713 lines
26 KiB
Python
713 lines
26 KiB
Python
from collections import namedtuple
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from fontTools.cffLib import (
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maxStackLimit,
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TopDictIndex,
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buildOrder,
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topDictOperators,
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topDictOperators2,
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privateDictOperators,
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privateDictOperators2,
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FDArrayIndex,
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FontDict,
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VarStoreData,
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)
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from io import BytesIO
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from fontTools.cffLib.specializer import specializeCommands, commandsToProgram
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from fontTools.ttLib import newTable
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from fontTools import varLib
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from fontTools.varLib.models import allEqual
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from fontTools.misc.roundTools import roundFunc
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from fontTools.misc.psCharStrings import T2CharString, T2OutlineExtractor
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from fontTools.pens.t2CharStringPen import T2CharStringPen
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from functools import partial
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from .errors import (
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VarLibCFFDictMergeError,
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VarLibCFFPointTypeMergeError,
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VarLibCFFHintTypeMergeError,
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VarLibMergeError,
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)
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# Backwards compatibility
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MergeDictError = VarLibCFFDictMergeError
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MergeTypeError = VarLibCFFPointTypeMergeError
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def addCFFVarStore(varFont, varModel, varDataList, masterSupports):
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fvarTable = varFont["fvar"]
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axisKeys = [axis.axisTag for axis in fvarTable.axes]
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varTupleList = varLib.builder.buildVarRegionList(masterSupports, axisKeys)
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varStoreCFFV = varLib.builder.buildVarStore(varTupleList, varDataList)
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topDict = varFont["CFF2"].cff.topDictIndex[0]
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topDict.VarStore = VarStoreData(otVarStore=varStoreCFFV)
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if topDict.FDArray[0].vstore is None:
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fdArray = topDict.FDArray
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for fontDict in fdArray:
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if hasattr(fontDict, "Private"):
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fontDict.Private.vstore = topDict.VarStore
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def lib_convertCFFToCFF2(cff, otFont):
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# This assumes a decompiled CFF table.
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cff2GetGlyphOrder = cff.otFont.getGlyphOrder
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topDictData = TopDictIndex(None, cff2GetGlyphOrder, None)
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topDictData.items = cff.topDictIndex.items
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cff.topDictIndex = topDictData
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topDict = topDictData[0]
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if hasattr(topDict, "Private"):
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privateDict = topDict.Private
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else:
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privateDict = None
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opOrder = buildOrder(topDictOperators2)
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topDict.order = opOrder
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topDict.cff2GetGlyphOrder = cff2GetGlyphOrder
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if not hasattr(topDict, "FDArray"):
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fdArray = topDict.FDArray = FDArrayIndex()
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fdArray.strings = None
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fdArray.GlobalSubrs = topDict.GlobalSubrs
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topDict.GlobalSubrs.fdArray = fdArray
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charStrings = topDict.CharStrings
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if charStrings.charStringsAreIndexed:
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charStrings.charStringsIndex.fdArray = fdArray
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else:
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charStrings.fdArray = fdArray
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fontDict = FontDict()
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fontDict.setCFF2(True)
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fdArray.append(fontDict)
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fontDict.Private = privateDict
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privateOpOrder = buildOrder(privateDictOperators2)
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if privateDict is not None:
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for entry in privateDictOperators:
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key = entry[1]
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if key not in privateOpOrder:
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if key in privateDict.rawDict:
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# print "Removing private dict", key
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del privateDict.rawDict[key]
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if hasattr(privateDict, key):
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delattr(privateDict, key)
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# print "Removing privateDict attr", key
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else:
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# clean up the PrivateDicts in the fdArray
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fdArray = topDict.FDArray
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privateOpOrder = buildOrder(privateDictOperators2)
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for fontDict in fdArray:
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fontDict.setCFF2(True)
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for key in list(fontDict.rawDict.keys()):
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if key not in fontDict.order:
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del fontDict.rawDict[key]
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if hasattr(fontDict, key):
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delattr(fontDict, key)
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privateDict = fontDict.Private
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for entry in privateDictOperators:
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key = entry[1]
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if key not in privateOpOrder:
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if key in privateDict.rawDict:
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# print "Removing private dict", key
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del privateDict.rawDict[key]
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if hasattr(privateDict, key):
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delattr(privateDict, key)
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# print "Removing privateDict attr", key
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# Now delete up the deprecated topDict operators from CFF 1.0
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for entry in topDictOperators:
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key = entry[1]
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if key not in opOrder:
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if key in topDict.rawDict:
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del topDict.rawDict[key]
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if hasattr(topDict, key):
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delattr(topDict, key)
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# At this point, the Subrs and Charstrings are all still T2Charstring class
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# easiest to fix this by compiling, then decompiling again
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cff.major = 2
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file = BytesIO()
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cff.compile(file, otFont, isCFF2=True)
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file.seek(0)
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cff.decompile(file, otFont, isCFF2=True)
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def convertCFFtoCFF2(varFont):
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# Convert base font to a single master CFF2 font.
