
self.nominalWidthX = self.defaultWidthX = None
else:
self.defaults = buildDefaults(privateDictOperators)
self.order = buildOrder(privateDictOperators)
@property
def in_cff2(self):
return self._isCFF2
def getNumRegions(self, vi=None): # called from misc/psCharStrings.py
# if getNumRegions is being called, we can assume that VarStore exists.
if vi is None:
if hasattr(self, "vsindex"):
vi = self.vsindex
else:
vi = 0
numRegions = self.vstore.getNumRegions(vi)
return numRegions
class IndexedStrings(object):
"""SID -> string mapping."""
def __init__(self, file=None):
if file is None:
strings = []
else:
strings = [tostr(s, encoding="latin1") for s in Index(file, isCFF2=False)]
self.strings = strings
def getCompiler(self):
return IndexedStringsCompiler(self, None, self, isCFF2=False)
def __len__(self):
return len(self.strings)
def __getitem__(self, SID):
if SID < cffStandardStringCount:
return cffStandardStrings[SID]
else:
return self.strings[SID - cffStandardStringCount]
def getSID(self, s):
if not hasattr(self, "stringMapping"):
self.buildStringMapping()
s = tostr(s, encoding="latin1")
if s in cffStandardStringMapping:
SID = cffStandardStringMapping[s]
elif s in self.stringMapping:
SID = self.stringMapping[s]
else:
SID = len(self.strings) + cffStandardStringCount
self.strings.append(s)
self.stringMapping[s] = SID
return SID
def getStrings(self):
return self.strings
def buildStringMapping(self):
self.stringMapping = {}
for index in range(len(self.strings)):
self.stringMapping[self.strings[index]] = index + cffStandardStringCount
# The 391 Standard Strings as used in the CFF format.
# from Adobe Technical None #5176, version 1.0, 18 March 1998
cffStandardStrings = [
".notdef",
"space",
"exclam",
"quotedbl",
"numbersign",
"dollar",
"percent",
"ampersand",
"quoteright",
"parenleft",
"parenright",
"asterisk",
"plus",
"comma",
"hyphen",
"period",
"slash",
"zero",
"one",
"two",
"three",
"four",
"five",
"six",
"seven",
"eight",
"nine",
"colon",
"semicolon",
"less",
"equal",
"greater",
"question",
"at",
"A",
"B",
"C",
"D",
"E",
"F",
"G",
"H",
"I",
"J",
"K",
"L",
"M",
"N",
"O",
"P",
"Q",
"R",
"S",
"T",
"U",
"V",
"W",
"X",
"Y",
"Z",
"bracketleft",
"backslash",
"bracketright",
"asciicircum",
"underscore",
"quoteleft",
"a",
"b",
"c",
"d",
"e",
"f",
"g",
"h",
"i",
"j",
"k",
"l",
"m",
"n",
"o",
"p",
"q",
"r",
"s",
"t",
"u",
"v",
"w",
"x",
"y",
"z",
"braceleft",
"bar",
"braceright",
"asciitilde",
"exclamdown",
"cent",
"sterling",
"fraction",
"yen",
"florin",
"section",
"currency",
"quotesingle",
"quotedblleft",
"guillemotleft",
"guilsinglleft",
"guilsinglright",
"fi",
"fl",
"endash",
"dagger",
"daggerdbl",
"periodcentered",
"paragraph",
"bullet",
"quotesinglbase",
"quotedblbase",
"quotedblright",
"guillemotright",
"ellipsis",
"perthousand",
"questiondown",
"grave",
"acute",
"circumflex",
"tilde",
"macron",
"breve",
"dotaccent",
"dieresis",
"ring",
"cedilla",
"hungarumlaut",
"ogonek",
"caron",
"emdash",
"AE",
"ordfeminine",
"Lslash",
"Oslash",
"OE",
"ordmasculine",
"ae",
"dotlessi",
"lslash",
"oslash",
"oe",
"germandbls",
"onesuperior",
"logicalnot",
"mu",
"trademark",
"Eth",
"onehalf",
"plusminus",
"Thorn",
"onequarter",
"divide",
"brokenbar",
"degree",
"thorn",
"threequarters",
"twosuperior",
