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gerrit-public.fairphone.software / platform / external / fonttools / refs/tags/rel/p/fp2/21.01.0-rel.1 / . / Lib / fontTools / subset.py
blob: 45bd45735533292bb27e310d7bbec1db598c3f0a [file] [log] [blame]
# Copyright 2013 Google, Inc. All Rights Reserved.
#
# Google Author(s): Behdad Esfahbod
"""Python OpenType Layout Subsetter.
Later grown into full OpenType subsetter, supporting all standard tables.
"""
from __future__ import print_function, division, absolute_import
from fontTools.misc.py23 import *
from fontTools import ttLib
from fontTools.ttLib.tables import otTables
from fontTools.misc import psCharStrings
from fontTools.pens import basePen
import sys
import struct
import time
import array
def _add_method(*clazzes):
"""Returns a decorator function that adds a new method to one or
more classes."""
def wrapper(method):
for clazz in clazzes:
assert clazz.__name__ != 'DefaultTable', 'Oops, table class not found.'
assert not hasattr(clazz, method.__name__), \
"Oops, class '%s' has method '%s'." % (clazz.__name__,
method.__name__)
setattr(clazz, method.__name__, method)
return None
return wrapper
def _uniq_sort(l):
return sorted(set(l))
def _set_update(s, *others):
# Jython's set.update only takes one other argument.
# Emulate real set.update...
for other in others:
s.update(other)
@_add_method(otTables.Coverage)
def intersect(self, glyphs):
"Returns ascending list of matching coverage values."
return [i for i,g in enumerate(self.glyphs) if g in glyphs]
@_add_method(otTables.Coverage)
def intersect_glyphs(self, glyphs):
"Returns set of intersecting glyphs."
return set(g for g in self.glyphs if g in glyphs)
@_add_method(otTables.Coverage)
def subset(self, glyphs):
"Returns ascending list of remaining coverage values."
indices = self.intersect(glyphs)
self.glyphs = [g for g in self.glyphs if g in glyphs]
return indices
@_add_method(otTables.Coverage)
def remap(self, coverage_map):
"Remaps coverage."
self.glyphs = [self.glyphs[i] for i in coverage_map]
@_add_method(otTables.ClassDef)
def intersect(self, glyphs):
"Returns ascending list of matching class values."
return _uniq_sort(
([0] if any(g not in self.classDefs for g in glyphs) else []) +
[v for g,v in self.classDefs.items() if g in glyphs])
@_add_method(otTables.ClassDef)
def intersect_class(self, glyphs, klass):
"Returns set of glyphs matching class."
if klass == 0:
return set(g for g in glyphs if g not in self.classDefs)
return set(g for g,v in self.classDefs.items()
if v == klass and g in glyphs)
@_add_method(otTables.ClassDef)
def subset(self, glyphs, remap=False):
"Returns ascending list of remaining classes."
self.classDefs = dict((g,v) for g,v in self.classDefs.items() if g in glyphs)
# Note: while class 0 has the special meaning of "not matched",
# if no glyph will ever /not match/, we can optimize class 0 out too.
indices = _uniq_sort(
([0] if any(g not in self.classDefs for g in glyphs) else []) +
list(self.classDefs.values()))
if remap:
self.remap(indices)
return indices
@_add_method(otTables.ClassDef)
def remap(self, class_map):
"Remaps classes."
self.classDefs = dict((g,class_map.index(v))
for g,v in self.classDefs.items())
@_add_method(otTables.SingleSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
s.glyphs.update(v for g,v in self.mapping.items() if g in cur_glyphs)
@_add_method(otTables.SingleSubst)
def subset_glyphs(self, s):
self.mapping = dict((g,v) for g,v in self.mapping.items()
if g in s.glyphs and v in s.glyphs)
return bool(self.mapping)
@_add_method(otTables.MultipleSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
indices = self.Coverage.intersect(cur_glyphs)
_set_update(s.glyphs, *(self.Sequence[i].Substitute for i in indices))
@_add_method(otTables.MultipleSubst)
def subset_glyphs(self, s):
indices = self.Coverage.subset(s.glyphs)
self.Sequence = [self.Sequence[i] for i in indices]
# Now drop rules generating glyphs we don't want
indices = [i for i,seq in enumerate(self.Sequence)
if all(sub in s.glyphs for sub in seq.Substitute)]
self.Sequence = [self.Sequence[i] for i in indices]
self.Coverage.remap(indices)
self.SequenceCount = len(self.Sequence)
return bool(self.SequenceCount)
@_add_method(otTables.AlternateSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
_set_update(s.glyphs, *(vlist for g,vlist in self.alternates.items()
if g in cur_glyphs))
@_add_method(otTables.AlternateSubst)
def subset_glyphs(self, s):
self.alternates = dict((g,vlist)
for g,vlist in self.alternates.items()
if g in s.glyphs and
all(v in s.glyphs for v in vlist))
return bool(self.alternates)
@_add_method(otTables.LigatureSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
_set_update(s.glyphs, *([seq.LigGlyph for seq in seqs
if all(c in s.glyphs for c in seq.Component)]
for g,seqs in self.ligatures.items()
if g in cur_glyphs))
@_add_method(otTables.LigatureSubst)
def subset_glyphs(self, s):
self.ligatures = dict((g,v) for g,v in self.ligatures.items()
if g in s.glyphs)
self.ligatures = dict((g,[seq for seq in seqs
if seq.LigGlyph in s.glyphs and
all(c in s.glyphs for c in seq.Component)])
for g,seqs in self.ligatures.items())
self.ligatures = dict((g,v) for g,v in self.ligatures.items() if v)
return bool(self.ligatures)
@_add_method(otTables.ReverseChainSingleSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
if self.Format == 1:
indices = self.Coverage.intersect(cur_glyphs)
if(not indices or
not all(c.intersect(s.glyphs)
for c in self.LookAheadCoverage + self.BacktrackCoverage)):
return
s.glyphs.update(self.Substitute[i] for i in indices)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ReverseChainSingleSubst)
def subset_glyphs(self, s):
if self.Format == 1:
indices = self.Coverage.subset(s.glyphs)
self.Substitute = [self.Substitute[i] for i in indices]
# Now drop rules generating glyphs we don't want
indices = [i for i,sub in enumerate(self.Substitute)
if sub in s.glyphs]
self.Substitute = [self.Substitute[i] for i in indices]
self.Coverage.remap(indices)
self.GlyphCount = len(self.Substitute)
return bool(self.GlyphCount and
all(c.subset(s.glyphs)
for c in self.LookAheadCoverage+self.BacktrackCoverage))
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.SinglePos)
def subset_glyphs(self, s):
if self.Format == 1:
return len(self.Coverage.subset(s.glyphs))
elif self.Format == 2:
indices = self.Coverage.subset(s.glyphs)
self.Value = [self.Value[i] for i in indices]
self.ValueCount = len(self.Value)
return bool(self.ValueCount)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.SinglePos)
def prune_post_subset(self, options):
if not options.hinting:
# Drop device tables
self.ValueFormat &= ~0x00F0
return True
@_add_method(otTables.PairPos)
def subset_glyphs(self, s):
if self.Format == 1:
indices = self.Coverage.subset(s.glyphs)
self.PairSet = [self.PairSet[i] for i in indices]
for p in self.PairSet:
p.PairValueRecord = [r for r in p.PairValueRecord
if r.SecondGlyph in s.glyphs]
p.PairValueCount = len(p.PairValueRecord)
# Remove empty pairsets
indices = [i for i,p in enumerate(self.PairSet) if p.PairValueCount]
self.Coverage.remap(indices)
self.PairSet = [self.PairSet[i] for i in indices]
self.PairSetCount = len(self.PairSet)
return bool(self.PairSetCount)
elif self.Format == 2:
class1_map = self.ClassDef1.subset(s.glyphs, remap=True)
class2_map = self.ClassDef2.subset(s.glyphs, remap=True)
self.Class1Record = [self.Class1Record[i] for i in class1_map]
for c in self.Class1Record:
c.Class2Record = [c.Class2Record[i] for i in class2_map]
self.Class1Count = len(class1_map)
self.Class2Count = len(class2_map)
return bool(self.Class1Count and
self.Class2Count and
self.Coverage.subset(s.glyphs))
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.PairPos)
def prune_post_subset(self, options):
if not options.hinting:
# Drop device tables
self.ValueFormat1 &= ~0x00F0
self.ValueFormat2 &= ~0x00F0
return True
@_add_method(otTables.CursivePos)
def subset_glyphs(self, s):
if self.Format == 1:
indices = self.Coverage.subset(s.glyphs)
self.EntryExitRecord = [self.EntryExitRecord[i] for i in indices]
self.EntryExitCount = len(self.EntryExitRecord)
return bool(self.EntryExitCount)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.Anchor)
def prune_hints(self):
# Drop device tables / contour anchor point
self.ensureDecompiled()
