Lib/fontTools/voltLib/ast.py - third_party/fonttools - Git at Google

 from __future__ import print_function, division, absolute_import
 from __future__ import unicode_literals
 from fontTools.voltLib.error import VoltLibError


 class Statement(object):
     def __init__(self, location=None):
         self.location = location

     def build(self, builder):
         pass


 class Expression(object):
     def __init__(self, location=None):
         self.location = location

     def build(self, builder):
         pass


 class Block(Statement):
     def __init__(self, location=None):
         Statement.__init__(self, location)
         self.statements = []

     def build(self, builder):
         for s in self.statements:
             s.build(builder)


 class VoltFile(Block):
     def __init__(self):
         Block.__init__(self, location=None)


 class LookupBlock(Block):
     def __init__(self, name, location=None):
         Block.__init__(self, location)
         self.name = name

     def build(self, builder):
         builder.start_lookup_block(self.location, self.name)
         Block.build(self, builder)
         builder.end_lookup_block()


 class GlyphDefinition(Statement):
     def __init__(self, name, gid, gunicode, gtype, components, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.id = gid
         self.unicode = gunicode
         self.type = gtype
         self.components = components


 class GroupDefinition(Statement):
     def __init__(self, name, enum, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.enum = enum
         self.glyphs_ = None

     def glyphSet(self, groups=None):
         if groups is not None and self.name in groups:
             raise VoltLibError(
                 'Group "%s" contains itself.' % (self.name),
                 self.location)
         if self.glyphs_ is None:
             if groups is None:
                 groups = set({self.name})
             else:
                 groups.add(self.name)
             self.glyphs_ = self.enum.glyphSet(groups)
         return self.glyphs_


 class GlyphName(Expression):
     """A single glyph name, such as cedilla."""
     def __init__(self, glyph, location=None):
         Expression.__init__(self, location)
         self.glyph = glyph

     def glyphSet(self):
         return (self.glyph,)


 class Enum(Expression):
     """An enum"""
     def __init__(self, enum, location=None):
         Expression.__init__(self, location)
         self.enum = enum

     def __iter__(self):
         for e in self.glyphSet():
             yield e

     def glyphSet(self, groups=None):
         glyphs = []
         for element in self.enum:
             if isinstance(element, (GroupName, Enum)):
                 glyphs.extend(element.glyphSet(groups))
             else:
                 glyphs.extend(element.glyphSet())
         return tuple(glyphs)


 class GroupName(Expression):
     """A glyph group"""
     def __init__(self, group, parser, location=None):
         Expression.__init__(self, location)
         self.group = group
         self.parser_ = parser

     def glyphSet(self, groups=None):
         group = self.parser_.resolve_group(self.group)
         if group is not None:
             self.glyphs_ = group.glyphSet(groups)
             return self.glyphs_
         else:
             raise VoltLibError(
                 'Group "%s" is used but undefined.' % (self.group),
                 self.location)


 class Range(Expression):
     """A glyph range"""
     def __init__(self, start, end, parser, location=None):
         Expression.__init__(self, location)
         self.start = start
         self.end = end
         self.parser = parser

     def glyphSet(self):
         return tuple(self.parser.glyph_range(self.start, self.end))


 class ScriptDefinition(Statement):
     def __init__(self, name, tag, langs, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.tag = tag
         self.langs = langs


 class LangSysDefinition(Statement):
     def __init__(self, name, tag, features, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.tag = tag
         self.features = features


 class FeatureDefinition(Statement):
     def __init__(self, name, tag, lookups, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.tag = tag
         self.lookups = lookups


 class LookupDefinition(Statement):
     def __init__(self, name, process_base, process_marks, mark_glyph_set,
                  direction, reversal, comments, context, sub, pos,
                  location=None):
         Statement.__init__(self, location)
         self.name = name
         self.process_base = process_base
         self.process_marks = process_marks
         self.mark_glyph_set = mark_glyph_set
         self.direction = direction
         self.reversal = reversal
         self.comments = comments
         self.context = context
         self.sub = sub
         self.pos = pos


