1 | """
|
2 | word_eval.py - Evaluator for the word language.
|
3 | """
|
4 |
|
5 | from _devbuild.gen.id_kind_asdl import Id, Kind, Kind_str
|
6 | from _devbuild.gen.syntax_asdl import (
|
7 | Token,
|
8 | SimpleVarSub,
|
9 | loc,
|
10 | loc_t,
|
11 | BracedVarSub,
|
12 | CommandSub,
|
13 | bracket_op,
|
14 | bracket_op_e,
|
15 | suffix_op,
|
16 | suffix_op_e,
|
17 | ShArrayLiteral,
|
18 | SingleQuoted,
|
19 | DoubleQuoted,
|
20 | word_e,
|
21 | word_t,
|
22 | CompoundWord,
|
23 | rhs_word,
|
24 | rhs_word_e,
|
25 | rhs_word_t,
|
26 | word_part,
|
27 | word_part_e,
|
28 | )
|
29 | from _devbuild.gen.runtime_asdl import (
|
30 | part_value,
|
31 | part_value_e,
|
32 | part_value_t,
|
33 | cmd_value,
|
34 | cmd_value_e,
|
35 | cmd_value_t,
|
36 | AssignArg,
|
37 | a_index,
|
38 | a_index_e,
|
39 | VTestPlace,
|
40 | VarSubState,
|
41 | Piece,
|
42 | )
|
43 | from _devbuild.gen.option_asdl import option_i, builtin_i
|
44 | from _devbuild.gen.value_asdl import (
|
45 | value,
|
46 | value_e,
|
47 | value_t,
|
48 | sh_lvalue,
|
49 | sh_lvalue_t,
|
50 | )
|
51 | from core import error
|
52 | from core import pyos
|
53 | from core import pyutil
|
54 | from core import state
|
55 | from core import ui
|
56 | from core import util
|
57 | from data_lang import j8
|
58 | from data_lang import j8_lite
|
59 | from core.error import e_die
|
60 | from frontend import consts
|
61 | from frontend import lexer
|
62 | from frontend import location
|
63 | from mycpp import mops
|
64 | from mycpp.mylib import log, tagswitch, NewDict
|
65 | from osh import braces
|
66 | from osh import glob_
|
67 | from osh import string_ops
|
68 | from osh import word_
|
69 | from ysh import expr_eval
|
70 | from ysh import val_ops
|
71 |
|
72 | from typing import Optional, Tuple, List, Dict, cast, TYPE_CHECKING
|
73 |
|
74 | if TYPE_CHECKING:
|
75 | from _devbuild.gen.syntax_asdl import word_part_t
|
76 | from _devbuild.gen.option_asdl import builtin_t
|
77 | from core import optview
|
78 | from core.state import Mem
|
79 | from core.ui import ErrorFormatter
|
80 | from core.vm import _Executor
|
81 | from osh.split import SplitContext
|
82 | from osh import prompt
|
83 | from osh import sh_expr_eval
|
84 |
|
85 | # Flags for _EvalWordToParts and _EvalWordPart (not all are used for both)
|
86 | QUOTED = 1 << 0
|
87 | IS_SUBST = 1 << 1
|
88 |
|
89 | EXTGLOB_FILES = 1 << 2 # allow @(cc) from file system?
|
90 | EXTGLOB_MATCH = 1 << 3 # allow @(cc) in pattern matching?
|
91 | EXTGLOB_NESTED = 1 << 4 # for @(one|!(two|three))
|
92 |
|
93 | # For EvalWordToString
|
94 | QUOTE_FNMATCH = 1 << 5
|
95 | QUOTE_ERE = 1 << 6
|
96 |
|
97 | # For compatibility, ${BASH_SOURCE} and ${BASH_SOURCE[@]} are both valid.
|
98 | # Ditto for ${FUNCNAME} and ${BASH_LINENO}.
|
99 | _STRING_AND_ARRAY = ['BASH_SOURCE', 'FUNCNAME', 'BASH_LINENO']
|
100 |
|
101 |
|
102 | def ShouldArrayDecay(var_name, exec_opts, is_plain_var_sub=True):
|
103 | # type: (str, optview.Exec, bool) -> bool
|
104 | """Return whether we should allow ${a} to mean ${a[0]}."""
|
105 | return (not exec_opts.strict_array() or
|
106 | is_plain_var_sub and var_name in _STRING_AND_ARRAY)
|
107 |
|
108 |
|
109 | def DecayArray(val):
|
110 | # type: (value_t) -> value_t
|
111 | """Resolve ${array} to ${array[0]}."""
|
112 | if val.tag() == value_e.BashArray:
|
113 | array_val = cast(value.BashArray, val)
|
114 | s = array_val.strs[0] if len(array_val.strs) else None
|
115 | elif val.tag() == value_e.BashAssoc:
|
116 | assoc_val = cast(value.BashAssoc, val)
|
117 | s = assoc_val.d['0'] if '0' in assoc_val.d else None
|
118 | else:
|
119 | raise AssertionError(val.tag())
|
120 |
|
121 | if s is None:
|
122 | return value.Undef
|
123 | else:
|
124 | return value.Str(s)
|
125 |
|
126 |
|
127 | def GetArrayItem(strs, index):
|
128 | # type: (List[str], int) -> Optional[str]
|
129 |
|
130 | n = len(strs)
|
131 | if index < 0:
|
132 | index += n
|
133 |
|
134 | if 0 <= index and index < n:
|
135 | # TODO: strs->index() has a redundant check for (i < 0)
|
136 | s = strs[index]
|
137 | # note: s could be None because representation is sparse
|
138 | else:
|
139 | s = None
|
140 | return s
|
141 |
|
142 |
|
143 | def _DetectMetaBuiltinStr(s):
|
144 | # type: (str) -> bool
|
145 | """
|
146 | We need to detect all of these cases:
|
147 |
|
148 | builtin local
|
149 | command local
|
150 | builtin builtin local
|
151 | builtin command local
|
152 |
|
153 | Fundamentally, assignment builtins have different WORD EVALUATION RULES
|
154 | for a=$x (no word splitting), so it seems hard to do this in
|
155 | meta_osh.Builtin() or meta_osh.Command()
|
156 | """
|
157 | return (consts.LookupNormalBuiltin(s)
|
158 | in (builtin_i.builtin, builtin_i.command))
|
159 |
|
160 |
|
161 | def _DetectMetaBuiltin(val0):
|
162 | # type: (part_value_t) -> bool
|
163 | UP_val0 = val0
|
164 | if val0.tag() == part_value_e.String:
|
165 | val0 = cast(Piece, UP_val0)
|
166 | if not val0.quoted:
|
167 | return _DetectMetaBuiltinStr(val0.s)
|
168 | return False
|
169 |
|
170 |
|
171 | def _SplitAssignArg(arg, blame_word):
|
172 | # type: (str, CompoundWord) -> AssignArg
|
173 | """Dynamically parse argument to declare, export, etc.
|
174 |
|
175 | This is a fallback to the static parsing done below.
|
176 | """
|
177 | # Note: it would be better to cache regcomp(), but we don't have an API for
|
178 | # that, and it probably isn't a bottleneck now
|
179 | m = util.RegexSearch(consts.ASSIGN_ARG_RE, arg)
|
180 | if m is None:
|
181 | e_die("Assignment builtin expected NAME=value, got %r" % arg,
|
182 | blame_word)
|
183 |
|
184 | var_name = m[1]
|
185 | # m[2] is used for grouping; ERE doesn't have non-capturing groups
|
186 |
|
187 | op = m[3]
|
188 | assert op is not None, op
|
189 | if len(op): # declare NAME=
|
190 | val = value.Str(m[4]) # type: Optional[value_t]
|
191 | append = op[0] == '+'
|
192 | else: # declare NAME
|
193 | val = None # no operator
|
194 | append = False
|
195 |
|
196 | return AssignArg(var_name, val, append, blame_word)
|
197 |
|
198 |
|
199 | # NOTE: Could be done with util.BackslashEscape like glob_.GlobEscape().
|
200 | def _BackslashEscape(s):
|
201 | # type: (str) -> str
|
202 | """Double up backslashes.
|
203 |
|
204 | Useful for strings about to be globbed and strings about to be IFS
|
205 | escaped.
|
206 | """
|
207 | return s.replace('\\', '\\\\')
|
208 |
|
209 |
|
210 | def _ValueToPartValue(val, quoted, part_loc):
|
211 | # type: (value_t, bool, word_part_t) -> part_value_t
|
212 | """Helper for VarSub evaluation.
|
213 |
|
214 | Called by _EvalBracedVarSub and _EvalWordPart for SimpleVarSub.
|
215 | """
|
216 | UP_val = val
|
217 |
|
218 | with tagswitch(val) as case:
|
219 | if case(value_e.Undef):
|
220 | # This happens in the case of ${undef+foo}. We skipped _EmptyStrOrError,
|
221 | # but we have to append to the empty string.
|
222 | return Piece('', quoted, not quoted)
|
223 |
|
224 | elif case(value_e.Str):
|
225 | val = cast(value.Str, UP_val)
|
226 | return Piece(val.s, quoted, not quoted)
|
227 |
|
228 | elif case(value_e.BashArray):
|
229 | val = cast(value.BashArray, UP_val)
|
230 | return part_value.Array(val.strs)
|
231 |
|
232 | elif case(value_e.BashAssoc):
|
233 | val = cast(value.BashAssoc, UP_val)
|
234 | # bash behavior: splice values!
|
235 | return part_value.Array(val.d.values())
|
236 |
|
237 | # Cases added for YSH
|
238 | # value_e.List is also here - we use val_ops.stringify()s err message
|
239 | elif case(value_e.Null, value_e.Bool, value_e.Int, value_e.Float,
|
240 | value_e.Eggex, value_e.List):
|
241 | s = val_ops.Stringify(val, loc.Missing)
|
242 | return Piece(s, quoted, not quoted)
|
243 |
|
244 | else:
|
245 | raise error.TypeErr(val, "Can't substitute into word",
|
246 | loc.WordPart(part_loc))
|
247 |
|
248 | raise AssertionError('for -Wreturn-type in C++')
|
249 |
|
250 |
|
251 | def _MakeWordFrames(part_vals):
|
252 | # type: (List[part_value_t]) -> List[List[Piece]]
|
253 | """A word evaluates to a flat list of part_value (String or Array). frame
|
254 | is a portion that results in zero or more args. It can never be joined.
|
255 | This idea exists because of arrays like "$@" and "${a[@]}".
|
256 |
|
257 | Example:
|
258 |
|
259 | a=(1 '2 3' 4)
|
260 | x=x
|
261 | y=y
|
262 |
|
263 | # This word
|
264 | $x"${a[@]}"$y
|
265 |
|
266 | # Results in Three frames:
|
267 | [ ('x', False, True), ('1', True, False) ]
|
268 | [ ('2 3', True, False) ]
|
269 | [ ('4', True, False), ('y', False, True) ]
|
270 |
|
271 | Note: A frame is a 3-tuple that's identical to Piece()? Maybe we
|
272 | should make that top level type.
|
273 |
|
274 | TODO:
|
275 | - Instead of List[List[Piece]], where List[Piece] is a Frame
|
276 | - Change this representation to
|
277 | Frames = (List[Piece] pieces, List[int] break_indices)
|
278 | # where break_indices are the end
|
279 |
|
280 | Consider a common case like "$x" or "${x}" - I think this a lot more
|
281 | efficient?
|
282 |
|
283 | And then change _EvalWordFrame(pieces: List[Piece], start: int, end: int)
|
284 | """
|
285 | current = [] # type: List[Piece]
|
286 | frames = [current]
|
287 |
|
288 | for p in part_vals:
|
289 | UP_p = p
|
290 |
|
291 | with tagswitch(p) as case:
|
292 | if case(part_value_e.String):
|
293 | p = cast(Piece, UP_p)
|
294 | current.append(p)
|
295 |
|
296 | elif case(part_value_e.Array):
|
297 | p = cast(part_value.Array, UP_p)
|
298 |
|
299 | is_first = True
|
300 | for s in p.strs:
|
301 | if s is None:
|
302 | continue # ignore undefined array entries
|
303 |
|
304 | # Arrays parts are always quoted; otherwise they would have decayed to
|
305 | # a string.
|
306 | piece = Piece(s, True, False)
|
307 | if is_first:
|
308 | current.append(piece)
|
309 | is_first = False
|
310 | else:
|
311 | current = [piece]
|
312 | frames.append(current) # singleton frame
|
313 |
|
314 | else:
|
315 | raise AssertionError()
|
316 |
|
317 | return frames
|
318 |
|
319 |
|
320 | # TODO: This could be _MakeWordFrames and then sep.join(). It's redundant.
|
321 | def _DecayPartValuesToString(part_vals, join_char):
|
322 | # type: (List[part_value_t], str) -> str
|
323 | # Decay ${a=x"$@"x} to string.
|
324 | out = [] # type: List[str]
|
325 | for p in part_vals:
|
326 | UP_p = p
|
327 | with tagswitch(p) as case:
|
328 | if case(part_value_e.String):
|
329 | p = cast(Piece, UP_p)
|
330 | out.append(p.s)
|
331 | elif case(part_value_e.Array):
|
332 | p = cast(part_value.Array, UP_p)
|
333 | # TODO: Eliminate double join for speed?
|
334 | tmp = [s for s in p.strs if s is not None]
|
335 | out.append(join_char.join(tmp))
|
336 | else:
|
337 | raise AssertionError()
|
338 | return ''.join(out)
|
339 |
|
340 |
|
341 | def _PerformSlice(
|
342 | val, # type: value_t
|
343 | begin, # type: int
|
344 | length, # type: int
|
345 | has_length, # type: bool
|
346 | part, # type: BracedVarSub
|
347 | arg0_val, # type: value.Str
|
348 | ):
|
349 | # type: (...) -> value_t
|
350 | UP_val = val
|
351 | with tagswitch(val) as case:
|
352 | if case(value_e.Str): # Slice UTF-8 characters in a string.
