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ladybird/Tests/LibRegex/Regex.cpp

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/*
* 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;
}
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 {
const char* pattern;
regex::Error expected_error { regex::Error::NoError };
regex::ECMAScriptFlags flags {};
};
constexpr _test tests[] {
{ "^hello.$" },
{ "^(hello.)$" },
{ "^h{0,1}ello.$" },
{ "^hello\\W$" },
{ "^hell\\w.$" },
{ "^hell\\x6f1$" }, // ^hello1$
{ "^hel(?:l\\w).$" },
{ "^hel(?<LO>l\\w).$" },
{ "^[-a-zA-Z\\w\\s]+$" },
{ "\\bhello\\B" },
{ "^[\\w+/_-]+[=]{0,2}$" }, // #4189
{ "^(?:[^<]*(<[\\w\\W]+>)[^>]*$|#([\\w\\-]*)$)" }, // #4189
{ "\\/" }, // #4189
{ ",/=-:" }, // #4243
{ "\\x" }, // Even invalid escapes are allowed if ~unicode.
{ "\\x1" }, // Even invalid escapes are allowed if ~unicode.
{ "\\x1", regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ "\\x11" },
{ "\\x11", regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "\\", regex::Error::InvalidTrailingEscape },
{ "(?", regex::Error::InvalidCaptureGroup },
{ "\\u1234", regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "[\\u1234]", regex::Error::NoError, regex::ECMAScriptFlags::Unicode },
{ "\\u1", regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ "[\\u1]", regex::Error::InvalidPattern, regex::ECMAScriptFlags::Unicode },
{ ",(?", regex::Error::InvalidCaptureGroup }, // #4583
{ "{1}", regex::Error::InvalidPattern },
{ "{1,2}", regex::Error::InvalidPattern },
{ "\\uxxxx", regex::Error::NoError },
{ "\\uxxxx", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\ud83d", regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\ud83d\\uxxxx", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{0}", regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\u{10ffff}", regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\u{10ffff", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{10ffffx", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\u{110000}", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p{", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\p{}", regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{AsCiI}", regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{hello friends}", regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{Prepended_Concatenation_Mark}", regex::Error::InvalidNameForProperty, ECMAScriptFlags::Unicode },
{ "\\p{ASCII}", regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\\\p{1}", regex::Error::NoError, ECMAScriptFlags::Unicode },
{ "\\\\p{AsCiI}", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\\\p{ASCII}", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\c", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\c", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "[\\c]", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\c]", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\c`", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\c`", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "[\\c`]", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\c`]", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
{ "\\A", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "\\A", regex::Error::InvalidCharacterClass, ECMAScriptFlags::Unicode },
{ "[\\A]", regex::Error::NoError, ECMAScriptFlags::BrowserExtended },
{ "[\\A]", regex::Error::InvalidPattern, ECMAScriptFlags::Unicode },
};
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 {
const char* pattern;
const char* subject;
bool matches { true };
ECMAScriptFlags options {};
};
// clang-format off
constexpr _test tests[] {
{ "^hello.$", "hello1" },
{ "^(hello.)$", "hello1" },
{ "^h{0,1}ello.$", "ello1" },
{ "^hello\\W$", "hello!" },
{ "^hell\\w.$", "hellx!" },
{ "^hell\\x6f1$", "hello1" },
{ "^hel(?<LO>l.)1$", "hello1" },
{ "^hel(?<LO>l.)1*\\k<LO>.$", "hello1lo1" },
{ "^[-a-z1-3\\s]+$", "hell2 o1" },
{ "^[\\0-\\x1f]$", "\n" },
{ .pattern = "\\bhello\\B", .subject = "hello1", .options = ECMAScriptFlags::Global },
{ "\\b.*\\b", "hello1" },
{ "[^\\D\\S]{2}", "1 " },
{ "bar(?=f.)foo", "barfoo" },
{ "bar(?=foo)bar", "barbar", false },
{ "bar(?!foo)bar", "barbar", true },
{ "bar(?!bar)bar", "barbar", false },
{ "bar.*(?<=foo)", "barbar", false },
{ "bar.*(?<!foo)", "barbar", true },
{ "((...)X)+", "fooXbarXbazX", true },
{ "(?:)", "", true },
{ "\\^", "^" },
// ECMA262, B.1.4. Regular Expression Pattern extensions for browsers
{ "{", "{", true, ECMAScriptFlags::BrowserExtended },
{ "\\5", "\5", true, ECMAScriptFlags::BrowserExtended },
{ "\\05", "\5", true, ECMAScriptFlags::BrowserExtended },
{ "\\455", "\45""5", true, ECMAScriptFlags::BrowserExtended },
{ "\\314", "\314", true, ECMAScriptFlags::BrowserExtended },
{ "\\c", "\\c", true, ECMAScriptFlags::BrowserExtended },
{ "\\cf", "\06", true, ECMAScriptFlags::BrowserExtended },
{ "\\c1", "\\c1", true, ECMAScriptFlags::BrowserExtended },
{ "[\\c1]", "\x11", true, ECMAScriptFlags::BrowserExtended },
{ "[\\w-\\d]", "-", true, ECMAScriptFlags::BrowserExtended },
{ "^(?:^^\\.?|[!+-]|!=|!==|#|%|%=|&|&&|&&=|&=|\\(|\\*|\\*=|\\+=|,|-=|->|\\/|\\/=|:|::|;|<|<<|<<=|<=|=|==|===|>|>=|>>|>>=|>>>|>>>=|[?@[^]|\\^=|\\^\\^|\\^\\^=|{|\\||\\|=|\\|\\||\\|\\|=|~|break|case|continue|delete|do|else|finally|instanceof|return|throw|try|typeof)\\s*(\\/(?=[^*/])(?:[^/[\\\\]|\\\\[\\S\\s]|\\[(?:[^\\\\\\]]|\\\\[\\S\\s])*(?:]|$))+\\/)",
"return /xx/", true, ECMAScriptFlags::BrowserExtended
}, // #5517, appears to be matching JS expressions that involve regular expressions...
