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Issue 539153002: Port and integrate the irregexp engine from V8 (Closed) Base URL: https://dart.googlecode.com/svn/branches/bleeding_edge/dart
Patch Set: Addressed Ivan's comments. Created 6 years, 2 months ago
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1 // Copyright (c) 2014, the Dart project authors. Please see the AUTHORS file
2 // for details. All rights reserved. Use of this source code is governed by a
3 // BSD-style license that can be found in the LICENSE file.
4
5 import "package:expect/expect.dart";
6
7 void testEscape(str, regex) {
8 assertEquals("foo:bar:baz", str.split(regex).join(":"));
9 }
10
11 void assertEquals(actual, expected, [message]) =>
12 Expect.equals(actual, expected, message);
13 void assertTrue(actual, [message]) => Expect.isTrue(actual, message);
14 void assertFalse(actual, [message]) => Expect.isFalse(actual, message);
15 void assertThrows(fn) => Expect.throws(fn);
16
17 void main() {
18 testEscape("foo\nbar\nbaz", new RegExp(r"\n"));
19 testEscape("foo bar baz", new RegExp(r"\s"));
20 testEscape("foo\tbar\tbaz", new RegExp(r"\s"));
21 testEscape("foo-bar-baz", new RegExp(r"\u002D"));
22
23 // Test containing null char in regexp.
24 var s = '[' + new String.fromCharCode(0) + ']';
25 var re = new RegExp(s);
26 assertEquals(re.allMatches(s).length, 1);
27 assertEquals(re.stringMatch(s), new String.fromCharCode(0));
28
29 final _vmFrame = new RegExp(
30 r'^#\d+\s+(\S.*) \((.+?):(\d+)(?::(\d+))?\)$');
31 final _traceLine =
32 "#0 Trace.Trace.parse (package:stack_trace/src/trace.dart:130:7)";
33 Expect.equals(_vmFrame.firstMatch(_traceLine).group(0), _traceLine);
34
35 // Test the UTF16 case insensitive comparison.
36 re = new RegExp(r"x(a)\1x", caseSensitive: false);
37 Expect.equals(re.firstMatch("xaAx\u1234").group(0), "xaAx");
38
39 // Test strings containing all line separators
40 s = 'aA\nbB\rcC\r\ndD\u2028eE\u2029fF';
41 // any non-newline character at the beginning of a line
42 re = new RegExp(r"^.", multiLine: true);
43 var result = re.allMatches(s).toList();
44 assertEquals(result.length, 6);
45 assertEquals(result[0][0], 'a');
46 assertEquals(result[1][0], 'b');
47 assertEquals(result[2][0], 'c');
48 assertEquals(result[3][0], 'd');
49 assertEquals(result[4][0], 'e');
50 assertEquals(result[5][0], 'f');
51
52 // any non-newline character at the end of a line
53 re = new RegExp(r".$", multiLine: true);
54 result = re.allMatches(s).toList();
55 assertEquals(result.length, 6);
56 assertEquals(result[0][0], 'A');
57 assertEquals(result[1][0], 'B');
58 assertEquals(result[2][0], 'C');
59 assertEquals(result[3][0], 'D');
60 assertEquals(result[4][0], 'E');
61 assertEquals(result[5][0], 'F');
62
63 // *any* character at the beginning of a line
64 re = new RegExp(r"^[^]", multiLine: true);
65 result = re.allMatches(s).toList();
66 assertEquals(result.length, 7);
67 assertEquals(result[0][0], 'a');
68 assertEquals(result[1][0], 'b');
69 assertEquals(result[2][0], 'c');
70 assertEquals(result[3][0], '\n');
71 assertEquals(result[4][0], 'd');
72 assertEquals(result[5][0], 'e');
73 assertEquals(result[6][0], 'f');
74
75 // *any* character at the end of a line
76 re = new RegExp(r"[^]$", multiLine: true);
77 result = re.allMatches(s).toList();
78 assertEquals(result.length, 7);
79 assertEquals(result[0][0], 'A');
80 assertEquals(result[1][0], 'B');
81 assertEquals(result[2][0], 'C');
82 assertEquals(result[3][0], '\r');
83 assertEquals(result[4][0], 'D');
84 assertEquals(result[5][0], 'E');
85 assertEquals(result[6][0], 'F');
86
87 // Some tests from the Mozilla tests, where our behavior used to differ
88 // from SpiderMonkey.
