// Copyright 2014 the V8 project authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // ES6 extends the \uxxxx escape and also allows \u{xxxxx}. function testRegexpHelper(r) { assertTrue(r.test("foo")); assertTrue(r.test("boo")); assertFalse(r.test("moo")); } (function TestUnicodeEscapes() { testRegexpHelper(/(\u0066|\u0062)oo/); testRegexpHelper(/(\u0066|\u0062)oo/u); testRegexpHelper(/(\u{0066}|\u{0062})oo/u); testRegexpHelper(/(\u{66}|\u{000062})oo/u); // Note that we need \\ inside a string, otherwise it's interpreted as a // unicode escape inside a string. testRegexpHelper(new RegExp("(\\u0066|\\u0062)oo")); testRegexpHelper(new RegExp("(\\u0066|\\u0062)oo", "u")); testRegexpHelper(new RegExp("(\\u{0066}|\\u{0062})oo", "u")); testRegexpHelper(new RegExp("(\\u{66}|\\u{000062})oo", "u")); // Though, unicode escapes via strings should work too. testRegexpHelper(new RegExp("(\u0066|\u0062)oo")); testRegexpHelper(new RegExp("(\u0066|\u0062)oo", "u")); testRegexpHelper(new RegExp("(\u{0066}|\u{0062})oo", "u")); testRegexpHelper(new RegExp("(\u{66}|\u{000062})oo", "u")); })(); (function TestUnicodeEscapesInCharacterClasses() { testRegexpHelper(/[\u0062-\u0066]oo/); testRegexpHelper(/[\u0062-\u0066]oo/u); testRegexpHelper(/[\u{0062}-\u{0066}]oo/u); testRegexpHelper(/[\u{62}-\u{00000066}]oo/u); // Note that we need \\ inside a string, otherwise it's interpreted as a // unicode escape inside a string. testRegexpHelper(new RegExp("[\\u0062-\\u0066]oo")); testRegexpHelper(new RegExp("[\\u0062-\\u0066]oo", "u")); testRegexpHelper(new RegExp("[\\u{0062}-\\u{0066}]oo", "u")); testRegexpHelper(new RegExp("[\\u{62}-\\u{00000066}]oo", "u")); // Though, unicode escapes via strings should work too. testRegexpHelper(new RegExp("[\u0062-\u0066]oo")); testRegexpHelper(new RegExp("[\u0062-\u0066]oo", "u")); testRegexpHelper(new RegExp("[\u{0062}-\u{0066}]oo", "u")); testRegexpHelper(new RegExp("[\u{62}-\u{00000066}]oo", "u")); })(); (function TestBraceEscapesWithoutUnicodeFlag() { // \u followed by illegal escape will be parsed as u. {x} will be the // character count. function helper1(r) { assertFalse(r.test("fbar")); assertFalse(r.test("fubar")); assertTrue(r.test("fuubar")); assertFalse(r.test("fuuubar")); } helper1(/f\u{2}bar/); helper1(new RegExp("f\\u{2}bar")); function helper2(r) { assertFalse(r.test("fbar")); assertTrue(r.test("fubar")); assertTrue(r.test("fuubar")); assertFalse(r.test("fuuubar")); } helper2(/f\u{1,2}bar/); helper2(new RegExp("f\\u{1,2}bar")); function helper3(r) { assertTrue(r.test("u")); assertTrue(r.test("{")); assertTrue(r.test("2")); assertTrue(r.test("}")); assertFalse(r.test("q")); assertFalse(r.test("(")); assertFalse(r.test(")")); } helper3(/[\u{2}]/); helper3(new RegExp("[\\u{2}]")); })(); (function TestInvalidEscapes() { // Without the u flag, invalid unicode escapes and other invalid escapes are // treated as identity escapes. function helper1(r) { assertTrue(r.test("firstuxz89second")); } helper1(/first\u\x\z\8\9second/); helper1(new RegExp("first\\u\\x\\z\\8\\9second")); function