void Object::putValue(Property *pd, PropertyAttributes attrs, const ValueRef value)
{
    if (internalClass->engine->hasException)
        return;

    if (attrs.isAccessor()) {
        if (FunctionObject *set = pd->setter()) {
            Scope scope(set->engine());
            ScopedCallData callData(scope, 1);
            callData->args[0] = *value;
            callData->thisObject = this;
            set->call(callData);
            return;
        }
        goto reject;
    }

    if (!attrs.isWritable())
        goto reject;

    pd->value = *value;
    return;

  reject:
    if (engine()->currentContext()->strictMode)
        engine()->currentContext()->throwTypeError();
}
示例#2
0
bool Object::putValue(uint memberIndex, const Value &value)
{
    QV4::InternalClass *ic = internalClass();
    if (ic->engine->hasException)
        return false;

    PropertyAttributes attrs = ic->propertyData[memberIndex];

    if (attrs.isAccessor()) {
        const FunctionObject *set = propertyData(memberIndex + SetterOffset)->as<FunctionObject>();
        if (set) {
            Scope scope(ic->engine);
            ScopedFunctionObject setter(scope, set);
            ScopedCallData callData(scope, 1);
            callData->args[0] = value;
            callData->thisObject = this;
            setter->call(scope, callData);
            return !ic->engine->hasException;
        }
        goto reject;
    }

    if (!attrs.isWritable())
        goto reject;

    setProperty(memberIndex, value);
    return true;

  reject:
    if (engine()->current->strictMode)
        engine()->throwTypeError();
    return false;
}
示例#3
0
// Section 8.12.9
bool Object::__defineOwnProperty__(ExecutionEngine *engine, String *name, const Property *p, PropertyAttributes attrs)
{
    uint idx = name->asArrayIndex();
    if (idx != UINT_MAX)
        return __defineOwnProperty__(engine, idx, p, attrs);

    Scope scope(engine);
    name->makeIdentifier();

    uint memberIndex;

    if (isArrayObject() && name->equals(engine->id_length())) {
        Q_ASSERT(Heap::ArrayObject::LengthPropertyIndex == internalClass()->find(engine->id_length()));
        ScopedProperty lp(scope);
        PropertyAttributes cattrs;
        getProperty(Heap::ArrayObject::LengthPropertyIndex, lp, &cattrs);
        if (attrs.isEmpty() || p->isSubset(attrs, lp, cattrs))
            return true;
        if (!cattrs.isWritable() || attrs.type() == PropertyAttributes::Accessor || attrs.isConfigurable() || attrs.isEnumerable())
            goto reject;
        bool succeeded = true;
        if (attrs.type() == PropertyAttributes::Data) {
            bool ok;
            uint l = p->value.asArrayLength(&ok);
            if (!ok) {
                ScopedValue v(scope, p->value);
                engine->throwRangeError(v);
                return false;
            }
            succeeded = setArrayLength(l);
        }
        if (attrs.hasWritable() && !attrs.isWritable()) {
            cattrs.setWritable(false);
            InternalClass::changeMember(this, engine->id_length(), cattrs);
        }
        if (!succeeded)
            goto reject;
        return true;
    }

    // Clause 1
    memberIndex = internalClass()->find(name->identifier());

    if (memberIndex == UINT_MAX) {
        // clause 3
        if (!isExtensible())
            goto reject;
        // clause 4
        ScopedProperty pd(scope);
        pd->copy(p, attrs);
        pd->fullyPopulated(&attrs);
        insertMember(name, pd, attrs);
        return true;
    }

    return __defineOwnProperty__(engine, memberIndex, name, p, attrs);
reject:
  if (engine->current->strictMode)
      engine->throwTypeError();
  return false;
}
示例#4
0
bool Object::internalPutIndexed(uint index, const Value &value)
{
    ExecutionEngine *engine = this->engine();
    if (engine->hasException)
        return false;

    PropertyAttributes attrs;