 class SubstitutionDefinition(Statement):
     def __init__(self, mapping, location=None):
         Statement.__init__(self, location)
         self.mapping = mapping


 class SubstitutionSingleDefinition(SubstitutionDefinition):
     pass


 class SubstitutionMultipleDefinition(SubstitutionDefinition):
     pass


 class SubstitutionLigatureDefinition(SubstitutionDefinition):
     pass


 class SubstitutionReverseChainingSingleDefinition(SubstitutionDefinition):
     pass


 class PositionAttachDefinition(Statement):
     def __init__(self, coverage, coverage_to, location=None):
         Statement.__init__(self, location)
         self.coverage = coverage
         self.coverage_to = coverage_to


 class PositionAttachCursiveDefinition(Statement):
     def __init__(self, coverages_exit, coverages_enter, location=None):
         Statement.__init__(self, location)
         self.coverages_exit = coverages_exit
         self.coverages_enter = coverages_enter


 class PositionAdjustPairDefinition(Statement):
     def __init__(self, coverages_1, coverages_2, adjust_pair, location=None):
         Statement.__init__(self, location)
         self.coverages_1 = coverages_1
         self.coverages_2 = coverages_2
         self.adjust_pair = adjust_pair


 class PositionAdjustSingleDefinition(Statement):
     def __init__(self, adjust_single, location=None):
         Statement.__init__(self, location)
         self.adjust_single = adjust_single


 class ContextDefinition(Statement):
     def __init__(self, ex_or_in, left=None, right=None, location=None):
         Statement.__init__(self, location)
         self.ex_or_in = ex_or_in
         self.left = left if left is not None else []
         self.right = right if right is not None else []


 class AnchorDefinition(Statement):
     def __init__(self, name, gid, glyph_name, component, locked,
                  pos, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.gid = gid
         self.glyph_name = glyph_name
         self.component = component
         self.locked = locked
         self.pos = pos


 class SettingDefinition(Statement):
     def __init__(self, name, value, location=None):
         Statement.__init__(self, location)
         self.name = name
         self.value = value
	from __future__ import print_function, division, absolute_import
	from __future__ import unicode_literals
	from fontTools.voltLib.error import VoltLibError


	class Statement(object):
	def __init__(self, location=None):
	self.location = location

	def build(self, builder):
	pass


	class Expression(object):
	def __init__(self, location=None):
	self.location = location

	def build(self, builder):
	pass


	class Block(Statement):
	def __init__(self, location=None):
	Statement.__init__(self, location)
	self.statements = []

	def build(self, builder):
	for s in self.statements:
	s.build(builder)


	class VoltFile(Block):
	def __init__(self):
	Block.__init__(self, location=None)


	class LookupBlock(Block):
	def __init__(self, name, location=None):
	Block.__init__(self, location)
	self.name = name

	def build(self, builder):
	builder.start_lookup_block(self.location, self.name)
	Block.build(self, builder)
	builder.end_lookup_block()


	class GlyphDefinition(Statement):
	def __init__(self, name, gid, gunicode, gtype, components, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.id = gid
	self.unicode = gunicode
	self.type = gtype
	self.components = components


	class GroupDefinition(Statement):
	def __init__(self, name, enum, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.enum = enum
	self.glyphs_ = None

	def glyphSet(self, groups=None):
	if groups is not None and self.name in groups:
	raise VoltLibError(
	'Group "%s" contains itself.' % (self.name),
	self.location)
	if self.glyphs_ is None:
	if groups is None:
	groups = set({self.name})
	else:
	groups.add(self.name)
	self.glyphs_ = self.enum.glyphSet(groups)
	return self.glyphs_


	class GlyphName(Expression):
	"""A single glyph name, such as cedilla."""
	def __init__(self, glyph, location=None):
	Expression.__init__(self, location)
	self.glyph = glyph

	def glyphSet(self):
	return (self.glyph,)


	class Enum(Expression):
	"""An enum"""
	def __init__(self, enum, location=None):
	Expression.__init__(self, location)
	self.enum = enum