|
353 | val = cast(value.Str, UP_val)
|
354 | s = val.s
|
355 | n = len(s)
|
356 |
|
357 | if begin < 0: # Compute offset with unicode
|
358 | byte_begin = n
|
359 | num_iters = -begin
|
360 | for _ in xrange(num_iters):
|
361 | byte_begin = string_ops.PreviousUtf8Char(s, byte_begin)
|
362 | else:
|
363 | byte_begin = string_ops.AdvanceUtf8Chars(s, begin, 0)
|
364 |
|
365 | if has_length:
|
366 | if length < 0: # Compute offset with unicode
|
367 | # Confusing: this is a POSITION
|
368 | byte_end = n
|
369 | num_iters = -length
|
370 | for _ in xrange(num_iters):
|
371 | byte_end = string_ops.PreviousUtf8Char(s, byte_end)
|
372 | else:
|
373 | byte_end = string_ops.AdvanceUtf8Chars(
|
374 | s, length, byte_begin)
|
375 | else:
|
376 | byte_end = len(s)
|
377 |
|
378 | substr = s[byte_begin:byte_end]
|
379 | result = value.Str(substr) # type: value_t
|
380 |
|
381 | elif case(value_e.BashArray): # Slice array entries.
|
382 | val = cast(value.BashArray, UP_val)
|
383 | # NOTE: This error is ALWAYS fatal in bash. It's inconsistent with
|
384 | # strings.
|
385 | if has_length and length < 0:
|
386 | e_die("Array slice can't have negative length: %d" % length,
|
387 | loc.WordPart(part))
|
388 |
|
389 | # Quirk: "begin" for positional arguments ($@ and $*) counts $0.
|
390 | if arg0_val is not None:
|
391 | orig = [arg0_val.s]
|
392 | orig.extend(val.strs)
|
393 | else:
|
394 | orig = val.strs
|
395 |
|
396 | n = len(orig)
|
397 | if begin < 0:
|
398 | i = n + begin # ${@:-3} starts counts from the end
|
399 | else:
|
400 | i = begin
|
401 | strs = [] # type: List[str]
|
402 | count = 0
|
403 | while i < n:
|
404 | if has_length and count == length: # length could be 0
|
405 | break
|
406 | s = orig[i]
|
407 | if s is not None: # Unset elements don't count towards the length
|
408 | strs.append(s)
|
409 | count += 1
|
410 | i += 1
|
411 |
|
412 | result = value.BashArray(strs)
|
413 |
|
414 | elif case(value_e.BashAssoc):
|
415 | e_die("Can't slice associative arrays", loc.WordPart(part))
|
416 |
|
417 | else:
|
418 | raise error.TypeErr(val, 'Slice op expected Str or BashArray',
|
419 | loc.WordPart(part))
|
420 |
|
421 | return result
|
422 |
|
423 |
|
424 | class StringWordEvaluator(object):
|
425 | """Interface used by ArithEvaluator / BoolEvaluator"""
|
426 |
|
427 | def __init__(self):
|
428 | # type: () -> None
|
429 | """Empty constructor for mycpp."""
|
430 | pass
|
431 |
|
432 | def EvalWordToString(self, w, eval_flags=0):
|
433 | # type: (word_t, int) -> value.Str
|
434 | raise NotImplementedError()
|
435 |
|
436 |
|
437 | def _GetDollarHyphen(exec_opts):
|
438 | # type: (optview.Exec) -> str
|
439 | chars = [] # type: List[str]
|
440 | if exec_opts.interactive():
|
441 | chars.append('i')
|
442 |
|
443 | if exec_opts.errexit():
|
444 | chars.append('e')
|
445 | if exec_opts.noglob():
|
446 | chars.append('f')
|
447 | if exec_opts.noexec():
|
448 | chars.append('n')
|
449 | if exec_opts.nounset():
|
450 | chars.append('u')
|
451 | # NO letter for pipefail?
|
452 | if exec_opts.xtrace():
|
453 | chars.append('x')
|
454 | if exec_opts.noclobber():
|
455 | chars.append('C')
|
456 |
|
457 | # bash has:
|
458 | # - c for sh -c, i for sh -i (mksh also has this)
|
459 | # - h for hashing (mksh also has this)
|
460 | # - B for brace expansion
|
461 | return ''.join(chars)
|
462 |
|
463 |
|
464 | class TildeEvaluator(object):
|
465 |
|
466 | def __init__(self, mem, exec_opts):
|
467 | # type: (Mem, optview.Exec) -> None
|
468 | self.mem = mem
|
469 | self.exec_opts = exec_opts
|
470 |
|
471 | def GetMyHomeDir(self):
|
472 | # type: () -> Optional[str]
|
473 | """Consult $HOME first, and then make a libc call.
|
474 |
|
475 | Important: the libc call can FAIL, which is why we prefer $HOME. See issue
|
476 | #1578.
|
477 | """
|
478 | # First look up the HOME var, then ask the OS. This is what bash does.
|
479 | val = self.mem.GetValue('HOME')
|
480 | UP_val = val
|
481 | if val.tag() == value_e.Str:
|
482 | val = cast(value.Str, UP_val)
|
483 | return val.s
|
484 | return pyos.GetMyHomeDir()
|
485 |
|
486 | def Eval(self, part):
|
487 | # type: (word_part.TildeSub) -> str
|
488 | """Evaluates ~ and ~user, given a Lit_TildeLike token."""
|
489 |
|
490 | if part.user_name is None:
|
491 | result = self.GetMyHomeDir()
|
492 | else:
|
493 | result = pyos.GetHomeDir(part.user_name)
|
494 |
|
495 | if result is None:
|
496 | if self.exec_opts.strict_tilde():
|
497 | e_die("Error expanding tilde (e.g. invalid user)", part.left)
|
498 | else:
|
499 | # Return ~ or ~user literally
|
500 | result = '~'
|
501 | if part.user_name is not None:
|
502 | result = result + part.user_name # mycpp doesn't have +=
|
503 |
|
504 | return result
|
505 |
|
506 |
|
507 | class AbstractWordEvaluator(StringWordEvaluator):
|
508 | """Abstract base class for word evaluators.
|
509 |
|
510 | Public entry points:
|
511 | EvalWordToString EvalForPlugin EvalRhsWord
|
512 | EvalWordSequence EvalWordSequence2
|
513 | """
|
514 |
|
515 | def __init__(
|
516 | self,
|
517 | mem, # type: state.Mem
|
518 | exec_opts, # type: optview.Exec
|
519 | mutable_opts, # type: state.MutableOpts
|
520 | tilde_ev, # type: TildeEvaluator
|
521 | splitter, # type: SplitContext
|
522 | errfmt, # type: ui.ErrorFormatter
|
523 | ):
|
524 | # type: (...) -> None
|
525 | self.arith_ev = None # type: sh_expr_eval.ArithEvaluator
|
526 | self.expr_ev = None # type: expr_eval.ExprEvaluator
|
527 | self.prompt_ev = None # type: prompt.Evaluator
|
528 |
|
529 | self.unsafe_arith = None # type: sh_expr_eval.UnsafeArith
|
530 |
|
531 | self.tilde_ev = tilde_ev
|
532 |
|
533 | self.mem = mem # for $HOME, $1, etc.
|
534 | self.exec_opts = exec_opts # for nounset
|
535 | self.mutable_opts = mutable_opts # for _allow_command_sub
|
536 | self.splitter = splitter
|
537 | self.errfmt = errfmt
|
538 |
|
539 | self.globber = glob_.Globber(exec_opts)
|
540 |
|
541 | def CheckCircularDeps(self):
|
542 | # type: () -> None
|
543 | raise NotImplementedError()
|
544 |
|
545 | def _EvalCommandSub(self, cs_part, quoted):
|
546 | # type: (CommandSub, bool) -> part_value_t
|
547 | """Abstract since it has a side effect."""
|
548 | raise NotImplementedError()
|
549 |
|
550 | def _EvalProcessSub(self, cs_part):
|
551 | # type: (CommandSub) -> part_value_t
|
552 | """Abstract since it has a side effect."""
|
553 | raise NotImplementedError()
|
554 |
|
555 | def _EvalVarNum(self, var_num):
|
556 | # type: (int) -> value_t
|
557 | assert var_num >= 0
|
558 | return self.mem.GetArgNum(var_num)
|
559 |
|
560 | def _EvalSpecialVar(self, op_id, quoted, vsub_state):
|
561 | # type: (int, bool, VarSubState) -> value_t
|
562 | """Evaluate $?
|
563 |
|
564 | and so forth
|
565 | """
|
566 | # $@ is special -- it need to know whether it is in a double quoted
|
567 | # context.
|
568 | #
|
569 | # - If it's $@ in a double quoted context, return an ARRAY.
|
570 | # - If it's $@ in a normal context, return a STRING, which then will be
|
571 | # subject to splitting.
|
572 |
|
573 | if op_id in (Id.VSub_At, Id.VSub_Star):
|
574 | argv = self.mem.GetArgv()
|
575 | val = value.BashArray(argv) # type: value_t
|
576 | if op_id == Id.VSub_At:
|
577 | # "$@" evaluates to an array, $@ should be decayed
|
578 | vsub_state.join_array = not quoted
|
579 | else: # $* "$*" are both decayed
|
580 | vsub_state.join_array = True
|
581 |
|
582 | elif op_id == Id.VSub_Hyphen:
|
583 | val = value.Str(_GetDollarHyphen(self.exec_opts))
|
584 |
|
585 | else:
|
586 | val = self.mem.GetSpecialVar(op_id)
|
587 |
|
588 | return val
|
589 |
|
590 | def _ApplyTestOp(
|
591 | self,
|
592 | val, # type: value_t
|
593 | op, # type: suffix_op.Unary
|
594 | quoted, # type: bool
|
595 | part_vals, # type: Optional[List[part_value_t]]
|
596 | vtest_place, # type: VTestPlace
|
597 | blame_token, # type: Token
|
598 | ):
|
599 | # type: (...) -> bool
|
600 | """
|
601 | Returns:
|
602 | Whether part_vals was mutated
|
603 |
|
604 | ${a:-} returns part_value[]
|
605 | ${a:+} returns part_value[]
|
606 | ${a:?error} returns error word?
|
607 | ${a:=} returns part_value[] but also needs self.mem for side effects.
|
608 |
|
609 | So I guess it should return part_value[], and then a flag for raising an
|
610 | error, and then a flag for assigning it?
|
611 | The original BracedVarSub will have the name.
|
612 |
|
613 | Example of needing multiple part_value[]
|
614 |
|
615 | echo X-${a:-'def'"ault"}-X
|
616 |
|
617 | We return two part values from the BracedVarSub. Also consider:
|
618 |
|
619 | echo ${a:-x"$@"x}
|
620 | """
|
621 | eval_flags = IS_SUBST
|
622 | if quoted:
|
623 | eval_flags |= QUOTED
|
624 |
|
625 | tok = op.op
|
626 | # NOTE: Splicing part_values is necessary because of code like
|
627 | # ${undef:-'a b' c 'd # e'}. Each part_value can have a different
|
628 | # do_glob/do_elide setting.
|
629 | UP_val = val
|
630 | with tagswitch(val) as case:
|
631 | if case(value_e.Undef):
|
632 | is_falsey = True
|
633 |
|
634 | elif case(value_e.Str):
|
635 | val = cast(value.Str, UP_val)
|
636 | if tok.id in (Id.VTest_ColonHyphen, Id.VTest_ColonEquals,
|
637 | Id.VTest_ColonQMark, Id.VTest_ColonPlus):
|
638 | is_falsey = len(val.s) == 0
|
639 | else:
|
640 | is_falsey = False
|
641 |
|
642 | elif case(value_e.BashArray):
|
643 | val = cast(value.BashArray, UP_val)
|
644 | # TODO: allow undefined
|
645 | is_falsey = len(val.strs) == 0
|
646 |
|
647 | elif case(value_e.BashAssoc):
|
648 | val = cast(value.BashAssoc, UP_val)
|
649 | is_falsey = len(val.d) == 0
|
650 |
|
651 | else:
|
652 | # value.Eggex, etc. are all false
|
653 | is_falsey = False
|
654 |
|
655 | if tok.id in (Id.VTest_ColonHyphen, Id.VTest_Hyphen):
|
656 | if is_falsey:
|
657 | self._EvalRhsWordToParts(op.arg_word, part_vals, eval_flags)
|
658 | return True
|
659 | else:
|
660 | return False
|
661 |
|
662 | # Inverse of the above.
|
663 | elif tok.id in (Id.VTest_ColonPlus, Id.VTest_Plus):
|
664 | if is_falsey:
|
665 | return False
|
666 | else:
|
667 | self._EvalRhsWordToParts(op.arg_word, part_vals, eval_flags)
|
668 | return True
|
669 |
|
670 | # Splice and assign
|
671 | elif tok.id in (Id.VTest_ColonEquals, Id.VTest_Equals):
|
672 | if is_falsey:
|
673 | # Collect new part vals.
|
674 | assign_part_vals = [] # type: List[part_value_t]
|
675 | self._EvalRhsWordToParts(op.arg_word, assign_part_vals,
|
676 | eval_flags)
|
677 | # Append them to out param AND return them.
|
678 | part_vals.extend(assign_part_vals)
|
679 |
|
680 | if vtest_place.name is None:
|
681 | # TODO: error context
|
682 | e_die("Can't assign to special variable")
|
683 | else:
|
684 | # NOTE: This decays arrays too! 'shopt -s strict_array' could
|
685 | # avoid it.