    ArrayData::Index arrayIndex = arrayData() ? arrayData()->getValueOrSetter(index, &attrs) : ArrayData::Index{ 0, 0 };

    if (arrayIndex.isNull() && isStringObject()) {
        if (index < static_cast<StringObject *>(this)->length())
            // not writable
            goto reject;
    }

    // clause 1
    if (!arrayIndex.isNull()) {
        if (attrs.isAccessor()) {
            if (arrayIndex->as<FunctionObject>())
                goto cont;
            goto reject;
        } else if (!attrs.isWritable())
            goto reject;

        arrayIndex.set(engine, value);
        return true;
    } else if (!prototype()) {
        if (!isExtensible())
            goto reject;
    } else {
        // clause 4
        Scope scope(engine);
        arrayIndex = ScopedObject(scope, prototype())->getValueOrSetter(index, &attrs);
        if (!arrayIndex.isNull()) {
            if (attrs.isAccessor()) {
                if (!arrayIndex->as<FunctionObject>())
                    goto reject;
            } else if (!isExtensible() || !attrs.isWritable()) {
                goto reject;
            }
        } else if (!isExtensible()) {
            goto reject;
        }
    }

    cont:

    // Clause 5
    if (!arrayIndex.isNull() && attrs.isAccessor()) {
        Q_ASSERT(arrayIndex->as<FunctionObject>());

        Scope scope(engine);
        ScopedFunctionObject setter(scope, *arrayIndex);
        ScopedCallData callData(scope, 1);
        callData->args[0] = value;
        callData->thisObject = this;
        setter->call(scope, callData);
        return !internalClass()->engine->hasException;
    }

    arraySet(index, value);
    return true;

  reject:
    // ### this should be removed once everything is ported to use Object::setIndexed()
    if (engine->current->strictMode)
        engine->throwTypeError();
    return false;
}
示例#5
0
// Section 8.12.5
bool Object::internalPut(String *name, const Value &value)
{
    ExecutionEngine *engine = this->engine();
    if (engine->hasException)
        return false;

    uint idx = name->asArrayIndex();
    if (idx != UINT_MAX)
        return putIndexed(idx, value);

    name->makeIdentifier();
    Identifier *id = name->identifier();

    MemberData::Index memberIndex{0, 0};
    uint member = internalClass()->find(id);
    PropertyAttributes attrs;
    if (member < UINT_MAX) {
        attrs = internalClass()->propertyData[member];
        memberIndex = d()->writablePropertyData(attrs.isAccessor() ? member + SetterOffset : member);
    }

    // clause 1
    if (!memberIndex.isNull()) {
        if (attrs.isAccessor()) {
            if (memberIndex->as<FunctionObject>())
                goto cont;
            goto reject;
        } else if (!attrs.isWritable())
            goto reject;
        else if (isArrayObject() && name->equals(engine->id_length())) {
            bool ok;
            uint l = value.asArrayLength(&ok);
            if (!ok) {
                engine->throwRangeError(value);
                return false;
            }
            ok = setArrayLength(l);
            if (!ok)
                goto reject;
        } else {
            memberIndex.set(engine, value);
        }
        return true;
    } else if (!prototype()) {
        if (!isExtensible())
            goto reject;
    } else {
        // clause 4
        Scope scope(engine);
        memberIndex = ScopedObject(scope, prototype())->getValueOrSetter(name, &attrs);
        if (!memberIndex.isNull()) {
            if (attrs.isAccessor()) {
                if (!memberIndex->as<FunctionObject>())
                    goto reject;
            } else if (!isExtensible() || !attrs.isWritable()) {
                goto reject;
            }
        } else if (!isExtensible()) {
            goto reject;
        }
    }

    cont:

    // Clause 5
    if (!memberIndex.isNull() && attrs.isAccessor()) {
        Q_ASSERT(memberIndex->as<FunctionObject>());