89 // From ecma_3/RegExp/regress-334158.js
90 assertTrue( "\x01" .contains(new RegExp(r"\ca")));
91 assertFalse( "\\ca" .contains(new RegExp(r"\ca")));
92 assertFalse( "ca" .contains(new RegExp(r"\ca")));
93 assertTrue( "\\ca" .contains(new RegExp(r"\c[a/]")));
94 assertTrue( "\\c/" .contains(new RegExp(r"\c[a/]")));
95
96 // Test \c in character class
97 re = r"^[\cM]$";
98 assertTrue("\r".contains(new RegExp(re)));
99 assertFalse("M".contains(new RegExp(re)));
100 assertFalse("c".contains(new RegExp(re)));
101 assertFalse("\\".contains(new RegExp(re)));
102 assertFalse("\x03".contains(new RegExp(re))); // I.e., read as \cc
103
104 re = r"^[\c]]$";
105 assertTrue("c]".contains(new RegExp(re)));
106 assertTrue("\\]".contains(new RegExp(re)));
107 assertFalse("\x1d".contains(new RegExp(re))); // ']' & 0x1f
108 assertFalse("\x03]".contains(new RegExp(re))); // I.e., read as \cc
109
110 // Digit control characters are masked in character classes.
111 re = r"^[\c1]$";
112 assertTrue("\x11".contains(new RegExp(re)));
113 assertFalse("\\".contains(new RegExp(re)));
114 assertFalse("c".contains(new RegExp(re)));
115 assertFalse("1".contains(new RegExp(re)));
116
117 // Underscore control character is masked in character classes.
118 re = r"^[\c_]$";
119 assertTrue("\x1f".contains(new RegExp(re)));
120 assertFalse("\\".contains(new RegExp(re)));
121 assertFalse("c".contains(new RegExp(re)));
122 assertFalse("_".contains(new RegExp(re)));
123
124 re = r"^[\c$]$"; // Other characters are interpreted literally.
125 assertFalse("\x04".contains(new RegExp(re)));
126 assertTrue("\\".contains(new RegExp(re)));
127 assertTrue("c".contains(new RegExp(re)));
128 assertTrue(r"$".contains(new RegExp(re)));
129
130 assertTrue("Z[\\cde".contains(new RegExp(r"^[Z-\c-e]*$")));
131
132 // Test that we handle \s and \S correctly on special Unicode characters.
133 re = r"\s";
134 assertTrue("\u2028".contains(new RegExp(re)));
135 assertTrue("\u2029".contains(new RegExp(re)));
136 assertTrue("\uFEFF".contains(new RegExp(re)));
137
138 re = r"\S";
139 assertFalse("\u2028".contains(new RegExp(re)));
140 assertFalse("\u2029".contains(new RegExp(re)));
141 assertFalse("\uFEFF".contains(new RegExp(re)));
142
143 // Test that we handle \s and \S correctly inside some bizarre
144 // character classes.
145 re = r"[\s-:]";
146 assertTrue('-'.contains(new RegExp(re)));
147 assertTrue(':'.contains(new RegExp(re)));
148 assertTrue(' '.contains(new RegExp(re)));
149 assertTrue('\t'.contains(new RegExp(re)));
150 assertTrue('\n'.contains(new RegExp(re)));
151 assertFalse('a'.contains(new RegExp(re)));
152 assertFalse('Z'.contains(new RegExp(re)));
153
154 re = r"[\S-:]";
155 assertTrue('-'.contains(new RegExp(re)));
156 assertTrue(':'.contains(new RegExp(re)));
157 assertFalse(' '.contains(new RegExp(re)));
158 assertFalse('\t'.contains(new RegExp(re)));
159 assertFalse('\n'.contains(new RegExp(re)));
160 assertTrue('a'.contains(new RegExp(re)));
161 assertTrue('Z'.contains(new RegExp(re)));
162
163 re = r"[^\s-:]";
164 assertFalse('-'.contains(new RegExp(re)));
165 assertFalse(':'.contains(new RegExp(re)));
166 assertFalse(' '.contains(new RegExp(re)));
167 assertFalse('\t'.contains(new RegExp(re)));
168 assertFalse('\n'.contains(new RegExp(re)));
169 assertTrue('a'.contains(new RegExp(re)));
170 assertTrue('Z'.contains(new RegExp(re)));
171
172 re = r"[^\S-:]";
173 assertFalse('-'.contains(new RegExp(re)));
