topical media & game development
#mobile-application-10-DerbyApp-build-iphone-headers-TiCore-TiCallbackObjectFunctions.h / h
Appcelerator Titanium License
This source code and all modifications done by Appcelerator
are licensed under the Apache Public License (version 2) and
are Copyright (c) 2009 by Appcelerator, Inc.
/*
* Copyright (C) 2006, 2008 Apple Inc. All rights reserved.
* Copyright (C) 2007 Eric Seidel <eric@webkit.org>
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
include <APICast.h>
include <Error.h>
include <TiCallbackFunction.h>
include <TiClassRef.h>
include <TiGlobalObject.h>
include <TiLock.h>
include <TiObjectRef.h>
include <TiString.h>
include <TiStringRef.h>
include <OpaqueTiString.h>
include <PropertyNameArray.h>
include <wtf/Vector.h>
namespace TI {
template <class Base>
inline TiCallbackObject<Base>* TiCallbackObject<Base>::asCallbackObject(TiValue value)
{
ASSERT(asObject(value)->inherits(&info));
return static_cast<TiCallbackObject*>(asObject(value));
}
template <class Base>
TiCallbackObject<Base>::TiCallbackObject(TiExcState* exec, NonNullPassRefPtr<Structure> structure, TiClassRef jsClass, void* data)
: Base(structure)
, m_callbackObjectData(new TiCallbackObjectData(data, jsClass))
{
init(exec);
}
// Global object constructor.
// FIXME: Move this into a separate TiGlobalCallbackObject class derived from this one.
template <class Base>
TiCallbackObject<Base>::TiCallbackObject(TiClassRef jsClass)
: Base()
, m_callbackObjectData(new TiCallbackObjectData(0, jsClass))
{
ASSERT(Base::isGlobalObject());
init(static_cast<TiGlobalObject*>(this)->globalExec());
}
template <class Base>
void TiCallbackObject<Base>::init(TiExcState* exec)
{
ASSERT(exec);
Vector<TiObjectInitializeCallback, 16> initRoutines;
TiClassRef jsClass = classRef();
do {
if (TiObjectInitializeCallback initialize = jsClass->initialize)
initRoutines.append(initialize);
} while ((jsClass = jsClass->parentClass));
// initialize from base to derived
for (int i = static_cast<int>(initRoutines.size()) - 1; i >= 0; i--) {
TiLock::DropAllLocks dropAllLocks(exec);
TiObjectInitializeCallback initialize = initRoutines[i];
initialize(toRef(exec), toRef(this));
}
}
template <class Base>
TiCallbackObject<Base>::~TiCallbackObject()
{
TiObjectRef thisRef = toRef(this);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass)
if (TiObjectFinalizeCallback finalize = jsClass->finalize)
finalize(thisRef);
}
template <class Base>
UString TiCallbackObject<Base>::className() const
{
UString thisClassName = classRef()->className();
if (!thisClassName.isEmpty())
return thisClassName;
return Base::className();
}
template <class Base>
bool TiCallbackObject<Base>::getOwnPropertySlot(TiExcState* exec, const Identifier& propertyName, PropertySlot& slot)
{
TiContextRef ctx = toRef(exec);
TiObjectRef thisRef = toRef(this);
RefPtr<OpaqueTiString> propertyNameRef;
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
// optional optimization to bypass getProperty in cases when we only need to know if the property exists
if (TiObjectHasPropertyCallback hasProperty = jsClass->hasProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiLock::DropAllLocks dropAllLocks(exec);
if (hasProperty(ctx, thisRef, propertyNameRef.get())) {
slot.setCustom(this, callbackGetter);
return true;
}
} else if (TiObjectGetPropertyCallback getProperty = jsClass->getProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
TiValueRef value;
{
TiLock::DropAllLocks dropAllLocks(exec);
value = getProperty(ctx, thisRef, propertyNameRef.get(), &exception);
}
exec->setException(toJS(exec, exception));
if (value) {
slot.setValue(toJS(exec, value));
return true;
}
if (exception) {
slot.setValue(jsUndefined());
return true;
}
}
if (OpaqueTiClassStaticValuesTable* staticValues = jsClass->staticValues(exec)) {
if (staticValues->contains(propertyName.ustring().rep())) {
slot.setCustom(this, staticValueGetter);
return true;
}
}
if (OpaqueTiClassStaticFunctionsTable* staticFunctions = jsClass->staticFunctions(exec)) {
if (staticFunctions->contains(propertyName.ustring().rep())) {
slot.setCustom(this, staticFunctionGetter);
return true;
}
}
}
return Base::getOwnPropertySlot(exec, propertyName, slot);
}
template <class Base>
