JSTestConditionallyReadWrite.cpp   [plain text]

/*
    This file is part of the WebKit open source project.
    This file has been generated by generate-bindings.pl. DO NOT MODIFY!

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Library General Public
    License as published by the Free Software Foundation; either
    version 2 of the License, or (at your option) any later version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public License
    along with this library; see the file COPYING.LIB.  If not, write to
    the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
    Boston, MA 02110-1301, USA.
*/

#include "config.h"
#include "JSTestConditionallyReadWrite.h"

#include "ActiveDOMObject.h"
#include "DOMIsoSubspaces.h"
#include "DOMPromiseProxy.h"
#include "Document.h"
#include "JSDOMAttribute.h"
#include "JSDOMBinding.h"
#include "JSDOMConstructorNotConstructable.h"
#include "JSDOMConvertInterface.h"
#include "JSDOMConvertNumbers.h"
#include "JSDOMConvertPromise.h"
#include "JSDOMExceptionHandling.h"
#include "JSDOMGlobalObject.h"
#include "JSDOMWrapperCache.h"
#include "JSNode.h"
#include "RuntimeEnabledFeatures.h"
#include "ScriptExecutionContext.h"
#include "WebCoreJSClientData.h"
#include <JavaScriptCore/FunctionPrototype.h>
#include <JavaScriptCore/HeapAnalyzer.h>
#include <JavaScriptCore/JSCInlines.h>
#include <JavaScriptCore/JSDestructibleObjectHeapCellType.h>
#include <JavaScriptCore/SubspaceInlines.h>
#include <wtf/GetPtr.h>
#include <wtf/PointerPreparations.h>
#include <wtf/URL.h>


namespace WebCore {
using namespace JSC;

// Attributes

static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWriteConstructor);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_conditionallyReadWriteAttribute);
#if ENABLE(CONDITION)
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_conditionallyReadWriteAttribute);
#endif
#if ENABLE(CONDITION2)
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute);
#if ENABLE(CONDITION)
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute);
#endif
#endif
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivate);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivate);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivate);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivate);
static JSC_DECLARE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise);
static JSC_DECLARE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise);

class JSTestConditionallyReadWritePrototype final : public JSC::JSNonFinalObject {
public:
    using Base = JSC::JSNonFinalObject;
    static JSTestConditionallyReadWritePrototype* create(JSC::VM& vm, JSDOMGlobalObject* globalObject, JSC::Structure* structure)
    {
        JSTestConditionallyReadWritePrototype* ptr = new (NotNull, JSC::allocateCell<JSTestConditionallyReadWritePrototype>(vm.heap)) JSTestConditionallyReadWritePrototype(vm, globalObject, structure);
        ptr->finishCreation(vm);
        return ptr;
    }

    DECLARE_INFO;
    template<typename CellType, JSC::SubspaceAccess>
    static JSC::IsoSubspace* subspaceFor(JSC::VM& vm)
    {
        STATIC_ASSERT_ISO_SUBSPACE_SHARABLE(JSTestConditionallyReadWritePrototype, Base);
        return &vm.plainObjectSpace;
    }
    static JSC::Structure* createStructure(JSC::VM& vm, JSC::JSGlobalObject* globalObject, JSC::JSValue prototype)
    {
        return JSC::Structure::create(vm, globalObject, prototype, JSC::TypeInfo(JSC::ObjectType, StructureFlags), info());
    }

private:
    JSTestConditionallyReadWritePrototype(JSC::VM& vm, JSC::JSGlobalObject*, JSC::Structure* structure)
        : JSC::JSNonFinalObject(vm, structure)
    {
    }

    void finishCreation(JSC::VM&);
};
STATIC_ASSERT_ISO_SUBSPACE_SHARABLE(JSTestConditionallyReadWritePrototype, JSTestConditionallyReadWritePrototype::Base);

using JSTestConditionallyReadWriteDOMConstructor = JSDOMConstructorNotConstructable<JSTestConditionallyReadWrite>;

