tests/corelib_2/regexp/unicode-escapes-in-regexps_test.dart - sdk - Git at Google

 // Copyright (c) 2019, the Dart project authors. All rights reserved.
 // Copyright 2014 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 //
 // ES6 extends the \uxxxx escape and also allows \u{xxxxx}.

 import 'package:expect/expect.dart';

 import 'v8_regexp_utils.dart';

 void testRegExpHelper(RegExp r) {
   assertTrue(r.hasMatch("foo"));
   assertTrue(r.hasMatch("boo"));
   assertFalse(r.hasMatch("moo"));
 }

 void TestUnicodeEscapes() {
   testRegExpHelper(RegExp(r"(\u0066|\u0062)oo"));
   testRegExpHelper(RegExp(r"(\u0066|\u0062)oo", unicode: true));
   testRegExpHelper(RegExp(r"(\u{0066}|\u{0062})oo", unicode: true));
   testRegExpHelper(RegExp(r"(\u{66}|\u{000062})oo", unicode: true));

   // Note that we need \\ inside a string, otherwise it's interpreted as a
   // unicode escape inside a string.
   testRegExpHelper(RegExp("(\\u0066|\\u0062)oo"));
   testRegExpHelper(RegExp("(\\u0066|\\u0062)oo", unicode: true));
   testRegExpHelper(RegExp("(\\u{0066}|\\u{0062})oo", unicode: true));
   testRegExpHelper(RegExp("(\\u{66}|\\u{000062})oo", unicode: true));

   // Though, unicode escapes via strings should work too.
   testRegExpHelper(RegExp("(\u0066|\u0062)oo"));
   testRegExpHelper(RegExp("(\u0066|\u0062)oo", unicode: true));
   testRegExpHelper(RegExp("(\u{0066}|\u{0062})oo", unicode: true));
   testRegExpHelper(RegExp("(\u{66}|\u{000062})oo", unicode: true));
 }

 void TestUnicodeEscapesInCharacterClasses() {
   testRegExpHelper(RegExp(r"[\u0062-\u0066]oo"));
   testRegExpHelper(RegExp(r"[\u0062-\u0066]oo", unicode: true));
   testRegExpHelper(RegExp(r"[\u{0062}-\u{0066}]oo", unicode: true));
   testRegExpHelper(RegExp(r"[\u{62}-\u{000066}]oo", unicode: true));

   // Note that we need \\ inside a string, otherwise it's interpreted as a
   // unicode escape inside a string.
   testRegExpHelper(RegExp("[\\u0062-\\u0066]oo"));
   testRegExpHelper(RegExp("[\\u0062-\\u0066]oo", unicode: true));
   testRegExpHelper(RegExp("[\\u{0062}-\\u{0066}]oo", unicode: true));
   testRegExpHelper(RegExp("[\\u{62}-\\u{000066}]oo", unicode: true));

   // Though, unicode escapes via strings should work too.
   testRegExpHelper(RegExp("[\u0062-\u0066]oo"));
   testRegExpHelper(RegExp("[\u0062-\u0066]oo", unicode: true));
   testRegExpHelper(RegExp("[\u{0062}-\u{0066}]oo", unicode: true));
   testRegExpHelper(RegExp("[\u{62}-\u{000066}]oo", unicode: true));
 }

 void TestBraceEscapesWithoutUnicodeFlag() {
   // \u followed by illegal escape will be parsed as u. {x} will be the
   // character count.
   void helper1(RegExp r) {
     assertFalse(r.hasMatch("fbar"));
     assertFalse(r.hasMatch("fubar"));
     assertTrue(r.hasMatch("fuubar"));
     assertFalse(r.hasMatch("fuuubar"));
   }

   helper1(RegExp(r"f\u{2}bar"));
   helper1(RegExp("f\\u{2}bar"));

   void helper2(RegExp r) {
     assertFalse(r.hasMatch("fbar"));
     assertTrue(r.hasMatch("fubar"));
     assertTrue(r.hasMatch("fuubar"));
     assertFalse(r.hasMatch("fuuubar"));
   }

