osh/cmd_eval.py

OILS / osh / cmd_eval.py View on Github | oilshell.org

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1	#!/usr/bin/env python2
2	# Copyright 2016 Andy Chu. All rights reserved.
3	# Licensed under the Apache License, Version 2.0 (the "License");
4	# you may not use this file except in compliance with the License.
5	# You may obtain a copy of the License at
6	#
7	# http://www.apache.org/licenses/LICENSE-2.0
8	"""
9	cmd_eval.py -- Interpreter for the command language.
10
11	Problems:
12	$ < Makefile cat \| < NOTES.txt head
13
14	This just does head? Last one wins.
15	"""
16	from __future__ import print_function
17
18	import sys
19
20	from _devbuild.gen.id_kind_asdl import Id
21	from _devbuild.gen.option_asdl import option_i
22	from _devbuild.gen.syntax_asdl import (
23	IntParamBox,
24	loc,
25	loc_t,
26	loc_e,
27	Token,
28	CompoundWord,
29	command,
30	command_e,
31	command_t,
32	command_str,
33	condition,
34	condition_e,
35	condition_t,
36	case_arg,
37	case_arg_e,
38	case_arg_t,
39	BraceGroup,
40	Proc,
41	Func,
42	assign_op_e,
43	expr_t,
44	proc_sig,
45	proc_sig_e,
46	redir_param,
47	redir_param_e,
48	for_iter,
49	for_iter_e,
50	pat,
51	pat_e,
52	word,
53	Eggex,
54	)
55	from _devbuild.gen.runtime_asdl import (
56	cmd_value,
57	cmd_value_e,
58	RedirValue,
59	redirect_arg,
60	flow_e,
61	scope_e,
62	CommandStatus,
63	StatusArray,
64	)
65	from _devbuild.gen.types_asdl import redir_arg_type_e
66	from _devbuild.gen.value_asdl import (value, value_e, value_t, y_lvalue,
67	y_lvalue_e, y_lvalue_t, LeftName)
68
69	from core import dev
70	from core import error
71	from core import executor
72	from core.error import e_die, e_die_status
73	from core import num
74	from core import pyos # Time(). TODO: rename
75	from core import pyutil
76	from core import state
77	from core import ui
78	from core import util
79	from core import vm
80	from frontend import consts
81	from frontend import lexer
82	from frontend import location
83	from osh import braces
84	from osh import sh_expr_eval
85	from osh import word_eval
86	from mycpp import mops
87	from mycpp import mylib
88	from mycpp.mylib import log, probe, switch, tagswitch
89	from ysh import expr_eval
90	from ysh import func_proc
91	from ysh import val_ops
92
93	import posix_ as posix
94	import libc # for fnmatch
95	# Import this name directly because the C++ translation uses macros literally.
96	from libc import FNM_CASEFOLD
97
98	from typing import List, Dict, Tuple, Optional, Any, cast, TYPE_CHECKING
99
100	if TYPE_CHECKING:
101	from _devbuild.gen.option_asdl import builtin_t
102	from _devbuild.gen.runtime_asdl import cmd_value_t
103	from _devbuild.gen.syntax_asdl import Redir, EnvPair
104	from core.alloc import Arena
105	from core import optview
106	from core.vm import _Executor, _AssignBuiltin
107	from builtin import trap_osh
108
109	# flags for main_loop.Batch, ExecuteAndCatch. TODO: Should probably in
110	# ExecuteAndCatch, along with SetValue() flags.
111	IsMainProgram = 1 << 0 # the main shell program, not eval/source/subshell
112	RaiseControlFlow = 1 << 1 # eval/source builtins
113	Optimize = 1 << 2
114	NoDebugTrap = 1 << 3
115	NoErrTrap = 1 << 4
116
117
118	def MakeBuiltinArgv(argv1):
119	# type: (List[str]) -> cmd_value.Argv
120	argv = [''] # dummy for argv[0]
121	argv.extend(argv1)
122	missing = None # type: CompoundWord
123	return cmd_value.Argv(argv, [missing] * len(argv), None, None, None, None)
124
125
126	class Deps(object):
127
128	def __init__(self):
129	# type: () -> None
130	self.mutable_opts = None # type: state.MutableOpts
131	self.dumper = None # type: dev.CrashDumper
132	self.debug_f = None # type: util._DebugFile
133
134
135	def _HasManyStatuses(node):
136	# type: (command_t) -> bool
137	"""Code patterns that are bad for POSIX errexit. For YSH strict_errexit.
138
139	Note: strict_errexit also uses
140	shopt --unset _allow_command_sub _allow_process_sub
141	"""
142	UP_node = node
143	with tagswitch(node) as case:
144	# Atoms.
145	# TODO: Do we need YSH atoms here?
146	if case(command_e.Simple, command_e.DBracket, command_e.DParen):
147	return False
148
149	elif case(command_e.Redirect):
150	node = cast(command.Redirect, UP_node)
151	return _HasManyStatuses(node.child)
152
153	elif case(command_e.Sentence):
154	# Sentence check is for if false; versus if false
155	node = cast(command.Sentence, UP_node)
156	return _HasManyStatuses(node.child)
157
158	elif case(command_e.Pipeline):
159	node = cast(command.Pipeline, UP_node)
160	if len(node.children) == 1:
161	# '! false' is a pipeline that we want to ALLOW
162	# '! ( echo subshell )' is DISALLWOED
163	return _HasManyStatuses(node.children[0])
164	else:
165	# Multiple parts like 'ls \| wc' is disallowed
166	return True
167
168	# - ShAssignment could be allowed, though its exit code will always be
169	# 0 without command subs
170	# - Naively, (non-singleton) pipelines could be allowed because pipefail.
171	# BUT could be a proc executed inside a child process, which causes a
172	# problem: the strict_errexit check has to occur at runtime and there's
173	# no way to signal it ot the parent.
174
175	return True
176
177
178	def PlusEquals(old_val, val):
179	# type: (value_t, value_t) -> value_t
180	"""Implement s+=val, typeset s+=val, etc."""
181
182	UP_old_val = old_val
183	UP_val = val
184
185	tag = val.tag()
186
187	with tagswitch(old_val) as case:
188	if case(value_e.Undef):
189	pass # val is RHS
190
191	elif case(value_e.Str):
192	if tag == value_e.Str:
193	old_val = cast(value.Str, UP_old_val)
194	str_to_append = cast(value.Str, UP_val)
195	val = value.Str(old_val.s + str_to_append.s)
196
197	elif tag == value_e.BashArray:
198	e_die("Can't append array to string")
199
200	else:
201	raise AssertionError() # parsing should prevent this
202
203	elif case(value_e.BashArray):
204	if tag == value_e.Str:
205	e_die("Can't append string to array")
206
207	elif tag == value_e.BashArray:
208	old_val = cast(value.BashArray, UP_old_val)
209	to_append = cast(value.BashArray, UP_val)
210
211	# TODO: MUTATE the existing value for efficiency?
212	strs = [] # type: List[str]
213	strs.extend(old_val.strs)
214	strs.extend(to_append.strs)
215	val = value.BashArray(strs)
216
217	else:
218	raise AssertionError() # parsing should prevent this
219
220	elif case(value_e.BashAssoc):
221	# TODO: Could try to match bash, it will append to ${A[0]}
222	pass
223
224	else:
225	e_die("Can't append to value of type %s" % ui.ValType(old_val))
226
227	return val
228
229
230	class ctx_LoopLevel(object):
231	"""For checking for invalid control flow."""
232
233	def __init__(self, cmd_ev):
234	# type: (CommandEvaluator) -> None
235	cmd_ev.loop_level += 1
236	self.cmd_ev = cmd_ev
237
238	def __enter__(self):
239	# type: () -> None
240	pass
241
242	def __exit__(self, type, value, traceback):
243	# type: (Any, Any, Any) -> None
244	self.cmd_ev.loop_level -= 1
245
246
247	class CommandEvaluator(object):
248	"""Executes the program by tree-walking.
249
250	It also does some double-dispatch by passing itself into Eval() for
251	Compound/WordPart.
252	"""
253
254	def __init__(
255	self,
256	mem, # type: state.Mem
257	exec_opts, # type: optview.Exec
258	errfmt, # type: ui.ErrorFormatter
259	procs, # type: Dict[str, value.Proc]
260	assign_builtins, # type: Dict[builtin_t, _AssignBuiltin]
261	arena, # type: Arena
262	cmd_deps, # type: Deps
263	trap_state, # type: trap_osh.TrapState
264	signal_safe, # type: pyos.SignalSafe
265	):
266	# type: (...) -> None
267	"""
268	Args:
269	mem: Mem instance for storing variables
270	procs: dict of SHELL functions or 'procs'
271	builtins: dict of builtin callables
272	TODO: This should only be for assignment builtins?
273	cmd_deps: A bundle of stateless code
274	"""
275	self.shell_ex = None # type: _Executor
276	self.arith_ev = None # type: sh_expr_eval.ArithEvaluator
277	self.bool_ev = None # type: sh_expr_eval.BoolEvaluator
278	self.expr_ev = None # type: expr_eval.ExprEvaluator
279	self.word_ev = None # type: word_eval.AbstractWordEvaluator
280	self.tracer = None # type: dev.Tracer
281
282	self.mem = mem
283	# This is for shopt and set -o. They are initialized by flags.
284	self.exec_opts = exec_opts
285	self.errfmt = errfmt
286	self.procs = procs
287	self.assign_builtins = assign_builtins
288	self.arena = arena
289
290	self.mutable_opts = cmd_deps.mutable_opts
291	self.dumper = cmd_deps.dumper
292	self.debug_f = cmd_deps.debug_f # Used by ShellFuncAction too
293
294	self.trap_state = trap_state
295	self.signal_safe = signal_safe
296
297	self.loop_level = 0 # for detecting bad top-level break/continue
298	self.check_command_sub_status = False # a hack. Modified by ShellExecutor
299
300	self.status_array_pool = [] # type: List[StatusArray]
301
302	def CheckCircularDeps(self):
303	# type: () -> None
304	assert self.arith_ev is not None
305	assert self.bool_ev is not None
306	# Disabled for push OSH
307	#assert self.expr_ev is not None
308	assert self.word_ev is not None
309
310	def _RunAssignBuiltin(self, cmd_val):
311	# type: (cmd_value.Assign) -> int
312	"""Run an assignment builtin.