|
686 | rhs_str = _DecayPartValuesToString(
|
687 | assign_part_vals, self.splitter.GetJoinChar())
|
688 | if vtest_place.index is None: # using None when no index
|
689 | lval = location.LName(
|
690 | vtest_place.name) # type: sh_lvalue_t
|
691 | else:
|
692 | var_name = vtest_place.name
|
693 | var_index = vtest_place.index
|
694 | UP_var_index = var_index
|
695 |
|
696 | with tagswitch(var_index) as case:
|
697 | if case(a_index_e.Int):
|
698 | var_index = cast(a_index.Int, UP_var_index)
|
699 | lval = sh_lvalue.Indexed(
|
700 | var_name, var_index.i, loc.Missing)
|
701 | elif case(a_index_e.Str):
|
702 | var_index = cast(a_index.Str, UP_var_index)
|
703 | lval = sh_lvalue.Keyed(var_name, var_index.s,
|
704 | loc.Missing)
|
705 | else:
|
706 | raise AssertionError()
|
707 |
|
708 | state.OshLanguageSetValue(self.mem, lval,
|
709 | value.Str(rhs_str))
|
710 | return True
|
711 |
|
712 | else:
|
713 | return False
|
714 |
|
715 | elif tok.id in (Id.VTest_ColonQMark, Id.VTest_QMark):
|
716 | if is_falsey:
|
717 | # The arg is the error message
|
718 | error_part_vals = [] # type: List[part_value_t]
|
719 | self._EvalRhsWordToParts(op.arg_word, error_part_vals,
|
720 | eval_flags)
|
721 | error_str = _DecayPartValuesToString(
|
722 | error_part_vals, self.splitter.GetJoinChar())
|
723 |
|
724 | #
|
725 | # Display fancy/helpful error
|
726 | #
|
727 | if vtest_place.name is None:
|
728 | var_name = '???'
|
729 | else:
|
730 | var_name = vtest_place.name
|
731 |
|
732 | if 0:
|
733 | # This hint is nice, but looks too noisy for now
|
734 | op_str = lexer.LazyStr(tok)
|
735 | if tok.id == Id.VTest_ColonQMark:
|
736 | why = 'empty or unset'
|
737 | else:
|
738 | why = 'unset'
|
739 |
|
740 | self.errfmt.Print_(
|
741 | "Hint: operator %s means a variable can't be %s" %
|
742 | (op_str, why), tok)
|
743 |
|
744 | if val.tag() == value_e.Undef:
|
745 | actual = 'unset'
|
746 | else:
|
747 | actual = 'empty'
|
748 |
|
749 | if len(error_str):
|
750 | suffix = ': %r' % error_str
|
751 | else:
|
752 | suffix = ''
|
753 | e_die("Var %s is %s%s" % (var_name, actual, suffix),
|
754 | blame_token)
|
755 |
|
756 | else:
|
757 | return False
|
758 |
|
759 | else:
|
760 | raise AssertionError(tok.id)
|
761 |
|
762 | def _Length(self, val, token):
|
763 | # type: (value_t, Token) -> int
|
764 | """Returns the length of the value, for ${#var}"""
|
765 | UP_val = val
|
766 | with tagswitch(val) as case:
|
767 | if case(value_e.Str):
|
768 | val = cast(value.Str, UP_val)
|
769 | # NOTE: Whether bash counts bytes or chars is affected by LANG
|
770 | # environment variables.
|
771 | # Should we respect that, or another way to select? set -o
|
772 | # count-bytes?
|
773 |
|
774 | # https://stackoverflow.com/questions/17368067/length-of-string-in-bash
|
775 | try:
|
776 | length = string_ops.CountUtf8Chars(val.s)
|
777 | except error.Strict as e:
|
778 | # Add this here so we don't have to add it so far down the stack.
|
779 | # TODO: It's better to show BOTH this CODE an the actual DATA
|
780 | # somehow.
|
781 | e.location = token
|
782 |
|
783 | if self.exec_opts.strict_word_eval():
|
784 | raise
|
785 | else:
|
786 | # NOTE: Doesn't make the command exit with 1; it just returns a
|
787 | # length of -1.
|
788 | self.errfmt.PrettyPrintError(e, prefix='warning: ')
|
789 | return -1
|
790 |
|
791 | elif case(value_e.BashArray):
|
792 | val = cast(value.BashArray, UP_val)
|
793 | # There can be empty placeholder values in the array.
|
794 | length = 0
|
795 | for s in val.strs:
|
796 | if s is not None:
|
797 | length += 1
|
798 |
|
799 | elif case(value_e.BashAssoc):
|
800 | val = cast(value.BashAssoc, UP_val)
|
801 | length = len(val.d)
|
802 |
|
803 | else:
|
804 | raise error.TypeErr(
|
805 | val, "Length op expected Str, BashArray, BashAssoc", token)
|
806 |
|
807 | return length
|
808 |
|
809 | def _Keys(self, val, token):
|
810 | # type: (value_t, Token) -> value_t
|
811 | """Return keys of a container, for ${!array[@]}"""
|
812 |
|
813 | UP_val = val
|
814 | with tagswitch(val) as case:
|
815 | if case(value_e.BashArray):
|
816 | val = cast(value.BashArray, UP_val)
|
817 | # translation issue: tuple indices not supported in list comprehensions
|
818 | #indices = [str(i) for i, s in enumerate(val.strs) if s is not None]
|
819 | indices = [] # type: List[str]
|
820 | for i, s in enumerate(val.strs):
|
821 | if s is not None:
|
822 | indices.append(str(i))
|
823 | return value.BashArray(indices)
|
824 |
|
825 | elif case(value_e.BashAssoc):
|
826 | val = cast(value.BashAssoc, UP_val)
|
827 | assert val.d is not None # for MyPy, so it's not Optional[]
|
828 |
|
829 | # BUG: Keys aren't ordered according to insertion!
|
830 | return value.BashArray(val.d.keys())
|
831 |
|
832 | else:
|
833 | raise error.TypeErr(val, 'Keys op expected Str', token)
|
834 |
|
835 | def _EvalVarRef(self, val, blame_tok, quoted, vsub_state, vtest_place):
|
836 | # type: (value_t, Token, bool, VarSubState, VTestPlace) -> value_t
|
837 | """Handles indirect expansion like ${!var} and ${!a[0]}.
|
838 |
|
839 | Args:
|
840 | blame_tok: 'foo' for ${!foo}
|
841 | """
|
842 | UP_val = val
|
843 | with tagswitch(val) as case:
|
844 | if case(value_e.Undef):
|
845 | return value.Undef # ${!undef} is just weird bash behavior
|
846 |
|
847 | elif case(value_e.Str):
|
848 | val = cast(value.Str, UP_val)
|
849 | bvs_part = self.unsafe_arith.ParseVarRef(val.s, blame_tok)
|
850 | return self._VarRefValue(bvs_part, quoted, vsub_state,
|
851 | vtest_place)
|
852 |
|
853 | elif case(value_e.BashArray): # caught earlier but OK
|
854 | e_die('Indirect expansion of array')
|
855 |
|
856 | elif case(value_e.BashAssoc): # caught earlier but OK
|
857 | e_die('Indirect expansion of assoc array')
|
858 |
|
859 | else:
|
860 | raise error.TypeErr(val, 'Var Ref op expected Str', blame_tok)
|
861 |
|
862 | def _ApplyUnarySuffixOp(self, val, op):
|
863 | # type: (value_t, suffix_op.Unary) -> value_t
|
864 | assert val.tag() != value_e.Undef
|
865 |
|
866 | op_kind = consts.GetKind(op.op.id)
|
867 |
|
868 | if op_kind == Kind.VOp1:
|
869 | # NOTE: glob syntax is supported in ^ ^^ , ,, ! As well as % %% # ##.
|
870 | # Detect has_extglob so that DoUnarySuffixOp doesn't use the fast
|
871 | # shortcut for constant strings.
|
872 | arg_val, has_extglob = self.EvalWordToPattern(op.arg_word)
|
873 | assert arg_val.tag() == value_e.Str
|
874 |
|
875 | UP_val = val
|
876 | with tagswitch(val) as case:
|
877 | if case(value_e.Str):
|
878 | val = cast(value.Str, UP_val)
|
879 | s = string_ops.DoUnarySuffixOp(val.s, op.op, arg_val.s,
|
880 | has_extglob)
|
881 | #log('%r %r -> %r', val.s, arg_val.s, s)
|
882 | new_val = value.Str(s) # type: value_t
|
883 |
|
884 | elif case(value_e.BashArray):
|
885 | val = cast(value.BashArray, UP_val)
|
886 | # ${a[@]#prefix} is VECTORIZED on arrays. YSH should have this too.
|
887 | strs = [] # type: List[str]
|
888 | for s in val.strs:
|
889 | if s is not None:
|
890 | strs.append(
|
891 | string_ops.DoUnarySuffixOp(
|
892 | s, op.op, arg_val.s, has_extglob))
|
893 | new_val = value.BashArray(strs)
|
894 |
|
895 | elif case(value_e.BashAssoc):
|
896 | val = cast(value.BashAssoc, UP_val)
|
897 | strs = []
|
898 | for s in val.d.values():
|
899 | strs.append(
|
900 | string_ops.DoUnarySuffixOp(s, op.op, arg_val.s,
|
901 | has_extglob))
|
902 | new_val = value.BashArray(strs)
|
903 |
|
904 | else:
|
905 | raise error.TypeErr(
|
906 | val, 'Unary op expected Str, BashArray, BashAssoc',
|
907 | op.op)
|
908 |
|
909 | else:
|
910 | raise AssertionError(Kind_str(op_kind))
|
911 |
|
912 | return new_val
|
913 |
|
914 | def _PatSub(self, val, op):
|
915 | # type: (value_t, suffix_op.PatSub) -> value_t
|
916 |
|
917 | pat_val, has_extglob = self.EvalWordToPattern(op.pat)
|
918 | # Extended globs aren't supported because we only translate * ? etc. to
|
919 | # ERE. I don't think there's a straightforward translation from !(*.py) to
|
920 | # ERE! You would need an engine that supports negation? (Derivatives?)
|
921 | if has_extglob:
|
922 | e_die('extended globs not supported in ${x//GLOB/}', op.pat)
|
923 |
|
924 | if op.replace:
|
925 | replace_val = self.EvalRhsWord(op.replace)
|
926 | # Can't have an array, so must be a string
|
927 | assert replace_val.tag() == value_e.Str, replace_val
|
928 | replace_str = cast(value.Str, replace_val).s
|
929 | else:
|
930 | replace_str = ''
|
931 |
|
932 | # note: doesn't support self.exec_opts.extglob()!
|
933 | regex, warnings = glob_.GlobToERE(pat_val.s)
|
934 | if len(warnings):
|
935 | # TODO:
|
936 | # - Add 'shopt -s strict_glob' mode and expose warnings.
|
937 | # "Glob is not in CANONICAL FORM".
|
938 | # - Propagate location info back to the 'op.pat' word.
|
939 | pass
|
940 | #log('regex %r', regex)
|
941 | replacer = string_ops.GlobReplacer(regex, replace_str, op.slash_tok)
|
942 |
|
943 | with tagswitch(val) as case2:
|
944 | if case2(value_e.Str):
|
945 | str_val = cast(value.Str, val)
|
946 | s = replacer.Replace(str_val.s, op)
|
947 | val = value.Str(s)
|
948 |
|
949 | elif case2(value_e.BashArray):
|
950 | array_val = cast(value.BashArray, val)
|
951 | strs = [] # type: List[str]
|
952 | for s in array_val.strs:
|
953 | if s is not None:
|
954 | strs.append(replacer.Replace(s, op))
|
955 | val = value.BashArray(strs)
|
956 |
|
957 | elif case2(value_e.BashAssoc):
|
958 | assoc_val = cast(value.BashAssoc, val)
|
959 | strs = []
|
960 | for s in assoc_val.d.values():
|
961 | strs.append(replacer.Replace(s, op))
|
962 | val = value.BashArray(strs)
|
963 |
|
964 | else:
|
965 | raise error.TypeErr(
|
966 | val, 'Pat Sub op expected Str, BashArray, BashAssoc',
|
967 | op.slash_tok)
|
968 |
|
969 | return val
|
970 |
|
971 | def _Slice(self, val, op, var_name, part):
|
972 | # type: (value_t, suffix_op.Slice, Optional[str], BracedVarSub) -> value_t
|
973 |
|
974 | begin = self.arith_ev.EvalToInt(op.begin)
|
975 |
|
976 | # Note: bash allows lengths to be negative (with odd semantics), but
|
977 | # we don't allow that right now.
|
978 | has_length = False
|
979 | length = -1
|
980 | if op.length:
|
981 | has_length = True
|
982 | length = self.arith_ev.EvalToInt(op.length)
|
983 |
|
984 | try:
|
985 | arg0_val = None # type: value.Str
|
986 | if var_name is None: # $* or $@
|
987 | arg0_val = self.mem.GetArg0()
|
988 | val = _PerformSlice(val, begin, length, has_length, part, arg0_val)
|
989 | except error.Strict as e:
|
990 | if self.exec_opts.strict_word_eval():
|
991 | raise
|
992 | else:
|
993 | self.errfmt.PrettyPrintError(e, prefix='warning: ')
|
994 | with tagswitch(val) as case2:
|
995 | if case2(value_e.Str):
|
996 | val = value.Str('')
|
997 | elif case2(value_e.BashArray):
|
998 | val = value.BashArray([])
|
999 | else:
|
1000 | raise NotImplementedError()
|
1001 | return val
|
1002 |
|
1003 | def _Nullary(self, val, op, var_name):
|
1004 | # type: (value_t, Token, Optional[str]) -> Tuple[value.Str, bool]
|
1005 |
|
1006 | UP_val = val
|
1007 | quoted2 = False
|
1008 | op_id = op.id
|
1009 | if op_id == Id.VOp0_P:
|
1010 | with tagswitch(val) as case:
|
1011 | if case(value_e.Str):
|
1012 | str_val = cast(value.Str, UP_val)
|
1013 | prompt = self.prompt_ev.EvalPrompt(str_val)
|
1014 | # readline gets rid of these, so we should too.