"registered",
"minus",
"eth",
"multiply",
"threesuperior",
"copyright",
"Aacute",
"Acircumflex",
"Adieresis",
"Agrave",
"Aring",
"Atilde",
"Ccedilla",
"Eacute",
"Ecircumflex",
"Edieresis",
"Egrave",
"Iacute",
"Icircumflex",
"Idieresis",
"Igrave",
"Ntilde",
"Oacute",
"Ocircumflex",
"Odieresis",
"Ograve",
"Otilde",
"Scaron",
"Uacute",
"Ucircumflex",
"Udieresis",
"Ugrave",
"Yacute",
"Ydieresis",
"Zcaron",
"aacute",
"acircumflex",
"adieresis",
"agrave",
"aring",
"atilde",
"ccedilla",
"eacute",
"ecircumflex",
"edieresis",
"egrave",
"iacute",
"icircumflex",
"idieresis",
"igrave",
"ntilde",
"oacute",
"ocircumflex",
"odieresis",
"ograve",
"otilde",
"scaron",
"uacute",
"ucircumflex",
"udieresis",
"ugrave",
"yacute",
"ydieresis",
"zcaron",
"exclamsmall",
"Hungarumlautsmall",
"dollaroldstyle",
"dollarsuperior",
"ampersandsmall",
"Acutesmall",
"parenleftsuperior",
"parenrightsuperior",
"twodotenleader",
"onedotenleader",
"zerooldstyle",
"oneoldstyle",
"twooldstyle",
"threeoldstyle",
"fouroldstyle",
"fiveoldstyle",
"sixoldstyle",
"sevenoldstyle",
"eightoldstyle",
"nineoldstyle",
"commasuperior",
"threequartersemdash",
"periodsuperior",
"questionsmall",
"asuperior",
"bsuperior",
"centsuperior",
"dsuperior",
"esuperior",
"isuperior",
"lsuperior",
"msuperior",
"nsuperior",
"osuperior",
"rsuperior",
"ssuperior",
"tsuperior",
"ff",
"ffi",
"ffl",
"parenleftinferior",
"parenrightinferior",
"Circumflexsmall",
"hyphensuperior",
"Gravesmall",
"Asmall",
"Bsmall",
"Csmall",
"Dsmall",
"Esmall",
"Fsmall",
"Gsmall",
"Hsmall",
"Ismall",
"Jsmall",
"Ksmall",
"Lsmall",
"Msmall",
"Nsmall",
"Osmall",
"Psmall",
"Qsmall",
"Rsmall",
"Ssmall",
"Tsmall",
"Usmall",
"Vsmall",
"Wsmall",
"Xsmall",
"Ysmall",
"Zsmall",
"colonmonetary",
"onefitted",
"rupiah",
"Tildesmall",
"exclamdownsmall",
"centoldstyle",
"Lslashsmall",
"Scaronsmall",
"Zcaronsmall",
"Dieresissmall",
"Brevesmall",
"Caronsmall",
"Dotaccentsmall",
"Macronsmall",
"figuredash",
"hypheninferior",
"Ogoneksmall",
"Ringsmall",
"Cedillasmall",
"questiondownsmall",
"oneeighth",
"threeeighths",
"fiveeighths",
"seveneighths",
"onethird",
"twothirds",
"zerosuperior",
"foursuperior",
"fivesuperior",
"sixsuperior",
"sevensuperior",
"eightsuperior",
"ninesuperior",
"zeroinferior",
"oneinferior",
"twoinferior",
"threeinferior",
"fourinferior",
"fiveinferior",
"sixinferior",
"seveninferior",
"eightinferior",
"nineinferior",
"centinferior",
"dollarinferior",
"periodinferior",
"commainferior",
"Agravesmall",
"Aacutesmall",
"Acircumflexsmall",
"Atildesmall",
"Adieresissmall",
"Aringsmall",
"AEsmall",
"Ccedillasmall",
"Egravesmall",
"Eacutesmall",
"Ecircumflexsmall",
"Edieresissmall",
"Igravesmall",
"Iacutesmall",
"Icircumflexsmall",
"Idieresissmall",
"Ethsmall",
"Ntildesmall",
"Ogravesmall",
"Oacutesmall",
"Ocircumflexsmall",
"Otildesmall",
"Odieresissmall",
"OEsmall",
"Oslashsmall",
"Ugravesmall",
"Uacutesmall",
"Ucircumflexsmall",
"Udieresissmall",
"Yacutesmall",
"Thornsmall",
"Ydieresissmall",
"001.000",
"001.001",
"001.002",
"001.003",
"Black",
"Bold",
"Book",
"Light",
"Medium",
"Regular",
"Roman",
"Semibold",
]
cffStandardStringCount = 391
assert len(cffStandardStrings) == cffStandardStringCount
# build reverse mapping
cffStandardStringMapping = {}
