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gitmirror/lark/lexer.py

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  1. ## Lexer Implementation

  2. 

  3. import re

  4. 

  5. from .utils import Str, classify, get_regexp_width, Py36, Serialize

  6. from .exceptions import UnexpectedCharacters, LexError

  7. 

  8. ###{standalone

  9. 

  10. class Pattern(Serialize):

  11.     __serialize_fields__ = 'value', 'flags'

  12. 

  13.     def __init__(self, value, flags=()):

  14.         self.value = value

  15.         self.flags = frozenset(flags)

  16. 

  17.     def __repr__(self):

  18.         return repr(self.to_regexp())

  19. 

  20.     # Pattern Hashing assumes all subclasses have a different priority!

  21.     def __hash__(self):

  22.         return hash((type(self), self.value, self.flags))

  23.     def __eq__(self, other):

  24.         return type(self) == type(other) and self.value == other.value and self.flags == other.flags

  25. 

  26.     def to_regexp(self):

  27.         raise NotImplementedError()

  28. 

  29.     if Py36:

  30.         # Python 3.6 changed syntax for flags in regular expression

  31.         def _get_flags(self, value):

  32.             for f in self.flags:

  33.                 value = ('(?%s:%s)' % (f, value))

  34.             return value

  35. 

  36.     else:

  37.         def _get_flags(self, value):

  38.             for f in self.flags:

  39.                 value = ('(?%s)' % f) + value

  40.             return value

  41. 

  42. 

  43. class PatternStr(Pattern):

  44.     def to_regexp(self):

  45.         return self._get_flags(re.escape(self.value))

  46. 

  47.     @property

  48.     def min_width(self):

  49.         return len(self.value)

  50.     max_width = min_width

  51. 

  52. class PatternRE(Pattern):

  53.     def to_regexp(self):

  54.         return self._get_flags(self.value)

  55. 

  56.     @property

  57.     def min_width(self):

  58.         return get_regexp_width(self.to_regexp())[0]

  59.     @property

  60.     def max_width(self):

  61.         return get_regexp_width(self.to_regexp())[1]

  62. 

  63. 

  64. class TerminalDef(Serialize):

  65.     __serialize_fields__ = 'name', 'pattern', 'priority'

  66.     __serialize_namespace__ = PatternStr, PatternRE

  67. 

  68.     def __init__(self, name, pattern, priority=1):

  69.         assert isinstance(pattern, Pattern), pattern

  70.         self.name = name

  71.         self.pattern = pattern

  72.         self.priority = priority

  73. 

  74.     def __repr__(self):

  75.         return '%s(%r, %r)' % (type(self).__name__, self.name, self.pattern)

  76. 

  77. 

  78. 

  79. class Token(Str):

  80.     __slots__ = ('type', 'pos_in_stream', 'value', 'line', 'column', 'end_line', 'end_column')

  81. 

  82.     def __new__(cls, type_, value, pos_in_stream=None, line=None, column=None, end_line=None, end_column=None):

  83.         try:

  84.             self = super(Token, cls).__new__(cls, value)

  85.         except UnicodeDecodeError:

  86.             value = value.decode('latin1')

  87.             self = super(Token, cls).__new__(cls, value)

  88. 

  89.         self.type = type_

  90.         self.pos_in_stream = pos_in_stream

  91.         self.value = value

  92.         self.line = line

  93.         self.column = column

  94.         self.end_line = end_line

  95.         self.end_column = end_column

  96.         return self

  97. 

  98.     @classmethod

  99.     def new_borrow_pos(cls, type_, value, borrow_t):

  100.         return cls(type_, value, borrow_t.pos_in_stream, borrow_t.line, borrow_t.column, borrow_t.end_line, borrow_t.end_column)

  101. 

  102.     def __reduce__(self):

  103.         return (self.__class__, (self.type, self.value, self.pos_in_stream, self.line, self.column, ))

  104. 

  105.     def __repr__(self):

  106.         return 'Token(%s, %r)' % (self.type, self.value)

  107. 

  108.     def __deepcopy__(self, memo):

  109.         return Token(self.type, self.value, self.pos_in_stream, self.line, self.column)

  110. 

  111.     def __eq__(self, other):

  112.         if isinstance(other, Token) and self.type != other.type:

  113.             return False

  114. 

  115.         return Str.__eq__(self, other)

  116. 

  117.     __hash__ = Str.__hash__

  118. 

  119. 

  120. class LineCounter:

  121.     def __init__(self):

  122.         self.newline_char = '\n'

  123.         self.char_pos = 0

  124.         self.line = 1

  125.         self.column = 1

  126.         self.line_start_pos = 0

  127. 

  128.     def feed(self, token, test_newline=True):

  129.         """Consume a token and calculate the new line & column.

  130. 

  131.         As an optional optimization, set test_newline=False is token doesn't contain a newline.

  132.         """

  133.         if test_newline:

  134.             newlines = token.count(self.newline_char)

  135.             if newlines:

  136.                 self.line += newlines

  137.                 self.line_start_pos = self.char_pos + token.rindex(self.newline_char) + 1

  138. 