self.Format = 1
@_add_method(otTables.CursivePos)
def prune_post_subset(self, options):
if not options.hinting:
for rec in self.EntryExitRecord:
if rec.EntryAnchor: rec.EntryAnchor.prune_hints()
if rec.ExitAnchor: rec.ExitAnchor.prune_hints()
return True
@_add_method(otTables.MarkBasePos)
def subset_glyphs(self, s):
if self.Format == 1:
mark_indices = self.MarkCoverage.subset(s.glyphs)
self.MarkArray.MarkRecord = [self.MarkArray.MarkRecord[i]
for i in mark_indices]
self.MarkArray.MarkCount = len(self.MarkArray.MarkRecord)
base_indices = self.BaseCoverage.subset(s.glyphs)
self.BaseArray.BaseRecord = [self.BaseArray.BaseRecord[i]
for i in base_indices]
self.BaseArray.BaseCount = len(self.BaseArray.BaseRecord)
# Prune empty classes
class_indices = _uniq_sort(v.Class for v in self.MarkArray.MarkRecord)
self.ClassCount = len(class_indices)
for m in self.MarkArray.MarkRecord:
m.Class = class_indices.index(m.Class)
for b in self.BaseArray.BaseRecord:
b.BaseAnchor = [b.BaseAnchor[i] for i in class_indices]
return bool(self.ClassCount and
self.MarkArray.MarkCount and
self.BaseArray.BaseCount)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.MarkBasePos)
def prune_post_subset(self, options):
if not options.hinting:
for m in self.MarkArray.MarkRecord:
if m.MarkAnchor:
m.MarkAnchor.prune_hints()
for b in self.BaseArray.BaseRecord:
for a in b.BaseAnchor:
if a:
a.prune_hints()
return True
@_add_method(otTables.MarkLigPos)
def subset_glyphs(self, s):
if self.Format == 1:
mark_indices = self.MarkCoverage.subset(s.glyphs)
self.MarkArray.MarkRecord = [self.MarkArray.MarkRecord[i]
for i in mark_indices]
self.MarkArray.MarkCount = len(self.MarkArray.MarkRecord)
ligature_indices = self.LigatureCoverage.subset(s.glyphs)
self.LigatureArray.LigatureAttach = [self.LigatureArray.LigatureAttach[i]
for i in ligature_indices]
self.LigatureArray.LigatureCount = len(self.LigatureArray.LigatureAttach)
# Prune empty classes
class_indices = _uniq_sort(v.Class for v in self.MarkArray.MarkRecord)
self.ClassCount = len(class_indices)
for m in self.MarkArray.MarkRecord:
m.Class = class_indices.index(m.Class)
for l in self.LigatureArray.LigatureAttach:
for c in l.ComponentRecord:
c.LigatureAnchor = [c.LigatureAnchor[i] for i in class_indices]
return bool(self.ClassCount and
self.MarkArray.MarkCount and
self.LigatureArray.LigatureCount)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.MarkLigPos)
def prune_post_subset(self, options):
if not options.hinting:
for m in self.MarkArray.MarkRecord:
if m.MarkAnchor:
m.MarkAnchor.prune_hints()
for l in self.LigatureArray.LigatureAttach:
for c in l.ComponentRecord:
for a in c.LigatureAnchor:
if a:
a.prune_hints()
return True
@_add_method(otTables.MarkMarkPos)
def subset_glyphs(self, s):
if self.Format == 1:
mark1_indices = self.Mark1Coverage.subset(s.glyphs)
self.Mark1Array.MarkRecord = [self.Mark1Array.MarkRecord[i]
for i in mark1_indices]
self.Mark1Array.MarkCount = len(self.Mark1Array.MarkRecord)
mark2_indices = self.Mark2Coverage.subset(s.glyphs)
self.Mark2Array.Mark2Record = [self.Mark2Array.Mark2Record[i]
for i in mark2_indices]
self.Mark2Array.MarkCount = len(self.Mark2Array.Mark2Record)
# Prune empty classes
class_indices = _uniq_sort(v.Class for v in self.Mark1Array.MarkRecord)
self.ClassCount = len(class_indices)
for m in self.Mark1Array.MarkRecord:
m.Class = class_indices.index(m.Class)
for b in self.Mark2Array.Mark2Record:
b.Mark2Anchor = [b.Mark2Anchor[i] for i in class_indices]
return bool(self.ClassCount and
self.Mark1Array.MarkCount and
self.Mark2Array.MarkCount)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.MarkMarkPos)
def prune_post_subset(self, options):
if not options.hinting:
# Drop device tables or contour anchor point
for m in self.Mark1Array.MarkRecord:
if m.MarkAnchor:
m.MarkAnchor.prune_hints()
for b in self.Mark2Array.Mark2Record:
for m in b.Mark2Anchor:
if m:
m.prune_hints()
return True
@_add_method(otTables.SingleSubst,
otTables.MultipleSubst,
otTables.AlternateSubst,
otTables.LigatureSubst,
otTables.ReverseChainSingleSubst,
otTables.SinglePos,
otTables.PairPos,
otTables.CursivePos,
otTables.MarkBasePos,
otTables.MarkLigPos,
otTables.MarkMarkPos)
def subset_lookups(self, lookup_indices):
pass
@_add_method(otTables.SingleSubst,
otTables.MultipleSubst,
otTables.AlternateSubst,
otTables.LigatureSubst,
otTables.ReverseChainSingleSubst,
otTables.SinglePos,
otTables.PairPos,
otTables.CursivePos,
otTables.MarkBasePos,
otTables.MarkLigPos,
otTables.MarkMarkPos)
def collect_lookups(self):
return []
@_add_method(otTables.SingleSubst,
otTables.MultipleSubst,
otTables.AlternateSubst,
otTables.LigatureSubst,
otTables.ContextSubst,
otTables.ChainContextSubst,
otTables.ReverseChainSingleSubst,
otTables.SinglePos,
otTables.PairPos,
otTables.CursivePos,
otTables.MarkBasePos,
otTables.MarkLigPos,
otTables.MarkMarkPos,
otTables.ContextPos,
otTables.ChainContextPos)
def prune_pre_subset(self, options):
return True
@_add_method(otTables.SingleSubst,
otTables.MultipleSubst,
otTables.AlternateSubst,
otTables.LigatureSubst,
otTables.ReverseChainSingleSubst,
otTables.ContextSubst,
otTables.ChainContextSubst,
otTables.ContextPos,
otTables.ChainContextPos)
def prune_post_subset(self, options):
return True
@_add_method(otTables.SingleSubst,
otTables.AlternateSubst,
otTables.ReverseChainSingleSubst)
def may_have_non_1to1(self):
return False
@_add_method(otTables.MultipleSubst,
otTables.LigatureSubst,
otTables.ContextSubst,
otTables.ChainContextSubst)
def may_have_non_1to1(self):
return True
@_add_method(otTables.ContextSubst,
otTables.ChainContextSubst,
otTables.ContextPos,
otTables.ChainContextPos)
def __classify_context(self):
class ContextHelper(object):
def __init__(self, klass, Format):
if klass.__name__.endswith('Subst'):
Typ = 'Sub'
Type = 'Subst'
else:
Typ = 'Pos'
Type = 'Pos'
if klass.__name__.startswith('Chain'):
Chain = 'Chain'
else:
Chain = ''
ChainTyp = Chain+Typ
self.Typ = Typ
self.Type = Type
self.Chain = Chain
self.ChainTyp = ChainTyp
self.LookupRecord = Type+'LookupRecord'
if Format == 1:
Coverage = lambda r: r.Coverage
ChainCoverage = lambda r: r.Coverage
ContextData = lambda r:(None,)
ChainContextData = lambda r:(None, None, None)
RuleData = lambda r:(r.Input,)
ChainRuleData = lambda r:(r.Backtrack, r.Input, r.LookAhead)
SetRuleData = None
ChainSetRuleData = None
elif Format == 2:
Coverage = lambda r: r.Coverage
ChainCoverage = lambda r: r.Coverage
ContextData = lambda r:(r.ClassDef,)
ChainContextData = lambda r:(r.LookAheadClassDef,
r.InputClassDef,
r.BacktrackClassDef)
RuleData = lambda r:(r.Class,)
ChainRuleData = lambda r:(r.LookAhead, r.Input, r.Backtrack)
def SetRuleData(r, d):(r.Class,) = d
def ChainSetRuleData(r, d):(r.LookAhead, r.Input, r.Backtrack) = d
elif Format == 3:
Coverage = lambda r: r.Coverage[0]
ChainCoverage = lambda r: r.InputCoverage[0]
ContextData = None
ChainContextData = None
RuleData = lambda r: r.Coverage
ChainRuleData = lambda r:(r.LookAheadCoverage +
r.InputCoverage +
r.BacktrackCoverage)
SetRuleData = None
ChainSetRuleData = None
else:
assert 0, "unknown format: %s" % Format
if Chain:
self.Coverage = ChainCoverage
self.ContextData = ChainContextData
self.RuleData = ChainRuleData
self.SetRuleData = ChainSetRuleData
else:
self.Coverage = Coverage
self.ContextData = ContextData
self.RuleData = RuleData
self.SetRuleData = SetRuleData
if Format == 1:
self.Rule = ChainTyp+'Rule'
self.RuleCount = ChainTyp+'RuleCount'
self.RuleSet = ChainTyp+'RuleSet'
self.RuleSetCount = ChainTyp+'RuleSetCount'
self.Intersect = lambda glyphs, c, r: [r] if r in glyphs else []
elif Format == 2:
self.Rule = ChainTyp+'ClassRule'
self.RuleCount = ChainTyp+'ClassRuleCount'
self.RuleSet = ChainTyp+'ClassSet'
self.RuleSetCount = ChainTyp+'ClassSetCount'
self.Intersect = lambda glyphs, c, r: c.intersect_class(glyphs, r)
self.ClassDef = 'InputClassDef' if Chain else 'ClassDef'
self.ClassDefIndex = 1 if Chain else 0
self.Input = 'Input' if Chain else 'Class'
if self.Format not in [1, 2, 3]:
return None # Don't shoot the messenger; let it go
if not hasattr(self.__class__, "__ContextHelpers"):
self.__class__.__ContextHelpers = {}
if self.Format not in self.__class__.__ContextHelpers:
helper = ContextHelper(self.__class__, self.Format)
self.__class__.__ContextHelpers[self.Format] = helper
