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serenity/Tests/LibRegex/Regex.cpp
Timothy Flynn 6a485f612f LibRegex: Implement legacy octal escape parsing closer to the spec 
The grammar for the ECMA-262 CharacterEscape is:

  CharacterEscape[U, N] ::
    ControlEscape
    c ControlLetter
    0 [lookahead ∉ DecimalDigit]
    HexEscapeSequence
    RegExpUnicodeEscapeSequence[?U]
    [~U]LegacyOctalEscapeSequence
    IdentityEscape[?U, ?N]

It's important to parse the standalone "\0 [lookahead ∉ DecimalDigit]"
before parsing LegacyOctalEscapeSequence. Otherwise, all standalone "\0"
patterns are parsed as octal, which are disallowed in Unicode mode.

Further, LegacyOctalEscapeSequence should also be parsed while parsing
character classes.
2021-08-15 11:43:45 +01:00

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This file contains Unicode characters that might be confused with other characters. If you think that this is intentional, you can safely ignore this warning. Use the Escape button to reveal them.

/*
* Copyright (c) 2020, Emanuel Sprung <emanuel.sprung@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "LibRegex/RegexMatcher.h"
#include <LibTest/TestCase.h> // import first, to prevent warning of VERIFY* redefinition
#include <AK/StringBuilder.h>
#include <LibRegex/Regex.h>
#include <LibRegex/RegexDebug.h>
#include <stdio.h>
static ECMAScriptOptions match_test_api_options(const ECMAScriptOptions options)
{
return options;
}
static PosixOptions match_test_api_options(const PosixOptions options)
{
return options;
}
template<typename... Flags>
static constexpr ECMAScriptFlags combine_flags(Flags&&... flags) requires((IsSame<Flags, ECMAScriptFlags> && ...))
{
return static_cast<ECMAScriptFlags>((static_cast<regex::FlagsUnderlyingType>(flags) | ...));
}
TEST_CASE(regex_options_ecmascript)
{
ECMAScriptOptions eo;
eo |= ECMAScriptFlags::Global;
EXPECT(eo & ECMAScriptFlags::Global);
EXPECT(!(eo & ECMAScriptFlags::Insensitive));
eo = match_test_api_options(ECMAScriptFlags::Global | ECMAScriptFlags::Insensitive | ECMAScriptFlags::Sticky);
EXPECT(eo & ECMAScriptFlags::Global);
EXPECT(eo & ECMAScriptFlags::Insensitive);
EXPECT(eo & ECMAScriptFlags::Sticky);
EXPECT(!(eo & ECMAScriptFlags::Unicode));
EXPECT(!(eo & ECMAScriptFlags::Multiline));
EXPECT(!(eo & ECMAScriptFlags::SingleLine));
eo &= ECMAScriptFlags::Insensitive;
EXPECT(!(eo & ECMAScriptFlags::Global));
EXPECT(eo & ECMAScriptFlags::Insensitive);
EXPECT(!(eo & ECMAScriptFlags::Multiline));
eo &= ECMAScriptFlags::Sticky;
EXPECT(!(eo & ECMAScriptFlags::Global));
EXPECT(!(eo & ECMAScriptFlags::Insensitive));
EXPECT(!(eo & ECMAScriptFlags::Multiline));
EXPECT(!(eo & ECMAScriptFlags::Sticky));
eo = ~ECMAScriptFlags::Insensitive;
EXPECT(eo & ECMAScriptFlags::Global);
EXPECT(!(eo & ECMAScriptFlags::Insensitive));
EXPECT(eo & ECMAScriptFlags::Multiline);
EXPECT(eo & ECMAScriptFlags::Sticky);
}
TEST_CASE(regex_options_posix)
{
PosixOptions eo;
eo |= PosixFlags::Global;