helper2(r) { assertTrue(r.test("u")); assertTrue(r.test("x")); assertTrue(r.test("z")); assertTrue(r.test("8")); assertTrue(r.test("9")); assertFalse(r.test("q")); assertFalse(r.test("7")); } helper2(/[\u\x\z\8\9]/); helper2(new RegExp("[\\u\\x\\z\\8\\9]")); // However, with the u flag, these are treated as invalid escapes. assertThrows("/\\u/u", SyntaxError); assertThrows("/\\u12/u", SyntaxError); assertThrows("/\\ufoo/u", SyntaxError); assertThrows("/\\x/u", SyntaxError); assertThrows("/\\xfoo/u", SyntaxError); assertThrows("/\\z/u", SyntaxError); assertThrows("/\\8/u", SyntaxError); assertThrows("/\\9/u", SyntaxError); assertThrows("new RegExp('\\\\u', 'u')", SyntaxError); assertThrows("new RegExp('\\\\u12', 'u')", SyntaxError); assertThrows("new RegExp('\\\\ufoo', 'u')", SyntaxError); assertThrows("new RegExp('\\\\x', 'u')", SyntaxError); assertThrows("new RegExp('\\\\xfoo', 'u')", SyntaxError); assertThrows("new RegExp('\\\\z', 'u')", SyntaxError); assertThrows("new RegExp('\\\\8', 'u')", SyntaxError); assertThrows("new RegExp('\\\\9', 'u')", SyntaxError); })(); (function TestTooBigHexEscape() { // The hex number inside \u{} has a maximum value. /\u{10ffff}/u new RegExp("\\u{10ffff}", "u") assertThrows("/\\u{110000}/u", SyntaxError); assertThrows("new RegExp('\\\\u{110000}', 'u')", SyntaxError); // Without the u flag, they're of course fine ({x} is the count). /\u{110000}/ new RegExp("\\u{110000}") })(); (function TestSyntaxEscapes() { // Syntax escapes work the same with or without the u flag. function helper(r) { assertTrue(r.test("foo[bar")); assertFalse(r.test("foo]bar")); } helper(/foo\[bar/); helper(new RegExp("foo\\[bar")); helper(/foo\[bar/u); helper(new RegExp("foo\\[bar", "u")); })(); (function TestUnicodeSurrogates() { // U+10E6D corresponds to the surrogate pair [U+D803, U+DE6D]. function helper(r) { assertTrue(r.test("foo\u{10e6d}bar")); } helper(/foo\ud803\ude6dbar/u); helper(new RegExp("foo\\ud803\\ude6dbar", "u")); })(); (function AllFlags() { // Test that we can pass all possible regexp flags and they work properly. function helper1(r) { assertTrue(r.global); assertTrue(r.ignoreCase); assertTrue(r.multiline); assertTrue(r.sticky); assertTrue(r.unicode); } helper1(/foo/gimyu); helper1(new RegExp("foo", "gimyu")); function helper2(r) { assertFalse(r.global); assertFalse(r.ignoreCase); assertFalse(r.multiline); assertFalse(r.sticky); assertFalse(r.unicode); } helper2(/foo/); helper2(new RegExp("foo")); })(); (function DuplicatedFlags() { // Test that duplicating the u flag is not allowed. assertThrows("/foo/ugu"); assertThrows("new RegExp('foo', 'ugu')"); })(); (function ToString() { // Test that the u flag is included in the string representation of regexps. function helper(r) { assertEquals(r.toString(), "/foo/u"); } helper(/foo/u); helper(new RegExp("foo", "u")); })(); // Non-BMP patterns. // Single character atom. assertTrue(new RegExp("\u{12345}", "u").test("\u{12345}")); assertTrue(/\u{12345}/u.test("\u{12345}")); assertTrue(new RegExp("\u{12345}", "u").test("\ud808\udf45")); assertTrue(/\u{12345}/u.test("\ud808\udf45")); assertFalse(new