return self.__class__.__ContextHelpers[self.Format]
@_add_method(otTables.ContextSubst,
otTables.ChainContextSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if cur_glyphs is None: cur_glyphs = s.glyphs
c = self.__classify_context()
indices = c.Coverage(self).intersect(s.glyphs)
if not indices:
return []
cur_glyphs = c.Coverage(self).intersect_glyphs(s.glyphs);
if self.Format == 1:
ContextData = c.ContextData(self)
rss = getattr(self, c.RuleSet)
rssCount = getattr(self, c.RuleSetCount)
for i in indices:
if i >= rssCount or not rss[i]: continue
for r in getattr(rss[i], c.Rule):
if not r: continue
if all(all(c.Intersect(s.glyphs, cd, k) for k in klist)
for cd,klist in zip(ContextData, c.RuleData(r))):
chaos = False
for ll in getattr(r, c.LookupRecord):
if not ll: continue
seqi = ll.SequenceIndex
if chaos:
pos_glyphs = s.glyphs
else:
if seqi == 0:
pos_glyphs = set([c.Coverage(self).glyphs[i]])
else:
pos_glyphs = set([r.Input[seqi - 1]])
lookup = s.table.LookupList.Lookup[ll.LookupListIndex]
chaos = chaos or lookup.may_have_non_1to1()
lookup.closure_glyphs(s, cur_glyphs=pos_glyphs)
elif self.Format == 2:
ClassDef = getattr(self, c.ClassDef)
indices = ClassDef.intersect(cur_glyphs)
ContextData = c.ContextData(self)
rss = getattr(self, c.RuleSet)
rssCount = getattr(self, c.RuleSetCount)
for i in indices:
if i >= rssCount or not rss[i]: continue
for r in getattr(rss[i], c.Rule):
if not r: continue
if all(all(c.Intersect(s.glyphs, cd, k) for k in klist)
for cd,klist in zip(ContextData, c.RuleData(r))):
chaos = False
for ll in getattr(r, c.LookupRecord):
if not ll: continue
seqi = ll.SequenceIndex
if chaos:
pos_glyphs = s.glyphs
else:
if seqi == 0:
pos_glyphs = ClassDef.intersect_class(cur_glyphs, i)
else:
pos_glyphs = ClassDef.intersect_class(s.glyphs,
getattr(r, c.Input)[seqi - 1])
lookup = s.table.LookupList.Lookup[ll.LookupListIndex]
chaos = chaos or lookup.may_have_non_1to1()
lookup.closure_glyphs(s, cur_glyphs=pos_glyphs)
elif self.Format == 3:
if not all(x.intersect(s.glyphs) for x in c.RuleData(self)):
return []
r = self
chaos = False
for ll in getattr(r, c.LookupRecord):
if not ll: continue
seqi = ll.SequenceIndex
if chaos:
pos_glyphs = s.glyphs
else:
if seqi == 0:
pos_glyphs = cur_glyphs
else:
pos_glyphs = r.InputCoverage[seqi].intersect_glyphs(s.glyphs)
lookup = s.table.LookupList.Lookup[ll.LookupListIndex]
chaos = chaos or lookup.may_have_non_1to1()
lookup.closure_glyphs(s, cur_glyphs=pos_glyphs)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ContextSubst,
otTables.ContextPos,
otTables.ChainContextSubst,
otTables.ChainContextPos)
def subset_glyphs(self, s):
c = self.__classify_context()
if self.Format == 1:
indices = self.Coverage.subset(s.glyphs)
rss = getattr(self, c.RuleSet)
rss = [rss[i] for i in indices]
for rs in rss:
if not rs: continue
ss = getattr(rs, c.Rule)
ss = [r for r in ss
if r and all(all(g in s.glyphs for g in glist)
for glist in c.RuleData(r))]
setattr(rs, c.Rule, ss)
setattr(rs, c.RuleCount, len(ss))
# Prune empty subrulesets
rss = [rs for rs in rss if rs and getattr(rs, c.Rule)]
setattr(self, c.RuleSet, rss)
setattr(self, c.RuleSetCount, len(rss))
return bool(rss)
elif self.Format == 2:
if not self.Coverage.subset(s.glyphs):
return False
ContextData = c.ContextData(self)
klass_maps = [x.subset(s.glyphs, remap=True) for x in ContextData]
# Keep rulesets for class numbers that survived.
indices = klass_maps[c.ClassDefIndex]
rss = getattr(self, c.RuleSet)
rssCount = getattr(self, c.RuleSetCount)
rss = [rss[i] for i in indices if i < rssCount]
del rssCount
# Delete, but not renumber, unreachable rulesets.
indices = getattr(self, c.ClassDef).intersect(self.Coverage.glyphs)
rss = [rss if i in indices else None for i,rss in enumerate(rss)]
while rss and rss[-1] is None:
del rss[-1]
for rs in rss:
if not rs: continue
ss = getattr(rs, c.Rule)
ss = [r for r in ss
if r and all(all(k in klass_map for k in klist)
for klass_map,klist in zip(klass_maps, c.RuleData(r)))]
setattr(rs, c.Rule, ss)
setattr(rs, c.RuleCount, len(ss))
# Remap rule classes
for r in ss:
c.SetRuleData(r, [[klass_map.index(k) for k in klist]
for klass_map,klist in zip(klass_maps, c.RuleData(r))])
return bool(rss)
elif self.Format == 3:
return all(x.subset(s.glyphs) for x in c.RuleData(self))
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ContextSubst,
otTables.ChainContextSubst,
otTables.ContextPos,
otTables.ChainContextPos)
def subset_lookups(self, lookup_indices):
c = self.__classify_context()
if self.Format in [1, 2]:
for rs in getattr(self, c.RuleSet):
if not rs: continue
for r in getattr(rs, c.Rule):
if not r: continue
setattr(r, c.LookupRecord,
[ll for ll in getattr(r, c.LookupRecord)
if ll and ll.LookupListIndex in lookup_indices])
for ll in getattr(r, c.LookupRecord):
if not ll: continue
ll.LookupListIndex = lookup_indices.index(ll.LookupListIndex)
elif self.Format == 3:
setattr(self, c.LookupRecord,
[ll for ll in getattr(self, c.LookupRecord)
if ll and ll.LookupListIndex in lookup_indices])
for ll in getattr(self, c.LookupRecord):
if not ll: continue
ll.LookupListIndex = lookup_indices.index(ll.LookupListIndex)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ContextSubst,
otTables.ChainContextSubst,
otTables.ContextPos,
otTables.ChainContextPos)
def collect_lookups(self):
c = self.__classify_context()
if self.Format in [1, 2]:
return [ll.LookupListIndex
for rs in getattr(self, c.RuleSet) if rs
for r in getattr(rs, c.Rule) if r
for ll in getattr(r, c.LookupRecord) if ll]
elif self.Format == 3:
return [ll.LookupListIndex
for ll in getattr(self, c.LookupRecord) if ll]
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst)
def closure_glyphs(self, s, cur_glyphs=None):
if self.Format == 1:
self.ExtSubTable.closure_glyphs(s, cur_glyphs)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst)
def may_have_non_1to1(self):
if self.Format == 1:
return self.ExtSubTable.may_have_non_1to1()
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst,
otTables.ExtensionPos)
def prune_pre_subset(self, options):
if self.Format == 1:
return self.ExtSubTable.prune_pre_subset(options)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst,
otTables.ExtensionPos)
def subset_glyphs(self, s):
if self.Format == 1:
return self.ExtSubTable.subset_glyphs(s)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst,
otTables.ExtensionPos)
def prune_post_subset(self, options):
if self.Format == 1:
return self.ExtSubTable.prune_post_subset(options)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst,
otTables.ExtensionPos)
def subset_lookups(self, lookup_indices):
if self.Format == 1:
return self.ExtSubTable.subset_lookups(lookup_indices)
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.ExtensionSubst,
otTables.ExtensionPos)
def collect_lookups(self):
if self.Format == 1:
return self.ExtSubTable.collect_lookups()
else:
assert 0, "unknown format: %s" % self.Format
@_add_method(otTables.Lookup)
def closure_glyphs(self, s, cur_glyphs=None):
for st in self.SubTable:
if not st: continue
st.closure_glyphs(s, cur_glyphs)
@_add_method(otTables.Lookup)
def prune_pre_subset(self, options):
ret = False
for st in self.SubTable:
if not st: continue
if st.prune_pre_subset(options): ret = True
return ret
@_add_method(otTables.Lookup)
def subset_glyphs(self, s):
self.SubTable = [st for st in self.SubTable if st and st.subset_glyphs(s)]
self.SubTableCount = len(self.SubTable)
return bool(self.SubTableCount)
@_add_method(otTables.Lookup)
def prune_post_subset(self, options):
ret = False
for st in self.SubTable:
if not st: continue
if st.prune_post_subset(options): ret = True
return ret
@_add_method(otTables.Lookup)
def subset_lookups(self, lookup_indices):
for s in self.SubTable:
s.subset_lookups(lookup_indices)
@_add_method(otTables.Lookup)
def collect_lookups(self):
return _uniq_sort(sum((st.collect_lookups() for st in self.SubTable
if st), []))
@_add_method(otTables.Lookup)
def may_have_non_1to1(self):
return any(st.may_have_non_1to1() for st in self.SubTable if st)
@_add_method(otTables.LookupList)
def prune_pre_subset(self, options):
ret = False
for l in self.Lookup:
if not l: continue
if l.prune_pre_subset(options): ret = True
return ret
@_add_method(otTables.LookupList)
def subset_glyphs(self, s):
"Returns the indices of nonempty lookups."