EXPECT(eo & PosixFlags::Global);
EXPECT(!(eo & PosixFlags::Insensitive));
eo = match_test_api_options(PosixFlags::Global | PosixFlags::Insensitive | PosixFlags::MatchNotBeginOfLine);
EXPECT(eo & PosixFlags::Global);
EXPECT(eo & PosixFlags::Insensitive);
EXPECT(eo & PosixFlags::MatchNotBeginOfLine);
EXPECT(!(eo & PosixFlags::Unicode));
EXPECT(!(eo & PosixFlags::Multiline));
eo &= PosixFlags::Insensitive;
EXPECT(!(eo & PosixFlags::Global));
EXPECT(eo & PosixFlags::Insensitive);
EXPECT(!(eo & PosixFlags::Multiline));
eo &= PosixFlags::MatchNotBeginOfLine;
EXPECT(!(eo & PosixFlags::Global));
EXPECT(!(eo & PosixFlags::Insensitive));
EXPECT(!(eo & PosixFlags::Multiline));
eo = ~PosixFlags::Insensitive;
EXPECT(eo & PosixFlags::Global);
EXPECT(!(eo & PosixFlags::Insensitive));
EXPECT(eo & PosixFlags::Multiline);
}
TEST_CASE(regex_lexer)
{
Lexer l("/[.*+?^${}()|[\\]\\\\]/g");
EXPECT(l.next().type() == regex::TokenType::Slash);
EXPECT(l.next().type() == regex::TokenType::LeftBracket);
EXPECT(l.next().type() == regex::TokenType::Period);
EXPECT(l.next().type() == regex::TokenType::Asterisk);
EXPECT(l.next().type() == regex::TokenType::Plus);
EXPECT(l.next().type() == regex::TokenType::Questionmark);
EXPECT(l.next().type() == regex::TokenType::Circumflex);
EXPECT(l.next().type() == regex::TokenType::Dollar);
EXPECT(l.next().type() == regex::TokenType::LeftCurly);
EXPECT(l.next().type() == regex::TokenType::RightCurly);
EXPECT(l.next().type() == regex::TokenType::LeftParen);
EXPECT(l.next().type() == regex::TokenType::RightParen);
EXPECT(l.next().type() == regex::TokenType::Pipe);
EXPECT(l.next().type() == regex::TokenType::LeftBracket);
EXPECT(l.next().type() == regex::TokenType::EscapeSequence);
EXPECT(l.next().type() == regex::TokenType::EscapeSequence);
EXPECT(l.next().type() == regex::TokenType::RightBracket);
EXPECT(l.next().type() == regex::TokenType::Slash);
EXPECT(l.next().type() == regex::TokenType::Char);
}
TEST_CASE(parser_error_parens)
{
String pattern = "test()test";
Lexer l(pattern);
PosixExtendedParser p(l);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::EmptySubExpression);
}
TEST_CASE(parser_error_special_characters_used_at_wrong_place)
{
String pattern;
Vector<char, 5> chars = { '*', '+', '?', '{' };
StringBuilder b;
Lexer l;
PosixExtended p(l);
for (auto& ch : chars) {
// First in ere
b.clear();
b.append(ch);
pattern = b.build();
l.set_source(pattern);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::InvalidRepetitionMarker);
// After vertical line
b.clear();
b.append("a|");
b.append(ch);
pattern = b.build();
l.set_source(pattern);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::InvalidRepetitionMarker);
// After circumflex
b.clear();
b.append("^");
b.append(ch);
pattern = b.build();
l.set_source(pattern);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::InvalidRepetitionMarker);
// After dollar
b.clear();
b.append("$");
b.append(ch);
pattern = b.build();