        Scope scope(engine);
        ScopedFunctionObject setter(scope, *memberIndex);
        ScopedCallData callData(scope, 1);
        callData->args[0] = value;
        callData->thisObject = this;
        setter->call(scope, callData);
        return !internalClass()->engine->hasException;
    }

    insertMember(name, value);
    return true;

  reject:
    // ### this should be removed once everything is ported to use Object::set()
    if (engine->current->strictMode) {
        QString message = QLatin1String("Cannot assign to read-only property \"") +
                name->toQString() + QLatin1Char('\"');
        engine->throwTypeError(message);
    }
    return false;
}
示例#6
0
bool Object::__defineOwnProperty__(ExecutionEngine *engine, uint index, String *member, const Property *p, PropertyAttributes attrs)
{
    // clause 5
    if (attrs.isEmpty())
        return true;

    Scope scope(engine);
    ScopedProperty current(scope);
    PropertyAttributes cattrs;
    if (member) {
        getProperty(index, current, &cattrs);
        cattrs = internalClass()->propertyData[index];
    } else if (arrayData()) {
        arrayData()->getProperty(index, current, &cattrs);
        cattrs = arrayData()->attributes(index);
    }

    // clause 6
    if (p->isSubset(attrs, current, cattrs))
        return true;

    // clause 7
    if (!cattrs.isConfigurable()) {
        if (attrs.isConfigurable())
            goto reject;
        if (attrs.hasEnumerable() && attrs.isEnumerable() != cattrs.isEnumerable())
            goto reject;
    }

    // clause 8
    if (attrs.isGeneric() || current->value.isEmpty())
        goto accept;

    // clause 9
    if (cattrs.isData() != attrs.isData()) {
        // 9a
        if (!cattrs.isConfigurable())
            goto reject;
        if (cattrs.isData()) {
            // 9b
            cattrs.setType(PropertyAttributes::Accessor);
            cattrs.clearWritable();
            if (!member) {
                // need to convert the array and the slot
                initSparseArray();
                Q_ASSERT(arrayData());
                setArrayAttributes(index, cattrs);
            }
            current->setGetter(0);
            current->setSetter(0);
        } else {
            // 9c
            cattrs.setType(PropertyAttributes::Data);
            cattrs.setWritable(false);
            if (!member) {
                // need to convert the array and the slot
                setArrayAttributes(index, cattrs);
            }
            current->value = Primitive::undefinedValue();
        }
    } else if (cattrs.isData() && attrs.isData()) { // clause 10
        if (!cattrs.isConfigurable() && !cattrs.isWritable()) {
            if (attrs.isWritable() || !current->value.sameValue(p->value))
                goto reject;
        }
    } else { // clause 10
        Q_ASSERT(cattrs.isAccessor() && attrs.isAccessor());
        if (!cattrs.isConfigurable()) {
            if (!p->value.isEmpty() && current->value.rawValue() != p->value.rawValue())
                goto reject;
            if (!p->set.isEmpty() && current->set.rawValue() != p->set.rawValue())
                goto reject;
        }
    }

  accept:

    current->merge(cattrs, p, attrs);
    if (member) {
        InternalClass::changeMember(this, member, cattrs);
        setProperty(index, current);
    } else {
        setArrayAttributes(index, cattrs);
        arrayData()->setProperty(scope.engine, index, current);
    }
    return true;
  reject:
    if (engine->current->strictMode)
        engine->throwTypeError();
    return false;
}
bool Object::__defineOwnProperty__(ExecutionContext *ctx, uint index, const StringRef member, const Property &p, PropertyAttributes attrs)
{
    // clause 5
    if (attrs.isEmpty())
        return true;

    Property *current;
    PropertyAttributes cattrs;
    if (!member.isNull()) {
        current = propertyAt(index);
        cattrs = internalClass->propertyData[index];
    } else {
        current = arrayData->getProperty(index);
        cattrs = arrayData->attributes(index);
    }

    // clause 6
    if (p.isSubset(attrs, *current, cattrs))
        return true;

    // clause 7
    if (!cattrs.isConfigurable()) {
        if (attrs.isConfigurable())
            goto reject;
        if (attrs.hasEnumerable() && attrs.isEnumerable() != cattrs.isEnumerable())
            goto reject;
    }