return [i for i,l in enumerate(self.Lookup) if l and l.subset_glyphs(s)]
@_add_method(otTables.LookupList)
def prune_post_subset(self, options):
ret = False
for l in self.Lookup:
if not l: continue
if l.prune_post_subset(options): ret = True
return ret
@_add_method(otTables.LookupList)
def subset_lookups(self, lookup_indices):
self.ensureDecompiled()
self.Lookup = [self.Lookup[i] for i in lookup_indices
if i < self.LookupCount]
self.LookupCount = len(self.Lookup)
for l in self.Lookup:
l.subset_lookups(lookup_indices)
@_add_method(otTables.LookupList)
def closure_lookups(self, lookup_indices):
lookup_indices = _uniq_sort(lookup_indices)
recurse = lookup_indices
while True:
recurse_lookups = sum((self.Lookup[i].collect_lookups()
for i in recurse if i < self.LookupCount), [])
recurse_lookups = [l for l in recurse_lookups
if l not in lookup_indices and l < self.LookupCount]
if not recurse_lookups:
return _uniq_sort(lookup_indices)
recurse_lookups = _uniq_sort(recurse_lookups)
lookup_indices.extend(recurse_lookups)
recurse = recurse_lookups
@_add_method(otTables.Feature)
def subset_lookups(self, lookup_indices):
self.LookupListIndex = [l for l in self.LookupListIndex
if l in lookup_indices]
# Now map them.
self.LookupListIndex = [lookup_indices.index(l)
for l in self.LookupListIndex]
self.LookupCount = len(self.LookupListIndex)
return self.LookupCount or self.FeatureParams
@_add_method(otTables.Feature)
def collect_lookups(self):
return self.LookupListIndex[:]
@_add_method(otTables.FeatureList)
def subset_lookups(self, lookup_indices):
"Returns the indices of nonempty features."
# Note: Never ever drop feature 'pref', even if it's empty.
# HarfBuzz chooses shaper for Khmer based on presence of this
# feature. See thread at:
# http://lists.freedesktop.org/archives/harfbuzz/2012-November/002660.html
feature_indices = [i for i,f in enumerate(self.FeatureRecord)
if (f.Feature.subset_lookups(lookup_indices) or
f.FeatureTag == 'pref')]
self.subset_features(feature_indices)
return feature_indices
@_add_method(otTables.FeatureList)
def collect_lookups(self, feature_indices):
return _uniq_sort(sum((self.FeatureRecord[i].Feature.collect_lookups()
for i in feature_indices
if i < self.FeatureCount), []))
@_add_method(otTables.FeatureList)
def subset_features(self, feature_indices):
self.ensureDecompiled()
self.FeatureRecord = [self.FeatureRecord[i] for i in feature_indices]
self.FeatureCount = len(self.FeatureRecord)
return bool(self.FeatureCount)
@_add_method(otTables.DefaultLangSys,
otTables.LangSys)
def subset_features(self, feature_indices):
if self.ReqFeatureIndex in feature_indices:
self.ReqFeatureIndex = feature_indices.index(self.ReqFeatureIndex)
else:
self.ReqFeatureIndex = 65535
self.FeatureIndex = [f for f in self.FeatureIndex if f in feature_indices]
# Now map them.
self.FeatureIndex = [feature_indices.index(f) for f in self.FeatureIndex
if f in feature_indices]
self.FeatureCount = len(self.FeatureIndex)
return bool(self.FeatureCount or self.ReqFeatureIndex != 65535)
@_add_method(otTables.DefaultLangSys,
otTables.LangSys)
def collect_features(self):
feature_indices = self.FeatureIndex[:]
if self.ReqFeatureIndex != 65535:
feature_indices.append(self.ReqFeatureIndex)
return _uniq_sort(feature_indices)
@_add_method(otTables.Script)
def subset_features(self, feature_indices):
if(self.DefaultLangSys and
not self.DefaultLangSys.subset_features(feature_indices)):
self.DefaultLangSys = None
self.LangSysRecord = [l for l in self.LangSysRecord
if l.LangSys.subset_features(feature_indices)]
self.LangSysCount = len(self.LangSysRecord)
return bool(self.LangSysCount or self.DefaultLangSys)
@_add_method(otTables.Script)
def collect_features(self):
feature_indices = [l.LangSys.collect_features() for l in self.LangSysRecord]
if self.DefaultLangSys:
feature_indices.append(self.DefaultLangSys.collect_features())
return _uniq_sort(sum(feature_indices, []))
@_add_method(otTables.ScriptList)
def subset_features(self, feature_indices):
self.ScriptRecord = [s for s in self.ScriptRecord
if s.Script.subset_features(feature_indices)]
self.ScriptCount = len(self.ScriptRecord)
return bool(self.ScriptCount)
@_add_method(otTables.ScriptList)
def collect_features(self):
return _uniq_sort(sum((s.Script.collect_features()
for s in self.ScriptRecord), []))
@_add_method(ttLib.getTableClass('GSUB'))
def closure_glyphs(self, s):
s.table = self.table
if self.table.ScriptList:
feature_indices = self.table.ScriptList.collect_features()
else:
feature_indices = []
if self.table.FeatureList:
lookup_indices = self.table.FeatureList.collect_lookups(feature_indices)
else:
lookup_indices = []
if self.table.LookupList:
while True:
orig_glyphs = s.glyphs.copy()
for i in lookup_indices:
if i >= self.table.LookupList.LookupCount: continue
if not self.table.LookupList.Lookup[i]: continue
self.table.LookupList.Lookup[i].closure_glyphs(s)
if orig_glyphs == s.glyphs:
break
del s.table
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def subset_glyphs(self, s):
s.glyphs = s.glyphs_gsubed
if self.table.LookupList:
lookup_indices = self.table.LookupList.subset_glyphs(s)
else:
lookup_indices = []
self.subset_lookups(lookup_indices)
self.prune_lookups()
return True
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def subset_lookups(self, lookup_indices):
"""Retains specified lookups, then removes empty features, language
systems, and scripts."""
if self.table.LookupList:
self.table.LookupList.subset_lookups(lookup_indices)
if self.table.FeatureList:
feature_indices = self.table.FeatureList.subset_lookups(lookup_indices)
else:
feature_indices = []
if self.table.ScriptList:
self.table.ScriptList.subset_features(feature_indices)
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def prune_lookups(self):
"Remove unreferenced lookups"
if self.table.ScriptList:
feature_indices = self.table.ScriptList.collect_features()
else:
feature_indices = []
if self.table.FeatureList:
lookup_indices = self.table.FeatureList.collect_lookups(feature_indices)
else:
lookup_indices = []
if self.table.LookupList:
lookup_indices = self.table.LookupList.closure_lookups(lookup_indices)
else:
lookup_indices = []
self.subset_lookups(lookup_indices)
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def subset_feature_tags(self, feature_tags):
if self.table.FeatureList:
feature_indices = [i for i,f in
enumerate(self.table.FeatureList.FeatureRecord)
if f.FeatureTag in feature_tags]
self.table.FeatureList.subset_features(feature_indices)
else:
feature_indices = []
if self.table.ScriptList:
self.table.ScriptList.subset_features(feature_indices)
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def prune_features(self):
"Remove unreferenced featurs"
if self.table.ScriptList:
feature_indices = self.table.ScriptList.collect_features()
else:
feature_indices = []
if self.table.FeatureList:
self.table.FeatureList.subset_features(feature_indices)
if self.table.ScriptList:
self.table.ScriptList.subset_features(feature_indices)
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def prune_pre_subset(self, options):
# Drop undesired features
if '*' not in options.layout_features:
self.subset_feature_tags(options.layout_features)
# Drop unreferenced lookups
self.prune_lookups()
# Prune lookups themselves
if self.table.LookupList:
self.table.LookupList.prune_pre_subset(options);
return True
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def remove_redundant_langsys(self):
table = self.table
if not table.ScriptList or not table.FeatureList:
return
features = table.FeatureList.FeatureRecord
for s in table.ScriptList.ScriptRecord:
d = s.Script.DefaultLangSys
if not d:
continue
for lr in s.Script.LangSysRecord[:]:
l = lr.LangSys
# Compare d and l
if len(d.FeatureIndex) != len(l.FeatureIndex):
continue
if (d.ReqFeatureIndex == 65535) != (l.ReqFeatureIndex == 65535):
continue
if d.ReqFeatureIndex != 65535:
if features[d.ReqFeatureIndex] != features[l.ReqFeatureIndex]:
continue
for i in range(len(d.FeatureIndex)):
if features[d.FeatureIndex[i]] != features[l.FeatureIndex[i]]:
break
else:
# LangSys and default are equal; delete LangSys
s.Script.LangSysRecord.remove(lr)
@_add_method(ttLib.getTableClass('GSUB'),
ttLib.getTableClass('GPOS'))
def prune_post_subset(self, options):
table = self.table
# LookupList looks good. Just prune lookups themselves
if table.LookupList:
table.LookupList.prune_post_subset(options);
