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third-party-mirror / orbit / refs/heads/master / . / qt-everywhere-src-5.15.1 / qtdeclarative / src / qml / jsruntime / qv4regexp.cpp
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#include "qv4regexp_p.h"
#include "qv4engine_p.h"
#include "qv4scopedvalue_p.h"
#include <private/qv4mm_p.h>
#include <runtime/VM.h>
using namespace QV4;
static JSC::RegExpFlags jscFlags(uint flags)
{
JSC::RegExpFlags jscFlags = JSC::NoFlags;
if (flags & CompiledData::RegExp::RegExp_Global)
jscFlags = static_cast<JSC::RegExpFlags>(flags | JSC::FlagGlobal);
if (flags & CompiledData::RegExp::RegExp_IgnoreCase)
jscFlags = static_cast<JSC::RegExpFlags>(flags | JSC::FlagIgnoreCase);
if (flags & CompiledData::RegExp::RegExp_Multiline)
jscFlags = static_cast<JSC::RegExpFlags>(flags | JSC::FlagMultiline);
if (flags & CompiledData::RegExp::RegExp_Unicode)
jscFlags = static_cast<JSC::RegExpFlags>(flags | JSC::FlagUnicode);
if (flags & CompiledData::RegExp::RegExp_Sticky)
jscFlags = static_cast<JSC::RegExpFlags>(flags | JSC::FlagSticky);
return jscFlags;
}
RegExpCache::~RegExpCache()
{
for (RegExpCache::Iterator it = begin(), e = end(); it != e; ++it) {
if (RegExp *re = it.value().as<RegExp>())
re->d()->cache = nullptr;
}
}
DEFINE_MANAGED_VTABLE(RegExp);
uint RegExp::match(const QString &string, int start, uint *matchOffsets)
{
if (!isValid())
return JSC::Yarr::offsetNoMatch;
WTF::String s(string);
#if ENABLE(YARR_JIT)
static const uint offsetJITFail = std::numeric_limits<unsigned>::max() - 1;
auto *priv = d();
if (priv->hasValidJITCode()) {
uint ret = JSC::Yarr::offsetNoMatch;
#if ENABLE(YARR_JIT_ALL_PARENS_EXPRESSIONS)
char buffer[8192];
ret = uint(priv->jitCode->execute(s.characters16(), start, s.length(),
(int*)matchOffsets, buffer, 8192).start);
#else
ret = uint(priv->jitCode->execute(s.characters16(), start, s.length(),
(int*)matchOffsets).start);
#endif
if (ret != offsetJITFail)
return ret;
// JIT failed. We need byteCode to run the interpreter.
if (!priv->byteCode) {
JSC::Yarr::ErrorCode error = JSC::Yarr::ErrorCode::NoError;
JSC::Yarr::YarrPattern yarrPattern(WTF::String(*priv->pattern), jscFlags(priv->flags),
error);
// As we successfully parsed the pattern before, we should still be able to.
Q_ASSERT(error == JSC::Yarr::ErrorCode::NoError);
priv->byteCode = JSC::Yarr::byteCompile(
yarrPattern,
priv->internalClass->engine->bumperPointerAllocator).release();
}
}
#endif // ENABLE(YARR_JIT)
return JSC::Yarr::interpret(byteCode(), s.characters16(), string.length(), start, matchOffsets);
}
QString RegExp::getSubstitution(const QString &matched, const QString &str, int position, const Value *captures, int nCaptures, const QString &replacement)
{
QString result;
int matchedLength = matched.length();
Q_ASSERT(position >= 0 && position <= str.length());
int tailPos = position + matchedLength;
int seenDollar = -1;
for (int i = 0; i < replacement.length(); ++i) {
QChar ch = replacement.at(i);
if (seenDollar >= 0) {
if (ch.unicode() == '$') {
result += QLatin1Char('$');
} else if (ch.unicode() == '&') {
result += matched;
} else if (ch.unicode() == '`') {
result += str.left(position);
} else if (ch.unicode() == '\'') {
result += str.mid(tailPos);
} else if (ch.unicode() >= '0' && ch.unicode() <= '9') {
int n = ch.unicode() - '0';
if (i + 1 < replacement.length()) {
ch = replacement.at(i + 1);
if (ch.unicode() >= '0' && ch.unicode() <= '9') {
n = n*10 + (ch.unicode() - '0');
++i;
}
}
if (n > 0 && n <= nCaptures) {
String *s = captures[n].stringValue();
if (s)
result += s->toQString();
} else {
for (int j = seenDollar; j <= i; ++j)
result += replacement.at(j);
}
} else {
result += QLatin1Char('$');
result += ch;
}
seenDollar = -1;
} else {
if (ch == QLatin1Char('$')) {
seenDollar = i;
continue;
}
result += ch;
}
}
if (seenDollar >= 0)
result += QLatin1Char('$');
return result;
}
QString Heap::RegExp::flagsAsString() const
{
QString result;
if (flags & CompiledData::RegExp::RegExp_Global)
result += QLatin1Char('g');
if (flags & CompiledData::RegExp::RegExp_IgnoreCase)
result += QLatin1Char('i');
if (flags & CompiledData::RegExp::RegExp_Multiline)
result += QLatin1Char('m');
if (flags & CompiledData::RegExp::RegExp_Unicode)
result += QLatin1Char('u');
if (flags & CompiledData::RegExp::RegExp_Sticky)
result += QLatin1Char('y');
return result;
}
Heap::RegExp *RegExp::create(ExecutionEngine* engine, const QString& pattern, uint flags)
{
RegExpCacheKey key(pattern, flags);
RegExpCache *cache = engine->regExpCache;
if (!cache)
cache = engine->regExpCache = new RegExpCache;
QV4::WeakValue &cachedValue = (*cache)[key];
if (QV4::RegExp *result = cachedValue.as<RegExp>())
return result->d();
Scope scope(engine);
Scoped<RegExp> result(scope, engine->memoryManager->alloc<RegExp>(engine, pattern, flags));
result->d()->cache = cache;
cachedValue.set(engine, result);
return result->d();
}
void Heap::RegExp::init(ExecutionEngine *engine, const QString &pattern, uint flags)
{
Base::init();
this->pattern = new QString(pattern);
this->flags = flags;
valid = false;
JSC::Yarr::ErrorCode error = JSC::Yarr::ErrorCode::NoError;
JSC::Yarr::YarrPattern yarrPattern(WTF::String(pattern), jscFlags(flags), error);
if (error != JSC::Yarr::ErrorCode::NoError)
return;
subPatternCount = yarrPattern.m_numSubpatterns;
#if ENABLE(YARR_JIT)
if (!yarrPattern.m_containsBackreferences && engine->canJIT()) {
jitCode = new JSC::Yarr::YarrCodeBlock;
JSC::VM *vm = static_cast<JSC::VM *>(engine);
JSC::Yarr::jitCompile(yarrPattern, JSC::Yarr::Char16, vm, *jitCode);
}
#else
Q_UNUSED(engine)
#endif
if (hasValidJITCode()) {
valid = true;
return;
}
byteCode = JSC::Yarr::byteCompile(yarrPattern, internalClass->engine->bumperPointerAllocator).release();
if (byteCode)
valid = true;
}
void Heap::RegExp::destroy()
{
if (cache) {
RegExpCacheKey key(this);
cache->remove(key);
}
#if ENABLE(YARR_JIT)
delete jitCode;
#endif
delete byteCode;
delete pattern;
Base::destroy();
}