|
1015 | p = prompt.replace('\x01', '').replace('\x02', '')
|
1016 | result = value.Str(p)
|
1017 | else:
|
1018 | e_die("Can't use @P on %s" % ui.ValType(val), op)
|
1019 |
|
1020 | elif op_id == Id.VOp0_Q:
|
1021 | with tagswitch(val) as case:
|
1022 | if case(value_e.Str):
|
1023 | str_val = cast(value.Str, UP_val)
|
1024 | result = value.Str(j8_lite.MaybeShellEncode(str_val.s))
|
1025 | # oddly, 'echo ${x@Q}' is equivalent to 'echo "${x@Q}"' in
|
1026 | # bash
|
1027 | quoted2 = True
|
1028 | elif case(value_e.BashArray):
|
1029 | array_val = cast(value.BashArray, UP_val)
|
1030 |
|
1031 | # TODO: should use fastfunc.ShellEncode
|
1032 | tmp = [j8_lite.MaybeShellEncode(s) for s in array_val.strs]
|
1033 | result = value.Str(' '.join(tmp))
|
1034 | else:
|
1035 | e_die("Can't use @Q on %s" % ui.ValType(val), op)
|
1036 |
|
1037 | elif op_id == Id.VOp0_a:
|
1038 | # We're ONLY simluating -a and -A, not -r -x -n for now. See
|
1039 | # spec/ble-idioms.test.sh.
|
1040 | chars = [] # type: List[str]
|
1041 | with tagswitch(val) as case:
|
1042 | if case(value_e.BashArray):
|
1043 | chars.append('a')
|
1044 | elif case(value_e.BashAssoc):
|
1045 | chars.append('A')
|
1046 |
|
1047 | if var_name is not None: # e.g. ${?@a} is allowed
|
1048 | cell = self.mem.GetCell(var_name)
|
1049 | if cell:
|
1050 | if cell.readonly:
|
1051 | chars.append('r')
|
1052 | if cell.exported:
|
1053 | chars.append('x')
|
1054 | if cell.nameref:
|
1055 | chars.append('n')
|
1056 |
|
1057 | result = value.Str(''.join(chars))
|
1058 |
|
1059 | else:
|
1060 | e_die('Var op %r not implemented' % lexer.TokenVal(op), op)
|
1061 |
|
1062 | return result, quoted2
|
1063 |
|
1064 | def _WholeArray(self, val, part, quoted, vsub_state):
|
1065 | # type: (value_t, BracedVarSub, bool, VarSubState) -> value_t
|
1066 | op_id = cast(bracket_op.WholeArray, part.bracket_op).op_id
|
1067 |
|
1068 | if op_id == Id.Lit_At:
|
1069 | vsub_state.join_array = not quoted # ${a[@]} decays but "${a[@]}" doesn't
|
1070 | UP_val = val
|
1071 | with tagswitch(val) as case2:
|
1072 | if case2(value_e.Undef):
|
1073 | if not vsub_state.has_test_op:
|
1074 | val = self._EmptyBashArrayOrError(part.token)
|
1075 | elif case2(value_e.Str):
|
1076 | if self.exec_opts.strict_array():
|
1077 | e_die("Can't index string with @", loc.WordPart(part))
|
1078 | elif case2(value_e.BashArray):
|
1079 | pass # no-op
|
1080 |
|
1081 | elif op_id == Id.Arith_Star:
|
1082 | vsub_state.join_array = True # both ${a[*]} and "${a[*]}" decay
|
1083 | UP_val = val
|
1084 | with tagswitch(val) as case2:
|
1085 | if case2(value_e.Undef):
|
1086 | if not vsub_state.has_test_op:
|
1087 | val = self._EmptyBashArrayOrError(part.token)
|
1088 | elif case2(value_e.Str):
|
1089 | if self.exec_opts.strict_array():
|
1090 | e_die("Can't index string with *", loc.WordPart(part))
|
1091 | elif case2(value_e.BashArray):
|
1092 | pass # no-op
|
1093 |
|
1094 | else:
|
1095 | raise AssertionError(op_id) # unknown
|
1096 |
|
1097 | return val
|
1098 |
|
1099 | def _ArrayIndex(self, val, part, vtest_place):
|
1100 | # type: (value_t, BracedVarSub, VTestPlace) -> value_t
|
1101 | """Process a numeric array index like ${a[i+1]}"""
|
1102 | anode = cast(bracket_op.ArrayIndex, part.bracket_op).expr
|
1103 |
|
1104 | UP_val = val
|
1105 | with tagswitch(val) as case2:
|
1106 | if case2(value_e.Undef):
|
1107 | pass # it will be checked later
|
1108 |
|
1109 | elif case2(value_e.Str):
|
1110 | # Bash treats any string as an array, so we can't add our own
|
1111 | # behavior here without making valid OSH invalid bash.
|
1112 | e_die("Can't index string %r with integer" % part.var_name,
|
1113 | part.token)
|
1114 |
|
1115 | elif case2(value_e.BashArray):
|
1116 | array_val = cast(value.BashArray, UP_val)
|
1117 | index = self.arith_ev.EvalToInt(anode)
|
1118 | vtest_place.index = a_index.Int(index)
|
1119 |
|
1120 | s = GetArrayItem(array_val.strs, index)
|
1121 |
|
1122 | if s is None:
|
1123 | val = value.Undef
|
1124 | else:
|
1125 | val = value.Str(s)
|
1126 |
|
1127 | elif case2(value_e.BashAssoc):
|
1128 | assoc_val = cast(value.BashAssoc, UP_val)
|
1129 | # Location could also be attached to bracket_op? But
|
1130 | # arith_expr.VarSub works OK too
|
1131 | key = self.arith_ev.EvalWordToString(
|
1132 | anode, blame_loc=location.TokenForArith(anode))
|
1133 |
|
1134 | vtest_place.index = a_index.Str(key) # out param
|
1135 | s = assoc_val.d.get(key)
|
1136 |
|
1137 | if s is None:
|
1138 | val = value.Undef
|
1139 | else:
|
1140 | val = value.Str(s)
|
1141 |
|
1142 | else:
|
1143 | raise error.TypeErr(val,
|
1144 | 'Index op expected BashArray, BashAssoc',
|
1145 | loc.WordPart(part))
|
1146 |
|
1147 | return val
|
1148 |
|
1149 | def _EvalDoubleQuoted(self, parts, part_vals):
|
1150 | # type: (List[word_part_t], List[part_value_t]) -> None
|
1151 | """Evaluate parts of a DoubleQuoted part.
|
1152 |
|
1153 | Args:
|
1154 | part_vals: output param to append to.
|
1155 | """
|
1156 | # Example of returning array:
|
1157 | # $ a=(1 2); b=(3); $ c=(4 5)
|
1158 | # $ argv "${a[@]}${b[@]}${c[@]}"
|
1159 | # ['1', '234', '5']
|
1160 | #
|
1161 | # Example of multiple parts
|
1162 | # $ argv "${a[@]}${undef[@]:-${c[@]}}"
|
1163 | # ['1', '24', '5']
|
1164 |
|
1165 | # Special case for "". The parser outputs (DoubleQuoted []), instead
|
1166 | # of (DoubleQuoted [Literal '']). This is better but it means we
|
1167 | # have to check for it.
|
1168 | if len(parts) == 0:
|
1169 | v = Piece('', True, False)
|
1170 | part_vals.append(v)
|
1171 | return
|
1172 |
|
1173 | for p in parts:
|
1174 | self._EvalWordPart(p, part_vals, QUOTED)
|
1175 |
|
1176 | def EvalDoubleQuotedToString(self, dq_part):
|
1177 | # type: (DoubleQuoted) -> str
|
1178 | """For double quoted strings in YSH expressions.
|
1179 |
|
1180 | Example: var x = "$foo-${foo}"
|
1181 | """
|
1182 | part_vals = [] # type: List[part_value_t]
|
1183 | self._EvalDoubleQuoted(dq_part.parts, part_vals)
|
1184 | return self._ConcatPartVals(part_vals, dq_part.left)
|
1185 |
|
1186 | def _DecayArray(self, val):
|
1187 | # type: (value.BashArray) -> value.Str
|
1188 | """Decay $* to a string."""
|
1189 | assert val.tag() == value_e.BashArray, val
|
1190 | sep = self.splitter.GetJoinChar()
|
1191 | tmp = [s for s in val.strs if s is not None]
|
1192 | return value.Str(sep.join(tmp))
|
1193 |
|
1194 | def _EmptyStrOrError(self, val, token):
|
1195 | # type: (value_t, Token) -> value_t
|
1196 | if val.tag() != value_e.Undef:
|
1197 | return val
|
1198 |
|
1199 | if not self.exec_opts.nounset():
|
1200 | return value.Str('')
|
1201 |
|
1202 | tok_str = lexer.TokenVal(token)
|
1203 | name = tok_str[1:] if tok_str.startswith('$') else tok_str
|
1204 | e_die('Undefined variable %r' % name, token)
|
1205 |
|
1206 | def _EmptyBashArrayOrError(self, token):
|
1207 | # type: (Token) -> value_t
|
1208 | assert token is not None
|
1209 | if self.exec_opts.nounset():
|
1210 | e_die('Undefined array %r' % lexer.TokenVal(token), token)
|
1211 | else:
|
1212 | return value.BashArray([])
|
1213 |
|
1214 | def _EvalBracketOp(self, val, part, quoted, vsub_state, vtest_place):
|
1215 | # type: (value_t, BracedVarSub, bool, VarSubState, VTestPlace) -> value_t
|
1216 |
|
1217 | if part.bracket_op:
|
1218 | with tagswitch(part.bracket_op) as case:
|
1219 | if case(bracket_op_e.WholeArray):
|
1220 | val = self._WholeArray(val, part, quoted, vsub_state)
|
1221 |
|
1222 | elif case(bracket_op_e.ArrayIndex):
|
1223 | val = self._ArrayIndex(val, part, vtest_place)
|
1224 |
|
1225 | else:
|
1226 | raise AssertionError(part.bracket_op.tag())
|
1227 |
|
1228 | else: # no bracket op
|
1229 | var_name = vtest_place.name
|
1230 | if (var_name is not None and
|
1231 | val.tag() in (value_e.BashArray, value_e.BashAssoc) and
|
1232 | not vsub_state.is_type_query):
|
1233 | if ShouldArrayDecay(var_name, self.exec_opts,
|
1234 | not (part.prefix_op or part.suffix_op)):
|
1235 | # for ${BASH_SOURCE}, etc.
|
1236 | val = DecayArray(val)
|
1237 | else:
|
1238 | e_die(
|
1239 | "Array %r can't be referred to as a scalar (without @ or *)"
|
1240 | % var_name, loc.WordPart(part))
|
1241 |
|
1242 | return val
|
1243 |
|
1244 | def _VarRefValue(self, part, quoted, vsub_state, vtest_place):
|
1245 | # type: (BracedVarSub, bool, VarSubState, VTestPlace) -> value_t
|
1246 | """Duplicates some logic from _EvalBracedVarSub, but returns a
|
1247 | value_t."""
|
1248 |
|
1249 | # 1. Evaluate from (var_name, var_num, token Id) -> value
|
1250 | if part.token.id == Id.VSub_Name:
|
1251 | vtest_place.name = part.var_name
|
1252 | val = self.mem.GetValue(part.var_name)
|
1253 |
|
1254 | elif part.token.id == Id.VSub_Number:
|
1255 | var_num = int(part.var_name)
|
1256 | val = self._EvalVarNum(var_num)
|
1257 |
|
1258 | else:
|
1259 | # $* decays
|
1260 | val = self._EvalSpecialVar(part.token.id, quoted, vsub_state)
|
1261 |
|
1262 | # We don't need var_index because it's only for L-Values of test ops?
|
1263 | if self.exec_opts.eval_unsafe_arith():
|
1264 | val = self._EvalBracketOp(val, part, quoted, vsub_state,
|
1265 | vtest_place)
|
1266 | else:
|
1267 | with state.ctx_Option(self.mutable_opts,
|
1268 | [option_i._allow_command_sub], False):
|
1269 | val = self._EvalBracketOp(val, part, quoted, vsub_state,
|
1270 | vtest_place)
|
1271 |
|
1272 | return val
|
1273 |
|
1274 | def _EvalBracedVarSub(self, part, part_vals, quoted):
|
1275 | # type: (BracedVarSub, List[part_value_t], bool) -> None
|
1276 | """
|
1277 | Args:
|
1278 | part_vals: output param to append to.
|
1279 | """
|
1280 | # We have different operators that interact in a non-obvious order.
|
1281 | #
|
1282 | # 1. bracket_op: value -> value, with side effect on vsub_state
|
1283 | #
|
1284 | # 2. prefix_op
|
1285 | # a. length ${#x}: value -> value
|
1286 | # b. var ref ${!ref}: can expand to an array
|
1287 | #
|
1288 | # 3. suffix_op:
|
1289 | # a. no operator: you have a value
|
1290 | # b. Test: value -> part_value[]
|
1291 | # c. Other Suffix: value -> value
|
1292 | #
|
1293 | # 4. Process vsub_state.join_array here before returning.
