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|
import fontTools.voltLib.ast as ast
from fontTools.voltLib.lexer import Lexer
from fontTools.voltLib.error import VoltLibError
from io import open
PARSE_FUNCS = {
"DEF_GLYPH": "parse_def_glyph_",
"DEF_GROUP": "parse_def_group_",
"DEF_SCRIPT": "parse_def_script_",
"DEF_LOOKUP": "parse_def_lookup_",
"DEF_ANCHOR": "parse_def_anchor_",
"GRID_PPEM": "parse_ppem_",
"PRESENTATION_PPEM": "parse_ppem_",
"PPOSITIONING_PPEM": "parse_ppem_",
"COMPILER_USEEXTENSIONLOOKUPS": "parse_noarg_option_",
"COMPILER_USEPAIRPOSFORMAT2": "parse_noarg_option_",
"CMAP_FORMAT": "parse_cmap_format",
"DO_NOT_TOUCH_CMAP": "parse_noarg_option_",
}
class Parser(object):
def __init__(self, path):
self.doc_ = ast.VoltFile()
self.glyphs_ = OrderedSymbolTable()
self.groups_ = SymbolTable()
self.anchors_ = {} # dictionary of SymbolTable() keyed by glyph
self.scripts_ = SymbolTable()
self.langs_ = SymbolTable()
self.lookups_ = SymbolTable()
self.next_token_type_, self.next_token_ = (None, None)
self.next_token_location_ = None
self.make_lexer_(path)
self.advance_lexer_()
def make_lexer_(self, file_or_path):
if hasattr(file_or_path, "read"):
filename = getattr(file_or_path, "name", None)
data = file_or_path.read()
else:
filename = file_or_path
with open(file_or_path, "r") as f:
data = f.read()
self.lexer_ = Lexer(data, filename)
def parse(self):
statements = self.doc_.statements
while self.next_token_type_ is not None:
self.advance_lexer_()
if self.cur_token_ in PARSE_FUNCS.keys():
func = getattr(self, PARSE_FUNCS[self.cur_token_])
statements.append(func())
elif self.is_cur_keyword_("END"):
break
else:
raise VoltLibError(
"Expected " + ", ".join(sorted(PARSE_FUNCS.keys())),
self.cur_token_location_,
)
return self.doc_
def parse_def_glyph_(self):
assert self.is_cur_keyword_("DEF_GLYPH")
location = self.cur_token_location_
name = self.expect_string_()
self.expect_keyword_("ID")
gid = self.expect_number_()
if gid < 0:
raise VoltLibError("Invalid glyph ID", self.cur_token_location_)
gunicode = None
if self.next_token_ == "UNICODE":
self.expect_keyword_("UNICODE")
gunicode = [self.expect_number_()]
if gunicode[0] < 0:
raise VoltLibError("Invalid glyph UNICODE", self.cur_token_location_)
elif self.next_token_ == "UNICODEVALUES":
self.expect_keyword_("UNICODEVALUES")
gunicode = self.parse_unicode_values_()
gtype = None
if self.next_token_ == "TYPE":
self.expect_keyword_("TYPE")
gtype = self.expect_name_()
assert gtype in ("BASE", "LIGATURE", "MARK", "COMPONENT")
components = None
if self.next_token_ == "COMPONENTS":
self.expect_keyword_("COMPONENTS")
components = self.expect_number_()
self.expect_keyword_("END_GLYPH")
if self.glyphs_.resolve(name) is not None:
raise VoltLibError(
'Glyph "%s" (gid %i) already defined' % (name, gid), location
)
def_glyph = ast.GlyphDefinition(
name, gid, gunicode, gtype, components, location=location
)
self.glyphs_.define(name, def_glyph)
return def_glyph
def parse_def_group_(self):
assert self.is_cur_keyword_("DEF_GROUP")
location = self.cur_token_location_
name = self.expect_string_()
enum = None
if self.next_token_ == "ENUM":
enum = self.parse_enum_()
self.expect_keyword_("END_GROUP")
if self.groups_.resolve(name) is not None:
raise VoltLibError(
'Glyph group "%s" already defined, '
"group names are case insensitive" % name,
location,
)
def_group = ast.GroupDefinition(name, enum, location=location)
self.groups_.define(name, def_group)
return def_group
def parse_def_script_(self):
assert self.is_cur_keyword_("DEF_SCRIPT")
location = self.cur_token_location_
name = None
if self.next_token_ == "NAME":
self.expect_keyword_("NAME")
name = self.expect_string_()
self.expect_keyword_("TAG")
tag = self.expect_string_()
if self.scripts_.resolve(tag) is not None:
raise VoltLibError(
'Script "%s" already defined, '
"script tags are case insensitive" % tag,
location,
)
self.langs_.enter_scope()
langs = []
while self.next_token_ != "END_SCRIPT":
self.advance_lexer_()
lang = self.parse_langsys_()
self.expect_keyword_("END_LANGSYS")
if self.langs_.resolve(lang.tag) is not None:
raise VoltLibError(
'Language "%s" already defined in script "%s", '
"language tags are case insensitive" % (lang.tag, tag),
location,
)
self.langs_.define(lang.tag, lang)
langs.append(lang)
self.expect_keyword_("END_SCRIPT")
self.langs_.exit_scope()
def_script = ast.ScriptDefinition(name, tag, langs, location=location)
self.scripts_.define(tag, def_script)
return def_script
def parse_langsys_(self):
assert self.is_cur_keyword_("DEF_LANGSYS")
location = self.cur_token_location_
name = None
if self.next_token_ == "NAME":
self.expect_keyword_("NAME")
name = self.expect_string_()
self.expect_keyword_("TAG")
tag = self.expect_string_()
features = []
while self.next_token_ != "END_LANGSYS":
self.advance_lexer_()
feature = self.parse_feature_()
self.expect_keyword_("END_FEATURE")
features.append(feature)
def_langsys = ast.LangSysDefinition(name, tag, features, location=location)
return def_langsys
def parse_feature_(self):
assert self.is_cur_keyword_("DEF_FEATURE")
location = self.cur_token_location_
self.expect_keyword_("NAME")
name = self.expect_string_()
self.expect_keyword_("TAG")
tag = self.expect_string_()
lookups = []
while self.next_token_ != "END_FEATURE":
# self.advance_lexer_()
self.expect_keyword_("LOOKUP")
lookup = self.expect_string_()
lookups.append(lookup)
feature = ast.FeatureDefinition(name, tag, lookups, location=location)
return feature
def parse_def_lookup_(self):
assert self.is_cur_keyword_("DEF_LOOKUP")
location = self.cur_token_location_
name = self.expect_string_()
if not name[0].isalpha():
raise VoltLibError(
'Lookup name "%s" must start with a letter' % name, location
)
if self.lookups_.resolve(name) is not None:
raise VoltLibError(
'Lookup "%s" already defined, '
"lookup names are case insensitive" % name,
location,
)
process_base = True
if self.next_token_ == "PROCESS_BASE":
self.advance_lexer_()
elif self.next_token_ == "SKIP_BASE":
self.advance_lexer_()
process_base = False
process_marks = True
mark_glyph_set = None
if self.next_token_ == "PROCESS_MARKS":
self.advance_lexer_()
if self.next_token_ == "MARK_GLYPH_SET":
self.advance_lexer_()
mark_glyph_set = self.expect_string_()
elif self.next_token_ == "ALL":
self.advance_lexer_()
elif self.next_token_ == "NONE":
self.advance_lexer_()
process_marks = False
elif self.next_token_type_ == Lexer.STRING:
process_marks = self.expect_string_()
else:
raise VoltLibError(
"Expected ALL, NONE, MARK_GLYPH_SET or an ID. "
"Got %s" % (self.next_token_type_),
location,
)
elif self.next_token_ == "SKIP_MARKS":
self.advance_lexer_()
process_marks = False
direction = None
if self.next_token_ == "DIRECTION":
self.expect_keyword_("DIRECTION")
direction = self.expect_name_()
assert direction in ("LTR", "RTL")
reversal = None
if self.next_token_ == "REVERSAL":
self.expect_keyword_("REVERSAL")
reversal = True
comments = None
if self.next_token_ == "COMMENTS":
self.expect_keyword_("COMMENTS")
comments = self.expect_string_().replace(r"\n", "\n")
context = []
while self.next_token_ in ("EXCEPT_CONTEXT", "IN_CONTEXT"):
context = self.parse_context_()
as_pos_or_sub = self.expect_name_()
sub = None
pos = None
if as_pos_or_sub == "AS_SUBSTITUTION":
sub = self.parse_substitution_(reversal)
elif as_pos_or_sub == "AS_POSITION":
pos = self.parse_position_()
else:
raise VoltLibError(
"Expected AS_SUBSTITUTION or AS_POSITION. " "Got %s" % (as_pos_or_sub),
location,
)
def_lookup = ast.LookupDefinition(
name,
process_base,
process_marks,
mark_glyph_set,
direction,
