spec/ysh-methods.test.sh

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1	# spec/ysh-methods
2
3	## our_shell: ysh
4	## oils_failures_allowed: 2
5
6	#### => operator for pure computation is allowed (may be mandatory later)
7
8	# later we may make it mandatory
9
10	if ("abc" => startsWith("a")) {
11	echo yes
12	}
13
14	var mylist = [1, 2, 3]
15
16	# This one should be ->
17	call mylist->pop()
18	echo 'ok'
19
20	## STDOUT:
21	yes
22	ok
23	## END
24
25	#### => can be used to chain free functions
26
27	func dictfunc() {
28	return ({k1: 'spam', k2: 'eggs'})
29	}
30
31	echo $[list(dictfunc()) => join('/') => upper()]
32
33	# This is nicer and more consistent
34	echo $[dictfunc() => list() => join('/') => upper()]
35
36	## STDOUT:
37	K1/K2
38	K1/K2
39	## END
40
41	#### Str => startsWith(Str) and endsWith(Str), simple
42	func test(s, p) { echo $[s => startsWith(p)] $[s => endsWith(p)] }
43
44	call test('', '')
45	call test('abc', '')
46	call test('abc', 'a')
47	call test('abc', 'b')
48	call test('abc', 'c')
49	call test('abc', 'z')
50	call test('', 'abc')
51	## status: 0
52	## STDOUT:
53	true true
54	true true
55	true false
56	false false
57	false true
58	false false
59	false false
60	## END
61
62	#### Str => startsWith(Str) and endsWith(Str), matches bytes not runes
63	func test(s, p) { echo $[s => startsWith(p)] $[s => endsWith(p)] }
64
65	call test(b'\yce\ya3', u'\u{03a3}')
66	call test(b'\yce\ya3', b'\yce')
67	call test(b'\yce\ya3', b'\ya3')
68	call test(b'\yce', b'\yce')
69	## status: 0
70	## STDOUT:
71	true true
72	true false
73	false true
74	true true
75	## END
76
77	#### Str => startsWith(Str) and endsWith(Str), eggex
78	func test(s, p) { echo $[s => startsWith(p)] $[s => endsWith(p)] }
79
80	call test('abc', / d+ /)
81	call test('abc', / [ a b c ] /)
82	call test('abc', / 'abc' /)
83	call test('cba', / d+ /)
84	call test('cba', / [ a b c ] /)
85	call test('cba', / 'abc' /)
86	## status: 0
87	## STDOUT:
88	false false
89	true true
90	true true
91	false false
92	true true
93	false false
94	## END
95
96	#### Str => startsWith(Str) and endsWith(Str), eggex with anchors
97	func test(s, p) { echo $[s => startsWith(p)] $[s => endsWith(p)] }
98
99	call test('ab', / %start 'a' /)
100	call test('ab', / 'a' %end /)
101	call test('ab', / %start 'a' %end /)
102	call test('ab', / %start 'b' /)
103	call test('ab', / 'b' %end /)
104	call test('ab', / %start 'b' %end /)
105	## status: 0
106	## STDOUT:
107	true false
108	false false
109	false false
110	false false
111	false true
112	false false
113	## END
114
115	#### Str => startsWith(Str) and endsWith(Str), eggex matches bytes not runes
116	func test(s, p) { echo $[s => startsWith(p)] $[s => endsWith(p)] }
117
118	call test(u'\u{03a3}', / dot /)
119	call test(u'\u{03a3}', / ![z] /)
120	call test(b'\yce', / dot /) # Fails: eggex does not match bytes
121	call test(b'\yce', / ![z] /) # Fails: eggex does not match bytes
122	## status: 0
123	## STDOUT:
124	true true
125	true true
126	true true
127	true true
128	## END
129
130	#### Str => startsWith(), no args
131	= 'abc' => startsWith()
132	## status: 3
133
134	#### Str => startsWith(), too many args
135	= 'abc' => startsWith('extra', 'arg')
136	## status: 3
137
138	#### Str => endsWith(), no args
139	= 'abc' => endsWith()
140	## status: 3
141
142	#### Str => endsWith(), too many args
143	= 'abc' => endsWith('extra', 'arg')
144	## status: 3
145
146	#### Str => trim*() with no args trims whitespace