   helper2(RegExp(r"f\u{1,2}bar"));
   helper2(RegExp("f\\u{1,2}bar"));

   void helper3(RegExp r) {
     assertTrue(r.hasMatch("u"));
     assertTrue(r.hasMatch("{"));
     assertTrue(r.hasMatch("2"));
     assertTrue(r.hasMatch("}"));
     assertFalse(r.hasMatch("q"));
     assertFalse(r.hasMatch("("));
     assertFalse(r.hasMatch(")"));
   }

   helper3(RegExp(r"[\u{2}]"));
   helper3(RegExp("[\\u{2}]"));
 }

 void TestInvalidEscapes() {
   // Without the u flag, invalid unicode escapes and other invalid escapes are
   // treated as identity escapes.
   void helper1(RegExp r) {
     assertTrue(r.hasMatch("firstuxz89second"));
   }

   helper1(RegExp(r"first\u\x\z\8\9second"));
   helper1(RegExp("first\\u\\x\\z\\8\\9second"));

   void helper2(RegExp r) {
     assertTrue(r.hasMatch("u"));
     assertTrue(r.hasMatch("x"));
     assertTrue(r.hasMatch("z"));
     assertTrue(r.hasMatch("8"));
     assertTrue(r.hasMatch("9"));
     assertFalse(r.hasMatch("q"));
     assertFalse(r.hasMatch("7"));
   }

   helper2(RegExp(r"[\u\x\z\8\9]"));
   helper2(RegExp("[\\u\\x\\z\\8\\9]"));

   // However, with the u flag, these are treated as invalid escapes.
   assertThrows(() => RegExp(r"\u", unicode: true));
   assertThrows(() => RegExp(r"\u12", unicode: true));
   assertThrows(() => RegExp(r"\ufoo", unicode: true));
   assertThrows(() => RegExp(r"\x", unicode: true));
   assertThrows(() => RegExp(r"\xfoo", unicode: true));
   assertThrows(() => RegExp(r"\z", unicode: true));
   assertThrows(() => RegExp(r"\8", unicode: true));
   assertThrows(() => RegExp(r"\9", unicode: true));

   assertThrows(() => RegExp("\\u", unicode: true));
   assertThrows(() => RegExp("\\u12", unicode: true));
   assertThrows(() => RegExp("\\ufoo", unicode: true));
   assertThrows(() => RegExp("\\x", unicode: true));
   assertThrows(() => RegExp("\\xfoo", unicode: true));
   assertThrows(() => RegExp("\\z", unicode: true));
   assertThrows(() => RegExp("\\8", unicode: true));
   assertThrows(() => RegExp("\\9", unicode: true));
 }

 void TestTooBigHexEscape() {
   // The hex number inside \u{} has a maximum value.
   RegExp(r"\u{10ffff}", unicode: true);
   RegExp("\\u{10ffff}", unicode: true);
   assertThrows(() => RegExp(r"\u{110000}", unicode: true));
   assertThrows(() => RegExp("\\u{110000}", unicode: true));

   // Without the u flag, they're of course fine ({x} is the count).
   RegExp(r"\u{110000}");
   RegExp("\\u{110000}");
 }

 void TestSyntaxEscapes() {
   // Syntax escapes work the same with or without the u flag.
   void helper(RegExp r) {
     assertTrue(r.hasMatch("foo[bar"));
     assertFalse(r.hasMatch("foo]bar"));
   }

   helper(RegExp(r"foo\[bar"));
   helper(RegExp("foo\\[bar"));
   helper(RegExp(r"foo\[bar", unicode: true));
   helper(RegExp("foo\\[bar", unicode: true));
 }

 void TestUnicodeSurrogates() {
   // U+10E6D corresponds to the surrogate pair [U+D803, U+DE6D].
   void helper(RegExp r) {
     assertTrue(r.hasMatch("foo\u{10e6d}bar"));
   }

   helper(RegExp(r"foo\ud803\ude6dbar", unicode: true));
   helper(RegExp("foo\\ud803\\ude6dbar", unicode: true));
 }

 void main() {
   TestUnicodeEscapes();
   TestUnicodeEscapesInCharacterClasses();
   TestBraceEscapesWithoutUnicodeFlag();
   TestInvalidEscapes();
   TestTooBigHexEscape();
   TestSyntaxEscapes();
   TestUnicodeSurrogates();

