/usr/lib/python2.7/dist-packages/FontTools/fontTools/ttLib/tables/E_B_L_C_.py is in fonttools 3.0-1.
This file is owned by root:root, with mode 0o644.
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from fontTools.misc.py23 import *
from fontTools.misc import sstruct
from . import DefaultTable
from fontTools.misc.textTools import safeEval
from .BitmapGlyphMetrics import BigGlyphMetrics, bigGlyphMetricsFormat, SmallGlyphMetrics, smallGlyphMetricsFormat
import struct
import itertools
from collections import deque
eblcHeaderFormat = """
> # big endian
version: 16.16F
numSizes: I
"""
# The table format string is split to handle sbitLineMetrics simply.
bitmapSizeTableFormatPart1 = """
> # big endian
indexSubTableArrayOffset: I
indexTablesSize: I
numberOfIndexSubTables: I
colorRef: I
"""
# The compound type for hori and vert.
sbitLineMetricsFormat = """
> # big endian
ascender: b
descender: b
widthMax: B
caretSlopeNumerator: b
caretSlopeDenominator: b
caretOffset: b
minOriginSB: b
minAdvanceSB: b
maxBeforeBL: b
minAfterBL: b
pad1: b
pad2: b
"""
# hori and vert go between the two parts.
bitmapSizeTableFormatPart2 = """
> # big endian
startGlyphIndex: H
endGlyphIndex: H
ppemX: B
ppemY: B
bitDepth: B
flags: b
"""
indexSubTableArrayFormat = ">HHL"
indexSubTableArraySize = struct.calcsize(indexSubTableArrayFormat)
indexSubHeaderFormat = ">HHL"
indexSubHeaderSize = struct.calcsize(indexSubHeaderFormat)
codeOffsetPairFormat = ">HH"
codeOffsetPairSize = struct.calcsize(codeOffsetPairFormat)
class table_E_B_L_C_(DefaultTable.DefaultTable):
dependencies = ['EBDT']
# This method can be overridden in subclasses to support new formats
# without changing the other implementation. Also can be used as a
# convenience method for coverting a font file to an alternative format.
def getIndexFormatClass(self, indexFormat):
return eblc_sub_table_classes[indexFormat]
def decompile(self, data, ttFont):
# Save the original data because offsets are from the start of the table.
origData = data
dummy, data = sstruct.unpack2(eblcHeaderFormat, data, self)
self.strikes = []
for curStrikeIndex in range(self.numSizes):
curStrike = Strike()
self.strikes.append(curStrike)
curTable = curStrike.bitmapSizeTable
dummy, data = sstruct.unpack2(bitmapSizeTableFormatPart1, data, curTable)
for metric in ('hori', 'vert'):
metricObj = SbitLineMetrics()
vars(curTable)[metric] = metricObj
dummy, data = sstruct.unpack2(sbitLineMetricsFormat, data, metricObj)
dummy, data = sstruct.unpack2(bitmapSizeTableFormatPart2, data, curTable)
for curStrike in self.strikes:
curTable = curStrike.bitmapSizeTable
for subtableIndex in range(curTable.numberOfIndexSubTables):
lowerBound = curTable.indexSubTableArrayOffset + subtableIndex * indexSubTableArraySize
upperBound = lowerBound + indexSubTableArraySize
data = origData[lowerBound:upperBound]
tup = struct.unpack(indexSubTableArrayFormat, data)
(firstGlyphIndex, lastGlyphIndex, additionalOffsetToIndexSubtable) = tup
offsetToIndexSubTable = curTable.indexSubTableArrayOffset + additionalOffsetToIndexSubtable
data = origData[offsetToIndexSubTable:]
tup = struct.unpack(indexSubHeaderFormat, data[:indexSubHeaderSize])
(indexFormat, imageFormat, imageDataOffset) = tup
indexFormatClass = self.getIndexFormatClass(indexFormat)
indexSubTable = indexFormatClass(data[indexSubHeaderSize:], ttFont)
indexSubTable.firstGlyphIndex = firstGlyphIndex
indexSubTable.lastGlyphIndex = lastGlyphIndex
indexSubTable.additionalOffsetToIndexSubtable = additionalOffsetToIndexSubtable
indexSubTable.indexFormat = indexFormat
indexSubTable.imageFormat = imageFormat
indexSubTable.imageDataOffset = imageDataOffset
curStrike.indexSubTables.append(indexSubTable)
def compile(self, ttFont):
dataList = []
self.numSizes = len(self.strikes)
dataList.append(sstruct.pack(eblcHeaderFormat, self))
# Data size of the header + bitmapSizeTable needs to be calculated
# in order to form offsets. This value will hold the size of the data
# in dataList after all the data is consolidated in dataList.
dataSize = len(dataList[0])
