def generate_and_write_autohinted_instance(
instantiator: instantiator.Instantiator,
instance_descriptor: fontTools.designspaceLib.InstanceDescriptor,
output_dir: Path,
psautohint: str,
):
# 3. Generate instance UFO.
instance = instantiator.generate_instance(instance_descriptor)
file_stem = f"{instance.info.familyName}-{instance.info.styleName}".replace(" ", "")
# 3.5. Optionally write instance UFO to disk, for debugging.
# instance.save(output_dir / f"{file_stem}.ufo", overwrite=True)
# 4. Compile and write instance OTF to disk. Do not optimize, because we have to
# do it again after autohinting.
instance_font = ufo2ft.compileOTF(
instance,
removeOverlaps=True,
overlapsBackend="pathops",
inplace=True,
useProductionNames=True,
optimizeCFF=ufo2ft.CFFOptimization.NONE,
)
output_path = output_dir / f"{file_stem}.otf"
instance_font.save(output_path)
# 5. Run psautohint on it.
subprocess.run([psautohint, str(output_path)])
# 6. Subroutinize (compress) it
instance_font = fontTools.ttLib.TTFont(output_path)
cffsubr.subroutinize(instance_font).save(output_path)
def test_keep_glyph_names(self):
font = load_test_font("SourceSansPro-Regular.subset.ttx")
glyph_order = font.getGlyphOrder()
assert font["post"].formatType == 3.0
assert font["post"].glyphOrder is None
cffsubr.subroutinize(font, cff_version=2)
assert font["post"].formatType == 2.0
assert font["post"].glyphOrder == glyph_order
font2 = recompile_font(font)
assert font2.getGlyphOrder() == glyph_order
# now convert from CFF2 to CFF1 and check post format is set to 3.0
# https://github.com/adobe-type-tools/cffsubr/issues/8
cffsubr.subroutinize(font2, cff_version=1)
assert font2["post"].formatType == 3.0
assert font2["post"].glyphOrder == None
font3 = recompile_font(font2)
assert font3.getGlyphOrder() == glyph_order
def test_output_different_cff_version(self, testfile, cff_version):
font = load_test_font(testfile)
table_tag = cffsubr._sniff_cff_table_format(font)
cffsubr.subroutinize(font, cff_version=cff_version)
assert cffsubr._sniff_cff_table_format(font) != table_tag
def test_inplace(self, testfile):
font = load_test_font(testfile)
font2 = cffsubr.subroutinize(font, inplace=False)
assert font is not font2
font3 = cffsubr.subroutinize(font, inplace=True)
assert font3 is font
def test_output_same_cff_version(self, testfile, table_tag):
font = load_test_font(testfile)
assert cffsubr._sniff_cff_table_format(font) == table_tag
cffsubr.subroutinize(font)
assert cffsubr._sniff_cff_table_format(font) == table_tag
def test_desubroutinize(testfile):
font = load_test_font(testfile)
cffsubr.subroutinize(font)
font2 = cffsubr.desubroutinize(font, inplace=False)
assert cffsubr.has_subroutines(font)
assert not cffsubr.has_subroutines(font2)
def main(args=None):
"""Compress OpenType Font's CFF or CFF2 table by computing subroutines."""
parser = argparse.ArgumentParser("cffsubr", description=main.__doc__)
parser.add_argument(
"input_file", help="input font file. Must contain either CFF or CFF2 table"
)
output_group = parser.add_mutually_exclusive_group()
output_group.add_argument(
"-o",
"--output-file",
default=None,
help="optional path to output file. By default, dump binary data to stdout",
)
output_group.add_argument(
"-i",
"--inplace",
action="store_true",
help="whether to overwrite the input file",
)
parser.add_argument(
"-f",
"--cff-version",
default=None,
type=int,
choices=(1, 2),
help="output CFF table format version",
)
parser.add_argument(
"-N",
"--no-glyph-names",
dest="keep_glyph_names",
action="store_false",
help="whether to drop postscript glyph names when converting from CFF to CFF2.",
)
parser.add_argument(
"-d",
"--desubroutinize",
action="store_true",
help="Don't subroutinize, instead remove all subroutines (in any).",
)
options = parser.parse_args(args)
if options.inplace:
options.output_file = options.input_file
elif not options.output_file:
options.output_file = sys.stdout.buffer
# Load TTFont lazily by default assuming output != input; load non-lazily if -i
# option is passed, so that fontTools let us overwrite the input file.
lazy = True if not options.inplace else None
with ttLib.TTFont(options.input_file, lazy=lazy) as font:
if options.desubroutinize:
cffsubr.desubroutinize(font)
else:
cffsubr.subroutinize(font, options.cff_version, options.keep_glyph_names)
font.save(options.output_file)
def generateFont(options, font):
generateFeatures(font, options)
from datetime import datetime
info = font.info
major, minor = options.version.split(".")
info.versionMajor, info.versionMinor = int(major), int(minor)
year = datetime.now().year
info.copyright = f"Copyright 2010-{year} The Amiri Project Authors (https://github.com/alif-type/amiri)."