bool TiCallbackObject<Base>::getOwnPropertySlot(TiExcState* exec, unsigned propertyName, PropertySlot& slot)
{
return getOwnPropertySlot(exec, Identifier::from(exec, propertyName), slot);
}
template <class Base>
void TiCallbackObject<Base>::put(TiExcState* exec, const Identifier& propertyName, TiValue value, PutPropertySlot& slot)
{
TiContextRef ctx = toRef(exec);
TiObjectRef thisRef = toRef(this);
RefPtr<OpaqueTiString> propertyNameRef;
TiValueRef valueRef = toRef(exec, value);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectSetPropertyCallback setProperty = jsClass->setProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
bool result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = setProperty(ctx, thisRef, propertyNameRef.get(), valueRef, &exception);
}
exec->setException(toJS(exec, exception));
if (result || exception)
return;
}
if (OpaqueTiClassStaticValuesTable* staticValues = jsClass->staticValues(exec)) {
if (StaticValueEntry* entry = staticValues->get(propertyName.ustring().rep())) {
if (entry->attributes & kTiPropertyAttributeReadOnly)
return;
if (TiObjectSetPropertyCallback setProperty = entry->setProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
bool result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = setProperty(ctx, thisRef, propertyNameRef.get(), valueRef, &exception);
}
exec->setException(toJS(exec, exception));
if (result || exception)
return;
} else
throwError(exec, ReferenceError, "Attempt to set a property that is not settable.");
}
}
if (OpaqueTiClassStaticFunctionsTable* staticFunctions = jsClass->staticFunctions(exec)) {
if (StaticFunctionEntry* entry = staticFunctions->get(propertyName.ustring().rep())) {
if (entry->attributes & kTiPropertyAttributeReadOnly)
return;
TiCallbackObject<Base>::putDirect(propertyName, value); // put as override property
return;
}
}
}
return Base::put(exec, propertyName, value, slot);
}
template <class Base>
bool TiCallbackObject<Base>::deleteProperty(TiExcState* exec, const Identifier& propertyName)
{
TiContextRef ctx = toRef(exec);
TiObjectRef thisRef = toRef(this);
RefPtr<OpaqueTiString> propertyNameRef;
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectDeletePropertyCallback deleteProperty = jsClass->deleteProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
bool result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = deleteProperty(ctx, thisRef, propertyNameRef.get(), &exception);
}
exec->setException(toJS(exec, exception));
if (result || exception)
return true;
}
if (OpaqueTiClassStaticValuesTable* staticValues = jsClass->staticValues(exec)) {
if (StaticValueEntry* entry = staticValues->get(propertyName.ustring().rep())) {
if (entry->attributes & kTiPropertyAttributeDontDelete)
return false;
return true;
}
}
if (OpaqueTiClassStaticFunctionsTable* staticFunctions = jsClass->staticFunctions(exec)) {
if (StaticFunctionEntry* entry = staticFunctions->get(propertyName.ustring().rep())) {
if (entry->attributes & kTiPropertyAttributeDontDelete)
return false;
return true;
}
}
}
return Base::deleteProperty(exec, propertyName);
}
template <class Base>
bool TiCallbackObject<Base>::deleteProperty(TiExcState* exec, unsigned propertyName)
{
return deleteProperty(exec, Identifier::from(exec, propertyName));
}
template <class Base>
ConstructType TiCallbackObject<Base>::getConstructData(ConstructData& constructData)
{
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (jsClass->callAsConstructor) {
constructData.native.function = construct;
return ConstructTypeHost;
}
}
return ConstructTypeNone;
}
template <class Base>
TiObject* TiCallbackObject<Base>::construct(TiExcState* exec, TiObject* constructor, const ArgList& args)
{
TiContextRef execRef = toRef(exec);
TiObjectRef constructorRef = toRef(constructor);
for (TiClassRef jsClass = static_cast<TiCallbackObject<Base>*>(constructor)->classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectCallAsConstructorCallback callAsConstructor = jsClass->callAsConstructor) {
int argumentCount = static_cast<int>(args.size());
Vector<TiValueRef, 16> arguments(argumentCount);
for (int i = 0; i < argumentCount; i++)
arguments[i] = toRef(exec, args.at(i));
TiValueRef exception = 0;