313
314	Except blocks copied from RunBuiltin.
315	"""
316	builtin_func = self.assign_builtins.get(cmd_val.builtin_id)
317	if builtin_func is None:
318	# This only happens with alternative Oils interpreters.
319	e_die("Assignment builtin %r not configured" % cmd_val.argv[0],
320	cmd_val.arg_locs[0])
321
322	io_errors = [] # type: List[error.IOError_OSError]
323	with vm.ctx_FlushStdout(io_errors):
324	with ui.ctx_Location(self.errfmt, cmd_val.arg_locs[0]):
325	try:
326	status = builtin_func.Run(cmd_val)
327	except (IOError, OSError) as e:
328	# e.g. declare -p > /dev/full
329	self.errfmt.PrintMessage(
330	'%s builtin I/O error: %s' %
331	(cmd_val.argv[0], pyutil.strerror(e)),
332	cmd_val.arg_locs[0])
333	return 1
334	except error.Usage as e: # Copied from RunBuiltin
335	arg0 = cmd_val.argv[0]
336	self.errfmt.PrefixPrint(e.msg, '%r ' % arg0, e.location)
337	return 2 # consistent error code for usage error
338
339	if len(io_errors): # e.g. declare -p > /dev/full
340	self.errfmt.PrintMessage(
341	'%s builtin I/O: %s' %
342	(cmd_val.argv[0], pyutil.strerror(io_errors[0])),
343	cmd_val.arg_locs[0])
344	return 1
345
346	return status
347
348	def _CheckStatus(self, status, cmd_st, node, default_loc):
349	# type: (int, CommandStatus, command_t, loc_t) -> None
350	"""Raises error.ErrExit, maybe with location info attached."""
351
352	assert status >= 0, status
353
354	if status == 0:
355	return # Nothing to do
356
357	self._MaybeRunErrTrap()
358
359	if self.exec_opts.errexit():
360	# NOTE: Sometimes we print 2 errors
361	# - 'type -z' has a UsageError with location, then errexit
362	# - '> /nonexistent' has an I/O error, then errexit
363	# - Pipelines and subshells are compound. Commands within them fail.
364	# - however ( exit 33 ) only prints one message.
365	#
366	# But we will want something like 'false' to have location info.
367
368	UP_node = node
369	with tagswitch(node) as case:
370	if case(command_e.ShAssignment):
371	node = cast(command.ShAssignment, UP_node)
372	cmd_st.show_code = True # leaf
373	# Note: we show errors from assignments a=$(false) rarely: when
374	# errexit, inherit_errexit, verbose_errexit are on, but
375	# command_sub_errexit is off!
376
377	# Note: a subshell often doesn't fail on its own.
378	elif case(command_e.Subshell):
379	node = cast(command.Subshell, UP_node)
380	cmd_st.show_code = True # not sure about this, e.g. ( exit 42 )
381
382	elif case(command_e.Pipeline):
383	node = cast(command.Pipeline, UP_node)
384	cmd_st.show_code = True # not sure about this
385	# TODO: We should show which element of the pipeline failed!
386
387	desc = command_str(node.tag())
388
389	# Override location if explicitly passed.
390	# Note: this produces better results for process sub
391	# echo <(sort x)
392	# and different results for some pipelines:
393	# { ls; false; } \| wc -l; echo hi # Point to \| or first { ?
394	if default_loc.tag() != loc_e.Missing:
395	blame_loc = default_loc # type: loc_t
396	else:
397	blame_loc = location.TokenForCommand(node)
398
399	msg = '%s failed with status %d' % (desc, status)
400	raise error.ErrExit(status,
401	msg,
402	blame_loc,
403	show_code=cmd_st.show_code)
404
405	def _EvalRedirect(self, r):
406	# type: (Redir) -> RedirValue
407
408	result = RedirValue(r.op.id, r.op, r.loc, None)
409
410	arg = r.arg
411	UP_arg = arg
412	with tagswitch(arg) as case:
413	if case(redir_param_e.Word):
414	arg_word = cast(CompoundWord, UP_arg)
415
416	# Note: needed for redirect like 'echo foo > x$LINENO'
417	self.mem.SetTokenForLine(r.op)
418
419	# Could be computed at parse time?
420	redir_type = consts.RedirArgType(r.op.id)
421
422	if redir_type == redir_arg_type_e.Path:
423	# Redirects with path arguments are evaluated in a special
424	# way. bash and zsh allow globbing a path, but
425	# dash/ash/mksh don't.
426	#
427	# If there are multiple files, zsh opens BOTH, but bash
428	# makes the command fail with status 1. We mostly follow
429	# bash behavior.
430
431	# These don't match bash/zsh behavior
432	# val = self.word_ev.EvalWordToString(arg_word)
433	# val, has_extglob = self.word_ev.EvalWordToPattern(arg_word)
434	# Short-circuit with word_.StaticEval() also doesn't work
435	# with globs
436
437	# mycpp needs this explicit declaration
438	b = braces.BraceDetect(
439	arg_word) # type: Optional[word.BracedTree]
440	if b is not None:
441	raise error.RedirectEval(
442	'Brace expansion not allowed (try adding quotes)',
443	arg_word)
444
445	# Needed for globbing behavior
446	files = self.word_ev.EvalWordSequence([arg_word])
447
448	n = len(files)
449	if n == 0:
450	# happens in OSH on empty elision
451	# in YSH because simple_word_eval globs to zero
452	raise error.RedirectEval(
453	"Can't redirect to zero files", arg_word)
454	if n > 1:
455	raise error.RedirectEval(
456	"Can't redirect to more than one file", arg_word)
457
458	result.arg = redirect_arg.Path(files[0])
459	return result
460
461	elif redir_type == redir_arg_type_e.Desc: # e.g. 1>&2, 1>&-, 1>&2-
462	val = self.word_ev.EvalWordToString(arg_word)
463	t = val.s
464	if len(t) == 0:
465	raise error.RedirectEval(
466	"Redirect descriptor can't be empty", arg_word)
467	return None
468
469	try:
470	if t == '-':
471	result.arg = redirect_arg.CloseFd
472	elif t[-1] == '-':
473	target_fd = int(t[:-1])
474	result.arg = redirect_arg.MoveFd(target_fd)
475	else:
476	result.arg = redirect_arg.CopyFd(int(t))
477	except ValueError:
478	raise error.RedirectEval(
479	'Invalid descriptor %r. Expected D, -, or D- where D is an '
480	'integer' % t, arg_word)
481	return None
482
483	return result
484
485	elif redir_type == redir_arg_type_e.Here: # here word
486	val = self.word_ev.EvalWordToString(arg_word)
487	assert val.tag() == value_e.Str, val
488	# NOTE: bash and mksh both add \n
489	result.arg = redirect_arg.HereDoc(val.s + '\n')
490	return result
491
492	else:
493	raise AssertionError('Unknown redirect op')
494
495	elif case(redir_param_e.HereDoc):
496	arg = cast(redir_param.HereDoc, UP_arg)
497	w = CompoundWord(
498	arg.stdin_parts) # HACK: Wrap it in a word to eval
499	val = self.word_ev.EvalWordToString(w)
500	assert val.tag() == value_e.Str, val
501	result.arg = redirect_arg.HereDoc(val.s)
502	return result
503
504	else:
505	raise AssertionError('Unknown redirect type')
506
507	raise AssertionError('for -Wreturn-type in C++')
508
509	def _RunSimpleCommand(self, cmd_val, cmd_st, run_flags):
510	# type: (cmd_value_t, CommandStatus, int) -> int
511	"""Private interface to run a simple command (including assignment)."""
512	UP_cmd_val = cmd_val
513	with tagswitch(UP_cmd_val) as case:
514	if case(cmd_value_e.Argv):
515	cmd_val = cast(cmd_value.Argv, UP_cmd_val)
516	self.tracer.OnSimpleCommand(cmd_val.argv)
517	return self.shell_ex.RunSimpleCommand(cmd_val, cmd_st,
518	run_flags)
519
520	elif case(cmd_value_e.Assign):
521	cmd_val = cast(cmd_value.Assign, UP_cmd_val)
522	self.tracer.OnAssignBuiltin(cmd_val)
523	return self._RunAssignBuiltin(cmd_val)
524
525	else:
526	raise AssertionError()
527
528	def _EvalTempEnv(self, more_env, flags):
529	# type: (List[EnvPair], int) -> None
530	"""For FOO=1 cmd."""