/* Hash table */

static const struct CompactHashIndex JSTestConditionallyReadWriteTableIndex[8] = {
    { -1, -1 },
    { -1, -1 },
    { 1, -1 },
    { 0, -1 },
    { -1, -1 },
    { -1, -1 },
    { -1, -1 },
    { -1, -1 },
};


static const HashTableValue JSTestConditionallyReadWriteTableValues[] =
{
    { "runtimeConditionallyReadWriteAttributeUnforgeable", static_cast<unsigned>(JSC::PropertyAttribute::DontDelete | JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable) } },
    { "settingsConditionallyReadWriteAttributeUnforgeable", static_cast<unsigned>(JSC::PropertyAttribute::DontDelete | JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable) } },
};

static const HashTable JSTestConditionallyReadWriteTable = { 2, 7, true, JSTestConditionallyReadWrite::info(), JSTestConditionallyReadWriteTableValues, JSTestConditionallyReadWriteTableIndex };
template<> JSValue JSTestConditionallyReadWriteDOMConstructor::prototypeForStructure(JSC::VM& vm, const JSDOMGlobalObject& globalObject)
{
    UNUSED_PARAM(vm);
    return globalObject.functionPrototype();
}

template<> void JSTestConditionallyReadWriteDOMConstructor::initializeProperties(VM& vm, JSDOMGlobalObject& globalObject)
{
    putDirect(vm, vm.propertyNames->prototype, JSTestConditionallyReadWrite::prototype(vm, globalObject), JSC::PropertyAttribute::DontDelete | JSC::PropertyAttribute::ReadOnly | JSC::PropertyAttribute::DontEnum);
    putDirect(vm, vm.propertyNames->name, jsNontrivialString(vm, "TestConditionallyReadWrite"_s), JSC::PropertyAttribute::ReadOnly | JSC::PropertyAttribute::DontEnum);
    putDirect(vm, vm.propertyNames->length, jsNumber(0), JSC::PropertyAttribute::ReadOnly | JSC::PropertyAttribute::DontEnum);
}

template<> const ClassInfo JSTestConditionallyReadWriteDOMConstructor::s_info = { "TestConditionallyReadWrite", &Base::s_info, nullptr, nullptr, CREATE_METHOD_TABLE(JSTestConditionallyReadWriteDOMConstructor) };

/* Hash table for prototype */

static const HashTableValue JSTestConditionallyReadWritePrototypeTableValues[] =
{
    { "constructor", static_cast<unsigned>(JSC::PropertyAttribute::DontEnum), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWriteConstructor), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(0) } },
#if ENABLE(CONDITION)
    { "conditionallyReadWriteAttribute", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_conditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_conditionallyReadWriteAttribute) } },
#else
    { "conditionallyReadWriteAttribute", JSC::PropertyAttribute::ReadOnly | static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_conditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(0) } },
#endif
#if ENABLE(CONDITION2)
#if ENABLE(CONDITION)
    { "conditionalAndConditionallyReadWriteAttribute", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute) } },
#else
    { "conditionalAndConditionallyReadWriteAttribute", JSC::PropertyAttribute::ReadOnly | static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(0) } },
#endif
#else
    { 0, 0, NoIntrinsic, { 0, 0 } },
#endif
    { "runtimeConditionallyReadWriteAttribute", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute) } },
    { "runtimeConditionallyReadWriteAttributePromise", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise) } },
    { "settingsConditionallyReadWriteAttribute", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute) } },
    { "settingsConditionallyReadWriteAttributePromise", static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor), NoIntrinsic, { (intptr_t)static_cast<PropertySlot::GetValueFunc>(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise), (intptr_t) static_cast<PutPropertySlot::PutValueFunc>(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise) } },
};

const ClassInfo JSTestConditionallyReadWritePrototype::s_info = { "TestConditionallyReadWrite", &Base::s_info, nullptr, nullptr, CREATE_METHOD_TABLE(JSTestConditionallyReadWritePrototype) };