   // Non-BMP patterns.
   // Single character atom.
   assertTrue(RegExp("\u{12345}", unicode: true).hasMatch("\u{12345}"));
   assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\u{12345}"));
   assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\ud808\udf45"));
   assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\ud808\udf45"));
   assertFalse(RegExp(r"\u{12345}", unicode: true).hasMatch("\udf45"));
   assertFalse(RegExp(r"\u{12345}", unicode: true).hasMatch("\udf45"));

   // Multi-character atom.
   assertTrue(RegExp(r"\u{12345}\u{23456}", unicode: true)
       .hasMatch("a\u{12345}\u{23456}b"));
   assertTrue(RegExp(r"\u{12345}\u{23456}", unicode: true)
       .hasMatch("b\u{12345}\u{23456}c"));
   assertFalse(RegExp(r"\u{12345}\u{23456}", unicode: true)
       .hasMatch("a\udf45\u{23456}b"));
   assertFalse(RegExp(r"\u{12345}\u{23456}", unicode: true)
       .hasMatch("b\udf45\u{23456}c"));

   // Disjunction.
   assertTrue(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
       .hasMatch("a\u{12345}\u{23456}b"));
   assertTrue(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
       .hasMatch("b\u{12345}\u{23456}c"));
   assertFalse(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
       .hasMatch("a\udf45\u{23456}b"));
   assertFalse(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
       .hasMatch("b\udf45\u{23456}c"));

   // Alternative.
   assertTrue(
       RegExp(r"\u{12345}|\u{23456}", unicode: true).hasMatch("a\u{12345}b"));
   assertTrue(
       RegExp(r"\u{12345}|\u{23456}", unicode: true).hasMatch("b\u{23456}c"));
   assertFalse(
       RegExp(r"\u{12345}|\u{23456}", unicode: true).hasMatch("a\udf45\ud84db"));
   assertFalse(
       RegExp(r"\u{12345}|\u{23456}", unicode: true).hasMatch("b\udf45\ud808c"));

   // Capture.
   assertTrue(RegExp("(\u{12345}|\u{23456}).\\1", unicode: true)
       .hasMatch("\u{12345}b\u{12345}"));
   assertTrue(RegExp(r"(\u{12345}|\u{23456}).\1", unicode: true)
       .hasMatch("\u{12345}b\u{12345}"));
   assertFalse(RegExp("(\u{12345}|\u{23456}).\\1", unicode: true)
       .hasMatch("\u{12345}b\u{23456}"));
   assertFalse(RegExp(r"(\u{12345}|\u{23456}).\1", unicode: true)
       .hasMatch("\u{12345}b\u{23456}"));

   // Quantifier.
   assertTrue(RegExp("\u{12345}{3}", unicode: true)
       .hasMatch("\u{12345}\u{12345}\u{12345}"));
   assertTrue(RegExp(r"\u{12345}{3}", unicode: true)
       .hasMatch("\u{12345}\u{12345}\u{12345}"));
   assertTrue(RegExp("\u{12345}{3}").hasMatch("\u{12345}\udf45\udf45"));
   assertFalse(RegExp(r"\ud808\udf45{3}", unicode: true)
       .hasMatch("\u{12345}\udf45\udf45"));
   assertTrue(RegExp(r"\ud808\udf45{3}", unicode: true)
       .hasMatch("\u{12345}\u{12345}\u{12345}"));
   assertFalse(
       RegExp("\u{12345}{3}", unicode: true).hasMatch("\u{12345}\udf45\udf45"));
   assertFalse(
       RegExp(r"\u{12345}{3}", unicode: true).hasMatch("\u{12345}\udf45\udf45"));