531	for e_pair in more_env:
532	val = self.word_ev.EvalRhsWord(e_pair.val)
533	# Set each var so the next one can reference it. Example:
534	# FOO=1 BAR=$FOO ls /
535	self.mem.SetNamed(location.LName(e_pair.name),
536	val,
537	scope_e.LocalOnly,
538	flags=flags)
539
540	def _StrictErrExit(self, node):
541	# type: (command_t) -> None
542	if not (self.exec_opts.errexit() and self.exec_opts.strict_errexit()):
543	return
544
545	if _HasManyStatuses(node):
546	node_str = ui.CommandType(node)
547	e_die(
548	"strict_errexit only allows simple commands in conditionals (got %s). "
549	% node_str, loc.Command(node))
550
551	def _StrictErrExitList(self, node_list):
552	# type: (List[command_t]) -> None
553	"""Not allowed, too confusing:
554
555	if grep foo eggs.txt; grep bar eggs.txt; then echo hi fi
556	"""
557	if not (self.exec_opts.errexit() and self.exec_opts.strict_errexit()):
558	return
559
560	if len(node_list) > 1:
561	e_die(
562	"strict_errexit only allows a single command. Hint: use 'try'.",
563	loc.Command(node_list[0]))
564
565	assert len(node_list) > 0
566	node = node_list[0]
567	if _HasManyStatuses(node):
568	# TODO: consolidate error message with above
569	node_str = ui.CommandType(node)
570	e_die(
571	"strict_errexit only allows simple commands in conditionals (got %s). "
572	% node_str, loc.Command(node))
573
574	def _EvalCondition(self, cond, blame_tok):
575	# type: (condition_t, Token) -> bool
576	"""
577	Args:
578	spid: for OSH conditions, where errexit was disabled -- e.g. if
579	for YSH conditions, it would be nice to blame the ( instead
580	"""
581	b = False
582	UP_cond = cond
583	with tagswitch(cond) as case:
584	if case(condition_e.Shell):
585	cond = cast(condition.Shell, UP_cond)
586	self._StrictErrExitList(cond.commands)
587	with state.ctx_ErrExit(self.mutable_opts, False, blame_tok):
588	cond_status = self._ExecuteList(cond.commands)
589
590	b = cond_status == 0
591
592	elif case(condition_e.YshExpr):
593	cond = cast(condition.YshExpr, UP_cond)
594	obj = self.expr_ev.EvalExpr(cond.e, blame_tok)
595	b = val_ops.ToBool(obj)
596
597	return b
598
599	def _EvalCaseArg(self, arg, blame):
600	# type: (case_arg_t, loc_t) -> value_t
601	"""Evaluate a `case_arg` into a `value_t` which can be matched on in a case
602	command.
603	"""
604	UP_arg = arg
605	with tagswitch(arg) as case:
606	if case(case_arg_e.Word):
607	arg = cast(case_arg.Word, UP_arg)
608	return self.word_ev.EvalWordToString(arg.w)
609
610	elif case(case_arg_e.YshExpr):
611	arg = cast(case_arg.YshExpr, UP_arg)
612	return self.expr_ev.EvalExpr(arg.e, blame)
613
614	else:
615	raise NotImplementedError()
616
617	def _DoVarDecl(self, node):
618	# type: (command.VarDecl) -> int
619	# x = 'foo' in Hay blocks
620	if node.keyword is None:
621	# Note: there's only one LHS
622	lhs0 = node.lhs[0]
623	lval = LeftName(lhs0.name, lhs0.left)
624	assert node.rhs is not None, node
625	val = self.expr_ev.EvalExpr(node.rhs, loc.Missing)
626
627	self.mem.SetNamed(lval,
628	val,
629	scope_e.LocalOnly,
630	flags=state.SetReadOnly)
631
632	else: # var or const
633	flags = (state.SetReadOnly
634	if node.keyword.id == Id.KW_Const else 0)
635
636	# var x, y does null initialization
637	if node.rhs is None:
638	for i, lhs_val in enumerate(node.lhs):
639	lval = LeftName(lhs_val.name, lhs_val.left)
640	self.mem.SetNamed(lval,
641	value.Null,
642	scope_e.LocalOnly,
643	flags=flags)
644	return 0
645
646	right_val = self.expr_ev.EvalExpr(node.rhs, loc.Missing)
647	lvals = None # type: List[LeftName]
648	rhs_vals = None # type: List[value_t]
649
650	num_lhs = len(node.lhs)
651	if num_lhs == 1:
652	lhs0 = node.lhs[0]
653	lvals = [LeftName(lhs0.name, lhs0.left)]
654	rhs_vals = [right_val]
655	else:
656	items = val_ops.ToList(
657	right_val, 'Destructuring assignment expected List',
658	node.keyword)
659
660	num_rhs = len(items)
661	if num_lhs != num_rhs:
662	raise error.Expr(
663	'Got %d places on the left, but %d values on right' %
664	(num_lhs, num_rhs), node.keyword)
665
666	lvals = []
667	rhs_vals = []
668	for i, lhs_val in enumerate(node.lhs):
669	lval = LeftName(lhs_val.name, lhs_val.left)
670	lvals.append(lval)
671	rhs_vals.append(items[i])
672
673	for i, lval in enumerate(lvals):
674	rval = rhs_vals[i]
675	self.mem.SetNamed(lval, rval, scope_e.LocalOnly, flags=flags)
676
677	return 0
678
679	def _DoMutation(self, node):
680	# type: (command.Mutation) -> None
681
682	with switch(node.keyword.id) as case2:
683	if case2(Id.KW_SetVar):
684	which_scopes = scope_e.LocalOnly
685	elif case2(Id.KW_SetGlobal):
686	which_scopes = scope_e.GlobalOnly
687	else:
688	raise AssertionError(node.keyword.id)
689
690	if node.op.id == Id.Arith_Equal:
691	right_val = self.expr_ev.EvalExpr(node.rhs, loc.Missing)
692
693	lvals = None # type: List[y_lvalue_t]
694	rhs_vals = None # type: List[value_t]
695
696	num_lhs = len(node.lhs)
697	if num_lhs == 1:
698	lvals = [self.expr_ev.EvalLhsExpr(node.lhs[0], which_scopes)]
699	rhs_vals = [right_val]
700	else:
701	items = val_ops.ToList(
702	right_val, 'Destructuring assignment expected List',
703	node.keyword)
704
705	num_rhs = len(items)
706	if num_lhs != num_rhs:
707	raise error.Expr(
708	'Got %d places on the left, but %d values on the right'
709	% (num_lhs, num_rhs), node.keyword)
710
711	lvals = []
712	rhs_vals = []
713	for i, lhs_val in enumerate(node.lhs):
714	lvals.append(
715	self.expr_ev.EvalLhsExpr(lhs_val, which_scopes))
716	rhs_vals.append(items[i])
717
718	for i, lval in enumerate(lvals):
719	rval = rhs_vals[i]
720
721	# setvar mylist[0] = 42
722	# setvar mydict['key'] = 42
723	UP_lval = lval
724
725	if lval.tag() == y_lvalue_e.Local:
726	lval = cast(LeftName, UP_lval)
727
728	self.mem.SetNamed(lval, rval, which_scopes)
729
730	elif lval.tag() == y_lvalue_e.Container:
731	lval = cast(y_lvalue.Container, UP_lval)
732
733	obj = lval.obj
734	UP_obj = obj
735	with tagswitch(obj) as case:
736	if case(value_e.List):
737	obj = cast(value.List, UP_obj)
738	index = val_ops.ToInt(lval.index,
739	'List index should be Int',
740	loc.Missing)
741	obj.items[index] = rval
742
743	elif case(value_e.Dict):
744	obj = cast(value.Dict, UP_obj)
745	key = val_ops.ToStr(lval.index,
746	'Dict index should be Str',
747	loc.Missing)
748	obj.d[key] = rval
749
750	else:
751	raise error.TypeErr(
752	obj, "obj[index] expected List or Dict",
753	loc.Missing)
754
755	else:
756	raise AssertionError()
757
758	else:
759	# Checked in the parser
760	assert len(node.lhs) == 1
761
762	aug_lval = self.expr_ev.EvalLhsExpr(node.lhs[0], which_scopes)
763	val = self.expr_ev.EvalExpr(node.rhs, loc.Missing)
764
765	self.expr_ev.EvalAugmented(aug_lval, val, node.op, which_scopes)
766
767	def _DoSimple(self, node, cmd_st):
768	# type: (command.Simple, CommandStatus) -> int
769	probe('cmd_eval', '_DoSimple_enter')
770
771	# PROBLEM: We want to log argv in 'xtrace' mode, but we may have already
772	# redirected here, which screws up logging. For example, 'echo hi
773	# >/dev/null 2>&1'. We want to evaluate argv and log it BEFORE applying
774	# redirects.
775
776	# Another problem:
777	# - tracing can be called concurrently from multiple processes, leading
778	# to overlap. Maybe have a mode that creates a file per process.
779	# xtrace-proc
780	# - line numbers for every command would be very nice. But then you have
781	# to print the filename too.
782
783	words = braces.BraceExpandWords(node.words)
784
785	# Note: Individual WORDS can fail
786	# - $() and <() can have failures. This can happen in DBracket,
787	# DParen, etc. too
788	# - Tracing: this can start processes for proc sub and here docs!
789	cmd_val = self.word_ev.EvalWordSequence2(words, allow_assign=True)
790
791	UP_cmd_val = cmd_val
792	if UP_cmd_val.tag() == cmd_value_e.Argv:
793	cmd_val = cast(cmd_value.Argv, UP_cmd_val)
794
795	if len(cmd_val.argv): # it can be empty in rare cases
796	self.mem.SetLastArgument(cmd_val.argv[-1])
797	else:
798	self.mem.SetLastArgument('')
799
800	if node.typed_args or node.block: # guard to avoid allocs
801	func_proc.EvalTypedArgsToProc(self.expr_ev, self.mutable_opts,
802	node, cmd_val)
803	else:
804	if node.block:
805	e_die("ShAssignment builtins don't accept blocks",
806	node.block.brace_group.left)
807	cmd_val = cast(cmd_value.Assign, UP_cmd_val)
808
809	# Could reset $_ after assignment, but then we'd have to do it for
810	# all YSH constructs too. It's easier to let it persist. Other
811	# shells aren't consistent.
812	# self.mem.SetLastArgument('')
813
814	run_flags = executor.DO_FORK if node.do_fork else 0
815	# NOTE: RunSimpleCommand never returns when do_fork=False!
816	if len(node.more_env): # I think this guard is necessary?
817	is_other_special = False # TODO: There are other special builtins too!
818	if cmd_val.tag() == cmd_value_e.Assign or is_other_special:
819	# Special builtins have their temp env persisted.
