""" A partial parser for WebVTT segments. Interprets enough of the WebVTT stream to be able to assemble a single stand-alone subtitle file, suitably adjusting timestamps on the way, while everything else is passed through unmodified. Regular expressions based on the W3C WebVTT specification . The X-TIMESTAMP-MAP extension is described in RFC 8216 §3.5 . """ import io import re from .utils import int_or_none, timetuple_from_msec class _MatchParser: """ An object that maintains the current parsing position and allows conveniently advancing it as syntax elements are successfully parsed. """ def __init__(self, string): self._data = string self._pos = 0 def match(self, r): if isinstance(r, re.Pattern): return r.match(self._data, self._pos) if isinstance(r, str): if self._data.startswith(r, self._pos): return len(r) return None raise ValueError(r) def advance(self, by): if by is None: amt = 0 elif isinstance(by, re.Match): amt = len(by.group(0)) elif isinstance(by, str): amt = len(by) elif isinstance(by, int): amt = by else: raise ValueError(by) self._pos += amt return by def consume(self, r): return self.advance(self.match(r)) def child(self): return _MatchChildParser(self) class _MatchChildParser(_MatchParser): """ A child parser state, which advances through the same data as its parent, but has an independent position. This is useful when advancing through syntax elements we might later want to backtrack from. """ def __init__(self, parent): super().__init__(parent._data) self.__parent = parent self._pos = parent._pos def commit(self): """ Advance the parent state to the current position of this child state. """ self.__parent._pos = self._pos return self.__parent class ParseError(Exception): def __init__(self, parser): data = parser._data[parser._pos:parser._pos + 100] super().__init__(f'Parse error at position {parser._pos} (near {data!r})') # While the specification # prescribes that hours must be *2 or more* digits, timestamps with a single # digit for the hour part has been seen in the wild. # See https://github.com/yt-dlp/yt-dlp/issues/921 _REGEX_TS = re.compile(r'''(?x) (?:([0-9]{1,}):)? ([0-9]{2}): ([0-9]{2})\. ([0-9]{3})? ''') _REGEX_EOF = re.compile(r'\Z') _REGEX_NL = re.compile(r'(?:\r\n|[\r\n]|$)') _REGEX_BLANK = re.compile(r'(?:\r\n|[\r\n])+') _REGEX_OPTIONAL_WHITESPACE = re.compile(r'[ \t]*') def _parse_ts(ts): """ Convert a parsed WebVTT timestamp (a re.Match obtained from _REGEX_TS) into an MPEG PES timestamp: a tick counter at 90 kHz resolution. """ return 90 * sum( int(part or 0) * mult for part, mult in zip(ts.groups(), (3600_000, 60_000, 1000, 1))) def _format_ts(ts): """ Convert an MPEG PES timestamp into a WebVTT timestamp. This will lose sub-millisecond precision. """ return '{:02d}:{:02d}:{:02d}.{:03d}'.format(*timetuple_from_msec(int((ts + 45) // 90))) class Block: """ An abstract WebVTT block. """ def __init__(self, **kwargs): for key, val in kwargs.items(): setattr(self, key, val) @classmethod def parse(cls, parser): m = parser.match(cls._REGEX) if not m: return None parser.advance(m) return cls(raw=m.group(0)) def write_into(self, stream): stream.write(self.raw) class HeaderBlock(Block): """ A WebVTT block that may only appear in the header part of the file, i.e. before any cue blocks. """ pass class Magic(HeaderBlock): _REGEX = re.compile(r'\ufeff?WEBVTT([ \t][^\r\n]*)?(?:\r\n|[\r\n])') # XXX: The X-TIMESTAMP-MAP extension is described in RFC 8216 §3.5 # , but the RFC # doesn't specify the exact grammar nor where in the WebVTT # syntax it should be placed; the below has been devised based # on usage in the wild # # And strictly speaking, the presence of this extension violates # the W3C WebVTT spec. Oh well. _REGEX_TSMAP = re.compile(r'X-TIMESTAMP-MAP=') _REGEX_TSMAP_LOCAL = re.compile(r'LOCAL:') _REGEX_TSMAP_MPEGTS = re.compile(r'MPEGTS:([0-9]+)') _REGEX_TSMAP_SEP = re.compile(r'[ \t]*,[ \t]*') # This was removed from the spec in the 2017 revision; # the last spec draft to describe this syntax element is # . # Nevertheless, YouTube keeps serving those _REGEX_META = re.compile(r'(?:(?!-->)[^\r\n])+:(?:(?!