|
1294 | #
|
1295 | # These cases are hard to distinguish:
|
1296 | # - ${!prefix@} prefix query
|
1297 | # - ${!array[@]} keys
|
1298 | # - ${!ref} named reference
|
1299 | # - ${!ref[0]} named reference
|
1300 | #
|
1301 | # I think we need several stages:
|
1302 | #
|
1303 | # 1. value: name, number, special, prefix query
|
1304 | # 2. bracket_op
|
1305 | # 3. prefix length -- this is TERMINAL
|
1306 | # 4. indirection? Only for some of the ! cases
|
1307 | # 5. string transformation suffix ops like ##
|
1308 | # 6. test op
|
1309 | # 7. vsub_state.join_array
|
1310 |
|
1311 | # vsub_state.join_array is for joining "${a[*]}" and unquoted ${a[@]} AFTER
|
1312 | # suffix ops are applied. If we take the length with a prefix op, the
|
1313 | # distinction is ignored.
|
1314 |
|
1315 | var_name = None # type: Optional[str] # used throughout the function
|
1316 | vtest_place = VTestPlace(var_name, None) # For ${foo=default}
|
1317 | vsub_state = VarSubState.CreateNull() # for $*, ${a[*]}, etc.
|
1318 |
|
1319 | # 1. Evaluate from (var_name, var_num, token Id) -> value
|
1320 | if part.token.id == Id.VSub_Name:
|
1321 | # Handle ${!prefix@} first, since that looks at names and not values
|
1322 | # Do NOT handle ${!A[@]@a} here!
|
1323 | if (part.prefix_op is not None and part.bracket_op is None and
|
1324 | part.suffix_op is not None and
|
1325 | part.suffix_op.tag() == suffix_op_e.Nullary):
|
1326 | nullary_op = cast(Token, part.suffix_op)
|
1327 | # ${!x@} but not ${!x@P}
|
1328 | if consts.GetKind(nullary_op.id) == Kind.VOp3:
|
1329 | names = self.mem.VarNamesStartingWith(part.var_name)
|
1330 | names.sort()
|
1331 |
|
1332 | if quoted and nullary_op.id == Id.VOp3_At:
|
1333 | part_vals.append(part_value.Array(names))
|
1334 | else:
|
1335 | sep = self.splitter.GetJoinChar()
|
1336 | part_vals.append(Piece(sep.join(names), quoted, True))
|
1337 | return # EARLY RETURN
|
1338 |
|
1339 | var_name = part.var_name
|
1340 | vtest_place.name = var_name # for _ApplyTestOp
|
1341 |
|
1342 | val = self.mem.GetValue(var_name)
|
1343 |
|
1344 | elif part.token.id == Id.VSub_Number:
|
1345 | var_num = int(part.var_name)
|
1346 | val = self._EvalVarNum(var_num)
|
1347 | else:
|
1348 | # $* decays
|
1349 | val = self._EvalSpecialVar(part.token.id, quoted, vsub_state)
|
1350 |
|
1351 | suffix_op_ = part.suffix_op
|
1352 | if suffix_op_:
|
1353 | UP_op = suffix_op_
|
1354 | with tagswitch(suffix_op_) as case:
|
1355 | if case(suffix_op_e.Nullary):
|
1356 | suffix_op_ = cast(Token, UP_op)
|
1357 |
|
1358 | # Type query ${array@a} is a STRING, not an array
|
1359 | # NOTE: ${array@Q} is ${array[0]@Q} in bash, which is different than
|
1360 | # ${array[@]@Q}
|
1361 | if suffix_op_.id == Id.VOp0_a:
|
1362 | vsub_state.is_type_query = True
|
1363 |
|
1364 | elif case(suffix_op_e.Unary):
|
1365 | suffix_op_ = cast(suffix_op.Unary, UP_op)
|
1366 |
|
1367 | # Do the _EmptyStrOrError/_EmptyBashArrayOrError up front, EXCEPT in
|
1368 | # the case of Kind.VTest
|
1369 | if consts.GetKind(suffix_op_.op.id) == Kind.VTest:
|
1370 | vsub_state.has_test_op = True
|
1371 |
|
1372 | # 2. Bracket Op
|
1373 | val = self._EvalBracketOp(val, part, quoted, vsub_state, vtest_place)
|
1374 |
|
1375 | if part.prefix_op:
|
1376 | if part.prefix_op.id == Id.VSub_Pound: # ${#var} for length
|
1377 | if not vsub_state.has_test_op: # undef -> '' BEFORE length
|
1378 | val = self._EmptyStrOrError(val, part.token)
|
1379 |
|
1380 | n = self._Length(val, part.token)
|
1381 | part_vals.append(Piece(str(n), quoted, False))
|
1382 | return # EARLY EXIT: nothing else can come after length
|
1383 |
|
1384 | elif part.prefix_op.id == Id.VSub_Bang:
|
1385 | if (part.bracket_op and
|
1386 | part.bracket_op.tag() == bracket_op_e.WholeArray):
|
1387 | if vsub_state.has_test_op:
|
1388 | # ${!a[@]-'default'} is a non-fatal runtime error in bash. Here
|
1389 | # it's fatal.
|
1390 | op_tok = cast(suffix_op.Unary, UP_op).op
|
1391 | e_die('Test operation not allowed with ${!array[@]}',
|
1392 | op_tok)
|
1393 |
|
1394 | # ${!array[@]} to get indices/keys
|
1395 | val = self._Keys(val, part.token)
|
1396 | # already set vsub_State.join_array ABOVE
|
1397 | else:
|
1398 | # Process ${!ref}. SURPRISE: ${!a[0]} is an indirect expansion unlike
|
1399 | # ${!a[@]} !
|
1400 | # ${!ref} can expand into an array if ref='array[@]'
|
1401 |
|
1402 | # Clear it now that we have a var ref
|
1403 | vtest_place.name = None
|
1404 | vtest_place.index = None
|
1405 |
|
1406 | val = self._EvalVarRef(val, part.token, quoted, vsub_state,
|
1407 | vtest_place)
|
1408 |
|
1409 | if not vsub_state.has_test_op: # undef -> '' AFTER indirection
|
1410 | val = self._EmptyStrOrError(val, part.token)
|
1411 |
|
1412 | else:
|
1413 | raise AssertionError(part.prefix_op)
|
1414 |
|
1415 | else:
|
1416 | if not vsub_state.has_test_op: # undef -> '' if no prefix op
|
1417 | val = self._EmptyStrOrError(val, part.token)
|
1418 |
|
1419 | quoted2 = False # another bit for @Q
|
1420 | if suffix_op_:
|
1421 | op = suffix_op_ # could get rid of this alias
|
1422 |
|
1423 | with tagswitch(suffix_op_) as case:
|
1424 | if case(suffix_op_e.Nullary):
|
1425 | op = cast(Token, UP_op)
|
1426 | val, quoted2 = self._Nullary(val, op, var_name)
|
1427 |
|
1428 | elif case(suffix_op_e.Unary):
|
1429 | op = cast(suffix_op.Unary, UP_op)
|
1430 | if consts.GetKind(op.op.id) == Kind.VTest:
|
1431 | if self._ApplyTestOp(val, op, quoted, part_vals,
|
1432 | vtest_place, part.token):
|
1433 | # e.g. to evaluate ${undef:-'default'}, we already appended
|
1434 | # what we need
|
1435 | return
|
1436 |
|
1437 | else:
|
1438 | # Other suffix: value -> value
|
1439 | val = self._ApplyUnarySuffixOp(val, op)
|
1440 |
|
1441 | elif case(suffix_op_e.PatSub): # PatSub, vectorized
|
1442 | op = cast(suffix_op.PatSub, UP_op)
|
1443 | val = self._PatSub(val, op)
|
1444 |
|
1445 | elif case(suffix_op_e.Slice):
|
1446 | op = cast(suffix_op.Slice, UP_op)
|
1447 | val = self._Slice(val, op, var_name, part)
|
1448 |
|
1449 | elif case(suffix_op_e.Static):
|
1450 | op = cast(suffix_op.Static, UP_op)
|
1451 | e_die('Not implemented', op.tok)
|
1452 |
|
1453 | else:
|
1454 | raise AssertionError()
|
1455 |
|
1456 | # After applying suffixes, process join_array here.
|
1457 | UP_val = val
|
1458 | if val.tag() == value_e.BashArray:
|
1459 | array_val = cast(value.BashArray, UP_val)
|
1460 | if vsub_state.join_array:
|
1461 | val = self._DecayArray(array_val)
|
1462 | else:
|
1463 | val = array_val
|
1464 |
|
1465 | # For example, ${a} evaluates to value.Str(), but we want a
|
1466 | # Piece().
|
1467 | part_val = _ValueToPartValue(val, quoted or quoted2, part)
|
1468 | part_vals.append(part_val)
|
1469 |
|
1470 | def _ConcatPartVals(self, part_vals, location):
|
1471 | # type: (List[part_value_t], loc_t) -> str
|
1472 |
|
1473 | strs = [] # type: List[str]
|
1474 | for part_val in part_vals:
|
1475 | UP_part_val = part_val
|
1476 | with tagswitch(part_val) as case:
|
1477 | if case(part_value_e.String):
|
1478 | part_val = cast(Piece, UP_part_val)
|
1479 | s = part_val.s
|
1480 |
|
1481 | elif case(part_value_e.Array):
|
1482 | part_val = cast(part_value.Array, UP_part_val)
|
1483 | if self.exec_opts.strict_array():
|
1484 | # Examples: echo f > "$@"; local foo="$@"
|
1485 | e_die("Illegal array word part (strict_array)",
|
1486 | location)
|
1487 | else:
|
1488 | # It appears to not respect IFS
|
1489 | # TODO: eliminate double join()?
|
1490 | tmp = [s for s in part_val.strs if s is not None]
|
1491 | s = ' '.join(tmp)
|
1492 |
|
1493 | else:
|
1494 | raise AssertionError()
|
1495 |
|
1496 | strs.append(s)
|
1497 |
|
1498 | return ''.join(strs)
|
1499 |
|
1500 | def EvalBracedVarSubToString(self, part):
|
1501 | # type: (BracedVarSub) -> str
|
1502 | """For double quoted strings in YSH expressions.
|
1503 |
|
1504 | Example: var x = "$foo-${foo}"
|
1505 | """
|
1506 | part_vals = [] # type: List[part_value_t]
|
1507 | self._EvalBracedVarSub(part, part_vals, False)
|
1508 | # blame ${ location
|
1509 | return self._ConcatPartVals(part_vals, part.left)
|
1510 |
|
1511 | def _EvalSimpleVarSub(self, part, part_vals, quoted):
|
1512 | # type: (SimpleVarSub, List[part_value_t], bool) -> None
|
1513 |
|
1514 | token = part.tok
|
1515 |
|
1516 | vsub_state = VarSubState.CreateNull()
|
1517 |
|
1518 | # 1. Evaluate from (var_name, var_num, Token) -> defined, value
|
1519 | if token.id == Id.VSub_DollarName:
|
1520 | var_name = lexer.LazyStr(token)
|
1521 | # TODO: Special case for LINENO
|
1522 | val = self.mem.GetValue(var_name)
|
1523 | if val.tag() in (value_e.BashArray, value_e.BashAssoc):
|
1524 | if ShouldArrayDecay(var_name, self.exec_opts):
|
1525 | # for $BASH_SOURCE, etc.
|
1526 | val = DecayArray(val)
|
1527 | else:
|
1528 | e_die(
|
1529 | "Array %r can't be referred to as a scalar (without @ or *)"
|
1530 | % var_name, token)
|
1531 |
|
1532 | elif token.id == Id.VSub_Number:
|
1533 | var_num = int(lexer.LazyStr(token))
|
1534 | val = self._EvalVarNum(var_num)
|
1535 |
|
1536 | else:
|
1537 | val = self._EvalSpecialVar(token.id, quoted, vsub_state)
|
1538 |
|
1539 | #log('SIMPLE %s', part)
|
1540 | val = self._EmptyStrOrError(val, token)
|
1541 | UP_val = val
|
1542 | if val.tag() == value_e.BashArray:
|
1543 | array_val = cast(value.BashArray, UP_val)
|
1544 | if vsub_state.join_array:
|
1545 | val = self._DecayArray(array_val)
|
1546 | else:
|
1547 | val = array_val
|
1548 |
|
1549 | v = _ValueToPartValue(val, quoted, part)
|
1550 | part_vals.append(v)
|
1551 |
|
1552 | def EvalSimpleVarSubToString(self, node):
|
1553 | # type: (SimpleVarSub) -> str
|
1554 | """For double quoted strings in YSH expressions.
|
1555 |
|
1556 | Example: var x = "$foo-${foo}"
|
1557 | """
|
1558 | part_vals = [] # type: List[part_value_t]
|
1559 | self._EvalSimpleVarSub(node, part_vals, False)
|
1560 | return self._ConcatPartVals(part_vals, node.tok)
|
1561 |
|
1562 | def _EvalExtGlob(self, part, part_vals):
|
1563 | # type: (word_part.ExtGlob, List[part_value_t]) -> None
|
1564 | """Evaluate @($x|'foo'|$(hostname)) and flatten it."""
|
1565 | op = part.op
|
1566 | if op.id == Id.ExtGlob_Comma:
|
1567 | op_str = '@('
|
1568 | else:
|
1569 | op_str = lexer.LazyStr(op)
|
1570 | # Do NOT split these.
|
1571 | part_vals.append(Piece(op_str, False, False))
|
1572 |
|
1573 | for i, w in enumerate(part.arms):
|
1574 | if i != 0:
|
1575 | part_vals.append(Piece('|', False, False)) # separator
|
1576 | # FLATTEN the tree of extglob "arms".