l.set_source(pattern);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::InvalidRepetitionMarker);
// After left parens
b.clear();
b.append("(");
b.append(ch);
b.append(")");
pattern = b.build();
l.set_source(pattern);
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::InvalidRepetitionMarker);
}
}
TEST_CASE(parser_error_vertical_line_used_at_wrong_place)
{
Lexer l;
PosixExtended p(l);
// First in ere
l.set_source("|asdf");
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::EmptySubExpression);
// Last in ere
l.set_source("asdf|");
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::EmptySubExpression);
// After left parens
l.set_source("(|asdf)");
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::EmptySubExpression);
// Proceed right parens
l.set_source("(asdf)|");
p.parse();
EXPECT(p.has_error());
EXPECT(p.error() == Error::EmptySubExpression);
}
TEST_CASE(catch_all_first)
{
Regex<PosixExtended> re("^.*$");
RegexResult m;
re.match("Hello World", m);
EXPECT(m.count == 1);
EXPECT(re.match("Hello World", m));
}
TEST_CASE(catch_all)
{
Regex<PosixExtended> re("^.*$", PosixFlags::Global);
EXPECT(re.has_match("Hello World"));
EXPECT(re.match("Hello World").success);
EXPECT(re.match("Hello World").count == 1);
EXPECT(has_match("Hello World", re));
auto res = match("Hello World", re);
EXPECT(res.success);
EXPECT(res.count == 1);
EXPECT(res.matches.size() == 1);
EXPECT(res.matches.first().view == "Hello World");
}
TEST_CASE(catch_all_again)
{
Regex<PosixExtended> re("^.*$", PosixFlags::Extra);
EXPECT_EQ(has_match("Hello World", re), true);
}
TEST_CASE(char_utf8)
{
Regex<PosixExtended> re("😀");
RegexResult result;
EXPECT_EQ((result = match(Utf8View { "Привет, мир! 😀 γειά σου κόσμος 😀 こんにちは世界" }, re, PosixFlags::Global)).success, true);
EXPECT_EQ(result.count, 2u);
}
TEST_CASE(catch_all_newline)
{
Regex<PosixExtended> re("^.*$", PosixFlags::Multiline | PosixFlags::StringCopyMatches);
RegexResult result;
auto lambda = [&result, &re]() {
String aaa = "Hello World\nTest\n1234\n";
result = match(aaa, re);
EXPECT_EQ(result.success, true);
};
lambda();
EXPECT_EQ(result.count, 3u);
EXPECT_EQ(result.matches.at(0).view, "Hello World");
EXPECT_EQ(result.matches.at(1).view, "Test");
EXPECT_EQ(result.matches.at(2).view, "1234");
}
TEST_CASE(catch_all_newline_view)
{
Regex<PosixExtended> re("^.*$", PosixFlags::Multiline);
RegexResult result;
String aaa = "Hello World\nTest\n1234\n";
result = match(aaa, re);
EXPECT_EQ(result.success, true);
EXPECT_EQ(result.count, 3u);
String str = "Hello World";
EXPECT_EQ(result.matches.at(0).view, str.view());
EXPECT_EQ(result.matches.at(1).view, "Test");
EXPECT_EQ(result.matches.at(2).view, "1234");
}
TEST_CASE(catch_all_newline_2)
{
Regex<PosixExtended> re("^.*$");
RegexResult result;
result = match("Hello World\nTest\n1234\n", re, PosixFlags::Multiline | PosixFlags::StringCopyMatches);
EXPECT_EQ(result.success, true);
EXPECT_EQ(result.count, 3u);
EXPECT_EQ(result.matches.at(0).view, "Hello World");
EXPECT_EQ(result.matches.at(1).view, "Test");