void JSTestConditionallyReadWritePrototype::finishCreation(VM& vm)
{
    Base::finishCreation(vm);
    reifyStaticProperties(vm, JSTestConditionallyReadWrite::info(), JSTestConditionallyReadWritePrototypeTableValues, *this);
    bool hasDisabledRuntimeProperties = false;
    if (!RuntimeEnabledFeatures::sharedFeatures().testFeatureEnabled()) {
        hasDisabledRuntimeProperties = true;
        auto propertyName = Identifier::fromString(vm, reinterpret_cast<const LChar*>("runtimeConditionallyReadWriteAttribute"), strlen("runtimeConditionallyReadWriteAttribute"));
        VM::DeletePropertyModeScope scope(vm, VM::DeletePropertyMode::IgnoreConfigurable);
        DeletePropertySlot slot;
        JSObject::deleteProperty(this, globalObject(), propertyName, slot);
    }
    if (!RuntimeEnabledFeatures::sharedFeatures().testFeatureEnabled()) {
        hasDisabledRuntimeProperties = true;
        auto propertyName = Identifier::fromString(vm, reinterpret_cast<const LChar*>("runtimeConditionallyReadWriteAttributePromise"), strlen("runtimeConditionallyReadWriteAttributePromise"));
        VM::DeletePropertyModeScope scope(vm, VM::DeletePropertyMode::IgnoreConfigurable);
        DeletePropertySlot slot;
        JSObject::deleteProperty(this, globalObject(), propertyName, slot);
    }
    if (!downcast<Document>(jsCast<JSDOMGlobalObject*>(globalObject())->scriptExecutionContext())->settingsValues().testFeatureEnabled) {
        hasDisabledRuntimeProperties = true;
        auto propertyName = Identifier::fromString(vm, reinterpret_cast<const LChar*>("settingsConditionallyReadWriteAttribute"), strlen("settingsConditionallyReadWriteAttribute"));
        VM::DeletePropertyModeScope scope(vm, VM::DeletePropertyMode::IgnoreConfigurable);
        DeletePropertySlot slot;
        JSObject::deleteProperty(this, globalObject(), propertyName, slot);
    }
    if (!downcast<Document>(jsCast<JSDOMGlobalObject*>(globalObject())->scriptExecutionContext())->settingsValues().testFeatureEnabled) {
        hasDisabledRuntimeProperties = true;
        auto propertyName = Identifier::fromString(vm, reinterpret_cast<const LChar*>("settingsConditionallyReadWriteAttributePromise"), strlen("settingsConditionallyReadWriteAttributePromise"));
        VM::DeletePropertyModeScope scope(vm, VM::DeletePropertyMode::IgnoreConfigurable);
        DeletePropertySlot slot;
        JSObject::deleteProperty(this, globalObject(), propertyName, slot);
    }
    // Adding back attribute, but as readonly, after removing the read-write variant above. 
    if (!RuntimeEnabledFeatures::sharedFeatures().testFeatureEnabled())
        putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().runtimeConditionallyReadWriteAttributePublicName(), JSC::DOMAttributeGetterSetter::create(vm, jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute, nullptr, JSC::DOMAttributeAnnotation { JSTestConditionallyReadWrite::info(), nullptr }), attributesForStructure(static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute)));
    // Adding back attribute, but as readonly, after removing the read-write variant above. 
    if (!RuntimeEnabledFeatures::sharedFeatures().testFeatureEnabled())
        putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().runtimeConditionallyReadWriteAttributePromisePublicName(), CustomGetterSetter::create(vm, jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise, nullptr), attributesForStructure(static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor)));
    // Adding back attribute, but as readonly, after removing the read-write variant above. 
    if (!downcast<Document>(jsCast<JSDOMGlobalObject*>(globalObject())->scriptExecutionContext())->settingsValues().testFeatureEnabled)
        putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().settingsConditionallyReadWriteAttributePublicName(), JSC::DOMAttributeGetterSetter::create(vm, jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute, nullptr, JSC::DOMAttributeAnnotation { JSTestConditionallyReadWrite::info(), nullptr }), attributesForStructure(static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor | JSC::PropertyAttribute::DOMAttribute)));
    // Adding back attribute, but as readonly, after removing the read-write variant above. 
    if (!downcast<Document>(jsCast<JSDOMGlobalObject*>(globalObject())->scriptExecutionContext())->settingsValues().testFeatureEnabled)
        putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().settingsConditionallyReadWriteAttributePromisePublicName(), CustomGetterSetter::create(vm, jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise, nullptr), attributesForStructure(static_cast<unsigned>(JSC::PropertyAttribute::CustomAccessor)));
    if (hasDisabledRuntimeProperties && structure()->isDictionary())
        flattenDictionaryObject(vm);
    JSC_TO_STRING_TAG_WITHOUT_TRANSITION();
}