174 assertFalse(':'.contains(new RegExp(re)));
175 assertTrue(' '.contains(new RegExp(re)));
176 assertTrue('\t'.contains(new RegExp(re)));
177 assertTrue('\n'.contains(new RegExp(re)));
178 assertFalse('a'.contains(new RegExp(re)));
179 assertFalse('Z'.contains(new RegExp(re)));
180
181 re = r"[\s]";
182 assertFalse('-'.contains(new RegExp(re)));
183 assertFalse(':'.contains(new RegExp(re)));
184 assertTrue(' '.contains(new RegExp(re)));
185 assertTrue('\t'.contains(new RegExp(re)));
186 assertTrue('\n'.contains(new RegExp(re)));
187 assertFalse('a'.contains(new RegExp(re)));
188 assertFalse('Z'.contains(new RegExp(re)));
189
190 re = r"[^\s]";
191 assertTrue('-'.contains(new RegExp(re)));
192 assertTrue(':'.contains(new RegExp(re)));
193 assertFalse(' '.contains(new RegExp(re)));
194 assertFalse('\t'.contains(new RegExp(re)));
195 assertFalse('\n'.contains(new RegExp(re)));
196 assertTrue('a'.contains(new RegExp(re)));
197 assertTrue('Z'.contains(new RegExp(re)));
198
199 re = r"[\S]";
200 assertTrue('-'.contains(new RegExp(re)));
201 assertTrue(':'.contains(new RegExp(re)));
202 assertFalse(' '.contains(new RegExp(re)));
203 assertFalse('\t'.contains(new RegExp(re)));
204 assertFalse('\n'.contains(new RegExp(re)));
205 assertTrue('a'.contains(new RegExp(re)));
206 assertTrue('Z'.contains(new RegExp(re)));
207
208 re = r"[^\S]";
209 assertFalse('-'.contains(new RegExp(re)));
210 assertFalse(':'.contains(new RegExp(re)));
211 assertTrue(' '.contains(new RegExp(re)));
212 assertTrue('\t'.contains(new RegExp(re)));
213 assertTrue('\n'.contains(new RegExp(re)));
214 assertFalse('a'.contains(new RegExp(re)));
215 assertFalse('Z'.contains(new RegExp(re)));
216
217 re = r"[\s\S]";
218 assertTrue('-'.contains(new RegExp(re)));
219 assertTrue(':'.contains(new RegExp(re)));
220 assertTrue(' '.contains(new RegExp(re)));
221 assertTrue('\t'.contains(new RegExp(re)));
222 assertTrue('\n'.contains(new RegExp(re)));
223 assertTrue('a'.contains(new RegExp(re)));
224 assertTrue('Z'.contains(new RegExp(re)));
225
226 re = r"[^\s\S]";
227 assertFalse('-'.contains(new RegExp(re)));
228 assertFalse(':'.contains(new RegExp(re)));
229 assertFalse(' '.contains(new RegExp(re)));
230 assertFalse('\t'.contains(new RegExp(re)));
231 assertFalse('\n'.contains(new RegExp(re)));
232 assertFalse('a'.contains(new RegExp(re)));
233 assertFalse('Z'.contains(new RegExp(re)));
234
235 // First - is treated as range operator, second as literal minus.
236 // This follows the specification in parsing, but doesn't throw on
237 // the \s at the beginning of the range.
238 re = r"[\s-0-9]";
239 assertTrue(' '.contains(new RegExp(re)));
240 assertTrue('\xA0'.contains(new RegExp(re)));
241 assertTrue('-'.contains(new RegExp(re)));
242 assertTrue('0'.contains(new RegExp(re)));
243 assertTrue('9'.contains(new RegExp(re)));
244 assertFalse('1'.contains(new RegExp(re)));
245
246 // Test beginning and end of line assertions with or without the
247 // multiline flag.
248 re = r"^\d+";
249 assertFalse("asdf\n123".contains(new RegExp(re)));
250 re = new RegExp(r"^\d+", multiLine: true);
251 assertTrue("asdf\n123".contains(re));
252
253 re = r"\d+$";
254 assertFalse("123\nasdf".contains(new RegExp(re)));
255 re = new RegExp(r"\d+$", multiLine: true);
256 assertTrue("123\nasdf".contains(re));
257
258 // Test that empty matches are handled correctly for multiline global
259 // regexps.