EXPECT_EQ(result.matches.at(2).view, "1234");
result = match("Hello World\nTest\n1234\n", re);
EXPECT_EQ(result.success, true);
EXPECT_EQ(result.count, 1u);
EXPECT_EQ(result.matches.at(0).view, "Hello World\nTest\n1234\n");
}
TEST_CASE(match_all_character_class)
{
Regex<PosixExtended> re("[[:alpha:]]");
String str = "[Window]\nOpacity=255\nAudibleBeep=0\n";
RegexResult result = match(str, re, PosixFlags::Global | PosixFlags::StringCopyMatches);
EXPECT_EQ(result.success, true);
EXPECT_EQ(result.count, 24u);
EXPECT_EQ(result.matches.at(0).view, "W");
EXPECT_EQ(result.matches.at(1).view, "i");
EXPECT_EQ(result.matches.at(2).view, "n");
}
TEST_CASE(match_character_class_with_assertion)
{
Regex<PosixExtended> re("[[:alpha:]]+$");
String str = "abcdef";
RegexResult result = match(str, re);
EXPECT_EQ(result.success, true);
EXPECT_EQ(result.count, 1u);
}
TEST_CASE(example_for_git_commit)
{
Regex<PosixExtended> re("^.*$");
auto result = re.match("Well, hello friends!\nHello World!");
EXPECT(result.success);
EXPECT(result.count == 1);
EXPECT(result.matches.at(0).view.starts_with("Well"));
EXPECT(result.matches.at(0).view.length() == 33);
EXPECT(re.has_match("Well,...."));
result = re.match("Well, hello friends!\nHello World!", PosixFlags::Multiline);
EXPECT(result.success);
EXPECT(result.count == 2);
EXPECT(result.matches.at(0).view == "Well, hello friends!");
EXPECT(result.matches.at(1).view == "Hello World!");
}
TEST_CASE(email_address)
{
Regex<PosixExtended> re("^[A-Z0-9a-z._%+-]{1,64}@([A-Za-z0-9-]{1,63}\\.){1,125}[A-Za-z]{2,63}$");
EXPECT(re.has_match("hello.world@domain.tld"));
EXPECT(re.has_match("this.is.a.very_long_email_address@world.wide.web"));
}
TEST_CASE(ini_file_entries)
{
Regex<PosixExtended> re("[[:alpha:]]*=([[:digit:]]*)|\\[(.*)\\]");
RegexResult result;
if constexpr (REGEX_DEBUG) {
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
}
String haystack = "[Window]\nOpacity=255\nAudibleBeep=0\n";
EXPECT_EQ(re.search(haystack.view(), result, PosixFlags::Multiline), true);
EXPECT_EQ(result.count, 3u);
if constexpr (REGEX_DEBUG) {
for (auto& v : result.matches)
fprintf(stderr, "%s\n", v.view.to_string().characters());
}
EXPECT_EQ(result.matches.at(0).view, "[Window]");
EXPECT_EQ(result.capture_group_matches.at(0).at(0).view, "Window");
EXPECT_EQ(result.matches.at(1).view, "Opacity=255");
EXPECT_EQ(result.matches.at(1).line, 1u);
EXPECT_EQ(result.matches.at(1).column, 0u);
EXPECT_EQ(result.capture_group_matches.at(1).at(0).view, "255");
EXPECT_EQ(result.capture_group_matches.at(1).at(0).line, 1u);
EXPECT_EQ(result.capture_group_matches.at(1).at(0).column, 8u);
EXPECT_EQ(result.matches.at(2).view, "AudibleBeep=0");
EXPECT_EQ(result.capture_group_matches.at(2).at(0).view, "0");
EXPECT_EQ(result.capture_group_matches.at(2).at(0).line, 2u);
EXPECT_EQ(result.capture_group_matches.at(2).at(0).column, 12u);
}
TEST_CASE(ini_file_entries2)
{
Regex<PosixExtended> re("[[:alpha:]]*=([[:digit:]]*)");
RegexResult result;