    // clause 8
    if (attrs.isGeneric() || current->value.isEmpty())
        goto accept;

    // clause 9
    if (cattrs.isData() != attrs.isData()) {
        // 9a
        if (!cattrs.isConfigurable())
            goto reject;
        if (cattrs.isData()) {
            // 9b
            cattrs.setType(PropertyAttributes::Accessor);
            cattrs.clearWritable();
            if (member.isNull()) {
                // need to convert the array and the slot
                initSparseArray();
                setArrayAttributes(index, cattrs);
                current = arrayData->getProperty(index);
            }
            current->setGetter(0);
            current->setSetter(0);
        } else {
            // 9c
            cattrs.setType(PropertyAttributes::Data);
            cattrs.setWritable(false);
            if (member.isNull()) {
                // need to convert the array and the slot
                setArrayAttributes(index, cattrs);
                current = arrayData->getProperty(index);
            }
            current->value = Primitive::undefinedValue();
        }
    } else if (cattrs.isData() && attrs.isData()) { // clause 10
        if (!cattrs.isConfigurable() && !cattrs.isWritable()) {
            if (attrs.isWritable() || !current->value.sameValue(p.value))
                goto reject;
        }
    } else { // clause 10
        Q_ASSERT(cattrs.isAccessor() && attrs.isAccessor());
        if (!cattrs.isConfigurable()) {
            if (!p.value.isEmpty() && current->value.val != p.value.val)
                goto reject;
            if (!p.set.isEmpty() && current->set.val != p.set.val)
                goto reject;
        }
    }

  accept:

    current->merge(cattrs, p, attrs);
    if (!member.isNull()) {
        InternalClass::changeMember(this, member.getPointer(), cattrs);
    } else {
        setArrayAttributes(index, cattrs);
    }
    if (cattrs.isAccessor())
        hasAccessorProperty = 1;
    return true;
  reject:
    if (ctx->strictMode)
        ctx->throwTypeError();
    return false;
}
// Section 8.12.9
bool Object::__defineOwnProperty__(ExecutionContext *ctx, const StringRef name, const Property &p, PropertyAttributes attrs)
{
    uint idx = name->asArrayIndex();
    if (idx != UINT_MAX)
        return __defineOwnProperty__(ctx, idx, p, attrs);

    name->makeIdentifier();

    Scope scope(ctx);
    Property *current;
    PropertyAttributes *cattrs;
    uint memberIndex;

    if (isArrayObject() && name->equals(ctx->engine->id_length)) {
        assert(ArrayObject::LengthPropertyIndex == internalClass->find(ctx->engine->id_length));
        Property *lp = propertyAt(ArrayObject::LengthPropertyIndex);
        cattrs = internalClass->propertyData.constData() + ArrayObject::LengthPropertyIndex;
        if (attrs.isEmpty() || p.isSubset(attrs, *lp, *cattrs))
            return true;
        if (!cattrs->isWritable() || attrs.type() == PropertyAttributes::Accessor || attrs.isConfigurable() || attrs.isEnumerable())
            goto reject;
        bool succeeded = true;
        if (attrs.type() == PropertyAttributes::Data) {
            bool ok;
            uint l = p.value.asArrayLength(&ok);
            if (!ok) {
                ScopedValue v(scope, p.value);
                ctx->throwRangeError(v);
                return false;
            }
            succeeded = setArrayLength(l);
        }
        if (attrs.hasWritable() && !attrs.isWritable())
            cattrs->setWritable(false);
        if (!succeeded)
            goto reject;
        if (attrs.isAccessor())
            hasAccessorProperty = 1;
        return true;
    }