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cffTable = varFont["CFF "]
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lib_convertCFFToCFF2(cffTable.cff, varFont)
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newCFF2 = newTable("CFF2")
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newCFF2.cff = cffTable.cff
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varFont["CFF2"] = newCFF2
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del varFont["CFF "]
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def conv_to_int(num):
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if isinstance(num, float) and num.is_integer():
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return int(num)
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return num
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pd_blend_fields = (
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"BlueValues",
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"OtherBlues",
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"FamilyBlues",
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"FamilyOtherBlues",
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"BlueScale",
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"BlueShift",
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"BlueFuzz",
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"StdHW",
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"StdVW",
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"StemSnapH",
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"StemSnapV",
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)
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def get_private(regionFDArrays, fd_index, ri, fd_map):
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region_fdArray = regionFDArrays[ri]
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region_fd_map = fd_map[fd_index]
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if ri in region_fd_map:
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region_fdIndex = region_fd_map[ri]
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private = region_fdArray[region_fdIndex].Private
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else:
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private = None
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return private
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def merge_PrivateDicts(top_dicts, vsindex_dict, var_model, fd_map):
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"""
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I step through the FontDicts in the FDArray of the varfont TopDict.
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For each varfont FontDict:
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* step through each key in FontDict.Private.
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* For each key, step through each relevant source font Private dict, and
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build a list of values to blend.
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The 'relevant' source fonts are selected by first getting the right
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submodel using ``vsindex_dict[vsindex]``. The indices of the
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``subModel.locations`` are mapped to source font list indices by
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assuming the latter order is the same as the order of the
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``var_model.locations``. I can then get the index of each subModel
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location in the list of ``var_model.locations``.
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"""
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topDict = top_dicts[0]
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region_top_dicts = top_dicts[1:]
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if hasattr(region_top_dicts[0], "FDArray"):
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regionFDArrays = [fdTopDict.FDArray for fdTopDict in region_top_dicts]
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else:
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regionFDArrays = [[fdTopDict] for fdTopDict in region_top_dicts]
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for fd_index, font_dict in enumerate(topDict.FDArray):
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private_dict = font_dict.Private
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vsindex = getattr(private_dict, "vsindex", 0)
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# At the moment, no PrivateDict has a vsindex key, but let's support
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# how it should work. See comment at end of
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# merge_charstrings() - still need to optimize use of vsindex.
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sub_model, _ = vsindex_dict[vsindex]
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master_indices = []
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for loc in sub_model.locations[1:]:
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i = var_model.locations.index(loc) - 1
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master_indices.append(i)
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pds = [private_dict]
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last_pd = private_dict
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for ri in master_indices:
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pd = get_private(regionFDArrays, fd_index, ri, fd_map)
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# If the region font doesn't have this FontDict, just reference
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# the last one used.
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if pd is None:
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pd = last_pd
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else:
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last_pd = pd
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pds.append(pd)
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num_masters = len(pds)
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for key, value in private_dict.rawDict.items():
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dataList = []
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if key not in pd_blend_fields:
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continue
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if isinstance(value, list):
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try:
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values = [pd.rawDict[key] for pd in pds]
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except KeyError:
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print(
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"Warning: {key} in default font Private dict is "
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"missing from another font, and was "
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"discarded.".format(key=key)
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)
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continue
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try:
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values = zip(*values)
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except IndexError:
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raise VarLibCFFDictMergeError(key, value, values)
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"""
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Row 0 contains the first value from each master.
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Convert each row from absolute values to relative
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values from the previous row.