260 re = new RegExp(r"^(.*)", multiLine: true);
261 assertEquals(3, re.allMatches("a\n\rb").length);
262 assertEquals("*a\n*b\r*c\n*\r*d\r*\n*e",
263 "a\nb\rc\n\rd\r\ne".replaceAllMapped(
264 re, (Match m) => "*${m.group(1)}"));
265
266 // Test that empty matches advance one character
267 re = new RegExp("");
268 assertEquals("xAx", "A".replaceAll(re, "x"));
269 assertEquals(3, new String.fromCharCode(161).replaceAll(re, "x").length);
270
271 // Check for lazy RegExp literal creation
272 void lazyLiteral(doit) {
273 if (doit) return "".replaceAll(
274 new RegExp(r"foo(", caseSensitive: false), "");
275 return true;
276 }
277
278 assertTrue(lazyLiteral(false));
279 assertThrows(() => lazyLiteral(true));
280
281 // Check $01 and $10
282 re = new RegExp("(.)(.)(.)(.)(.)(.)(.)(.)(.)(.)");
283 assertEquals("t", "123456789t".replaceAllMapped(
284 re, (Match m) => m.group(10)));
285 assertEquals("15", "123456789t".replaceAllMapped(
286 re, (Match m) => "${m.group(1)}5"));
287 assertEquals("1", "123456789t".replaceAllMapped(
288 re, (Match m) => m.group(1)));
289
290 assertFalse("football".contains(new RegExp(r"()foo$\1")), "football1");
291 assertFalse("football".contains(new RegExp(r"foo$(?=ball)")), "football2");
292 assertFalse("football".contains(new RegExp(r"foo$(?!bar)")), "football3");
293 assertTrue("foo".contains(new RegExp(r"()foo$\1")), "football4");
294 assertTrue("foo".contains(new RegExp(r"foo$(?=(ball)?)")), "football5");
295 assertTrue("foo".contains(new RegExp(r"()foo$(?!bar)")), "football6");
296 assertFalse("football".contains(new RegExp(r"(x?)foo$\1")), "football7");
297 assertFalse("football".contains(new RegExp(r"foo$(?=ball)")), "football8");
298 assertFalse("football".contains(new RegExp(r"foo$(?!bar)")), "football9");
299 assertTrue("foo".contains(new RegExp(r"(x?)foo$\1")), "football10");
300 assertTrue("foo".contains(new RegExp(r"foo$(?=(ball)?)")), "football11");
301 assertTrue("foo".contains(new RegExp(r"foo$(?!bar)")), "football12");
302
303 // Check that the back reference has two successors. See
304 // BackReferenceNode::PropagateForward.
305 assertFalse('foo'.contains(new RegExp(r"f(o)\b\1")));
306 assertTrue('foo'.contains(new RegExp(r"f(o)\B\1")));
307
308 // Back-reference, ignore case:
309 // ASCII
310 assertEquals("a", new RegExp(r"x(a)\1x", caseSensitive: false)
311 .firstMatch("xaAx").group(1), "backref-ASCII");
312 assertFalse("xaaaaa".contains(new RegExp(r"x(...)\1",
313 caseSensitive: false)),
314 "backref-ASCII-short");
315 assertTrue("xx".contains(new RegExp(r"x((?:))\1\1x", caseSensitive: false)),
316 "backref-ASCII-empty");
317 assertTrue("xabcx".contains(
318 new RegExp(r"x(?:...|(...))\1x", caseSensitive: false)),
319 "backref-ASCII-uncaptured");
320 assertTrue("xabcABCx".contains(
321 new RegExp(r"x(?:...|(...))\1x", caseSensitive: false)),
322 "backref-ASCII-backtrack");
323 assertEquals("aBc", new RegExp(r"x(...)\1\1x", caseSensitive: false)
324 .firstMatch("xaBcAbCABCx").group(1), "backref-ASCII-twice");
325
326 for (var i = 0; i < 128; i++) {
327 var testName = "backref-ASCII-char-$i,,${i^0x20}";
328 var test = new String.fromCharCodes([i, i ^ 0x20])
329 .contains(new RegExp(r"^(.)\1$", caseSensitive: false));
330 if (('A'.codeUnitAt(0) <= i && i <= 'Z'.codeUnitAt(0)) ||
331 ('a'.codeUnitAt(0) <= i && i <= 'z'.codeUnitAt(0))) {
332 assertTrue(test, testName);
333 } else {
334 assertFalse(test, testName);
335 }
336 }
337
338 assertFalse('foo'.contains(new RegExp(r"f(o)$\1")),
339 "backref detects at_end");
340
341 // Check decimal escapes doesn't overflow.