  139.         self.char_pos += len(token)

  140.         self.column = self.char_pos - self.line_start_pos + 1

  141. 

  142. class _Lex:

  143.     "Built to serve both Lexer and ContextualLexer"

  144.     def __init__(self, lexer, state=None):

  145.         self.lexer = lexer

  146.         self.state = state

  147. 

  148.     def lex(self, stream, newline_types, ignore_types):

  149.         newline_types = frozenset(newline_types)

  150.         ignore_types = frozenset(ignore_types)

  151.         line_ctr = LineCounter()

  152. 

  153.         while line_ctr.char_pos < len(stream):

  154.             lexer = self.lexer

  155.             for mre, type_from_index in lexer.mres:

  156.                 m = mre.match(stream, line_ctr.char_pos)

  157.                 if not m:

  158.                     continue

  159. 

  160.                 t = None

  161.                 value = m.group(0)

  162.                 type_ = type_from_index[m.lastindex]

  163.                 if type_ not in ignore_types:

  164.                     t = Token(type_, value, line_ctr.char_pos, line_ctr.line, line_ctr.column)

  165.                     if t.type in lexer.callback:

  166.                         t = lexer.callback[t.type](t)

  167.                         if not isinstance(t, Token):

  168.                             raise ValueError("Callbacks must return a token (returned %r)" % t)

  169.                     yield t

  170.                 else:

  171.                     if type_ in lexer.callback:

  172.                         t = Token(type_, value, line_ctr.char_pos, line_ctr.line, line_ctr.column)

  173.                         lexer.callback[type_](t)

  174. 

  175.                 line_ctr.feed(value, type_ in newline_types)

  176.                 if t:

  177.                     t.end_line = line_ctr.line

  178.                     t.end_column = line_ctr.column

  179. 

  180.                 break

  181.             else:

  182.                 allowed = [v for m, tfi in lexer.mres for v in tfi.values()]

  183.                 raise UnexpectedCharacters(stream, line_ctr.char_pos, line_ctr.line, line_ctr.column, allowed=allowed, state=self.state)

  184. 

  185. 

  186. class UnlessCallback:

  187.     def __init__(self, mres):

  188.         self.mres = mres

  189. 

  190.     def __call__(self, t):

  191.         for mre, type_from_index in self.mres:

  192.             m = mre.match(t.value)

  193.             if m:

  194.                 t.type = type_from_index[m.lastindex]

  195.                 break

  196.         return t

  197. 

  198. class CallChain:

  199.     def __init__(self, callback1, callback2, cond):

  200.         self.callback1 = callback1

  201.         self.callback2 = callback2

  202.         self.cond = cond

  203. 

  204.     def __call__(self, t):

  205.         t2 = self.callback1(t)

  206.         return self.callback2(t) if self.cond(t2) else t2

  207. 

  208. 

  209. 

  210. 

  211. 

  212. def _create_unless(terminals):

  213.     tokens_by_type = classify(terminals, lambda t: type(t.pattern))

  214.     assert len(tokens_by_type) <= 2, tokens_by_type.keys()

  215.     embedded_strs = set()

  216.     callback = {}

  217.     for retok in tokens_by_type.get(PatternRE, []):

  218.         unless = [] # {}

  219.         for strtok in tokens_by_type.get(PatternStr, []):

  220.             if strtok.priority > retok.priority:

  221.                 continue

  222.             s = strtok.pattern.value

  223.             m = re.match(retok.pattern.to_regexp(), s)

  224.             if m and m.group(0) == s:

  225.                 unless.append(strtok)

  226.                 if strtok.pattern.flags <= retok.pattern.flags:

  227.                     embedded_strs.add(strtok)

  228.         if unless:

  229.             callback[retok.name] = UnlessCallback(build_mres(unless, match_whole=True))

  230. 

  231.     terminals = [t for t in terminals if t not in embedded_strs]

  232.     return terminals, callback

  233. 

  234. 

  235. def _build_mres(terminals, max_size, match_whole):

  236.     # Python sets an unreasonable group limit (currently 100) in its re module

  237.     # Worse, the only way to know we reached it is by catching an AssertionError!

  238.     # This function recursively tries less and less groups until it's successful.

  239.     postfix = '$' if match_whole else ''

  240.     mres = []

  241.     while terminals:

  242.         try:

  243.             mre = re.compile(u'|'.join(u'(?P<%s>%s)'%(t.name, t.pattern.to_regexp()+postfix) for t in terminals[:max_size]))

  244.         except AssertionError:  # Yes, this is what Python provides us.. :/

  245.             return _build_mres(terminals, max_size//2, match_whole)

  246. 

  247.         # terms_from_name = {t.name: t for t in terminals[:max_size]}

  248.         mres.append((mre, {i:n for n,i in mre.groupindex.items()} ))

  249.         terminals = terminals[max_size:]

  250.     return mres

  251. 

