1 | #!/usr/bin/env python2
|
2 | """regex_translate.py."""
|
3 | from __future__ import print_function
|
4 |
|
5 | from _devbuild.gen.syntax_asdl import (
|
6 | PosixClass,
|
7 | PerlClass,
|
8 | CharCode,
|
9 | CharRange,
|
10 | char_class_term_e,
|
11 | char_class_term_t,
|
12 | re,
|
13 | re_e,
|
14 | re_repeat,
|
15 | re_repeat_e,
|
16 | EggexFlag,
|
17 | Token,
|
18 | )
|
19 | from _devbuild.gen.id_kind_asdl import Id
|
20 | from _devbuild.gen.value_asdl import value
|
21 | from core.error import e_die, p_die
|
22 | from frontend import lexer
|
23 | from mycpp.mylib import log, tagswitch, switch
|
24 | from osh import glob_ # for ExtendedRegexEscape
|
25 |
|
26 | from typing import List, Optional, TYPE_CHECKING, cast
|
27 |
|
28 | if TYPE_CHECKING:
|
29 | from _devbuild.gen.syntax_asdl import re_t
|
30 |
|
31 | from libc import REG_ICASE, REG_NEWLINE
|
32 |
|
33 | _ = log
|
34 |
|
35 | PERL_CLASS = {
|
36 | 'd': '[:digit:]',
|
37 | # Python's docs say it's [a-zA-Z0-9_] when NO LOCALE is set.
|
38 | 'w': '[:alpha:][:digit:]_',
|
39 | # Python's doc says \s is [ \t\n\r\f\v] when NO LCOALE
|
40 | 's': '[:space:]',
|
41 | }
|
42 |
|
43 | # ERE's in POSIX:
|
44 | # https://pubs.opengroup.org/onlinepubs/9699919799/basedefs/V1_chap09.html
|
45 | #
|
46 | # NOTE: They don't support \x00 or \u1234 as in Perl/Python!
|
47 | #
|
48 | # It's hard to grep for tabs with BRE or ERE syntax. You have to use:
|
49 | #
|
50 | # (1) a literal tab with Ctrl-V, or
|
51 | # (2) bash syntax: grep $'\t' foo.txt
|
52 | # (3) POSIX shell syntax: grep "$(echo -e '\t')" foo.txt.
|
53 | #
|
54 | # I ran into this in test/lint.sh !!!
|
55 | #
|
56 | # https://stackoverflow.com/questions/1825552/grep-a-tab-in-unix
|
57 |
|
58 | # Algorithm:
|
59 | # - Unicode escapes in BREs disallowed
|
60 | # - ASCII codes 1-255 allowed LITERALLY, but NUL \0 disallowed
|
61 | #
|
62 | # What about utf-8 encoded characters? Those work within literals, but are
|
63 | # problematic within character sets. There's no way to disallow those in
|
64 | # general though.
|
65 |
|
66 | CH_RBRACKET = 0x5d
|
67 | CH_BACKSLASH = 0x5c
|
68 | CH_CARET = 0x5e
|
69 | CH_HYPHEN = 0x2d
|
70 |
|
71 | FLAG_RBRACKET = 0b0001
|
72 | FLAG_BACKSLASH = 0b0010
|
73 | FLAG_CARET = 0b0100
|
74 | FLAG_HYPHEN = 0b1000
|
75 |
|
76 |
|
77 | def _CharCodeToEre(term, parts, special_char_flags):
|
78 | # type: (CharCode, List[str], List[int]) -> None
|
79 | """special_char_flags: list of single int that is mutated."""