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e.g for three masters, a list of values was:
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master 0 OtherBlues = [-217,-205]
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master 1 OtherBlues = [-234,-222]
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master 1 OtherBlues = [-188,-176]
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The call to zip() converts this to:
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[(-217, -234, -188), (-205, -222, -176)]
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and is converted finally to:
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OtherBlues = [[-217, 17.0, 46.0], [-205, 0.0, 0.0]]
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"""
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prev_val_list = [0] * num_masters
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any_points_differ = False
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for val_list in values:
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rel_list = [
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(val - prev_val_list[i]) for (i, val) in enumerate(val_list)
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]
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if (not any_points_differ) and not allEqual(rel_list):
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any_points_differ = True
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prev_val_list = val_list
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deltas = sub_model.getDeltas(rel_list)
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# For PrivateDict BlueValues, the default font
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# values are absolute, not relative to the prior value.
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deltas[0] = val_list[0]
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dataList.append(deltas)
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# If there are no blend values,then
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# we can collapse the blend lists.
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if not any_points_differ:
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dataList = [data[0] for data in dataList]
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else:
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values = [pd.rawDict[key] for pd in pds]
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if not allEqual(values):
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dataList = sub_model.getDeltas(values)
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else:
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dataList = values[0]
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# Convert numbers with no decimal part to an int
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if isinstance(dataList, list):
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for i, item in enumerate(dataList):
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if isinstance(item, list):
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for j, jtem in enumerate(item):
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dataList[i][j] = conv_to_int(jtem)
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else:
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dataList[i] = conv_to_int(item)
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else:
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dataList = conv_to_int(dataList)
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private_dict.rawDict[key] = dataList
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def _cff_or_cff2(font):
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if "CFF " in font:
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return font["CFF "]
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return font["CFF2"]
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def getfd_map(varFont, fonts_list):
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"""Since a subset source font may have fewer FontDicts in their
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FDArray than the default font, we have to match up the FontDicts in
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the different fonts . We do this with the FDSelect array, and by
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assuming that the same glyph will reference matching FontDicts in
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each source font. We return a mapping from fdIndex in the default
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font to a dictionary which maps each master list index of each
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region font to the equivalent fdIndex in the region font."""
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fd_map = {}
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default_font = fonts_list[0]
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region_fonts = fonts_list[1:]
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num_regions = len(region_fonts)
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topDict = _cff_or_cff2(default_font).cff.topDictIndex[0]
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if not hasattr(topDict, "FDSelect"):
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# All glyphs reference only one FontDict.
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# Map the FD index for regions to index 0.
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fd_map[0] = {ri: 0 for ri in range(num_regions)}
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return fd_map
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gname_mapping = {}
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default_fdSelect = topDict.FDSelect
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glyphOrder = default_font.getGlyphOrder()
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for gid, fdIndex in enumerate(default_fdSelect):
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gname_mapping[glyphOrder[gid]] = fdIndex
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if fdIndex not in fd_map:
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fd_map[fdIndex] = {}
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for ri, region_font in enumerate(region_fonts):
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region_glyphOrder = region_font.getGlyphOrder()
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region_topDict = _cff_or_cff2(region_font).cff.topDictIndex[0]
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if not hasattr(region_topDict, "FDSelect"):
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# All the glyphs share the same FontDict. Pick any glyph.
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default_fdIndex = gname_mapping[region_glyphOrder[0]]
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fd_map[default_fdIndex][ri] = 0
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else:
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region_fdSelect = region_topDict.FDSelect
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for gid, fdIndex in enumerate(region_fdSelect):
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default_fdIndex = gname_mapping[region_glyphOrder[gid]]
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region_map = fd_map[default_fdIndex]
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if ri not in region_map:
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region_map[ri] = fdIndex
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return fd_map
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CVarData = namedtuple("CVarData", "varDataList masterSupports vsindex_dict")
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def merge_region_fonts(varFont, model, ordered_fonts_list, glyphOrder):
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topDict = varFont["CFF2"].cff.topDictIndex[0]
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top_dicts = [topDict] + [
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_cff_or_cff2(ttFont).cff.topDictIndex[0] for ttFont in ordered_fonts_list[1:]
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]
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num_masters = len(model.mapping)
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cvData = merge_charstrings(glyphOrder, num_masters, top_dicts, model)
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fd_map = getfd_map(varFont, ordered_fonts_list)
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merge_PrivateDicts(top_dicts, cvData.vsindex_dict, model, fd_map)
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addCFFVarStore(varFont, model, cvData.varDataList, cvData.masterSupports)
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def _get_cs(charstrings, glyphName, filterEmpty=False):
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if glyphName not in charstrings:
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return None
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cs = charstrings[glyphName]
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if filterEmpty:
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cs.decompile()
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if cs.program == []: # CFF2 empty charstring
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return None
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elif (
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len(cs.program) <= 2
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and cs.program[-1] == "endchar"
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and (len(cs.program) == 1 or type(cs.program[0]) in (int, float))
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): # CFF1 empty charstring
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return None
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return cs
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def _add_new_vsindex(
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model, key, masterSupports, vsindex_dict, vsindex_by_key, varDataList
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):
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varTupleIndexes = []
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for support in model.supports[1:]:
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if support not in masterSupports:
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masterSupports.append(support)
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varTupleIndexes.append(masterSupports.index(support))
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var_data = varLib.builder.buildVarData(varTupleIndexes, None, False)
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vsindex = len(vsindex_dict)
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vsindex_by_key[key] = vsindex
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vsindex_dict[vsindex] = (model, [key])
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varDataList.append(var_data)
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return vsindex
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def merge_charstrings(glyphOrder, num_masters, top_dicts, masterModel):
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vsindex_dict = {}
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vsindex_by_key = {}
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varDataList = []
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masterSupports = []
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default_charstrings = top_dicts[0].CharStrings
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for gid, gname in enumerate(glyphOrder):
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# interpret empty non-default masters as missing glyphs from a sparse master
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all_cs = [
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_get_cs(td.CharStrings, gname, i != 0) for i, td in enumerate(top_dicts)
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]
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model, model_cs = masterModel.getSubModel(all_cs)
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# create the first pass CFF2 charstring, from
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# the default charstring.
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default_charstring = model_cs[0]
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var_pen = CFF2CharStringMergePen([], gname, num_masters, 0)
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# We need to override outlineExtractor because these
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# charstrings do have widths in the 'program'; we need to drop these
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# values rather than post assertion error for them.
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default_charstring.outlineExtractor = MergeOutlineExtractor
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default_charstring.draw(var_pen)
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# Add the coordinates from all the other regions to the
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# blend lists in the CFF2 charstring.
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region_cs = model_cs[1:]
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for region_idx, region_charstring in enumerate(region_cs, start=1):
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var_pen.restart(region_idx)
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region_charstring.outlineExtractor = MergeOutlineExtractor
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region_charstring.draw(var_pen)
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# Collapse each coordinate list to a blend operator and its args.
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new_cs = var_pen.getCharString(
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private=default_charstring.private,
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globalSubrs=default_charstring.globalSubrs,
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var_model=model,
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optimize=True,
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)
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default_charstrings[gname] = new_cs
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if not region_cs:
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continue
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if (not var_pen.seen_moveto) or ("blend" not in new_cs.program):
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# If this is not a marking glyph, or if there are no blend
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# arguments, then we can use vsindex 0. No need to
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# check if we need a new vsindex.
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continue
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# If the charstring required a new model, create
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# a VarData table to go with, and set vsindex.
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key = tuple(v is not None for v in all_cs)
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try:
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vsindex = vsindex_by_key[key]
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except KeyError:
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vsindex = _add_new_vsindex(
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model, key, masterSupports, vsindex_dict, vsindex_by_key, varDataList
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)
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# We do not need to check for an existing new_cs.private.vsindex,
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# as we know it doesn't exist yet.
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if vsindex != 0:
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new_cs.program[:0] = [vsindex, "vsindex"]
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# If there is no variation in any of the charstrings, then vsindex_dict
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# never gets built. This could still be needed if there is variation
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# in the PrivatDict, so we will build the default data for vsindex = 0.
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if not vsindex_dict:
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key = (True,) * num_masters
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_add_new_vsindex(
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masterModel, key, masterSupports, vsindex_dict, vsindex_by_key, varDataList
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)
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cvData = CVarData(
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varDataList=varDataList,
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masterSupports=masterSupports,
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vsindex_dict=vsindex_dict,
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)
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# XXX To do: optimize use of vsindex between the PrivateDicts and
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# charstrings
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return cvData
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class CFFToCFF2OutlineExtractor(T2OutlineExtractor):
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"""This class is used to remove the initial width from the CFF
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charstring without trying to add the width to self.nominalWidthX,
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which is None."""
