1	#
2	# echo, read, mapfile
3	# TODO mapfile options: -c, -C, -u, etc.
4
5	#### echo dashes
6	echo -
7	echo --
8	echo ---
9	## stdout-json: "-\n--\n---\n"
10	## BUG zsh stdout-json: "\n--\n---\n"
11
12	#### echo backslashes
13	echo \\
14	echo '\'
15	echo '\\'
16	echo "\\"
17	## STDOUT:
18	\
19	\
20	\\
21	\
22	## BUG dash/mksh/zsh STDOUT:
23	\
24	\
25	\
26	\
27	## END
28
29	#### echo -e backslashes
30	echo -e \\
31	echo -e '\'
32	echo -e '\\'
33	echo -e "\\"
34	## STDOUT:
35	\
36	\
37	\
38	\
39	## N-I dash STDOUT:
40	-e \
41	-e \
42	-e \
43	-e \
44	## END
45
46	#### echo -en
47	echo -en 'abc\ndef\n'
48	## stdout-json: "abc\ndef\n"
49	## N-I dash stdout-json: "-en abc\ndef\n\n"
50
51	#### echo -ez (invalid flag)
52	# bash differs from the other three shells, but its behavior is possibly more
53	# sensible, if you're going to ignore the error. It doesn't make sense for
54	# the 'e' to mean 2 different things simultaneously: flag and literal to be
55	# printed.
56	echo -ez 'abc\n'
57	## stdout-json: "-ez abc\\n\n"
58	## OK dash/mksh/zsh stdout-json: "-ez abc\n\n"
59
60	#### echo -e with embedded newline
61	flags='-e'
62	case $SH in dash) flags='' ;; esac
63
64	echo $flags 'foo
65	bar'
66	## STDOUT:
67	foo
68	bar
69	## END
70
71	#### echo -e line continuation
72	flags='-e'
73	case $SH in dash) flags='' ;; esac
74
75	echo $flags 'foo\
76	bar'
77	## STDOUT:
78	foo\
79	bar
80	## END
81
82	#### echo -e with C escapes
83	# https://www.gnu.org/software/bash/manual/bashref.html#Bourne-Shell-Builtins
84	# not sure why \c is like NUL?
85	# zsh doesn't allow \E for some reason.
86	echo -e '\a\b\d\e\f'
87	## stdout-json: "\u0007\u0008\\d\u001b\u000c\n"
88	## N-I dash stdout-json: "-e \u0007\u0008\\d\\e\u000c\n"
89
90	#### echo -e with whitespace C escapes
91	echo -e '\n\r\t\v'
92	## stdout-json: "\n\r\t\u000b\n"
93	## N-I dash stdout-json: "-e \n\r\t\u000b\n"
94
95	#### \0
96	echo -e 'ab\0cd'
97	## stdout-json: "ab\u0000cd\n"
98	## N-I dash stdout-json: "-e ab\u0000cd\n"
99
100	#### \c stops processing input
101	flags='-e'
102	case $SH in dash) flags='' ;; esac
103
104	echo $flags xy 'ab\cde' 'zzz'
105	## stdout-json: "xy ab"
106	## N-I mksh stdout-json: "xy abde zzz"
107
108	#### echo -e with hex escape
109	echo -e 'abcd\x65f'
110	## stdout-json: "abcdef\n"
111	## N-I dash stdout-json: "-e abcd\\x65f\n"
112
113	#### echo -e with octal escape
114	flags='-e'
115	case $SH in dash) flags='' ;; esac
116
117	echo $flags 'abcd\044e'
118	## stdout-json: "abcd$e\n"
119
120	#### echo -e with 4 digit unicode escape
121	flags='-e'
122	case $SH in dash) flags='' ;; esac
123
124	echo $flags 'abcd\u0065f'
125	## STDOUT:
126	abcdef
127	## END
128	## N-I dash/ash stdout-json: "abcd\\u0065f\n"
129
130	#### echo -e with 8 digit unicode escape
131	flags='-e'
132	case $SH in dash) flags='' ;; esac
133
134	echo $flags 'abcd\U00000065f'
135	## STDOUT:
136	abcdef
137	## END
138	## N-I dash/ash stdout-json: "abcd\\U00000065f\n"
139
140	#### \0377 is the highest octal byte
141	echo -en '\03777' | od -A n -t x1 | sed 's/ \+/ /g'
142	## stdout-json: " ff 37\n"
143	## N-I dash stdout-json: " 2d 65 6e 20 ff 37 0a\n"
144
145	#### \0400 is one more than the highest octal byte
146	# It is 256 % 256 which gets interpreted as a NUL byte.