   // Literal surrogates.
   shouldBe(
       RegExp("\ud800\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"),
       ["\u{10000}\u{10000}"]);
   shouldBe(
       RegExp("\\ud800\\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"),
       ["\u{10000}\u{10000}"]);

   shouldBe(
       RegExp("[\\ud800\\udc03-\\ud900\\udc01\]+", unicode: true)
           .firstMatch("\u{10003}\u{50001}"),
       ["\u{10003}\u{50001}"]);
   shouldBe(
       RegExp("[\ud800\udc03-\u{50001}\]+", unicode: true)
           .firstMatch("\u{10003}\u{50001}"),
       ["\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(() => RegExp("[\\ud800\udc03-\ud900\\udc01\]+", unicode: true));
   assertNull(
       RegExp("\\ud800\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"));
   assertNull(
       RegExp("\ud800\\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"));

   assertNull(RegExp("[\\ud800\udc00]", unicode: true).firstMatch("\u{10000}"));
   assertNull(
       RegExp("[\\{ud800}\udc00]", unicode: true).firstMatch("\u{10000}"));
   assertNull(RegExp("[\ud800\\udc00]", unicode: true).firstMatch("\u{10000}"));
   assertNull(
       RegExp("[\ud800\\{udc00}]", unicode: true).firstMatch("\u{10000}"));

   assertNull(RegExp(r"\u{d800}\u{dc00}+", unicode: true)
       .firstMatch("\ud800\udc00\udc00"));
   assertNull(RegExp(r"\ud800\u{dc00}+", unicode: true)
       .firstMatch("\ud800\udc00\udc00"));
   assertNull(RegExp(r"\u{d800}\udc00+", unicode: true)
       .firstMatch("\ud800\udc00\udc00"));
 }
	// Copyright (c) 2019, the Dart project authors. All rights reserved.
	// Copyright 2014 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	//
	// ES6 extends the \uxxxx escape and also allows \u{xxxxx}.

	import 'package:expect/expect.dart';

	import 'v8_regexp_utils.dart';

	void testRegExpHelper(RegExp r) {
	assertTrue(r.hasMatch("foo"));
	assertTrue(r.hasMatch("boo"));
	assertFalse(r.hasMatch("moo"));
	}

	void TestUnicodeEscapes() {
	testRegExpHelper(RegExp(r"(\u0066\|\u0062)oo"));
	testRegExpHelper(RegExp(r"(\u0066\|\u0062)oo", unicode: true));
	testRegExpHelper(RegExp(r"(\u{0066}\|\u{0062})oo", unicode: true));
	testRegExpHelper(RegExp(r"(\u{66}\|\u{000062})oo", unicode: true));

	// Note that we need \\ inside a string, otherwise it's interpreted as a
	// unicode escape inside a string.
	testRegExpHelper(RegExp("(\\u0066\|\\u0062)oo"));
	testRegExpHelper(RegExp("(\\u0066\|\\u0062)oo", unicode: true));
	testRegExpHelper(RegExp("(\\u{0066}\|\\u{0062})oo", unicode: true));
	testRegExpHelper(RegExp("(\\u{66}\|\\u{000062})oo", unicode: true));

	// Though, unicode escapes via strings should work too.
	testRegExpHelper(RegExp("(\u0066\|\u0062)oo"));
	testRegExpHelper(RegExp("(\u0066\|\u0062)oo", unicode: true));
	testRegExpHelper(RegExp("(\u{0066}\|\u{0062})oo", unicode: true));
	testRegExpHelper(RegExp("(\u{66}\|\u{000062})oo", unicode: true));
	}

	void TestUnicodeEscapesInCharacterClasses() {
	testRegExpHelper(RegExp(r"[\u0062-\u0066]oo"));
	testRegExpHelper(RegExp(r"[\u0062-\u0066]oo", unicode: true));
	testRegExpHelper(RegExp(r"[\u{0062}-\u{0066}]oo", unicode: true));
	testRegExpHelper(RegExp(r"[\u{62}-\u{000066}]oo", unicode: true));