147	func test(s) { write --sep ', ' --j8 $[s => trimStart()] $[s => trimEnd()] $[s => trim()] }
148
149	call test("")
150	call test(" ")
151	call test("mystr")
152	call test(" mystr")
153	call test("mystr ")
154	call test(" mystr ")
155	call test(" my str ")
156	## status: 0
157	## STDOUT:
158	"", "", ""
159	"", "", ""
160	"mystr", "mystr", "mystr"
161	"mystr", " mystr", "mystr"
162	"mystr ", "mystr", "mystr"
163	"mystr ", " mystr", "mystr"
164	"my str ", " my str", "my str"
165	## END
166
167	#### Str => trim*() with a simple string pattern trims pattern
168	func test(s, p) { write --sep ', ' --j8 $[s => trimStart(p)] $[s => trimEnd(p)] $[s => trim(p)] }
169
170	call test('' , 'xyz')
171	call test(' ' , 'xyz')
172	call test('xy' , 'xyz')
173	call test('yz' , 'xyz')
174	call test('xyz' , 'xyz')
175	call test('xyzxyz' , 'xyz')
176	call test('xyzxyzxyz', 'xyz')
177	## status: 0
178	## STDOUT:
179	"", "", ""
180	" ", " ", " "
181	"xy", "xy", "xy"
182	"yz", "yz", "yz"
183	"", "", ""
184	"xyz", "xyz", ""
185	"xyzxyz", "xyzxyz", "xyz"
186	## END
187
188	#### Str => trim*() with a string pattern trims bytes not runes
189	func test(s, p) { write --sep ', ' --j8 $[s => trimStart(p)] $[s => trimEnd(p)] $[s => trim(p)] }
190
191	call test(b'\yce\ya3', u'\u{03a3}')
192	call test(b'\yce\ya3', b'\yce')
193	call test(b'\yce\ya3', b'\ya3')
194	## status: 0
195	## STDOUT:
196	"", "", ""
197	b'\ya3', "Σ", b'\ya3'
198	"Σ", b'\yce', b'\yce'
199	## END
200
201	#### Str => trim*() with an eggex pattern trims pattern
202	func test(s, p) { write --sep ', ' --j8 $[s => trimStart(p)] $[s => trimEnd(p)] $[s => trim(p)] }
203
204	call test('' , / 'xyz' /)
205	call test(' ' , / 'xyz' /)
206	call test('xy' , / 'xyz' /)
207	call test('yz' , / 'xyz' /)
208	call test('xyz' , / 'xyz' /)
209	call test('xyzxyz' , / 'xyz' /)
210	call test('xyzxyzxyz', / 'xyz' /)
211	call test('xyzabcxyz', / 'xyz' /)
212	call test('xyzabcxyz', / %start 'xyz' /)
213	call test('xyzabcxyz', / 'xyz' %end /)
214	call test('123abc123', / d+ /)
215	## status: 0
216	## STDOUT:
217	"", "", ""
218	" ", " ", " "
219	"xy", "xy", "xy"
220	"yz", "yz", "yz"
221	"", "", ""
222	"xyz", "xyz", ""
223	"xyzxyz", "xyzxyz", "xyz"
224	"abcxyz", "xyzabc", "abc"
225	"abcxyz", "xyzabcxyz", "abcxyz"
226	"xyzabcxyz", "xyzabc", "xyzabc"
227	"abc123", "123abc", "abc"
228	## END
229
230	#### Str => trim*() with an eggex pattern trims bytes not runes
231	func test(s, p) { write --sep ', ' --j8 $[s => trimStart(p)] $[s => trimEnd(p)] $[s => trim(p)] }
232
233	call test(u'\u{03a3}', / dot /) # Fails: eggex does not match bytes, so entire rune is trimmed.
234	call test(u'\u{03a3}', / ![z] /) # Fails: eggex does not match bytes, so entire rune is trimmed.
235	call test(b'\yce', / dot /) # Fails: eggex does not match bytes, so nothing is trimmed.
236	call test(b'\yce', / ![z] /) # Fails: eggex does not match bytes, so nothing is trimmed.
237	## status: 0
238	## STDOUT:
239	b'\ya3', b'\yce', ""
240	b'\ya3', b'\yce', ""
241	"", "", ""
242	"", "", ""
243	## END
244
245	#### Str => trim(), too many args
246	= 'mystr' => trim('extra', 'args')
247	## status: 3
248
249	#### Str => trimStart(), too many args
250	= 'mystr' => trimStart('extra', 'args')
251	## status: 3
252
253	#### Str => trimEnd(), too many args
254	= 'mystr' => trimEnd('extra', 'args')
255	## status: 3
256
257	#### Str => trim(), unicode whitespace aware
258
259	# Supported set of whitespace characters. The full set of Unicode whitespace
260	# characters is not supported. See comments in the implementation.