# The table will be structured in the following order:
# (0) header
# (1) Each bitmapSizeTable [1 ... self.numSizes]
# (2) Alternate between indexSubTableArray and indexSubTable
# for each bitmapSizeTable present.
#
# The issue is maintaining the proper offsets when table information
# gets moved around. All offsets and size information must be recalculated
# when building the table to allow editing within ttLib and also allow easy
# import/export to and from XML. All of this offset information is lost
# when exporting to XML so everything must be calculated fresh so importing
# from XML will work cleanly. Only byte offset and size information is
# calculated fresh. Count information like numberOfIndexSubTables is
# checked through assertions. If the information in this table was not
# touched or was changed properly then these types of values should match.
#
# The table will be rebuilt the following way:
# (0) Precompute the size of all the bitmapSizeTables. This is needed to
# compute the offsets properly.
# (1) For each bitmapSizeTable compute the indexSubTable and
# indexSubTableArray pair. The indexSubTable must be computed first
# so that the offset information in indexSubTableArray can be
# calculated. Update the data size after each pairing.
# (2) Build each bitmapSizeTable.
# (3) Consolidate all the data into the main dataList in the correct order.
for curStrike in self.strikes:
dataSize += sstruct.calcsize(bitmapSizeTableFormatPart1)
dataSize += len(('hori', 'vert')) * sstruct.calcsize(sbitLineMetricsFormat)
dataSize += sstruct.calcsize(bitmapSizeTableFormatPart2)
indexSubTablePairDataList = []
for curStrike in self.strikes:
curTable = curStrike.bitmapSizeTable
curTable.numberOfIndexSubTables = len(curStrike.indexSubTables)
curTable.indexSubTableArrayOffset = dataSize
# Precompute the size of the indexSubTableArray. This information
# is important for correctly calculating the new value for
# additionalOffsetToIndexSubtable.
sizeOfSubTableArray = curTable.numberOfIndexSubTables * indexSubTableArraySize
lowerBound = dataSize
dataSize += sizeOfSubTableArray
upperBound = dataSize
indexSubTableDataList = []
for indexSubTable in curStrike.indexSubTables:
indexSubTable.additionalOffsetToIndexSubtable = dataSize - curTable.indexSubTableArrayOffset
glyphIds = list(map(ttFont.getGlyphID, indexSubTable.names))
indexSubTable.firstGlyphIndex = min(glyphIds)
indexSubTable.lastGlyphIndex = max(glyphIds)
data = indexSubTable.compile(ttFont)
indexSubTableDataList.append(data)
dataSize += len(data)
curTable.startGlyphIndex = min(ist.firstGlyphIndex for ist in curStrike.indexSubTables)
curTable.endGlyphIndex = max(ist.lastGlyphIndex for ist in curStrike.indexSubTables)
for i in curStrike.indexSubTables:
data = struct.pack(indexSubHeaderFormat, i.firstGlyphIndex, i.lastGlyphIndex, i.additionalOffsetToIndexSubtable)
indexSubTablePairDataList.append(data)
indexSubTablePairDataList.extend(indexSubTableDataList)
curTable.indexTablesSize = dataSize - curTable.indexSubTableArrayOffset
for curStrike in self.strikes:
curTable = curStrike.bitmapSizeTable
data = sstruct.pack(bitmapSizeTableFormatPart1, curTable)
dataList.append(data)
for metric in ('hori', 'vert'):
metricObj = vars(curTable)[metric]
data = sstruct.pack(sbitLineMetricsFormat, metricObj)
dataList.append(data)
data = sstruct.pack(bitmapSizeTableFormatPart2, curTable)
dataList.append(data)
dataList.extend(indexSubTablePairDataList)
return bytesjoin(dataList)
def toXML(self, writer, ttFont):
writer.simpletag('header', [('version', self.version)])
writer.newline()
for curIndex, curStrike in enumerate(self.strikes):
curStrike.toXML(curIndex, writer, ttFont)
def fromXML(self, name, attrs, content, ttFont):
if name == 'header':
self.version = safeEval(attrs['version'])
elif name == 'strike':
if not hasattr(self, 'strikes'):
self.strikes = []
strikeIndex = safeEval(attrs['index'])
curStrike = Strike()
curStrike.fromXML(name, attrs, content, ttFont, self)
# Grow the strike array to the appropriate size. The XML format
# allows for the strike index value to be out of order.
if strikeIndex >= len(self.strikes):
self.strikes += [None] * (strikeIndex + 1 - len(self.strikes))
assert self.strikes[strikeIndex] is None, "Duplicate strike EBLC indices."
