doc/ref/chap-builtin-cmd.md

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1	---
2	title: Builtin Commands (Oils Reference)
3	all_docs_url: ..
4	body_css_class: width40
5	default_highlighter: oils-sh
6	preserve_anchor_case: yes
7	---
8
9	<div class="doc-ref-header">
10
11	[Oils Reference](index.html) — Chapter Builtin Commands
12
13	</div>
14
15	This chapter in the [Oils Reference](index.html) describes builtin commands for OSH and YSH.
16
17	<span class="in-progress">(in progress)</span>
18
19	<div id="dense-toc">
20	</div>
21
22	## Memory
23
24	### cmd/append
25
26	Append word arguments to a list:
27
28	var mylist = :\| hello \|
29
30	append *.py (mylist) # append all Python files
31
32	var myflags = []
33	append -- -c 'echo hi' (myflags) # -- to avoid ambiguity
34
35	It's a shortcut for:
36
37	call myflags->append('-c')
38	call myflags->append('echo hi')
39
40	Similar names: [append][]
41
42	[append]: chap-index.html#append
43
44	### pp
45
46	The `pp` builtin pretty prints values and interpreter state.
47
48	Pretty printing expressions is the most common:
49
50	$ var x = 42
51	$ pp (x + 5)
52	myfile.ysh:1: (Int) 47 # print value with code location
53
54	You can pass an unevaluated expression:
55
56	$ pp [x + 5]
57	myfile.ysh:1: (Int) 47 # evaluate first
58
59	The `value` command is a synonym for the interactive `=` operator:
60
61	$ pp value (x)
62	(Int) 42
63
64	$ = x
65	(Int) 42
66
67	Print proc names and doc comments:
68
69	$ pp proc # subject to change
70
71	You can also print low-level interpreter state. The trailing `_` indicates
72	that the exact format may change:
73
74	Examples:
75
76	$ var x = :\| one two \|
77
78	$ pp asdl_ (x) # dump the ASDL "guts"
79
80	$ pp test_ (x) # single-line stable format, for spec tests
81
82	# dump the ASDL representation of a "Cell", which is a location for a value
83	# (not the value itself)
84	$ pp cell_ x
85
86
87	## Handle Errors
88
89	### error
90
91	The `error` builtin interrupts shell execution.
92
93	If there's a surrounding `try` block, the `_error` register is set, and
94	execution proceeds after the block.
95
96	Otherwise, the shell exits with a non-zero status.
97
98	Examples:
99
100	error 'Missing /tmp' # program fails with status 10
101
102	try {
103	error 'Another problem'
104	}
105	echo $[error.code] # => 10
106
107	Override the default error code of `10` with a named argument:
108
109	error 'Missing /tmp' (code=99) # program fails with status 99
110
111	Named arguments add arbitrary properties to the resulting `_error` register:
112
113	error 'Oops' (path='foo.json')
114
115	See [YSH Error Handling](../ysh-error-handling.html) for more examples.
116
117	### failed
118
119	A shortcut for `(_error.code !== 0)`:
120
121	try {
122	ls /tmp
123	}
124	if failed {
125	echo 'ls failed'
126	}
127
128	It saves you 7 punctuation characters: `( _ . !== )`
129
130	See [YSH Error Handling](../ysh-error-handling.html) for more examples.
131
132	### try
133
134	Run a block of code, stopping at the first error. (This is implemented with
135	`shopt --set errexit`)
136
137	`try` sets the `_error` register to a dict, and always returns 0.
138
139	try {
140	ls /nonexistent
141	}
142	if (_error.code !== 0) {
143	echo 'ls failed'
144	}
145
146	Handle expression errors:
147
148	try {
149	var x = 42 / 0
150	}
151
152	And errors from compound commands:
153
154	try {
155	ls \| wc -l
156	diff <(sort left.txt) <(sort right.txt)
157	}
158
159	The case statement can be useful:
160
161	try {
162	grep PATTERN FILE.txt
163	}
164	case (_error.code) {
165	(0) { echo 'found' }
166	(1) { echo 'not found' }
167	(else) { echo "grep returned status $[_error.code]" }
168	}
169
170	See [YSH Error Handling](../ysh-error-handling.html) for more examples.
171
172	### boolstatus
173
174	Runs a command, and requires the exit code to be 0 or 1.
175
176	if boolstatus egrep '[0-9]+' myfile { # e.g. aborts on status 2
177	echo 'found' # status 0 means found
178	} else {
179	echo 'not found' # status 1 means not found
180	}
181
182	It's meant for external commands that "return" more than 2 values, like true /
183	false / fail, rather than pass / fail.
184
185	### assert
186
187	Evaluates and expression, and fails if it is not truthy.
188
189	assert (false) # fails
190	assert [false] # also fails (the expression is evaluated)
191
192	It's common to pass an unevaluated expression with `===`:
193
194	func f() { return (42) }
195
196	assert [43 === f()]
197
198	In this special case, you get a nicer error message:
199
200	> Expected: 43
201	> Got: 42
202
203	That is, the left-hand side should be the expected value, and the right-hand
204	side should be the actual value.
205
206	## Shell State
207
208	### ysh-cd
209
210	It takes a block:
211
212	cd / {
213	echo $PWD
214	}
215
216	### ysh-shopt
217
218	Sets shell options, e.g.
219
220	shopt --unset errexit
221	shopt --set errexit
222
223	You can set or unset multiple options with the groups `strict:all`,
224	`ysh:upgrade`, and `ysh:all`. Example:
225
226	shopt --set ysh:upgrade
227
228	If a block is passed, then:
229
230	1. the mutated options are pushed onto a stack
231	2. the block is executed
232	3. the options are restored to their original state (even if the block fails to
233	execute)
234
235	Example:
236
237	shopt --unset errexit {
238	false
239	echo 'ok'
240	}
241
242	Note that setting `ysh:upgrade` or `ysh:all` may initialize the [ENV][] dict.
243
244	Related: [shopt](#shopt)
245
246	[ENV]: chap-special-var.html#ENV
247
248	### shvar
249
250	Execute a block with a global variable set.
251
252	shvar IFS=/ {
253	echo "ifs is $IFS"
254	}
255	echo "ifs restored to $IFS"
256
257	### ctx
258
259	Execute a block with a shared "context" that can be updated using the `ctx`
260	built-in.
261
262	var mydict = {}
263	ctx push (mydict) {
264	# = mydict => {}
265	ctx set (mykey='myval')
266	}
267	# = mydict => { mykey: 'myval' }
268
269	The context can be modified with `ctx set (key=val)`, which updates or inserts
270	the value at the given key.