820	self._EvalTempEnv(node.more_env, 0)
821	status = self._RunSimpleCommand(cmd_val, cmd_st, run_flags)
822	else:
823	with state.ctx_Temp(self.mem):
824	self._EvalTempEnv(node.more_env, state.SetExport)
825	status = self._RunSimpleCommand(cmd_val, cmd_st, run_flags)
826	else:
827	status = self._RunSimpleCommand(cmd_val, cmd_st, run_flags)
828
829	probe('cmd_eval', '_DoSimple_exit', status)
830	return status
831
832	def _DoExpandedAlias(self, node):
833	# type: (command.ExpandedAlias) -> int
834	# Expanded aliases need redirects and env bindings from the calling
835	# context, as well as redirects in the expansion!
836
837	# TODO: SetTokenForLine to OUTSIDE? Don't bother with stuff inside
838	# expansion, since aliases are discouraged.
839
840	if len(node.more_env):
841	with state.ctx_Temp(self.mem):
842	self._EvalTempEnv(node.more_env, state.SetExport)
843	return self._Execute(node.child)
844	else:
845	return self._Execute(node.child)
846
847	def _DoPipeline(self, node, cmd_st):
848	# type: (command.Pipeline, CommandStatus) -> int
849	cmd_st.check_errexit = True
850	for op in node.ops:
851	if op.id != Id.Op_Pipe:
852	e_die("\|& isn't supported", op)
853
854	# Remove $_ before pipeline. This matches bash, and is important in
855	# pipelines than assignments because pipelines are non-deterministic.
856	self.mem.SetLastArgument('')
857
858	# Set status to INVALID value, because we MIGHT set cmd_st.pipe_status,
859	# which _Execute() boils down into a status for us.
860	status = -1
861
862	if node.negated is not None:
863	self._StrictErrExit(node)
864	with state.ctx_ErrExit(self.mutable_opts, False, node.negated):
865	# '! grep' is parsed as a pipeline, according to the grammar, but
866	# there's no pipe() call.
867	if len(node.children) == 1:
868	tmp_status = self._Execute(node.children[0])
869	status = 1 if tmp_status == 0 else 0
870	else:
871	self.shell_ex.RunPipeline(node, cmd_st)
872	cmd_st.pipe_negated = True
873
874	# errexit is disabled for !.
875	cmd_st.check_errexit = False
876	else:
877	self.shell_ex.RunPipeline(node, cmd_st)
878
879	return status
880
881	def _DoShAssignment(self, node, cmd_st):
882	# type: (command.ShAssignment, CommandStatus) -> int
883	assert len(node.pairs) >= 1, node
884
885	# x=y is 'neutered' inside 'proc'
886	which_scopes = self.mem.ScopesForWriting()
887
888	for pair in node.pairs:
889	if pair.op == assign_op_e.PlusEqual:
890	assert pair.rhs, pair.rhs # I don't think a+= is valid?
891	rhs = self.word_ev.EvalRhsWord(pair.rhs)
892
893	lval = self.arith_ev.EvalShellLhs(pair.lhs, which_scopes)
894	# do not respect set -u
895	old_val = sh_expr_eval.OldValue(lval, self.mem, None)
896
897	val = PlusEquals(old_val, rhs)
898
899	else: # plain assignment
900	lval = self.arith_ev.EvalShellLhs(pair.lhs, which_scopes)
901
902	# RHS can be a string or array.
903	if pair.rhs:
904	val = self.word_ev.EvalRhsWord(pair.rhs)
905	assert isinstance(val, value_t), val
906
907	else: # e.g. 'readonly x' or 'local x'
908	val = None
909
910	# NOTE: In bash and mksh, declare -a myarray makes an empty cell
911	# with Undef value, but the 'array' attribute.
912
913	flags = 0 # for tracing
914	self.mem.SetValue(lval, val, which_scopes, flags=flags)
915	self.tracer.OnShAssignment(lval, pair.op, val, flags, which_scopes)
916
917	# PATCH to be compatible with existing shells: If the assignment had a
918	# command sub like:
919	#
920	# s=$(echo one; false)
921	#
922	# then its status will be in mem.last_status, and we can check it here.
923	# If there was NOT a command sub in the assignment, then we don't want to
924	# check it.
925
926	# Only do this if there was a command sub? How? Look at node?
927	# Set a flag in mem? self.mem.last_status or
928	if self.check_command_sub_status:
929	last_status = self.mem.LastStatus()
930	self._CheckStatus(last_status, cmd_st, node, loc.Missing)
931	return last_status # A global assignment shouldn't clear $?.
932	else:
933	return 0
934
935	def _DoExpr(self, node):
936	# type: (command.Expr) -> int
937
938	# call f(x) or = f(x)
939	val = self.expr_ev.EvalExpr(node.e, loc.Missing)
940
941	if node.keyword.id == Id.Lit_Equals: # = f(x)
942	io_errors = [] # type: List[error.IOError_OSError]
943	with vm.ctx_FlushStdout(io_errors):
944	try:
945	ui.PrettyPrintValue(val, mylib.Stdout())
946	except (IOError, OSError) as e:
947	self.errfmt.PrintMessage(
948	'I/O error during = keyword: %s' % pyutil.strerror(e),
949	node.keyword)
950	return 1
951
952	if len(io_errors): # e.g. disk full, ulimit
953	self.errfmt.PrintMessage(
954	'I/O error during = keyword: %s' %
955	pyutil.strerror(io_errors[0]), node.keyword)
956	return 1
957
958	return 0
959
960	def _DoControlFlow(self, node):
961	# type: (command.ControlFlow) -> int
962	keyword = node.keyword
963
964	if node.arg_word: # Evaluate the argument
965	str_val = self.word_ev.EvalWordToString(node.arg_word)
966
967	# Quirk: We need 'return $empty' to be valid for libtool. This is
968	# another meaning of strict_control_flow, which also has to do with
969	# break/continue at top level. It has the side effect of making
970	# 'return ""' valid, which shells other than zsh fail on.
971	if (len(str_val.s) == 0 and
972	not self.exec_opts.strict_control_flow()):
973	arg = 0
974	else:
975	try:
976	arg = int(str_val.s) # all control flow takes an integer
977	except ValueError:
978	# Either a bad argument, or integer overflow
979	e_die(
980	'%r expected a small integer, got %r' %
981	(lexer.TokenVal(keyword), str_val.s),
982	loc.Word(node.arg_word))
983
984	# C++ int() does range checking, but Python doesn't. So let's
985	# simulate it here for spec tests.
986	# TODO: could be mylib.ToMachineInt()? Problem: 'int' in C/C++
987	# could be more than 4 bytes. We are testing INT_MAX and
988	# INT_MIN in gc_builtins.cc - those could be hard-coded.
989	if mylib.PYTHON:
990	max_int = (1 << 31) - 1
991	min_int = -(1 << 31)
992	if not (min_int <= arg <= max_int):
993	e_die(
994	'%r expected a small integer, got %r' %
995	(lexer.TokenVal(keyword), str_val.s),
996	loc.Word(node.arg_word))
997	else:
998	if keyword.id in (Id.ControlFlow_Exit, Id.ControlFlow_Return):
999	arg = self.mem.LastStatus()
1000	else:
1001	arg = 1 # break or continue 1 level by default
1002
1003	self.tracer.OnControlFlow(consts.ControlFlowName(keyword.id), arg)
1004
1005	# NOTE: A top-level 'return' is OK, unlike in bash. If you can return
1006	# from a sourced script, it makes sense to return from a main script.
1007	if (keyword.id in (Id.ControlFlow_Break, Id.ControlFlow_Continue) and
1008	self.loop_level == 0):
1009	msg = 'Invalid control flow at top level'
1010	if self.exec_opts.strict_control_flow():
1011	e_die(msg, keyword)
1012	else:
1013	# Only print warnings, never fatal.
1014	# Bash oddly only exits 1 for 'return', but no other shell does.
1015	self.errfmt.PrefixPrint(msg, 'warning: ', keyword)
1016	return 0
1017
1018	if keyword.id == Id.ControlFlow_Exit:
1019	# handled differently than other control flow
1020	raise util.UserExit(arg)
1021	else:
1022	raise vm.IntControlFlow(keyword, arg)
1023
1024	def _DoAndOr(self, node, cmd_st):
1025	# type: (command.AndOr, CommandStatus) -> int
1026	# NOTE: && and \|\| have EQUAL precedence in command mode. See case #13
1027	# in dbracket.test.sh.
1028
1029	left = node.children[0]
1030
1031	# Suppress failure for every child except the last one.