{ "a{2,}", "aaaa" }, // #5518
};
// 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 {
char const* pattern;
char const* subject;
bool matches { true };
ECMAScriptFlags options {};
};
_test tests[] {
{ "\\ud83d", "😀", true },
{ "\\ud83d", "😀", false, ECMAScriptFlags::Unicode },
{ "\\ude00", "😀", true },
{ "\\ude00", "😀", false, ECMAScriptFlags::Unicode },
{ "\\ud83d\\ude00", "😀", true },
{ "\\ud83d\\ude00", "😀", true, ECMAScriptFlags::Unicode },
{ "\\u{1f600}", "😀", true, ECMAScriptFlags::Unicode },
{ "\\ud83d\\ud83d", "\xed\xa0\xbd\xed\xa0\xbd", true },
{ "\\ud83d\\ud83d", "\xed\xa0\xbd\xed\xa0\xbd", 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 {
char const* pattern;
char const* subject;
bool matches { true };
ECMAScriptFlags options {};
};
constexpr _test tests[] {
{ "\\p{ASCII}", "a", false },
{ "\\p{ASCII}", "p{ASCII}", true },
{ "\\p{ASCII}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII}", "😀", false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII}", "a", false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII}", "😀", true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}", "1", true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{ASCII_Hex_Digit}", "x", false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}", "1", false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}", "a", false, ECMAScriptFlags::Unicode },
{ "\\P{ASCII_Hex_Digit}", "x", true, ECMAScriptFlags::Unicode },
{ "\\p{Any}", "\xcd\xb8", true, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\P{Any}", "\xcd\xb8", false, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\p{Assigned}", "\xcd\xb8", false, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\P{Assigned}", "\xcd\xb8", true, ECMAScriptFlags::Unicode }, // U+0378, which is an unassigned code point.
{ "\\p{Lu}", "a", false, ECMAScriptFlags::Unicode },
{ "\\p{Lu}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{Lu}", "9", false, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{Cased_Letter}", "9", false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}", "a", false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}", "A", false, ECMAScriptFlags::Unicode },
{ "\\P{Cased_Letter}", "9", true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{General_Category=Cased_Letter}", "9", false, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{gc=Cased_Letter}", "9", false, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{Script=Latin}", "9", false, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}", "a", true, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}", "A", true, ECMAScriptFlags::Unicode },
{ "\\p{sc=Latin}", "9", false, ECMAScriptFlags::Unicode },
{ "\\p{Script_Extensions=Deva}", "a", false, ECMAScriptFlags::Unicode },
{ "\\p{Script_Extensions=Beng}", "\xe1\xb3\x95", true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{Script_Extensions=Deva}", "\xe1\xb3\x95", true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{scx=Deva}", "a", false, ECMAScriptFlags::Unicode },
{ "\\p{scx=Beng}", "\xe1\xb3\x95", true, ECMAScriptFlags::Unicode }, // U+01CD5
{ "\\p{scx=Deva}", "\xe1\xb3\x95", 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 {
const char* pattern;
const char* replacement;
const char* subject;
const char* expected;
ECMAScriptFlags options {};
};
constexpr _test tests[] {
{ "foo(.+)", "aaa", "test", "test" },
{ "foo(.+)", "test\\1", "foobar", "testbar" },
{ "foo(.+)", "\\2\\1", "foobar", "\\2bar" },
{ "foo(.+)", "\\\\\\1", "foobar", "\\bar" },
{ "foo(.)", "a\\1", "fooxfooy", "axay", 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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