# XXX Next two lines disabled because OTS is stupid and
# doesn't like NULL offsetse here.
#if not table.LookupList.Lookup:
# table.LookupList = None
if not table.LookupList:
table.FeatureList = None
if table.FeatureList:
self.remove_redundant_langsys()
# Remove unreferenced features
self.prune_features()
# XXX Next two lines disabled because OTS is stupid and
# doesn't like NULL offsetse here.
#if table.FeatureList and not table.FeatureList.FeatureRecord:
# table.FeatureList = None
# Never drop scripts themselves as them just being available
# holds semantic significance.
# XXX Next two lines disabled because OTS is stupid and
# doesn't like NULL offsetse here.
#if table.ScriptList and not table.ScriptList.ScriptRecord:
# table.ScriptList = None
return True
@_add_method(ttLib.getTableClass('GDEF'))
def subset_glyphs(self, s):
glyphs = s.glyphs_gsubed
table = self.table
if table.LigCaretList:
indices = table.LigCaretList.Coverage.subset(glyphs)
table.LigCaretList.LigGlyph = [table.LigCaretList.LigGlyph[i]
for i in indices]
table.LigCaretList.LigGlyphCount = len(table.LigCaretList.LigGlyph)
if table.MarkAttachClassDef:
table.MarkAttachClassDef.classDefs = dict((g,v) for g,v in
table.MarkAttachClassDef.
classDefs.items()
if g in glyphs)
if table.GlyphClassDef:
table.GlyphClassDef.classDefs = dict((g,v) for g,v in
table.GlyphClassDef.
classDefs.items()
if g in glyphs)
if table.AttachList:
indices = table.AttachList.Coverage.subset(glyphs)
GlyphCount = table.AttachList.GlyphCount
table.AttachList.AttachPoint = [table.AttachList.AttachPoint[i]
for i in indices
if i < GlyphCount]
table.AttachList.GlyphCount = len(table.AttachList.AttachPoint)
if hasattr(table, "MarkGlyphSetsDef") and table.MarkGlyphSetsDef:
for coverage in table.MarkGlyphSetsDef.Coverage:
coverage.subset(glyphs)
# TODO: The following is disabled. If enabling, we need to go fixup all
# lookups that use MarkFilteringSet and map their set.
#indices = table.MarkGlyphSetsDef.Coverage = [c for c in table.MarkGlyphSetsDef.Coverage if c.glyphs]
return True
@_add_method(ttLib.getTableClass('GDEF'))
def prune_post_subset(self, options):
table = self.table
# XXX check these against OTS
if table.LigCaretList and not table.LigCaretList.LigGlyphCount:
table.LigCaretList = None
if table.MarkAttachClassDef and not table.MarkAttachClassDef.classDefs:
table.MarkAttachClassDef = None
if table.GlyphClassDef and not table.GlyphClassDef.classDefs:
table.GlyphClassDef = None
if table.AttachList and not table.AttachList.GlyphCount:
table.AttachList = None
if hasattr(table, "MarkGlyphSetsDef") and table.MarkGlyphSetsDef and not table.MarkGlyphSetsDef.Coverage:
table.MarkGlyphSetsDef = None
if table.Version == 0x00010002/0x10000:
table.Version = 1.0
return bool(table.LigCaretList or
table.MarkAttachClassDef or
table.GlyphClassDef or
table.AttachList or
(table.Version >= 0x00010002/0x10000 and table.MarkGlyphSetsDef))
@_add_method(ttLib.getTableClass('kern'))
def prune_pre_subset(self, options):
# Prune unknown kern table types
self.kernTables = [t for t in self.kernTables if hasattr(t, 'kernTable')]
return bool(self.kernTables)
@_add_method(ttLib.getTableClass('kern'))
def subset_glyphs(self, s):
glyphs = s.glyphs_gsubed
for t in self.kernTables:
t.kernTable = dict(((a,b),v) for (a,b),v in t.kernTable.items()
if a in glyphs and b in glyphs)
self.kernTables = [t for t in self.kernTables if t.kernTable]
return bool(self.kernTables)
@_add_method(ttLib.getTableClass('vmtx'))
def subset_glyphs(self, s):
self.metrics = dict((g,v) for g,v in self.metrics.items() if g in s.glyphs)
return bool(self.metrics)
@_add_method(ttLib.getTableClass('hmtx'))
def subset_glyphs(self, s):
self.metrics = dict((g,v) for g,v in self.metrics.items() if g in s.glyphs)
return True # Required table
@_add_method(ttLib.getTableClass('hdmx'))
def subset_glyphs(self, s):
self.hdmx = dict((sz,dict((g,v) for g,v in l.items() if g in s.glyphs))
for sz,l in self.hdmx.items())
return bool(self.hdmx)
@_add_method(ttLib.getTableClass('VORG'))
def subset_glyphs(self, s):
self.VOriginRecords = dict((g,v) for g,v in self.VOriginRecords.items()
if g in s.glyphs)
self.numVertOriginYMetrics = len(self.VOriginRecords)
return True # Never drop; has default metrics
@_add_method(ttLib.getTableClass('post'))
def prune_pre_subset(self, options):
if not options.glyph_names:
self.formatType = 3.0
return True # Required table
@_add_method(ttLib.getTableClass('post'))
def subset_glyphs(self, s):
self.extraNames = [] # This seems to do it
return True # Required table
@_add_method(ttLib.getTableModule('glyf').Glyph)
def remapComponentsFast(self, indices):
if not self.data or struct.unpack(">h", self.data[:2])[0] >= 0:
return # Not composite
data = array.array("B", self.data)
i = 10
more = 1
while more:
flags =(data[i] << 8) | data[i+1]
glyphID =(data[i+2] << 8) | data[i+3]
# Remap
glyphID = indices.index(glyphID)
data[i+2] = glyphID >> 8
data[i+3] = glyphID & 0xFF
i += 4
flags = int(flags)
if flags & 0x0001: i += 4 # ARG_1_AND_2_ARE_WORDS
else: i += 2
if flags & 0x0008: i += 2 # WE_HAVE_A_SCALE
elif flags & 0x0040: i += 4 # WE_HAVE_AN_X_AND_Y_SCALE
elif flags & 0x0080: i += 8 # WE_HAVE_A_TWO_BY_TWO
more = flags & 0x0020 # MORE_COMPONENTS
self.data = data.tostring()
@_add_method(ttLib.getTableClass('glyf'))
def closure_glyphs(self, s):
decompose = s.glyphs
while True:
components = set()
for g in decompose:
if g not in self.glyphs:
continue
gl = self.glyphs[g]
for c in gl.getComponentNames(self):
if c not in s.glyphs:
components.add(c)
components = set(c for c in components if c not in s.glyphs)
if not components:
break
decompose = components
s.glyphs.update(components)
@_add_method(ttLib.getTableClass('glyf'))
def prune_pre_subset(self, options):
if options.notdef_glyph and not options.notdef_outline:
g = self[self.glyphOrder[0]]
# Yay, easy!
g.__dict__.clear()
g.data = ""
return True
@_add_method(ttLib.getTableClass('glyf'))
def subset_glyphs(self, s):
self.glyphs = dict((g,v) for g,v in self.glyphs.items() if g in s.glyphs)
indices = [i for i,g in enumerate(self.glyphOrder) if g in s.glyphs]
for v in self.glyphs.values():
if hasattr(v, "data"):
v.remapComponentsFast(indices)
else:
pass # No need
self.glyphOrder = [g for g in self.glyphOrder if g in s.glyphs]
# Don't drop empty 'glyf' tables, otherwise 'loca' doesn't get subset.
return True
@_add_method(ttLib.getTableClass('glyf'))
def prune_post_subset(self, options):
if not options.hinting:
for v in self.glyphs.values():
v.removeHinting()
return True
@_add_method(ttLib.getTableClass('CFF '))
def prune_pre_subset(self, options):
cff = self.cff
# CFF table must have one font only
cff.fontNames = cff.fontNames[:1]
if options.notdef_glyph and not options.notdef_outline:
for fontname in cff.keys():
font = cff[fontname]
c,_ = font.CharStrings.getItemAndSelector('.notdef')
# XXX we should preserve the glyph width
c.bytecode = '\x0e' # endchar
c.program = None
return True # bool(cff.fontNames)
@_add_method(ttLib.getTableClass('CFF '))
def subset_glyphs(self, s):
cff = self.cff
for fontname in cff.keys():
font = cff[fontname]
cs = font.CharStrings
# Load all glyphs
for g in font.charset:
if g not in s.glyphs: continue
c,sel = cs.getItemAndSelector(g)
if cs.charStringsAreIndexed:
indices = [i for i,g in enumerate(font.charset) if g in s.glyphs]
csi = cs.charStringsIndex
csi.items = [csi.items[i] for i in indices]
csi.count = len(csi.items)
del csi.file, csi.offsets
if hasattr(font, "FDSelect"):
sel = font.FDSelect
sel.format = None
sel.gidArray = [sel.gidArray[i] for i in indices]
cs.charStrings = dict((g,indices.index(v))
for g,v in cs.charStrings.items()
if g in s.glyphs)
else:
cs.charStrings = dict((g,v)
for g,v in cs.charStrings.items()
if g in s.glyphs)
font.charset = [g for g in font.charset if g in s.glyphs]
font.numGlyphs = len(font.charset)
return True # any(cff[fontname].numGlyphs for fontname in cff.keys())
@_add_method(psCharStrings.T2CharString)
def subset_subroutines(self, subrs, gsubrs):
p = self.program
assert len(p)
for i in range(1, len(p)):
if p[i] == 'callsubr':
assert isinstance(p[i-1], int)
p[i-1] = subrs._used.index(p[i-1] + subrs._old_bias) - subrs._new_bias
elif p[i] == 'callgsubr':
assert isinstance(p[i-1], int)
p[i-1] = gsubrs._used.index(p[i-1] + gsubrs._old_bias) - gsubrs._new_bias
@_add_method(psCharStrings.T2CharString)
def drop_hints(self):
hints = self._hints
if hints.has_hint:
self.program = self.program[hints.last_hint:]
if hasattr(self, 'width'):
# Insert width back if needed
if self.width != self.private.defaultWidthX:
self.program.insert(0, self.width - self.private.nominalWidthX)
if hints.has_hintmask:
i = 0
p = self.program
while i < len(p):
if p[i] in ['hintmask', 'cntrmask']:
assert i + 1 <= len(p)
del p[i:i+2]