RegExp("\u{12345}", "u").test("\udf45")); assertFalse(/\u{12345}/u.test("\udf45")); // Multi-character atom. assertTrue(new RegExp("\u{12345}\u{23456}", "u").test("a\u{12345}\u{23456}b")); assertTrue(/\u{12345}\u{23456}/u.test("b\u{12345}\u{23456}c")); assertFalse(new RegExp("\u{12345}\u{23456}", "u").test("a\udf45\u{23456}b")); assertFalse(/\u{12345}\u{23456}/u.test("b\udf45\u{23456}c")); // Disjunction. assertTrue(new RegExp("\u{12345}(?:\u{23456})", "u").test( "a\u{12345}\u{23456}b")); assertTrue(/\u{12345}(?:\u{23456})/u.test("b\u{12345}\u{23456}c")); assertFalse(new RegExp("\u{12345}(?:\u{23456})", "u").test( "a\udf45\u{23456}b")); assertFalse(/\u{12345}(?:\u{23456})/u.test("b\udf45\u{23456}c")); // Alternative. assertTrue(new RegExp("\u{12345}|\u{23456}", "u").test("a\u{12345}b")); assertTrue(/\u{12345}|\u{23456}/u.test("b\u{23456}c")); assertFalse(new RegExp("\u{12345}|\u{23456}", "u").test("a\udf45\ud84db")); assertFalse(/\u{12345}|\u{23456}/u.test("b\udf45\ud808c")); // Capture. assertTrue(new RegExp("(\u{12345}|\u{23456}).\\1", "u").test( "\u{12345}b\u{12345}")); assertTrue(/(\u{12345}|\u{23456}).\1/u.test("\u{12345}b\u{12345}")); assertFalse(new RegExp("(\u{12345}|\u{23456}).\\1", "u").test( "\u{12345}b\u{23456}")); assertFalse(/(\u{12345}|\u{23456}).\1/u.test("\u{12345}b\u{23456}")); // Quantifier. assertTrue(new RegExp("\u{12345}{3}", "u").test("\u{12345}\u{12345}\u{12345}")); assertTrue(/\u{12345}{3}/u.test("\u{12345}\u{12345}\u{12345}")); assertTrue(new RegExp("\u{12345}{3}").test("\u{12345}\udf45\udf45")); assertFalse(/\ud808\udf45{3}/u.test("\u{12345}\udf45\udf45")); assertTrue(/\ud808\udf45{3}/u.test("\u{12345}\u{12345}\u{12345}")); assertFalse(new RegExp("\u{12345}{3}", "u").test("\u{12345}\udf45\udf45")); assertFalse(/\u{12345}{3}/u.test("\u{12345}\udf45\udf45")); // Literal surrogates. assertEquals(["\u{10000}\u{10000}"], new RegExp("\ud800\udc00+", "u").exec("\u{10000}\u{10000}")); assertEquals(["\u{10000}\u{10000}"], new RegExp("\\ud800\\udc00+", "u").exec("\u{10000}\u{10000}")); assertEquals(["\u{10003}\u{50001}"], new RegExp("[\\ud800\\udc03-\\ud900\\udc01\]+", "u").exec( "\u{10003}\u{50001}")); assertEquals(["\u{10003}\u{50001}"], new RegExp("[\ud800\udc03-\u{50001}\]+", "u").exec( "\u{10003}\u{50001}")); // Unicode escape sequences to represent a non-BMP character cannot have // mixed notation, and must follow the rules for RegExpUnicodeEscapeSequence. assertThrows(() => new RegExp("[\\ud800\udc03-\ud900\\udc01\]+", "u")); assertThrows(() => new RegExp("[\\ud800\udc03-\ud900\\udc01\]+", "u")); assertNull(new RegExp("\\ud800\udc00+", "u").exec("\u{10000}\u{10000}")); assertNull(new RegExp("\ud800\\udc00+", "u").exec("\u{10000}\u{10000}")); assertNull(new RegExp("[\\ud800\udc00]", "u").exec("\u{10000}")); assertNull(new RegExp("[\\{ud800}\udc00]", "u").exec("\u{10000}")); assertNull(new RegExp("[\ud800\\udc00]", "u").exec("\u{10000}")); assertNull(new RegExp("[\ud800\\{udc00}]", "u").exec("\u{10000}")); assertNull(/\u{d800}\u{dc00}+/u.exec("\ud800\udc00\udc00")); assertNull(/\ud800\u{dc00}+/u.exec("\ud800\udc00\udc00")); assertNull(/\u{d800}\udc00+/u.exec("\ud800\udc00\udc00"));