  252. def build_mres(terminals, match_whole=False):

  253.     return _build_mres(terminals, len(terminals), match_whole)

  254. 

  255. def _regexp_has_newline(r):

  256.     """Expressions that may indicate newlines in a regexp:

  257.         - newlines (\n)

  258.         - escaped newline (\\n)

  259.         - anything but ([^...])

  260.         - any-char (.) when the flag (?s) exists

  261.     """

  262.     return '\n' in r or '\\n' in r or '[^' in r or ('(?s' in r and '.' in r)

  263. 

  264. class Lexer(Serialize):

  265.     """Lexer interface

  266. 

  267.     Method Signatures:

  268.         lex(self, stream) -> Iterator[Token]

  269. 

  270.         set_parser_state(self, state)   # Optional

  271.     """

  272.     set_parser_state = NotImplemented

  273.     lex = NotImplemented

  274. 

  275. 

  276. class TraditionalLexer(Lexer):

  277.     __serialize_fields__ = 'terminals', 'ignore_types', 'newline_types'

  278.     __serialize_namespace__ = TerminalDef,

  279. 

  280.     def _deserialize(self):

  281.         self.mres = build_mres(self.terminals)

  282.         self.callback = {}  # TODO implement

  283. 

  284. 

  285.     def __init__(self, terminals, ignore=(), user_callbacks={}):

  286.         assert all(isinstance(t, TerminalDef) for t in terminals), terminals

  287. 

  288.         terminals = list(terminals)

  289. 

  290.         # Sanitization

  291.         for t in terminals:

  292.             try:

  293.                 re.compile(t.pattern.to_regexp())

  294.             except:

  295.                 raise LexError("Cannot compile token %s: %s" % (t.name, t.pattern))

  296. 

  297.             if t.pattern.min_width == 0:

  298.                 raise LexError("Lexer does not allow zero-width terminals. (%s: %s)" % (t.name, t.pattern))

  299. 

  300.         assert set(ignore) <= {t.name for t in terminals}

  301. 

  302.         # Init

  303.         self.newline_types = [t.name for t in terminals if _regexp_has_newline(t.pattern.to_regexp())]

  304.         self.ignore_types = list(ignore)

  305. 

  306.         terminals.sort(key=lambda x:(-x.priority, -x.pattern.max_width, -len(x.pattern.value), x.name))

  307. 

  308.         terminals, self.callback = _create_unless(terminals)

  309.         assert all(self.callback.values())

  310. 

  311.         for type_, f in user_callbacks.items():

  312.             if type_ in self.callback:

  313.                 # Already a callback there, probably UnlessCallback

  314.                 self.callback[type_] = CallChain(self.callback[type_], f, lambda t: t.type == type_)

  315.             else:

  316.                 self.callback[type_] = f

  317. 

  318.         self.terminals = terminals

  319. 

  320.         self.mres = build_mres(terminals)

  321. 

  322. 

  323.     def lex(self, stream):

  324.         return _Lex(self).lex(stream, self.newline_types, self.ignore_types)

  325. 

  326. 

  327. 

  328. 

  329. class ContextualLexer(Lexer):

  330.     __serialize_fields__ = 'root_lexer', 'lexers'

  331.     __serialize_namespace__ = TraditionalLexer,

  332. 

  333.     def __init__(self, terminals, states, ignore=(), always_accept=(), user_callbacks={}):

  334.         tokens_by_name = {}

  335.         for t in terminals:

  336.             assert t.name not in tokens_by_name, t

  337.             tokens_by_name[t.name] = t

  338. 

  339.         lexer_by_tokens = {}

  340.         self.lexers = {}

  341.         for state, accepts in states.items():

  342.             key = frozenset(accepts)

  343.             try:

  344.                 lexer = lexer_by_tokens[key]

  345.             except KeyError:

  346.                 accepts = set(accepts) | set(ignore) | set(always_accept)

  347.                 state_tokens = [tokens_by_name[n] for n in accepts if n and n in tokens_by_name]

  348.                 lexer = TraditionalLexer(state_tokens, ignore=ignore, user_callbacks=user_callbacks)

  349.                 lexer_by_tokens[key] = lexer

  350. 

  351.             self.lexers[state] = lexer

  352. 

  353.         self.root_lexer = TraditionalLexer(terminals, ignore=ignore, user_callbacks=user_callbacks)

  354. 

  355.         self.set_parser_state(None) # Needs to be set on the outside

  356. 

  357.     def set_parser_state(self, state):

  358.         self.parser_state = state

  359. 

  360.     def lex(self, stream):

  361.         l = _Lex(self.lexers[self.parser_state], self.parser_state)

  362.         for x in l.lex(stream, self.root_lexer.newline_types, self.root_lexer.ignore_types):

  363.             yield x

  364.             l.lexer = self.lexers[self.parser_state]

  365.             l.state = self.parser_state

  366. 

  367. ###}