const ClassInfo JSTestConditionallyReadWrite::s_info = { "TestConditionallyReadWrite", &Base::s_info, &JSTestConditionallyReadWriteTable, nullptr, CREATE_METHOD_TABLE(JSTestConditionallyReadWrite) };

JSTestConditionallyReadWrite::JSTestConditionallyReadWrite(Structure* structure, JSDOMGlobalObject& globalObject, Ref<TestConditionallyReadWrite>&& impl)
    : JSDOMWrapper<TestConditionallyReadWrite>(structure, globalObject, WTFMove(impl))
{
}

void JSTestConditionallyReadWrite::finishCreation(VM& vm)
{
    Base::finishCreation(vm);
    ASSERT(inherits(vm, info()));

    static_assert(!std::is_base_of<ActiveDOMObject, TestConditionallyReadWrite>::value, "Interface is not marked as [ActiveDOMObject] even though implementation class subclasses ActiveDOMObject.");

    putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().runtimeConditionallyReadWriteAttributeUnforgeablePrivatePrivateName(), CustomGetterSetter::create(vm, jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivate, nullptr), attributesForStructure(JSC::PropertyAttribute::DontDelete | JSC::PropertyAttribute::ReadOnly));
    putDirectCustomAccessor(vm, static_cast<JSVMClientData*>(vm.clientData)->builtinNames().settingsConditionallyReadWriteAttributeUnforgeablePrivatePrivateName(), CustomGetterSetter::create(vm, jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivate, nullptr), attributesForStructure(JSC::PropertyAttribute::DontDelete | JSC::PropertyAttribute::ReadOnly));
}

JSObject* JSTestConditionallyReadWrite::createPrototype(VM& vm, JSDOMGlobalObject& globalObject)
{
    return JSTestConditionallyReadWritePrototype::create(vm, &globalObject, JSTestConditionallyReadWritePrototype::createStructure(vm, &globalObject, globalObject.objectPrototype()));
}

JSObject* JSTestConditionallyReadWrite::prototype(VM& vm, JSDOMGlobalObject& globalObject)
{
    return getDOMPrototype<JSTestConditionallyReadWrite>(vm, globalObject);
}

JSValue JSTestConditionallyReadWrite::getConstructor(VM& vm, const JSGlobalObject* globalObject)
{
    return getDOMConstructor<JSTestConditionallyReadWriteDOMConstructor>(vm, *jsCast<const JSDOMGlobalObject*>(globalObject));
}

void JSTestConditionallyReadWrite::destroy(JSC::JSCell* cell)
{
    JSTestConditionallyReadWrite* thisObject = static_cast<JSTestConditionallyReadWrite*>(cell);
    thisObject->JSTestConditionallyReadWrite::~JSTestConditionallyReadWrite();
}

template<> inline JSTestConditionallyReadWrite* IDLAttribute<JSTestConditionallyReadWrite>::cast(JSGlobalObject& lexicalGlobalObject, EncodedJSValue thisValue)
{
    return jsDynamicCast<JSTestConditionallyReadWrite*>(JSC::getVM(&lexicalGlobalObject), JSValue::decode(thisValue));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWriteConstructor, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    VM& vm = JSC::getVM(lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto* prototype = jsDynamicCast<JSTestConditionallyReadWritePrototype*>(vm, JSValue::decode(thisValue));
    if (UNLIKELY(!prototype))
        return throwVMTypeError(lexicalGlobalObject, throwScope);
    return JSValue::encode(JSTestConditionallyReadWrite::getConstructor(JSC::getVM(lexicalGlobalObject), prototype->globalObject()));
}

static inline JSValue jsTestConditionallyReadWrite_conditionallyReadWriteAttributeGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.conditionallyReadWriteAttribute())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_conditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_conditionallyReadWriteAttributeGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "conditionallyReadWriteAttribute");
}

