JSValue JSC_HOST_CALL stringProtoFuncToUpperCase(ExecState* exec, JSObject*, JSValue thisValue, const ArgList&)
{
JSString* sVal = thisValue.toThisJSString(exec);
const UString& s = sVal->value();
int sSize = s.size();
if (!sSize)
return sVal;
const UChar* sData = s.data();
Vector<UChar> buffer(sSize);
UChar ored = 0;
for (int i = 0; i < sSize; i++) {
UChar c = sData[i];
ored |= c;
buffer[i] = toASCIIUpper(c);
}
if (!(ored & ~0x7f))
return jsString(exec, UString(buffer.releaseBuffer(), sSize, false));
bool error;
int length = Unicode::toUpper(buffer.data(), sSize, sData, sSize, &error);
if (error) {
buffer.resize(length);
length = Unicode::toUpper(buffer.data(), length, sData, sSize, &error);
if (error)
return sVal;
}
if (length == sSize && memcmp(buffer.data(), sData, length * sizeof(UChar)) == 0)
return sVal;
return jsString(exec, UString(buffer.releaseBuffer(), length, false));
}
EncodedJSValue JSC_HOST_CALL symbolConstructorFor(ExecState* exec)
{
VM& vm = exec->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
JSString* stringKey = exec->argument(0).toString(exec);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
String string = stringKey->value(exec);
RETURN_IF_EXCEPTION(scope, encodedJSValue());
return JSValue::encode(Symbol::create(exec->vm(), exec->vm().symbolRegistry().symbolForKey(string)));
}
EncodedJSValue JSC_HOST_CALL regExpProtoFuncSearch(ExecState* exec)
{
JSValue thisValue = exec->thisValue();
if (!thisValue.inherits(RegExpObject::info()))
return throwVMTypeError(exec);
RegExp* regExp = asRegExpObject(thisValue)->regExp();
JSString* string = exec->argument(0).toString(exec);
String s = string->value(exec);
if (exec->hadException())
return JSValue::encode(jsUndefined());
RegExpConstructor* regExpConstructor = exec->lexicalGlobalObject()->regExpConstructor();
MatchResult result = regExpConstructor->performMatch(exec->vm(), regExp, string, s, 0);
return JSValue::encode(result ? jsNumber(result.start) : jsNumber(-1));
}
inline RegExpFlags toFlags(ExecState* exec, JSValue flags)
{
if (flags.isUndefined())
return NoFlags;
JSString* flagsString = flags.toString(exec);
if (!flagsString) {
ASSERT(exec->hadException());
return InvalidFlags;
}
RegExpFlags result = regExpFlags(flagsString->value(exec));
if (exec->hadException())
return InvalidFlags;
if (result == InvalidFlags)
throwSyntaxError(exec, ASCIILiteral("Invalid flags supplied to RegExp constructor."));
return result;
}
inline RegExpFlags toFlags(ExecState* exec, JSValue flags)
{
VM& vm = exec->vm();
auto scope = DECLARE_THROW_SCOPE(vm);
if (flags.isUndefined())
return NoFlags;
JSString* flagsString = flags.toStringOrNull(exec);
ASSERT(!!scope.exception() == !flagsString);
if (UNLIKELY(!flagsString))
return InvalidFlags;
RegExpFlags result = regExpFlags(flagsString->value(exec));
RETURN_IF_EXCEPTION(scope, InvalidFlags);
if (result == InvalidFlags)
throwSyntaxError(exec, scope, ASCIILiteral("Invalid flags supplied to RegExp constructor."));
return result;
}
JSValue* stringProtoFuncToLocaleUpperCase(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList&)
{
JSString* sVal = thisValue->toThisJSString(exec);
const UString& s = sVal->value();
int ssize = s.size();
if (!ssize)
return sVal;
Vector<UChar> buffer(ssize);
bool error;
int length = Unicode::toUpper(buffer.data(), ssize, reinterpret_cast<const UChar*>(s.data()), ssize, &error);
if (error) {
buffer.resize(length);
length = Unicode::toUpper(buffer.data(), length, reinterpret_cast<const UChar*>(s.data()), ssize, &error);
if (error)
return sVal;
}
if (length == ssize && memcmp(buffer.data(), s.data(), length * sizeof(UChar)) == 0)
return sVal;
return jsString(exec, UString(buffer.releaseBuffer(), length, false));
}
JSValue* stringProtoFuncToLocaleLowerCase(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList&)
{
// FIXME: See http://www.unicode.org/Public/UNIDATA/SpecialCasing.txt for locale-sensitive mappings that aren't implemented.