for _i in range(cffStandardStringCount):
cffStandardStringMapping[cffStandardStrings[_i]] = _i
cffISOAdobeStrings = [
".notdef",
"space",
"exclam",
"quotedbl",
"numbersign",
"dollar",
"percent",
"ampersand",
"quoteright",
"parenleft",
"parenright",
"asterisk",
"plus",
"comma",
"hyphen",
"period",
"slash",
"zero",
"one",
"two",
"three",
"four",
"five",
"six",
"seven",
"eight",
"nine",
"colon",
"semicolon",
"less",
"equal",
"greater",
"question",
"at",
"A",
"B",
"C",
"D",
"E",
"F",
"G",
"H",
"I",
"J",
"K",
"L",
"M",
"N",
"O",
"P",
"Q",
"R",
"S",
"T",
"U",
"V",
"W",
"X",
"Y",
"Z",
"bracketleft",
"backslash",
"bracketright",
"asciicircum",
"underscore",
"quoteleft",
"a",
"b",
"c",
"d",
"e",
"f",
"g",
"h",
"i",
"j",
"k",
"l",
"m",
"n",
"o",
"p",
"q",
"r",
"s",
"t",
"u",
"v",
"w",
"x",
"y",
"z",
"braceleft",
"bar",
"braceright",
"asciitilde",
"exclamdown",
"cent",
"sterling",
"fraction",
"yen",
"florin",
"section",
"currency",
"quotesingle",
"quotedblleft",
"guillemotleft",
"guilsinglleft",
"guilsinglright",
"fi",
"fl",
"endash",
"dagger",
"daggerdbl",
"periodcentered",
"paragraph",
"bullet",
"quotesinglbase",
"quotedblbase",
"quotedblright",
"guillemotright",
"ellipsis",
"perthousand",
"questiondown",
"grave",
"acute",
"circumflex",
"tilde",
"macron",
"breve",
"dotaccent",
"dieresis",
"ring",
"cedilla",
"hungarumlaut",
"ogonek",
"caron",
"emdash",
"AE",
"ordfeminine",
"Lslash",
"Oslash",
"OE",
"ordmasculine",
"ae",
"dotlessi",
"lslash",
"oslash",
"oe",
"germandbls",
"onesuperior",
"logicalnot",
"mu",
"trademark",
"Eth",
"onehalf",
"plusminus",
"Thorn",
"onequarter",
"divide",
"brokenbar",
"degree",
"thorn",
"threequarters",
"twosuperior",
"registered",
"minus",
"eth",
"multiply",
"threesuperior",
"copyright",
"Aacute",
"Acircumflex",
"Adieresis",
"Agrave",
"Aring",
"Atilde",
"Ccedilla",
"Eacute",
"Ecircumflex",
"Edieresis",
"Egrave",
"Iacute",
"Icircumflex",
"Idieresis",
"Igrave",
"Ntilde",
"Oacute",
"Ocircumflex",
"Odieresis",
"Ograve",
"Otilde",
"Scaron",
"Uacute",
"Ucircumflex",
"Udieresis",
"Ugrave",
"Yacute",
"Ydieresis",
"Zcaron",
"aacute",
"acircumflex",
"adieresis",
"agrave",
"aring",
"atilde",
"ccedilla",
"eacute",
"ecircumflex",
"edieresis",
"egrave",
"iacute",
"icircumflex",
"idieresis",
"igrave",
"ntilde",
"oacute",
"ocircumflex",
"odieresis",
"ograve",
"otilde",
"scaron",
"uacute",
"ucircumflex",
"udieresis",
"ugrave",
"yacute",
"ydieresis",
"zcaron",
]
cffISOAdobeStringCount = 229
assert len(cffISOAdobeStrings) == cffISOAdobeStringCount
cffIExpertStrings = [
".notdef",
"space",
"exclamsmall",
"Hungarumlautsmall",
"dollaroldstyle",
"dollarsuperior",
"ampersandsmall",
"Acutesmall",
"parenleftsuperior",
"parenrightsuperior",
"twodotenleader",
"onedotenleader",
"comma",
"hyphen",
"period",
"fraction",
"zerooldstyle",
"oneoldstyle",
"twooldstyle",
"threeoldstyle",
"fouroldstyle",
"fiveoldstyle",
"sixoldstyle",
"sevenoldstyle",
"eightoldstyle",
"nineoldstyle",
"colon",
"semicolon",
"commasuperior",
"threequartersemdash",
"periodsuperior",
"questionsmall",
"asuperior",
"bsuperior",
"centsuperior",
"dsuperior",
"esuperior",
"isuperior",
"lsuperior",
"msuperior",
"nsuperior",
"osuperior",
"rsuperior",
"ssuperior",
"tsuperior",
"ff",
"fi",
"fl",
"ffi",
"ffl",
"parenleftinferior",