#if ENABLE(CONDITION)
static inline bool setJSTestConditionallyReadWrite_conditionallyReadWriteAttributeSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "conditionallyReadWriteAttribute", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setConditionallyReadWriteAttribute(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_conditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_conditionallyReadWriteAttributeSetter>(*lexicalGlobalObject, thisValue, encodedValue, "conditionallyReadWriteAttribute");
}

#endif

#if ENABLE(CONDITION2)
static inline JSValue jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttributeGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.conditionalAndConditionallyReadWriteAttribute())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttributeGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "conditionalAndConditionallyReadWriteAttribute");
}

#endif

#if ENABLE(CONDITION2)
#if ENABLE(CONDITION)
static inline bool setJSTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttributeSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "conditionalAndConditionallyReadWriteAttribute", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setConditionalAndConditionallyReadWriteAttribute(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_conditionalAndConditionallyReadWriteAttributeSetter>(*lexicalGlobalObject, thisValue, encodedValue, "conditionalAndConditionallyReadWriteAttribute");
}

#endif

#endif

static inline JSValue jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.runtimeConditionallyReadWriteAttribute())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "runtimeConditionallyReadWriteAttribute");
}

static inline bool setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "runtimeConditionallyReadWriteAttribute", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setRuntimeConditionallyReadWriteAttribute(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeSetter>(*lexicalGlobalObject, thisValue, encodedValue, "runtimeConditionallyReadWriteAttribute");
}

static inline JSValue jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeableGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.runtimeConditionallyReadWriteAttributeUnforgeable())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeableGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "runtimeConditionallyReadWriteAttributeUnforgeable");
}

static inline bool setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeableSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "runtimeConditionallyReadWriteAttributeUnforgeable", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setRuntimeConditionallyReadWriteAttributeUnforgeable(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeable, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeableSetter>(*lexicalGlobalObject, thisValue, encodedValue, "runtimeConditionallyReadWriteAttributeUnforgeable");
}

static inline JSValue jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivateGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.runtimeConditionallyReadWriteAttributeUnforgeablePrivate())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivate, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivateGetter>(*lexicalGlobalObject, thisValue, "runtimeConditionallyReadWriteAttributeUnforgeablePrivate");
}

static inline bool setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivateSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "runtimeConditionallyReadWriteAttributeUnforgeablePrivate", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setRuntimeConditionallyReadWriteAttributeUnforgeablePrivate(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivate, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributeUnforgeablePrivateSetter>(*lexicalGlobalObject, thisValue, encodedValue, "runtimeConditionallyReadWriteAttributeUnforgeablePrivate");
}

static inline JSValue jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromiseGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLPromise<IDLDouble>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.runtimeConditionallyReadWriteAttributePromise())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromiseGetter, CastedThisErrorBehavior::RejectPromise>(*lexicalGlobalObject, thisValue, "runtimeConditionallyReadWriteAttributePromise");
}

static inline bool setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromiseSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLPromise<IDLDouble>>(lexicalGlobalObject, value);
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setRuntimeConditionallyReadWriteAttributePromise(nativeValue.releaseNonNull());
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromise, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_runtimeConditionallyReadWriteAttributePromiseSetter>(*lexicalGlobalObject, thisValue, encodedValue, "runtimeConditionallyReadWriteAttributePromise");
}

static inline JSValue jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.settingsConditionallyReadWriteAttribute())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "settingsConditionallyReadWriteAttribute");
}

static inline bool setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "settingsConditionallyReadWriteAttribute", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setSettingsConditionallyReadWriteAttribute(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttribute, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeSetter>(*lexicalGlobalObject, thisValue, encodedValue, "settingsConditionallyReadWriteAttribute");
}

static inline JSValue jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeableGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.settingsConditionallyReadWriteAttributeUnforgeable())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeableGetter, CastedThisErrorBehavior::Assert>(*lexicalGlobalObject, thisValue, "settingsConditionallyReadWriteAttributeUnforgeable");
}