TiObject* result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = toJS(callAsConstructor(execRef, constructorRef, argumentCount, arguments.data(), &exception));
}
exec->setException(toJS(exec, exception));
return result;
}
}
ASSERT_NOT_REACHED(); // getConstructData should prevent us from reaching here
return 0;
}
template <class Base>
bool TiCallbackObject<Base>::hasInstance(TiExcState* exec, TiValue value, TiValue)
{
TiContextRef execRef = toRef(exec);
TiObjectRef thisRef = toRef(this);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectHasInstanceCallback hasInstance = jsClass->hasInstance) {
TiValueRef valueRef = toRef(exec, value);
TiValueRef exception = 0;
bool result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = hasInstance(execRef, thisRef, valueRef, &exception);
}
exec->setException(toJS(exec, exception));
return result;
}
}
return false;
}
template <class Base>
CallType TiCallbackObject<Base>::getCallData(CallData& callData)
{
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (jsClass->callAsFunction) {
callData.native.function = call;
return CallTypeHost;
}
}
return CallTypeNone;
}
template <class Base>
TiValue TiCallbackObject<Base>::call(TiExcState* exec, TiObject* functionObject, TiValue thisValue, const ArgList& args)
{
TiContextRef execRef = toRef(exec);
TiObjectRef functionRef = toRef(functionObject);
TiObjectRef thisObjRef = toRef(thisValue.toThisObject(exec));
for (TiClassRef jsClass = static_cast<TiCallbackObject<Base>*>(functionObject)->classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectCallAsFunctionCallback callAsFunction = jsClass->callAsFunction) {
int argumentCount = static_cast<int>(args.size());
Vector<TiValueRef, 16> arguments(argumentCount);
for (int i = 0; i < argumentCount; i++)
arguments[i] = toRef(exec, args.at(i));
TiValueRef exception = 0;
TiValue result;
{
TiLock::DropAllLocks dropAllLocks(exec);
result = toJS(exec, callAsFunction(execRef, functionRef, thisObjRef, argumentCount, arguments.data(), &exception));
}
exec->setException(toJS(exec, exception));
return result;
}
}
ASSERT_NOT_REACHED(); // getCallData should prevent us from reaching here
return TiValue();
}
template <class Base>
void TiCallbackObject<Base>::getOwnPropertyNames(TiExcState* exec, PropertyNameArray& propertyNames)
{
TiContextRef execRef = toRef(exec);
TiObjectRef thisRef = toRef(this);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass) {
if (TiObjectGetPropertyNamesCallback getPropertyNames = jsClass->getPropertyNames) {
TiLock::DropAllLocks dropAllLocks(exec);
getPropertyNames(execRef, thisRef, toRef(&propertyNames));
}
if (OpaqueTiClassStaticValuesTable* staticValues = jsClass->staticValues(exec)) {
typedef OpaqueTiClassStaticValuesTable::const_iterator iterator;
iterator end = staticValues->end();
for (iterator it = staticValues->begin(); it != end; ++it) {
UString::Rep* name = it->first.get();
StaticValueEntry* entry = it->second;
if (entry->getProperty && !(entry->attributes & kTiPropertyAttributeDontEnum))
propertyNames.add(Identifier(exec, name));
}
}
if (OpaqueTiClassStaticFunctionsTable* staticFunctions = jsClass->staticFunctions(exec)) {
typedef OpaqueTiClassStaticFunctionsTable::const_iterator iterator;
iterator end = staticFunctions->end();
for (iterator it = staticFunctions->begin(); it != end; ++it) {
UString::Rep* name = it->first.get();
StaticFunctionEntry* entry = it->second;
if (!(entry->attributes & kTiPropertyAttributeDontEnum))
propertyNames.add(Identifier(exec, name));
}
}
}
Base::getOwnPropertyNames(exec, propertyNames);
}
template <class Base>
double TiCallbackObject<Base>::toNumber(TiExcState* exec) const
{
// We need this check to guard against the case where this object is rhs of
// a binary expression where lhs threw an exception in its conversion to
// primitive
if (exec->hadException())
return NaN;
TiContextRef ctx = toRef(exec);
TiObjectRef thisRef = toRef(this);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass)
if (TiObjectConvertToTypeCallback convertToType = jsClass->convertToType) {
TiValueRef exception = 0;
TiValueRef value;
{
TiLock::DropAllLocks dropAllLocks(exec);
value = convertToType(ctx, thisRef, kTITypeNumber, &exception);
}
if (exception) {
exec->setException(toJS(exec, exception));
return 0;
}
double dValue;
return toJS(exec, value).getNumber(dValue) ? dValue : NaN;