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def popallWidth(self, evenOdd=0):
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args = self.popall()
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if not self.gotWidth:
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if evenOdd ^ (len(args) % 2):
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args = args[1:]
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self.width = self.defaultWidthX
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self.gotWidth = 1
|
|
return args
|
|
|
|
|
|
class MergeOutlineExtractor(CFFToCFF2OutlineExtractor):
|
|
"""Used to extract the charstring commands - including hints - from a
|
|
CFF charstring in order to merge it as another set of region data
|
|
into a CFF2 variable font charstring."""
|
|
|
|
def __init__(
|
|
self,
|
|
pen,
|
|
localSubrs,
|
|
globalSubrs,
|
|
nominalWidthX,
|
|
defaultWidthX,
|
|
private=None,
|
|
blender=None,
|
|
):
|
|
super().__init__(
|
|
pen, localSubrs, globalSubrs, nominalWidthX, defaultWidthX, private, blender
|
|
)
|
|
|
|
def countHints(self):
|
|
args = self.popallWidth()
|
|
self.hintCount = self.hintCount + len(args) // 2
|
|
return args
|
|
|
|
def _hint_op(self, type, args):
|
|
self.pen.add_hint(type, args)
|
|
|
|
def op_hstem(self, index):
|
|
args = self.countHints()
|
|
self._hint_op("hstem", args)
|
|
|
|
def op_vstem(self, index):
|
|
args = self.countHints()
|
|
self._hint_op("vstem", args)
|
|
|
|
def op_hstemhm(self, index):
|
|
args = self.countHints()
|
|
self._hint_op("hstemhm", args)
|
|
|
|
def op_vstemhm(self, index):
|
|
args = self.countHints()
|
|
self._hint_op("vstemhm", args)
|
|
|
|
def _get_hintmask(self, index):
|
|
if not self.hintMaskBytes:
|
|
args = self.countHints()
|
|
if args:
|
|
self._hint_op("vstemhm", args)
|
|
self.hintMaskBytes = (self.hintCount + 7) // 8
|
|
hintMaskBytes, index = self.callingStack[-1].getBytes(index, self.hintMaskBytes)
|
|
return index, hintMaskBytes
|
|
|
|
def op_hintmask(self, index):
|
|
index, hintMaskBytes = self._get_hintmask(index)
|
|
self.pen.add_hintmask("hintmask", [hintMaskBytes])
|
|
return hintMaskBytes, index
|
|
|
|
def op_cntrmask(self, index):
|
|
index, hintMaskBytes = self._get_hintmask(index)
|
|
self.pen.add_hintmask("cntrmask", [hintMaskBytes])
|
|
return hintMaskBytes, index
|
|
|
|
|
|
class CFF2CharStringMergePen(T2CharStringPen):
|
|
"""Pen to merge Type 2 CharStrings."""
|
|
|
|
def __init__(
|
|
self, default_commands, glyphName, num_masters, master_idx, roundTolerance=0.01
|
|
):
|
|
# For roundTolerance see https://github.com/fonttools/fonttools/issues/2838
|
|
super().__init__(
|
|
width=None, glyphSet=None, CFF2=True, roundTolerance=roundTolerance
|
|
)
|
|
self.pt_index = 0
|
|
self._commands = default_commands
|
|
self.m_index = master_idx
|
|
self.num_masters = num_masters
|
|
self.prev_move_idx = 0
|
|
self.seen_moveto = False
|
|
self.glyphName = glyphName
|
|
self.round = roundFunc(roundTolerance, round=round)
|
|
|
|
def add_point(self, point_type, pt_coords):
|
|
if self.m_index == 0:
|
|
self._commands.append([point_type, [pt_coords]])
|
|
else:
|
|
cmd = self._commands[self.pt_index]
|
|
if cmd[0] != point_type:
|
|
raise VarLibCFFPointTypeMergeError(
|
|
point_type, self.pt_index, len(cmd[1]), cmd[0], self.glyphName
|
|
)
|
|
cmd[1].append(pt_coords)
|
|
self.pt_index += 1
|
|
|
|
def add_hint(self, hint_type, args):
|
|
if self.m_index == 0:
|
|
self._commands.append([hint_type, [args]])
|
|
else:
|
|
cmd = self._commands[self.pt_index]
|
|
if cmd[0] != hint_type:
|
|
raise VarLibCFFHintTypeMergeError(
|
|
hint_type, self.pt_index, len(cmd[1]), cmd[0], self.glyphName
|
|
)
|
|
cmd[1].append(args)
|
|
self.pt_index += 1
|
|
|
|
def add_hintmask(self, hint_type, abs_args):