static inline bool setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeableSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "settingsConditionallyReadWriteAttributeUnforgeable", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setSettingsConditionallyReadWriteAttributeUnforgeable(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeable, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeableSetter>(*lexicalGlobalObject, thisValue, encodedValue, "settingsConditionallyReadWriteAttributeUnforgeable");
}

static inline JSValue jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivateGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLInterface<Node>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.settingsConditionallyReadWriteAttributeUnforgeablePrivate())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivate, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivateGetter>(*lexicalGlobalObject, thisValue, "settingsConditionallyReadWriteAttributeUnforgeablePrivate");
}

static inline bool setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivateSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLInterface<Node>>(lexicalGlobalObject, value, [](JSC::JSGlobalObject& lexicalGlobalObject, JSC::ThrowScope& scope) { throwAttributeTypeError(lexicalGlobalObject, scope, "TestConditionallyReadWrite", "settingsConditionallyReadWriteAttributeUnforgeablePrivate", "Node"); });
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setSettingsConditionallyReadWriteAttributeUnforgeablePrivate(*nativeValue);
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivate, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributeUnforgeablePrivateSetter>(*lexicalGlobalObject, thisValue, encodedValue, "settingsConditionallyReadWriteAttributeUnforgeablePrivate");
}

static inline JSValue jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromiseGetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    RELEASE_AND_RETURN(throwScope, (toJS<IDLPromise<IDLDouble>>(lexicalGlobalObject, *thisObject.globalObject(), throwScope, impl.settingsConditionallyReadWriteAttributePromise())));
}

JSC_DEFINE_CUSTOM_GETTER(jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, PropertyName))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::get<jsTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromiseGetter, CastedThisErrorBehavior::RejectPromise>(*lexicalGlobalObject, thisValue, "settingsConditionallyReadWriteAttributePromise");
}

static inline bool setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromiseSetter(JSGlobalObject& lexicalGlobalObject, JSTestConditionallyReadWrite& thisObject, JSValue value)
{
    auto& vm = JSC::getVM(&lexicalGlobalObject);
    auto throwScope = DECLARE_THROW_SCOPE(vm);
    auto& impl = thisObject.wrapped();
    auto nativeValue = convert<IDLPromise<IDLDouble>>(lexicalGlobalObject, value);
    RETURN_IF_EXCEPTION(throwScope, false);
    AttributeSetter::call(lexicalGlobalObject, throwScope, [&] {
        return impl.setSettingsConditionallyReadWriteAttributePromise(nativeValue.releaseNonNull());
    });
    return true;
}

JSC_DEFINE_CUSTOM_SETTER(setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromise, (JSGlobalObject* lexicalGlobalObject, EncodedJSValue thisValue, EncodedJSValue encodedValue))
{
    return IDLAttribute<JSTestConditionallyReadWrite>::set<setJSTestConditionallyReadWrite_settingsConditionallyReadWriteAttributePromiseSetter>(*lexicalGlobalObject, thisValue, encodedValue, "settingsConditionallyReadWriteAttributePromise");
}

JSC::IsoSubspace* JSTestConditionallyReadWrite::subspaceForImpl(JSC::VM& vm)
{
    auto& clientData = *static_cast<JSVMClientData*>(vm.clientData);
    auto& spaces = clientData.subspaces();
    if (auto* space = spaces.m_subspaceForTestConditionallyReadWrite.get())
        return space;
    static_assert(std::is_base_of_v<JSC::JSDestructibleObject, JSTestConditionallyReadWrite> || !JSTestConditionallyReadWrite::needsDestruction);
    if constexpr (std::is_base_of_v<JSC::JSDestructibleObject, JSTestConditionallyReadWrite>)
        spaces.m_subspaceForTestConditionallyReadWrite = makeUnique<IsoSubspace> ISO_SUBSPACE_INIT(vm.heap, vm.destructibleObjectHeapCellType.get(), JSTestConditionallyReadWrite);
    else
        spaces.m_subspaceForTestConditionallyReadWrite = makeUnique<IsoSubspace> ISO_SUBSPACE_INIT(vm.heap, vm.cellHeapCellType.get(), JSTestConditionallyReadWrite);
    auto* space = spaces.m_subspaceForTestConditionallyReadWrite.get();
IGNORE_WARNINGS_BEGIN("unreachable-code")
IGNORE_WARNINGS_BEGIN("tautological-compare")
    if (&JSTestConditionallyReadWrite::visitOutputConstraints != &JSC::JSCell::visitOutputConstraints)
        clientData.outputConstraintSpaces().append(space);
IGNORE_WARNINGS_END
IGNORE_WARNINGS_END
    return space;
}