1032	self._StrictErrExit(left)
1033	with state.ctx_ErrExit(self.mutable_opts, False, node.ops[0]):
1034	status = self._Execute(left)
1035
1036	i = 1
1037	n = len(node.children)
1038	while i < n:
1039	#log('i %d status %d', i, status)
1040	child = node.children[i]
1041	op = node.ops[i - 1]
1042	op_id = op.id
1043
1044	#log('child %s op_id %s', child, op_id)
1045
1046	if op_id == Id.Op_DPipe and status == 0:
1047	i += 1
1048	continue # short circuit
1049
1050	elif op_id == Id.Op_DAmp and status != 0:
1051	i += 1
1052	continue # short circuit
1053
1054	if i == n - 1: # errexit handled differently for last child
1055	status = self._Execute(child)
1056	else:
1057	# blame the right && or \|\|
1058	self._StrictErrExit(child)
1059	with state.ctx_ErrExit(self.mutable_opts, False, op):
1060	status = self._Execute(child)
1061
1062	i += 1
1063
1064	return status
1065
1066	def _DoWhileUntil(self, node):
1067	# type: (command.WhileUntil) -> int
1068	status = 0
1069	with ctx_LoopLevel(self):
1070	while True:
1071	try:
1072	# blame while/until spid
1073	b = self._EvalCondition(node.cond, node.keyword)
1074	if node.keyword.id == Id.KW_Until:
1075	b = not b
1076	if not b:
1077	break
1078	status = self._Execute(node.body) # last one wins
1079
1080	except vm.IntControlFlow as e:
1081	status = 0
1082	action = e.HandleLoop()
1083	if action == flow_e.Break:
1084	break
1085	elif action == flow_e.Raise:
1086	raise
1087
1088	return status
1089
1090	def _DoForEach(self, node):
1091	# type: (command.ForEach) -> int
1092
1093	# for the 2 kinds of shell loop
1094	iter_list = None # type: List[str]
1095
1096	# for YSH loop
1097	iter_expr = None # type: expr_t
1098	expr_blame = None # type: loc_t
1099
1100	iterable = node.iterable
1101	UP_iterable = iterable
1102
1103	with tagswitch(node.iterable) as case:
1104	if case(for_iter_e.Args):
1105	iter_list = self.mem.GetArgv()
1106
1107	elif case(for_iter_e.Words):
1108	iterable = cast(for_iter.Words, UP_iterable)
1109	words = braces.BraceExpandWords(iterable.words)
1110	iter_list = self.word_ev.EvalWordSequence(words)
1111
1112	elif case(for_iter_e.YshExpr):
1113	iterable = cast(for_iter.YshExpr, UP_iterable)
1114	iter_expr = iterable.e
1115	expr_blame = iterable.blame
1116
1117	n = len(node.iter_names)
1118	assert n > 0
1119
1120	i_name = None # type: Optional[LeftName]
1121	# required
1122	name1 = None # type: LeftName
1123	name2 = None # type: Optional[LeftName]
1124
1125	it2 = None # type: val_ops._ContainerIter
1126	if iter_list is None: # for_expr.YshExpr
1127	val = self.expr_ev.EvalExpr(iter_expr, expr_blame)
1128
1129	UP_val = val
1130	with tagswitch(val) as case:
1131	if case(value_e.List):
1132	val = cast(value.List, UP_val)
1133	it2 = val_ops.ListIterator(val)
1134
1135	if n == 1:
1136	name1 = location.LName(node.iter_names[0])
1137	elif n == 2:
1138	i_name = location.LName(node.iter_names[0])
1139	name1 = location.LName(node.iter_names[1])
1140	else:
1141	# This is similar to a parse error
1142	e_die_status(
1143	2,
1144	'List iteration expects at most 2 loop variables',
1145	node.keyword)
1146
1147	elif case(value_e.Dict):
1148	val = cast(value.Dict, UP_val)
1149	it2 = val_ops.DictIterator(val)
1150
1151	if n == 1:
1152	name1 = location.LName(node.iter_names[0])
1153	elif n == 2:
1154	name1 = location.LName(node.iter_names[0])
1155	name2 = location.LName(node.iter_names[1])
1156	elif n == 3:
1157	i_name = location.LName(node.iter_names[0])
1158	name1 = location.LName(node.iter_names[1])
1159	name2 = location.LName(node.iter_names[2])
1160	else:
1161	raise AssertionError()
1162
1163	elif case(value_e.Range):
1164	val = cast(value.Range, UP_val)
1165	it2 = val_ops.RangeIterator(val)
1166
1167	if n == 1:
1168	name1 = location.LName(node.iter_names[0])
1169	elif n == 2:
1170	i_name = location.LName(node.iter_names[0])
1171	name1 = location.LName(node.iter_names[1])
1172	else:
1173	e_die_status(
1174	2,
1175	'Range iteration expects at most 2 loop variables',
1176	node.keyword)
1177
1178	else:
1179	raise error.TypeErr(val, 'for loop expected List or Dict',
1180	node.keyword)
1181	else:
1182	#log('iter list %s', iter_list)
1183	it2 = val_ops.ArrayIter(iter_list)
1184
1185	if n == 1:
1186	name1 = location.LName(node.iter_names[0])
1187	elif n == 2:
1188	i_name = location.LName(node.iter_names[0])
1189	name1 = location.LName(node.iter_names[1])
1190	else:
1191	# This is similar to a parse error
1192	e_die_status(
1193	2, 'Argv iteration expects at most 2 loop variables',
1194	node.keyword)
1195
1196	status = 0 # in case we loop zero times
1197	with ctx_LoopLevel(self):
1198	while not it2.Done():
1199	self.mem.SetLocalName(name1, it2.FirstValue())
1200	if name2:
1201	self.mem.SetLocalName(name2, it2.SecondValue())
1202	if i_name:
1203	self.mem.SetLocalName(i_name, num.ToBig(it2.Index()))
1204
1205	# increment index before handling continue, etc.
1206	it2.Next()
1207
1208	try:
1209	status = self._Execute(node.body) # last one wins
1210	except vm.IntControlFlow as e:
1211	status = 0
1212	action = e.HandleLoop()
1213	if action == flow_e.Break:
1214	break
1215	elif action == flow_e.Raise:
1216	raise
1217
1218	return status
1219
1220	def _DoForExpr(self, node):
1221	# type: (command.ForExpr) -> int
1222
1223	status = 0
1224
1225	init = node.init
1226	for_cond = node.cond
1227	body = node.body
1228	update = node.update
1229
1230	self.arith_ev.Eval(init)
1231	with ctx_LoopLevel(self):
1232	while True:
1233	# We only accept integers as conditions
1234	cond_int = self.arith_ev.EvalToBigInt(for_cond)
1235	if mops.Equal(cond_int, mops.ZERO): # false
1236	break
1237
1238	try:
1239	status = self._Execute(body)
1240	except vm.IntControlFlow as e:
1241	status = 0
1242	action = e.HandleLoop()
1243	if action == flow_e.Break:
1244	break
1245	elif action == flow_e.Raise:
1246	raise
1247
1248	self.arith_ev.Eval(update)
1249
1250	return status
1251
1252	def _DoShFunction(self, node):
1253	# type: (command.ShFunction) -> None
1254	if node.name in self.procs and not self.exec_opts.redefine_proc_func():
1255	e_die(
1256	"Function %s was already defined (redefine_proc_func)" %
1257	node.name, node.name_tok)
1258	self.procs[node.name] = value.Proc(node.name, node.name_tok,
1259	proc_sig.Open, node.body, None,
1260	True)
1261
1262	def _DoProc(self, node):
1263	# type: (Proc) -> None
1264	proc_name = lexer.TokenVal(node.name)
1265	if proc_name in self.procs and not self.exec_opts.redefine_proc_func():
1266	e_die(
1267	"Proc %s was already defined (redefine_proc_func)" % proc_name,
1268	node.name)
1269
1270	if node.sig.tag() == proc_sig_e.Closed:
1271	sig = cast(proc_sig.Closed, node.sig)
1272	proc_defaults = func_proc.EvalProcDefaults(self.expr_ev, sig)
1273	else:
1274	proc_defaults = None
1275
1276	# no dynamic scope
1277	self.procs[proc_name] = value.Proc(proc_name, node.name, node.sig,
1278	node.body, proc_defaults, False)
1279
1280	def _DoFunc(self, node):
1281	# type: (Func) -> None
1282	name = lexer.TokenVal(node.name)
1283	lval = location.LName(name)
1284
1285	# Check that we haven't already defined a function
1286	cell = self.mem.GetCell(name, scope_e.LocalOnly)
1287	if cell and cell.val.tag() == value_e.Func:
1288	if self.exec_opts.redefine_proc_func():
1289	cell.readonly = False # Ensure we can unset the value
1290	did_unset = self.mem.Unset(lval, scope_e.LocalOnly)
1291	assert did_unset, name
1292	else:
1293	e_die(
1294	"Func %s was already defined (redefine_proc_func)" % name,
1295	node.name)
1296
1297	pos_defaults, named_defaults = func_proc.EvalFuncDefaults(
1298	self.expr_ev, node)
1299	func_val = value.Func(name, node, pos_defaults, named_defaults, None)
1300
1301	self.mem.SetNamed(lval,
1302	func_val,
1303	scope_e.LocalOnly,
1304	flags=state.SetReadOnly)
1305
1306	def _DoIf(self, node):
1307	# type: (command.If) -> int
1308	status = -1
1309
1310	done = False
1311	for if_arm in node.arms:
1312	b = self._EvalCondition(if_arm.cond, if_arm.keyword)
1313	if b:
1314	status = self._ExecuteList(if_arm.action)
1315	done = True
1316	break
1317
1318	if not done and node.else_action is not None:
1319	status = self._ExecuteList(node.else_action)
1320
1321	assert status != -1, 'Should have been initialized'
1322	return status
1323
1324	def _DoCase(self, node):
1325	# type: (command.Case) -> int
1326
1327	to_match = self._EvalCaseArg(node.to_match, node.case_kw)
1328	fnmatch_flags = FNM_CASEFOLD if self.exec_opts.nocasematch() else 0
1329
1330	status = 0 # If there are no arms, it should be zero?
1331
1332	done = False # Should we try the next arm?
1333
1334	# For &; terminator - not just case fallthrough, but IGNORE the condition!