}
return Base::toNumber(exec);
}
template <class Base>
UString TiCallbackObject<Base>::toString(TiExcState* exec) const
{
TiContextRef ctx = toRef(exec);
TiObjectRef thisRef = toRef(this);
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass)
if (TiObjectConvertToTypeCallback convertToType = jsClass->convertToType) {
TiValueRef exception = 0;
TiValueRef value;
{
TiLock::DropAllLocks dropAllLocks(exec);
value = convertToType(ctx, thisRef, kTITypeString, &exception);
}
if (exception) {
exec->setException(toJS(exec, exception));
return "";
}
return toJS(exec, value).getString();
}
return Base::toString(exec);
}
template <class Base>
void TiCallbackObject<Base>::setPrivate(void* data)
{
m_callbackObjectData->privateData = data;
}
template <class Base>
void* TiCallbackObject<Base>::getPrivate()
{
return m_callbackObjectData->privateData;
}
template <class Base>
bool TiCallbackObject<Base>::inherits(TiClassRef c) const
{
for (TiClassRef jsClass = classRef(); jsClass; jsClass = jsClass->parentClass)
if (jsClass == c)
return true;
return false;
}
template <class Base>
TiValue TiCallbackObject<Base>::staticValueGetter(TiExcState* exec, const Identifier& propertyName, const PropertySlot& slot)
{
TiCallbackObject* thisObj = asCallbackObject(slot.slotBase());
TiObjectRef thisRef = toRef(thisObj);
RefPtr<OpaqueTiString> propertyNameRef;
for (TiClassRef jsClass = thisObj->classRef(); jsClass; jsClass = jsClass->parentClass)
if (OpaqueTiClassStaticValuesTable* staticValues = jsClass->staticValues(exec))
if (StaticValueEntry* entry = staticValues->get(propertyName.ustring().rep()))
if (TiObjectGetPropertyCallback getProperty = entry->getProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
TiValueRef value;
{
TiLock::DropAllLocks dropAllLocks(exec);
value = getProperty(toRef(exec), thisRef, propertyNameRef.get(), &exception);
}
exec->setException(toJS(exec, exception));
if (value)
return toJS(exec, value);
if (exception)
return jsUndefined();
}
return throwError(exec, ReferenceError, "Static value property defined with NULL getProperty callback.");
}
template <class Base>
TiValue TiCallbackObject<Base>::staticFunctionGetter(TiExcState* exec, const Identifier& propertyName, const PropertySlot& slot)
{
TiCallbackObject* thisObj = asCallbackObject(slot.slotBase());
// Check for cached or override property.
PropertySlot slot2(thisObj);
if (thisObj->Base::getOwnPropertySlot(exec, propertyName, slot2))
return slot2.getValue(exec, propertyName);
for (TiClassRef jsClass = thisObj->classRef(); jsClass; jsClass = jsClass->parentClass) {
if (OpaqueTiClassStaticFunctionsTable* staticFunctions = jsClass->staticFunctions(exec)) {
if (StaticFunctionEntry* entry = staticFunctions->get(propertyName.ustring().rep())) {
if (TiObjectCallAsFunctionCallback callAsFunction = entry->callAsFunction) {
TiObject* o = new (exec) TiCallbackFunction(exec, callAsFunction, propertyName);
thisObj->putDirect(propertyName, o, entry->attributes);
return o;
}
}
}
}
return throwError(exec, ReferenceError, "Static function property defined with NULL callAsFunction callback.");
}
template <class Base>
TiValue TiCallbackObject<Base>::callbackGetter(TiExcState* exec, const Identifier& propertyName, const PropertySlot& slot)
{
TiCallbackObject* thisObj = asCallbackObject(slot.slotBase());
TiObjectRef thisRef = toRef(thisObj);
RefPtr<OpaqueTiString> propertyNameRef;
for (TiClassRef jsClass = thisObj->classRef(); jsClass; jsClass = jsClass->parentClass)
if (TiObjectGetPropertyCallback getProperty = jsClass->getProperty) {
if (!propertyNameRef)
propertyNameRef = OpaqueTiString::create(propertyName.ustring());
TiValueRef exception = 0;
TiValueRef value;
{
TiLock::DropAllLocks dropAllLocks(exec);
value = getProperty(toRef(exec), thisRef, propertyNameRef.get(), &exception);
}
exec->setException(toJS(exec, exception));
if (value)
return toJS(exec, value);
if (exception)
return jsUndefined();
}
return throwError(exec, ReferenceError, "hasProperty callback returned true for a property that doesn't exist.");
}
} // namespace TI
(C) Æliens
04/09/2009
You may not copy or print any of this material without explicit permission of the author or the publisher.
In case of other copyright issues, contact the author.
