from fontTools.misc.psCharStrings import ( SimpleT2Decompiler, T2WidthExtractor, calcSubrBias, ) def _uniq_sort(l): return sorted(set(l)) class StopHintCountEvent(Exception): pass class _DesubroutinizingT2Decompiler(SimpleT2Decompiler): stop_hintcount_ops = ( "op_hintmask", "op_cntrmask", "op_rmoveto", "op_hmoveto", "op_vmoveto", ) def __init__(self, localSubrs, globalSubrs, private=None): SimpleT2Decompiler.__init__(self, localSubrs, globalSubrs, private) def execute(self, charString): self.need_hintcount = True # until proven otherwise for op_name in self.stop_hintcount_ops: setattr(self, op_name, self.stop_hint_count) if hasattr(charString, "_desubroutinized"): # If a charstring has already been desubroutinized, we will still # need to execute it if we need to count hints in order to # compute the byte length for mask arguments, and haven't finished # counting hints pairs. if self.need_hintcount and self.callingStack: try: SimpleT2Decompiler.execute(self, charString) except StopHintCountEvent: del self.callingStack[-1] return charString._patches = [] SimpleT2Decompiler.execute(self, charString) desubroutinized = charString.program[:] for idx, expansion in reversed(charString._patches): assert idx >= 2 assert desubroutinized[idx - 1] in [ "callsubr", "callgsubr", ], desubroutinized[idx - 1] assert type(desubroutinized[idx - 2]) == int if expansion[-1] == "return": expansion = expansion[:-1] desubroutinized[idx - 2 : idx] = expansion if not self.private.in_cff2: if "endchar" in desubroutinized: # Cut off after first endchar desubroutinized = desubroutinized[ : desubroutinized.index("endchar") + 1 ] charString._desubroutinized = desubroutinized del charString._patches def op_callsubr(self, index): subr = self.localSubrs[self.operandStack[-1] + self.localBias] SimpleT2Decompiler.op_callsubr(self, index) self.processSubr(index, subr) def op_callgsubr(self, index): subr = self.globalSubrs[self.operandStack[-1] + self.globalBias] SimpleT2Decompiler.op_callgsubr(self, index) self.processSubr(index, subr) def stop_hint_count(self, *args): self.need_hintcount = False for op_name in self.stop_hintcount_ops: setattr(self, op_name, None) cs = self.callingStack[-1] if hasattr(cs, "_desubroutinized"): raise StopHintCountEvent() def op_hintmask(self, index): SimpleT2Decompiler.op_hintmask(self, index) if self.need_hintcount: self.stop_hint_count() def processSubr(self, index, subr): cs = self.callingStack[-1] if not hasattr(cs, "_desubroutinized"): cs._patches.append((index, subr._desubroutinized)) def desubroutinize(cff): for fontName in cff.fontNames: font = cff[fontName] cs = font.CharStrings for c in cs.values(): c.decompile() subrs = getattr(c.private, "Subrs", []) decompiler = _DesubroutinizingT2Decompiler(subrs, c.globalSubrs, c.private) decompiler.execute(c) c.program = c._desubroutinized del c._desubroutinized # Delete all the local subrs if hasattr(font, "FDArray"): for fd in font.FDArray: pd = fd.Private if hasattr(pd, "Subrs"): del pd.Subrs if "Subrs" in pd.rawDict: del pd.rawDict["Subrs"] else: pd = font.Private if hasattr(pd, "Subrs"): del pd.Subrs if "Subrs" in pd.rawDict: del pd.rawDict["Subrs"] # as well as the global subrs cff.GlobalSubrs.clear() class _MarkingT2Decompiler(SimpleT2Decompiler): def __init__(self, localSubrs, globalSubrs, private): SimpleT2Decompiler.__init__(self, localSubrs, globalSubrs, private) 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) SimpleT2Decompiler.op_callsubr(self, index) def op_callgsubr(self, index): self.globalSubrs._used.add(self.operandStack[-1] + self.globalBias) SimpleT2Decompiler.op_callgsubr(self, index) class _DehintingT2Decompiler(T2WidthExtractor): class Hints(object): def __init__(self): # Whether calling this charstring produces any hint stems # Note that if a charstring starts with hintmask, it will # have has_hint set to True, because it *might* produce an # implicit vstem if called under certain conditions. 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, or there might be # other things. Not clear yet. # 2: no more hints possible after this charstring self.status = 0 # Has hintmask instructions; not recursive self.has_hintmask = False # List of indices of calls to empty subroutines to remove. self.deletions = [] pass def __init__( self, css, localSubrs, globalSubrs, nominalWidthX, defaultWidthX, private=None ): self._css = css T2WidthExtractor.__init__( self, localSubrs, globalSubrs, nominalWidthX, defaultWidthX ) self.private = private def execute(self, charString): old_hints = charString._hints if hasattr(charString, "_hints") else None charString._hints = self.Hints() T2WidthExtractor.