271
272	The context can also be updated with `ctx emit field (value)`.
273
274	ctx push (mydict) {
275	# = mydict => {}
276	ctx emit mylist (0)
277	# = mydict => { mylist: [0] }
278	ctx emit mylist (1)
279	}
280	# = mydict => { mylist: [0, 1] }
281
282	Contexts can be nested, resulting in a stack of contexts.
283
284	ctx push (mydict1) {
285	ctx set (dict=1)
286	ctx push (mydict2) {
287	ctx set (dict=2)
288	}
289	}
290	# = mydict1 => { dict: 1 }
291	# = mydict2 => { dict: 2 }
292
293	`ctx` is useful for creating DSLs, such as a mini-parseArgs.
294
295	proc parser (; place ; ; block_def) {
296	var p = {}
297	ctx push (p, block_def)
298	call place->setValue(p)
299	}
300
301	proc flag (short_name, long_name; type; help) {
302	ctx emit flag ({short_name, long_name, type, help})
303	}
304
305	proc arg (name) {
306	ctx emit arg ({name})
307	}
308
309	parser (&spec) {
310	flag -t --tsv (Bool, help='Output as TSV')
311	flag -r --recursive (Bool, help='Recurse into the given directory')
312	flag -N --count (Int, help='Process no more than N files')
313	arg path
314	}
315
316	### push-registers
317
318	Save global registers like $? on a stack. It's useful for preventing plugins
319	from interfering with user code. Example:
320
321	status_42 # returns 42 and sets $?
322	push-registers { # push a new frame
323	status_43 # top of stack changed here
324	echo done
325	} # stack popped
326	echo $? # 42, read from new top-of-stack
327
328	Current list of registers:
329
330	Regex data underlying BASH_REMATCH, _group(), _start(), _end()
331	$?
332	_error # set by the try builtin
333	PIPESTATUS # aka _pipeline_status
334	_process_sub_status
335
336
337	## Modules
338
339	### source-guard
340
341	Registers a name in the global "module" dict. Returns 0 if it doesn't exist,
342	or 1 if it does.
343
344	Use it like this in executable files:
345
346	source-guard main \|\| return 0
347
348	And like this in libraries:
349
350	source-guard myfile.ysh \|\| return 0
351
352	### is-main
353
354	The `is-main` builtin returns 1 (false) if the current file was executed with
355	the `source` builtin.
356
357	In the "main" file, including `-c` or `stdin` input, it returns 0 (true).
358
359	Use it like this:
360
361	if is-main {
362	runproc @ARGV
363	}
364
365	### use
366
367	The `use` builtin evaluates a source file in a new `Frame`, and then creates an
368	`Obj` that is a namespace.
369
370	use my-dir/mymodule.ysh
371
372	echo $[mymodule.my_integer] # the module Obj has attributes
373	mymodule my-proc # the module Obj is invokable
374
375	The evaluation of such files is cached, so it won't be re-evaluated if `use` is
376	called again.
377
378	To import a specific name, use the `--pick` flag:
379
380	use my-dir/mymodule.ysh --pick my-proc other-proc
381
382	my-proc 1 2
383	other-proc 3 4
384
385	Note: the `--pick` flag must come after the module, so this isn't valid:
386
387	use --pick my-proc mymodule.sh # INVALID
388
389	<!--
390	# TODO:
391
392	use mod.ysh --all-provided # relies on __provide__ or provide builtin
393	use mod.ysh --all-for-testing
394	-->
395
396	---
397
398	The `--extern` flag means that `use` does nothing. These commands can be used
399	by tools to analyze names.
400
401	use --extern grep sed awk
402
403	---
404
405	Notes:
406
407	- To get a reference to `module-with-hyphens`, you may need to use
408	`getVar('module-with-hyphens')`.
409	- TODO: consider backtick syntax as well
410	- `use` must be used at the top level, not within a function.
411	- This behavior is unlike Python.
412	- The `use` builtin populates the new module with references to these values in
413	the calling module:
414	- [ENV][] - to mutate and set environment vars
415	- [PS4][] - for cross-module tracing in OSH
416
417	[ENV]: chap-special-var.html#ENV
418	[PS4]: chap-plugin.html#PS4
419
420	Warnings:
421
422	- `use` copies the module bindings into a new `Obj`. This means that if
423	you rebind `mymodule.my_integer`, it will not be visible to code in the
424	module.
425	- This behavior is unlike Python.
426	- `use` allows "circular imports". That is `A.ysh` can `use B.ysh`, and vice
427	versa.
428	- To eliminate confusion over uninitialized names, use only `const`,
429	`func`, and `proc` at the top level of `my-module.ysh`. Don't run
430	commands, use `setvar`, etc.
431
432	## I/O
433
434	### ysh-read
435
436	YSH adds long flags to shell's `read`. These two flags are fast and
437	recommended:
438
439	read --all # whole file including trailing \n, fills $_reply
440	read --all (&x) # fills $x
441
442	read --num-bytes 3 # read N bytes, fills _reply
443	read --num-bytes 3 (&x) # fills $x
444
445	---
446
447	This flag replaces shell's `IFS= read -r` idiom, reading one byte a time in an
448	unbuffered fashion:
449
450	read --raw-line # unbuffered read of line, omitting trailing \n
451	read --raw-line (&x) # fills $x
452
453	read --raw-line --with-eol # include the trailing \n
454
455	A loop over [io.stdin][] allows buffered reading of lines, which is faster.
456
457	[io.stdin]: chap-type-method.html#stdin
458
459	You may want to use `fromJson8()` or `fromJson()` after reading a line.
460
461	---
462
463	The `-0` flag also reads one byte at a time:
464
465	read -0 # read until NUL, synonym for read -r -d ''
466
467	Notes:
468
469	- Unlike OSH [read](#read), none of these features remove NUL bytes.
470	- Performance summary: [YSH Input/Output > Three Types of I/O][ysh-io-three]
471
472	[ysh-io-three]: ../ysh-io.html#three-types-of-io
473
474	<!--
475
476	TODO:
477
478	- read --netstr
479	- io.stdin0 coudl be a buffered version of read -0 ?
480	- JSON
481	- @() is related - it reads J8 lines
482	- JSON lines support?
483	- fromJ8Line() is different than from fromJson8() ? It's like @()
484
485	-->
486
487	<!--
488
489	What about write? These would be the same:
490
491	write --json -- $s
492	write --j8 -- $s
493
494	write -- $[toJson(s)]
495	write -- $[toJson8(s)]
496
497	write --json -- @strs
498	write --j8 -- @strs
499
500	write -- @[toJson(s) for s in strs]
501	write -- @[toJson8(s) for s in strs]
502
503	It's an argument for getting rid --json and --j8? I already implemented them,
504	but it makes the API smaller.