self.strikes[strikeIndex] = curStrike
class Strike(object):
def __init__(self):
self.bitmapSizeTable = BitmapSizeTable()
self.indexSubTables = []
def toXML(self, strikeIndex, writer, ttFont):
writer.begintag('strike', [('index', strikeIndex)])
writer.newline()
self.bitmapSizeTable.toXML(writer, ttFont)
writer.comment('GlyphIds are written but not read. The firstGlyphIndex and\nlastGlyphIndex values will be recalculated by the compiler.')
writer.newline()
for indexSubTable in self.indexSubTables:
indexSubTable.toXML(writer, ttFont)
writer.endtag('strike')
writer.newline()
def fromXML(self, name, attrs, content, ttFont, locator):
for element in content:
if not isinstance(element, tuple):
continue
name, attrs, content = element
if name == 'bitmapSizeTable':
self.bitmapSizeTable.fromXML(name, attrs, content, ttFont)
elif name.startswith(_indexSubTableSubclassPrefix):
indexFormat = safeEval(name[len(_indexSubTableSubclassPrefix):])
indexFormatClass = locator.getIndexFormatClass(indexFormat)
indexSubTable = indexFormatClass(None, None)
indexSubTable.indexFormat = indexFormat
indexSubTable.fromXML(name, attrs, content, ttFont)
self.indexSubTables.append(indexSubTable)
class BitmapSizeTable(object):
# Returns all the simple metric names that bitmap size table
# cares about in terms of XML creation.
def _getXMLMetricNames(self):
dataNames = sstruct.getformat(bitmapSizeTableFormatPart1)[1]
dataNames = dataNames + sstruct.getformat(bitmapSizeTableFormatPart2)[1]
# Skip the first 3 data names because they are byte offsets and counts.
return dataNames[3:]
def toXML(self, writer, ttFont):
writer.begintag('bitmapSizeTable')
writer.newline()
for metric in ('hori', 'vert'):
getattr(self, metric).toXML(metric, writer, ttFont)
for metricName in self._getXMLMetricNames():
writer.simpletag(metricName, value=getattr(self, metricName))
writer.newline()
writer.endtag('bitmapSizeTable')
writer.newline()
def fromXML(self, name, attrs, content, ttFont):
# Create a lookup for all the simple names that make sense to
# bitmap size table. Only read the information from these names.
dataNames = set(self._getXMLMetricNames())
for element in content:
if not isinstance(element, tuple):
continue
name, attrs, content = element
if name == 'sbitLineMetrics':
direction = attrs['direction']
assert direction in ('hori', 'vert'), "SbitLineMetrics direction specified invalid."
metricObj = SbitLineMetrics()
metricObj.fromXML(name, attrs, content, ttFont)
vars(self)[direction] = metricObj
elif name in dataNames:
vars(self)[name] = safeEval(attrs['value'])
else:
print("Warning: unknown name '%s' being ignored in BitmapSizeTable." % name)
class SbitLineMetrics(object):
def toXML(self, name, writer, ttFont):
writer.begintag('sbitLineMetrics', [('direction', name)])
writer.newline()
for metricName in sstruct.getformat(sbitLineMetricsFormat)[1]:
writer.simpletag(metricName, value=getattr(self, metricName))
writer.newline()
writer.endtag('sbitLineMetrics')
writer.newline()
def fromXML(self, name, attrs, content, ttFont):
metricNames = set(sstruct.getformat(sbitLineMetricsFormat)[1])
for element in content:
if not isinstance(element, tuple):
continue
name, attrs, content = element
if name in metricNames:
vars(self)[name] = safeEval(attrs['value'])
# Important information about the naming scheme. Used for identifying subtables.
_indexSubTableSubclassPrefix = 'eblc_index_sub_table_'
class EblcIndexSubTable(object):
def __init__(self, data, ttFont):