147	echo -en '\04000' | od -A n -t x1 | sed 's/ \+/ /g'
148	## stdout-json: " 00 30\n"
149	## BUG ash stdout-json: " 20 30 30\n"
150	## N-I dash stdout-json: " 2d 65 6e 20 00 30 0a\n"
151
152	#### \0777 is out of range
153	flags='-en'
154	case $SH in dash) flags='-n' ;; esac
155
156	echo $flags '\0777' | od -A n -t x1 | sed 's/ \+/ /g'
157	## stdout-json: " ff\n"
158	## BUG mksh stdout-json: " c3 bf\n"
159	## BUG ash stdout-json: " 3f 37\n"
160
161	#### incomplete hex escape
162	echo -en 'abcd\x6' | od -A n -c | sed 's/ \+/ /g'
163	## stdout-json: " a b c d 006\n"
164	## N-I dash stdout-json: " - e n a b c d \\ x 6 \\n\n"
165
166	#### \x
167	# I consider mksh and zsh a bug because \x is not an escape
168	echo -e '\x' '\xg' | od -A n -c | sed 's/ \+/ /g'
169	## stdout-json: " \\ x \\ x g \\n\n"
170	## N-I dash stdout-json: " - e \\ x \\ x g \\n\n"
171	## BUG mksh/zsh stdout-json: " \\0 \\0 g \\n\n"
172
173	#### incomplete octal escape
174	flags='-en'
175	case $SH in dash) flags='-n' ;; esac
176
177	echo $flags 'abcd\04' | od -A n -c | sed 's/ \+/ /g'
178	## stdout-json: " a b c d 004\n"
179
180	#### incomplete unicode escape
181	echo -en 'abcd\u006' | od -A n -c | sed 's/ \+/ /g'
182	## stdout-json: " a b c d 006\n"
183	## N-I dash stdout-json: " - e n a b c d \\ u 0 0 6 \\n\n"
184	## BUG ash stdout-json: " a b c d \\ u 0 0 6\n"
185
186	#### \u6
187	flags='-en'
188	case $SH in dash) flags='-n' ;; esac
189
190	echo $flags '\u6' | od -A n -c | sed 's/ \+/ /g'
191	## stdout-json: " 006\n"
192	## N-I dash/ash stdout-json: " \\ u 6\n"
193
194	#### \0 \1 \8
195	# \0 is special, but \1 isn't in bash
196	# \1 is special in dash! geez
197	flags='-en'
198	case $SH in dash) flags='-n' ;; esac
199
200	echo $flags '\0' '\1' '\8' | od -A n -c | sed 's/ \+/ /g'
201	## stdout-json: " \\0 \\ 1 \\ 8\n"
202	## BUG dash/ash stdout-json: " \\0 001 \\ 8\n"
203
204	#### Read builtin
205	# NOTE: there are TABS below
206	read x <<EOF
207	A B C D E
208	FG
209	EOF
210	echo "[$x]"
211	## stdout: [A B C D E]
212	## status: 0
213
214	#### Read from empty file
215	echo -n '' > $TMP/empty.txt
216	read x < $TMP/empty.txt
217	argv.py "status=$?" "$x"
218
219	# No variable name, behaves the same
220	read < $TMP/empty.txt
221	argv.py "status=$?" "$REPLY"
222
223	## STDOUT:
224	['status=1', '']
225	['status=1', '']
226	## END
227	## OK dash STDOUT:
228	['status=1', '']
229	['status=2', '']
230	## END
231	## status: 0
232
233	#### read /dev/null
234	read -n 1 </dev/null
235	echo $?