505
506	I guess the main thing would be to AVOID quoting sometimes?
507
508	$ write --j8 -- unquoted
509	unquoted
510
511	$ write --j8 -- $'\'' '"'
512	"'"
513	"\""
514
515	I think this could be the shell style?
516
517	$ write --shell-str -- foo bar baz
518
519	Or it could be
520
521	$ write -- @[toShellString(s) for s in strs]
522
523	I want this to be "J8 Lines", but it can be done in pure YSH. It's not built
524	into the interpreter.
525
526	foo/bar
527	"hi"
528	b'hi'
529	u'hi'
530
531	But what about
532
533	Fool's Gold
534	a'hi' # This feels like an error?
535	a"hi" # what about this?
536
537	Technically we CAN read those as literal strings
538	-->
539
540	### ysh-echo
541
542	Print arguments to stdout, separated by a space.
543
544	ysh$ echo hi there
545	hi there
546
547	The [simple_echo][] option means that flags aren't accepted, and `--` is not
548	accepted.
549
550	ysh$ echo -n
551	-n
552
553	See the [YSH FAQ entry on echo][echo-en] for details.
554
555	[simple_echo]: chap-option.html#ysh:all
556	[echo-en]: ../ysh-faq.html#how-do-i-write-the-equivalent-of-echo-e-or-echo-n
557
558	### ysh-test
559
560	The YSH [test](#test) builtin supports these long flags:
561
562	--dir same as -d
563	--exists same as -e
564	--file same as -f
565	--symlink same as -L
566
567	--true Is the argument equal to the string "true"?
568	--false Is the argument equal to the string "false"?
569
570	The `--true` and `--false` flags can be used to combine commands and
571	expressions:
572
573	if test --file a && test --true $[bool(mydict)] {
574	echo ok
575	}
576
577	This works because the boolean `true` stringifies to `"true"`, and likewise
578	with `false`.
579
580	That is, `$[true] === "true"` and `$[false] === "false"`.
581
582	### write
583
584	write fixes problems with shell's `echo` builtin.
585
586	The default separator is a newline, and the default terminator is a
587	newline.
588
589	Examples:
590
591	write -- ale bean # write two lines
592
593	write -n -- ale bean # synonym for --end '', like echo -n
594	write --sep '' --end '' -- a b # write 2 bytes
595	write --sep $'\t' --end $'\n' -- a b # TSV line
596
597	You may want to use `toJson8()` or `toJson()` before writing:
598
599	write -- $[toJson8(mystr)]
600	write -- $[toJson(mystr)]
601
602
603	<!--
604	write --json -- ale bean # JSON encode, guarantees two lines
605	write --j8 -- ale bean # J8 encode, guarantees two lines
606	-->
607
608
609	### fork
610
611	Run a command, but don't wait for it to finish.
612
613	fork { sleep 1 }
614	wait -n
615
616	In YSH, use `fork` rather than shell's `&` ([ampersand][]).
617
618	[ampersand]: chap-cmd-lang.html#ampersand
619
620	### forkwait
621
622	The preferred alternative to shell's `()`. Prefer `cd` with a block if possible.
623
624	forkwait {
625	not_mutated=zzz
626	}
627	echo $not_mutated
628
629	### redir
630
631	Runs a block passed to it. It's designed to enable a prefix syntax when
632	redirecting:
633
634	redir >out.txt {
635	echo 1
636	echo 2
637	}
638
639	When a block is long, it's more readable than shell's postfix style:
640
641	{ echo 1
642	echo 2
643	} >out.txt
644
645	## Private
646
647	Private builtins are not enabled by default:
648
649	sleep 0.1 # runs external process; private builtin not found
650	builtin sleep 0.1 # runs private builtin
651
652	### cat
653
654	`cat` is a private builtin that reads from files and writes to stdout.
655
656	cat FILE+ # Read from each file, and write to stdout
657	# If the file is -, read from stdin (not the file called -)
658	cat # equivalent to cat -
659
660	- Related: [rewrite_extern][], [ysh_rewrite_extern][]
661
662	[rewrite_extern]: chap-option.html#rewrite_extern
663	[ysh_rewrite_extern]: chap-option.html#ysh_rewrite_extern
664
665	### rm
666
667	`rm` is a private builtin that removes files.
668
669	rm FLAG* FILE*
670
671	Flags:
672
673	-f Don't fail if the file exist, and don't fail if no arguments are
674	passed.
675
676	Return 0 on success, and non-zero otherwise.
677
678	- Related: [rewrite_extern][]
679
680	### sleep
681
682	`sleep` is a private builtin that puts the shell process to sleep for the
683	given number of seconds.
684
685	Example:
686
687	builtin sleep 0.1 # wait 100 milliseconds
688
689	It respects signals:
690
691	- `SIGINT` / Ctrl-C cancels the command, with the standard behavior:
692	- in an interactive shell, you return to the prompt
693	- a non-interactive shell is cancelled
694	- Upon receiving other signals, Oils run pending traps, and then continues to
695	sleep.
696
697	It's compatible with the POSIX `sleep` utility:
698
699	sleep 2 # wait 2 seconds
700
701	## Hay Config
702
703	### hay
704
705	### haynode
706
707
708	## Data Formats
709
710	### json
711
712	Write JSON:
713
714	var d = {name: 'bob', age: 42}
715	json write (d) # default indent of 2, type errors
716	json write (d, space=0) # no indent
717	json write (d, type_errors=false) # non-serializable types become null
718	# (e.g. Obj, Proc, Eggex)
719
720	Read JSON:
721
722	echo hi \| json read # fills $_reply by default
723
724	Or use an explicit place:
725
726	var x = ''
727	json read (&x) < myfile.txt
728
729	Related: [err-json-encode][] and [err-json-decode][]
730
731	[err-json-encode]: chap-errors.html#err-json-encode
732	[err-json-decode]: chap-errors.html#err-json-decode
733
734	### json8
735
736	Like `json`, but on the encoding side:
737
738	- Falls back to `b'\yff'` instead of lossy Unicode replacement char
739
740	On decoding side:
741
742	- Understands `b'' u''` strings
743
744	Related: [err-json8-encode]() and [err-json8-decode]()
745
746	[err-json8-encode]: chap-errors.html#err-json8-encode
747	[err-json8-decode]: chap-errors.html#err-json8-decode
748
749	## I/O
750
751	These builtins take input and output. They're often used with redirects.
752
753	### read
754
755	read FLAG* VAR*
756
757	Read input from `stdin`, and assign pieces of input to variables. Without
758	flags, `read` uses this algorithm:
759
760	1. Read bytes from `stdin`, one at a time, until a newline `\n`.