	// Note that we need \\ inside a string, otherwise it's interpreted as a
	// unicode escape inside a string.
	testRegExpHelper(RegExp("[\\u0062-\\u0066]oo"));
	testRegExpHelper(RegExp("[\\u0062-\\u0066]oo", unicode: true));
	testRegExpHelper(RegExp("[\\u{0062}-\\u{0066}]oo", unicode: true));
	testRegExpHelper(RegExp("[\\u{62}-\\u{000066}]oo", unicode: true));

	// Though, unicode escapes via strings should work too.
	testRegExpHelper(RegExp("[\u0062-\u0066]oo"));
	testRegExpHelper(RegExp("[\u0062-\u0066]oo", unicode: true));
	testRegExpHelper(RegExp("[\u{0062}-\u{0066}]oo", unicode: true));
	testRegExpHelper(RegExp("[\u{62}-\u{000066}]oo", unicode: true));
	}

	void TestBraceEscapesWithoutUnicodeFlag() {
	// \u followed by illegal escape will be parsed as u. {x} will be the
	// character count.
	void helper1(RegExp r) {
	assertFalse(r.hasMatch("fbar"));
	assertFalse(r.hasMatch("fubar"));
	assertTrue(r.hasMatch("fuubar"));
	assertFalse(r.hasMatch("fuuubar"));
	}

	helper1(RegExp(r"f\u{2}bar"));
	helper1(RegExp("f\\u{2}bar"));

	void helper2(RegExp r) {
	assertFalse(r.hasMatch("fbar"));
	assertTrue(r.hasMatch("fubar"));
	assertTrue(r.hasMatch("fuubar"));
	assertFalse(r.hasMatch("fuuubar"));
	}

	helper2(RegExp(r"f\u{1,2}bar"));
	helper2(RegExp("f\\u{1,2}bar"));

	void helper3(RegExp r) {
	assertTrue(r.hasMatch("u"));
	assertTrue(r.hasMatch("{"));
	assertTrue(r.hasMatch("2"));
	assertTrue(r.hasMatch("}"));
	assertFalse(r.hasMatch("q"));
	assertFalse(r.hasMatch("("));
	assertFalse(r.hasMatch(")"));
	}

	helper3(RegExp(r"[\u{2}]"));
	helper3(RegExp("[\\u{2}]"));
	}

	void TestInvalidEscapes() {
	// Without the u flag, invalid unicode escapes and other invalid escapes are
	// treated as identity escapes.
	void helper1(RegExp r) {
	assertTrue(r.hasMatch("firstuxz89second"));
	}

	helper1(RegExp(r"first\u\x\z\8\9second"));
	helper1(RegExp("first\\u\\x\\z\\8\\9second"));

	void helper2(RegExp r) {
	assertTrue(r.hasMatch("u"));
	assertTrue(r.hasMatch("x"));
	assertTrue(r.hasMatch("z"));
	assertTrue(r.hasMatch("8"));
	assertTrue(r.hasMatch("9"));
	assertFalse(r.hasMatch("q"));
	assertFalse(r.hasMatch("7"));
	}

	helper2(RegExp(r"[\u\x\z\8\9]"));
	helper2(RegExp("[\\u\\x\\z\\8\\9]"));