236	## STDOUT:
237	1
238	## END
239	## OK dash stdout: 2
240
241	#### read with zero args
242	echo | read
243	echo status=$?
244	## STDOUT:
245	status=0
246	## END
247	## BUG dash STDOUT:
248	status=2
249	## END
250
251	#### Read builtin with no newline.
252	# This is odd because the variable is populated successfully. OSH/Oil might
253	# need a separate put reading feature that doesn't use IFS.
254	echo -n ZZZ | { read x; echo $?; echo $x; }
255	## stdout-json: "1\nZZZ\n"
256	## status: 0
257
258	#### Read builtin with multiple variables
259	# NOTE: there are TABS below
260	read x y z <<EOF
261	A B C D E
262	FG
263	EOF
264	echo "[$x/$y/$z]"
265	## stdout: [A/B/C D E]
266	## status: 0
267
268	#### Read builtin with not enough variables
269	set -o errexit
270	set -o nounset # hm this doesn't change it
271	read x y z <<EOF
272	A B
273	EOF
274	echo /$x/$y/$z/
275	## stdout: /A/B//
276	## status: 0
277
278	#### Read -n (with $REPLY)
279	echo 12345 > $TMP/readn.txt
280	read -n 4 x < $TMP/readn.txt
281	read -n 2 < $TMP/readn.txt # Do it again with no variable
282	argv.py $x $REPLY
283	## stdout: ['1234', '12']
284	## N-I dash/zsh stdout: []
285
286	#### IFS= read -n (OSH regression: value saved in tempenv)
287	echo XYZ > "$TMP/readn.txt"
288	IFS= TMOUT= read -n 1 char < "$TMP/readn.txt"
289	argv.py "$char"
290	## stdout: ['X']
291	## N-I dash/zsh stdout: ['']
292
293	#### read -n with invalid arg
294	read -n not_a_number
295	echo status=$?
296	## stdout: status=2
297	## OK bash stdout: status=1
298	## N-I zsh stdout-json: ""
299
300	#### read -n from pipe
301	case $SH in (dash|ash|zsh) exit ;; esac
302
303	echo abcxyz | { read -n 3; echo reply=$REPLY; }
304	## status: 0
305	## stdout: reply=abc
306	## N-I dash/ash/zsh stdout-json: ""
307
308	# zsh appears to hang with -k
309	## N-I zsh stdout-json: ""
310
311	#### Read uses $REPLY (without -n)
312	echo 123 > $TMP/readreply.txt
313	read < $TMP/readreply.txt
314	echo $REPLY
315	## stdout: 123
316	## N-I dash stdout:
317
318	#### read -r ignores backslashes
319	echo 'one\ two' > $TMP/readr.txt
320	read escaped < $TMP/readr.txt
321	read -r raw < $TMP/readr.txt
322	argv.py "$escaped" "$raw"
323	## stdout: ['one two', 'one\\ two']
324
325	#### read -r with other backslash escapes
326	echo 'one\ two\x65three' > $TMP/readr.txt
327	read escaped < $TMP/readr.txt
328	read -r raw < $TMP/readr.txt
329	argv.py "$escaped" "$raw"
330	# mksh respects the hex escapes here, but other shells don't!
331	## stdout: ['one twox65three', 'one\\ two\\x65three']
332	## BUG mksh/zsh stdout: ['one twoethree', 'one\\ twoethree']
333
334	#### read with line continuation reads multiple physical lines
335	# NOTE: osh failing because of file descriptor issue. stdin has to be closed!