reversal,
comments,
context,
sub,
pos,
location=location,
)
self.lookups_.define(name, def_lookup)
return def_lookup
def parse_context_(self):
location = self.cur_token_location_
contexts = []
while self.next_token_ in ("EXCEPT_CONTEXT", "IN_CONTEXT"):
side = None
coverage = None
ex_or_in = self.expect_name_()
# side_contexts = [] # XXX
if self.next_token_ != "END_CONTEXT":
left = []
right = []
while self.next_token_ in ("LEFT", "RIGHT"):
side = self.expect_name_()
coverage = self.parse_coverage_()
if side == "LEFT":
left.append(coverage)
else:
right.append(coverage)
self.expect_keyword_("END_CONTEXT")
context = ast.ContextDefinition(
ex_or_in, left, right, location=location
)
contexts.append(context)
else:
self.expect_keyword_("END_CONTEXT")
return contexts
def parse_substitution_(self, reversal):
assert self.is_cur_keyword_("AS_SUBSTITUTION")
location = self.cur_token_location_
src = []
dest = []
if self.next_token_ != "SUB":
raise VoltLibError("Expected SUB", location)
while self.next_token_ == "SUB":
self.expect_keyword_("SUB")
src.append(self.parse_coverage_())
self.expect_keyword_("WITH")
dest.append(self.parse_coverage_())
self.expect_keyword_("END_SUB")
self.expect_keyword_("END_SUBSTITUTION")
max_src = max([len(cov) for cov in src])
max_dest = max([len(cov) for cov in dest])
# many to many or mixed is invalid
if (max_src > 1 and max_dest > 1) or (
reversal and (max_src > 1 or max_dest > 1)
):
raise VoltLibError("Invalid substitution type", location)
mapping = dict(zip(tuple(src), tuple(dest)))
if max_src == 1 and max_dest == 1:
if reversal:
sub = ast.SubstitutionReverseChainingSingleDefinition(
mapping, location=location
)
else:
sub = ast.SubstitutionSingleDefinition(mapping, location=location)
elif max_src == 1 and max_dest > 1:
sub = ast.SubstitutionMultipleDefinition(mapping, location=location)
elif max_src > 1 and max_dest == 1:
sub = ast.SubstitutionLigatureDefinition(mapping, location=location)
return sub
def parse_position_(self):
assert self.is_cur_keyword_("AS_POSITION")
location = self.cur_token_location_
pos_type = self.expect_name_()
if pos_type not in ("ATTACH", "ATTACH_CURSIVE", "ADJUST_PAIR", "ADJUST_SINGLE"):
raise VoltLibError(
"Expected ATTACH, ATTACH_CURSIVE, ADJUST_PAIR, ADJUST_SINGLE", location
)
if pos_type == "ATTACH":
position = self.parse_attach_()
elif pos_type == "ATTACH_CURSIVE":
position = self.parse_attach_cursive_()
elif pos_type == "ADJUST_PAIR":
position = self.parse_adjust_pair_()
elif pos_type == "ADJUST_SINGLE":
position = self.parse_adjust_single_()
self.expect_keyword_("END_POSITION")
return position
def parse_attach_(self):
assert self.is_cur_keyword_("ATTACH")
location = self.cur_token_location_
coverage = self.parse_coverage_()
coverage_to = []
self.expect_keyword_("TO")
while self.next_token_ != "END_ATTACH":
cov = self.parse_coverage_()
self.expect_keyword_("AT")
self.expect_keyword_("ANCHOR")
anchor_name = self.expect_string_()
coverage_to.append((cov, anchor_name))
self.expect_keyword_("END_ATTACH")
position = ast.PositionAttachDefinition(
coverage, coverage_to, location=location
)
return position
def parse_attach_cursive_(self):
assert self.is_cur_keyword_("ATTACH_CURSIVE")
location = self.cur_token_location_
coverages_exit = []
coverages_enter = []
while self.next_token_ != "ENTER":
self.expect_keyword_("EXIT")
coverages_exit.append(self.parse_coverage_())
while self.next_token_ != "END_ATTACH":
self.expect_keyword_("ENTER")
coverages_enter.append(self.parse_coverage_())
self.expect_keyword_("END_ATTACH")
position = ast.PositionAttachCursiveDefinition(
coverages_exit, coverages_enter, location=location
)
return position
def parse_adjust_pair_(self):
assert self.is_cur_keyword_("ADJUST_PAIR")
location = self.cur_token_location_
coverages_1 = []
