def test_fromXML(self):
cs = T2CharString()
for name, attrs, content in parseXML([
'<CharString name="period">'
' 338.4 142.8 rmoveto',
' 28 0 21.9 9 15.8 18 15.8 18 7.9 20.79959 0 23.6 rrcurveto',
' endchar'
'</CharString>'
]):
cs.fromXML(name, attrs, content)
expected_program = [
338.3999939, 142.8000031, 'rmoveto', 28, 0, 21.8999939, 9,
15.8000031, 18, 15.8000031, 18, 7.8999939, 20.7995911, 0,
23.6000061, 'rrcurveto', 'endchar'
]
self.assertEqual(len(cs.program), len(expected_program))
for arg, expected_arg in zip(cs.program, expected_program):
if isinstance(arg, str):
self.assertIsInstance(expected_arg, str)
self.assertEqual(arg, expected_arg)
else:
self.assertNotIsInstance(expected_arg, str)
self.assertAlmostEqual(arg, expected_arg)
def getCharString(self, private=None, globalSubrs=None, var_model=None, optimize=True): commands = self._commands commands = self.reorder_blend_args(commands) if optimize: commands = specializeCommands(commands, generalizeFirst=False, maxstack=maxStackLimit) program = self.mergeCommandsToProgram(commands, var_model=var_model, round_func=self.roundNumber) charString = T2CharString(program=program, private=private, globalSubrs=globalSubrs) return charString
def test_build_cff2(tmpdir):
outPath = os.path.join(str(tmpdir), "test_var.otf")
fb, advanceWidths, nameStrings = _setupFontBuilder(False, 1000)
fb.setupNameTable(nameStrings)
axes = [
('TEST', 0, 0, 100, "Test Axis"),
]
instances = [
dict(location=dict(TEST=0), stylename="TotallyNormal"),
dict(location=dict(TEST=100), stylename="TotallyTested"),
]
fb.setupFvar(axes, instances)
pen = T2CharStringPen(None, None, CFF2=True)
drawTestGlyph(pen)
charString = pen.getCharString()
program = [
200, 200, -200, -200, 2, "blend", "rmoveto", 400, 400, 1, "blend",
"hlineto", 400, 400, 1, "blend", "vlineto", -400, -400, 1, "blend",
"hlineto"
]
charStringVariable = T2CharString(program=program)
charStrings = {
".notdef": charString,
"A": charString,
"a": charStringVariable,
".null": charString
}
fb.setupCFF2(charStrings, regions=[{"TEST": (0, 1, 1)}])
metrics = {
gn: (advanceWidth, 0)
for gn, advanceWidth in advanceWidths.items()
}
fb.setupHorizontalMetrics(metrics)
fb.setupHorizontalHeader(ascent=824, descent=200)
fb.setupOS2(sTypoAscender=825,
sTypoDescender=200,
usWinAscent=824,
usWinDescent=200)
fb.setupPost()
fb.save(outPath)
_verifyOutput(outPath)
def buildMMCFFTables(baseFont, bcDictList, cff2GlyphList, numMasters, varModel): pd = baseFont.privateDict opCodeDict = buildOpcodeDict(privateDictOperators) for key in bcDictList.keys(): operator, argType = opCodeDict[key] valList = bcDictList[key] if argType == 'delta': # If all masters are the same for each entry in the list, then # save a non-blend version; else save the blend version needsBlend = False for blendList in valList: if pointsDiffer(blendList): needsBlend = True break dataList = [] if needsBlend: blendCount = 0 for blendList in valList: dataList.append(blendList) else: for blendList in valList: dataList.append(blendList[0]) else: if pointsDiffer(valList): dataList = valList else: dataList = valList[0] pd.rawDict[key] = dataList # Now update all the charstrings. fontGlyphList = baseFont.ttFont.getGlyphOrder() for glyphName in fontGlyphList: gid = baseFont.charStrings.charStrings[glyphName] t2CharString = baseFont.charStringIndex[gid] cff2GlyphData = cff2GlyphList[glyphName] t2CharString.decompile() newProgram = [] for op, pointList in cff2GlyphData.opList: blendStack = appendBlendOp(op, pointList, varModel.deltaWeights) newProgram.extend(blendStack) t2CharString = T2CharString(private=t2CharString.private, globalSubrs=t2CharString.globalSubrs) baseFont.charStringIndex[gid] = t2CharString t2CharString.program = newProgram t2CharString.compile(isCFF2=True) baseFont.privateDict.defaultWidthX = 0 baseFont.privateDict.nominalWidthX = 0