|
|
# For hintmask, fonttools.cffLib.specializer.py expects
|
|
# each of these to be represented by two sequential commands:
|
|
# first holding only the operator name, with an empty arg list,
|
|
# second with an empty string as the op name, and the mask arg list.
|
|
if self.m_index == 0:
|
|
self._commands.append([hint_type, []])
|
|
self._commands.append(["", [abs_args]])
|
|
else:
|
|
cmd = self._commands[self.pt_index]
|
|
if cmd[0] != hint_type:
|
|
raise VarLibCFFHintTypeMergeError(
|
|
hint_type, self.pt_index, len(cmd[1]), cmd[0], self.glyphName
|
|
)
|
|
self.pt_index += 1
|
|
cmd = self._commands[self.pt_index]
|
|
cmd[1].append(abs_args)
|
|
self.pt_index += 1
|
|
|
|
def _moveTo(self, pt):
|
|
if not self.seen_moveto:
|
|
self.seen_moveto = True
|
|
pt_coords = self._p(pt)
|
|
self.add_point("rmoveto", pt_coords)
|
|
# I set prev_move_idx here because add_point()
|
|
# can change self.pt_index.
|
|
self.prev_move_idx = self.pt_index - 1
|
|
|
|
def _lineTo(self, pt):
|
|
pt_coords = self._p(pt)
|
|
self.add_point("rlineto", pt_coords)
|
|
|
|
def _curveToOne(self, pt1, pt2, pt3):
|
|
_p = self._p
|
|
pt_coords = _p(pt1) + _p(pt2) + _p(pt3)
|
|
self.add_point("rrcurveto", pt_coords)
|
|
|
|
def _closePath(self):
|
|
pass
|
|
|
|
def _endPath(self):
|
|
pass
|
|
|
|
def restart(self, region_idx):
|
|
self.pt_index = 0
|
|
self.m_index = region_idx
|
|
self._p0 = (0, 0)
|
|
|
|
def getCommands(self):
|
|
return self._commands
|
|
|
|
def reorder_blend_args(self, commands, get_delta_func):
|
|
"""
|
|
We first re-order the master coordinate values.
|
|
For a moveto to lineto, the args are now arranged as::
|
|
|
|
[ [master_0 x,y], [master_1 x,y], [master_2 x,y] ]
|
|
|
|
We re-arrange this to::
|
|
|
|
[ [master_0 x, master_1 x, master_2 x],
|
|
[master_0 y, master_1 y, master_2 y]
|
|
]
|
|
|
|
If the master values are all the same, we collapse the list to
|
|
as single value instead of a list.
|
|
|
|
We then convert this to::
|
|
|
|
[ [master_0 x] + [x delta tuple] + [numBlends=1]
|
|
[master_0 y] + [y delta tuple] + [numBlends=1]
|
|
]
|
|
"""
|
|
for cmd in commands:
|
|
# arg[i] is the set of arguments for this operator from master i.
|
|
args = cmd[1]
|
|
m_args = zip(*args)
|
|
# m_args[n] is now all num_master args for the i'th argument
|
|
# for this operation.
|
|
cmd[1] = list(m_args)
|
|
lastOp = None
|
|
for cmd in commands:
|
|
op = cmd[0]
|
|
# masks are represented by two cmd's: first has only op names,
|
|
# second has only args.
|
|
if lastOp in ["hintmask", "cntrmask"]:
|
|
coord = list(cmd[1])
|
|
if not allEqual(coord):
|
|
raise VarLibMergeError(
|
|
"Hintmask values cannot differ between source fonts."
|
|
)
|
|
cmd[1] = [coord[0][0]]
|
|
else:
|
|
coords = cmd[1]
|
|
new_coords = []
|
|
for coord in coords:
|
|
if allEqual(coord):
|
|
new_coords.append(coord[0])
|
|
else:
|
|
# convert to deltas
|
|
deltas = get_delta_func(coord)[1:]
|
|
coord = [coord[0]] + deltas
|
|
coord.append(1)
|
|
new_coords.append(coord)
|
|
cmd[1] = new_coords
|
|
lastOp = op
|
|
return commands
|
|
|
|
def getCharString(
|
|
self, private=None, globalSubrs=None, var_model=None, optimize=True
|
|
):
|
|
commands = self._commands
|
|
commands = self.reorder_blend_args(
|
|
commands, partial(var_model.getDeltas, round=self.round)
|
|
)
|
|
if optimize:
|
|
commands = specializeCommands(
|
|
commands, generalizeFirst=False, maxstack=maxStackLimit
|
|
)
|
|
program = commandsToProgram(commands)
|
|
charString = T2CharString(
|
|
program=program, private=private, globalSubrs=globalSubrs
|
|
)
|
|
return charString
|