String haystack = "ViewMode=Icon";
EXPECT_EQ(re.match(haystack.view(), result), false);
EXPECT_EQ(result.count, 0u);
EXPECT_EQ(re.search(haystack.view(), result), true);
EXPECT_EQ(result.count, 1u);
}
TEST_CASE(named_capture_group)
{
Regex<PosixExtended> re("[[:alpha:]]*=(?<Test>[[:digit:]]*)");
RegexResult result;
if constexpr (REGEX_DEBUG) {
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
}
String haystack = "[Window]\nOpacity=255\nAudibleBeep=0\n";
EXPECT_EQ(re.search(haystack, result, PosixFlags::Multiline), true);
EXPECT_EQ(result.count, 2u);
EXPECT_EQ(result.matches.at(0).view, "Opacity=255");
EXPECT_EQ(result.named_capture_group_matches.at(0).ensure("Test").view, "255");
EXPECT_EQ(result.matches.at(1).view, "AudibleBeep=0");
EXPECT_EQ(result.named_capture_group_matches.at(1).ensure("Test").view, "0");
}
TEST_CASE(ecma262_named_capture_group_with_dollar_sign)
{
Regex<ECMA262> re("[a-zA-Z]*=(?<$Test$>[0-9]*)");
RegexResult result;
if constexpr (REGEX_DEBUG) {
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
}
String haystack = "[Window]\nOpacity=255\nAudibleBeep=0\n";
EXPECT_EQ(re.search(haystack, result, ECMAScriptFlags::Multiline), true);
EXPECT_EQ(result.count, 2u);
EXPECT_EQ(result.matches.at(0).view, "Opacity=255");
EXPECT_EQ(result.named_capture_group_matches.at(0).ensure("$Test$").view, "255");
EXPECT_EQ(result.matches.at(1).view, "AudibleBeep=0");
EXPECT_EQ(result.named_capture_group_matches.at(1).ensure("$Test$").view, "0");
}
TEST_CASE(a_star)
{
Regex<PosixExtended> re("a*");
RegexResult result;
if constexpr (REGEX_DEBUG) {
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
}
String haystack = "[Window]\nOpacity=255\nAudibleBeep=0\n";
EXPECT_EQ(re.search(haystack.view(), result, PosixFlags::Multiline), true);
EXPECT_EQ(result.count, 32u);
if (result.count == 32u) {
EXPECT_EQ(result.matches.at(0).view.length(), 0u);
EXPECT_EQ(result.matches.at(10).view.length(), 1u);
EXPECT_EQ(result.matches.at(10).view, "a");
EXPECT_EQ(result.matches.at(31).view.length(), 0u);
}
}
TEST_CASE(simple_period_end_benchmark)
{
Regex<PosixExtended> re("hello.$");
RegexResult m;
EXPECT_EQ(re.search("Hello1", m), false);
EXPECT_EQ(re.search("hello1hello1", m), true);
EXPECT_EQ(re.search("hello2hell", m), false);
EXPECT_EQ(re.search("hello?", m), true);
}
TEST_CASE(ECMA262_parse)
{
struct _test {
StringView pattern;
regex::Error expected_error { regex::Error::NoError };
regex::ECMAScriptFlags flags {};
};
constexpr _test tests[] {
{ "^hello.$"sv },
{ "^(hello.)$"sv },
{ "^h{0,1}ello.$"sv },
{ "^hello\\W$"sv },
{ "^hell\\w.$"sv },
{ "^hell\\x6f1$"sv }, // ^hello1$
{ "^hel(?:l\\w).$"sv },
{ "^hel(?<LO>l\\w).$"sv },
{ "^[-a-zA-Z\\w\\s]+$"sv },
{ "\\bhello\\B"sv },
{ "^[\\w+/_-]+[=]{0,2}$"sv }, // #4189
{ "^(?:[^<]*(<[\\w\\W]+>)[^>]*$|#([\\w\\-]*)$)"sv }, // #4189
{ "\\/"sv }, // #4189
{ ",/=-:"sv }, // #4243
{ "\\x"sv }, // Even invalid escapes are allowed if ~unicode.
{ "\\x1"sv }, // Even invalid escapes are allowed if ~unicode.