JSString* sVal = thisValue->toThisJSString(exec);
const UString& s = sVal->value();
int ssize = s.size();
if (!ssize)
return sVal;
Vector<UChar> buffer(ssize);
bool error;
int length = Unicode::toLower(buffer.data(), ssize, reinterpret_cast<const UChar*>(s.data()), ssize, &error);
if (error) {
buffer.resize(length);
length = Unicode::toLower(buffer.data(), length, reinterpret_cast<const UChar*>(s.data()), ssize, &error);
if (error)
return sVal;
}
if (length == ssize && memcmp(buffer.data(), s.data(), length * sizeof(UChar)) == 0)
return sVal;
return jsString(exec, UString(buffer.releaseBuffer(), length, false));
}
JSValue JSC_HOST_CALL stringProtoFuncReplace(ExecState* exec, JSObject*, JSValue thisValue, const ArgList& args)
{
JSString* sourceVal = thisValue.toThisJSString(exec);
const UString& source = sourceVal->value();
JSValue pattern = args.at(0);
JSValue replacement = args.at(1);
UString replacementString;
CallData callData;
CallType callType = replacement.getCallData(callData);
if (callType == CallTypeNone)
replacementString = replacement.toString(exec);
if (pattern.isObject(&RegExpObject::info)) {
RegExp* reg = asRegExpObject(pattern)->regExp();
bool global = reg->global();
RegExpConstructor* regExpConstructor = exec->lexicalGlobalObject()->regExpConstructor();
int lastIndex = 0;
int startPosition = 0;
Vector<UString::Range, 16> sourceRanges;
Vector<UString, 16> replacements;
// This is either a loop (if global is set) or a one-way (if not).
if (global && callType == CallTypeJS) {
// reg->numSubpatterns() + 1 for pattern args, + 2 for match start and sourceValue
int argCount = reg->numSubpatterns() + 1 + 2;
JSFunction* func = asFunction(replacement);
CachedCall cachedCall(exec, func, argCount, exec->exceptionSlot());
if (exec->hadException())
return jsNull();
while (true) {
int matchIndex;
int matchLen;
int* ovector;
regExpConstructor->performMatch(reg, source, startPosition, matchIndex, matchLen, &ovector);
if (matchIndex < 0)
break;
sourceRanges.append(UString::Range(lastIndex, matchIndex - lastIndex));
int completeMatchStart = ovector[0];
unsigned i = 0;
for (; i < reg->numSubpatterns() + 1; ++i) {
int matchStart = ovector[i * 2];
int matchLen = ovector[i * 2 + 1] - matchStart;
if (matchStart < 0)
cachedCall.setArgument(i, jsUndefined());
else
cachedCall.setArgument(i, jsSubstring(exec, source, matchStart, matchLen));
}
cachedCall.setArgument(i++, jsNumber(exec, completeMatchStart));
cachedCall.setArgument(i++, sourceVal);
cachedCall.setThis(exec->globalThisValue());
replacements.append(cachedCall.call().toString(cachedCall.newCallFrame()));
if (exec->hadException())
break;
lastIndex = matchIndex + matchLen;
startPosition = lastIndex;
// special case of empty match
if (matchLen == 0) {
startPosition++;
if (startPosition > source.size())
break;
}
}
} else {
do {
int matchIndex;
int matchLen;
int* ovector;
regExpConstructor->performMatch(reg, source, startPosition, matchIndex, matchLen, &ovector);
if (matchIndex < 0)
break;
sourceRanges.append(UString::Range(lastIndex, matchIndex - lastIndex));
if (callType != CallTypeNone) {
int completeMatchStart = ovector[0];
MarkedArgumentBuffer args;
for (unsigned i = 0; i < reg->numSubpatterns() + 1; ++i) {
int matchStart = ovector[i * 2];
int matchLen = ovector[i * 2 + 1] - matchStart;
if (matchStart < 0)
args.append(jsUndefined());
else
args.append(jsSubstring(exec, source, matchStart, matchLen));
}
args.append(jsNumber(exec, completeMatchStart));
args.append(sourceVal);
replacements.append(call(exec, replacement, callType, callData, exec->globalThisValue(), args).toString(exec));
if (exec->hadException())
break;
} else
replacements.append(substituteBackreferences(replacementString, source, ovector, reg));
lastIndex = matchIndex + matchLen;
startPosition = lastIndex;
// special case of empty match
if (matchLen == 0) {
startPosition++;
if (startPosition > source.size())
break;
}
} while (global);
}
if (!lastIndex && replacements.isEmpty())
return sourceVal;
if (lastIndex < source.size())
sourceRanges.append(UString::Range(lastIndex, source.size() - lastIndex));
return jsString(exec, source.spliceSubstringsWithSeparators(sourceRanges.data(), sourceRanges.size(),
replacements.data(), replacements.size()));
}
// Not a regular expression, so treat the pattern as a string.
UString patternString = pattern.toString(exec);
int matchPos = source.find(patternString);
if (matchPos == -1)
return sourceVal;
int matchLen = patternString.size();
if (callType != CallTypeNone) {
MarkedArgumentBuffer args;
args.append(jsSubstring(exec, source, matchPos, matchLen));
args.append(jsNumber(exec, matchPos));
args.append(sourceVal);
replacementString = call(exec, replacement, callType, callData, exec->globalThisValue(), args).toString(exec);
}
int ovector[2] = { matchPos, matchPos + matchLen };
return jsString(exec, source.replaceRange(matchPos, matchLen, substituteBackreferences(replacementString, source, ovector, 0)));
}
// 15.3.4.5 Function.prototype.bind (thisArg [, arg1 [, arg2, ...]])