info.openTypeNameLicense = "This Font Software is licensed under the SIL Open Font License, Version 1.1. This license is available with a FAQ at: https://scripts.sil.org/OFL"
info.openTypeNameLicenseURL = "https://scripts.sil.org/OFL"
if options.output.endswith(".ttf"):
from fontTools.ttLib import newTable
from fontTools.ttLib.tables import ttProgram
otf = compileTTF(font,
inplace=True,
removeOverlaps=True,
overlapsBackend="pathops",
featureWriters=[])
otf["DSIG"] = DSIG = newTable("DSIG")
DSIG.ulVersion = 1
DSIG.usFlag = 0
DSIG.usNumSigs = 0
DSIG.signatureRecords = []
otf["prep"] = prep = newTable("prep")
prep.program = ttProgram.Program()
prep.program.fromAssembly(
['PUSHW[]', '511', 'SCANCTRL[]', 'PUSHB[]', '4', 'SCANTYPE[]'])
else:
import cffsubr
otf = compileOTF(font,
inplace=True,
optimizeCFF=0,
removeOverlaps=True,
overlapsBackend="pathops",
featureWriters=[])
cffsubr.subroutinize(otf)
if info.styleMapStyleName and "italic" in info.styleMapStyleName:
otf['name'].names = [n for n in otf['name'].names if n.nameID != 17]
for name in otf['name'].names:
if name.nameID == 2:
name.string = info.styleName
glyf = otf.get("glyf")
if glyf:
from fontTools.ttLib.tables._g_l_y_f import UNSCALED_COMPONENT_OFFSET
for name, glyph in glyf.glyphs.items():
glyph.expand(glyf)
if glyph.isComposite():
for component in glyph.components:
component.flags |= UNSCALED_COMPONENT_OFFSET
return otf
def test_non_standard_upem_mute_font_matrix_warning(self, caplog):
# See https://github.com/adobe-type-tools/cffsubr/issues/13
font = load_test_font("FontMatrixTest.ttx")
assert font["CFF "].cff[0].FontMatrix == [0.0005, 0, 0, 0.0005, 0, 0]
cffsubr.subroutinize(font, cff_version=2)
with caplog.at_level(logging.WARNING, logger=cffLib.log.name):
font2 = recompile_font(font)
assert (
"Some CFF FDArray/FontDict keys were ignored upon compile: FontMatrix"
not in caplog.text)
def _optimize(self, otf, name, fmt):
if fmt == Format.OTF:
import cffsubr
from fontTools.cffLib.specializer import specializeProgram
logger.info(f"Optimizing {name}.{fmt.value}")
topDict = otf["CFF "].cff.topDictIndex[0]
charStrings = topDict.CharStrings
for charString in charStrings.values():
charString.decompile()
charString.program = specializeProgram(charString.program)
logger.info(f"Subroutinizing {name}.{fmt.value}")
cffsubr.subroutinize(otf, keep_glyph_names=False)
return otf
def test_drop_glyph_names(self):
font = load_test_font("SourceSansPro-Regular.subset.ttx")
glyph_order = font.getGlyphOrder()
assert font["post"].formatType == 3.0
assert font["post"].glyphOrder is None
cffsubr.subroutinize(font, cff_version=2, keep_glyph_names=False)
assert font["post"].formatType == 3.0
assert font["post"].glyphOrder is None
buf = io.BytesIO()
font.save(buf)
buf.seek(0)
font2 = ttLib.TTFont(buf)
assert font2.getGlyphOrder() != glyph_order
def _subroutinize_with_cffsubr(cls, otf, cffVersion):
import cffsubr
cffInputVersion = cls._get_cff_version(otf)
assert cffInputVersion is not None, "Missing required 'CFF ' or 'CFF2' table"
msg = f"Subroutinizing {cffInputVersion.name} table with cffsubr"
if cffInputVersion != cffVersion:
msg += f" (output format: {cffVersion.name})"
logger.info(msg)
return cffsubr.subroutinize(otf, cff_version=cffVersion, keep_glyph_names=False)
def buildVF(opts):
font = GSFont(opts.glyphs)
glyphOrder = buildAltGlyphs(font)
prepare(font)
for instance in font.instances:
print(f" MASTER {instance.name}")
build(instance, opts, glyphOrder)
if instance.name == "Regular":
regular = instance
ds = DesignSpaceDocument()
for i, axisDef in enumerate(font.axes):
axis = ds.newAxisDescriptor()
axis.tag = axisDef.axisTag
axis.name = axisDef.name
axis.maximum = max(x.axes[i] for x in font.instances)
axis.minimum = min(x.axes[i] for x in font.instances)
axis.default = regular.axes[i]
ds.addAxis(axis)
for instance in font.instances:
source = ds.newSourceDescriptor()
source.font = instance.font
source.familyName = instance.familyName
source.styleName = instance.name
source.name = instance.fullName
source.location = {
a.name: instance.axes[i]
for i, a in enumerate(ds.axes)
}
ds.addSource(source)
print(f" MERGE {font.familyName}")
otf, _, _ = merge(ds)
subroutinize(otf)
if not opts.debug:
otf["post"].formatType = 3.0
return otf
def build(instance, isTTF, version):
font = instance.parent
source = font.masters[0]
fea, marks = makeFeatures(instance, source)
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
"""
characterMap = {}
glyphs = {}
metrics = {}
layerSet = {g.name: g.layers[source.id] for g in font.glyphs}
if isTTF:
from fontTools.pens.cu2quPen import Cu2QuPen
from fontTools.pens.recordingPen import RecordingPen
for glyph in font.glyphs:
layer = glyph.layers[source.id]
pen = RecordingPen()
layer.draw(pen)
layer.paths = []
layer.components = []
pen.replay(Cu2QuPen(layer.getPen(), 1.0, reverse_direction=True))
for glyph in font.glyphs:
if not glyph.export and not isTTF:
continue
name = glyph.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
pen = BoundsPen(layerSet)
layer.draw(pen)
metrics[name] = (width, pen.bounds[0] if pen.bounds else 0)
if isTTF:
from fontTools.pens.ttGlyphPen import TTGlyphPen
pen = TTGlyphPen(layerSet)
if layer.paths:
# Decompose and remove overlaps.
path = Path()
layer.draw(DecomposePathPen(path, layerSet))
path.simplify(fix_winding=True, keep_starting_points=True)
path.draw(pen)
else:
# Composite-only glyph, no need to decompose.
layer.draw(FlattenComponentsPen(pen, layerSet))
glyphs[name] = pen.glyph()
else:
from fontTools.pens.t2CharStringPen import T2CharStringPen
# Draw glyph and remove overlaps.
path = Path()
layer.draw(DecomposePathPen(path, layerSet))
path.simplify(fix_winding=True, keep_starting_points=True)
# Build CharString.
pen = T2CharStringPen(width, None)
path.draw(pen)
glyphs[name] = pen.getCharString()
vendor = font.customParameters["vendorID"]
names = {
"copyright": font.copyright,
"familyName": instance.familyName,
"styleName": instance.name,
"uniqueFontIdentifier": f"{version};{vendor};{instance.fontName}",
"fullName": instance.fullName,
"version": f"Version {version}",
"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=isTTF)
fb.updateHead(fontRevision=version, created=date, modified=date)
fb.setupGlyphOrder(font.glyphOrder)
fb.setupCharacterMap(characterMap)
fb.setupNameTable(names, mac=False)
fb.setupHorizontalHeader(
ascent=source.ascender,
descent=source.descender,
lineGap=source.customParameters["typoLineGap"],
)
if isTTF:
fb.setupGlyf(glyphs)
else:
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}",
"Weight": instance.name,
}
fb.setupCFF(names["psName"], fontInfo, glyphs, privateDict)
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),
)
underlineThickness = int(source.customParameters["underlineThickness"])
underlinePosition = int(source.customParameters["underlinePosition"])
fb.setupPost(
keepGlyphNames=False,
underlineThickness=underlineThickness,
underlinePosition=underlinePosition + underlineThickness // 2,
)
fb.font["meta"] = meta = newTable("meta")
meta.data = {"dlng": "Arab", "slng": "Arab"}
fb.addOpenTypeFeatures(fea)
if isTTF:
from fontTools.ttLib.tables import ttProgram
fb.setupDummyDSIG()
fb.font["gasp"] = gasp = newTable("gasp")
gasp.gaspRange = {0xFFFF: 15}
fb.font["prep"] = prep = newTable("prep")
prep.program = ttProgram.Program()
assembly = ["PUSHW[]", "511", "SCANCTRL[]", "PUSHB[]", "4", "SCANTYPE[]"]
prep.program.fromAssembly(assembly)
else:
from cffsubr import subroutinize
subroutinize(fb.font)
return fb.font
def test_has_subroutines(testfile):
font = load_test_font(testfile)
assert not cffsubr.has_subroutines(font)
assert cffsubr.has_subroutines(cffsubr.subroutinize(font))
designspace.instances = [
s for s in designspace.instances
if s.lib.get("com.schriftgestaltung.export", True)
]
# 2. Compile variable OTF from the masters. Do not optimize, because we have to do
# it again after autohinting.
varfont = ufo2ft.compileVariableCFF2(
designspace,
inplace=True,
useProductionNames=True,
optimizeCFF=ufo2ft.CFFOptimization.NONE,
)
# 3. Generate STAT table.
stylespace = statmake.classes.Stylespace.from_file(stylespace_path)
statmake.lib.apply_stylespace_to_variable_font(stylespace, varfont, {})
# 4. Save. External tools after this point.
varfont.save(output_path)
# 5. Autohint
subprocess.check_call(
[os.fspath(args.psautohint_path),
os.fspath(output_path)])
# 6. Subroutinize (compress)
varfont = fontTools.ttLib.TTFont(output_path)
cffsubr.subroutinize(varfont).save(output_path)