261	var spaces = [
262	b'\u{0009}', # Horizontal tab (\t)
263	b'\u{000A}', # Newline (\n)
264	b'\u{000B}', # Vertical tab (\v)
265	b'\u{000C}', # Form feed (\f)
266	b'\u{000D}', # Carriage return (\r)
267	b'\u{0020}', # Normal space
268	b'\u{00A0}', # No-break space <NBSP>
269	b'\u{FEFF}', # Zero-width no-break space <ZWNBSP>
270	] => join('')
271
272	echo $["$spaces YSH $spaces" => trim()]
273	## status: 0
274	## STDOUT:
275	YSH
276	## END
277
278	#### Str => trim*(), unicode decoding errors
279	var badUtf = b'\yF9'
280
281	echo trim
282
283	# We only decode UTF until the first non-space char. So the bad UTF-8 is
284	# missed.
285	try { call " a$[badUtf]b " => trim() }
286	echo status=$_status
287
288	# These require trim to decode the badUtf, so an error is raised
289	try { call "$[badUtf]b " => trim() }
290	echo status=$_status
291	try { call " a$[badUtf]" => trim() }
292	echo status=$_status
293
294	# Similarly, trim{Left,Right} will assume correct encoding until shown
295	# otherwise.
296	echo trimStart
297	try { call " a$[badUtf]" => trimStart() }
298	echo status=$_status
299	try { call "$[badUtf]b " => trimStart() }
300	echo status=$_status
301
302	echo trimEnd
303	try { call "$[badUtf]b " => trimEnd() }
304	echo status=$_status
305	try { call " a$[badUtf]" => trimEnd() }
306	echo status=$_status
307
308	## STDOUT:
309	trim
310	status=0
311	status=3
312	status=3
313	trimStart
314	status=0
315	status=3
316	trimEnd
317	status=0
318	status=3
319	## END
320
321	#### Str => trimStart(), unicode decoding error types
322	var badStrs = [
323	b'\yF4\yA2\yA4\yB0', # Too large of a codepoint
324	b'\yED\yBF\y80', # Surrogate
325	b'\yC1\y81', # Overlong
326	b'\y80', b'\yFF', # Does not match UTF8 bit pattern
327	]
328
329	for badStr in (badStrs) {
330	try { call badStr => trimStart() }
331	echo status=$_status
332	}
333
334	## STDOUT:
335	status=3
336	status=3
337	status=3
338	status=3
339	status=3
340	## END
341
342	#### Str => trimEnd(), unicode decoding error types
343	# Tests the backwards UTF-8 decoder
344	var badStrs = [
345	b'\yF4\yA2\yA4\yB0', # Too large of a codepoint
346	b'\yED\yBF\y80', # Surrogate
347	b'\yC1\y81', # Overlong
348	b'\y80', b'\yFF', # Does not match UTF8 bit pattern
349	]
350
351	for badStr in (badStrs) {
352	try { call badStr => trimEnd() }
353	echo status=$_status
354	}
355
356	## STDOUT:
357	status=3
358	status=3
359	status=3
360	status=3
361	status=3
362	## END
363
364	#### Str => trim*(), zero-codepoints are not NUL-terminators
365	json write (b' \y00 ' => trim())
366	json write (b' \y00 ' => trimStart())
367	json write (b' \y00 ' => trimEnd())
368	## STDOUT:
369	"\u0000"
370	"\u0000 "
371	" \u0000"
372	## END
373
374	#### Dict => keys()
375	var en2fr = {}
376	setvar en2fr["hello"] = "bonjour"
377	setvar en2fr["friend"] = "ami"
378	setvar en2fr["cat"] = "chat"
379	pp test_ (en2fr => keys())
380	## status: 0
381	## STDOUT:
382	(List) ["hello","friend","cat"]
383	## END
384
385	#### Str => split(sep), non-empty sep
386	pp test_ ('a,b,c'.split(','))
387	pp test_ ('aa'.split('a'))
388	pp test_ ('a<>b<>c<d'.split('<>'))
389	pp test_ ('a;b;;c'.split(';'))
390	pp test_ (''.split('foo'))
391	## STDOUT:
392	(List) ["a","b","c"]
393	(List) ["","",""]
394	(List) ["a","b","c<d"]
395	(List) ["a","b","","c"]
396	(List) []
397	## END
398
399	#### Str => split(sep, count), non-empty sep
400	pp test_ ('a,b,c'.split(',', count=-1))
401	pp test_ ('a,b,c'.split(',', count=-2)) # Any negative count means "ignore count"
402	pp test_ ('aa'.split('a', count=1))
403	pp test_ ('a<>b<>c<d'.split('<>', count=10))