continue
i += 1
# TODO: we currently don't drop calls to "empty" subroutines.
assert len(self.program)
del self._hints
class _MarkingT2Decompiler(psCharStrings.SimpleT2Decompiler):
def __init__(self, localSubrs, globalSubrs):
psCharStrings.SimpleT2Decompiler.__init__(self,
localSubrs,
globalSubrs)
for subrs in [localSubrs, globalSubrs]:
if subrs and not hasattr(subrs, "_used"):
subrs._used = set()
def op_callsubr(self, index):
self.localSubrs._used.add(self.operandStack[-1]+self.localBias)
psCharStrings.SimpleT2Decompiler.op_callsubr(self, index)
def op_callgsubr(self, index):
self.globalSubrs._used.add(self.operandStack[-1]+self.globalBias)
psCharStrings.SimpleT2Decompiler.op_callgsubr(self, index)
class _DehintingT2Decompiler(psCharStrings.SimpleT2Decompiler):
class Hints(object):
def __init__(self):
# Whether calling this charstring produces any hint stems
self.has_hint = False
# Index to start at to drop all hints
self.last_hint = 0
# Index up to which we know more hints are possible. Only
# relevant if status is 0 or 1.
self.last_checked = 0
# The status means:
# 0: after dropping hints, this charstring is empty
# 1: after dropping hints, there may be more hints continuing after this
# 2: no more hints possible after this charstring
self.status = 0
# Has hintmask instructions; not recursive
self.has_hintmask = False
pass
def __init__(self, css, localSubrs, globalSubrs):
self._css = css
psCharStrings.SimpleT2Decompiler.__init__(self,
localSubrs,
globalSubrs)
def execute(self, charString):
old_hints = charString._hints if hasattr(charString, '_hints') else None
charString._hints = self.Hints()
psCharStrings.SimpleT2Decompiler.execute(self, charString)
hints = charString._hints
if hints.has_hint or hints.has_hintmask:
self._css.add(charString)
if hints.status != 2:
# Check from last_check, make sure we didn't have any operators.
for i in range(hints.last_checked, len(charString.program) - 1):
if isinstance(charString.program[i], str):
hints.status = 2
break;
else:
hints.status = 1 # There's *something* here
hints.last_checked = len(charString.program)
if old_hints:
assert hints.__dict__ == old_hints.__dict__
def op_callsubr(self, index):
subr = self.localSubrs[self.operandStack[-1]+self.localBias]
psCharStrings.SimpleT2Decompiler.op_callsubr(self, index)
self.processSubr(index, subr)
def op_callgsubr(self, index):
subr = self.globalSubrs[self.operandStack[-1]+self.globalBias]
psCharStrings.SimpleT2Decompiler.op_callgsubr(self, index)
self.processSubr(index, subr)
def op_hstem(self, index):
psCharStrings.SimpleT2Decompiler.op_hstem(self, index)
self.processHint(index)
def op_vstem(self, index):
psCharStrings.SimpleT2Decompiler.op_vstem(self, index)
self.processHint(index)
def op_hstemhm(self, index):
psCharStrings.SimpleT2Decompiler.op_hstemhm(self, index)
self.processHint(index)
def op_vstemhm(self, index):
psCharStrings.SimpleT2Decompiler.op_vstemhm(self, index)
self.processHint(index)
def op_hintmask(self, index):
psCharStrings.SimpleT2Decompiler.op_hintmask(self, index)
self.processHintmask(index)
def op_cntrmask(self, index):
psCharStrings.SimpleT2Decompiler.op_cntrmask(self, index)
self.processHintmask(index)
def processHintmask(self, index):
cs = self.callingStack[-1]
hints = cs._hints
hints.has_hintmask = True
if hints.status != 2 and hints.has_hint:
# Check from last_check, see if we may be an implicit vstem
for i in range(hints.last_checked, index - 1):
if isinstance(cs.program[i], str):
hints.status = 2
break;
if hints.status != 2:
# We are an implicit vstem
hints.last_hint = index + 1
hints.status = 0
hints.last_checked = index + 1
def processHint(self, index):
cs = self.callingStack[-1]
hints = cs._hints
hints.has_hint = True
hints.last_hint = index
hints.last_checked = index
def processSubr(self, index, subr):
cs = self.callingStack[-1]
hints = cs._hints
subr_hints = subr._hints
if subr_hints.has_hint:
if hints.status != 2:
hints.has_hint = True
hints.last_checked = index
hints.status = subr_hints.status
# Decide where to chop off from
if subr_hints.status == 0:
hints.last_hint = index
else:
hints.last_hint = index - 2 # Leave the subr call in
else:
# In my understanding, this is a font bug. Ie. it has hint stems
# *after* path construction. I've seen this in widespread fonts.
# Best to ignore the hints I suppose...
pass
#assert 0
else:
hints.status = max(hints.status, subr_hints.status)
if hints.status != 2:
# Check from last_check, make sure we didn't have
# any operators.
for i in range(hints.last_checked, index - 1):
if isinstance(cs.program[i], str):
hints.status = 2
break;
hints.last_checked = index
if hints.status != 2:
# Decide where to chop off from
if subr_hints.status == 0:
hints.last_hint = index
else:
hints.last_hint = index - 2 # Leave the subr call in
@_add_method(ttLib.getTableClass('CFF '))
def prune_post_subset(self, options):
cff = self.cff
for fontname in cff.keys():
font = cff[fontname]
cs = font.CharStrings
#
# Drop unused FontDictionaries
#
if hasattr(font, "FDSelect"):
sel = font.FDSelect
indices = _uniq_sort(sel.gidArray)
sel.gidArray = [indices.index (ss) for ss in sel.gidArray]
arr = font.FDArray
arr.items = [arr[i] for i in indices]
arr.count = len(arr.items)
del arr.file, arr.offsets
#
# Drop hints if not needed
#
if not options.hinting:
#
# This can be tricky, but doesn't have to. What we do is:
#
# - Run all used glyph charstrings and recurse into subroutines,
# - For each charstring (including subroutines), if it has any
# of the hint stem operators, we mark it as such. Upon returning,
# for each charstring we note all the subroutine calls it makes
# that (recursively) contain a stem,
# - Dropping hinting then consists of the following two ops:
# * Drop the piece of the program in each charstring before the
# last call to a stem op or a stem-calling subroutine,
# * Drop all hintmask operations.
# - It's trickier... A hintmask right after hints and a few numbers
# will act as an implicit vstemhm. As such, we track whether
# we have seen any non-hint operators so far and do the right
# thing, recursively... Good luck understanding that :(
#
css = set()
for g in font.charset:
c,sel = cs.getItemAndSelector(g)
