doc/ref/chap-cmd-lang.md

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6	---
7
8	Command Language
9	===
10
11	This chapter in the [Oils Reference](index.html) describes the command language
12	for both OSH and YSH.
13
14	<div id="toc">
15	</div>
16
17	## Quick Sketch: What's a Command?
18
19	OSH:
20
21	print-files() {
22	for name in *.py; do
23	if test -x "$name"; then
24	echo "$name is executable"
25	fi
26	done
27	}
28
29	YSH:
30
31	proc print-files {
32	for name in *.py {
33	if test -x $name { # no quotes needed
34	echo "$name is executable"
35	}
36	}
37	}
38
39
40	<h2 id="Commands">Commands</h2>
41
42	<h3 id="simple-command" class="osh-ysh-topic">simple-command</h3>
43
44	Commands are composed of words. The first word may be the name of
45
46	1. A builtin shell command
47	1. A YSH `proc` or shell "function"
48	1. A Hay node declared with `hay define`
49	1. An external command
50	1. An alias
51
52	Examples:
53
54	echo hi # a shell builtin doesn't start a process
55	ls /usr/bin ~/src # starts a new process
56	myproc "hello $name"
57	myshellfunc "hello $name"
58	myalias -l
59	<!-- TODO: document lookup order -->
60
61	Redirects are also allowed in any part of the command:
62
63	echo 'to stderr' >&2
64	echo >&2 'to stderr'
65
66	echo 'to file' > out.txt
67	echo > out.txt 'to file'
68
69	<h3 id="semicolon" class="osh-ysh-topic">semicolon ;</h3>
70
71	Run two commands in sequence like this:
72
73	echo one; echo two
74
75	or this:
76
77	echo one
78	echo two
79
80	<h2 id="Conditional">Conditional</h2>
81
82	<h3 id="case" class="osh-topic">case</h3>
83
84	Match a string against a series of glob patterns. Execute code in the section
85	below the matching pattern.
86
87	path='foo.py'
88	case "$path" in
89	*.py)
90	echo 'python'
91	;;
92	*.sh)
93	echo 'shell'
94	;;
95	esac
96
97	For bash compatibility, the `;;` terminator can be substituted with either:
98
99	- `;&` - fall through to next arm, ignoring the condition
100	- `;;&` - fall through to next arm, respecting the condition
101
102	<h3 id="if" class="osh-topic">if</h3>
103
104	Test if a command exited with status zero (true). If so, execute the
105	corresponding block of code.
106
107	Shell:
108
109	if test -d foo; then
110	echo 'foo is a directory'
111	elif test -f foo; then
112	echo 'foo is a file'
113	else
114	echo 'neither'
115	fi
116
117	YSH:
118
119	if test -d foo {
120	echo 'foo is a directory'
121	} elif test -f foo {
122	echo 'foo is a file'
123	} else {
124	echo 'neither'
125	}
126
127	<h3 id="true" class="osh-ysh-topic">true</h3>
128
129	Do nothing and return status 0.
130
131	if true; then
132	echo hello
133	fi
134
135	<h3 id="false" class="osh-ysh-topic">false</h3>
136
137	Do nothing and return status 1.
138
139	if false; then
140	echo 'not reached'
141	else
142	echo hello
143	fi
144
145	<h3 id="colon" class="osh-topic">colon :</h3>
146
147	Like `true`: do nothing and return status 0.
148
149	<h3 id="bang" class="osh-ysh-topic">bang !</h3>
150
151	Invert an exit code:
152
153	if ! test -d /tmp; then
154	echo "No temp directory
155	fi
156
157	<h3 id="and" class="osh-ysh-topic">and &&</h3>
158
159	mkdir -p /tmp && cp foo /tmp
160
161	<h3 id="or" class="osh-ysh-topic">or \|\|</h3>
162
163	ls \|\| die "failed"
164
165	<h2 id="Iteration">Iteration</h2>
166
167	<h3 id="while" class="osh-ysh-topic">while</h3>
168
169	POSIX
170
171	<h3 id="until" class="osh-topic">until</h3>
172
173	POSIX
174
175	<h3 id="for" class="osh-ysh-topic">for</h3>
176
177	For loops iterate over words.
178
179	YSH style:
180
181	var mystr = 'one'
182	var myarray = :\| two three \|
183
184	for i in $mystr @myarray *.py {
185	echo $i
186	}
187
188
189	Shell style:
190
191	local mystr='one'
192	local myarray=(two three)
193
194	for i in "mystr" "${myarray[@]}" *.py; do
195	echo $i
196	done
197
198	Both fragments output 3 lines and then Python files on remaining lines.
199
200	<h3 id="for-expr-sh" class="osh-topic">for-expr-sh</h3>
201
202	A bash/ksh construct:
203
204	for (( i = 0; i < 5; ++i )); do
205	echo $i
206	done
207
208	<h2 id="Control Flow">Control Flow</h2>
209
210	These are keywords in Oils, not builtins!
211
212	### break
213
214	Break out of a loop. (Not used for case statements!)
215
216	### continue
217
218	Continue to the next iteration of a loop.
219
220	### return
221
222	Return from a function.
223
224	### exit
225
226	Exit the shell process with the given status:
227
228	exit 2
229
230	<h2 id="Grouping">Grouping</h2>
231
232	### sh-func
233
234	POSIX:
235
236	f() {
237	echo args "$@"
238	}
239	f 1 2 3
240
241	### sh-block
242
243	POSIX:
244
245	{ echo one; echo two; }
246
247	The trailing `;` is necessary in OSH, but not YSH. In YSH, `parse_brace` makes
248	`}` is more of a special word.