	def __iter__(self):
	for e in self.glyphSet():
	yield e

	def glyphSet(self, groups=None):
	glyphs = []
	for element in self.enum:
	if isinstance(element, (GroupName, Enum)):
	glyphs.extend(element.glyphSet(groups))
	else:
	glyphs.extend(element.glyphSet())
	return tuple(glyphs)


	class GroupName(Expression):
	"""A glyph group"""
	def __init__(self, group, parser, location=None):
	Expression.__init__(self, location)
	self.group = group
	self.parser_ = parser

	def glyphSet(self, groups=None):
	group = self.parser_.resolve_group(self.group)
	if group is not None:
	self.glyphs_ = group.glyphSet(groups)
	return self.glyphs_
	else:
	raise VoltLibError(
	'Group "%s" is used but undefined.' % (self.group),
	self.location)


	class Range(Expression):
	"""A glyph range"""
	def __init__(self, start, end, parser, location=None):
	Expression.__init__(self, location)
	self.start = start
	self.end = end
	self.parser = parser

	def glyphSet(self):
	return tuple(self.parser.glyph_range(self.start, self.end))


	class ScriptDefinition(Statement):
	def __init__(self, name, tag, langs, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.tag = tag
	self.langs = langs


	class LangSysDefinition(Statement):
	def __init__(self, name, tag, features, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.tag = tag
	self.features = features


	class FeatureDefinition(Statement):
	def __init__(self, name, tag, lookups, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.tag = tag
	self.lookups = lookups


	class LookupDefinition(Statement):
	def __init__(self, name, process_base, process_marks, mark_glyph_set,
	direction, reversal, comments, context, sub, pos,
	location=None):
	Statement.__init__(self, location)
	self.name = name
	self.process_base = process_base
	self.process_marks = process_marks
	self.mark_glyph_set = mark_glyph_set
	self.direction = direction
	self.reversal = reversal
	self.comments = comments
	self.context = context
	self.sub = sub
	self.pos = pos


	class SubstitutionDefinition(Statement):
	def __init__(self, mapping, location=None):
	Statement.__init__(self, location)
	self.mapping = mapping


	class SubstitutionSingleDefinition(SubstitutionDefinition):
	pass


	class SubstitutionMultipleDefinition(SubstitutionDefinition):
	pass


	class SubstitutionLigatureDefinition(SubstitutionDefinition):
	pass


	class SubstitutionReverseChainingSingleDefinition(SubstitutionDefinition):
	pass


	class PositionAttachDefinition(Statement):
	def __init__(self, coverage, coverage_to, location=None):
	Statement.__init__(self, location)
	self.coverage = coverage
	self.coverage_to = coverage_to


	class PositionAttachCursiveDefinition(Statement):
	def __init__(self, coverages_exit, coverages_enter, location=None):
	Statement.__init__(self, location)
	self.coverages_exit = coverages_exit
	self.coverages_enter = coverages_enter


	class PositionAdjustPairDefinition(Statement):
	def __init__(self, coverages_1, coverages_2, adjust_pair, location=None):
	Statement.__init__(self, location)
	self.coverages_1 = coverages_1
	self.coverages_2 = coverages_2
	self.adjust_pair = adjust_pair


	class PositionAdjustSingleDefinition(Statement):
	def __init__(self, adjust_single, location=None):
	Statement.__init__(self, location)
	self.adjust_single = adjust_single


	class ContextDefinition(Statement):
	def __init__(self, ex_or_in, left=None, right=None, location=None):
	Statement.__init__(self, location)
	self.ex_or_in = ex_or_in
	self.left = left if left is not None else []
	self.right = right if right is not None else []


	class AnchorDefinition(Statement):
	def __init__(self, name, gid, glyph_name, component, locked,
	pos, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.gid = gid
	self.glyph_name = glyph_name
	self.component = component
	self.locked = locked
	self.pos = pos


	class SettingDefinition(Statement):
	def __init__(self, name, value, location=None):
	Statement.__init__(self, location)
	self.name = name
	self.value = value