|
80 |
|
81 | char_int = term.i
|
82 | if char_int >= 128 and term.u_braced:
|
83 | # \u{ff} can't be represented in ERE because we don't know the encoding
|
84 | # \xff can be represented
|
85 | e_die("ERE can't express char code %d" % char_int, term.blame_tok)
|
86 |
|
87 | # note: mycpp doesn't handle
|
88 | # special_char_flags[0] |= FLAG_HYPHEN
|
89 | mask = special_char_flags[0]
|
90 |
|
91 | if char_int == CH_HYPHEN:
|
92 | mask |= FLAG_HYPHEN
|
93 | elif char_int == CH_CARET:
|
94 | mask |= FLAG_CARET
|
95 | elif char_int == CH_RBRACKET:
|
96 | mask |= FLAG_RBRACKET
|
97 | elif char_int == CH_BACKSLASH:
|
98 | mask |= FLAG_BACKSLASH
|
99 | else:
|
100 | parts.append(chr(char_int))
|
101 |
|
102 | special_char_flags[0] = mask
|
103 |
|
104 |
|
105 | def _CharClassTermToEre(term, parts, special_char_flags):
|
106 | # type: (char_class_term_t, List[str], List[int]) -> None
|
107 | """special_char_flags: list of single int that is mutated."""
|
108 |
|
109 | UP_term = term
|
110 | with tagswitch(term) as case:
|
111 | if case(char_class_term_e.CharRange):
|
112 | term = cast(CharRange, UP_term)
|
113 |
|
114 | # Create our own flags
|
115 | range_no_special = [0]
|
116 |
|
117 | _CharCodeToEre(term.start, parts, range_no_special)
|
118 | if range_no_special[0] != 0:
|
119 | e_die(
|
120 | "Can't use char %d as start of range in ERE syntax" %
|
121 | term.start.i, term.start.blame_tok)
|
122 |
|
123 | parts.append('-') # a-b
|
124 |
|
125 | _CharCodeToEre(term.end, parts, range_no_special)
|
126 | if range_no_special[0] != 0:
|
127 | e_die(
|
128 | "Can't use char %d as end of range in ERE syntax" %
|
129 | term.end.i, term.end.blame_tok)
|
130 |
|
131 | elif case(char_class_term_e.CharCode):
|
132 | term = cast(CharCode, UP_term)
|
133 |
|
134 | _CharCodeToEre(term, parts, special_char_flags)
|
135 |
|
136 | elif case(char_class_term_e.PerlClass):
|
137 | term = cast(PerlClass, UP_term)
|
138 | n = term.name
|
139 | chars = PERL_CLASS[term.name] # looks like '[:digit:]'
|
140 | if term.negated:
|
141 | e_die("Perl classes can't be negated in ERE", term.negated)
|
142 | else:
|
143 | pat = '%s' % chars
|
144 | parts.append(pat)
|
145 |
|
146 | elif case(char_class_term_e.PosixClass):
|
147 | term = cast(PosixClass, UP_term)
|
148 | n = term.name # looks like 'digit'
|
149 | if term.negated:
|
150 | e_die("POSIX classes can't be negated in ERE", term.negated)
|
151 | else:
|
152 | pat = '[:%s:]' % n
|
153 | parts.append(pat)
|
154 |
|
155 | else:
|
156 | raise AssertionError(term)
|
157 |
|
158 |
|
159 | def _AsPosixEre(node, parts, capture_names):
|
160 | # type: (re_t, List[str], List[Optional[str]]) -> None
|
161 | """Translate an Eggex to a POSIX ERE.
|
162 |
|
163 | Appends to a list of parts that you have to join.
|
164 | """
|
165 | UP_node = node
|
166 | tag = node.tag()
|
167 |
|
168 | if tag == re_e.Primitive:
|
169 | node = cast(re.Primitive, UP_node)
|
170 | if node.id == Id.Eggex_Dot:
|
171 | parts.append('.')
|
172 | elif node.id == Id.Eggex_Start:
|
173 | parts.append('^')
|
174 | elif node.id == Id.Eggex_End:
|
175 | parts.append('$')
|
176 | else:
|
177 | raise AssertionError(node.id)
|
178 | return
|
179 |
|
180 | if tag == re_e.LiteralChars:
|
181 | node = cast(re.LiteralChars, UP_node)
|
182 | # The bash [[ x =~ "." ]] construct also has to do this
|
183 |
|
184 | # TODO: What about \0 and unicode escapes?
|
185 | # Those won't be as LiteralChars I don't think?
|
186 | # Unless you put them there through \0
|
187 | # Maybe DISALLOW those.