self.data = data
self.ttFont = ttFont
# TODO Currently non-lazy decompiling doesn't work for this class...
#if not ttFont.lazy:
# self.decompile()
# del self.data, self.ttFont
def __getattr__(self, attr):
# Allow lazy decompile.
if attr[:2] == '__':
raise AttributeError(attr)
if not hasattr(self, "data"):
raise AttributeError(attr)
self.decompile()
del self.data, self.ttFont
return getattr(self, attr)
# This method just takes care of the indexSubHeader. Implementing subclasses
# should call it to compile the indexSubHeader and then continue compiling
# the remainder of their unique format.
def compile(self, ttFont):
return struct.pack(indexSubHeaderFormat, self.indexFormat, self.imageFormat, self.imageDataOffset)
# Creates the XML for bitmap glyphs. Each index sub table basically makes
# the same XML except for specific metric information that is written
# out via a method call that a subclass implements optionally.
def toXML(self, writer, ttFont):
writer.begintag(self.__class__.__name__, [
('imageFormat', self.imageFormat),
('firstGlyphIndex', self.firstGlyphIndex),
('lastGlyphIndex', self.lastGlyphIndex),
])
writer.newline()
self.writeMetrics(writer, ttFont)
# Write out the names as thats all thats needed to rebuild etc.
# For font debugging of consecutive formats the ids are also written.
# The ids are not read when moving from the XML format.
glyphIds = map(ttFont.getGlyphID, self.names)
for glyphName, glyphId in zip(self.names, glyphIds):
writer.simpletag('glyphLoc', name=glyphName, id=glyphId)
writer.newline()
writer.endtag(self.__class__.__name__)
writer.newline()
def fromXML(self, name, attrs, content, ttFont):
# Read all the attributes. Even though the glyph indices are
# recalculated, they are still read in case there needs to
# be an immediate export of the data.
self.imageFormat = safeEval(attrs['imageFormat'])
self.firstGlyphIndex = safeEval(attrs['firstGlyphIndex'])
self.lastGlyphIndex = safeEval(attrs['lastGlyphIndex'])
self.readMetrics(name, attrs, content, ttFont)
self.names = []
for element in content:
if not isinstance(element, tuple):
continue
name, attrs, content = element
if name == 'glyphLoc':
self.names.append(attrs['name'])
# A helper method that writes the metrics for the index sub table. It also
# is responsible for writing the image size for fixed size data since fixed
# size is not recalculated on compile. Default behavior is to do nothing.
def writeMetrics(self, writer, ttFont):
pass
# A helper method that is the inverse of writeMetrics.
def readMetrics(self, name, attrs, content, ttFont):
pass
# This method is for fixed glyph data sizes. There are formats where
# the glyph data is fixed but are actually composite glyphs. To handle
# this the font spec in indexSubTable makes the data the size of the
# fixed size by padding the component arrays. This function abstracts
# out this padding process. Input is data unpadded. Output is data
# padded only in fixed formats. Default behavior is to return the data.
def padBitmapData(self, data):
return data
# Remove any of the glyph locations and names that are flagged as skipped.
# This only occurs in formats {1,3}.
def removeSkipGlyphs(self):
# Determines if a name, location pair is a valid data location.
# Skip glyphs are marked when the size is equal to zero.
def isValidLocation(args):
(name, (startByte, endByte)) = args
return startByte < endByte
# Remove all skip glyphs.
dataPairs = list(filter(isValidLocation, zip(self.names, self.locations)))
self.names, self.locations = list(map(list, zip(*dataPairs)))
# A closure for creating a custom mixin. This is done because formats 1 and 3
# are very similar. The only difference between them is the size per offset
# value. Code put in here should handle both cases generally.
def _createOffsetArrayIndexSubTableMixin(formatStringForDataType):
# Prep the data size for the offset array data format.
dataFormat = '>'+formatStringForDataType
offsetDataSize = struct.calcsize(dataFormat)
class OffsetArrayIndexSubTableMixin(object):
def decompile(self):
numGlyphs = self.lastGlyphIndex - self.firstGlyphIndex + 1
indexingOffsets = [glyphIndex * offsetDataSize for glyphIndex in range(numGlyphs+2)]
indexingLocations = zip(indexingOffsets, indexingOffsets[1:])
offsetArray = [struct.unpack(dataFormat, self.data[slice(*loc)])[0] for loc in indexingLocations]
glyphIds = list(range(self.firstGlyphIndex, self.lastGlyphIndex+1))
modifiedOffsets = [offset + self.imageDataOffset for offset in offsetArray]
self.locations = list(zip(modifiedOffsets, modifiedOffsets[1:]))
self.names = list(map(self.ttFont.getGlyphName, glyphIds))
self.removeSkipGlyphs()
def compile(self, ttFont):