336	tmp=$TMP/$(basename $SH)-readr.txt
337	echo -e 'one\\\ntwo\n' > $tmp
338	read escaped < $tmp
339	read -r raw < $tmp
340	argv.py "$escaped" "$raw"
341	## stdout: ['onetwo', 'one\\']
342	## N-I dash stdout: ['-e onetwo', '-e one\\']
343
344	#### read multiple vars spanning many lines
345	read x y << 'EOF'
346	one-\
347	two three-\
348	four five-\
349	six
350	EOF
351	argv.py "$x" "$y" "$z"
352	## stdout: ['one-two', 'three-four five-six', '']
353
354	#### read -r with \n
355	echo '\nline' > $TMP/readr.txt
356	read escaped < $TMP/readr.txt
357	read -r raw < $TMP/readr.txt
358	argv.py "$escaped" "$raw"
359	# dash/mksh/zsh are bugs because at least the raw mode should let you read a
360	# literal \n.
361	## stdout: ['nline', '\\nline']
362	## BUG dash/mksh/zsh stdout: ['', '']
363
364	#### read -s from pipe, not a terminal
365	case $SH in (dash|zsh) exit ;; esac
366
367	# It's hard to really test this because it requires a terminal. We hit a
368	# different code path when reading through a pipe. There can be bugs there
369	# too!
370
371	echo foo | { read -s; echo $REPLY; }
372	echo bar | { read -n 2 -s; echo $REPLY; }
373
374	# Hm no exit 1 here? Weird
375	echo b | { read -n 2 -s; echo $?; echo $REPLY; }
376	## STDOUT:
377	foo
378	ba
379	0
380	b
381	## END
382	## N-I dash/zsh stdout-json: ""
383
384	#### Read with IFS=$'\n'
385	# The leading spaces are stripped if they appear in IFS.
386	IFS=$(echo -e '\n')
387	read var <<EOF
388	a b c
389	d e f
390	EOF
391	echo "[$var]"
392	## stdout: [ a b c]
393	## N-I dash stdout: [a b c]
394
395	#### Read multiple lines with IFS=:
396	# The leading spaces are stripped if they appear in IFS.
397	# IFS chars are escaped with :.
398	tmp=$TMP/$(basename $SH)-read-ifs.txt
399	IFS=:
400	cat >$tmp <<'EOF'
401	\\a :b\: c:d\
402	e
403	EOF
404	read a b c d < $tmp
405	# Use printf because echo in dash/mksh interprets escapes, while it doesn't in
406	# bash.
407	printf "%s\n" "[$a|$b|$c|$d]"
408	## stdout: [ \a |b: c|d e|]
409
410	#### Read with IFS=''
411	IFS=''
412	read x y <<EOF
413	a b c d
414	EOF
415	echo "[$x|$y]"
416	## stdout: [ a b c d|]
417
418	#### Read should not respect C escapes.
419	# bash doesn't respect these, but other shells do. Gah! I think bash
420	# behavior makes more sense. It only escapes IFS.
