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This repo contains code to mirror other repos. It also contains the code that is getting mirrored.
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gitmirror/lark/parser_frontends.py

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  1. import re

  2. from .utils import get_regexp_width

  3. 

  4. from .parsers.grammar_analysis import GrammarAnalyzer

  5. from .lexer import Lexer, ContextualLexer, Token

  6. 

  7. from .common import is_terminal, GrammarError

  8. from .parsers import lalr_parser, earley, xearley, resolve_ambig, cyk

  9. from .tree import Tree

  10. 

  11. class WithLexer:

  12.     def init_traditional_lexer(self, lexer_conf):

  13.         self.lexer_conf = lexer_conf

  14.         self.lexer = Lexer(lexer_conf.tokens, ignore=lexer_conf.ignore, user_callbacks=lexer_conf.callbacks)

  15. 

  16.     def init_contextual_lexer(self, lexer_conf, parser_conf):

  17.         self.lexer_conf = lexer_conf

  18.         states = {idx:list(t.keys()) for idx, t in self.parser._parse_table.states.items()}

  19.         always_accept = lexer_conf.postlex.always_accept if lexer_conf.postlex else ()

  20.         self.lexer = ContextualLexer(lexer_conf.tokens, states, ignore=lexer_conf.ignore, always_accept=always_accept, user_callbacks=lexer_conf.callbacks)

  21. 

  22.     def lex(self, text):

  23.         stream = self.lexer.lex(text)

  24.         if self.lexer_conf.postlex:

  25.             return self.lexer_conf.postlex.process(stream)

  26.         else:

  27.             return stream

  28. 

  29. 

  30. class LALR(WithLexer):

  31.     def __init__(self, lexer_conf, parser_conf, options=None):

  32.         self.parser = lalr_parser.Parser(parser_conf)

  33.         self.init_traditional_lexer(lexer_conf)

  34. 

  35.     def parse(self, text):

  36.         token_stream = self.lex(text)

  37.         return self.parser.parse(token_stream)

  38. 

  39. 

  40. class LALR_ContextualLexer(WithLexer):

  41.     def __init__(self, lexer_conf, parser_conf, options=None):

  42.         self.parser = lalr_parser.Parser(parser_conf)

  43.         self.init_contextual_lexer(lexer_conf, parser_conf)

  44. 

  45.     def parse(self, text):

  46.         token_stream = self.lex(text)

  47.         return self.parser.parse(token_stream, self.lexer.set_parser_state)

  48. 

  49. def get_ambiguity_resolver(options):

  50.     if not options or options.ambiguity == 'resolve':

  51.         return resolve_ambig.standard_resolve_ambig

  52.     elif options.ambiguity == 'resolve__antiscore_sum':

  53.         return resolve_ambig.antiscore_sum_resolve_ambig

  54.     elif options.ambiguity == 'explicit':

  55.         return None

  56.     raise ValueError(options)

  57. 

  58. def tokenize_text(text):

  59.     line = 1

  60.     col_start_pos = 0

  61.     for i, ch in enumerate(text):

  62.         if '\n' in ch:

  63.             line += ch.count('\n')

  64.             col_start_pos = i + ch.rindex('\n')

  65.         yield Token('CHAR', ch, line=line, column=i - col_start_pos)

  66. 

  67. class Earley_NoLex:

  68.     def __init__(self, lexer_conf, parser_conf, options=None):

  69.         self._prepare_match(lexer_conf)

  70. 

  71.         self.parser = earley.Parser(parser_conf, self.match,

  72.                                     resolve_ambiguity=get_ambiguity_resolver(options))

  73. 

  74. 

  75.     def match(self, term, text, index=0):

  76.         return self.regexps[term].match(text, index)

  77. 

  78.     def _prepare_match(self, lexer_conf):

  79.         self.regexps = {}

  80.         for t in lexer_conf.tokens:

  81.             regexp = t.pattern.to_regexp()

  82.             width = get_regexp_width(regexp)

  83.             if width != (1,1):

  84.                 raise GrammarError('Scanless parsing (lexer=None) requires all tokens to have a width of 1 (terminal %s: %s is %s)' % (t.name, regexp, width))

  85.             self.regexps[t.name] = re.compile(regexp)

  86. 

  87.     def parse(self, text):

  88.         token_stream = tokenize_text(text)

  89.         return self.parser.parse(token_stream)

  90. 