-->)[^\r\n])+(?:\r\n|[\r\n])') @classmethod def __parse_tsmap(cls, parser): parser = parser.child() while True: m = parser.consume(cls._REGEX_TSMAP_LOCAL) if m: m = parser.consume(_REGEX_TS) if m is None: raise ParseError(parser) local = _parse_ts(m) if local is None: raise ParseError(parser) else: m = parser.consume(cls._REGEX_TSMAP_MPEGTS) if m: mpegts = int_or_none(m.group(1)) if mpegts is None: raise ParseError(parser) else: raise ParseError(parser) if parser.consume(cls._REGEX_TSMAP_SEP): continue if parser.consume(_REGEX_NL): break raise ParseError(parser) parser.commit() return local, mpegts @classmethod def parse(cls, parser): parser = parser.child() m = parser.consume(cls._REGEX) if not m: raise ParseError(parser) extra = m.group(1) local, mpegts, meta = None, None, '' while not parser.consume(_REGEX_NL): if parser.consume(cls._REGEX_TSMAP): local, mpegts = cls.__parse_tsmap(parser) continue m = parser.consume(cls._REGEX_META) if m: meta += m.group(0) continue raise ParseError(parser) parser.commit() return cls(extra=extra, mpegts=mpegts, local=local, meta=meta) def write_into(self, stream): stream.write('WEBVTT') if self.extra is not None: stream.write(self.extra) stream.write('\n') if self.local or self.mpegts: stream.write('X-TIMESTAMP-MAP=LOCAL:') stream.write(_format_ts(self.local if self.local is not None else 0)) stream.write(',MPEGTS:') stream.write(str(self.mpegts if self.mpegts is not None else 0)) stream.write('\n') if self.meta: stream.write(self.meta) stream.write('\n') class StyleBlock(HeaderBlock): _REGEX = re.compile(r'''(?x) STYLE[\ \t]*(?:\r\n|[\r\n]) ((?:(?!-->)[^\r\n])+(?:\r\n|[\r\n]))* (?:\r\n|[\r\n]) ''') class RegionBlock(HeaderBlock): _REGEX = re.compile(r'''(?x) REGION[\ \t]* ((?:(?!-->)[^\r\n])+(?:\r\n|[\r\n]))* (?:\r\n|[\r\n]) ''') class CommentBlock(Block): _REGEX = re.compile(r'''(?x) NOTE(?:\r\n|[\ \t\r\n]) ((?:(?!-->)[^\r\n])+(?:\r\n|[\r\n]))* (?:\r\n|[\r\n]) ''') class CueBlock(Block): """ A cue block. The payload is not interpreted. """ _REGEX_ID = re.compile(r'((?:(?!-->)[^\r\n])+)(?:\r\n|[\r\n])') _REGEX_ARROW = re.compile(r'[ \t]+-->[ \t]+') _REGEX_SETTINGS = re.compile(r'[ \t]+((?:(?!-->)[^\r\n])+)') _REGEX_PAYLOAD = re.compile(r'[^\r\n]+(?:\r\n|[\r\n])?') @classmethod def parse(cls, parser): parser = parser.child() id_ = None m = parser.consume(cls._REGEX_ID) if m: id_ = m.group(1) m0 = parser.consume(_REGEX_TS) if not m0: return None if not parser.consume(cls._REGEX_ARROW): return None m1 = parser.consume(_REGEX_TS) if not m1: return None m2 = parser.consume(cls._REGEX_SETTINGS) parser.consume(_REGEX_OPTIONAL_WHITESPACE) if not parser.consume(_REGEX_NL): return None start = _parse_ts(m0) end = _parse_ts(m1) settings = m2.group(1) if m2 is not None else None text = io.StringIO() while True: m = parser.consume(cls._REGEX_PAYLOAD) if not m: break text.write(m.group(0)) parser.commit() return cls( id=id_, start=start, end=end, settings=settings, text=text.getvalue(), ) def write_into(self, stream): if self.id is not None: stream.write(self.id) stream.write('\n') stream.write(_format_ts(self.start)) stream.write(' --> ') stream.write(_format_ts(self.end)) if self.settings is not None: stream.write(' ') stream.write(self.settings) stream.write('\n') stream.write(self.text) stream.write('\n') @property def as_json(self): return { 'id': self.id, 'start': self.start, 'end': self.end, 'text': self.text, 'settings': self.settings, } def __eq__(self, other): return self.as_json == other.as_json @classmethod def from_json(cls, json): return cls( id=json['id'], start=json['start'], end=json['end'], text=json['text'], settings=json['settings'], ) def hinges(self, other): if self.text != other.text: return False if self.settings != other.settings: return False return self.start <= self.end == other.start <= other.end def parse_fragment(frag_content): """ A generator that yields (partially) parsed WebVTT blocks when given a bytes object containing the raw contents of a WebVTT file. """ parser = _MatchParser(frag_content.decode()) yield Magic.parse(parser) while not parser.match(_REGEX_EOF): if parser.consume(_REGEX_BLANK): continue block = RegionBlock.parse(parser) if block: yield block continue block = StyleBlock.parse(parser) if block: yield block continue block = CommentBlock.parse(parser) if block: yield block # XXX: or skip continue break while not parser.match(_REGEX_EOF): if parser.consume(_REGEX_BLANK): continue block = CommentBlock.parse(parser) if block: yield block # XXX: or skip continue block = CueBlock.parse(parser) if block: yield block continue raise ParseError(parser)