1335	ignore_next_cond = False
1336
1337	for case_arm in node.arms:
1338	with tagswitch(case_arm.pattern) as case:
1339	if case(pat_e.Words):
1340	if to_match.tag() != value_e.Str:
1341	continue # A non-string `to_match` will never match a pat.Words
1342	to_match_str = cast(value.Str, to_match)
1343
1344	pat_words = cast(pat.Words, case_arm.pattern)
1345
1346	this_arm_matches = False
1347	if ignore_next_cond: # Special handling for ;&
1348	this_arm_matches = True
1349	ignore_next_cond = False
1350	else:
1351	for pat_word in pat_words.words:
1352	word_val = self.word_ev.EvalWordToString(
1353	pat_word, word_eval.QUOTE_FNMATCH)
1354
1355	if libc.fnmatch(word_val.s, to_match_str.s,
1356	fnmatch_flags):
1357	this_arm_matches = True
1358	break # Stop at first pattern
1359
1360	if this_arm_matches:
1361	status = self._ExecuteList(case_arm.action)
1362	done = True
1363
1364	# ;& and ;;& only apply to shell-style case
1365	if case_arm.right:
1366	id_ = case_arm.right.id
1367	if id_ == Id.Op_SemiAmp:
1368	# very weird semantic
1369	ignore_next_cond = True
1370	done = False
1371	elif id_ == Id.Op_DSemiAmp:
1372	# Keep going until next pattern
1373	done = False
1374
1375	elif case(pat_e.YshExprs):
1376	pat_exprs = cast(pat.YshExprs, case_arm.pattern)
1377
1378	for pat_expr in pat_exprs.exprs:
1379	expr_val = self.expr_ev.EvalExpr(
1380	pat_expr, case_arm.left)
1381
1382	if val_ops.ExactlyEqual(expr_val, to_match,
1383	case_arm.left):
1384	status = self._ExecuteList(case_arm.action)
1385	done = True
1386	break
1387
1388	elif case(pat_e.Eggex):
1389	eggex = cast(Eggex, case_arm.pattern)
1390	eggex_val = self.expr_ev.EvalEggex(eggex)
1391
1392	if val_ops.MatchRegex(to_match, eggex_val, self.mem):
1393	status = self._ExecuteList(case_arm.action)
1394	done = True
1395	break
1396
1397	elif case(pat_e.Else):
1398	status = self._ExecuteList(case_arm.action)
1399	done = True
1400	break
1401
1402	else:
1403	raise AssertionError()
1404
1405	if done: # first match wins
1406	break
1407
1408	return status
1409
1410	def _DoTimeBlock(self, node):
1411	# type: (command.TimeBlock) -> int
1412	# TODO:
1413	# - When do we need RUSAGE_CHILDREN?
1414	# - Respect TIMEFORMAT environment variable.
1415	# "If this variable is not set, Bash acts as if it had the value"
1416	# $'\nreal\t%3lR\nuser\t%3lU\nsys\t%3lS'
1417	# "A trailing newline is added when the format string is displayed."
1418
1419	s_real, s_user, s_sys = pyos.Time()
1420	status = self._Execute(node.pipeline)
1421	e_real, e_user, e_sys = pyos.Time()
1422	# note: mycpp doesn't support %.3f
1423	libc.print_time(e_real - s_real, e_user - s_user, e_sys - s_sys)
1424
1425	return status
1426
1427	def _DoRedirect(self, node, cmd_st):
1428	# type: (command.Redirect, CommandStatus) -> int
1429
1430	status = 0
1431	redirects = [] # type: List[RedirValue]
1432
1433	try:
1434	for redir in node.redirects:
1435	redirects.append(self._EvalRedirect(redir))
1436	except error.RedirectEval as e:
1437	self.errfmt.PrettyPrintError(e)
1438	redirects = None
1439	except error.FailGlob as e: # e.g. echo hi > foo-*
1440	if not e.HasLocation():
1441	e.location = self.mem.GetFallbackLocation()
1442	self.errfmt.PrettyPrintError(e, prefix='failglob: ')
1443	redirects = None
1444
1445	if redirects is None:
1446	# Error evaluating redirect words
1447	status = 1
1448
1449	# Translation fix: redirect I/O errors may happen in a C++
1450	# destructor ~vm::ctx_Redirect, which means they must be signaled
1451	# by out params, not exceptions.
1452	io_errors = [] # type: List[error.IOError_OSError]
1453
1454	# If we evaluated redirects, apply/push them
1455	if status == 0:
1456	self.shell_ex.PushRedirects(redirects, io_errors)
1457	if len(io_errors):
1458	# core/process.py prints cryptic errors, so we repeat them
1459	# here. e.g. Bad File Descriptor
1460	self.errfmt.PrintMessage(
1461	'I/O error applying redirect: %s' %
1462	pyutil.strerror(io_errors[0]),
1463	self.mem.GetFallbackLocation())
1464	status = 1
1465
1466	# If we applied redirects successfully, run the command_t, and pop
1467	# them.
1468	if status == 0:
1469	with vm.ctx_Redirect(self.shell_ex, len(redirects), io_errors):
1470	status = self._Execute(node.child)
1471	if len(io_errors):
1472	# It would be better to point to the right redirect
1473	# operator, but we don't track it specifically
1474	e_die("Fatal error popping redirect: %s" %
1475	pyutil.strerror(io_errors[0]))
1476
1477	return status
1478
1479	def _Dispatch(self, node, cmd_st):
1480	# type: (command_t, CommandStatus) -> int
1481	"""Switch on the command_t variants and execute them."""
1482
1483	# If we call RunCommandSub in a recursive call to the executor, this will
1484	# be set true (if strict_errexit is false). But it only lasts for one
1485	# command.
1486	probe('cmd_eval', '_Dispatch', node.tag())
1487	self.check_command_sub_status = False
1488
1489	UP_node = node
1490	with tagswitch(node) as case:
1491	if case(command_e.Simple): # LEAF command
1492	node = cast(command.Simple, UP_node)
1493
1494	# for $LINENO, e.g. PS4='+$SOURCE_NAME:$LINENO:'
1495	# Note that for '> $LINENO' the location token is set in _EvalRedirect.
1496	# TODO: blame_tok should always be set.
1497	if node.blame_tok is not None:
1498	self.mem.SetTokenForLine(node.blame_tok)
1499
1500	self._MaybeRunDebugTrap()
1501	cmd_st.check_errexit = True
1502	status = self._DoSimple(node, cmd_st)
1503
1504	elif case(command_e.ExpandedAlias):
1505	node = cast(command.ExpandedAlias, UP_node)
1506	status = self._DoExpandedAlias(node)
1507
1508	elif case(command_e.Sentence):
1509	node = cast(command.Sentence, UP_node)
1510
1511	# Don't check_errexit since this isn't a leaf command
1512	if node.terminator.id == Id.Op_Semi:
1513	status = self._Execute(node.child)
1514	else:
1515	status = self.shell_ex.RunBackgroundJob(node.child)
1516
1517	elif case(command_e.Redirect):
1518	node = cast(command.Redirect, UP_node)
1519
1520	# set -e affects redirect error, like mksh and bash 5.2, but unlike
1521	# dash/ash
1522	cmd_st.check_errexit = True
1523	status = self._DoRedirect(node, cmd_st)
1524
1525	elif case(command_e.Pipeline):
1526	node = cast(command.Pipeline, UP_node)
1527	status = self._DoPipeline(node, cmd_st)
1528
1529	elif case(command_e.Subshell):
1530	node = cast(command.Subshell, UP_node)
1531
1532	# This is a leaf from the parent process POV
1533	cmd_st.check_errexit = True
1534	status = self.shell_ex.RunSubshell(node.child)
1535
1536	elif case(command_e.DBracket): # LEAF command
1537	node = cast(command.DBracket, UP_node)
1538
1539	self.mem.SetTokenForLine(node.left)
1540	self._MaybeRunDebugTrap()
1541
1542	self.tracer.PrintSourceCode(node.left, node.right, self.arena)
1543
1544	cmd_st.check_errexit = True
1545	cmd_st.show_code = True # this is a "leaf" for errors
1546	result = self.bool_ev.EvalB(node.expr)
1547	status = 0 if result else 1
1548
1549	elif case(command_e.DParen): # LEAF command
1550	node = cast(command.DParen, UP_node)
1551
1552	self.mem.SetTokenForLine(node.left)
1553	self._MaybeRunDebugTrap()
1554
1555	self.tracer.PrintSourceCode(node.left, node.right, self.arena)
1556
1557	cmd_st.check_errexit = True
1558	cmd_st.show_code = True # this is a "leaf" for errors
1559	i = self.arith_ev.EvalToBigInt(node.child)
1560	status = 1 if mops.Equal(i, mops.ZERO) else 0
1561
1562	elif case(command_e.ControlFlow): # LEAF command
1563	node = cast(command.ControlFlow, UP_node)
1564
1565	self.mem.SetTokenForLine(node.keyword)
1566	self._MaybeRunDebugTrap()
1567
1568	status = self._DoControlFlow(node)
1569
1570	elif case(command_e.VarDecl): # LEAF command
1571	node = cast(command.VarDecl, UP_node)
1572
1573	# Point to var name (bare assignment has no keyword)
1574	self.mem.SetTokenForLine(node.lhs[0].left)
1575	status = self._DoVarDecl(node)
1576
1577	elif case(command_e.Mutation): # LEAF command
1578	node = cast(command.Mutation, UP_node)
1579
1580	self.mem.SetTokenForLine(node.keyword) # point to setvar/set
1581	self._DoMutation(node)
1582	status = 0 # if no exception is thrown, it succeeds
1583
1584	elif case(command_e.ShAssignment): # LEAF command
1585	node = cast(command.ShAssignment, UP_node)
1586
1587	self.mem.SetTokenForLine(node.pairs[0].left)
1588	self._MaybeRunDebugTrap()
1589
1590	# Only unqualified assignment a=b
1591	status = self._DoShAssignment(node, cmd_st)
1592
1593	elif case(command_e.Expr): # YSH LEAF command
1594	node = cast(command.Expr, UP_node)
1595
1596	self.mem.SetTokenForLine(node.keyword)
1597	# YSH debug trap?
1598
1599	status = self._DoExpr(node)
1600
1601	elif case(command_e.Retval): # YSH LEAF command
1602	node = cast(command.Retval, UP_node)
1603
1604	self.mem.SetTokenForLine(node.keyword)
1605	# YSH debug trap? I think we don't want the debug trap in func
1606	# dialect, for speed?
1607
1608	val = self.expr_ev.EvalExpr(node.val, node.keyword)
1609	raise vm.ValueControlFlow(node.keyword, val)
1610
1611	# Note CommandList and DoGroup have no redirects, but BraceGroup does.
1612	# DoGroup has 'do' and 'done' spids for translation.