342 // (Note: \214 is interpreted as octal).
343 assertEquals("\x8c7483648", new RegExp(r"\2147483648")
344 .firstMatch("\x8c7483648").group(0), "Overflow decimal escape");
345
346 // Check numbers in quantifiers doesn't overflow and doesn't throw on
347 // too large numbers.
348 assertFalse('b'.contains(
349 new RegExp(r"a{111111111111111111111111111111111111111111111}")),
350 "overlarge1");
351 assertFalse('b'.contains(
352 new RegExp(r"a{999999999999999999999999999999999999999999999}")),
353 "overlarge2");
354 assertFalse('b'.contains(
355 new RegExp(r"a{1,111111111111111111111111111111111111111111111}")),
356 "overlarge3");
357 assertFalse('b'.contains(
358 new RegExp(r"a{1,999999999999999999999999999999999999999999999}")),
359 "overlarge4");
360 assertFalse('b'.contains(new RegExp(r"a{2147483648}")),
361 "overlarge5");
362 assertFalse('b'.contains(new RegExp(r"a{21474836471}")),
363 "overlarge6");
364 assertFalse('b'.contains(new RegExp(r"a{1,2147483648}")),
365 "overlarge7");
366 assertFalse('b'.contains(new RegExp(r"a{1,21474836471}")),
367 "overlarge8");
368 assertFalse('b'.contains(new RegExp(r"a{2147483648,2147483648}")),
369 "overlarge9");
370 assertFalse('b'.contains(new RegExp(r"a{21474836471,21474836471}")),
371 "overlarge10");
372 assertFalse('b'.contains(new RegExp(r"a{2147483647}")),
373 "overlarge11");
374 assertFalse('b'.contains(new RegExp(r"a{1,2147483647}")),
375 "overlarge12");
376 assertTrue('a'.contains(new RegExp(r"a{1,2147483647}")),
377 "overlarge13");
378 assertFalse('a'.contains(new RegExp(r"a{2147483647,2147483647}")),
379 "overlarge14");
380
381 // Check that we don't read past the end of the string.
382 assertFalse('b'.contains(new RegExp(r"f")));
383 assertFalse('x'.contains(new RegExp(r"[abc]f")));
384 assertFalse('xa'.contains(new RegExp(r"[abc]f")));
385 assertFalse('x'.contains(new RegExp(r"[abc]<")));
386 assertFalse('xa'.contains(new RegExp(r"[abc]<")));
387 assertFalse('b'.contains(new RegExp(r"f", caseSensitive: false)));
388 assertFalse('x'.contains(new RegExp(r"[abc]f", caseSensitive: false)));
389 assertFalse('xa'.contains(new RegExp(r"[abc]f", caseSensitive: false)));
390 assertFalse('x'.contains(new RegExp(r"[abc]<", caseSensitive: false)));
391 assertFalse('xa'.contains(new RegExp(r"[abc]<", caseSensitive: false)));
392 assertFalse('x'.contains(new RegExp(r"f[abc]")));
393 assertFalse('xa'.contains(new RegExp(r"f[abc]")));
394 assertFalse('x'.contains(new RegExp(r"<[abc]")));
395 assertFalse('xa'.contains(new RegExp(r"<[abc]")));
396 assertFalse('x'.contains(new RegExp(r"f[abc]", caseSensitive: false)));
397 assertFalse('xa'.contains(new RegExp(r"f[abc]", caseSensitive: false)));
398 assertFalse('x'.contains(new RegExp(r"<[abc]", caseSensitive: false)));
399 assertFalse('xa'.contains(new RegExp(r"<[abc]", caseSensitive: false)));
400
401 // Test that merging of quick test masks gets it right.