|
188 | # "Unprintable chars should be written as \0 or \x00 or \u0000"
|
189 |
|
190 | parts.append(glob_.ExtendedRegexEscape(node.s))
|
191 | return
|
192 |
|
193 | if tag == re_e.Seq:
|
194 | node = cast(re.Seq, UP_node)
|
195 | for c in node.children:
|
196 | _AsPosixEre(c, parts, capture_names)
|
197 | return
|
198 |
|
199 | if tag == re_e.Alt:
|
200 | node = cast(re.Alt, UP_node)
|
201 | for i, c in enumerate(node.children):
|
202 | if i != 0:
|
203 | parts.append('|')
|
204 | _AsPosixEre(c, parts, capture_names)
|
205 | return
|
206 |
|
207 | if tag == re_e.Repeat:
|
208 | node = cast(re.Repeat, UP_node)
|
209 | # 'foo' or "foo" or $x or ${x} evaluated to too many chars
|
210 | if node.child.tag() == re_e.LiteralChars:
|
211 | child = cast(re.LiteralChars, node.child)
|
212 | if len(child.s) > 1:
|
213 | # Note: Other regex dialects have non-capturing groups since we don't
|
214 | # need this.
|
215 | e_die(
|
216 | "POSIX EREs don't have groups without capture, so this node "
|
217 | "needs () around it.", child.blame_tok)
|
218 |
|
219 | _AsPosixEre(node.child, parts, capture_names)
|
220 | op = node.op
|
221 | op_tag = op.tag()
|
222 | UP_op = op
|
223 |
|
224 | if op_tag == re_repeat_e.Op:
|
225 | op = cast(Token, UP_op)
|
226 | with switch(op.id) as case:
|
227 | if case(Id.Arith_Plus):
|
228 | parts.append('+')
|
229 | elif case(Id.Arith_Star):
|
230 | parts.append('*')
|
231 | elif case(Id.Arith_QMark):
|
232 | parts.append('?')
|
233 | elif case(Id.Expr_DecInt):
|
234 | parts.append('{%s}' % lexer.LazyStr(op))
|
235 | else:
|
236 | raise AssertionError(op.id)
|
237 | return
|
238 |
|
239 | if op_tag == re_repeat_e.Range:
|
240 | op = cast(re_repeat.Range, UP_op)
|
241 | parts.append('{%s,%s}' % (op.lower, op.upper))
|
242 | return
|
243 |
|
244 | raise NotImplementedError(op_tag)
|
245 |
|
246 | # Special case for familiarity: () is acceptable as a group in ERE
|
247 | if tag == re_e.Group:
|
248 | node = cast(re.Group, UP_node)
|
249 |
|
250 | # placeholder so we know this group is numbered, but not named
|
251 | capture_names.append(None)
|
252 |
|
253 | parts.append('(')
|
254 | _AsPosixEre(node.child, parts, capture_names)
|
255 | parts.append(')')
|
256 | return
|
257 |
|
258 | if tag == re_e.Capture:
|
259 | node = cast(re.Capture, UP_node)
|
260 |
|
261 | # Collect in order of ( appearance
|
262 | # TODO: get the name string, and type string
|
263 |
|
264 | capture_str = lexer.TokenVal(node.name) if node.name else None
|
265 | capture_names.append(capture_str)
|
266 |
|
267 | parts.append('(')
|
268 | _AsPosixEre(node.child, parts, capture_names)
|
269 | parts.append(')')
|
270 | return
|
271 |
|
272 | if tag == re_e.PerlClass:
|
273 | node = cast(PerlClass, UP_node)
|
274 | n = node.name
|
275 | chars = PERL_CLASS[node.name] # looks like [:digit:]
|
276 | if node.negated:
|
277 | pat = '[^%s]' % chars
|
278 | else:
|
279 | pat = '[%s]' % chars
|
280 | parts.append(pat)
|
281 | return
|
282 |
|
283 | if tag == re_e.PosixClass:
|
284 | node = cast(PosixClass, UP_node)
|
285 | n = node.name # looks like 'digit'
|
286 | if node.negated:
|
287 | pat = '[^[:%s:]]' % n
|
288 | else:
|
289 | pat = '[[:%s:]]' % n
|
290 | parts.append(pat)
|
291 | return
|
292 |
|
293 | if tag == re_e.CharClass:
|
294 | node = cast(re.CharClass, UP_node)
|
295 |
|
296 | # HYPHEN CARET RBRACKET BACKSLASH
|
297 | special_char_flags = [0]
|
298 | non_special_parts = [] # type: List[str]
|
299 |
|
300 | for term in node.terms:
|
301 | _CharClassTermToEre(term, non_special_parts, special_char_flags)
|
302 |
|
303 | parts.append('[')
|
304 | if node.negated:
|
305 | parts.append('^')
|
306 |
|
307 | # Help the user with some of terrible corner cases
|
308 |
|
309 | # - move literal - to end [ab-] not [a-b]
|
310 | # - move literal ^ to end [x^-] not [^x-]
|
311 | # - move literal ] to beginning: []x] not [x]]
|
312 | # - double up \\ because of Gawk extension [\\]
|
313 |
|
314 | if special_char_flags[0] & FLAG_RBRACKET:
|
315 | parts.append(']')
|
316 |
|
317 | parts.extend(non_special_parts)
|
318 |
|
319 | if special_char_flags[0] & FLAG_BACKSLASH:
|
320 | parts.append('\\\\') # TWO backslashes
|
321 |
|
322 | if special_char_flags[0] & FLAG_CARET:
|
323 | parts.append('^')
|
324 |
|
325 | if special_char_flags[0] & FLAG_HYPHEN:
|
326 | parts.append('-')
|
327 |
|
328 | parts.append(']')
|
329 | return
|
330 |
|
331 | raise NotImplementedError(tag)
|
332 |
|
333 |
|
334 | def AsPosixEre(eggex):
|
335 | # type: (value.Eggex) -> str
|
336 | """
|
337 | Lazily fills in fields on the value.Eggex argument.
|
338 | """
|
339 | if eggex.as_ere is not None:
|
340 | return eggex.as_ere
|
341 |
|
342 | parts = [] # type: List[str]
|
343 | _AsPosixEre(eggex.spliced, parts, eggex.capture_names)
|
344 |
|
345 | # These are both indexed by group number, with None for the holes
|
346 | # List[str?] vs. List[value?]
|
347 | assert len(eggex.capture_names) == len(eggex.convert_funcs)
|
348 |
|
349 | eggex.as_ere = ''.join(parts)
|
350 |
|
351 | return eggex.as_ere
|
352 |
|
353 |
|
354 | def CanonicalFlags(flags):
|
355 | # type: (List[EggexFlag]) -> str
|
356 | """
|
357 | Raises PARSE error on invalid flags.
|
358 |
|
359 | In theory we could encode directly to integers like REG_ICASE, but a string
|
360 | like like 'i' makes the error message slightly more legible.
|
361 | """
|
362 | letters = [] # type: List[str]
|
363 | for flag in flags:
|
364 | if flag.negated:
|
365 | p_die("Flag can't be negated", flag.flag)
|
366 | flag_name = lexer.TokenVal(flag.flag)
|
367 | if flag_name in ('i', 'reg_icase'):
|
368 | letters.append('i')
|
369 | elif flag_name == 'reg_newline':
|
370 | letters.append('n')
|
371 | else:
|
372 | p_die("Invalid regex flag %r" % flag_name, flag.flag)
|
373 |
|
374 | # Normalize for comparison
|
375 | letters.sort()
|
376 | return ''.join(letters)
|
377 |
|
378 |
|
379 | def LibcFlags(canonical_flags):
|
380 | # type: (Optional[str]) -> int
|
381 | if canonical_flags is None:
|
382 | return 0
|
383 |
|
384 | libc_flags = 0
|
385 | for ch in canonical_flags:
|
386 | if ch == 'i':
|
387 | libc_flags |= REG_ICASE
|
388 | elif ch == 'n':
|
389 | libc_flags |= REG_NEWLINE
|
390 | else:
|
391 | # regex_translate should prevent this
|
392 | raise AssertionError()
|
393 | return libc_flags
|