def addGlyphToCFF(glyphName=None,
program=None,
private=None,
globalSubrs=None,
charStringsIndex=None,
topDict=None,
charStrings=None):
charString = T2CharString(program=program,
private=private,
globalSubrs=globalSubrs)
charStringsIndex.append(charString)
glyphID = len(topDict.charset)
charStrings.charStrings[glyphName] = glyphID
topDict.charset.append(glyphName)
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
def addCFFGlyph(self,
glyphName=None,
program=None,
private=None,
globalSubrs=None,
charStringsIndex=None,
topDict=None,
charStrings=None):
from fontTools.misc.psCharStrings import T2CharString
charString = T2CharString(program=program,
private=private,
globalSubrs=globalSubrs)
charStringsIndex.append(charString)
glyphID = len(topDict.charset)
charStrings.charStrings[glyphName] = glyphID
topDict.charset.append(glyphName)
def getCharString(self, private=None, globalSubrs=None, optimize=True):
commands = self._commands
if optimize:
maxstack = 48 if not self._CFF2 else 513
commands = specializeCommands(commands,
generalizeFirst=False,
maxstack=maxstack)
program = commandsToProgram(commands)
if self._width is not None:
assert not self._CFF2, "CFF2 does not allow encoding glyph width in CharString."
program.insert(0, otRound(self._width))
if not self._CFF2:
program.append('endchar')
charString = T2CharString(
program=program, private=private, globalSubrs=globalSubrs)
return charString
def getCharStrings(self,
num_masters,
private=None,
globalSubrs=None,
default_idx=0):
""" A command looks like:
[op_name, [
[source 0 arglist for op],
[source 1 arglist for op],
...
[source n arglist for op],
I am not optimizing this there, as that will be done when
the CFF2 Charstring is created in fontTools.varLib.build().
If I did, I would have to rearrange the arguments to:
[
[arg 0 for source 0 ... arg 0 for source n]
[arg 1 for source 0 ... arg 1 for source n]
...
[arg M for source 0 ... arg M for source n]
]
before calling specialize.
"""
t2List = []
merged_commands = self._commands
for i in range(num_masters):
commands = []
for op in merged_commands:
source_op = [op[0], op[1][i]]
commands.append(source_op)
program = commandsToProgram(commands)
if self._width is not None:
assert not self._CFF2, (
"CFF2 does not allow encoding glyph width in CharString.")
program.insert(0, otRound(self._width))
if not self._CFF2:
program.append('endchar')
charString = T2CharString(program=program,
private=private,
globalSubrs=globalSubrs)
t2List.append(charString)
# if default_idx is not 0, we need to move it to the right index.
if default_idx:
default_font_cs = t2List.pop(0)
t2List.insert(default_idx, default_font_cs)
return t2List
def _setupFontBuilderCFF2(fb):
assert 'fvar' in fb.font, 'Must run _setupFontBuilderFvar() first.'
pen = T2CharStringPen(None, None, CFF2=True)
drawTestGlyph(pen)
charString = pen.getCharString()
program = [
200, 200, -200, -200, 2, "blend", "rmoveto",
400, 400, 1, "blend", "hlineto",
400, 400, 1, "blend", "vlineto",
-400, -400, 1, "blend", "hlineto"
]
charStringVariable = T2CharString(program=program)
charStrings = {".notdef": charString, "A": charString,
"a": charStringVariable, ".null": charString}
fb.setupCFF2(charStrings, regions=[{"TEST": (0, 1, 1)}])
return fb
def stringToT2CharString(cls, string):
return T2CharString(program=stringToProgram(string),
private=PrivateDict())
'specific language, permissions and limitations governing your '
'use of this Font Software.')