    // Clause 1
    memberIndex = internalClass->find(name.getPointer());
    current = (memberIndex < UINT_MAX) ? propertyAt(memberIndex) : 0;
    cattrs = internalClass->propertyData.constData() + memberIndex;

    if (!current) {
        // clause 3
        if (!extensible)
            goto reject;
        // clause 4
        Property pd;
        pd.copy(p, attrs);
        pd.fullyPopulated(&attrs);
        insertMember(name, pd, attrs);
        return true;
    }

    return __defineOwnProperty__(ctx, memberIndex, name, p, attrs);
reject:
  if (ctx->strictMode)
      ctx->throwTypeError();
  return false;
}
void Object::internalPutIndexed(uint index, const ValueRef value)
{
    if (internalClass->engine->hasException)
        return;

    PropertyAttributes attrs;

    Property *pd = arrayData->getProperty(index);
    if (pd)
        attrs = arrayData->attributes(index);

    if (!pd && isStringObject()) {
        pd = static_cast<StringObject *>(this)->getIndex(index);
        if (pd)
            // not writable
            goto reject;
    }

    // clause 1
    if (pd) {
        if (attrs.isAccessor()) {
            if (pd->setter())
                goto cont;
            goto reject;
        } else if (!attrs.isWritable())
            goto reject;
        else
            pd->value = *value;
        return;
    } else if (!prototype()) {
        if (!extensible)
            goto reject;
    } else {
        // clause 4
        if ((pd = prototype()->__getPropertyDescriptor__(index, &attrs))) {
            if (attrs.isAccessor()) {
                if (!pd->setter())
                    goto reject;
            } else if (!extensible || !attrs.isWritable()) {
                goto reject;
            }
        } else if (!extensible) {
            goto reject;
        }
    }

    cont:

    // Clause 5
    if (pd && attrs.isAccessor()) {
        assert(pd->setter() != 0);

        Scope scope(engine());
        ScopedCallData callData(scope, 1);
        callData->args[0] = *value;
        callData->thisObject = this;
        pd->setter()->call(callData);
        return;
    }

    arraySet(index, value);
    return;

  reject:
    if (engine()->currentContext()->strictMode)
        engine()->currentContext()->throwTypeError();
}
// Section 8.12.5
void Object::internalPut(const StringRef name, const ValueRef value)
{
    if (internalClass->engine->hasException)
        return;

    uint idx = name->asArrayIndex();
    if (idx != UINT_MAX)
        return putIndexed(idx, value);

    name->makeIdentifier();

    uint member = internalClass->find(name.getPointer());
    Property *pd = 0;
    PropertyAttributes attrs;
    if (member < UINT_MAX) {
        pd = propertyAt(member);
        attrs = internalClass->propertyData[member];
    }

    // clause 1
    if (pd) {
        if (attrs.isAccessor()) {
            if (pd->setter())
                goto cont;
            goto reject;
        } else if (!attrs.isWritable())
            goto reject;
        else if (isArrayObject() && name->equals(engine()->id_length)) {
            bool ok;
            uint l = value->asArrayLength(&ok);
            if (!ok) {
                engine()->currentContext()->throwRangeError(value);
                return;
            }
            ok = setArrayLength(l);
            if (!ok)
                goto reject;
        } else {
            pd->value = *value;
        }
        return;
    } else if (!prototype()) {
        if (!extensible)
            goto reject;
    } else {
        // clause 4
        if ((pd = prototype()->__getPropertyDescriptor__(name, &attrs))) {
            if (attrs.isAccessor()) {
                if (!pd->setter())
                    goto reject;
            } else if (!extensible || !attrs.isWritable()) {
                goto reject;
            }
        } else if (!extensible) {
            goto reject;
        }
    }

    cont:

    // Clause 5
    if (pd && attrs.isAccessor()) {
        assert(pd->setter() != 0);

        Scope scope(engine());
        ScopedCallData callData(scope, 1);
        callData->args[0] = *value;
        callData->thisObject = this;
        pd->setter()->call(callData);
        return;
    }

    insertMember(name, value);
    return;

  reject:
    if (engine()->currentContext()->strictMode) {
        QString message = QStringLiteral("Cannot assign to read-only property \"");
        message += name->toQString();
        message += QLatin1Char('\"');
        engine()->currentContext()->throwTypeError(message);
    }
}