404	pp test_ ('a;b;;c'.split(';', count=2))
405	pp test_ (''.split('foo', count=0))
406	pp test_ (''.split('foo', count=3))
407	## STDOUT:
408	(List) ["a","b","c"]
409	(List) ["a","b","c"]
410	(List) ["","a"]
411	(List) ["a","b","c<d"]
412	(List) ["a","b",";c"]
413	(List) []
414	(List) []
415	## END
416
417	#### Str => split(), usage errors
418	try { pp test_ ('abc'.split('')) } # Sep cannot be ""
419	echo status=$[_error.code]
420	try { pp test_ ('abc'.split()) } # Sep must be present
421	echo status=$[_error.code]
422	try { pp test_ ('abc'.split('b', count=0)) } # Count cannot be 0
423	echo status=$[_error.code]
424	## STDOUT:
425	status=3
426	status=3
427	status=3
428	## END
429
430	#### Dict => values()
431	var en2fr = {}
432	setvar en2fr["hello"] = "bonjour"
433	setvar en2fr["friend"] = "ami"
434	setvar en2fr["cat"] = "chat"
435	pp test_ (en2fr => values())
436	## status: 0
437	## STDOUT:
438	(List) ["bonjour","ami","chat"]
439	## END
440
441	#### Dict -> erase()
442	var book = {title: "The Histories", author: "Herodotus"}
443	call book->erase("author")
444	pp test_ (book)
445	# confirm method is idempotent
446	call book->erase("author")
447	pp test_ (book)
448	## status: 0
449	## STDOUT:
450	(Dict) {"title":"The Histories"}
451	(Dict) {"title":"The Histories"}
452	## END
453
454	#### Dict -> get()
455	var book = {title: "Hitchhiker's Guide", published: 1979}
456	pp test_ (book => get("title", ""))
457	pp test_ (book => get("published", 0))
458	pp test_ (book => get("author", ""))
459	## status: 0
460	## STDOUT:
461	(Str) "Hitchhiker's Guide"
462	(Int) 1979
463	(Str) ""
464	## END
465
466	#### Separation of -> attr and () calling
467	const check = "abc" => startsWith
468	pp test_ (check("a"))
469	## status: 0
470	## STDOUT:
471	(Bool) true
472	## END
473
474	#### Bound methods, receiver value/reference semantics
475	var is_a_ref = { "foo": "bar" }
476	const f = is_a_ref => keys
477	pp test_ (f())
478	setvar is_a_ref["baz"] = 42
479	pp test_ (f())
480
481	var is_a_val = "abc"
482	const g = is_a_val => startsWith
483	pp test_ (g("a"))
484	setvar is_a_val = "xyz"
485	pp test_ (g("a"))
486	## status: 0
487	## STDOUT:
488	(List) ["foo"]
489	(List) ["foo","baz"]
490	(Bool) true
491	(Bool) true
492	## END
493
494	#### List => indexOf()
495	var items = [1, '2', 3, { 'a': 5 }]
496
497	json write (items => indexOf('a'))
498	json write (items => indexOf(1))
499	json write (items => indexOf('2'))
500	json write (items => indexOf({'a': 5}))
501	## STDOUT:
502	-1
503	0
504	1
505	3
506	## END
507
508	#### List => join()
509	var items = [1, 2, 3]
510
511	json write (items => join()) # default separator is ''
512	json write (items => join(" ")) # explicit separator (can be any number or chars)
513	json write (items => join(", ")) # separator can be any number of chars
514
515	try {
516	json write (items => join(1)) # separator must be a string
517	}
518	echo "failed with status $_status"
519	## STDOUT:
520	"123"
521	"1 2 3"
522	"1, 2, 3"
523	failed with status 3
524	## END
525
526	#### List->reverse()
527
528	var empty = []
529
530	var a = [0]
531	var b = [2, 1, 3]
532	var c = :\| hello world \|
533
534	call empty->reverse()
535	call a->reverse()
536	call b->reverse()
537	call c->reverse()
538
539	pp test_ (empty)
540	pp test_ (a)
541	pp test_ (b)
542	pp test_ (c)
543
544	## STDOUT:
545	(List) []
546	(List) [0]
547	(List) [3,1,2]
548	(List) ["world","hello"]
549	## END
550
551	#### List->reverse() from iterator
552	var x = list(0 .. 3)
553	call x->reverse()
554	write @x
555	## STDOUT:
556	2
557	1
558	0
559	## END
560