249
250
251	### subshell
252
253	( echo one; echo two )
254
255	Use [forkwait]($osh-help) in YSH instead.
256
257	<h2 id="Concurrency">Concurrency</h2>
258
259	### pipe
260
261	### ampersand
262
263	CMD &
264
265	The `&` language construct runs CMD in the background as a job, immediately
266	returning control to the shell.
267
268	The resulting PID is recorded in the `$!` variable.
269
270	<h2 id="Redirects">Redirects</h2>
271
272	### redir-file
273
274	Examples of redirecting the `stdout` of a command:
275
276	echo foo > out.txt # overwrite out.txt
277	date >> stamp.txt # append to stamp.txt
278
279	<!--
280	echo foo >\| out.txt # clobber the file even if set -o noclobber
281	-->
282
283	Redirect to the `stdin` of a command:
284
285	cat < in.txt
286
287	Redirects are compatible with POSIX and bash, so they take descriptor numbers
288	on the left:
289
290	make 2> stderr.txt # '2>' is valid, but '2 >' is not
291
292	Note that the word argument to file redirects is evaluated like bash, which
293	is different than other arguments to other redirects:
294
295	tar -x -z < Python* # glob must expand to exactly 1 file
296	tar -x -z < $myvar # $myvar is split because it's unquoted
297
298	In other words, it's evaluated as a sequence of 1 word, which produces
299	zero to N strings. But redirects are only valid when it produces exactly 1
300	string.
301
302	(Related: YSH uses `shopt --set simple_word_eval`, which means that globs that
303	match nothing evaluate to zero strings, not themselves.)
304
305	<!-- They also take a file descriptor on the left -->
306
307
308	### redir-desc
309
310	Redirect to a file descriptor:
311
312	echo 'to stderr' >&2
313
314	<!--
315	NOTE: >&2 is just like <&2
316	There's no real difference.
317	-->
318
319	### here-doc
320
321	TODO: unbalanced HTML if we use \<\<?
322
323	cat <<EOF
324	here doc with $double ${quoted} substitution
325	EOF
326
327	myfunc() {
328	cat <<-EOF
329	here doc with one tab leading tab stripped
330	EOF
331	}
332
333	cat <<< 'here string'
334
335	<!-- TODO: delimiter can be quoted -->
336	<!-- Note: Python's HTML parser thinks <EOF starts a tag -->
337
338	## Other Command
339
340	<h3 id="dparen" class="osh-topic">dparen ((</h3>
341
342	<h3 id="time" class="osh-ysh-topic">time</h3>
343
344	time [-p] pipeline
345
346	Measures the time taken by a command / pipeline. It uses the `getrusage()`
347	function from `libc`.
348
349	Note that time is a KEYWORD, not a builtin!
350
351	<!-- Note: bash respects TIMEFORMAT -->
352
353
354	## YSH Simple
355
356	### typed-arg
357
358	Internal commands (procs and builtins) accept typed arguments in parentheses:
359
360	json write (myobj)
361
362	Redirects can also appear after the typed args:
363
364	json write (myobj) >out.txt
365
366	### lazy-expr-arg
367
368	Expressions in brackets like this:
369
370	assert [42 === x]
371
372	Are syntactic sugar for:
373
374	assert (^[42 === x])
375
376	That is, it's single arg of type `value.Expr`.
377
378	Redirects can also appear after the lazy typed args:
379
380	assert [42 ===x] >out.txt
381
382	### block-arg
383
384	Blocks can be passed to simple commands, either literally:
385
386	cd /tmp {
387	echo $PWD # prints /tmp
388	}
389	echo $PWD
390
391	Or as an expression:
392
393	var block = ^(echo $PWD)
394	cd /tmp (; ; block)
395
396	Note that `cd` has no typed or named arguments, so the two semicolons are
397	preceded by nothing.
398
399	Compare with [sh-block]($osh-help).
400
401	Redirects can appear after the block arg:
402
403	cd /tmp {
404	echo $PWD # prints /tmp
405	} >out.txt
406
407	## YSH Assign
408
409	### const
410
411	Binds a name to a YSH expression on the right, with a dynamic check to
412	prevent mutation.