761	- Respect `\` escapes and line continuations.
762	- Any NUL bytes are removed from the input.
763	1. Use the `$IFS` algorithm to split the line into N pieces, where `N` is the
764	number of `VAR` specified. Each piece is assigned to the corresponding
765	variable.
766	- If no VARs are given, assign to the `$REPLY` var.
767
768	The `-r` flag is useful to disable backslash escapes.
769
770	POSIX mandates the slow behavior of reading one byte at a time. In YSH, you
771	can avoid this by using [io.stdin][], or a `--long-flag` documented in
772	[ysh-read](#ysh-read).
773
774	Flags:
775
776	-a ARRAY assign the tokens to elements of this array
777	-d CHAR use DELIM as delimiter, instead of newline
778	-n NUM read up to NUM characters, respecting delimiters. When -r is not
779	specified, backslash escape of the form "\?" is counted as one
780	character. This is the Bash behavior, but other shells such as
781	ash and mksh count the number of bytes with "-n" without
782	considering backslash escaping.
783	-p STR print the string PROMPT before reading input
784	-r raw mode: don't let backslashes escape characters
785	-s silent: do not echo input coming from a terminal
786	-t NUM time out and fail after TIME seconds
787	-t 0 returns whether any input is available
788	-u FD read from file descriptor FD instead of 0 (stdin)
789
790	<!-- -N NUM read up to NUM characters, ignoring delimiters -->
791	<!-- -e use readline to obtain the line
792	-i STR use STR as the initial text for readline -->
793
794	Performance summary: [YSH Input/Output > Three Types of I/O][ysh-io-three]
795
796	### echo
797
798	echo FLAG* ARG*
799
800	Prints ARGs to stdout, separated by a space, and terminated by a newline.
801
802	Flags:
803
804	-e enable interpretation of backslash escapes
805	-n omit the trailing newline
806	<!-- -E -->
807
808	`echo` in YSH does not accept these flags. See [ysh-echo](#ysh-echo) and
809	[the FAQ entry][echo-en]. (This is unusual because YSH doesn't usually "break"
810	OSH.)
811
812	See [char-escapes](chap-mini-lang.html#char-escapes) to see what's supported
813	when `-e` is passed.
814
815	### printf
816
817	printf FLAG* FMT ARG*
818
819	Formats values and prints them. The FMT string contain three types of objects:
820
821	1. Literal Characters
822	2. Character escapes like `\t`. See [char-escapes](chap-mini-lang.html#char-escapes).
823	3. Percent codes like `%s` that specify how to format each each ARG.
824
825	If not enough ARGS are passed, the empty string is used. If too many are
826	passed, the FMT string will be "recycled".
827
828	Flags:
829
830	-v VAR Write output in variable VAR instead of standard output.
831
832	Format specifiers:
833
834	%% Prints a single "%".
835	%b Interprets backslash escapes while printing.
836	%q Prints the argument escaping the characters needed to make it reusable
837	as shell input.
838	%d Print as signed decimal number.
839	%i Same as %d.
840	%o Print as unsigned octal number.
841	%u Print as unsigned decimal number.
842	%x Print as unsigned hexadecimal number with lower-case hex-digits (a-f).
843	%X Same as %x, but with upper-case hex-digits (A-F).
844	%f Print as floating point number.
845	%e Print as a double number, in "±e" format (lower-case e).
846	%E Same as %e, but with an upper-case E.
847	%g Interprets the argument as double, but prints it like %f or %e.
848	%G Same as %g, but print it like %E.
849	%c Print as a single char, only the first character is printed.
850	%s Print as string
851	%n The number of characters printed so far is stored in the variable named
852	in the argument.
853	%a Interprets the argument as double, and prints it like a C99 hexadecimal
854	floating-point literal.
855	%A Same as %a, but print it like %E.
856	%(FORMAT)T Prints date and time, according to FORMAT as a format string
857	for strftime(3). The argument is the number of seconds since
858	epoch. It can also be -1 (current time, also the default value
859	if there is no argument) or -2 (shell startup time).
860
861	### readarray
862
863	Alias for `mapfile`.
864
865	### mapfile
866
867	mapfile FLAG* ARRAY?
868
869	Reads lines from stdin into the variable named ARRAY (default
870	`${MAPFILE[@]}`).
871
872	Flags:
873
874	-t Remove the trailing newline from every line
875	<!--
876	-d CHAR use CHAR as delimiter, instead of the default newline
877	-n NUM copy up to NUM lines
878	-O NUM begins copying lines at the NUM element of the array
879	-s NUM discard the first NUM lines
880	-u FD read from FD file descriptor instead of the standard input
881	-C CMD run CMD every NUM lines specified in -c
882	-c NUM every NUM lines, the CMD command in C will be run
883	-->
884
885	## Run Code
886
887	These builtins accept shell code and run it.
888
889	### source
890
891	source SCRIPT ARG*
892
893	Execute SCRIPT with the given ARGs, in the context of the current shell. That is,
894	existing variables will be modified.
895
896	---
897
898	Oils extension: If the SCRIPT starts with `///`, we look for scripts embedded in
899	the `oils-for-unix` binary. Example:
900
901	source ///osh/two.sh # load embedded script
902
903	: ${LIB_OSH=fallback/dir}
904	source $LIB_OSH/two.sh # same thing
905
906	The [LIB_OSH][] form is useful for writing a script that works under both bash
907	and OSH.
908
909	- Related: the [cat-em][] tool prints embedded scripts.
910
911	[LIB_OSH]: chap-special-var.html#LIB_OSH
912	[cat-em]: chap-front-end.html#cat-em
913
914
915	### cmd/eval
916
917	eval ARG+
918
919	Creates a string by joining ARGs with a space, then runs it as a shell command.
920
921	Example:
922
923	# Create the string echo "hello $name" and run it.
924	a='echo'
925	b='"hello $name"'
926	eval $a $b
927
928	Tips:
929
930	- Using `eval` can confuse code and user-supplied data, leading to [security
931	issues][].
932	- Prefer passing single string ARG to `eval`.
933
934	[security issues]: https://mywiki.wooledge.org/BashFAQ/048
935
936	### trap
937
938	The `trap` builtin lets you run shell code when events happen. Events are
939	signals or shell interpreter hooks.