coverages_2 = []
adjust_pair = {}
while self.next_token_ == "FIRST":
self.advance_lexer_()
coverage_1 = self.parse_coverage_()
coverages_1.append(coverage_1)
while self.next_token_ == "SECOND":
self.advance_lexer_()
coverage_2 = self.parse_coverage_()
coverages_2.append(coverage_2)
while self.next_token_ != "END_ADJUST":
id_1 = self.expect_number_()
id_2 = self.expect_number_()
self.expect_keyword_("BY")
pos_1 = self.parse_pos_()
pos_2 = self.parse_pos_()
adjust_pair[(id_1, id_2)] = (pos_1, pos_2)
self.expect_keyword_("END_ADJUST")
position = ast.PositionAdjustPairDefinition(
coverages_1, coverages_2, adjust_pair, location=location
)
return position
def parse_adjust_single_(self):
assert self.is_cur_keyword_("ADJUST_SINGLE")
location = self.cur_token_location_
adjust_single = []
while self.next_token_ != "END_ADJUST":
coverages = self.parse_coverage_()
self.expect_keyword_("BY")
pos = self.parse_pos_()
adjust_single.append((coverages, pos))
self.expect_keyword_("END_ADJUST")
position = ast.PositionAdjustSingleDefinition(adjust_single, location=location)
return position
def parse_def_anchor_(self):
assert self.is_cur_keyword_("DEF_ANCHOR")
location = self.cur_token_location_
name = self.expect_string_()
self.expect_keyword_("ON")
gid = self.expect_number_()
self.expect_keyword_("GLYPH")
glyph_name = self.expect_name_()
self.expect_keyword_("COMPONENT")
component = self.expect_number_()
# check for duplicate anchor names on this glyph
if glyph_name in self.anchors_:
anchor = self.anchors_[glyph_name].resolve(name)
if anchor is not None and anchor.component == component:
raise VoltLibError(
'Anchor "%s" already defined, '
"anchor names are case insensitive" % name,
location,
)
if self.next_token_ == "LOCKED":
locked = True
self.advance_lexer_()
else:
locked = False
self.expect_keyword_("AT")
pos = self.parse_pos_()
self.expect_keyword_("END_ANCHOR")
anchor = ast.AnchorDefinition(
name, gid, glyph_name, component, locked, pos, location=location
)
if glyph_name not in self.anchors_:
self.anchors_[glyph_name] = SymbolTable()
self.anchors_[glyph_name].define(name, anchor)
return anchor
def parse_adjust_by_(self):
self.advance_lexer_()
assert self.is_cur_keyword_("ADJUST_BY")
adjustment = self.expect_number_()
self.expect_keyword_("AT")
size = self.expect_number_()
return adjustment, size
def parse_pos_(self):
# VOLT syntax doesn't seem to take device Y advance
self.advance_lexer_()
location = self.cur_token_location_
assert self.is_cur_keyword_("POS"), location
adv = None
dx = None
dy = None
adv_adjust_by = {}
dx_adjust_by = {}
dy_adjust_by = {}
if self.next_token_ == "ADV":
self.advance_lexer_()
adv = self.expect_number_()
while self.next_token_ == "ADJUST_BY":
adjustment, size = self.parse_adjust_by_()
adv_adjust_by[size] = adjustment
if self.next_token_ == "DX":
self.advance_lexer_()
dx = self.expect_number_()
while self.next_token_ == "ADJUST_BY":
adjustment, size = self.parse_adjust_by_()
dx_adjust_by[size] = adjustment
if self.next_token_ == "DY":
self.advance_lexer_()
dy = self.expect_number_()
while self.next_token_ == "ADJUST_BY":
adjustment, size = self.parse_adjust_by_()
dy_adjust_by[size] = adjustment
self.expect_keyword_("END_POS")
return ast.Pos(adv, dx, dy, adv_adjust_by, dx_adjust_by, dy_adjust_by)
def parse_unicode_values_(self):
location = self.cur_token_location_
try:
unicode_values = self.expect_string_().split(",")
unicode_values = [int(uni[2:], 16) for uni in unicode_values if uni != ""]
except ValueError as err:
raise VoltLibError(str(err), location)
return unicode_values if unicode_values != [] else None
def parse_enum_(self):
self.expect_keyword_("ENUM")
location = self.cur_token_location_
enum = ast.Enum(self.parse_coverage_(), location=location)
self.expect_keyword_("END_ENUM")
return enum