EncodedJSValue JSC_HOST_CALL functionProtoFuncBind(ExecState* exec)
{
JSGlobalObject* globalObject = exec->callee()->globalObject();
// Let Target be the this value.
JSValue target = exec->thisValue();
// If IsCallable(Target) is false, throw a TypeError exception.
CallData callData;
CallType callType = getCallData(target, callData);
if (callType == CallTypeNone)
return throwVMTypeError(exec);
// Primitive values are not callable.
ASSERT(target.isObject());
JSObject* targetObject = asObject(target);
VM& vm = exec->vm();
// Let A be a new (possibly empty) internal list of all of the argument values provided after thisArg (arg1, arg2 etc), in order.
size_t numBoundArgs = exec->argumentCount() > 1 ? exec->argumentCount() - 1 : 0;
JSArray* boundArgs = JSArray::tryCreateUninitialized(vm, globalObject->arrayStructureForIndexingTypeDuringAllocation(ArrayWithUndecided), numBoundArgs);
if (!boundArgs)
return JSValue::encode(throwOutOfMemoryError(exec));
for (size_t i = 0; i < numBoundArgs; ++i)
boundArgs->initializeIndex(vm, i, exec->argument(i + 1));
// If the [[Class]] internal property of Target is "Function", then ...
// Else set the length own property of F to 0.
unsigned length = 0;
if (targetObject->inherits(JSFunction::info())) {
ASSERT(target.get(exec, exec->propertyNames().length).isNumber());
// a. Let L be the length property of Target minus the length of A.
// b. Set the length own property of F to either 0 or L, whichever is larger.
unsigned targetLength = (unsigned)target.get(exec, exec->propertyNames().length).asNumber();
if (targetLength > numBoundArgs)
length = targetLength - numBoundArgs;
}
JSString* name = target.get(exec, exec->propertyNames().name).toString(exec);
return JSValue::encode(JSBoundFunction::create(vm, globalObject, targetObject, exec->argument(0), boundArgs, length, name->value(exec)));
}
JSValue* stringProtoFuncReplace(ExecState* exec, JSObject*, JSValue* thisValue, const ArgList& args)
{
JSString* sourceVal = thisValue->toThisJSString(exec);
const UString& source = sourceVal->value();
JSValue* pattern = args.at(exec, 0);
JSValue* replacement = args.at(exec, 1);
UString replacementString;
CallData callData;
CallType callType = replacement->getCallData(callData);
if (callType == CallTypeNone)
replacementString = replacement->toString(exec);
if (pattern->isObject(&RegExpObject::info)) {
RegExp* reg = static_cast<RegExpObject*>(pattern)->regExp();
bool global = reg->global();
RegExpConstructor* regExpObj = exec->lexicalGlobalObject()->regExpConstructor();
int lastIndex = 0;
int startPosition = 0;
Vector<UString::Range, 16> sourceRanges;
Vector<UString, 16> replacements;
// This is either a loop (if global is set) or a one-way (if not).
do {
int matchIndex;
int matchLen;
int* ovector;
regExpObj->performMatch(reg, source, startPosition, matchIndex, matchLen, &ovector);
if (matchIndex < 0)
break;
sourceRanges.append(UString::Range(lastIndex, matchIndex - lastIndex));
if (callType != CallTypeNone) {
int completeMatchStart = ovector[0];
ArgList args;
for (unsigned i = 0; i < reg->numSubpatterns() + 1; ++i) {
int matchStart = ovector[i * 2];
int matchLen = ovector[i * 2 + 1] - matchStart;
if (matchStart < 0)
args.append(jsUndefined());
else
args.append(jsSubstring(exec, source, matchStart, matchLen));
}
args.append(jsNumber(exec, completeMatchStart));
args.append(sourceVal);
replacements.append(call(exec, replacement, callType, callData, exec->globalThisValue(), args)->toString(exec));
} else
replacements.append(substituteBackreferences(replacementString, source, ovector, reg));
lastIndex = matchIndex + matchLen;
startPosition = lastIndex;
// special case of empty match
if (matchLen == 0) {
startPosition++;
if (startPosition > source.size())
break;
}
} while (global);
if (lastIndex < source.size())
sourceRanges.append(UString::Range(lastIndex, source.size() - lastIndex));
UString result = source.spliceSubstringsWithSeparators(sourceRanges.data(), sourceRanges.size(), replacements.data(), replacements.size());
if (result == source)
return sourceVal;
return jsString(exec, result);
}
// First arg is a string
UString patternString = pattern->toString(exec);
int matchPos = source.find(patternString);
int matchLen = patternString.size();
// Do the replacement
if (matchPos == -1)
return sourceVal;
if (callType != CallTypeNone) {
ArgList args;
args.append(jsSubstring(exec, source, matchPos, matchLen));
args.append(jsNumber(exec, matchPos));
args.append(sourceVal);
replacementString = call(exec, replacement, callType, callData, exec->globalThisValue(), args)->toString(exec);
}
return jsString(exec, source.substr(0, matchPos) + replacementString + source.substr(matchPos + matchLen));
}