940
941	These forms print the current `trap` state:
942
943	trap -l # List all events and their number
944	trap -p # Print the current trap state: events and handlers
945
946	These forms modify the `trap` state:
947
948	trap CMD EVENT* # Register handler for the given events
949	trap - EVENT* # Remove handler for the given events (SIG_DFL)
950	trap '' EVENT* # Do nothing for the given events (SIG_IGN)
951
952	Examples:
953
954	trap 'echo hi' EXIT INT # Register
955	trap - EXIT INT # Remove
956	trap '' EXIT INT # Ignore
957
958	OSH also support legacy syntax, which is not recommended:
959
960	trap 'echo hi' 0 # 0 is the exit trap
961	trap INT # remove signal handler
962	trap 0 # remove exit trap
963	trap 0 INT # remove both
964
965	Tips:
966
967	- Prefer passing the name of a shell function to `trap`.
968	- See [ysh-trap](#ysh-trap) for even nicer idioms.
969	- See [Chapter: Plugins and Hooks > Traps](chap-plugin.html#Traps) for a list
970	of traps, like `trap '' EXIT`.
971
972	### ysh-trap
973
974	The `trap` builtin lets you run shell code when events happen. YSH improves
975	the syntax of the trap builtin, and removes legacy.
976
977	These forms print the current `trap` state:
978
979	trap -l # List all events and their number
980	trap -p # Print the current trap state: events and handlers
981
982	These forms modify the `trap` state:
983
984	trap --add EVENT* BLOCK # Register handlers
985	trap --remove EVENT* # Remove handlers (SIG_DFL)
986	trap --ignore EVENT* # Remove handlers (SIG_IGN)
987
988	Examples:
989
990	trap --add EXIT INT {
991	echo 'either exit'
992	echo 'or int'
993	}
994
995	trap --remove EXIT INT
996	trap --ignore EXIT INT
997
998	Note: the block argument to `trap --add` doesn't capture variables -- it's not
999	a closure. So YSH behaves like OSH, but the syntax doesn't encourage putting
1000	source code in strings.
1001
1002	## Set Options
1003
1004	The `set` and `shopt` builtins set global shell options. YSH code should use
1005	the more natural `shopt`.
1006
1007	### set
1008
1009	set FLAG* ARG*
1010
1011	Sets global shell options. Short style:
1012
1013	set -e
1014
1015	Long style:
1016
1017	set -o errexit
1018
1019	Set the arguments array:
1020
1021	set -- 1 2 3
1022
1023	See [Chapter: Global Shell Options](chap-option.html) for a list of options.
1024
1025	### shopt
1026
1027	shopt FLAG* OPTION* BLOCK?
1028
1029	Sets global shell options.
1030
1031	Flags:
1032
1033	-s --set Turn the named options on
1034	-u --unset Turn the named options off
1035	-p Print option values, and 1 if any option is unset
1036	-o Use older set of options, normally controlled by 'set -o'
1037	-q Return 0 if the option is true, else 1
1038
1039	This command is compatible with `shopt` in bash. See [ysh-shopt](#ysh-shopt) for
1040	details on YSH enhancements.
1041
1042	See [Chapter: Global Shell Options](chap-option.html) for a list of options.
1043
1044	## Working Dir
1045
1046	These 5 builtins deal with the working directory of the shell.
1047
1048	### cd
1049
1050	cd FLAG* DIR
1051
1052	Changes the working directory of the current shell process to DIR.
1053
1054	If DIR isn't specified, change to `$HOME`. If DIR is `-`, change to `$OLDPWD`
1055	(a variable that the sets to the previous working directory.)
1056
1057	Flags:
1058
1059	-L Follow symbolic links, i.e. change to the TARGET of the symlink.
1060	(default).
1061	-P Don't follow symbolic links.
1062
1063	### chdir
1064
1065	`chdir` is a synonym for `cd`. Shells like `busybox ash` support it, so OSH
1066	does too.
1067
1068	### pwd
1069
1070	pwd FLAG*
1071
1072	Prints the current working directory.
1073
1074	Flags:
1075
1076	-L Follow symbolic links if present (default)
1077	-P Don't follow symbolic links. Print the link instead of the target.
1078
1079	### pushd
1080
1081	<!--pushd FLAGS DIR-->
1082	pushd DIR
1083	<!--pushd +/-NUM-->
1084
1085	Add DIR to the directory stack, then change the working directory to DIR.
1086	Typically used with `popd` and `dirs`.
1087
1088	<!--FLAGS:
1089	-n Don't change the working directory, just manipulate the stack
1090	NUM:
1091	Rotates the stack the number of places specified. Eg, given the stack
1092	'/foo /bar /baz', where '/foo' is the top of the stack, pushd +1 will move
1093	it to the bottom, '/bar /baz /foo'-->
1094
1095	### popd
1096
1097	popd
1098
1099	Removes a directory from the directory stack, and changes the working directory
1100	to it. Typically used with `pushd` and `dirs`.
1101
1102	### dirs
1103
1104	dirs FLAG*
1105
1106	Shows the contents of the directory stack. Typically used with `pushd` and
1107	`popd`.
1108
1109	Flags:
1110
1111	-c Clear the dir stack.
1112	-l Show the dir stack, but with the real path instead of ~.
1113	-p Show the dir stack, but formatted as one line per entry.
1114	-v Like -p, but numbering each line.
1115
1116	## Completion
1117
1118	These builtins implement our bash-compatible autocompletion system.
1119
1120	### complete
1121
1122	Registers completion policies for different commands.
1123
1124	### compgen
1125
1126	Generates completion candidates inside a user-defined completion function.
1127
1128	It can also be used in scripts, i.e. outside a completion function.
1129
1130	### compopt
1131
1132	Changes completion options inside a user-defined completion function.
1133
1134	### compadjust
1135
1136	Adjusts `COMP_ARGV` according to specified delimiters, and optionally set
1137	variables cur, prev, words (an array), and cword. May also set 'split'.
1138
1139	This is an OSH extension that makes it easier to run the bash-completion
1140	project.
1141
1142	### compexport
1143
1144	Complete an entire shell command string. For example,
1145
1146	compexport -c 'echo $H'
1147
1148	will complete variables like `$HOME`. And
1149
1150	compexport -c 'ha'
1151
1152	will complete builtins like `hay`, as well as external commands.
1153
1154
1155	## Shell Process
1156
1157	These builtins mutate the state of the shell process.
1158
1159	### exec
1160
1161	exec BIN_PATH ARG*
1162
1163	Replaces the running shell with the binary specified, which is passed ARGs.
1164	BIN_PATH must exist on the file system; i.e. it can't be a shell builtin or
1165	function.