402 assertFalse('x7%%y'.contains(new RegExp(r"x([0-7]%%x|[0-6]%%y)")), 'qt');
403 assertFalse('xy7%%%y'.contains(
404 new RegExp(r"()x\1(y([0-7]%%%x|[0-6]%%%y)|dkjasldkas)")), 'qt2');
405 assertFalse('xy%%%y'.contains(
406 new RegExp(r"()x\1(y([0-7]%%%x|[0-6]%%%y)|dkjasldkas)")), 'qt3');
407 assertFalse('xy7%%%y'.contains(
408 new RegExp(r"()x\1y([0-7]%%%x|[0-6]%%%y)")), 'qt4');
409 assertFalse('xy%%%y'.contains(
410 new RegExp(r"()x\1(y([0-7]%%%x|[0-6]%%%y)|dkjasldkas)")), 'qt5');
411 assertFalse('xy7%%%y'.contains(
412 new RegExp(r"()x\1y([0-7]%%%x|[0-6]%%%y)")), 'qt6');
413 assertFalse('xy7%%%y'.contains(
414 new RegExp(r"xy([0-7]%%%x|[0-6]%%%y)")), 'qt7');
415 assertFalse('x7%%%y'.contains(new RegExp(r"x([0-7]%%%x|[0-6]%%%y)")),
416 'qt8');
417
418
419 // Don't hang on this one.
420 "".contains(new RegExp(r"[^\xfe-\xff]*"));
421
422 var longbuffer = new StringBuffer("a");
423 for (var i = 0; i < 100000; i++) {
424 longbuffer.write("a?");
425 }
426 var long = longbuffer.toString();
427
428 // Don't crash on this one, but maybe throw an exception.
429 try {
430 new RegExp(long).allMatches("a");
431 } catch (e) {
432 assertTrue(String(e).indexOf("Stack overflow") >= 0, "overflow");
433 }
434
435
436 // Test boundary-checks.
437 void assertRegExpTest(re, input, test) {
438 assertEquals(test, input.contains(
439 new RegExp(re)), "test:" + re + ":" + input);
440 }
441
442 assertRegExpTest(r"b\b", "b", true);
443 assertRegExpTest(r"b\b$", "b", true);
444 assertRegExpTest(r"\bb", "b", true);
445 assertRegExpTest(r"^\bb", "b", true);
446 assertRegExpTest(r",\b", ",", false);
447 assertRegExpTest(r",\b$", ",", false);
448 assertRegExpTest(r"\b,", ",", false);
449 assertRegExpTest(r"^\b,", ",", false);
450
451 assertRegExpTest(r"b\B", "b", false);
452 assertRegExpTest(r"b\B$", "b", false);
453 assertRegExpTest(r"\Bb", "b", false);
454 assertRegExpTest(r"^\Bb", "b", false);
455 assertRegExpTest(r",\B", ",", true);
456 assertRegExpTest(r",\B$", ",", true);
457 assertRegExpTest(r"\B,", ",", true);
458 assertRegExpTest(r"^\B,", ",", true);
459
460 assertRegExpTest(r"b\b", "b,", true);
461 assertRegExpTest(r"b\b", "ba", false);
462 assertRegExpTest(r"b\B", "b,", false);
463 assertRegExpTest(r"b\B", "ba", true);
464
465 assertRegExpTest(r"b\Bb", "bb", true);
466 assertRegExpTest(r"b\bb", "bb", false);
467
468 assertRegExpTest(r"b\b[,b]", "bb", false);
469 assertRegExpTest(r"b\B[,b]", "bb", true);
470 assertRegExpTest(r"b\b[,b]", "b,", true);
471 assertRegExpTest(r"b\B[,b]", "b,", false);
472
473 assertRegExpTest(r"[,b]\bb", "bb", false);
474 assertRegExpTest(r"[,b]\Bb", "bb", true);
475 assertRegExpTest(r"[,b]\bb", ",b", true);
476 assertRegExpTest(r"[,b]\Bb", ",b", false);
477
478 assertRegExpTest(r"[,b]\b[,b]", "bb", false);
479 assertRegExpTest(r"[,b]\B[,b]", "bb", true);
480 assertRegExpTest(r"[,b]\b[,b]", ",b", true);
481 assertRegExpTest(r"[,b]\B[,b]", ",b", false);
482 assertRegExpTest(r"[,b]\b[,b]", "b,", true);
483 assertRegExpTest(r"[,b]\B[,b]", "b,", false);
484
485 // Skipped tests from V8:
486
487 // Test that caching of result doesn't share result objects.