LICENSE_URL = 'http://scripts.sil.org/OFL'
FSTYPE = 0 # Installable embedding
UPM = 2048
EMOJI_H_ADV = 2550
EMOJI_V_ADV = 2500
EMOJI_SIZE = 2400 # ASCENT + abs(DESCENT)
ABOVE_BASELINE = 0.7451 # ASCENT / EMOJI_H_ADV
ASCENT = 1900
DESCENT = -500
UNDERLINE_POSITION = -1244
UNDERLINE_THICKNESS = 131
SPACE_CHARSTRING = T2CharString(program=[EMOJI_H_ADV, 'endchar'])
RE_UNICODE = re.compile(r'^u[0-9a-f]{4,5}$', re.IGNORECASE)
RE_REVISION = re.compile(r'^[0-9]{1,3}\.[0-9]{3}$')
# The value of the viewBox attribute is a list of four numbers
# min-x, min-y, width and height, separated by whitespace and/or a comma
RE_VIEWBOX = re.compile(
r"(<svg.+?)(\s*viewBox=[\"|\']([-\d,. ]+)[\"|\'])(.+?>)", re.DOTALL)
VALID_1STCHARS = tuple('_ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz')
VALID_CHARS = VALID_1STCHARS + tuple('.0123456789')
TAG_LAT_LETTR = ('e0061 e0062 e0063 e0064 e0065 e0066 e0067 e0068 e0069 e006a '
'e006b e006c e006d e006e e006f e0070 e0071 e0072 e0073 e0074 '
'e0075 e0076 e0077 e0078 e0079 e007a e007f').split()
def getCharString(self, private=None, globalSubrs=None):
program = self._program + ["endchar"]
charString = T2CharString(program=program,
private=private,
globalSubrs=globalSubrs)
return charString
def buildMMCFFTables(baseFont, privateDictList, cff2GlyphList, varModel):
# Build the blended PrivateDicts.
opCodeDict = buildOpcodeDict(privateDictOperators)
blendedPD = privateDictList[0]
if baseFont.isCID:
numFDArray = len(baseFont.topDict.FDArray)
else:
numFDArray = 1
for fdIndex in range(numFDArray):
if baseFont.isCID:
pd = baseFont.topDict.FDArray[fdIndex]
blendedPD = privateDictList[fdIndex]
else:
pd = baseFont.topDict.Private
blendedPD = privateDictList[0]
for key in blendedPD.keys():
argType = opCodeDict[key][1]
valList = blendedPD[key]
if argType == 'delta':
# If all masters are the same for each entry in the list, then
# save a non-blend version; else save the blend version
needsBlend = False
for blendList in valList:
if pointsDiffer(blendList):
needsBlend = True
break
dataList = []
if needsBlend:
prevBlendList = [0] * len(valList[0])
for blendList in valList:
# convert blend list from absolute values to relative
# values from the previous blend list.
relBlendList = [(val - prevBlendList[i])
for i, val in enumerate(blendList)]
prevBlendList = blendList
deltas = varModel.getDeltas(relBlendList)
# For PrivateDict BlueValues, the default font
# values are absolute, not relative.
deltas[0] = blendList[0]
dataList.append(deltas)
else:
for blendList in valList:
dataList.append(blendList[0])
else:
if pointsDiffer(valList):
dataList = varModel.getDeltas(valList)
else:
dataList = valList[0]
pd.rawDict[key] = dataList
# Now update all the charstrings.
fontGlyphList = baseFont.ttFont.getGlyphOrder()
for glyphName in fontGlyphList:
gid = baseFont.charStrings.charStrings[glyphName]
t2CharString = baseFont.charStringIndex[gid]
cff2GlyphData = cff2GlyphList[glyphName]
t2CharString.decompile()
newProgram = []
for op, pointList in cff2GlyphData.opList:
blendStack = appendBlendOp(op, pointList, varModel)
newProgram.extend(blendStack)
t2CharString = T2CharString(private=t2CharString.private,
globalSubrs=t2CharString.globalSubrs)
baseFont.charStringIndex[gid] = t2CharString
t2CharString.program = newProgram
t2CharString.private.defaultWidthX = 0
t2CharString.private.nominalWidthX = 0
t2CharString.compile(isCFF2=True)
def build(instance, opts):
font = instance.parent
source = font.masters[0]
fea, marks = makeFeatures(instance, source)
glyphOrder = []
advanceWidths = {}
characterMap = {}
charStrings = {}
source.blueValues = []
source.otherBlues = []
for zone in sorted(source.alignmentZones):
pos = zone.position
size = zone.size
vals = sorted((pos, pos + size))
if pos == 0 or size >= 0:
source.blueValues.extend(vals)
else:
source.otherBlues.extend(vals)
fontinfo = f"""
FontName {instance.fontName}
OrigEmSqUnits {font.upm}
DominantV {source.verticalStems}
DominantH {source.horizontalStems}
BaselineOvershoot {source.blueValues[0]}
BaselineYCoord {source.blueValues[1]}
LcHeight {source.blueValues[2]}
LcOvershoot {source.blueValues[3] - source.blueValues[2]}
CapHeight {source.blueValues[4]}
CapOvershoot {source.blueValues[5] - source.blueValues[4]}
AscenderHeight {source.blueValues[6]}
AscenderOvershoot {source.blueValues[7] - source.blueValues[6]}
Baseline5 {source.otherBlues[1]}
Baseline5Overshoot {source.otherBlues[0] - source.otherBlues[1]}
FlexOK true
BlueFuzz 1
"""
layerSet = {g.name: g.layers[source.id] for g in font.glyphs}
for glyph in font.glyphs:
if not glyph.export:
continue
name = glyph.name
glyphOrder.append(name)
for code in glyph.unicodes:
characterMap[int(code, 16)] = name
layer = glyph.layers[source.id]