{ "\\x1"sv, regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ "\\x11"sv },
{ "\\x11"sv, regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "\\"sv, regex::Error::InvalidTrailingEscape },
{ "(?"sv, regex::Error::InvalidCaptureGroup },
{ "\\u1234"sv, regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "[\\u1234]"sv, regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "\\u1"sv, regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ "[\\u1]"sv, regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ ",(?"sv, regex::Error::InvalidCaptureGroup }, // #4583
{ "{1}"sv, regex::Error::InvalidPattern },
{ "{1,2}"sv, regex::Error::InvalidPattern },
{ "\\uxxxx"sv, regex::Error::NoError },
{ "\\uxxxx"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\ud83d"sv, regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\ud83d\\uxxxx"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{0}"sv, regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\u{10ffff}"sv, regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\u{10ffff"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{10ffffx"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{110000}"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p{"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p{}"sv, regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{AsCiI}"sv, regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{hello friends}"sv, regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{Prepended_Concatenation_Mark}"sv, regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{ASCII}"sv, regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\\\p{1}"sv, regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\\\p{AsCiI}"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\\\p{ASCII}"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\c"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\c"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "[\\c]"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\c]"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\c`"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\c`"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "[\\c`]"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\c`]"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\A"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\A"sv, regex::Error::InvalidCharacterClass, ECMAScriptFlags::Unicode },
{ "[\\A]"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\A]"sv, regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\0"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\0"sv, regex::Error::NoError, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
{ "\\00"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\00"sv, regex::Error::InvalidCharacterClass, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
{ "[\\0]"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\0]"sv, regex::Error::NoError, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
{ "[\\00]"sv, regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\00]"sv, regex::Error::InvalidPattern, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
};
for (auto& test : tests) {
Regex<ECMA262> re(test.pattern, test.flags);
EXPECT_EQ(re.parser_result.error, test.expected_error);
if constexpr (REGEX_DEBUG) {
dbgln("\n");
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
dbgln("\n");
}
}
}
TEST_CASE(ECMA262_match)
{
struct _test {
StringView pattern;
StringView subject;
bool matches { true };
ECMAScriptFlags options {};
};
// clang-format off
constexpr _test tests[] {
{ "^hello.$"sv, "hello1"sv },
{ "^(hello.)$"sv, "hello1"sv },
{ "^h{0,1}ello.$"sv, "ello1"sv },
{ "^hello\\W$"sv, "hello!"sv },
{ "^hell\\w.$"sv, "hellx!"sv },
{ "^hell\\x6f1$"sv, "hello1"sv },
{ "^hel(?<LO>l.)1$"sv, "hello1"sv },
{ "^hel(?<LO>l.)1*\\k<LO>.$"sv, "hello1lo1"sv },
{ "^[-a-z1-3\\s]+$"sv, "hell2 o1"sv },
{ "^[\\0-\\x1f]$"sv, "\n"sv },
{ .pattern = "\\bhello\\B"sv, .subject = "hello1"sv, .options = ECMAScriptFlags::Global },
{ "\\b.*\\b"sv, "hello1"sv },
{ "[^\\D\\S]{2}"sv, "1 "sv },
{ "bar(?=f.)foo"sv, "barfoo"sv },
{ "bar(?=foo)bar"sv, "barbar"sv, false },
{ "bar(?!foo)bar"sv, "barbar"sv, true },
{ "bar(?!bar)bar"sv, "barbar"sv, false },
{ "bar.*(?<=foo)"sv, "barbar"sv, false },
{ "bar.*(?<!foo)"sv, "barbar"sv, true },
{ "((...)X)+"sv, "fooXbarXbazX"sv, true },
{ "(?:)"sv, ""sv, true },
{ "\\^"sv, "^"sv },
// ECMA262, B.1.4. Regular Expression Pattern extensions for browsers
{ "{"sv, "{"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\5"sv, "\5"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\05"sv, "\5"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\455"sv, "\45""5"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\314"sv, "\314"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\c"sv, "\\c"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\cf"sv, "\06"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\c1"sv, "\\c1"sv, true, ECMAScriptFlags::BrowserExtended },
{ "[\\c1]"sv, "\x11"sv, true, ECMAScriptFlags::BrowserExtended },
{ "[\\w-\\d]"sv, "-"sv, true, ECMAScriptFlags::BrowserExtended },
{ "^(?:^^\\.?|[!+-]|!=|!==|#|%|%=|&|&&|&&=|&=|\\(|\\*|\\*=|\\+=|,|-=|->|\\/|\\/=|:|::|;|<|<<|<<=|<=|=|==|===|>|>=|>>|>>=|>>>|>>>=|[?@[^]|\\^=|\\^\\^|\\^\\^=|{|\\||\\|=|\\|\\||\\|\\|=|~|break|case|continue|delete|do|else|finally|instanceof|return|throw|try|typeof)\\s*(\\/(?=[^*/])(?:[^/[\\\\]|\\\\[\\S\\s]|\\[(?:[^\\\\\\]]|\\\\[\\S\\s])*(?:]|$))+\\/)"sv,
"return /xx/"sv, true, ECMAScriptFlags::BrowserExtended
}, // #5517, appears to be matching JS expressions that involve regular expressions...
