jmg
/
gitmirror
1
0
Fork 0
Code Issues 0 Pull Requests 0 Releases 39 Wiki Activity
This repo contains code to mirror other repos. It also contains the code that is getting mirrored.
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
167 Commits
11 Branches
2.9 MiB
 
 
Tree: 07fcc26422
Branches Tags
${ item.name }
Create branch ${ searchTerm }
from '07fcc26422'
${ noResults }
gitmirror/lark/parser_frontends.py

165 lines
5.8 KiB
Raw Blame History 

  1. import re

  2. import sre_parse

  3. 

  4. from .lexer import Lexer, ContextualLexer, Token

  5. 

  6. from .common import is_terminal, GrammarError, ParserConf, Terminal_Regexp, Terminal_Token

  7. from .parsers import lalr_parser, earley, xearley

  8. 

  9. class WithLexer:

  10.     def __init__(self, lexer_conf):

  11.         self.lexer_conf = lexer_conf

  12.         self.lexer = Lexer(lexer_conf.tokens, ignore=lexer_conf.ignore)

  13. 

  14.     def lex(self, text):

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

  16.         if self.lexer_conf.postlex:

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

  18.         else:

  19.             return stream

  20. 

  21. 

  22. class LALR(WithLexer):

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

  24.         WithLexer.__init__(self, lexer_conf)

  25. 

  26.         self.parser_conf = parser_conf

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

  28. 

  29.     def parse(self, text):

  30.         tokens = self.lex(text)

  31.         return self.parser.parse(tokens)

  32. 

  33. 

  34. class LALR_ContextualLexer:

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

  36.         self.lexer_conf = lexer_conf

  37.         self.parser_conf = parser_conf

  38. 

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

  40. 

  41.         d = {idx:t.keys() for idx, t in self.parser.analysis.states_idx.items()}

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

  43.         self.lexer = ContextualLexer(lexer_conf.tokens, d, ignore=lexer_conf.ignore, always_accept=always_accept)

  44. 

  45.     def parse(self, text):

  46.         tokens = self.lexer.lex(text)

  47.         if self.lexer_conf.postlex:

  48.             tokens = self.lexer_conf.postlex.process(tokens)

  49.         return self.parser.parse(tokens, self.lexer.set_parser_state)

  50. 

  51. 

  52. def tokenize_text(text):

  53.     new_text = []

  54.     line = 1

  55.     col_start_pos = 0

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

  57.         if '\n' in ch:

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

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

  60.         new_text.append(Token('CHAR', ch, line=line, column=i - col_start_pos))

  61.     return new_text

  62. 

  63. class Earley_NoLex:

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

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

  66. 

  67.         rules = [(n, list(self._prepare_expansion(x)), a, o) for n,x,a,o in parser_conf.rules]

  68. 

  69.         resolve_ambiguity = (options.ambiguity=='resolve') if options else True

  70.         self.parser = earley.Parser(rules, 

  71.                                     parser_conf.start,

  72.                                     parser_conf.callback,

  73.                                     resolve_ambiguity=resolve_ambiguity)

  74. 

  75.     def _prepare_expansion(self, expansion):

  76.         for sym in expansion:

  77.             if is_terminal(sym):

  78.                 regexp = self.token_by_name[sym].pattern.to_regexp()

  79.                 width = sre_parse.parse(regexp).getwidth()

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

  81.                     raise GrammarError('Scanless parsing (lexer=None) requires all tokens to have a width of 1 (terminal %s: %s is %s)' % (sym, regexp, width))

  82.                 yield Terminal_Regexp(sym, regexp)

  83.             else:

  84.                 yield sym

  85. 

  86.     def parse(self, text):

  87.         new_text = tokenize_text(text)

  88.         return self.parser.parse(new_text)

  89. 

  90. class Earley(WithLexer):

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

  92.         WithLexer.__init__(self, lexer_conf)

  93. 

  94.         rules = [(n, self._prepare_expansion(x), a, o) for n,x,a,o in parser_conf.rules]

  95. 

  96.         resolve_ambiguity = (options.ambiguity=='resolve') if options else True

  97.         self.parser = earley.Parser(rules, 

  98.                                     parser_conf.start,

  99.                                     parser_conf.callback,

  100.                                     resolve_ambiguity=resolve_ambiguity)

  101. 

  102.     def _prepare_expansion(self, expansion):

  103.         return [Terminal_Token(sym) if is_terminal(sym) else sym for sym in expansion]

  104. 

  105.     def parse(self, text):

  106.         tokens = self.lex(text)

  107.         return self.parser.parse(tokens)

  108. 

  109. 

  110. class XEarley:

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

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

  113. 

  114.         rules = [(n, list(self._prepare_expansion(x)), a, o) for n,x,a,o in parser_conf.rules]

  115. 

  116.         resolve_ambiguity = (options.ambiguity=='resolve') if options else True

  117.         ignore = [Terminal_Regexp(x, self.token_by_name[x].pattern.to_regexp()) for x in lexer_conf.ignore]

  118. 

  119.         self.parser = xearley.Parser(rules,

  120.                                     parser_conf.start,

  121.                                     parser_conf.callback,

  122.                                     resolve_ambiguity=resolve_ambiguity,

  123.                                     ignore=ignore,

  124.                                     )

  125. 

  126.     def _prepare_expansion(self, expansion):

  127.         for sym in expansion:

  128.             if is_terminal(sym):

  129.                 regexp = self.token_by_name[sym].pattern.to_regexp()

  130.                 width = sre_parse.parse(regexp).getwidth()

  131.                 assert width

  132.                 yield Terminal_Regexp(sym, regexp)

  133.             else:

  134.                 yield sym

  135. 

  136.     def parse(self, text):

  137.         return self.parser.parse(text)

  138. 

  139. def get_frontend(parser, lexer):

  140.     if parser=='lalr':

  141.         if lexer is None:

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

  143.         elif lexer == 'standard':

  144.             return LALR

  145.         elif lexer == 'contextual':

  146.             return LALR_ContextualLexer

  147.         else:

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

  149.     elif parser=='earley':

  150.         if lexer is None:

  151.             return Earley_NoLex

  152.         elif lexer=='standard':

  153.             return Earley

  154.         elif lexer=='dynamic':

  155.             return XEarley

  156.         elif lexer=='contextual':

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

  158.         else:

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

  160.     else:

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

  162. 

  163.