1166
1167	### umask
1168
1169	Manage the bit mask that determines permissions for new files and directories.
1170	The mask is subtracted from 666 for files and 777 for directories.
1171
1172	umask FLAG? # print the current mask
1173
1174	umask OCTAL # set the mask, e.g. umask 0124
1175
1176	umask SYMBOLIC # set the mask, e.g. umask u+w
1177
1178	Flags:
1179
1180	-p Print the mask in a form that may be reused as input
1181
1182	<!--
1183	Not implemented:
1184	-S print the mask in symbolic form
1185	-->
1186
1187	#### Symbolic Masks
1188
1189	A symbolic mask is a comma-separated list of clauses, like:
1190
1191	umask ug=rwx,o-r
1192
1193	Each clause is of the form:
1194
1195	who* (operator permission) # this format is accepted by chmod
1196
1197	where:
1198
1199	who :: u \| g \| o \| a
1200	operator :: + \| - \| =
1201	permission :: r \| w \| x \| X \| s \| t \| u \| g \| o
1202
1203	We can also express the syntax like this:
1204
1205	[ugoa]([-+=]([rwxXstugo]))*
1206
1207	Who determines which sections of the bit mask to modify:
1208
1209	ugo user, group, or other
1210	a Modify all bits, equivalent to 'ugo'
1211
1212	Operator determines how to apply the permission:
1213
1214	+ Remove specified permission bits from the umask according to who
1215	- Adds specified permission bits to the umask according to who
1216	= set all who permissions to 0777, then remove specified permission bits
1217	from the umask according to who
1218
1219	Permission determines what can be done with the file system entry:
1220
1221	rwx Set the read, write, or execute bit respectively
1222	X Set the execute bit iff the umask before this operation has one of its
1223	3 execute bits set
1224	st Does nothing, but exists for POSIX compatibility
1225	ugo Set permission equal to the umask's u, g, and o bits before this
1226	operation
1227
1228	Examples:
1229
1230	umask # print the current umask in octal form
1231
1232	umask u+rwx-x-w-r # operators can be chained
1233
1234	umask a=u # [ugo] after the operator represents the initial umask
1235
1236	umask =u # equivalent to 'umask a=u'
1237
1238	### ulimit
1239
1240	ulimit --all
1241	ulimit -a
1242	ulimit FLAGS* -RESOURCE_FLAG VALUE?
1243
1244	ulimit FLAGS* VALUE? # discouraged
1245
1246	Show and modify process resource limits.
1247
1248	Flags:
1249
1250	-S for soft limit
1251	-H for hard limit
1252
1253	-c -d -f ... # ulimit --all shows all resource flags
1254
1255	Show a table of resources:
1256
1257	ulimit --all
1258	ulimit -a
1259
1260	For example, the table shows that `-n` is the flag that controls the number
1261	file descriptors, the soft and hard limit for `-n`, and the multiplication
1262	"factor" for the integer VALUE you pass.
1263
1264	---
1265
1266	Here are examples of using resource flags.
1267
1268	Get the soft limit for the number of file descriptors:
1269
1270	ulimit -S -n
1271	ulimit -n # same thing
1272
1273	Get the hard limit:
1274
1275	ulimit -H -n
1276
1277	Set the soft or hard limit:
1278
1279	ulimit -S -n 100
1280	ulimit -H -n 100
1281
1282	Set both limits:
1283
1284	ulimit -n 100
1285
1286	A special case that's discouraged: with no resource flag, `-f` is assumed:
1287
1288	ulimit # equivalent to ulimit -f
1289	ulimit 100 # equivalent to ulimit -f 100
1290
1291	### times
1292
1293	times
1294
1295	Shows the user and system time used by the shell and its child processes.
1296
1297	## Child Process
1298
1299	### jobs
1300
1301	jobs
1302
1303	Shows all jobs running in the shell and their status.
1304
1305	### wait
1306
1307	Wait for jobs to finish, in a few different ways. (A job is a process or a
1308	pipeline.)
1309
1310	wait # no arguments
1311
1312	Wait for all jobs to terminate. The exit status is 0, unless a signal occurs.
1313
1314	wait -n
1315
1316	Wait for the next job to terminate, and return its status.
1317
1318	wait $pid1 $pid2 ...
1319
1320	Wait for the jobs specified by PIDs to terminate. Return the status of the
1321	last one.
1322
1323	wait %3 %2 ...
1324
1325	Wait for the jobs specified by "job specs" to terminate. Return the status of
1326	the last one.
1327
1328	---
1329
1330	If wait is interrupted by a signal, the exit status is the signal number + 128.
1331
1332	---
1333
1334	When using `set -e` aka `errexit`, `wait --all` is useful. See topic
1335	[ysh-wait](#ysh-wait).
1336
1337	<!--
1338	The ARG can be a PID (tracked by the kernel), or a job number (tracked by the
1339	shell). Specify jobs with the syntax `%jobnumber`.
1340	-->
1341
1342	### ysh-wait
1343
1344	YSH extends the `wait` builtin with 2 flags:
1345
1346	wait --all # wait for all jobs, like 'wait'
1347	# but exit 1 if any job exits non-zero
1348
1349	wait --verbose # show a message on each job completion
1350
1351	wait --all --verbose # show a message, and also respect failure
1352
1353	### fg
1354
1355	fg JOB?
1356
1357	Continues a stopped job in the foreground. This means it can receive signals
1358	from the keyboard, like Ctrl-C and Ctrl-Z.
1359
1360	If no JOB is specified, use the latest job.
1361
1362	### bg
1363
1364	UNIMPLEMENTED
1365
1366	bg JOB?
1367
1368	Continues a stopped job, while keeping it in the background. This means it
1369	can't receive signals from the keyboard, like Ctrl-C and Ctrl-Z.
1370
1371	If no JOB is specified, use the latest job.
1372
1373	### kill
1374
1375	The `kill` builtin sends a signal to one or more processes. Usage:
1376
1377	kill (-s SIG \| -SIG)? WHAT+ # send SIG to the given processes
1378
1379	where
1380
1381	SIG = NAME \| NUMBER # e.g. USR1 or 10
1382	WHAT = PID \| JOBSPEC # e.g. 789 or %%
1383
1384	Examples:
1385
1386	kill -s USR1 789 # send SIGUSR1 to PID 789
1387
1388	kill -s USR1 789 %% # send signal to PID 789 and the current job
1389	kill -s 10 789 %% # specify SIGUSR1 by number instead
1390
1391	kill -USR1 789 %% # shortcut syntax
1392	kill -10 789 %% # shortcut using a number
1393
1394	kill -n USR1 789 %% # -n is a synonym for -s
1395	kill 789 %% # if not specified, the default is SIGTERM
1396
1397	---
1398
1399	It can also list signals:
1400
1401	kill -L # List all signals
1402	kill -L SIG+ # Translate signals from name to number, and vice versa
1403
1404	Examples:
1405
1406	kill -l # List all signals; -l is a synonym for -L
1407	kill -L USR1 USR2 # prints '10 12'
1408	kill -L USR1 15 # prints '10 TERM'
1409	kill -L 134 # you can also pass exit codes, this prints 'ABRT'
1410
1411	## External
1412
1413	### test
1414
1415	test OP ARG
1416	test ARG OP ARG
1417	[ OP ARG ] # [ is an alias for test that requires closing ]
1418	[ ARG OP ARG ]
1419
1420	Evaluates a conditional expression and returns 0 (true) or 1 (false).
1421
1422	Note that `[` is the name of a builtin, not an operator in the language. Use
1423	`test` to avoid this confusion.