{ "a{2,}"sv, "aaaa"sv }, // #5518
{ "\\0"sv, "\0"sv, true, ECMAScriptFlags::BrowserExtended },
{ "\\0"sv, "\0"sv, true, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
{ "\\01"sv, "\1"sv, true, ECMAScriptFlags::BrowserExtended },
{ "[\\0]"sv, "\0"sv, true, ECMAScriptFlags::BrowserExtended },
{ "[\\0]"sv, "\0"sv, true, combine_flags(ECMAScriptFlags::Unicode, ECMAScriptFlags::BrowserExtended) },
{ "[\\01]"sv, "\1"sv, true, ECMAScriptFlags::BrowserExtended },
};
// clang-format on
for (auto& test : tests) {
Regex<ECMA262> re(test.pattern, test.options);
if constexpr (REGEX_DEBUG) {
dbgln("\n");
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
dbgln("\n");
}
EXPECT_EQ(re.parser_result.error, Error::NoError);
EXPECT_EQ(re.match(test.subject).success, test.matches);
}
}
TEST_CASE(ECMA262_unicode_match)
{
struct _test {
StringView pattern;
StringView subject;
bool matches { true };
ECMAScriptFlags options {};
};
_test tests[] {
{ "\\ud83d"sv, "😀"sv, true },
{ "\\ud83d"sv, "😀"sv, false, ECMAScriptFlags::Unicode },
{ "\\ude00"sv, "😀"sv, true },
{ "\\ude00"sv, "😀"sv, false, ECMAScriptFlags::Unicode },
{ "\\ud83d\\ude00"sv, "😀"sv, true },
{ "\\ud83d\\ude00"sv, "😀"sv, true, ECMAScriptFlags::Unicode },
{ "\\u{1f600}"sv, "😀"sv, true, ECMAScriptFlags::Unicode },
{ "\\ud83d\\ud83d"sv, "\xed\xa0\xbd\xed\xa0\xbd"sv, true },
{ "\\ud83d\\ud83d"sv, "\xed\xa0\xbd\xed\xa0\xbd"sv, true, ECMAScriptFlags::Unicode },
};
for (auto& test : tests) {
Regex<ECMA262> re(test.pattern, (ECMAScriptFlags)regex::AllFlags::Global | test.options);
auto subject = AK::utf8_to_utf16(test.subject);
Utf16View view { subject };
if constexpr (REGEX_DEBUG) {
dbgln("\n");
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
dbgln("\n");
}
EXPECT_EQ(re.parser_result.error, Error::NoError);
EXPECT_EQ(re.match(view).success, test.matches);
}
}
TEST_CASE(ECMA262_property_match)
{
struct _test {
StringView pattern;
StringView subject;
bool matches { true };
ECMAScriptFlags options {};
};
constexpr _test tests[] {
{ "\\p{ASCII}"sv, "a"sv, false },
{ "\\p{ASCII}"sv, "p{ASCII}"sv, true },
{ "\\p{ASCII}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII}"sv, "😀"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII}"sv, "😀"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}"sv, "1"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}"sv, "x"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}"sv, "1"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}"sv, "x"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Any}"sv, "\xcd\xb8"sv, true, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\P{Any}"sv, "\xcd\xb8"sv, false, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\p{Assigned}"sv, "\xcd\xb8"sv, false, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\P{Assigned}"sv, "\xcd\xb8"sv, true, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\p{Lu}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