width = 0 if name in marks else layer.width
# Draw glyph and remove overlaps.
path = Path()
layer.draw(DecomposePathPen(path, layerSet=layerSet))
path.simplify(fix_winding=True, keep_starting_points=True)
# Autohint.
pen = BezPen(None, True)
path.draw(pen)
bez = "\n".join(["% " + name, "sc", *pen.bez, "ed", ""])
hinted = hint_bez_glyph(fontinfo, bez)
program = [width] + convertBezToT2(hinted)
# Build CharString.
charStrings[name] = T2CharString(program=program)
advanceWidths[name] = width
# Make sure .notdef is glyph index 0.
glyphOrder.pop(glyphOrder.index(".notdef"))
glyphOrder.insert(0, ".notdef")
version = float(opts.version)
vendor = font.customParameters["vendorID"]
names = {
"copyright": font.copyright,
"familyName": instance.familyName,
"styleName": instance.name,
"uniqueFontIdentifier": f"{version:.03f};{vendor};{instance.fontName}",
"fullName": instance.fullName,
"version": f"Version {version:.03f}",
"psName": instance.fontName,
"manufacturer": font.manufacturer,
"designer": font.designer,
"description": font.customParameters["description"],
"vendorURL": font.manufacturerURL,
"designerURL": font.designerURL,
"licenseDescription": font.customParameters["license"],
"licenseInfoURL": font.customParameters["licenseURL"],
"sampleText": font.customParameters["sampleText"],
}
date = int(font.date.timestamp()) - epoch_diff
fb = FontBuilder(font.upm, isTTF=False)
fb.updateHead(fontRevision=version, created=date, modified=date)
fb.setupGlyphOrder(glyphOrder)
fb.setupCharacterMap(characterMap)
fb.setupNameTable(names, mac=False)
fb.setupHorizontalHeader(
ascent=source.ascender,
descent=source.descender,
lineGap=source.customParameters["typoLineGap"],
)
privateDict = {
"BlueValues": source.blueValues,
"OtherBlues": source.otherBlues,
"StemSnapH": source.horizontalStems,
"StemSnapV": source.verticalStems,
"StdHW": source.horizontalStems[0],
"StdVW": source.verticalStems[0],
}
fontInfo = {
"FullName": names["fullName"],
"Notice": names["copyright"].replace("©", "\(c\)"),
"version": f"{version:07.03f}",
"Weight": instance.name,
}
fb.setupCFF(names["psName"], fontInfo, charStrings, privateDict)
metrics = {}
for i, (name, width) in enumerate(advanceWidths.items()):
bounds = charStrings[name].calcBounds(None) or [0]
metrics[name] = (width, bounds[0])
fb.setupHorizontalMetrics(metrics)
codePages = [
CODEPAGE_RANGES[v] for v in font.customParameters["codePageRanges"]
]
fb.setupOS2(
version=4,
sTypoAscender=source.ascender,
sTypoDescender=source.descender,
sTypoLineGap=source.customParameters["typoLineGap"],
usWinAscent=source.ascender,
usWinDescent=-source.descender,
sxHeight=source.xHeight,
sCapHeight=source.capHeight,
achVendID=vendor,
fsType=calcBits(font.customParameters["fsType"], 0, 16),
fsSelection=calcFsSelection(instance),
ulUnicodeRange1=calcBits(font.customParameters["unicodeRanges"], 0,
32),
ulCodePageRange1=calcBits(codePages, 0, 32),
)
ut = int(source.customParameters["underlineThickness"])
up = int(source.customParameters["underlinePosition"])
fb.setupPost(underlineThickness=ut, underlinePosition=up + ut // 2)
meta = newTable("meta")
meta.data = {"dlng": "Arab", "slng": "Arab"}
fb.font["meta"] = meta
fb.addOpenTypeFeatures(fea)
return fb.font
