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from fontTools.voltLib.error import VoltLibError
from typing import NamedTuple
class Pos(NamedTuple):
adv: int
dx: int
dy: int
adv_adjust_by: dict
dx_adjust_by: dict
dy_adjust_by: dict
def __str__(self):
res = ' POS'
for attr in ('adv', 'dx', 'dy'):
value = getattr(self, attr)
if value is not None:
res += f' {attr.upper()} {value}'
adjust_by = getattr(self, f'{attr}_adjust_by', {})
for size, adjustment in adjust_by.items():
res += f' ADJUST_BY {adjustment} AT {size}'
res += ' END_POS'
return res
class Element(object):
def __init__(self, location=None):
self.location = location
def build(self, builder):
pass
def __str__(self):
raise NotImplementedError
class Statement(Element):
pass
class Expression(Element):
pass
class VoltFile(Statement):
def __init__(self):
Statement.__init__(self, location=None)
self.statements = []
def build(self, builder):
for s in self.statements:
s.build(builder)
def __str__(self):
return '\n' + '\n'.join(str(s) for s in self.statements) + ' END\n'
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
def __str__(self):
res = f'DEF_GLYPH "{self.name}" ID {self.id}'
if self.unicode is not None:
if len(self.unicode) > 1:
unicodes = ','.join(f'U+{u:04X}' for u in self.unicode)
res += f' UNICODEVALUES "{unicodes}"'
else:
res += f' UNICODE {self.unicode[0]}'
if self.type is not None:
res += f' TYPE {self.type}'
if self.components is not None:
res += f' COMPONENTS {self.components}'
res += ' END_GLYPH'
return res
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_
def __str__(self):
enum = self.enum and str(self.enum) or ''
return f'DEF_GROUP "{self.name}"\n{enum}\nEND_GROUP'
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,)
def __str__(self):
return f' GLYPH "{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)
def __str__(self):
enum = ''.join(str(e) for e in self.enum)
return f' ENUM{enum} END_ENUM'
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)
def __str__(self):
return f' GROUP "{self.group}"'
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))
def __str__(self):
return f' RANGE "{self.start}" TO "{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
def __str__(self):
res = 'DEF_SCRIPT'
if self.name is not None:
res += f' NAME "{self.name}"'
res += f' TAG "{self.tag}"\n\n'
for lang in self.langs:
res += f'{lang}'
res += 'END_SCRIPT'
return res
class LangSysDefinition(Statement):
def __init__(self, name, tag, features, location=None):
Statement.__init__(self, location)
self.name = name
self.tag = tag
self.features = features
def __str__(self):
res = 'DEF_LANGSYS'
if self.name is not None:
res += f' NAME "{self.name}"'
res += f' TAG "{self.tag}"\n\n'
for feature in self.features:
res += f'{feature}'
res += 'END_LANGSYS\n'
return res
class FeatureDefinition(Statement):
def __init__(self, name, tag, lookups, location=None):
Statement.__init__(self, location)
self.name = name
self.tag = tag
self.lookups = lookups
def __str__(self):
res = f'DEF_FEATURE NAME "{self.name}" TAG "{self.tag}"\n'
res += ' ' + ' '.join(f'LOOKUP "{l}"' for l in self.lookups) + '\n'
res += 'END_FEATURE\n'
return res
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
def __str__(self):
res = f'DEF_LOOKUP "{self.name}"'
res += f' {self.process_base and "PROCESS_BASE" or "SKIP_BASE"}'
if self.process_marks:
res += ' PROCESS_MARKS '
if self.mark_glyph_set:
res += f'MARK_GLYPH_SET "{self.mark_glyph_set}"'
elif isinstance(self.process_marks, str):
res += f'"{self.process_marks}"'
else:
res += 'ALL'
else:
res += ' SKIP_MARKS'
if self.direction is not None:
res += f' DIRECTION {self.direction}'
if self.reversal:
res += ' REVERSAL'
if self.comments is not None:
comments = self.comments.replace('\n', r'\n')
res += f'\nCOMMENTS "{comments}"'
if self.context:
res += '\n' + '\n'.join(str(c) for c in self.context)
else:
res += '\nIN_CONTEXT\nEND_CONTEXT'
if self.sub:
res += f'\n{self.sub}'
if self.pos:
res += f'\n{self.pos}'
return res
class SubstitutionDefinition(Statement):
def __init__(self, mapping, location=None):
Statement.__init__(self, location)
self.mapping = mapping
def __str__(self):
res = 'AS_SUBSTITUTION\n'
for src, dst in self.mapping.items():
src = ''.join(str(s) for s in src)
dst = ''.join(str(d) for d in dst)
res += f'SUB{src}\nWITH{dst}\nEND_SUB\n'
res += 'END_SUBSTITUTION'
return res
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
def __str__(self):
coverage = ''.join(str(c) for c in self.coverage)
res = f'AS_POSITION\nATTACH{coverage}\nTO'
for coverage, anchor in self.coverage_to:
coverage = ''.join(str(c) for c in coverage)
res += f'{coverage} AT ANCHOR "{anchor}"'
res += '\nEND_ATTACH\nEND_POSITION'
return res
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
def __str__(self):
res = 'AS_POSITION\nATTACH_CURSIVE'
for coverage in self.coverages_exit:
coverage = ''.join(str(c) for c in coverage)
res += f'\nEXIT {coverage}'
for coverage in self.coverages_enter:
coverage = ''.join(str(c) for c in coverage)
res += f'\nENTER {coverage}'
res += '\nEND_ATTACH\nEND_POSITION'
return res
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
def __str__(self):
res = 'AS_POSITION\nADJUST_PAIR\n'
for coverage in self.coverages_1:
coverage = ' '.join(str(c) for c in coverage)
res += f' FIRST {coverage}'
res += '\n'
for coverage in self.coverages_2:
coverage = ' '.join(str(c) for c in coverage)
res += f' SECOND {coverage}'
res += '\n'
for (id_1, id_2), (pos_1, pos_2) in self.adjust_pair.items():
res += f' {id_1} {id_2} BY{pos_1}{pos_2}\n'
res += '\nEND_ADJUST\nEND_POSITION'
return res
class PositionAdjustSingleDefinition(Statement):
def __init__(self, adjust_single, location=None):
Statement.__init__(self, location)
self.adjust_single = adjust_single
def __str__(self):
res = 'AS_POSITION\nADJUST_SINGLE'
for coverage, pos in self.adjust_single:
coverage = ''.join(str(c) for c in coverage)
res += f'{coverage} BY{pos}'
res += '\nEND_ADJUST\nEND_POSITION'
return res
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 []
def __str__(self):
res = self.ex_or_in + '\n'
for coverage in self.left:
coverage = ''.join(str(c) for c in coverage)
res += f' LEFT{coverage}\n'
for coverage in self.right:
coverage = ''.join(str(c) for c in coverage)
res += f' RIGHT{coverage}\n'
res += 'END_CONTEXT'
return res
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
def __str__(self):
locked = self.locked and ' LOCKED' or ''
return (f'DEF_ANCHOR "{self.name}"'
f' ON {self.gid}'
f' GLYPH {self.glyph_name}'
f' COMPONENT {self.component}'
f'{locked}'
f' AT {self.pos} END_ANCHOR')
class SettingDefinition(Statement):
def __init__(self, name, value, location=None):
Statement.__init__(self, location)
self.name = name
self.value = value
def __str__(self):
if self.value is True:
return f'{self.name}'
if isinstance(self.value, (tuple, list)):
value = " ".join(str(v) for v in self.value)
return f'{self.name} {value}'
return f'{self.name} {self.value}'
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