1424
1425	String expressions:
1426
1427	-n STR True if STR is not empty.
1428	'test STR' is usually equivalent, but discouraged.
1429	-z STR True if STR is empty.
1430	STR1 = STR2 True if the strings are equal.
1431	STR1 != STR2 True if the strings are not equal.
1432	STR1 < STR2 True if STR1 sorts before STR2 lexicographically.
1433	STR1 > STR2 True if STR1 sorts after STR2 lexicographically.
1434	Note: < and > should be quoted like \< and \>
1435
1436	File expressions:
1437
1438	-a FILE Synonym for -e.
1439	-b FILE True if FILE is a block special file.
1440	-c FILE True if FILE is a character special file.
1441	-d FILE True if FILE is a directory.
1442	-e FILE True if FILE exists.
1443	-f FILE True if FILE is a regular file.
1444	-g FILE True if FILE has the sgid bit set.
1445	-G FILE True if current user's group is also FILE's group.
1446	-h FILE True if FILE is a symbolic link.
1447	-L FILE True if FILE is a symbolic link.
1448	-k FILE True if FILE has the sticky bit set.
1449	-O FILE True if current user is the file owner.
1450	-p FILE True if FILE is a named pipe (FIFO).
1451	-r FILE True if FILE is readable.
1452	-s FILE True if FILE has size bigger than 0.
1453	-S FILE True if FILE is a socket file.
1454	-t FD True if file descriptor FD is open and refers to a terminal.
1455	-u FILE True if FILE has suid bit set.
1456	-w FILE True if FILE is writable.
1457	-x FILE True if FILE is executable.
1458	FILE1 -nt FILE2 True if FILE1 is newer than FILE2 (mtime).
1459	FILE1 -ot FILE2 True if FILE1 is older than FILE2 (mtime).
1460	FILE1 -ef FILE2 True if FILE1 is a hard link to FILE2.
1461	<!-- -N FILE True if FILE was modified since last read (mtime newer than atime).-->
1462
1463	Arithmetic expressions coerce arguments to integers, then compare:
1464
1465	INT1 -eq INT2 True if they're equal.
1466	INT1 -ne INT2 True if they're not equal.
1467	INT1 -lt INT2 True if INT1 is less than INT2.
1468	INT1 -le INT2 True if INT1 is less or equal than INT2.
1469	INT1 -gt INT2 True if INT1 is greater than INT2.
1470	INT1 -ge INT2 True if INT1 is greater or equal than INT2.
1471
1472	Other expressions:
1473
1474	-o OPTION True if the shell option OPTION is set.
1475	-v VAR True if the variable VAR is set.
1476
1477	The test builtin also supports POSIX conditionals like -a, -o, !, and ( ), but
1478	these are discouraged.
1479
1480	<!-- -R VAR True if the variable VAR has been set and is a nameref variable. -->
1481
1482	---
1483
1484	See [ysh-test](#ysh-test) for log flags like `--file` and `--true`.
1485
1486	### getopts
1487
1488	getopts SPEC VARNAME ARG*
1489
1490	A single iteration of flag parsing. The SPEC is a sequence of flag characters,
1491	with an optional `:` to which means that the flag takes an argument:
1492
1493	ab # accept -a and -b
1494	xy:z # accept -x, -y arg, and -z
1495
1496	A leading : enables silent error reporting:
1497
1498	:ab # accept -a and -b in silent mode
1499
1500	The input is `"$@"` by default, unless ARGs are passed.
1501
1502	getopts 'ab' myvar # input is from "$@"
1503	getopts 'xy:z' myvar -x foo # input is --x foo
1504
1505	On each iteration, variables are set
1506
1507	- The flag character is stored in `VARNAME`.
1508	- If the flag has an argument, it's stored in `$OPTARG`.
1509
1510	There are two methods of error reporting
1511
1512	- Normally, VARNAME is set to `?` and `$OPTARG` is unset.
1513	- In silent mode, VARNAME is set to :
1514	- TODO
1515
1516	Returns 0 if a flag is parsed, or 1 on end of input or another error.
1517
1518	Example:
1519
1520	while getopts "ab:" flag; do
1521	case $flag in
1522	a) flag_a=1 ;;
1523	b) flag_b=$OPTARG" ;;
1524	'?') echo 'Invalid Syntax'; break ;;
1525	esac
1526	done
1527
1528	Notes:
1529
1530	- `$OPTIND` is initialized to 1 every time a shell starts, and is used to
1531	maintain state between invocations of `getopts`.
1532	- The characters `:` and `?` can't be flags.
1533
1534
1535	## Conditional
1536
1537	### cmd/true
1538
1539	Do nothing and return status 0.
1540
1541	if true; then
1542	echo hello
1543	fi
1544
1545	### cmd/false
1546
1547	Do nothing and return status 1.
1548
1549	if false; then
1550	echo 'not reached'
1551	else
1552	echo hello
1553	fi
1554
1555	<h3 id="colon" class="osh-topic">colon :</h3>
1556
1557	Like `true`: do nothing and return status 0.
1558
1559	## Introspection
1560
1561	<h3 id="help" class="osh-topic ysh-topic" oils-embed="1">
1562	help
1563	</h3>
1564
1565	<!-- pre-formatted for help builtin -->
1566
1567	```
1568	Usage: help TOPIC?
1569
1570	Examples:
1571
1572	help # this help
1573	help echo # help on the 'echo' builtin
1574	help command-sub # help on command sub $(date)
1575
1576	help oils-usage # identical to oils-for-unix --help
1577	help osh-usage # osh --help
1578	help ysh-usage # ysh --help
1579	```
1580
1581	### hash
1582
1583	hash
1584
1585	Display information about remembered commands.
1586
1587	hash FLAG* CMD+
1588
1589	Determine the locations of commands using `$PATH`, and remember them.
1590
1591	Flag:
1592
1593	-r Discard all remembered locations.
1594	<!-- -d Discard the remembered location of each NAME.
