frontend/match.py

OILS / frontend / match.py View on Github | oilshell.org

292 lines, 157 significant

1	"""
2	match.py - lexer primitives, implemented with re2c or Python regexes.
3	"""
4
5	from _devbuild.gen.id_kind_asdl import Id, Id_t
6	from _devbuild.gen.types_asdl import lex_mode_t
7	from frontend import lexer_def
8
9	from typing import Tuple, Callable, Dict, List, Any, TYPE_CHECKING
10
11	# bin/osh should work without compiling fastlex? But we want all the unit
12	# tests to run with a known version of it.
13	try:
14	import fastlex
15	except ImportError:
16	fastlex = None
17
18	if fastlex:
19	re = None # re module isn't in CPython slice
20	else:
21	import re # type: ignore
22
23	if TYPE_CHECKING:
24	SRE_Pattern = Any # Do we need a .pyi file for re or _sre?
25	SimpleMatchFunc = Callable[[str, int], Tuple[Id_t, int]]
26	LexerPairs = List[Tuple[SRE_Pattern, Id_t]]
27
28
29	def _LongestMatch(re_list, line, start_pos):
30	# type: (LexerPairs, str, int) -> Tuple[Id_t, int]
31
32	# Simulate the rule for \x00, which we generate in frontend/match.re2c.h
33	if start_pos >= len(line):
34	return Id.Eol_Tok, start_pos
35	# Simulate C-style string handling: \x00 is empty string.
36	if line[start_pos] == '\0':
37	return Id.Eol_Tok, start_pos
38
39	matches = []
40	for regex, tok_type in re_list:
41	m = regex.match(line, start_pos) # left-anchored
42	if m:
43	matches.append((m.end(0), tok_type, m.group(0)))
44	if not matches:
45	raise AssertionError('no match at position %d: %r' % (start_pos, line))
46	end_pos, tok_type, tok_val = max(matches, key=lambda m: m[0])
47	#util.log('%s %s', tok_type, end_pos)
48	return tok_type, end_pos
49
50
51	def _CompileAll(pat_list):
52	# type: (List[Tuple[bool, str, Id_t]]) -> LexerPairs
53	result = []
54	for is_regex, pat, token_id in pat_list:
55	if not is_regex:
56	pat = re.escape(pat) # type: ignore # turn $ into \$
57	result.append((re.compile(pat), token_id)) # type: ignore
58	return result
59
60
61	class _MatchOshToken_Slow(object):
62	"""An abstract matcher that doesn't depend on OSH."""
63
64	def __init__(self, lexer_def):
65	# type: (Dict[lex_mode_t, List[Tuple[bool, str, Id_t]]]) -> None
66	self.lexer_def = {} # type: Dict[lex_mode_t, LexerPairs]
67	for lex_mode, pat_list in lexer_def.items():
68	self.lexer_def[lex_mode] = _CompileAll(pat_list)
69
70	def __call__(self, lex_mode, line, start_pos):
71	# type: (lex_mode_t, str, int) -> Tuple[Id_t, int]
72	"""Returns (id, end_pos)."""
73	re_list = self.lexer_def[lex_mode]
74
75	return _LongestMatch(re_list, line, start_pos)
76
77
78	def _MatchOshToken_Fast(lex_mode, line, start_pos):
79	# type: (lex_mode_t, str, int) -> Tuple[Id_t, int]
80	"""Returns (Id, end_pos)."""
81	tok_type, end_pos = fastlex.MatchOshToken(lex_mode, line, start_pos)
82	# IMPORTANT: We're reusing Id instances here. Ids are very common, so this
83	# saves memory.