421	echo '\a \b \c \d \e \f \g \h \x65 \145 \i' > $TMP/read-c.txt
422	read line < $TMP/read-c.txt
423	echo $line
424	## stdout-json: "a b c d e f g h x65 145 i\n"
425	## BUG ash stdout-json: "abcdefghx65 145 i\n"
426	## BUG dash/zsh stdout-json: "\u0007 \u0008\n"
427	## BUG mksh stdout-json: "\u0007 \u0008 d \u001b \u000c g h e 145 i\n"
428
429	#### Read builtin uses dynamic scope
430	f() {
431	read head << EOF
432	ref: refs/heads/dev/andy
433	EOF
434	}
435	f
436	echo $head
437	## STDOUT:
438	ref: refs/heads/dev/andy
439	## END
440
441	#### read -a reads into array
442
443	# read -a is used in bash-completion
444	# none of these shells implement it
445	case $SH in
446	*mksh|*dash|*zsh|*/ash)
447	exit 2;
448	;;
449	esac
450
451	read -a myarray <<'EOF'
452	a b c\ d
453	EOF
454	argv.py "${myarray[@]}"
455
456	# arguments are ignored here
457	read -r -a array2 extra arguments <<'EOF'
458	a b c\ d
459	EOF
460	argv.py "${array2[@]}"
461	argv.py "${extra[@]}"
462	argv.py "${arguments[@]}"
463	## status: 0
464	## STDOUT:
465	['a', 'b', 'c d']
466	['a', 'b', 'c\\', 'd']
467	[]
468	[]
469	## END
470	## N-I dash/mksh/zsh/ash status: 2
471	## N-I dash/mksh/zsh/ash stdout-json: ""
472
473	#### read -d : (colon-separated records)
474	printf a,b,c:d,e,f:g,h,i | {
475	IFS=,
476	read -d : v1
477	echo "v1=$v1"
478	read -d : v1 v2
479	echo "v1=$v1 v2=$v2"
480	read -d : v1 v2 v3
481	echo "v1=$v1 v2=$v2 v3=$v3"
482	}
483	## STDOUT:
484	v1=a,b,c
485	v1=d v2=e,f
486	v1=g v2=h v3=i
487	## END
488	## N-I dash STDOUT:
489	v1=
490	v1= v2=
491	v1= v2= v3=
492	## END
493
494	#### read -d '' (null-separated records)
495	printf 'a,b,c\0d,e,f\0g,h,i' | {
496	IFS=,
497	read -d '' v1
498	echo "v1=$v1"
499	read -d '' v1 v2
500	echo "v1=$v1 v2=$v2"
501	read -d '' v1 v2 v3
502	echo "v1=$v1 v2=$v2 v3=$v3"
503	}
504	## STDOUT:
505	v1=a,b,c
506	v1=d v2=e,f
507	v1=g v2=h v3=i
508	## END
509	## N-I dash STDOUT:
510	v1=
511	v1= v2=
512	v1= v2= v3=
513	## END
514
515	#### read -rd
516	read -rd '' var <<EOF
517	foo
518	bar
519	EOF
520	echo "$var"
521	## STDOUT:
522	foo
523	bar
524	## END
525	## N-I dash stdout-json: "\n"
526
527	#### read -d when there's no delimiter
528	{ read -d : part
529	echo $part $?
530	read -d : part
531	echo $part $?
532	} <<EOF
533	foo:bar
534	EOF
535	## STDOUT:
536	foo 0
537	bar 1
538	## END
539	## N-I dash STDOUT:
540	2
541	2
542	## END
543
544	#### read -t 0 tests if input is available
545	case $SH in (dash|zsh|mksh) exit ;; esac
546
547	# is there input available?
548	read -t 0 < /dev/null
549	echo $?
550
551	# floating point
552	read -t 0.0 < /dev/null
553	echo $?
554
555	# floating point
556	echo foo | { read -t 0; echo reply=$REPLY; }
557	echo $?
558
559	## STDOUT:
560	0
561	0
562	reply=
563	0
564	## END
565	## N-I dash/zsh/mksh stdout-json: ""
566
567	#### read -t 0.5
568	case $SH in (dash) exit ;; esac
569
570	read -t 0.5 < /dev/null
571	echo $?
572
573	## STDOUT:
574	1
575	## END
576	## BUG zsh/mksh STDOUT:
577	1
578	## END
579	## N-I dash stdout-json: ""
580
581	#### read -t -0.5 is invalid
582	# bash appears to just take the absolute value?
583
584	read -t -0.5 < /dev/null
585	echo $?
586
587	## STDOUT:
588	2
589	## END
590	## BUG bash STDOUT:
591	1
592	## END
593	## BUG zsh stdout-json: ""
594	## BUG zsh status: 1
595
596	#### read -u
597	case $SH in (dash|mksh) exit ;; esac
598
599	# file descriptor
600	read -u 3 3<<EOF
601	hi
602	EOF
603	echo reply=$REPLY
604	## STDOUT:
605	reply=hi
606	## END
607	## N-I dash/mksh stdout-json: ""
608
609	#### read -u syntax error
610	read -u -3
611	echo status=$?