|
1577 | self._EvalWordToParts(w, part_vals, EXTGLOB_NESTED)
|
1578 | part_vals.append(Piece(')', False, False)) # closing )
|
1579 |
|
1580 | def _TranslateExtGlob(self, part_vals, w, glob_parts, fnmatch_parts):
|
1581 | # type: (List[part_value_t], CompoundWord, List[str], List[str]) -> None
|
1582 | """Translate a flattened WORD with an ExtGlob part to string patterns.
|
1583 |
|
1584 | We need both glob and fnmatch patterns. _EvalExtGlob does the
|
1585 | flattening.
|
1586 | """
|
1587 | for i, part_val in enumerate(part_vals):
|
1588 | UP_part_val = part_val
|
1589 | with tagswitch(part_val) as case:
|
1590 | if case(part_value_e.String):
|
1591 | part_val = cast(Piece, UP_part_val)
|
1592 | if part_val.quoted and not self.exec_opts.noglob():
|
1593 | s = glob_.GlobEscape(part_val.s)
|
1594 | else:
|
1595 | # e.g. the @( and | in @(foo|bar) aren't quoted
|
1596 | s = part_val.s
|
1597 | glob_parts.append(s)
|
1598 | fnmatch_parts.append(s) # from _EvalExtGlob()
|
1599 |
|
1600 | elif case(part_value_e.Array):
|
1601 | # Disallow array
|
1602 | e_die(
|
1603 | "Extended globs and arrays can't appear in the same word",
|
1604 | w)
|
1605 |
|
1606 | elif case(part_value_e.ExtGlob):
|
1607 | part_val = cast(part_value.ExtGlob, UP_part_val)
|
1608 | # keep appending fnmatch_parts, but repplace glob_parts with '*'
|
1609 | self._TranslateExtGlob(part_val.part_vals, w, [],
|
1610 | fnmatch_parts)
|
1611 | glob_parts.append('*')
|
1612 |
|
1613 | else:
|
1614 | raise AssertionError()
|
1615 |
|
1616 | def _EvalWordPart(self, part, part_vals, flags):
|
1617 | # type: (word_part_t, List[part_value_t], int) -> None
|
1618 | """Evaluate a word part, appending to part_vals
|
1619 |
|
1620 | Called by _EvalWordToParts, EvalWordToString, and _EvalDoubleQuoted.
|
1621 | """
|
1622 | quoted = bool(flags & QUOTED)
|
1623 | is_subst = bool(flags & IS_SUBST)
|
1624 |
|
1625 | UP_part = part
|
1626 | with tagswitch(part) as case:
|
1627 | if case(word_part_e.ShArrayLiteral):
|
1628 | part = cast(ShArrayLiteral, UP_part)
|
1629 | e_die("Unexpected array literal", loc.WordPart(part))
|
1630 | elif case(word_part_e.BashAssocLiteral):
|
1631 | part = cast(word_part.BashAssocLiteral, UP_part)
|
1632 | e_die("Unexpected associative array literal",
|
1633 | loc.WordPart(part))
|
1634 |
|
1635 | elif case(word_part_e.Literal):
|
1636 | part = cast(Token, UP_part)
|
1637 | # Split if it's in a substitution.
|
1638 | # That is: echo is not split, but ${foo:-echo} is split
|
1639 | v = Piece(lexer.LazyStr(part), quoted, is_subst)
|
1640 | part_vals.append(v)
|
1641 |
|
1642 | elif case(word_part_e.EscapedLiteral):
|
1643 | part = cast(word_part.EscapedLiteral, UP_part)
|
1644 | v = Piece(part.ch, True, False)
|
1645 | part_vals.append(v)
|
1646 |
|
1647 | elif case(word_part_e.SingleQuoted):
|
1648 | part = cast(SingleQuoted, UP_part)
|
1649 | v = Piece(part.sval, True, False)
|
1650 | part_vals.append(v)
|
1651 |
|
1652 | elif case(word_part_e.DoubleQuoted):
|
1653 | part = cast(DoubleQuoted, UP_part)
|
1654 | self._EvalDoubleQuoted(part.parts, part_vals)
|
1655 |
|
1656 | elif case(word_part_e.CommandSub):
|
1657 | part = cast(CommandSub, UP_part)
|
1658 | id_ = part.left_token.id
|
1659 | if id_ in (Id.Left_DollarParen, Id.Left_AtParen,
|
1660 | Id.Left_Backtick):
|
1661 | sv = self._EvalCommandSub(part,
|
1662 | quoted) # type: part_value_t
|
1663 |
|
1664 | elif id_ in (Id.Left_ProcSubIn, Id.Left_ProcSubOut):
|
1665 | sv = self._EvalProcessSub(part)
|
1666 |
|
1667 | else:
|
1668 | raise AssertionError(id_)
|
1669 |
|
1670 | part_vals.append(sv)
|
1671 |
|
1672 | elif case(word_part_e.SimpleVarSub):
|
1673 | part = cast(SimpleVarSub, UP_part)
|
1674 | self._EvalSimpleVarSub(part, part_vals, quoted)
|
1675 |
|
1676 | elif case(word_part_e.BracedVarSub):
|
1677 | part = cast(BracedVarSub, UP_part)
|
1678 | self._EvalBracedVarSub(part, part_vals, quoted)
|
1679 |
|
1680 | elif case(word_part_e.TildeSub):
|
1681 | part = cast(word_part.TildeSub, UP_part)
|
1682 | # We never parse a quoted string into a TildeSub.
|
1683 | assert not quoted
|
1684 | s = self.tilde_ev.Eval(part)
|
1685 | v = Piece(s, True, False) # NOT split even when unquoted!
|
1686 | part_vals.append(v)
|
1687 |
|
1688 | elif case(word_part_e.ArithSub):
|
1689 | part = cast(word_part.ArithSub, UP_part)
|
1690 | num = self.arith_ev.EvalToBigInt(part.anode)
|
1691 | v = Piece(mops.ToStr(num), quoted, not quoted)
|
1692 | part_vals.append(v)
|
1693 |
|
1694 | elif case(word_part_e.ExtGlob):
|
1695 | part = cast(word_part.ExtGlob, UP_part)
|
1696 | #if not self.exec_opts.extglob():
|
1697 | # die() # disallow at runtime? Don't just decay
|
1698 |
|
1699 | # Create a node to hold the flattened tree. The caller decides whether
|
1700 | # to pass it to fnmatch() or replace it with '*' and pass it to glob().
|
1701 | part_vals2 = [] # type: List[part_value_t]
|
1702 | self._EvalExtGlob(part, part_vals2) # flattens tree
|
1703 | part_vals.append(part_value.ExtGlob(part_vals2))
|
1704 |
|
1705 | elif case(word_part_e.BashRegexGroup):
|
1706 | part = cast(word_part.BashRegexGroup, UP_part)
|
1707 |
|
1708 | part_vals.append(Piece('(', False, False)) # not quoted
|
1709 | if part.child:
|
1710 | self._EvalWordToParts(part.child, part_vals, 0)
|
1711 | part_vals.append(Piece(')', False, False))
|
1712 |
|
1713 | elif case(word_part_e.Splice):
|
1714 | part = cast(word_part.Splice, UP_part)
|
1715 | val = self.mem.GetValue(part.var_name)
|
1716 |
|
1717 | strs = self.expr_ev.SpliceValue(val, part)
|
1718 | part_vals.append(part_value.Array(strs))
|
1719 |
|
1720 | elif case(word_part_e.ExprSub):
|
1721 | part = cast(word_part.ExprSub, UP_part)
|
1722 | part_val = self.expr_ev.EvalExprSub(part)
|
1723 | part_vals.append(part_val)
|
1724 |
|
1725 | elif case(word_part_e.ZshVarSub):
|
1726 | part = cast(word_part.ZshVarSub, UP_part)
|
1727 | e_die("ZSH var subs are parsed, but can't be evaluated",
|
1728 | part.left)
|
1729 |
|
1730 | else:
|
1731 | raise AssertionError(part.tag())
|
1732 |
|
1733 | def _EvalRhsWordToParts(self, w, part_vals, eval_flags=0):
|
1734 | # type: (rhs_word_t, List[part_value_t], int) -> None
|
1735 | quoted = bool(eval_flags & QUOTED)
|
1736 |
|
1737 | UP_w = w
|
1738 | with tagswitch(w) as case:
|
1739 | if case(rhs_word_e.Empty):
|
1740 | part_vals.append(Piece('', quoted, not quoted))
|
1741 |
|
1742 | elif case(rhs_word_e.Compound):
|
1743 | w = cast(CompoundWord, UP_w)
|
1744 | self._EvalWordToParts(w, part_vals, eval_flags=eval_flags)
|
1745 |
|
1746 | else:
|
1747 | raise AssertionError()
|
1748 |
|
1749 | def _EvalWordToParts(self, w, part_vals, eval_flags=0):
|
1750 | # type: (CompoundWord, List[part_value_t], int) -> None
|
1751 | """Helper for EvalRhsWord, EvalWordSequence, etc.
|
1752 |
|
1753 | Returns:
|
1754 | Appends to part_vals. Note that this is a TREE.
|
1755 | """
|
1756 | # Does the word have an extended glob? This is a special case because
|
1757 | # of the way we use glob() and then fnmatch(..., FNM_EXTMATCH) to
|
1758 | # implement extended globs. It's hard to carry that extra information
|
1759 | # all the way past the word splitting stage.
|
1760 |
|
1761 | # OSH semantic limitations: If a word has an extended glob part, then
|
1762 | # 1. It can't have an array
|
1763 | # 2. Word splitting of unquoted words isn't respected
|
1764 |
|
1765 | word_part_vals = [] # type: List[part_value_t]
|
1766 | has_extglob = False
|
1767 | for p in w.parts:
|
1768 | if p.tag() == word_part_e.ExtGlob:
|
1769 | has_extglob = True
|
1770 | self._EvalWordPart(p, word_part_vals, eval_flags)
|
1771 |
|
1772 | # Caller REQUESTED extglob evaluation, AND we parsed word_part.ExtGlob()
|
1773 | if has_extglob:
|
1774 | if bool(eval_flags & EXTGLOB_FILES):
|
1775 | # Treat the WHOLE word as a pattern. We need to TWO VARIANTS of the
|
1776 | # word because of the way we use libc:
|
1777 | # 1. With '*' for extglob parts
|
1778 | # 2. With _EvalExtGlob() for extglob parts
|
1779 |
|
1780 | glob_parts = [] # type: List[str]
|
1781 | fnmatch_parts = [] # type: List[str]
|
1782 | self._TranslateExtGlob(word_part_vals, w, glob_parts,
|
1783 | fnmatch_parts)
|
1784 |
|
1785 | #log('word_part_vals %s', word_part_vals)
|
1786 | glob_pat = ''.join(glob_parts)
|
1787 | fnmatch_pat = ''.join(fnmatch_parts)
|
1788 | #log("glob %s fnmatch %s", glob_pat, fnmatch_pat)
|
1789 |
|
1790 | results = [] # type: List[str]
|
1791 | n = self.globber.ExpandExtended(glob_pat, fnmatch_pat, results)
|
1792 | if n < 0:
|
1793 | raise error.FailGlob(
|
1794 | 'Extended glob %r matched no files' % fnmatch_pat, w)
|
1795 |
|
1796 | part_vals.append(part_value.Array(results))
|
1797 | elif bool(eval_flags & EXTGLOB_NESTED):
|
1798 | # We only glob at the TOP level of @(nested|@(pattern))
|
1799 | part_vals.extend(word_part_vals)
|
1800 | else:
|
1801 | # e.g. simple_word_eval, assignment builtin
|
1802 | e_die('Extended glob not allowed in this word', w)
|
1803 | else:
|
1804 | part_vals.extend(word_part_vals)
|
1805 |
|
1806 | def _PartValsToString(self, part_vals, w, eval_flags, strs):
|
1807 | # type: (List[part_value_t], CompoundWord, int, List[str]) -> None
|
1808 | """Helper for EvalWordToString, similar to _ConcatPartVals() above.
|
1809 |
|
1810 | Note: arg 'w' could just be a span ID
|
1811 | """
|
1812 | for part_val in part_vals:
|
1813 | UP_part_val = part_val
|
1814 | with tagswitch(part_val) as case:
|
1815 | if case(part_value_e.String):
|
1816 | part_val = cast(Piece, UP_part_val)
|
1817 | s = part_val.s
|
1818 | if part_val.quoted:
|
1819 | if eval_flags & QUOTE_FNMATCH:
|
1820 | # [[ foo == */"*".py ]] or case (*.py) or ${x%*.py} or ${x//*.py/}
|
1821 | s = glob_.GlobEscape(s)
|
1822 | elif eval_flags & QUOTE_ERE:
|
1823 | s = glob_.ExtendedRegexEscape(s)
|
1824 | strs.append(s)
|
1825 |
|
1826 | elif case(part_value_e.Array):
|
1827 | part_val = cast(part_value.Array, UP_part_val)
|
1828 | if self.exec_opts.strict_array():
|
1829 | # Examples: echo f > "$@"; local foo="$@"
|
1830 |
|
1831 | # TODO: This attributes too coarsely, to the word rather than the
|
1832 | # parts. Problem: the word is a TREE of parts, but we only have a
|
1833 | # flat list of part_vals. The only case where we really get arrays
|
1834 | # is "$@", "${a[@]}", "${a[@]//pat/replace}", etc.
|
1835 | e_die(
|
1836 | "This word should yield a string, but it contains an array",
|
1837 | w)
|
1838 |
|
1839 | # TODO: Maybe add detail like this.