84	return tok_type, end_pos
85
86
87	class _MatchTokenSlow(object):
88
89	def __init__(self, pat_list):
90	# type: (List[Tuple[bool, str, Id_t]]) -> None
91	self.pat_list = _CompileAll(pat_list)
92
93	def __call__(self, line, start_pos):
94	# type: (str, int) -> Tuple[Id_t, int]
95	return _LongestMatch(self.pat_list, line, start_pos)
96
97
98	def _MatchEchoToken_Fast(line, start_pos):
99	# type: (str, int) -> Tuple[Id_t, int]
100	tok_type, end_pos = fastlex.MatchEchoToken(line, start_pos)
101	return tok_type, end_pos
102
103
104	def _MatchGlobToken_Fast(line, start_pos):
105	# type: (str, int) -> Tuple[Id_t, int]
106	tok_type, end_pos = fastlex.MatchGlobToken(line, start_pos)
107	return tok_type, end_pos
108
109
110	def _MatchPS1Token_Fast(line, start_pos):
111	# type: (str, int) -> Tuple[Id_t, int]
112	tok_type, end_pos = fastlex.MatchPS1Token(line, start_pos)
113	return tok_type, end_pos
114
115
116	def _MatchHistoryToken_Fast(line, start_pos):
117	# type: (str, int) -> Tuple[Id_t, int]
118	tok_type, end_pos = fastlex.MatchHistoryToken(line, start_pos)
119	return tok_type, end_pos
120
121
122	def _MatchBraceRangeToken_Fast(line, start_pos):
123	# type: (str, int) -> Tuple[Id_t, int]
124	tok_type, end_pos = fastlex.MatchBraceRangeToken(line, start_pos)
125	return tok_type, end_pos
126
127
128	def _MatchJ8Token_Fast(line, start_pos):
129	# type: (str, int) -> Tuple[Id_t, int]
130	tok_type, end_pos = fastlex.MatchJ8Token(line, start_pos)
131	return tok_type, end_pos
132
133
134	def _MatchJ8LinesToken_Fast(line, start_pos):
135	# type: (str, int) -> Tuple[Id_t, int]
136	tok_type, end_pos = fastlex.MatchJ8LinesToken(line, start_pos)
137	return tok_type, end_pos
138
139
140	def _MatchJ8StrToken_Fast(line, start_pos):
141	# type: (str, int) -> Tuple[Id_t, int]
142	tok_type, end_pos = fastlex.MatchJ8StrToken(line, start_pos)
143	return tok_type, end_pos
144
145
146	def _MatchJsonStrToken_Fast(line, start_pos):
147	# type: (str, int) -> Tuple[Id_t, int]
148	tok_type, end_pos = fastlex.MatchJsonStrToken(line, start_pos)
149	return tok_type, end_pos
150
151
152	if fastlex:
153	OneToken = _MatchOshToken_Fast
154	ECHO_MATCHER = _MatchEchoToken_Fast
155	GLOB_MATCHER = _MatchGlobToken_Fast
156	PS1_MATCHER = _MatchPS1Token_Fast
157	HISTORY_MATCHER = _MatchHistoryToken_Fast
158	BRACE_RANGE_MATCHER = _MatchBraceRangeToken_Fast
159
160	MatchJ8Token = _MatchJ8Token_Fast
161	MatchJ8LinesToken = _MatchJ8LinesToken_Fast
162	MatchJ8StrToken = _MatchJ8StrToken_Fast
163	MatchJsonStrToken = _MatchJsonStrToken_Fast
164
165	IsValidVarName = fastlex.IsValidVarName
166	ShouldHijack = fastlex.ShouldHijack
167	LooksLikeInteger = fastlex.LooksLikeInteger
168	LooksLikeFloat = fastlex.LooksLikeFloat
169	else:
170	OneToken = _MatchOshToken_Slow(lexer_def.LEXER_DEF)
171	ECHO_MATCHER = _MatchTokenSlow(lexer_def.ECHO_E_DEF)
172	GLOB_MATCHER = _MatchTokenSlow(lexer_def.GLOB_DEF)
173	PS1_MATCHER = _MatchTokenSlow(lexer_def.PS1_DEF)
174	HISTORY_MATCHER = _MatchTokenSlow(lexer_def.HISTORY_DEF)
175	BRACE_RANGE_MATCHER = _MatchTokenSlow(lexer_def.BRACE_RANGE_DEF)
176
177	MatchJ8Token = _MatchTokenSlow(lexer_def.J8_DEF)
178	MatchJ8LinesToken = _MatchTokenSlow(lexer_def.J8_LINES_DEF)
179	MatchJ8StrToken = _MatchTokenSlow(lexer_def.J8_STR_DEF)
180	MatchJsonStrToken = _MatchTokenSlow(lexer_def.JSON_STR_DEF)
181
182	# Used by osh/cmd_parse.py to validate for loop name. Note it must be
183	# anchored on the right.