1613	elif case(command_e.CommandList):
1614	node = cast(command.CommandList, UP_node)
1615	status = self._ExecuteList(node.children)
1616
1617	elif case(command_e.DoGroup):
1618	node = cast(command.DoGroup, UP_node)
1619	status = self._ExecuteList(node.children)
1620
1621	elif case(command_e.BraceGroup):
1622	node = cast(BraceGroup, UP_node)
1623	status = self._ExecuteList(node.children)
1624
1625	elif case(command_e.AndOr):
1626	node = cast(command.AndOr, UP_node)
1627	status = self._DoAndOr(node, cmd_st)
1628
1629	elif case(command_e.WhileUntil):
1630	node = cast(command.WhileUntil, UP_node)
1631
1632	self.mem.SetTokenForLine(node.keyword)
1633	status = self._DoWhileUntil(node)
1634
1635	elif case(command_e.ForEach):
1636	node = cast(command.ForEach, UP_node)
1637
1638	self.mem.SetTokenForLine(node.keyword)
1639	status = self._DoForEach(node)
1640
1641	elif case(command_e.ForExpr):
1642	node = cast(command.ForExpr, UP_node)
1643
1644	self.mem.SetTokenForLine(node.keyword) # for x in $LINENO
1645	status = self._DoForExpr(node)
1646
1647	elif case(command_e.ShFunction):
1648	node = cast(command.ShFunction, UP_node)
1649	self._DoShFunction(node)
1650	status = 0
1651
1652	elif case(command_e.Proc):
1653	node = cast(Proc, UP_node)
1654	self._DoProc(node)
1655	status = 0
1656
1657	elif case(command_e.Func):
1658	node = cast(Func, UP_node)
1659
1660	# Needed for error, when the func is an existing variable name
1661	self.mem.SetTokenForLine(node.name)
1662
1663	self._DoFunc(node)
1664	status = 0
1665
1666	elif case(command_e.If):
1667	node = cast(command.If, UP_node)
1668
1669	# No SetTokenForLine() because
1670	# - $LINENO can't appear directly in 'if'
1671	# - 'if' doesn't directly cause errors
1672	# It will be taken care of by command.Simple, condition, etc.
1673	status = self._DoIf(node)
1674
1675	elif case(command_e.NoOp):
1676	status = 0 # make it true
1677
1678	elif case(command_e.Case):
1679	node = cast(command.Case, UP_node)
1680
1681	# Must set location for 'case $LINENO'
1682	self.mem.SetTokenForLine(node.case_kw)
1683	self._MaybeRunDebugTrap()
1684	status = self._DoCase(node)
1685
1686	elif case(command_e.TimeBlock):
1687	node = cast(command.TimeBlock, UP_node)
1688	status = self._DoTimeBlock(node)
1689
1690	else:
1691	raise NotImplementedError(node.tag())
1692
1693	# Return to caller. Note the only case that didn't set it was Pipeline,
1694	# which set cmd_st.pipe_status.
1695	return status
1696
1697	def RunPendingTraps(self):
1698	# type: () -> None
1699
1700	trap_nodes = self.trap_state.GetPendingTraps()
1701	if trap_nodes is not None:
1702	with state.ctx_Option(self.mutable_opts, [option_i._running_trap],
1703	True):
1704	for trap_node in trap_nodes:
1705	# Isolate the exit status.
1706	with state.ctx_Registers(self.mem):
1707	# Trace it. TODO: Show the trap kind too
1708	with dev.ctx_Tracer(self.tracer, 'trap', None):
1709	self._Execute(trap_node)
1710
1711	def _Execute(self, node):
1712	# type: (command_t) -> int
1713	"""Call _Dispatch(), and performs the errexit check.
1714
1715	Also runs trap handlers.
1716	"""
1717	# TODO: Do this in "leaf" nodes? SimpleCommand, DBracket, DParen should
1718	# call self.DoTick()? That will RunPendingTraps and check the Ctrl-C flag,
1719	# and maybe throw an exception.
1720	self.RunPendingTraps()
1721
1722	# We only need this somewhat hacky check in osh-cpp since python's runtime
1723	# handles SIGINT for us in osh.
1724	if mylib.CPP:
1725	if self.signal_safe.PollSigInt():
1726	raise KeyboardInterrupt()
1727
1728	# Manual GC point before every statement
1729	mylib.MaybeCollect()
1730
1731	# Optimization: These 2 records have rarely-used lists, so we don't pass
1732	# alloc_lists=True. We create them on demand.
1733	cmd_st = CommandStatus.CreateNull()
1734	if len(self.status_array_pool):
1735	# Optimized to avoid allocs
1736	process_sub_st = self.status_array_pool.pop()
1737	else:
1738	process_sub_st = StatusArray.CreateNull()
1739
1740	with vm.ctx_ProcessSub(self.shell_ex, process_sub_st): # for wait()
1741	try:
1742	status = self._Dispatch(node, cmd_st)
1743	except error.FailGlob as e:
1744	if not e.HasLocation(): # Last resort!
1745	e.location = self.mem.GetFallbackLocation()
1746	self.errfmt.PrettyPrintError(e, prefix='failglob: ')
1747	status = 1 # another redirect word eval error
1748	cmd_st.check_errexit = True # failglob + errexit
1749
1750	# Now we've waited for process subs
1751
1752	# If it was a real pipeline, compute status from ${PIPESTATUS[@]} aka
1753	# @_pipeline_status
1754	pipe_status = cmd_st.pipe_status
1755	# Note: bash/mksh set PIPESTATUS set even on non-pipelines. This
1756	# makes it annoying to check both _process_sub_status and
1757	# _pipeline_status
1758
1759	errexit_loc = loc.Missing # type: loc_t
1760	if pipe_status is not None:
1761	# Tricky: _DoPipeline sets cmt_st.pipe_status and returns -1
1762	# for a REAL pipeline (but not singleton pipelines)
1763	assert status == -1, (
1764	"Shouldn't have redir errors when PIPESTATUS (status = %d)" %
1765	status)
1766
1767	self.mem.SetPipeStatus(pipe_status)
1768
1769	if self.exec_opts.pipefail():
1770	# The status is that of the last command that is non-zero.
1771	status = 0
1772	for i, st in enumerate(pipe_status):
1773	if st != 0:
1774	status = st
1775	errexit_loc = cmd_st.pipe_locs[i]
1776	else:
1777	# The status is that of last command, period.
1778	status = pipe_status[-1]
1779
1780	if cmd_st.pipe_negated:
1781	status = 1 if status == 0 else 0
1782
1783	# Compute status from _process_sub_status
1784	if process_sub_st.codes is None:
1785	# Optimized to avoid allocs
1786	self.status_array_pool.append(process_sub_st)
1787	else:
1788	codes = process_sub_st.codes
1789	self.mem.SetProcessSubStatus(codes)
1790	if status == 0 and self.exec_opts.process_sub_fail():
1791	# Choose the LAST non-zero status, consistent with pipefail above.
1792	for i, st in enumerate(codes):
1793	if st != 0:
1794	status = st
1795	errexit_loc = process_sub_st.locs[i]
1796
1797	self.mem.SetLastStatus(status)
1798
1799	# NOTE: Bash says that 'set -e' checking is done after each 'pipeline'.
1800	# However, any bash construct can appear in a pipeline. So it's easier
1801	# just to put it at the end, instead of after every node.
1802	#
1803	# Possible exceptions:
1804	# - function def (however this always exits 0 anyway)
1805	# - assignment - its result should be the result of the RHS?
1806	# - e.g. arith sub, command sub? I don't want arith sub.
1807	# - ControlFlow: always raises, it has no status.
1808	if cmd_st.check_errexit:
1809	#log('cmd_st %s', cmd_st)
1810	self._CheckStatus(status, cmd_st, node, errexit_loc)
1811
1812	return status
1813
1814	def _ExecuteList(self, children):
1815	# type: (List[command_t]) -> int
1816	status = 0 # for empty list
1817	for child in children:
1818	# last status wins
1819	status = self._Execute(child)
1820	return status
1821
1822	def LastStatus(self):
1823	# type: () -> int
1824	"""For main_loop.py to determine the exit code of the shell itself."""
1825	return self.mem.LastStatus()
1826
1827	def _NoForkLast(self, node):
1828	# type: (command_t) -> None
1829
1830	if 0:
1831	log('optimizing')
1832	node.PrettyPrint(sys.stderr)
1833	log('')
1834
1835	UP_node = node
1836	with tagswitch(node) as case:
1837	if case(command_e.Simple):
1838	node = cast(command.Simple, UP_node)
1839	node.do_fork = False
1840	if 0:
1841	log('Simple optimized')
1842
1843	elif case(command_e.Pipeline):
1844	node = cast(command.Pipeline, UP_node)
1845	if node.negated is None:
1846	#log ('pipe')
1847	self._NoForkLast(node.children[-1])
1848
1849	elif case(command_e.Sentence):
1850	node = cast(command.Sentence, UP_node)
1851	self._NoForkLast(node.child)
1852
1853	elif case(command_e.CommandList):
1854	# Subshells start with CommandList, even if there's only one.
1855	node = cast(command.CommandList, UP_node)
1856	self._NoForkLast(node.children[-1])
1857
1858	elif case(command_e.BraceGroup):
1859	# TODO: What about redirects?
1860	node = cast(BraceGroup, UP_node)
1861	self._NoForkLast(node.children[-1])
1862
1863	def _RemoveSubshells(self, node):
1864	# type: (command_t) -> command_t
1865	"""Eliminate redundant subshells like ( echo hi ) \| wc -l etc.
1866
1867	This is ONLY called at the top level of ExecuteAndCatch() - it wouldn't
1868	be correct otherwise.
1869	"""
1870	UP_node = node
1871	with tagswitch(node) as case:
1872	if case(command_e.Subshell):
1873	node = cast(command.Subshell, UP_node)
1874	# Optimize ( ( date ) ) etc.