# First make sure that all the data lines up properly. Formats 1 and 3
# must have all its data lined up consecutively. If not this will fail.
for curLoc, nxtLoc in zip(self.locations, self.locations[1:]):
assert curLoc[1] == nxtLoc[0], "Data must be consecutive in indexSubTable offset formats"
glyphIds = list(map(ttFont.getGlyphID, self.names))
# Make sure that all ids are sorted strictly increasing.
assert all(glyphIds[i] < glyphIds[i+1] for i in range(len(glyphIds)-1))
# Run a simple algorithm to add skip glyphs to the data locations at
# the places where an id is not present.
idQueue = deque(glyphIds)
locQueue = deque(self.locations)
allGlyphIds = list(range(self.firstGlyphIndex, self.lastGlyphIndex+1))
allLocations = []
for curId in allGlyphIds:
if curId != idQueue[0]:
allLocations.append((locQueue[0][0], locQueue[0][0]))
else:
idQueue.popleft()
allLocations.append(locQueue.popleft())
# Now that all the locations are collected, pack them appropriately into
# offsets. This is the form where offset[i] is the location and
# offset[i+1]-offset[i] is the size of the data location.
offsets = list(allLocations[0]) + [loc[1] for loc in allLocations[1:]]
# Image data offset must be less than or equal to the minimum of locations.
# This offset may change the value for round tripping but is safer and
# allows imageDataOffset to not be required to be in the XML version.
self.imageDataOffset = min(offsets)
offsetArray = [offset - self.imageDataOffset for offset in offsets]
dataList = [EblcIndexSubTable.compile(self, ttFont)]
dataList += [struct.pack(dataFormat, offsetValue) for offsetValue in offsetArray]
# Take care of any padding issues. Only occurs in format 3.
if offsetDataSize * len(dataList) % 4 != 0:
dataList.append(struct.pack(dataFormat, 0))
return bytesjoin(dataList)
return OffsetArrayIndexSubTableMixin
# A Mixin for functionality shared between the different kinds
# of fixed sized data handling. Both kinds have big metrics so
# that kind of special processing is also handled in this mixin.
class FixedSizeIndexSubTableMixin(object):
def writeMetrics(self, writer, ttFont):
writer.simpletag('imageSize', value=self.imageSize)
writer.newline()
self.metrics.toXML(writer, ttFont)
def readMetrics(self, name, attrs, content, ttFont):
for element in content:
if not isinstance(element, tuple):
continue
name, attrs, content = element
if name == 'imageSize':
self.imageSize = safeEval(attrs['value'])
elif name == BigGlyphMetrics.__name__:
self.metrics = BigGlyphMetrics()
self.metrics.fromXML(name, attrs, content, ttFont)
elif name == SmallGlyphMetrics.__name__:
print("Warning: SmallGlyphMetrics being ignored in format %d." % self.indexFormat)
def padBitmapData(self, data):
# Make sure that the data isn't bigger than the fixed size.
assert len(data) <= self.imageSize, "Data in indexSubTable format %d must be less than the fixed size." % self.indexFormat
# Pad the data so that it matches the fixed size.
pad = (self.imageSize - len(data)) * b'\0'
return data + pad
class eblc_index_sub_table_1(_createOffsetArrayIndexSubTableMixin('L'), EblcIndexSubTable):
pass
class eblc_index_sub_table_2(FixedSizeIndexSubTableMixin, EblcIndexSubTable):
def decompile(self):
(self.imageSize,) = struct.unpack(">L", self.data[:4])
self.metrics = BigGlyphMetrics()
sstruct.unpack2(bigGlyphMetricsFormat, self.data[4:], self.metrics)
glyphIds = list(range(self.firstGlyphIndex, self.lastGlyphIndex+1))
offsets = [self.imageSize * i + self.imageDataOffset for i in range(len(glyphIds)+1)]
self.locations = list(zip(offsets, offsets[1:]))
self.names = list(map(self.ttFont.getGlyphName, glyphIds))
def compile(self, ttFont):
glyphIds = list(map(ttFont.getGlyphID, self.names))
# Make sure all the ids are consecutive. This is required by Format 2.
assert glyphIds == list(range(self.firstGlyphIndex, self.lastGlyphIndex+1)), "Format 2 ids must be consecutive."