413
414	const c = 'mystr' # equivalent to readonly c=mystr
415	const pat = / digit+ / # an eggex, with no shell equivalent
416
417	If you try to re-declare or mutate the name, the shell will fail with a runtime
418	error. `const` uses the same mechanism as the `readonly` builtin.
419
420	Consts should only appear at the top-level, and can't appear within `proc` or
421	`func`.
422
423	### var
424
425	Initializes a name to a YSH expression.
426
427	var s = 'mystr' # equivalent to declare s=mystr
428	var pat = / digit+ / # an eggex, with no shell equivalent
429
430	It's either global or scoped to the current function.
431
432	You can bind multiple variables:
433
434	var flag, i = parseArgs(spec, ARGV)
435
436	var x, y = 42, 43
437
438	You can omit the right-hand side:
439
440	var x, y # implicitly initialized to null
441
442	### setvar
443
444	At the top-level, setvar creates or mutates a variable.
445
446	setvar gFoo = 'mutable'
447
448	Inside a func or proc, it mutates a local variable declared with var.
449
450	proc p {
451	var x = 42
452	setvar x = 43
453	}
454
455	You can mutate a List location:
456
457	setvar a[42] = 'foo'
458
459	Or a Dict location:
460
461	setvar d['key'] = 43
462	setvar d.key = 43 # same thing
463
464	You can use any of these these augmented assignment operators
465
466	+= -= = /= *= //= %=
467	&= \|= ^= <<= >>=
468
469	Examples:
470
471	setvar x += 2 # increment by 2
472
473	setvar a[42] *= 2 # multiply by 2
474
475	setvar d.flags \|= 0b0010_000 # set a flag
476
477
478	### setglobal
479
480	Creates or mutates a global variable. Has the same syntax as `setvar`.
481
482
483	## YSH Expr
484
485	### equal
486
487	The `=` keyword evaluates an expression and shows the result:
488
489	oil$ = 1 + 2*3
490	(Int) 7
491
492	It's meant to be used interactively. Think of it as an assignment with no
493	variable on the left.
494
495	### call
496
497	The `call` keyword evaluates an expression and throws away the result:
498
499	var x = :\| one two \|
500	call x->append('three')
501	call x->append(['typed', 'data'])
502
503
504	## YSH Code
505
506	### proc-def
507
508	Procs are shell-like functions, but with named parameters, and without dynamic
509	scope.
510
511	Here's a simple proc:
512
513	proc my-cp (src, dest) {
514	cp --verbose --verbose $src $dest
515	}
516
517	Here's the most general form:
518
519	proc p (
520	w1, w2, ...rest_words;
521	t1, t2, ...rest_typed;
522	n1, n2, ...rest_named;
523	block) {
524
525	= w1
526	= t1
527	= n1
528	= block
529	}
530
531	See the [Guide to Procs and Funcs](../proc-func.html) for details.
532
533	Compare with [sh-func]($osh-help).
534
535	### func-def
536
537	TODO
538
539	### ysh-return
540
541	To return an expression, wrap it in `()` as usual:
542
543	func inc(x) {
544	return (x + 1)
545	}
546
547	## YSH Cond
548
549	### ysh-if
550
551	Like shell, you can use a command:
552
553	if test --file $x {
554	echo "$x is a file"
555	}
556
557	You can also use an expression:
558
559	if (x > 0) {
560	echo 'positive'
561	}
562
563	### ysh-case
564
565	Like the shell case statement, the Ysh case statement has string/glob patterns.
566
567	var s = 'README.md'
568	case (s) {
569	*.py { echo 'Python' }
570	.cc \| .h { echo 'C++' }
571	* { echo 'Other' }
572	}
573	# => Other
574
575	We also generated it to typed data within `()`:
576
577	var x = 43
578	case (x) {
579	(30 + 12) { echo 'the integer 42' }
580	(else) { echo 'neither' }
581	}
582	# => neither
583
584	The `else` is a special keyword that matches any value.
585
586	case (s) {
587	/ dot* '.md' / { echo 'Markdown' }
588	(else) { echo 'neither' }
589	}
590	# => Markdown
591
592	## YSH Iter
593
594	### ysh-while
595
596	Command or expression:
597
598	var x = 5
599	while (x < 0) {
600	setvar x -= 1
601	}
602
603	### ysh-for
604
605	Two forms for shell-style loops:
606
607	for name in *.py {
608	echo "$name"
609	}
610
611	for i, name in *.py {
612	echo "$i $name"
613	}
614
615	Two forms for expressions that evaluate to a `List`:
616
617	for item in (mylist) {
618	echo "$item"
619	}
620
621	for i, item in (mylist) {
622	echo "$i $item"
623	}
624
625	Three forms for expressions that evaluate to a `Dict`:
626
627	for key in (mydict) {
628	echo "$key"
629	}
630
631	for key, value in (mydict) {
632	echo "$key $value"
633	}
634
635	for i, key, value in (mydict) {
636	echo "$i $key $value"
637	}
638
639	# vim: sw=2