"parenrightinferior",
"Circumflexsmall",
"hyphensuperior",
"Gravesmall",
"Asmall",
"Bsmall",
"Csmall",
"Dsmall",
"Esmall",
"Fsmall",
"Gsmall",
"Hsmall",
"Ismall",
"Jsmall",
"Ksmall",
"Lsmall",
"Msmall",
"Nsmall",
"Osmall",
"Psmall",
"Qsmall",
"Rsmall",
"Ssmall",
"Tsmall",
"Usmall",
"Vsmall",
"Wsmall",
"Xsmall",
"Ysmall",
"Zsmall",
"colonmonetary",
"onefitted",
"rupiah",
"Tildesmall",
"exclamdownsmall",
"centoldstyle",
"Lslashsmall",
"Scaronsmall",
"Zcaronsmall",
"Dieresissmall",
"Brevesmall",
"Caronsmall",
"Dotaccentsmall",
"Macronsmall",
"figuredash",
"hypheninferior",
"Ogoneksmall",
"Ringsmall",
"Cedillasmall",
"onequarter",
"onehalf",
"threequarters",
"questiondownsmall",
"oneeighth",
"threeeighths",
"fiveeighths",
"seveneighths",
"onethird",
"twothirds",
"zerosuperior",
"onesuperior",
"twosuperior",
"threesuperior",
"foursuperior",
"fivesuperior",
"sixsuperior",
"sevensuperior",
"eightsuperior",
"ninesuperior",
"zeroinferior",
"oneinferior",
"twoinferior",
"threeinferior",
"fourinferior",
"fiveinferior",
"sixinferior",
"seveninferior",
"eightinferior",
"nineinferior",
"centinferior",
"dollarinferior",
"periodinferior",
"commainferior",
"Agravesmall",
"Aacutesmall",
"Acircumflexsmall",
"Atildesmall",
"Adieresissmall",
"Aringsmall",
"AEsmall",
"Ccedillasmall",
"Egravesmall",
"Eacutesmall",
"Ecircumflexsmall",
"Edieresissmall",
"Igravesmall",
"Iacutesmall",
"Icircumflexsmall",
"Idieresissmall",
"Ethsmall",
"Ntildesmall",
"Ogravesmall",
"Oacutesmall",
"Ocircumflexsmall",
"Otildesmall",
"Odieresissmall",
"OEsmall",
"Oslashsmall",
"Ugravesmall",
"Uacutesmall",
"Ucircumflexsmall",
"Udieresissmall",
"Yacutesmall",
"Thornsmall",
"Ydieresissmall",
]
cffExpertStringCount = 166
assert len(cffIExpertStrings) == cffExpertStringCount
cffExpertSubsetStrings = [
".notdef",
"space",
"dollaroldstyle",
"dollarsuperior",
"parenleftsuperior",
"parenrightsuperior",
"twodotenleader",
"onedotenleader",
"comma",
"hyphen",
"period",
"fraction",
"zerooldstyle",
"oneoldstyle",
"twooldstyle",
"threeoldstyle",
"fouroldstyle",
"fiveoldstyle",
"sixoldstyle",
"sevenoldstyle",
"eightoldstyle",
"nineoldstyle",
"colon",
"semicolon",
"commasuperior",
"threequartersemdash",
"periodsuperior",
"asuperior",
"bsuperior",
"centsuperior",
"dsuperior",
"esuperior",
"isuperior",
"lsuperior",
"msuperior",
"nsuperior",
"osuperior",
"rsuperior",
"ssuperior",
"tsuperior",
"ff",
"fi",
"fl",
"ffi",
"ffl",
"parenleftinferior",
"parenrightinferior",
"hyphensuperior",
"colonmonetary",
"onefitted",
"rupiah",
"centoldstyle",
"figuredash",
"hypheninferior",
"onequarter",
"onehalf",
"threequarters",
"oneeighth",
"threeeighths",
"fiveeighths",
"seveneighths",
"onethird",
"twothirds",
"zerosuperior",
"onesuperior",
"twosuperior",
"threesuperior",
"foursuperior",
"fivesuperior",
"sixsuperior",
"sevensuperior",
"eightsuperior",
"ninesuperior",
"zeroinferior",
"oneinferior",
"twoinferior",
"threeinferior",
"fourinferior",
"fiveinferior",
"sixinferior",
"seveninferior",
"eightinferior",
"nineinferior",
"centinferior",
"dollarinferior",
"periodinferior",
"commainferior",
]
cffExpertSubsetStringCount = 87
assert len(cffExpertSubsetStrings) == cffExpertSubsetStringCount
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