self.imageDataOffset = min(zip(*self.locations)[0])
dataList = [EblcIndexSubTable.compile(self, ttFont)]
dataList.append(struct.pack(">L", self.imageSize))
dataList.append(sstruct.pack(bigGlyphMetricsFormat, self.metrics))
return bytesjoin(dataList)
class eblc_index_sub_table_3(_createOffsetArrayIndexSubTableMixin('H'), EblcIndexSubTable):
pass
class eblc_index_sub_table_4(EblcIndexSubTable):
def decompile(self):
(numGlyphs,) = struct.unpack(">L", self.data[:4])
data = self.data[4:]
indexingOffsets = [glyphIndex * codeOffsetPairSize for glyphIndex in range(numGlyphs+2)]
indexingLocations = zip(indexingOffsets, indexingOffsets[1:])
glyphArray = [struct.unpack(codeOffsetPairFormat, data[slice(*loc)]) for loc in indexingLocations]
glyphIds, offsets = list(map(list, zip(*glyphArray)))
# There are one too many glyph ids. Get rid of the last one.
glyphIds.pop()
offsets = [offset + self.imageDataOffset for offset in offsets]
self.locations = list(zip(offsets, offsets[1:]))
self.names = list(map(self.ttFont.getGlyphName, glyphIds))
def compile(self, ttFont):
# First make sure that all the data lines up properly. Format 4
# must have all its data lined up consecutively. If not this will fail.
for curLoc, nxtLoc in zip(self.locations, self.locations[1:]):
assert curLoc[1] == nxtLoc[0], "Data must be consecutive in indexSubTable format 4"
offsets = list(self.locations[0]) + [loc[1] for loc in self.locations[1:]]
# Image data offset must be less than or equal to the minimum of locations.
# Resetting this offset may change the value for round tripping but is safer
# and allows imageDataOffset to not be required to be in the XML version.
self.imageDataOffset = min(offsets)
offsets = [offset - self.imageDataOffset for offset in offsets]
glyphIds = list(map(ttFont.getGlyphID, self.names))
# Create an iterator over the ids plus a padding value.
idsPlusPad = list(itertools.chain(glyphIds, [0]))
dataList = [EblcIndexSubTable.compile(self, ttFont)]
dataList.append(struct.pack(">L", len(glyphIds)))
tmp = [struct.pack(codeOffsetPairFormat, *cop) for cop in zip(idsPlusPad, offsets)]
dataList += tmp
data = bytesjoin(dataList)
return data
class eblc_index_sub_table_5(FixedSizeIndexSubTableMixin, EblcIndexSubTable):
def decompile(self):
self.origDataLen = 0
(self.imageSize,) = struct.unpack(">L", self.data[:4])
data = self.data[4:]
self.metrics, data = sstruct.unpack2(bigGlyphMetricsFormat, data, BigGlyphMetrics())
(numGlyphs,) = struct.unpack(">L", data[:4])
data = data[4:]
glyphIds = [struct.unpack(">H", data[2*i:2*(i+1)])[0] for i in range(numGlyphs)]
offsets = [self.imageSize * i + self.imageDataOffset for i in range(len(glyphIds)+1)]
self.locations = list(zip(offsets, offsets[1:]))
self.names = list(map(self.ttFont.getGlyphName, glyphIds))
def compile(self, ttFont):
self.imageDataOffset = min(zip(*self.locations)[0])
dataList = [EblcIndexSubTable.compile(self, ttFont)]
dataList.append(struct.pack(">L", self.imageSize))
dataList.append(sstruct.pack(bigGlyphMetricsFormat, self.metrics))
glyphIds = list(map(ttFont.getGlyphID, self.names))
dataList.append(struct.pack(">L", len(glyphIds)))
dataList += [struct.pack(">H", curId) for curId in glyphIds]
if len(glyphIds) % 2 == 1:
dataList.append(struct.pack(">H", 0))
return bytesjoin(dataList)
# Dictionary of indexFormat to the class representing that format.
eblc_sub_table_classes = {
1: eblc_index_sub_table_1,
2: eblc_index_sub_table_2,
3: eblc_index_sub_table_3,
4: eblc_index_sub_table_4,
5: eblc_index_sub_table_5,
}
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