  91. class Earley(WithLexer):

  92.     def __init__(self, lexer_conf, parser_conf, options=None):

  93.         self.init_traditional_lexer(lexer_conf)

  94. 

  95.         self.parser = earley.Parser(parser_conf, self.match,

  96.                                     resolve_ambiguity=get_ambiguity_resolver(options))

  97. 

  98.     def match(self, term, token):

  99.         return term == token.type

  100. 

  101.     def parse(self, text):

  102.         tokens = self.lex(text)

  103.         return self.parser.parse(tokens)

  104. 

  105. 

  106. class XEarley:

  107.     def __init__(self, lexer_conf, parser_conf, options=None):

  108.         self.token_by_name = {t.name:t for t in lexer_conf.tokens}

  109. 

  110.         self._prepare_match(lexer_conf)

  111. 

  112.         self.parser = xearley.Parser(parser_conf,

  113.                                     self.match,

  114.                                     resolve_ambiguity=get_ambiguity_resolver(options),

  115.                                     ignore=lexer_conf.ignore,

  116.                                     predict_all=options.earley__predict_all

  117.                                     )

  118. 

  119.     def match(self, term, text, index=0):

  120.         return self.regexps[term].match(text, index)

  121. 

  122.     def _prepare_match(self, lexer_conf):

  123.         self.regexps = {}

  124.         for t in lexer_conf.tokens:

  125.             regexp = t.pattern.to_regexp()

  126.             try:

  127.                 width = get_regexp_width(regexp)[0]

  128.             except ValueError:

  129.                 raise ValueError("Bad regexp in token %s: %s" % (t.name, regexp))

  130.             else:

  131.                 if width == 0:

  132.                     raise ValueError("Dynamic Earley doesn't allow zero-width regexps", t)

  133. 

  134.             self.regexps[t.name] = re.compile(regexp)

  135. 

  136.     def parse(self, text):

  137.         return self.parser.parse(text)

  138. 

  139. 

  140. class CYK(WithLexer):

  141. 

  142.     def __init__(self, lexer_conf, parser_conf, options=None):

  143.         self.init_traditional_lexer(lexer_conf)

  144. 

  145.         self._analysis = GrammarAnalyzer(parser_conf)

  146.         self._parser = cyk.Parser(parser_conf.rules, parser_conf.start)

  147. 

  148.         self._postprocess = {}

  149.         for rule in parser_conf.rules:

  150.             a = rule.alias

  151.             self._postprocess[a] = a if callable(a) else (a and getattr(parser_conf.callback, a))

  152. 

  153.     def parse(self, text):

  154.         tokens = list(self.lex(text))

  155.         parse = self._parser.parse(tokens)

  156.         parse = self._transform(parse)

  157.         return parse

  158. 

  159.     def _transform(self, tree):

  160.         subtrees = list(tree.iter_subtrees())

  161.         for subtree in subtrees:

  162.             subtree.children = [self._apply_callback(c) if isinstance(c, Tree) else c for c in subtree.children]

  163. 

  164.         return self._apply_callback(tree)

  165. 

  166.     def _apply_callback(self, tree):

  167.         children = tree.children

  168.         callback = self._postprocess[tree.rule.alias]

  169.         assert callback, tree.rule.alias

  170.         r = callback(children)

  171.         return r

  172. 

  173. 

  174. def get_frontend(parser, lexer):

  175.     if parser=='lalr':

  176.         if lexer is None:

  177.             raise ValueError('The LALR parser requires use of a lexer')

  178.         elif lexer == 'standard':

  179.             return LALR

  180.         elif lexer == 'contextual':

  181.             return LALR_ContextualLexer

  182.         else:

  183.             raise ValueError('Unknown lexer: %s' % lexer)

  184.     elif parser=='earley':

  185.         if lexer is None:

  186.             return Earley_NoLex

  187.         elif lexer=='standard':

  188.             return Earley

  189.         elif lexer=='dynamic':

  190.             return XEarley

  191.         elif lexer=='contextual':

  192.             raise ValueError('The Earley parser does not support the contextual parser')

  193.         else:

  194.             raise ValueError('Unknown lexer: %s' % lexer)

  195.     elif parser == 'cyk':

  196.         if lexer == 'standard':

  197.             return CYK

  198.         else:

  199.             raise ValueError('CYK parser requires using standard parser.')

  200.     else:

  201.         raise ValueError('Unknown parser: %s' % parser)

  202. 

  203.