# Make sure it's decompiled. We want our "decompiler" to walk
# the program, not the bytecode.
c.draw(basePen.NullPen())
subrs = getattr(c.private, "Subrs", [])
decompiler = _DehintingT2Decompiler(css, subrs, c.globalSubrs)
decompiler.execute(c)
for charstring in css:
charstring.drop_hints()
# Drop font-wide hinting values
all_privs = []
if hasattr(font, 'FDSelect'):
all_privs.extend(fd.Private for fd in font.FDArray)
else:
all_privs.append(font.Private)
for priv in all_privs:
for k in ['BlueValues', 'OtherBlues', 'FamilyBlues', 'FamilyOtherBlues',
'BlueScale', 'BlueShift', 'BlueFuzz',
'StemSnapH', 'StemSnapV', 'StdHW', 'StdVW']:
if hasattr(priv, k):
setattr(priv, k, None)
#
# Renumber subroutines to remove unused ones
#
# Mark all used subroutines
for g in font.charset:
c,sel = cs.getItemAndSelector(g)
subrs = getattr(c.private, "Subrs", [])
decompiler = _MarkingT2Decompiler(subrs, c.globalSubrs)
decompiler.execute(c)
all_subrs = [font.GlobalSubrs]
if hasattr(font, 'FDSelect'):
all_subrs.extend(fd.Private.Subrs for fd in font.FDArray if hasattr(fd.Private, 'Subrs') and fd.Private.Subrs)
elif hasattr(font.Private, 'Subrs') and font.Private.Subrs:
all_subrs.append(font.Private.Subrs)
subrs = set(subrs) # Remove duplicates
# Prepare
for subrs in all_subrs:
if not hasattr(subrs, '_used'):
subrs._used = set()
subrs._used = _uniq_sort(subrs._used)
subrs._old_bias = psCharStrings.calcSubrBias(subrs)
subrs._new_bias = psCharStrings.calcSubrBias(subrs._used)
# Renumber glyph charstrings
for g in font.charset:
c,sel = cs.getItemAndSelector(g)
subrs = getattr(c.private, "Subrs", [])
c.subset_subroutines (subrs, font.GlobalSubrs)
# Renumber subroutines themselves
for subrs in all_subrs:
if subrs == font.GlobalSubrs:
if not hasattr(font, 'FDSelect') and hasattr(font.Private, 'Subrs'):
local_subrs = font.Private.Subrs
else:
local_subrs = []
else:
local_subrs = subrs
subrs.items = [subrs.items[i] for i in subrs._used]
subrs.count = len(subrs.items)
del subrs.file
if hasattr(subrs, 'offsets'):
del subrs.offsets
for i in range (subrs.count):
subrs[i].subset_subroutines (local_subrs, font.GlobalSubrs)
# Cleanup
for subrs in all_subrs:
del subrs._used, subrs._old_bias, subrs._new_bias
return True
@_add_method(ttLib.getTableClass('cmap'))
def closure_glyphs(self, s):
tables = [t for t in self.tables if t.isUnicode()]
for u in s.unicodes_requested:
found = False
for table in tables:
if table.format == 14:
for l in table.uvsDict.values():
# TODO(behdad) Speed this up!
gids = [g for uc,g in l if u == uc and g is not None]
s.glyphs.update(gids)
# Intentionally not setting found=True here.
else:
if u in table.cmap:
s.glyphs.add(table.cmap[u])
found = True
if not found:
s.log("No default glyph for Unicode %04X found." % u)
@_add_method(ttLib.getTableClass('cmap'))
def prune_pre_subset(self, options):
if not options.legacy_cmap:
# Drop non-Unicode / non-Symbol cmaps
self.tables = [t for t in self.tables if t.isUnicode() or t.isSymbol()]
if not options.symbol_cmap:
self.tables = [t for t in self.tables if not t.isSymbol()]
# TODO(behdad) Only keep one subtable?
# For now, drop format=0 which can't be subset_glyphs easily?
self.tables = [t for t in self.tables if t.format != 0]
self.numSubTables = len(self.tables)
return True # Required table
@_add_method(ttLib.getTableClass('cmap'))
def subset_glyphs(self, s):
s.glyphs = s.glyphs_cmaped
for t in self.tables:
# For reasons I don't understand I need this here
# to force decompilation of the cmap format 14.
try:
getattr(t, "asdf")
except AttributeError:
pass
if t.format == 14:
# TODO(behdad) We drop all the default-UVS mappings for glyphs_requested.
# I don't think we care about that...
t.uvsDict = dict((v,[(u,g) for u,g in l
if g in s.glyphs or u in s.unicodes_requested])
for v,l in t.uvsDict.items())
t.uvsDict = dict((v,l) for v,l in t.uvsDict.items() if l)
elif t.isUnicode():
t.cmap = dict((u,g) for u,g in t.cmap.items()
if g in s.glyphs_requested or u in s.unicodes_requested)
else:
t.cmap = dict((u,g) for u,g in t.cmap.items()
if g in s.glyphs_requested)
self.tables = [t for t in self.tables
if (t.cmap if t.format != 14 else t.uvsDict)]
self.numSubTables = len(self.tables)
# TODO(behdad) Convert formats when needed.
# In particular, if we have a format=12 without non-BMP
# characters, either drop format=12 one or convert it
# to format=4 if there's not one.
return True # Required table
@_add_method(ttLib.getTableClass('name'))
def prune_pre_subset(self, options):
if '*' not in options.name_IDs:
self.names = [n for n in self.names if n.nameID in options.name_IDs]
if not options.name_legacy:
self.names = [n for n in self.names if n.isUnicode()]
# TODO(behdad) Option to keep only one platform's
if '*' not in options.name_languages:
# TODO(behdad) This is Windows-platform specific!
self.names = [n for n in self.names if n.langID in options.name_languages]
return True # Required table
# TODO(behdad) OS/2 ulUnicodeRange / ulCodePageRange?
# TODO(behdad) Drop AAT tables.
# TODO(behdad) Drop unneeded GSUB/GPOS Script/LangSys entries.
# TODO(behdad) Drop empty GSUB/GPOS, and GDEF if no GSUB/GPOS left
# TODO(behdad) Drop GDEF subitems if unused by lookups
# TODO(behdad) Avoid recursing too much (in GSUB/GPOS and in CFF)
# TODO(behdad) Text direction considerations.
# TODO(behdad) Text script / language considerations.
# TODO(behdad) Optionally drop 'kern' table if GPOS available
# TODO(behdad) Implement --unicode='*' to choose all cmap'ed
# TODO(behdad) Drop old-spec Indic scripts
class Options(object):
class UnknownOptionError(Exception):
pass
_drop_tables_default = ['BASE', 'JSTF', 'DSIG', 'EBDT', 'EBLC', 'EBSC', 'SVG ',
'PCLT', 'LTSH']
_drop_tables_default += ['Feat', 'Glat', 'Gloc', 'Silf', 'Sill'] # Graphite
_drop_tables_default += ['CBLC', 'CBDT', 'sbix', 'COLR', 'CPAL'] # Color
_no_subset_tables_default = ['gasp', 'head', 'hhea', 'maxp', 'vhea', 'OS/2',
'loca', 'name', 'cvt ', 'fpgm', 'prep']
_hinting_tables_default = ['cvt ', 'fpgm', 'prep', 'hdmx', 'VDMX']
# Based on HarfBuzz shapers
_layout_features_groups = {
# Default shaper
'common': ['ccmp', 'liga', 'locl', 'mark', 'mkmk', 'rlig'],
'horizontal': ['calt', 'clig', 'curs', 'kern', 'rclt'],
'vertical': ['valt', 'vert', 'vkrn', 'vpal', 'vrt2'],
'ltr': ['ltra', 'ltrm'],
'rtl': ['rtla', 'rtlm'],
# Complex shapers
'arabic': ['init', 'medi', 'fina', 'isol', 'med2', 'fin2', 'fin3',
'cswh', 'mset'],
'hangul': ['ljmo', 'vjmo', 'tjmo'],
'tibetan': ['abvs', 'blws', 'abvm', 'blwm'],
'indic': ['nukt', 'akhn', 'rphf', 'rkrf', 'pref', 'blwf', 'half',
'abvf', 'pstf', 'cfar', 'vatu', 'cjct', 'init', 'pres',
'abvs', 'blws', 'psts', 'haln', 'dist', 'abvm', 'blwm'],
}
_layout_features_default = _uniq_sort(sum(
iter(_layout_features_groups.values()), []))
drop_tables = _drop_tables_default
no_subset_tables = _no_subset_tables_default
hinting_tables = _hinting_tables_default
layout_features = _layout_features_default
hinting = True
glyph_names = False
legacy_cmap = False
symbol_cmap = False
name_IDs = [1, 2] # Family and Style
name_legacy = False
name_languages = [0x0409] # English
notdef_glyph = True # gid0 for TrueType / .notdef for CFF
notdef_outline = False # No need for notdef to have an outline really
recommended_glyphs = False # gid1, gid2, gid3 for TrueType
recalc_bounds = False # Recalculate font bounding boxes
recalc_timestamp = False # Recalculate font modified timestamp
canonical_order = False # Order tables as recommended
flavor = None # May be 'woff'
def __init__(self, **kwargs):
self.set(**kwargs)
def set(self, **kwargs):
for k,v in kwargs.items():
if not hasattr(self, k):
raise self.UnknownOptionError("Unknown option '%s'" % k)
setattr(self, k, v)
def parse_opts(self, argv, ignore_unknown=False):
ret = []
opts = {}
for a in argv:
orig_a = a
if not a.startswith('--'):
ret.append(a)
continue
a = a[2:]
i = a.find('=')
op = '='
if i == -1:
if a.startswith("no-"):
k = a[3:]
v = False
else:
k = a
v = True
else:
k = a[:i]
if k[-1] in "-+":
op = k[-1]+'=' # Ops is '-=' or '+=' now.