	// However, with the u flag, these are treated as invalid escapes.
	assertThrows(() => RegExp(r"\u", unicode: true));
	assertThrows(() => RegExp(r"\u12", unicode: true));
	assertThrows(() => RegExp(r"\ufoo", unicode: true));
	assertThrows(() => RegExp(r"\x", unicode: true));
	assertThrows(() => RegExp(r"\xfoo", unicode: true));
	assertThrows(() => RegExp(r"\z", unicode: true));
	assertThrows(() => RegExp(r"\8", unicode: true));
	assertThrows(() => RegExp(r"\9", unicode: true));

	assertThrows(() => RegExp("\\u", unicode: true));
	assertThrows(() => RegExp("\\u12", unicode: true));
	assertThrows(() => RegExp("\\ufoo", unicode: true));
	assertThrows(() => RegExp("\\x", unicode: true));
	assertThrows(() => RegExp("\\xfoo", unicode: true));
	assertThrows(() => RegExp("\\z", unicode: true));
	assertThrows(() => RegExp("\\8", unicode: true));
	assertThrows(() => RegExp("\\9", unicode: true));
	}

	void TestTooBigHexEscape() {
	// The hex number inside \u{} has a maximum value.
	RegExp(r"\u{10ffff}", unicode: true);
	RegExp("\\u{10ffff}", unicode: true);
	assertThrows(() => RegExp(r"\u{110000}", unicode: true));
	assertThrows(() => RegExp("\\u{110000}", unicode: true));

	// Without the u flag, they're of course fine ({x} is the count).
	RegExp(r"\u{110000}");
	RegExp("\\u{110000}");
	}

	void TestSyntaxEscapes() {
	// Syntax escapes work the same with or without the u flag.
	void helper(RegExp r) {
	assertTrue(r.hasMatch("foo[bar"));
	assertFalse(r.hasMatch("foo]bar"));
	}

	helper(RegExp(r"foo\[bar"));
	helper(RegExp("foo\\[bar"));
	helper(RegExp(r"foo\[bar", unicode: true));
	helper(RegExp("foo\\[bar", unicode: true));
	}

	void TestUnicodeSurrogates() {
	// U+10E6D corresponds to the surrogate pair [U+D803, U+DE6D].
	void helper(RegExp r) {
	assertTrue(r.hasMatch("foo\u{10e6d}bar"));
	}

	helper(RegExp(r"foo\ud803\ude6dbar", unicode: true));
	helper(RegExp("foo\\ud803\\ude6dbar", unicode: true));
	}

	void main() {
	TestUnicodeEscapes();
	TestUnicodeEscapesInCharacterClasses();
	TestBraceEscapesWithoutUnicodeFlag();
	TestInvalidEscapes();
	TestTooBigHexEscape();
	TestSyntaxEscapes();
	TestUnicodeSurrogates();

	// Non-BMP patterns.
	// Single character atom.
	assertTrue(RegExp("\u{12345}", unicode: true).hasMatch("\u{12345}"));
	assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\u{12345}"));
	assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\ud808\udf45"));
	assertTrue(RegExp(r"\u{12345}", unicode: true).hasMatch("\ud808\udf45"));
	assertFalse(RegExp(r"\u{12345}", unicode: true).hasMatch("\udf45"));
	assertFalse(RegExp(r"\u{12345}", unicode: true).hasMatch("\udf45"));

	// Multi-character atom.
	assertTrue(RegExp(r"\u{12345}\u{23456}", unicode: true)
	.hasMatch("a\u{12345}\u{23456}b"));
	assertTrue(RegExp(r"\u{12345}\u{23456}", unicode: true)
	.hasMatch("b\u{12345}\u{23456}c"));
	assertFalse(RegExp(r"\u{12345}\u{23456}", unicode: true)
	.hasMatch("a\udf45\u{23456}b"));
	assertFalse(RegExp(r"\u{12345}\u{23456}", unicode: true)
	.hasMatch("b\udf45\u{23456}c"));

	// Disjunction.
	assertTrue(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
	.hasMatch("a\u{12345}\u{23456}b"));
	assertTrue(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
	.hasMatch("b\u{12345}\u{23456}c"));
	assertFalse(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
	.hasMatch("a\udf45\u{23456}b"));
	assertFalse(RegExp(r"\u{12345}(?:\u{23456})", unicode: true)
	.hasMatch("b\udf45\u{23456}c"));