184	_VAR_NAME_RE = re.compile(lexer_def.VAR_NAME_RE + '$') # type: ignore
185
186	def IsValidVarName(s):
187	# type: (str) -> bool
188	return bool(_VAR_NAME_RE.match(s))
189
190	# yapf: disable
191	_SHOULD_HIJACK_RE = re.compile(lexer_def.SHOULD_HIJACK_RE + '$') # type: ignore
192
193	def ShouldHijack(s):
194	# type: (str) -> bool
195	return bool(_SHOULD_HIJACK_RE.match(s))
196
197	_LOOKS_LIKE_INTEGER_RE = re.compile(lexer_def.LOOKS_LIKE_INTEGER + '$') # type: ignore
198
199	def LooksLikeInteger(s):
200	# type: (str) -> bool
201	return bool(_LOOKS_LIKE_INTEGER_RE.match(s))
202
203	_LOOKS_LIKE_FLOAT_RE = re.compile(lexer_def.LOOKS_LIKE_FLOAT + '$') # type: ignore
204	# yapf: enable
205
206
207	def LooksLikeFloat(s):
208	# type: (str) -> bool
209	return bool(_LOOKS_LIKE_FLOAT_RE.match(s))
210
211
212	class SimpleLexer(object):
213
214	def __init__(self, match_func, s):
215	# type: (SimpleMatchFunc, str) -> None
216	self.match_func = match_func
217	self.s = s
218	self.pos = 0
219
220	def Next(self):
221	# type: () -> Tuple[Id_t, str]
222	"""
223	Note: match_func will return Id.Eol_Tok repeatedly the terminating NUL
224	"""
225	tok_id, end_pos = self.match_func(self.s, self.pos)
226	val = self.s[self.pos:end_pos]
227	self.pos = end_pos
228	return tok_id, val
229
230	def Tokens(self):
231	# type: () -> List[Tuple[Id_t, str]]
232	tokens = [] # type: List[Tuple[Id_t, str]]
233	while True:
234	tok_id, val = self.Next()
235	if tok_id == Id.Eol_Tok: # NUL terminator
236	break
237	tokens.append((tok_id, val))
238	return tokens
239
240
241	# Iterated over in builtin/io_osh.py
242	def EchoLexer(s):
243	# type: (str) -> SimpleLexer
244	return SimpleLexer(ECHO_MATCHER, s)
245
246
247	def BraceRangeLexer(s):
248	# type: (str) -> SimpleLexer
249	return SimpleLexer(BRACE_RANGE_MATCHER, s)
250
251
252	def GlobLexer(s):
253	# type: (str) -> SimpleLexer
254	return SimpleLexer(GLOB_MATCHER, s)
255
256
257	# These tokens are "slurped"
258
259
260	def HistoryTokens(s):
261	# type: (str) -> List[Tuple[Id_t, str]]
262	lex = SimpleLexer(HISTORY_MATCHER, s)
263	return lex.Tokens()
264
265
266	def Ps1Tokens(s):
267	# type: (str) -> List[Tuple[Id_t, str]]
268	lex = SimpleLexer(PS1_MATCHER, s)
269	return lex.Tokens()
270
271
272	#
273	# builtin/bracket_osh.py
274	#
275
276
277	def BracketUnary(s):
278	# type: (str) -> Id_t
279	from _devbuild.gen.id_kind import TEST_UNARY_LOOKUP # break circular dep
280	return TEST_UNARY_LOOKUP.get(s, Id.Undefined_Tok)
281
282
283	def BracketBinary(s):
284	# type: (str) -> Id_t
285	from _devbuild.gen.id_kind import TEST_BINARY_LOOKUP
286	return TEST_BINARY_LOOKUP.get(s, Id.Undefined_Tok)
287
288
289	def BracketOther(s):
290	# type: (str) -> Id_t
291	from _devbuild.gen.id_kind import TEST_OTHER_LOOKUP
292	return TEST_OTHER_LOOKUP.get(s, Id.Undefined_Tok)