def parse_coverage_(self):
coverage = []
location = self.cur_token_location_
while self.next_token_ in ("GLYPH", "GROUP", "RANGE", "ENUM"):
if self.next_token_ == "ENUM":
enum = self.parse_enum_()
coverage.append(enum)
elif self.next_token_ == "GLYPH":
self.expect_keyword_("GLYPH")
name = self.expect_string_()
coverage.append(ast.GlyphName(name, location=location))
elif self.next_token_ == "GROUP":
self.expect_keyword_("GROUP")
name = self.expect_string_()
coverage.append(ast.GroupName(name, self, location=location))
elif self.next_token_ == "RANGE":
self.expect_keyword_("RANGE")
start = self.expect_string_()
self.expect_keyword_("TO")
end = self.expect_string_()
coverage.append(ast.Range(start, end, self, location=location))
return tuple(coverage)
def resolve_group(self, group_name):
return self.groups_.resolve(group_name)
def glyph_range(self, start, end):
return self.glyphs_.range(start, end)
def parse_ppem_(self):
location = self.cur_token_location_
ppem_name = self.cur_token_
value = self.expect_number_()
setting = ast.SettingDefinition(ppem_name, value, location=location)
return setting
def parse_noarg_option_(self):
location = self.cur_token_location_
name = self.cur_token_
value = True
setting = ast.SettingDefinition(name, value, location=location)
return setting
def parse_cmap_format(self):
location = self.cur_token_location_
name = self.cur_token_
value = (self.expect_number_(), self.expect_number_(), self.expect_number_())
setting = ast.SettingDefinition(name, value, location=location)
return setting
def is_cur_keyword_(self, k):
return (self.cur_token_type_ is Lexer.NAME) and (self.cur_token_ == k)
def expect_string_(self):
self.advance_lexer_()
if self.cur_token_type_ is not Lexer.STRING:
raise VoltLibError("Expected a string", self.cur_token_location_)
return self.cur_token_
def expect_keyword_(self, keyword):
self.advance_lexer_()
if self.cur_token_type_ is Lexer.NAME and self.cur_token_ == keyword:
return self.cur_token_
raise VoltLibError('Expected "%s"' % keyword, self.cur_token_location_)
def expect_name_(self):
self.advance_lexer_()
if self.cur_token_type_ is Lexer.NAME:
return self.cur_token_
raise VoltLibError("Expected a name", self.cur_token_location_)
def expect_number_(self):
self.advance_lexer_()
if self.cur_token_type_ is not Lexer.NUMBER:
raise VoltLibError("Expected a number", self.cur_token_location_)
return self.cur_token_
def advance_lexer_(self):
self.cur_token_type_, self.cur_token_, self.cur_token_location_ = (
self.next_token_type_,
self.next_token_,
self.next_token_location_,
)
try:
if self.is_cur_keyword_("END"):
raise StopIteration
(
self.next_token_type_,
self.next_token_,
self.next_token_location_,
) = self.lexer_.next()
except StopIteration:
self.next_token_type_, self.next_token_ = (None, None)
class SymbolTable(object):
def __init__(self):
self.scopes_ = [{}]
def enter_scope(self):
self.scopes_.append({})
def exit_scope(self):
self.scopes_.pop()
def define(self, name, item):
self.scopes_[-1][name] = item
def resolve(self, name, case_insensitive=True):
for scope in reversed(self.scopes_):
item = scope.get(name)
if item:
return item
if case_insensitive:
for key in scope:
if key.lower() == name.lower():
return scope[key]
return None
class OrderedSymbolTable(SymbolTable):
def __init__(self):
self.scopes_ = [{}]
def enter_scope(self):
self.scopes_.append({})
def resolve(self, name, case_insensitive=False):
SymbolTable.resolve(self, name, case_insensitive=case_insensitive)
def range(self, start, end):
for scope in reversed(self.scopes_):
if start in scope and end in scope:
start_idx = list(scope.keys()).index(start)
end_idx = list(scope.keys()).index(end)
return list(scope.keys())[start_idx : end_idx + 1]
return None
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