k = k[:-1]
v = a[i+1:]
k = k.replace('-', '_')
if not hasattr(self, k):
if ignore_unknown is True or k in ignore_unknown:
ret.append(orig_a)
continue
else:
raise self.UnknownOptionError("Unknown option '%s'" % a)
ov = getattr(self, k)
if isinstance(ov, bool):
v = bool(v)
elif isinstance(ov, int):
v = int(v)
elif isinstance(ov, list):
vv = v.split(',')
if vv == ['']:
vv = []
vv = [int(x, 0) if len(x) and x[0] in "0123456789" else x for x in vv]
if op == '=':
v = vv
elif op == '+=':
v = ov
v.extend(vv)
elif op == '-=':
v = ov
for x in vv:
if x in v:
v.remove(x)
else:
assert False
opts[k] = v
self.set(**opts)
return ret
class Subsetter(object):
def __init__(self, options=None, log=None):
if not log:
log = Logger()
if not options:
options = Options()
self.options = options
self.log = log
self.unicodes_requested = set()
self.glyphs_requested = set()
self.glyphs = set()
def populate(self, glyphs=[], unicodes=[], text=""):
self.unicodes_requested.update(unicodes)
if isinstance(text, bytes):
text = text.decode("utf8")
for u in text:
self.unicodes_requested.add(ord(u))
self.glyphs_requested.update(glyphs)
self.glyphs.update(glyphs)
def _prune_pre_subset(self, font):
for tag in font.keys():
if tag == 'GlyphOrder': continue
if(tag in self.options.drop_tables or
(tag in self.options.hinting_tables and not self.options.hinting)):
self.log(tag, "dropped")
del font[tag]
continue
clazz = ttLib.getTableClass(tag)
if hasattr(clazz, 'prune_pre_subset'):
table = font[tag]
self.log.lapse("load '%s'" % tag)
retain = table.prune_pre_subset(self.options)
self.log.lapse("prune '%s'" % tag)
if not retain:
self.log(tag, "pruned to empty; dropped")
del font[tag]
continue
else:
self.log(tag, "pruned")
def _closure_glyphs(self, font):
realGlyphs = set(font.getGlyphOrder())
self.glyphs = self.glyphs_requested.copy()
if 'cmap' in font:
font['cmap'].closure_glyphs(self)
self.glyphs.intersection_update(realGlyphs)
self.glyphs_cmaped = self.glyphs
if self.options.notdef_glyph:
if 'glyf' in font:
self.glyphs.add(font.getGlyphName(0))
self.log("Added gid0 to subset")
else:
self.glyphs.add('.notdef')
self.log("Added .notdef to subset")
if self.options.recommended_glyphs:
if 'glyf' in font:
for i in range(min(4, len(font.getGlyphOrder()))):
self.glyphs.add(font.getGlyphName(i))
self.log("Added first four glyphs to subset")
if 'GSUB' in font:
self.log("Closing glyph list over 'GSUB': %d glyphs before" %
len(self.glyphs))
self.log.glyphs(self.glyphs, font=font)
font['GSUB'].closure_glyphs(self)
self.glyphs.intersection_update(realGlyphs)
self.log("Closed glyph list over 'GSUB': %d glyphs after" %
len(self.glyphs))
self.log.glyphs(self.glyphs, font=font)
self.log.lapse("close glyph list over 'GSUB'")
self.glyphs_gsubed = self.glyphs.copy()
if 'glyf' in font:
self.log("Closing glyph list over 'glyf': %d glyphs before" %
len(self.glyphs))
self.log.glyphs(self.glyphs, font=font)
font['glyf'].closure_glyphs(self)
self.glyphs.intersection_update(realGlyphs)
self.log("Closed glyph list over 'glyf': %d glyphs after" %
len(self.glyphs))
self.log.glyphs(self.glyphs, font=font)
self.log.lapse("close glyph list over 'glyf'")
self.glyphs_glyfed = self.glyphs.copy()
self.glyphs_all = self.glyphs.copy()
self.log("Retaining %d glyphs: " % len(self.glyphs_all))
del self.glyphs
def _subset_glyphs(self, font):
for tag in font.keys():
if tag == 'GlyphOrder': continue
clazz = ttLib.getTableClass(tag)
if tag in self.options.no_subset_tables:
self.log(tag, "subsetting not needed")
elif hasattr(clazz, 'subset_glyphs'):
table = font[tag]
self.glyphs = self.glyphs_all
retain = table.subset_glyphs(self)
del self.glyphs
self.log.lapse("subset '%s'" % tag)
if not retain:
self.log(tag, "subsetted to empty; dropped")
del font[tag]
else:
self.log(tag, "subsetted")
else:
self.log(tag, "NOT subset; don't know how to subset; dropped")
del font[tag]
glyphOrder = font.getGlyphOrder()
glyphOrder = [g for g in glyphOrder if g in self.glyphs_all]
font.setGlyphOrder(glyphOrder)
font._buildReverseGlyphOrderDict()
self.log.lapse("subset GlyphOrder")
def _prune_post_subset(self, font):
for tag in font.keys():
if tag == 'GlyphOrder': continue
clazz = ttLib.getTableClass(tag)
if hasattr(clazz, 'prune_post_subset'):
table = font[tag]
retain = table.prune_post_subset(self.options)
self.log.lapse("prune '%s'" % tag)
if not retain:
self.log(tag, "pruned to empty; dropped")
del font[tag]
else:
self.log(tag, "pruned")
def subset(self, font):
self._prune_pre_subset(font)
self._closure_glyphs(font)
self._subset_glyphs(font)
self._prune_post_subset(font)
class Logger(object):
def __init__(self, verbose=False, xml=False, timing=False):
self.verbose = verbose
self.xml = xml
self.timing = timing
self.last_time = self.start_time = time.time()
def parse_opts(self, argv):
argv = argv[:]
for v in ['verbose', 'xml', 'timing']:
if "--"+v in argv:
setattr(self, v, True)
argv.remove("--"+v)
return argv
def __call__(self, *things):
if not self.verbose:
return
print(' '.join(str(x) for x in things))
def lapse(self, *things):
if not self.timing:
return
new_time = time.time()
print("Took %0.3fs to %s" %(new_time - self.last_time,
' '.join(str(x) for x in things)))
self.last_time = new_time
def glyphs(self, glyphs, font=None):
if not self.verbose:
return
self("Names: ", sorted(glyphs))
if font:
reverseGlyphMap = font.getReverseGlyphMap()
self("Gids : ", sorted(reverseGlyphMap[g] for g in glyphs))
def font(self, font, file=sys.stdout):
if not self.xml:
return
from fontTools.misc import xmlWriter
writer = xmlWriter.XMLWriter(file)
for tag in font.keys():
writer.begintag(tag)
writer.newline()
font[tag].toXML(writer, font)
writer.endtag(tag)
writer.newline()
def load_font(fontFile,
options,
allowVID=False,
checkChecksums=False,
dontLoadGlyphNames=False,
lazy=True):
font = ttLib.TTFont(fontFile,
allowVID=allowVID,
checkChecksums=checkChecksums,
recalcBBoxes=options.recalc_bounds,
recalcTimestamp=options.recalc_timestamp,
lazy=lazy)
# Hack:
#
# If we don't need glyph names, change 'post' class to not try to
# load them. It avoid lots of headache with broken fonts as well
# as loading time.
#
# Ideally ttLib should provide a way to ask it to skip loading
# glyph names. But it currently doesn't provide such a thing.
#
if dontLoadGlyphNames:
post = ttLib.getTableClass('post')
saved = post.decode_format_2_0
post.decode_format_2_0 = post.decode_format_3_0
f = font['post']
if f.formatType == 2.0:
f.formatType = 3.0
post.decode_format_2_0 = saved
return font
def save_font(font, outfile, options):
if options.flavor and not hasattr(font, 'flavor'):
raise Exception("fonttools version does not support flavors.")
font.flavor = options.flavor
font.save(outfile, reorderTables=options.canonical_order)
def main(args):
log = Logger()
args = log.parse_opts(args)
options = Options()
args = options.parse_opts(args, ignore_unknown=['text'])
if len(args) < 2:
print("usage: pyftsubset font-file glyph... [--text=ABC]... [--option=value]...", file=sys.stderr)
sys.exit(1)
fontfile = args[0]
args = args[1:]
dontLoadGlyphNames =(not options.glyph_names and
all(any(g.startswith(p)
for p in ['gid', 'glyph', 'uni', 'U+'])
for g in args))
font = load_font(fontfile, options, dontLoadGlyphNames=dontLoadGlyphNames)
log.lapse("load font")
subsetter = Subsetter(options=options, log=log)
names = font.getGlyphNames()
log.lapse("loading glyph names")
glyphs = []
unicodes = []
text = ""
for g in args:
if g == '*':
glyphs.extend(font.getGlyphOrder())
continue
if g in names:
glyphs.append(g)
continue
if g.startswith('--text='):
text += g[7:]
continue
if g.startswith('uni') or g.startswith('U+'):
if g.startswith('uni') and len(g) > 3:
g = g[3:]
elif g.startswith('U+') and len(g) > 2:
g = g[2:]
u = int(g, 16)
unicodes.append(u)
continue
if g.startswith('gid') or g.startswith('glyph'):
if g.startswith('gid') and len(g) > 3:
g = g[3:]
elif g.startswith('glyph') and len(g) > 5:
g = g[5:]
try:
glyphs.append(font.getGlyphName(int(g), requireReal=True))
except ValueError:
raise Exception("Invalid glyph identifier: %s" % g)
continue
raise Exception("Invalid glyph identifier: %s" % g)
log.lapse("compile glyph list")
log("Unicodes:", unicodes)
log("Glyphs:", glyphs)
subsetter.populate(glyphs=glyphs, unicodes=unicodes, text=text)
subsetter.subset(font)
outfile = fontfile + '.subset'
save_font (font, outfile, options)
log.lapse("compile and save font")
log.last_time = log.start_time
log.lapse("make one with everything(TOTAL TIME)")
if log.verbose:
import os
log("Input font: %d bytes" % os.path.getsize(fontfile))
log("Subset font: %d bytes" % os.path.getsize(outfile))
log.font(font)
font.close()
__all__ = [
'Options',
'Subsetter',
'Logger',
'load_font',
'save_font',
'main'
]
if __name__ == '__main__':
main(sys.argv[1:])