	// Alternative.
	assertTrue(
	RegExp(r"\u{12345}\|\u{23456}", unicode: true).hasMatch("a\u{12345}b"));
	assertTrue(
	RegExp(r"\u{12345}\|\u{23456}", unicode: true).hasMatch("b\u{23456}c"));
	assertFalse(
	RegExp(r"\u{12345}\|\u{23456}", unicode: true).hasMatch("a\udf45\ud84db"));
	assertFalse(
	RegExp(r"\u{12345}\|\u{23456}", unicode: true).hasMatch("b\udf45\ud808c"));

	// Capture.
	assertTrue(RegExp("(\u{12345}\|\u{23456}).\\1", unicode: true)
	.hasMatch("\u{12345}b\u{12345}"));
	assertTrue(RegExp(r"(\u{12345}\|\u{23456}).\1", unicode: true)
	.hasMatch("\u{12345}b\u{12345}"));
	assertFalse(RegExp("(\u{12345}\|\u{23456}).\\1", unicode: true)
	.hasMatch("\u{12345}b\u{23456}"));
	assertFalse(RegExp(r"(\u{12345}\|\u{23456}).\1", unicode: true)
	.hasMatch("\u{12345}b\u{23456}"));

	// Quantifier.
	assertTrue(RegExp("\u{12345}{3}", unicode: true)
	.hasMatch("\u{12345}\u{12345}\u{12345}"));
	assertTrue(RegExp(r"\u{12345}{3}", unicode: true)
	.hasMatch("\u{12345}\u{12345}\u{12345}"));
	assertTrue(RegExp("\u{12345}{3}").hasMatch("\u{12345}\udf45\udf45"));
	assertFalse(RegExp(r"\ud808\udf45{3}", unicode: true)
	.hasMatch("\u{12345}\udf45\udf45"));
	assertTrue(RegExp(r"\ud808\udf45{3}", unicode: true)
	.hasMatch("\u{12345}\u{12345}\u{12345}"));
	assertFalse(
	RegExp("\u{12345}{3}", unicode: true).hasMatch("\u{12345}\udf45\udf45"));
	assertFalse(
	RegExp(r"\u{12345}{3}", unicode: true).hasMatch("\u{12345}\udf45\udf45"));

	// Literal surrogates.
	shouldBe(
	RegExp("\ud800\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"),
	["\u{10000}\u{10000}"]);
	shouldBe(
	RegExp("\\ud800\\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"),
	["\u{10000}\u{10000}"]);

	shouldBe(
	RegExp("[\\ud800\\udc03-\\ud900\\udc01\]+", unicode: true)
	.firstMatch("\u{10003}\u{50001}"),
	["\u{10003}\u{50001}"]);
	shouldBe(
	RegExp("[\ud800\udc03-\u{50001}\]+", unicode: true)
	.firstMatch("\u{10003}\u{50001}"),
	["\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(() => RegExp("[\\ud800\udc03-\ud900\\udc01\]+", unicode: true));
	assertNull(
	RegExp("\\ud800\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"));
	assertNull(
	RegExp("\ud800\\udc00+", unicode: true).firstMatch("\u{10000}\u{10000}"));

	assertNull(RegExp("[\\ud800\udc00]", unicode: true).firstMatch("\u{10000}"));
	assertNull(
	RegExp("[\\{ud800}\udc00]", unicode: true).firstMatch("\u{10000}"));
	assertNull(RegExp("[\ud800\\udc00]", unicode: true).firstMatch("\u{10000}"));
	assertNull(
	RegExp("[\ud800\\{udc00}]", unicode: true).firstMatch("\u{10000}"));

	assertNull(RegExp(r"\u{d800}\u{dc00}+", unicode: true)
	.firstMatch("\ud800\udc00\udc00"));
	assertNull(RegExp(r"\ud800\u{dc00}+", unicode: true)
	.firstMatch("\ud800\udc00\udc00"));
	assertNull(RegExp(r"\u{d800}\udc00+", unicode: true)
	.firstMatch("\ud800\udc00\udc00"));
	}