|
1840 | #e_die('RHS of assignment should only have strings. '
|
1841 | # 'To assign arrays, use b=( "${a[@]}" )')
|
1842 | else:
|
1843 | # It appears to not respect IFS
|
1844 | tmp = [s for s in part_val.strs if s is not None]
|
1845 | s = ' '.join(tmp) # TODO: eliminate double join()?
|
1846 | strs.append(s)
|
1847 |
|
1848 | elif case(part_value_e.ExtGlob):
|
1849 | part_val = cast(part_value.ExtGlob, UP_part_val)
|
1850 |
|
1851 | # Extended globs are only allowed where we expect them!
|
1852 | if not bool(eval_flags & QUOTE_FNMATCH):
|
1853 | e_die('extended glob not allowed in this word', w)
|
1854 |
|
1855 | # recursive call
|
1856 | self._PartValsToString(part_val.part_vals, w, eval_flags,
|
1857 | strs)
|
1858 |
|
1859 | else:
|
1860 | raise AssertionError()
|
1861 |
|
1862 | def EvalWordToString(self, UP_w, eval_flags=0):
|
1863 | # type: (word_t, int) -> value.Str
|
1864 | """Given a word, return a string.
|
1865 |
|
1866 | Flags can contain a quoting algorithm.
|
1867 | """
|
1868 | assert UP_w.tag() == word_e.Compound, UP_w
|
1869 | w = cast(CompoundWord, UP_w)
|
1870 |
|
1871 | if eval_flags == 0: # QUOTE_FNMATCH etc. breaks optimization
|
1872 | fast_str = word_.FastStrEval(w)
|
1873 | if fast_str is not None:
|
1874 | return value.Str(fast_str)
|
1875 |
|
1876 | # Could we additionally optimize a=$b, if we know $b isn't an array
|
1877 | # etc.?
|
1878 |
|
1879 | # Note: these empty lists are hot in fib benchmark
|
1880 |
|
1881 | part_vals = [] # type: List[part_value_t]
|
1882 | for p in w.parts:
|
1883 | # this doesn't use eval_flags, which is slightly confusing
|
1884 | self._EvalWordPart(p, part_vals, 0)
|
1885 |
|
1886 | strs = [] # type: List[str]
|
1887 | self._PartValsToString(part_vals, w, eval_flags, strs)
|
1888 | return value.Str(''.join(strs))
|
1889 |
|
1890 | def EvalWordToPattern(self, UP_w):
|
1891 | # type: (rhs_word_t) -> Tuple[value.Str, bool]
|
1892 | """Like EvalWordToString, but returns whether we got ExtGlob."""
|
1893 | if UP_w.tag() == rhs_word_e.Empty:
|
1894 | return value.Str(''), False
|
1895 |
|
1896 | assert UP_w.tag() == rhs_word_e.Compound, UP_w
|
1897 | w = cast(CompoundWord, UP_w)
|
1898 |
|
1899 | has_extglob = False
|
1900 | part_vals = [] # type: List[part_value_t]
|
1901 | for p in w.parts:
|
1902 | # this doesn't use eval_flags, which is slightly confusing
|
1903 | self._EvalWordPart(p, part_vals, 0)
|
1904 | if p.tag() == word_part_e.ExtGlob:
|
1905 | has_extglob = True
|
1906 |
|
1907 | strs = [] # type: List[str]
|
1908 | self._PartValsToString(part_vals, w, QUOTE_FNMATCH, strs)
|
1909 | return value.Str(''.join(strs)), has_extglob
|
1910 |
|
1911 | def EvalForPlugin(self, w):
|
1912 | # type: (CompoundWord) -> value.Str
|
1913 | """Wrapper around EvalWordToString that prevents errors.
|
1914 |
|
1915 | Runtime errors like $(( 1 / 0 )) and mutating $? like $(exit 42)
|
1916 | are handled here.
|
1917 |
|
1918 | Similar to ExprEvaluator.PluginCall().
|
1919 | """
|
1920 | with state.ctx_Registers(self.mem): # to "sandbox" $? and $PIPESTATUS
|
1921 | try:
|
1922 | val = self.EvalWordToString(w)
|
1923 | except error.FatalRuntime as e:
|
1924 | val = value.Str('<Runtime error: %s>' % e.UserErrorString())
|
1925 |
|
1926 | except (IOError, OSError) as e:
|
1927 | val = value.Str('<I/O error: %s>' % pyutil.strerror(e))
|
1928 |
|
1929 | except KeyboardInterrupt:
|
1930 | val = value.Str('<Ctrl-C>')
|
1931 |
|
1932 | return val
|
1933 |
|
1934 | def EvalRhsWord(self, UP_w):
|
1935 | # type: (rhs_word_t) -> value_t
|
1936 | """Used for RHS of assignment.
|
1937 |
|
1938 | There is no splitting.
|
1939 | """
|
1940 | if UP_w.tag() == rhs_word_e.Empty:
|
1941 | return value.Str('')
|
1942 |
|
1943 | assert UP_w.tag() == word_e.Compound, UP_w
|
1944 | w = cast(CompoundWord, UP_w)
|
1945 |
|
1946 | if len(w.parts) == 1:
|
1947 | part0 = w.parts[0]
|
1948 | UP_part0 = part0
|
1949 | tag = part0.tag()
|
1950 | # Special case for a=(1 2). ShArrayLiteral won't appear in words that
|
1951 | # don't look like assignments.
|
1952 | if tag == word_part_e.ShArrayLiteral:
|
1953 | part0 = cast(ShArrayLiteral, UP_part0)
|
1954 | array_words = part0.words
|
1955 | words = braces.BraceExpandWords(array_words)
|
1956 | strs = self.EvalWordSequence(words)
|
1957 | return value.BashArray(strs)
|
1958 |
|
1959 | if tag == word_part_e.BashAssocLiteral:
|
1960 | part0 = cast(word_part.BashAssocLiteral, UP_part0)
|
1961 | d = NewDict() # type: Dict[str, str]
|
1962 | for pair in part0.pairs:
|
1963 | k = self.EvalWordToString(pair.key)
|
1964 | v = self.EvalWordToString(pair.value)
|
1965 | d[k.s] = v.s
|
1966 | return value.BashAssoc(d)
|
1967 |
|
1968 | # If RHS doesn't look like a=( ... ), then it must be a string.
|
1969 | return self.EvalWordToString(w)
|
1970 |
|
1971 | def _EvalWordFrame(self, frame, argv):
|
1972 | # type: (List[Piece], List[str]) -> None
|
1973 | all_empty = True
|
1974 | all_quoted = True
|
1975 | any_quoted = False
|
1976 |
|
1977 | #log('--- frame %s', frame)
|
1978 |
|
1979 | for piece in frame:
|
1980 | if len(piece.s):
|
1981 | all_empty = False
|
1982 |
|
1983 | if piece.quoted:
|
1984 | any_quoted = True
|
1985 | else:
|
1986 | all_quoted = False
|
1987 |
|
1988 | # Elision of ${empty}${empty} but not $empty"$empty" or $empty""
|
1989 | if all_empty and not any_quoted:
|
1990 | return
|
1991 |
|
1992 | # If every frag is quoted, e.g. "$a$b" or any part in "${a[@]}"x, then
|
1993 | # don't do word splitting or globbing.
|
1994 | if all_quoted:
|
1995 | tmp = [piece.s for piece in frame]
|
1996 | a = ''.join(tmp)
|
1997 | argv.append(a)
|
1998 | return
|
1999 |
|
2000 | will_glob = not self.exec_opts.noglob()
|
2001 |
|
2002 | # Array of strings, some of which are BOTH IFS-escaped and GLOB escaped!
|
2003 | frags = [] # type: List[str]
|
2004 | for piece in frame:
|
2005 | if will_glob and piece.quoted:
|
2006 | frag = glob_.GlobEscape(piece.s)
|
2007 | else:
|
2008 | # If we have a literal \, then we turn it into \\\\.
|
2009 | # Splitting takes \\\\ -> \\
|
2010 | # Globbing takes \\ to \ if it doesn't match
|
2011 | frag = _BackslashEscape(piece.s)
|
2012 |
|
2013 | if piece.do_split:
|
2014 | frag = _BackslashEscape(frag)
|
2015 | else:
|
2016 | frag = self.splitter.Escape(frag)
|
2017 |
|
2018 | frags.append(frag)
|
2019 |
|
2020 | flat = ''.join(frags)
|
2021 | #log('flat: %r', flat)
|
2022 |
|
2023 | args = self.splitter.SplitForWordEval(flat)
|
2024 |
|
2025 | # space=' '; argv $space"". We have a quoted part, but we CANNOT elide.
|
2026 | # Add it back and don't bother globbing.
|
2027 | if len(args) == 0 and any_quoted:
|
2028 | argv.append('')
|
2029 | return
|
2030 |
|
2031 | #log('split args: %r', args)
|
2032 | for a in args:
|
2033 | if glob_.LooksLikeGlob(a):
|
2034 | n = self.globber.Expand(a, argv)
|
2035 | if n < 0:
|
2036 | # TODO: location info, with span IDs carried through the frame
|
2037 | raise error.FailGlob('Pattern %r matched no files' % a,
|
2038 | loc.Missing)
|
2039 | else:
|
2040 | argv.append(glob_.GlobUnescape(a))
|
2041 |
|
2042 | def _EvalWordToArgv(self, w):
|
2043 | # type: (CompoundWord) -> List[str]
|
2044 | """Helper for _EvalAssignBuiltin.
|
2045 |
|
2046 | Splitting and globbing are disabled for assignment builtins.
|
2047 |
|
2048 | Example: declare -"${a[@]}" b=(1 2)
|
2049 | where a is [x b=a d=a]
|
2050 | """
|
2051 | part_vals = [] # type: List[part_value_t]
|
2052 | self._EvalWordToParts(w, part_vals, 0) # not double quoted
|
2053 | frames = _MakeWordFrames(part_vals)
|
2054 | argv = [] # type: List[str]
|
2055 | for frame in frames:
|
2056 | if len(frame): # empty array gives empty frame!
|
2057 | tmp = [piece.s for piece in frame]
|
2058 | argv.append(''.join(tmp)) # no split or glob
|
2059 | #log('argv: %s', argv)
|
2060 | return argv
|
2061 |
|
2062 | def _EvalAssignBuiltin(self, builtin_id, arg0, words, meta_offset):
|
2063 | # type: (builtin_t, str, List[CompoundWord], int) -> cmd_value.Assign
|
2064 | """Handles both static and dynamic assignment, e.g.
|
2065 |
|
2066 | x='foo=bar'
|
2067 | local a=(1 2) $x
|
2068 |
|
2069 | Grammar:
|
2070 |
|
2071 | ('builtin' | 'command')* keyword flag* pair*
|
2072 | flag = [-+].*
|
2073 |
|
2074 | There is also command -p, but we haven't implemented it. Maybe just
|
2075 | punt on it.
|
2076 | """
|
2077 | eval_to_pairs = True # except for -f and -F
|
2078 | started_pairs = False
|
2079 |
|
2080 | flags = [arg0] # initial flags like -p, and -f -F name1 name2
|
2081 | flag_locs = [words[0]]
|
2082 | assign_args = [] # type: List[AssignArg]
|
2083 |
|
2084 | n = len(words)
|
2085 | for i in xrange(meta_offset + 1, n): # skip first word
|
2086 | w = words[i]
|
2087 |
|
2088 | if word_.IsVarLike(w):
|
2089 | started_pairs = True # Everything from now on is an assign_pair
|
2090 |
|
2091 | if started_pairs:
|
2092 | left_token, close_token, part_offset = word_.DetectShAssignment(
|
2093 | w)
|
2094 | if left_token: # Detected statically
|
2095 | if left_token.id != Id.Lit_VarLike:
|
2096 | # (not guaranteed since started_pairs is set twice)
|
2097 | e_die('LHS array not allowed in assignment builtin', w)
|
2098 |
|
2099 | if lexer.IsPlusEquals(left_token):
|
2100 | var_name = lexer.TokenSliceRight(left_token, -2)
|
2101 | append = True
|
2102 | else:
|
2103 | var_name = lexer.TokenSliceRight(left_token, -1)
|
2104 | append = False
|
2105 |
|
2106 | if part_offset == len(w.parts):
|
2107 | rhs = rhs_word.Empty # type: rhs_word_t
|
2108 | else:
|
2109 | # tmp is for intersection of C++/MyPy type systems
|
2110 | tmp = CompoundWord(w.parts[part_offset:])
|
2111 | word_.TildeDetectAssign(tmp)
|
2112 | rhs = tmp
|
2113 |
|
2114 | with state.ctx_AssignBuiltin(self.mutable_opts):
|
2115 | right = self.EvalRhsWord(rhs)
|
2116 |
|
2117 | arg2 = AssignArg(var_name, right, append, w)
|
2118 | assign_args.append(arg2)
|
2119 |
|
2120 | else: # e.g. export $dynamic
|
2121 | argv = self._EvalWordToArgv(w)
|
2122 | for arg in argv:
|
2123 | arg2 = _SplitAssignArg(arg, w)
|
2124 | assign_args.append(arg2)
|
2125 |
|
2126 | else:
|
2127 | argv = self._EvalWordToArgv(w)
|
2128 | for arg in argv:
|
2129 | if arg.startswith('-') or arg.startswith('+'):
|
2130 | # e.g. declare -r +r
|
2131 | flags.append(arg)
|
2132 | flag_locs.append(w)
|
2133 |
|
2134 | # Shortcut that relies on -f and -F always meaning "function" for
|
2135 | # all assignment builtins
|
2136 | if 'f' in arg or 'F' in arg:
|
2137 | eval_to_pairs = False
|
2138 |
|
2139 | else: # e.g. export $dynamic
|
2140 | if eval_to_pairs:
|
2141 | arg2 = _SplitAssignArg(arg, w)
|
2142 | assign_args.append(arg2)
|
2143 | started_pairs = True
|
2144 | else:
|
2145 | flags.append(arg)
|
2146 |
|
2147 | return cmd_value.Assign(builtin_id, flags, flag_locs, assign_args)
|
2148 |
|
2149 | def _DetectAssignBuiltinStr(self, arg0, words, meta_offset):
|
2150 | # type: (str, List[CompoundWord], int) -> Optional[cmd_value.Assign]
|
2151 | builtin_id = consts.LookupAssignBuiltin(arg0)
|
2152 | if builtin_id != consts.NO_INDEX:
|
2153 | return self._EvalAssignBuiltin(builtin_id, arg0, words,
|
2154 | meta_offset)
|
2155 | return None
|
2156 |
|
2157 | def _DetectAssignBuiltin(self, val0, words, meta_offset):
|
2158 | # type: (part_value_t, List[CompoundWord], int) -> Optional[cmd_value.Assign]
|
2159 | UP_val0 = val0
|
2160 | if val0.tag() == part_value_e.String:
|
2161 | val0 = cast(Piece, UP_val0)
|
2162 | if not val0.quoted:
|
2163 | return self._DetectAssignBuiltinStr(val0.s, words, meta_offset)
|
2164 | return None
|
2165 |
|
2166 | def SimpleEvalWordSequence2(self, words, allow_assign):
|
2167 | # type: (List[CompoundWord], bool) -> cmd_value_t
|
2168 | """Simple word evaluation for YSH."""