488 // More iterations increases the chance of hitting a GC.
489
490 // Test that we perform the spec required conversions in the correct order.
491
492 // Check that properties of RegExp have the correct permissions.
493
494 // Check that end-anchored regexps are optimized correctly.
495 re = r"(?:a|bc)g$";
496 assertTrue("ag".contains(new RegExp(re)));
497 assertTrue("bcg".contains(new RegExp(re)));
498 assertTrue("abcg".contains(new RegExp(re)));
499 assertTrue("zimbag".contains(new RegExp(re)));
500 assertTrue("zimbcg".contains(new RegExp(re)));
501
502 assertFalse("g".contains(new RegExp(re)));
503 assertFalse("".contains(new RegExp(re)));
504
505 // Global regexp (non-zero start).
506 re = r"(?:a|bc)g$";
507 assertTrue("ag".contains(new RegExp(re)));
508 // Near start of string.
509 assertTrue(new RegExp(re).allMatches("zimbag", 1).isNotEmpty);
510 // At end of string.
511 assertTrue(new RegExp(re).allMatches("zimbag", 6).isEmpty);
512 // Near end of string.
513 assertTrue(new RegExp(re).allMatches("zimbag", 5).isEmpty);
514 assertTrue(new RegExp(re).allMatches("zimbag", 4).isNotEmpty);
515
516 // Anchored at both ends.
517 re = r"^(?:a|bc)g$";
518 assertTrue("ag".contains(new RegExp(re)));
519 assertTrue(new RegExp(re).allMatches("ag", 1).isEmpty);
520 assertTrue(new RegExp(re).allMatches("zag", 1).isEmpty);
521
522 // Long max_length of RegExp.
523 re = r"VeryLongRegExp!{1,1000}$";
524 assertTrue("BahoolaVeryLongRegExp!!!!!!".contains(new RegExp(re)));
525 assertFalse("VeryLongRegExp".contains(new RegExp(re)));
526 assertFalse("!".contains(new RegExp(re)));
527
528 // End anchor inside disjunction.
529 re = r"(?:a$|bc$)";
530 assertTrue("a".contains(new RegExp(re)));
531 assertTrue("bc".contains(new RegExp(re)));
532 assertTrue("abc".contains(new RegExp(re)));
533 assertTrue("zimzamzumba".contains(new RegExp(re)));
534 assertTrue("zimzamzumbc".contains(new RegExp(re)));
535 assertFalse("c".contains(new RegExp(re)));
536 assertFalse("".contains(new RegExp(re)));
537
538 // Only partially anchored.
539 re = r"(?:a|bc$)";
540 assertTrue("a".contains(new RegExp(re)));
541 assertTrue("bc".contains(new RegExp(re)));
542 assertEquals("a", new RegExp(re).firstMatch("abc").group(0));
543 assertEquals(4, new RegExp(re).firstMatch("zimzamzumba").start);
544 assertEquals("bc", new RegExp(re).firstMatch("zimzomzumbc").group(0));
545 assertFalse("c".contains(new RegExp(re)));
546 assertFalse("".contains(new RegExp(re)));
547
548 // Valid syntax in ES5.
549 re = new RegExp("(?:x)*");
550 re = new RegExp("(x)*");
551
552 // Syntax extension relative to ES5, for matching JSC (and ES3).
553 // Shouldn't throw.
554 re = new RegExp("(?=x)*");
555 re = new RegExp("(?!x)*");
556
557 // Should throw. Shouldn't hit asserts in debug mode.
558 assertThrows(() => new RegExp('(*)'));
559 assertThrows(() => new RegExp('(?:*)'));
560 assertThrows(() => new RegExp('(?=*)'));
561 assertThrows(() => new RegExp('(?!*)'));
562
563 // Test trimmed regular expression for RegExp.test().
564 assertTrue("abc".contains(new RegExp(r".*abc")));
565 assertFalse("q".contains(new RegExp(r".*\d+")));
566
567 // Tests skipped from V8:
568 // Test that RegExp.prototype.toString() throws TypeError for
569 // incompatible receivers (ES5 section 15.10.6 and 15.10.6.4).
570 }
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