void JSTestConditionallyReadWrite::analyzeHeap(JSCell* cell, HeapAnalyzer& analyzer)
{
    auto* thisObject = jsCast<JSTestConditionallyReadWrite*>(cell);
    analyzer.setWrappedObjectForCell(cell, &thisObject->wrapped());
    if (thisObject->scriptExecutionContext())
        analyzer.setLabelForCell(cell, "url " + thisObject->scriptExecutionContext()->url().string());
    Base::analyzeHeap(cell, analyzer);
}

bool JSTestConditionallyReadWriteOwner::isReachableFromOpaqueRoots(JSC::Handle<JSC::Unknown> handle, void*, SlotVisitor& visitor, const char** reason)
{
    UNUSED_PARAM(handle);
    UNUSED_PARAM(visitor);
    UNUSED_PARAM(reason);
    return false;
}

void JSTestConditionallyReadWriteOwner::finalize(JSC::Handle<JSC::Unknown> handle, void* context)
{
    auto* jsTestConditionallyReadWrite = static_cast<JSTestConditionallyReadWrite*>(handle.slot()->asCell());
    auto& world = *static_cast<DOMWrapperWorld*>(context);
    uncacheWrapper(world, &jsTestConditionallyReadWrite->wrapped(), jsTestConditionallyReadWrite);
}

#if ENABLE(BINDING_INTEGRITY)
#if PLATFORM(WIN)
#pragma warning(disable: 4483)
extern "C" { extern void (*const __identifier("??_7TestConditionallyReadWrite@WebCore@@6B@")[])(); }
#else
extern "C" { extern void* _ZTVN7WebCore26TestConditionallyReadWriteE[]; }
#endif
#endif

JSC::JSValue toJSNewlyCreated(JSC::JSGlobalObject*, JSDOMGlobalObject* globalObject, Ref<TestConditionallyReadWrite>&& impl)
{

#if ENABLE(BINDING_INTEGRITY)
    const void* actualVTablePointer = getVTablePointer(impl.ptr());
#if PLATFORM(WIN)
    void* expectedVTablePointer = __identifier("??_7TestConditionallyReadWrite@WebCore@@6B@");
#else
    void* expectedVTablePointer = &_ZTVN7WebCore26TestConditionallyReadWriteE[2];
#endif

    // If this fails TestConditionallyReadWrite does not have a vtable, so you need to add the
    // ImplementationLacksVTable attribute to the interface definition
    static_assert(std::is_polymorphic<TestConditionallyReadWrite>::value, "TestConditionallyReadWrite is not polymorphic");

    // If you hit this assertion you either have a use after free bug, or
    // TestConditionallyReadWrite has subclasses. If TestConditionallyReadWrite has subclasses that get passed
    // to toJS() we currently require TestConditionallyReadWrite you to opt out of binding hardening
    // by adding the SkipVTableValidation attribute to the interface IDL definition
    RELEASE_ASSERT(actualVTablePointer == expectedVTablePointer);
#endif
    return createWrapper<TestConditionallyReadWrite>(globalObject, WTFMove(impl));
}

JSC::JSValue toJS(JSC::JSGlobalObject* lexicalGlobalObject, JSDOMGlobalObject* globalObject, TestConditionallyReadWrite& impl)
{
    return wrap(lexicalGlobalObject, globalObject, impl);
}

TestConditionallyReadWrite* JSTestConditionallyReadWrite::toWrapped(JSC::VM& vm, JSC::JSValue value)
{
    if (auto* wrapper = jsDynamicCast<JSTestConditionallyReadWrite*>(vm, value))
        return &wrapper->wrapped();
    return nullptr;
}

}