|
2169 | strs = [] # type: List[str]
|
2170 | locs = [] # type: List[CompoundWord]
|
2171 |
|
2172 | meta_offset = 0
|
2173 | for i, w in enumerate(words):
|
2174 | # No globbing in the first arg for command.Simple.
|
2175 | if i == meta_offset and allow_assign:
|
2176 | strs0 = self._EvalWordToArgv(w)
|
2177 | # TODO: Remove this because YSH will disallow assignment
|
2178 | # builtins? (including export?)
|
2179 | if len(strs0) == 1:
|
2180 | cmd_val = self._DetectAssignBuiltinStr(
|
2181 | strs0[0], words, meta_offset)
|
2182 | if cmd_val:
|
2183 | return cmd_val
|
2184 |
|
2185 | strs.extend(strs0)
|
2186 | for _ in strs0:
|
2187 | locs.append(w)
|
2188 | continue
|
2189 |
|
2190 | if glob_.LooksLikeStaticGlob(w):
|
2191 | val = self.EvalWordToString(w) # respects strict-array
|
2192 | num_appended = self.globber.Expand(val.s, strs)
|
2193 | if num_appended < 0:
|
2194 | raise error.FailGlob('Pattern %r matched no files' % val.s,
|
2195 | w)
|
2196 | for _ in xrange(num_appended):
|
2197 | locs.append(w)
|
2198 | continue
|
2199 |
|
2200 | part_vals = [] # type: List[part_value_t]
|
2201 | self._EvalWordToParts(w, part_vals, 0) # not quoted
|
2202 |
|
2203 | if 0:
|
2204 | log('')
|
2205 | log('Static: part_vals after _EvalWordToParts:')
|
2206 | for entry in part_vals:
|
2207 | log(' %s', entry)
|
2208 |
|
2209 | # Still need to process
|
2210 | frames = _MakeWordFrames(part_vals)
|
2211 |
|
2212 | if 0:
|
2213 | log('')
|
2214 | log('Static: frames after _MakeWordFrames:')
|
2215 | for entry in frames:
|
2216 | log(' %s', entry)
|
2217 |
|
2218 | # We will still allow x"${a[@]"x, though it's deprecated by @a, which
|
2219 | # disallows such expressions at parse time.
|
2220 | for frame in frames:
|
2221 | if len(frame): # empty array gives empty frame!
|
2222 | tmp = [piece.s for piece in frame]
|
2223 | strs.append(''.join(tmp)) # no split or glob
|
2224 | locs.append(w)
|
2225 |
|
2226 | return cmd_value.Argv(strs, locs, None, None, None, None)
|
2227 |
|
2228 | def EvalWordSequence2(self, words, allow_assign=False):
|
2229 | # type: (List[CompoundWord], bool) -> cmd_value_t
|
2230 | """Turns a list of Words into a list of strings.
|
2231 |
|
2232 | Unlike the EvalWord*() methods, it does globbing.
|
2233 |
|
2234 | Args:
|
2235 | allow_assign: True for command.Simple, False for BashArray a=(1 2 3)
|
2236 | """
|
2237 | if self.exec_opts.simple_word_eval():
|
2238 | return self.SimpleEvalWordSequence2(words, allow_assign)
|
2239 |
|
2240 | # Parse time:
|
2241 | # 1. brace expansion. TODO: Do at parse time.
|
2242 | # 2. Tilde detection. DONE at parse time. Only if Id.Lit_Tilde is the
|
2243 | # first WordPart.
|
2244 | #
|
2245 | # Run time:
|
2246 | # 3. tilde sub, var sub, command sub, arith sub. These are all
|
2247 | # "concurrent" on WordParts. (optional process sub with <() )
|
2248 | # 4. word splitting. Can turn this off with a shell option? Definitely
|
2249 | # off for oil.
|
2250 | # 5. globbing -- several exec_opts affect this: nullglob, safeglob, etc.
|
2251 |
|
2252 | #log('W %s', words)
|
2253 | strs = [] # type: List[str]
|
2254 | locs = [] # type: List[CompoundWord]
|
2255 |
|
2256 | # 0 for declare x
|
2257 | # 1 for builtin declare x
|
2258 | # 2 for command builtin declare x
|
2259 | # etc.
|
2260 | meta_offset = 0
|
2261 |
|
2262 | n = 0
|
2263 | for i, w in enumerate(words):
|
2264 | fast_str = word_.FastStrEval(w)
|
2265 | if fast_str is not None:
|
2266 | strs.append(fast_str)
|
2267 | locs.append(w)
|
2268 |
|
2269 | # e.g. the 'local' in 'local a=b c=d' will be here
|
2270 | if allow_assign and i == meta_offset:
|
2271 | cmd_val = self._DetectAssignBuiltinStr(
|
2272 | fast_str, words, meta_offset)
|
2273 | if cmd_val:
|
2274 | return cmd_val
|
2275 |
|
2276 | if i <= meta_offset and _DetectMetaBuiltinStr(fast_str):
|
2277 | meta_offset += 1
|
2278 |
|
2279 | continue
|
2280 |
|
2281 | part_vals = [] # type: List[part_value_t]
|
2282 | self._EvalWordToParts(w, part_vals, EXTGLOB_FILES)
|
2283 |
|
2284 | # DYNAMICALLY detect if we're going to run an assignment builtin, and
|
2285 | # change the rest of the evaluation algorithm if so.
|
2286 | #
|
2287 | # We want to allow:
|
2288 | # e=export
|
2289 | # $e foo=bar
|
2290 | #
|
2291 | # But we don't want to evaluate the first word twice in the case of:
|
2292 | # $(some-command) --flag
|
2293 | if len(part_vals) == 1:
|
2294 | if allow_assign and i == meta_offset:
|
2295 | cmd_val = self._DetectAssignBuiltin(
|
2296 | part_vals[0], words, meta_offset)
|
2297 | if cmd_val:
|
2298 | return cmd_val
|
2299 |
|
2300 | if i <= meta_offset and _DetectMetaBuiltin(part_vals[0]):
|
2301 | meta_offset += 1
|
2302 |
|
2303 | if 0:
|
2304 | log('')
|
2305 | log('part_vals after _EvalWordToParts:')
|
2306 | for entry in part_vals:
|
2307 | log(' %s', entry)
|
2308 |
|
2309 | frames = _MakeWordFrames(part_vals)
|
2310 | if 0:
|
2311 | log('')
|
2312 | log('frames after _MakeWordFrames:')
|
2313 | for entry in frames:
|
2314 | log(' %s', entry)
|
2315 |
|
2316 | # Do splitting and globbing. Each frame will append zero or more args.
|
2317 | for frame in frames:
|
2318 | self._EvalWordFrame(frame, strs)
|
2319 |
|
2320 | # Fill in locations parallel to strs.
|
2321 | n_next = len(strs)
|
2322 | for _ in xrange(n_next - n):
|
2323 | locs.append(w)
|
2324 | n = n_next
|
2325 |
|
2326 | # A non-assignment command.
|
2327 | # NOTE: Can't look up builtins here like we did for assignment, because
|
2328 | # functions can override builtins.
|
2329 | return cmd_value.Argv(strs, locs, None, None, None, None)
|
2330 |
|
2331 | def EvalWordSequence(self, words):
|
2332 | # type: (List[CompoundWord]) -> List[str]
|
2333 | """For arrays and for loops.
|
2334 |
|
2335 | They don't allow assignment builtins.
|
2336 | """
|
2337 | UP_cmd_val = self.EvalWordSequence2(words)
|
2338 |
|
2339 | assert UP_cmd_val.tag() == cmd_value_e.Argv
|
2340 | cmd_val = cast(cmd_value.Argv, UP_cmd_val)
|
2341 | return cmd_val.argv
|
2342 |
|
2343 |
|
2344 | class NormalWordEvaluator(AbstractWordEvaluator):
|
2345 |
|
2346 | def __init__(
|
2347 | self,
|
2348 | mem, # type: state.Mem
|
2349 | exec_opts, # type: optview.Exec
|
2350 | mutable_opts, # type: state.MutableOpts
|
2351 | tilde_ev, # type: TildeEvaluator
|
2352 | splitter, # type: SplitContext
|
2353 | errfmt, # type: ErrorFormatter
|
2354 | ):
|
2355 | # type: (...) -> None
|
2356 | AbstractWordEvaluator.__init__(self, mem, exec_opts, mutable_opts,
|
2357 | tilde_ev, splitter, errfmt)
|
2358 | self.shell_ex = None # type: _Executor
|
2359 |
|
2360 | def CheckCircularDeps(self):
|
2361 | # type: () -> None
|
2362 | assert self.arith_ev is not None
|
2363 | # Disabled for pure OSH
|
2364 | #assert self.expr_ev is not None
|
2365 | assert self.shell_ex is not None
|
2366 | assert self.prompt_ev is not None
|
2367 |
|
2368 | def _EvalCommandSub(self, cs_part, quoted):
|
2369 | # type: (CommandSub, bool) -> part_value_t
|
2370 | stdout_str = self.shell_ex.RunCommandSub(cs_part)
|
2371 |
|
2372 | if cs_part.left_token.id == Id.Left_AtParen:
|
2373 | # YSH splitting algorithm: does not depend on IFS
|
2374 | try:
|
2375 | strs = j8.SplitJ8Lines(stdout_str)
|
2376 | except error.Decode as e:
|
2377 | # status code 4 is special, for encode/decode errors.
|
2378 | raise error.Structured(4, e.Message(), cs_part.left_token)
|
2379 |
|
2380 | #strs = self.splitter.SplitForWordEval(stdout_str)
|
2381 | return part_value.Array(strs)
|
2382 | else:
|
2383 | return Piece(stdout_str, quoted, not quoted)
|
2384 |
|
2385 | def _EvalProcessSub(self, cs_part):
|
2386 | # type: (CommandSub) -> Piece
|
2387 | dev_path = self.shell_ex.RunProcessSub(cs_part)
|
2388 | # pretend it's quoted; no split or glob
|
2389 | return Piece(dev_path, True, False)
|
2390 |
|
2391 |
|
2392 | _DUMMY = '__NO_COMMAND_SUB__'
|
2393 |
|
2394 |
|
2395 | class CompletionWordEvaluator(AbstractWordEvaluator):
|
2396 | """An evaluator that has no access to an executor.
|
2397 |
|
2398 | NOTE: core/completion.py doesn't actually try to use these strings to
|
2399 | complete. If you have something like 'echo $(echo hi)/f<TAB>', it sees the
|
2400 | inner command as the last one, and knows that it is not at the end of the
|
2401 | line.
|
2402 | """
|
2403 |
|
2404 | def __init__(
|
2405 | self,
|
2406 | mem, # type: state.Mem
|
2407 | exec_opts, # type: optview.Exec
|
2408 | mutable_opts, # type: state.MutableOpts
|
2409 | tilde_ev, # type: TildeEvaluator
|
2410 | splitter, # type: SplitContext
|
2411 | errfmt, # type: ErrorFormatter
|
2412 | ):
|
2413 | # type: (...) -> None
|
2414 | AbstractWordEvaluator.__init__(self, mem, exec_opts, mutable_opts,
|
2415 | tilde_ev, splitter, errfmt)
|
2416 |
|
2417 | def CheckCircularDeps(self):
|
2418 | # type: () -> None
|
2419 | assert self.prompt_ev is not None
|
2420 | assert self.arith_ev is not None
|
2421 | assert self.expr_ev is not None
|
2422 |
|
2423 | def _EvalCommandSub(self, cs_part, quoted):
|
2424 | # type: (CommandSub, bool) -> part_value_t
|
2425 | if cs_part.left_token.id == Id.Left_AtParen:
|
2426 | return part_value.Array([_DUMMY])
|
2427 | else:
|
2428 | return Piece(_DUMMY, quoted, not quoted)
|
2429 |
|
2430 | def _EvalProcessSub(self, cs_part):
|
2431 | # type: (CommandSub) -> Piece
|
2432 | # pretend it's quoted; no split or glob
|
2433 | return Piece('__NO_PROCESS_SUB__', True, False)
|
2434 |
|
2435 |
|
2436 | # vim: sw=4
|