1875	return self._RemoveSubshells(node.child)
1876	return node
1877
1878	def ExecuteAndCatch(self, node, cmd_flags=0):
1879	# type: (command_t, int) -> Tuple[bool, bool]
1880	"""Execute a subprogram, handling vm.IntControlFlow and fatal exceptions.
1881
1882	Args:
1883	node: LST subtree
1884	optimize: Whether to exec the last process rather than fork/exec
1885
1886	Returns:
1887	TODO: use enum 'why' instead of the 2 booleans
1888
1889	Used by
1890	- main_loop.py.
1891	- SubProgramThunk for pipelines, subshell, command sub, process sub
1892	- TODO: Signals besides EXIT trap
1893
1894	Note: To do what optimize does, dash has EV_EXIT flag and yash has a
1895	finally_exit boolean. We use a different algorithm.
1896	"""
1897	if cmd_flags & Optimize:
1898	node = self._RemoveSubshells(node)
1899	self._NoForkLast(node) # turn the last ones into exec
1900
1901	if 0:
1902	log('after opt:')
1903	node.PrettyPrint()
1904	log('')
1905
1906	is_return = False
1907	is_fatal = False
1908	is_errexit = False
1909
1910	err = None # type: error.FatalRuntime
1911	status = -1 # uninitialized
1912
1913	try:
1914	options = [] # type: List[int]
1915	if cmd_flags & NoDebugTrap:
1916	options.append(option_i._no_debug_trap)
1917	if cmd_flags & NoErrTrap:
1918	options.append(option_i._no_err_trap)
1919	with state.ctx_Option(self.mutable_opts, options, True):
1920	status = self._Execute(node)
1921	except vm.IntControlFlow as e:
1922	if cmd_flags & RaiseControlFlow:
1923	raise # 'eval break' and 'source return.sh', etc.
1924	else:
1925	# Return at top level is OK, unlike in bash.
1926	if e.IsReturn():
1927	is_return = True
1928	status = e.StatusCode()
1929	else:
1930	# TODO: This error message is invalid. Can also happen in eval.
1931	# We need a flag.
1932
1933	# Invalid control flow
1934	self.errfmt.Print_(
1935	"Loop and control flow can't be in different processes",
1936	blame_loc=e.token)
1937	is_fatal = True
1938	# All shells exit 0 here. It could be hidden behind
1939	# strict_control_flow if the incompatibility causes problems.
1940	status = 1
1941	except error.Parse as e:
1942	self.dumper.MaybeRecord(self, e) # Do this before unwinding stack
1943	raise
1944	except error.ErrExit as e:
1945	err = e
1946	is_errexit = True
1947	except error.FatalRuntime as e:
1948	err = e
1949
1950	if err:
1951	status = err.ExitStatus()
1952
1953	is_fatal = True
1954	# Do this before unwinding stack
1955	self.dumper.MaybeRecord(self, err)
1956
1957	if not err.HasLocation(): # Last resort!
1958	#log('Missing location')
1959	err.location = self.mem.GetFallbackLocation()
1960	#log('%s', err.location)
1961
1962	if is_errexit:
1963	if self.exec_opts.verbose_errexit():
1964	self.errfmt.PrintErrExit(cast(error.ErrExit, err),
1965	posix.getpid())
1966	else:
1967	self.errfmt.PrettyPrintError(err, prefix='fatal: ')
1968
1969	assert status >= 0, 'Should have been initialized'
1970
1971	# Problem: We have no idea here if a SUBSHELL (or pipeline comment) already
1972	# created a crash dump. So we get 2 or more of them.
1973	self.dumper.MaybeDump(status)
1974
1975	self.mem.SetLastStatus(status)
1976	return is_return, is_fatal
1977
1978	def EvalCommand(self, block):
1979	# type: (command_t) -> int
1980	"""For builtins to evaluate command args.
1981
1982	e.g. cd /tmp (x)
1983	"""
1984	status = 0
1985	try:
1986	status = self._Execute(block) # can raise FatalRuntimeError, etc.
1987	except vm.IntControlFlow as e: # A block is more like a function.
1988	# return in a block
1989	if e.IsReturn():
1990	status = e.StatusCode()
1991	else:
1992	e_die('Unexpected control flow in block', e.token)
1993
1994	return status
1995
1996	def MaybeRunExitTrap(self, mut_status):
1997	# type: (IntParamBox) -> None
1998	"""If an EXIT trap handler exists, run it.
1999
2000	Only mutates the status if 'return' or 'exit'. This is odd behavior, but
2001	all bash/dash/mksh seem to agree on it. See cases in
2002	builtin-trap.test.sh.
2003
2004	Note: if we could easily modulo -1 % 256 == 255 here, then we could get rid
2005	of this awkward interface. But that's true in Python and not C!
2006
2007	Could use i & (n-1) == i & 255 because we have a power of 2.
2008	https://stackoverflow.com/questions/14997165/fastest-way-to-get-a-positive-modulo-in-c-c
2009	"""
2010	node = self.trap_state.GetHook('EXIT') # type: command_t
2011	if node:
2012	# NOTE: Don't set option_i._running_trap, because that's for
2013	# RunPendingTraps() in the MAIN LOOP
2014	with dev.ctx_Tracer(self.tracer, 'trap EXIT', None):
2015	try:
2016	is_return, is_fatal = self.ExecuteAndCatch(node)
2017	except util.UserExit as e: # explicit exit
2018	mut_status.i = e.status
2019	return
2020	if is_return: # explicit 'return' in the trap handler!
2021	mut_status.i = self.LastStatus()
2022
2023	def _MaybeRunDebugTrap(self):
2024	# type: () -> None
2025	"""Run user-specified DEBUG code before certain commands."""
2026	node = self.trap_state.GetHook('DEBUG') # type: command_t
2027	if node is None:
2028	return
2029
2030	# Fix lastpipe / job control / DEBUG trap interaction
2031	if self.exec_opts._no_debug_trap():
2032	return
2033
2034	# Don't run recursively run traps, etc.
2035	if not self.mem.ShouldRunDebugTrap():
2036	return
2037
2038	# NOTE: Don't set option_i._running_trap, because that's for
2039	# RunPendingTraps() in the MAIN LOOP
2040
2041	with dev.ctx_Tracer(self.tracer, 'trap DEBUG', None):
2042	with state.ctx_Registers(self.mem): # prevent setting $? etc.
2043	# for SetTokenForLine $LINENO
2044	with state.ctx_DebugTrap(self.mem):
2045	# Don't catch util.UserExit, etc.
2046	self._Execute(node)
2047
2048	def _MaybeRunErrTrap(self):
2049	# type: () -> None
2050	"""
2051	Run user-specified ERR code after checking the status of certain
2052	commands (pipelines)
2053	"""
2054	node = self.trap_state.GetHook('ERR') # type: command_t
2055	if node is None:
2056	return
2057
2058	# ERR trap is only run for a whole pipeline, not its parts
2059	if self.exec_opts._no_err_trap():
2060	return
2061
2062	# Prevent infinite recursion
2063	if self.mem.running_err_trap:
2064	return
2065
2066	# "disabled errexit" rule
2067	if self.mutable_opts.ErrExitIsDisabled():
2068	return
2069
2070	# bash rule - affected by set -o errtrace
2071	if self.mem.InsideFunction():
2072	return
2073
2074	# NOTE: Don't set option_i._running_trap, because that's for
2075	# RunPendingTraps() in the MAIN LOOP
2076
2077	with dev.ctx_Tracer(self.tracer, 'trap ERR', None):
2078	#with state.ctx_Registers(self.mem): # prevent setting $? etc.
2079	with state.ctx_ErrTrap(self.mem):
2080	self._Execute(node)
2081
2082	def RunProc(self, proc, cmd_val):
2083	# type: (value.Proc, cmd_value.Argv) -> int
2084	"""Run procs aka "shell functions".
2085
2086	For SimpleCommand and registered completion hooks.
2087	"""
2088	sig = proc.sig
2089	if sig.tag() == proc_sig_e.Closed:
2090	# We're binding named params. User should use @rest. No 'shift'.
2091	proc_argv = [] # type: List[str]
2092	else:
2093	proc_argv = cmd_val.argv[1:]
2094
2095	# Hm this sets "$@". TODO: Set ARGV only
2096	with state.ctx_ProcCall(self.mem, self.mutable_opts, proc, proc_argv):
2097	func_proc.BindProcArgs(proc, cmd_val, self.mem)
2098
2099	# Redirects still valid for functions.
2100	# Here doc causes a pipe and Process(SubProgramThunk).
2101	try:
2102	status = self._Execute(proc.body)
2103	except vm.IntControlFlow as e:
2104	if e.IsReturn():
2105	status = e.StatusCode()
2106	else:
2107	# break/continue used in the wrong place.
2108	e_die(
2109	'Unexpected %r (in proc call)' %
2110	lexer.TokenVal(e.token), e.token)
2111	except error.FatalRuntime as e:
2112	# Dump the stack before unwinding it
2113	self.dumper.MaybeRecord(self, e)
2114	raise
2115
2116	return status
2117
2118	def RunFuncForCompletion(self, proc, argv):
2119	# type: (value.Proc, List[str]) -> int
2120	"""
2121	Args:
2122	argv: $1 $2 $3 ... not including $0
2123	"""
2124	cmd_val = MakeBuiltinArgv(argv)
2125
2126	# TODO: Change this to run YSH procs and funcs too
2127	try:
2128	status = self.RunProc(proc, cmd_val)
2129	except error.FatalRuntime as e:
2130	self.errfmt.PrettyPrintError(e)
2131	status = e.ExitStatus()
2132	except vm.IntControlFlow as e:
2133	# shouldn't be able to exit the shell from a completion hook!
2134	# TODO: Avoid overwriting the prompt!
2135	self.errfmt.Print_('Attempted to exit from completion hook.',
2136	blame_loc=e.token)
2137
2138	status = 1
2139	# NOTE: (IOError, OSError) are caught in completion.py:ReadlineCallback
2140	return status
2141
2142
2143	# vim: sw=4