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] T2WidthExtractor.op_callsubr(self, index) self.processSubr(index, subr) def op_callgsubr(self, index): subr = self.globalSubrs[self.operandStack[-1] + self.globalBias] T2WidthExtractor.op_callgsubr(self, index) self.processSubr(index, subr) def op_hstem(self, index): T2WidthExtractor.op_hstem(self, index) self.processHint(index) def op_vstem(self, index): T2WidthExtractor.op_vstem(self, index) self.processHint(index) def op_hstemhm(self, index): T2WidthExtractor.op_hstemhm(self, index) self.processHint(index) def op_vstemhm(self, index): T2WidthExtractor.op_vstemhm(self, index) self.processHint(index) def op_hintmask(self, index): rv = T2WidthExtractor.op_hintmask(self, index) self.processHintmask(index) return rv def op_cntrmask(self, index): rv = T2WidthExtractor.op_cntrmask(self, index) self.processHintmask(index) return rv def processHintmask(self, index): cs = self.callingStack[-1] hints = cs._hints hints.has_hintmask = True if hints.status != 2: # 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 else: # We are an implicit vstem hints.has_hint = True 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 # Check from last_check, make sure we didn't have # any operators. if hints.status != 2: 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: if subr_hints.has_hint: hints.has_hint = True # 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 elif subr_hints.status == 0: hints.deletions.append(index) hints.status = max(hints.status, subr_hints.status) def _cs_subset_subroutines(charstring, subrs, gsubrs): p = charstring.program 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 ) def _cs_drop_hints(charstring): hints = charstring._hints if hints.deletions: p = charstring.program for idx in reversed(hints.deletions): del p[idx - 2 : idx] if hints.has_hint: assert not hints.deletions or hints.last_hint <= hints.deletions[0] charstring.program = charstring.program[hints.last_hint :] if not charstring.program: # TODO CFF2 no need for endchar. charstring.program.append("endchar") if hasattr(charstring, "width"): # Insert width back if needed if charstring.width != charstring.private.defaultWidthX: # For CFF2 charstrings, this should never happen assert ( charstring.private.defaultWidthX is not None ), "CFF2 CharStrings must not have an initial width value" charstring.program.insert( 0, charstring.width - charstring.private.nominalWidthX ) if hints.has_hintmask: i = 0 p = charstring.program while i < len(p): if p[i] in ["hintmask", "cntrmask"]: assert i + 1 <= len(p) del p[i : i + 2] continue i += 1 assert len(charstring.program) del charstring._hints def remove_hints(cff, *, removeUnusedSubrs: bool = True): for fontname in cff.keys(): font = cff[fontname] cs = font.CharStrings # 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 c in cs.values(): c.decompile() subrs = getattr(c.private, "Subrs", []) decompiler = _DehintingT2Decompiler( css, subrs, c.globalSubrs, c.private.nominalWidthX, c.private.defaultWidthX, c.private, ) decompiler.execute(c) c.width = decompiler.width for charstring in css: _cs_drop_hints(charstring) del css # Drop font-wide hinting values all_privs = [] if hasattr(font, "FDArray"): 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", "ForceBold", "LanguageGroup", "ExpansionFactor", ]: if hasattr(priv, k): setattr(priv, k, None) if removeUnusedSubrs: remove_unused_subroutines(cff) def _pd_delete_empty_subrs(private_dict): if hasattr(private_dict, "Subrs") and not private_dict.Subrs: if "Subrs" in private_dict.rawDict: del private_dict.rawDict["Subrs"] del private_dict.Subrs def remove_unused_subroutines(cff): for fontname in cff.keys(): font = cff[fontname] cs = font.CharStrings # Renumber subroutines to remove unused ones # Mark all used subroutines for c in cs.values(): subrs = getattr(c.private, "Subrs", []) decompiler = _MarkingT2Decompiler(subrs, c.globalSubrs, c.private) decompiler.execute(c) all_subrs = [font.GlobalSubrs] if hasattr(font, "FDArray"): 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 = calcSubrBias(subrs) subrs._new_bias = calcSubrBias(subrs._used) # Renumber glyph charstrings for c in cs.values(): subrs = getattr(c.private, "Subrs", None) _cs_subset_subroutines(c, subrs, font.GlobalSubrs) # Renumber subroutines themselves for subrs in all_subrs: if subrs == font.GlobalSubrs: if not hasattr(font, "FDArray") and hasattr(font.Private, "Subrs"): local_subrs = font.Private.Subrs else: local_subrs = None else: local_subrs = subrs subrs.items = [subrs.items[i] for i in subrs._used] if hasattr(subrs, "file"): del subrs.file if hasattr(subrs, "offsets"): del subrs.offsets for subr in subrs.items: _cs_subset_subroutines(subr, local_subrs, font.GlobalSubrs) # Delete local SubrsIndex if empty if hasattr(font, "FDArray"): for fd in font.FDArray: _pd_delete_empty_subrs(fd.Private) else: _pd_delete_empty_subrs(font.Private) # Cleanup for subrs in all_subrs: del subrs._used, subrs._old_bias, subrs._new_bias