{Lu}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Lu}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}"sv, "A"sv, false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}"sv, "9"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}"sv, "a"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}"sv, "A"sv, true, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}"sv, "9"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{Script_Extensions=Deva}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{Script_Extensions=Beng}"sv, "\xe1\xb3\x95"sv, true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{Script_Extensions=Deva}"sv, "\xe1\xb3\x95"sv, true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{scx=Deva}"sv, "a"sv, false, ECMAScriptFlags::Unicode },
{ "\\p{scx=Beng}"sv, "\xe1\xb3\x95"sv, true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{scx=Deva}"sv, "\xe1\xb3\x95"sv, true, ECMAScriptFlags::Unicode }, // U+01CD5
};
for (auto& test : tests) {
Regex<ECMA262> re(test.pattern, (ECMAScriptFlags)regex::AllFlags::Global | regex::ECMAScriptFlags::BrowserExtended | test.options);
auto subject = AK::utf8_to_utf16(test.subject);
Utf16View view { subject };
if constexpr (REGEX_DEBUG) {
dbgln("\n");
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
dbgln("\n");
}
EXPECT_EQ(re.parser_result.error, Error::NoError);
EXPECT_EQ(re.match(view).success, test.matches);
}
}
TEST_CASE(replace)
{
struct _test {
StringView pattern;
StringView replacement;
StringView subject;
StringView expected;
ECMAScriptFlags options {};
};
constexpr _test tests[] {
{ "foo(.+)"sv, "aaa"sv, "test"sv, "test"sv },
{ "foo(.+)"sv, "test\\1"sv, "foobar"sv, "testbar"sv },
{ "foo(.+)"sv, "\\2\\1"sv, "foobar"sv, "\\2bar"sv },
{ "foo(.+)"sv, "\\\\\\1"sv, "foobar"sv, "\\bar"sv },
{ "foo(.)"sv, "a\\1"sv, "fooxfooy"sv, "axay"sv, ECMAScriptFlags::Multiline },
};
for (auto& test : tests) {
Regex<ECMA262> re(test.pattern, test.options);
if constexpr (REGEX_DEBUG) {
dbgln("\n");
RegexDebug regex_dbg(stderr);
regex_dbg.print_raw_bytecode(re);
regex_dbg.print_header();
regex_dbg.print_bytecode(re);
dbgln("\n");
}
EXPECT_EQ(re.parser_result.error, Error::NoError);
EXPECT_EQ(re.replace(test.subject, test.replacement), test.expected);
}
}
TEST_CASE(case_insensitive_match)
{
Regex<PosixExtended> re("cd", PosixFlags::Insensitive | PosixFlags::Global);
auto result = re.match("AEKFCD");
EXPECT_EQ(result.success, true);
if (result.success) {
EXPECT_EQ(result.matches.at(0).column, 4ul);
}
}
TEST_CASE(extremely_long_fork_chain)
{
Regex<ECMA262> re("(?:aa)*");
auto result = re.match(String::repeated('a', 100'000));
EXPECT_EQ(result.success, true);
}
static auto g_lots_of_a_s = String::repeated('a', 10'000'000);
BENCHMARK_CASE(fork_performance)
{
Regex<ECMA262> re("(?:aa)*");
auto result = re.match(g_lots_of_a_s);
EXPECT_EQ(result.success, true);
}
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