1595	-l Display output in a format reusable as input.
1596	-p PATH Inhibit path search, PATH is used as location for NAME.
1597	-t Print the full path of one or more NAME.-->
1598
1599	### cmd/type
1600
1601	type FLAG* NAME+
1602
1603	Print the type of each NAME, if it were the first word of a command. Is it a
1604	shell keyword, builtin command, shell function, alias, or executable file on
1605	$PATH?
1606
1607	Flags:
1608
1609	-a Show all possible candidates, not just the first one
1610	-f Don't search for shell functions
1611	-P Only search for executable files
1612	-t Print a single word: alias, builtin, file, function, proc, keyword
1613
1614	Note: [`invoke --show`][invoke] is more general than `type`.
1615
1616	Similar names: [type][]
1617
1618	[type]: chap-index.html#type
1619
1620	<!-- TODO:
1621	- procs are counted as shell functions, should be their own thing
1622	- Hay nodes ('hay define x') also live in the first word namespace, and should
1623	be recognized
1624	-->
1625
1626	Modeled after the [bash `type`
1627	builtin](https://www.gnu.org/software/bash/manual/bash.html#index-type).
1628
1629	## Word Lookup
1630
1631	### invoke
1632
1633	The `invoke` builtin allows more control over name lookup than [simple
1634	commands][simple-command].
1635
1636	[simple-command]: chap-cmd-lang.html#simple-command
1637
1638	Usage:
1639
1640	invoke --show NAME* # Show info about EACH name
1641	invoke NAMESPACE_FLAG+ ARG* # Run a single command with this arg array
1642
1643	Namespace flags:
1644
1645	--proc Run YSH procs
1646	including invokable obj
1647	--sh-func Run shell functions
1648	--builtin Run builtin commands (of any kind)
1649	eval : POSIX special
1650	cd : normal
1651	sleep: private (Oils)
1652	--extern Run external commands, like /bin/ls
1653
1654	Multiple namespace flags may be passed. They are searched in that order:
1655	procs, shell functions, builtins, then extern. The first one wins. (This is
1656	different than [command-lookup-order][].)
1657
1658	[command-lookup-order]: chap-cmd-lang.html#command-lookup-order
1659
1660	If the name isn't found, then `invoke` returns status 127.
1661
1662	---
1663
1664	Run `invoke --show NAME` to see all categories a name is found in.
1665
1666	- The `--show` flag respects the [command-lookup-order][]
1667	- Shell keywords and aliases are shown, but `invoke` doesn't run them.
1668
1669	---
1670
1671	Examples:
1672
1673	invoke ls # usage error: no namespace flags
1674
1675	invoke --builtin echo hi # like builtin echo hi
1676	invoke --builtin --extern ls /tmp # like command ls /tmp (no function lookup)
1677
1678	invoke --show true sleep ls # similar to type -a true sleep ls
1679
1680	Related:
1681
1682	- [builtin][] - like `--builtin`
1683	- [command][] - like `--builtin --extern`
1684	- [runproc][] - like `--proc --sh-func`
1685	- [type][cmd/type] - like `--show`
1686
1687	[builtin]: chap-builtin-cmd.html#builtin
1688	[command]: chap-builtin-cmd.html#command
1689	[runproc]: chap-builtin-cmd.html#runproc
1690	[cmd/type]: chap-builtin-cmd.html#cmd/type
1691	[command-lookup-order]: chap-cmd-lang.html#command-lookup-order
1692
1693	### runproc
1694
1695	Runs a named proc with the given arguments. It's often useful as the only top
1696	level statement in a "task file":
1697
1698	proc p {
1699	echo hi
1700	}
1701	runproc @ARGV
1702
1703	Like 'builtin' and 'command', it affects the lookup of the first word.
1704
1705	### command
1706
1707	command FLAG* CMD ARG*
1708
1709	Look up CMD as a shell builtin or executable file, and execute it with the
1710	given ARGs.
1711
1712	Flags:
1713
1714	-v Instead of executing CMD, print a description of it.
1715	<!-- -p Use a default value for PATH that is guaranteed to find all of the
1716	standard utilities.
1717	-V Print a more verbose description of CMD.-->
1718
1719	Note: [`invoke --show`][invoke] is more general than `command -v`.
1720
1721	[invoke]: chap-builtin-cmd.html#invoke
1722
1723	### builtin
1724
1725	builtin CMD ARG*
1726
1727	Look up CMD as a shell builtin, and execute it with the given ARGs.
1728
1729	## Interactive
1730
1731	### alias
1732
1733	alias NAME=CODE
1734
1735	Make NAME a shortcut for executing CODE, e.g. `alias hi='echo hello'`.
1736
1737	alias NAME
1738
1739	Show the value of this alias.
1740
1741	alias
1742
1743	Show a list of all aliases.
1744
1745	Tips:
1746
1747	Prefer shell functions like:
1748
1749	ls() {
1750	command ls --color "$@"
1751	}
1752
1753	to aliases like:
1754
1755	alias ls='ls --color'
1756
1757	Functions are less likely to cause parsing problems.
1758
1759	- Quoting like `\ls` or `'ls'` disables alias expansion
1760	- To remove an existing alias, use [unalias](chap-builtin-cmd.html#unalias).
1761
1762	### unalias
1763
1764	unalias NAME
1765
1766	Remove the alias NAME.
1767
1768	<!--Flag:
1769
1770	-a Removes all existing aliases.-->
1771
1772	### history
1773
1774	history FLAG*
1775
1776	Display and manipulate the shell's history entries.
1777
1778	history NUM
1779
1780	Show the last NUM history entries.
1781
1782	Flags:
1783
1784	-c Clears the history.
1785	-d POS Deletes the history entry at position POS.
1786	<!-- -a
1787	-n
1788	-r
1789	-w
1790	-p
1791	-s -->
1792
1793	### fc
1794
1795	fc FLAG* FIRST? LAST?
1796
1797	"Fix a command" from the shell's history.
1798
1799	`fc -l` displays commands. FIRST and LAST specify a range of command numbers,
1800	where:
1801
1802	- A positive number is an index into the history list.
1803	- A negative number is an offset from the current command.
1804	- If FIRST is omitted, the value `-16` is used.
1805	- If LAST is omitted, the current command is used.
1806
1807	Flags:
1808
1809	-l List commands (rather than editing)
1810	-n Omit line numbers
1811	-r Use reverse order (newest first)
1812
1813	<!--
1814	Not implemented
1815
1816	-e EDITOR
1817	-s
1818	-->
1819
1820	## Unsupported
1821
1822	### enable
1823
1824	Bash has this, but OSH won't implement it.
1825