612	## STDOUT:
613	status=2
614	## END
615	## OK bash/zsh STDOUT:
616	status=1
617	## END
618
619	#### read -N doesn't respect delimiter, while read -n does
620	case $SH in (dash|zsh|ash) exit ;; esac
621
622	echo foobar | { read -n 5 -d b; echo $REPLY; }
623	echo foobar | { read -N 5 -d b; echo $REPLY; }
624	## STDOUT:
625	foo
626	fooba
627	## END
628	## OK mksh STDOUT:
629	fooba
630	fooba
631	## END
632	## N-I dash/zsh/ash stdout-json: ""
633
634	#### read -p (not fully tested)
635
636	# hm DISABLED if we're not going to the terminal
637	# so we're only testing that it accepts the flag here
638
639	case $SH in (dash|mksh|zsh) exit ;; esac
640
641	echo hi | { read -p 'P'; echo $REPLY; }
642	echo hi | { read -p 'P' -n 1; echo $REPLY; }
643	## STDOUT:
644	hi
645	h
646	## END
647	## stderr-json: ""
648	## N-I dash/mksh/zsh stdout-json: ""
649
650	#### read usage
651	read -n -1
652	echo status=$?
653	## STDOUT:
654	status=2
655	## END
656	## OK bash stdout: status=1
657	## BUG mksh stdout-json: ""
658	# zsh gives a fatal error? seems inconsistent
659	## BUG zsh stdout-json: ""
660	## BUG zsh status: 1
661
662	#### read with smooshed args
663	echo hi | { read -rn1 var; echo var=$var; }
664	## STDOUT:
665	var=h
666	## END
667	## N-I dash/zsh STDOUT:
668	var=
669	## END
670
671	#### read -r -d '' for NUL strings, e.g. find -print0
672
673
674	case $SH in (dash|zsh|mksh) exit ;; esac # NOT IMPLEMENTED
675
676	mkdir -p read0
677	cd read0
678	rm -f *
679
680	touch a\\b\\c\\d # -r is necessary!
681
682	find . -type f -a -print0 | { read -r -d ''; echo "[$REPLY]"; }
683
684	## STDOUT:
685	[./a\b\c\d]
686	## END
687	## N-I dash/zsh/mksh STDOUT:
688	## END
689
690
691	#### redirection from directory is non-fatal error)
692
693	# This tickles an infinite loop bug in our version of mksh! TODO: ugprade the
694	# version and enable this
695	case $SH in (mksh) return ;; esac
696
697	cd $TMP
698	mkdir -p dir
699	read x < ./dir
700	echo status=$?
701
702	## STDOUT:
703	status=1
704	## END
705	# OK mksh stdout: status=2
706	## OK mksh stdout-json: ""
707
708	#### read -n from directory
709
710	case $SH in (dash|ash) return ;; esac # not implemented
711
712	# same hanging bug
713	case $SH in (mksh) return ;; esac
714
715	mkdir -p dir
716	read -n 3 x < ./dir
717	echo status=$?
718	## STDOUT:
719	status=1
720	## END
721	## OK mksh stdout-json: ""
722	## N-I dash/ash stdout-json: ""
723
724	#### mapfile from directory (bash doesn't handle errors)
725	case $SH in (dash|ash|mksh|zsh) return ;; esac # not implemented
726
727	mkdir -p dir
728	mapfile $x < ./dir
729	echo status=$?
730	## STDOUT:
731	status=1
732	## END
733	## BUG bash STDOUT:
734	status=0
735	## END
736	## N-I dash/ash/mksh/zsh stdout-json: ""
737
738	#### Redirect to directory
739	echo foo > ./dir
740	echo status=$?
741	printf foo > ./dir
742	echo status=$?
743	## STDOUT:
744	status=1
745	status=1
746	## END
747	## OK dash STDOUT:
748	status=2
749	status=2
750	## END
751