// Copyright 2012 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
(function(global, utils) {
"use strict";
%CheckIsBootstrapping();
// -------------------------------------------------------------------
// Imports
var GetHash;
var GlobalArray = global.Array;
var GlobalObject = global.Object;
var InternalArray = utils.InternalArray;
var MakeTypeError;
utils.Import(function(from) {
GetHash = from.GetHash;
MakeTypeError = from.MakeTypeError;
});
// -------------------------------------------------------------------
// Overview:
//
// This file contains all of the routing and accounting for Object.observe.
// User code will interact with these mechanisms via the Object.observe APIs
// and, as a side effect of mutation objects which are observed. The V8 runtime
// (both C++ and JS) will interact with these mechanisms primarily by enqueuing
// proper change records for objects which were mutated. The Object.observe
// routing and accounting consists primarily of three participants
//
// 1) ObjectInfo. This represents the observed state of a given object. It
// records what callbacks are observing the object, with what options, and
// what "change types" are in progress on the object (i.e. via
// notifier.performChange).
//
// 2) CallbackInfo. This represents a callback used for observation. It holds
// the records which must be delivered to the callback, as well as the global
// priority of the callback (which determines delivery order between
// callbacks).
//
// 3) observationState.pendingObservers. This is the set of observers which
// have change records which must be delivered. During "normal" delivery
// (i.e. not Object.deliverChangeRecords), this is the mechanism by which
// callbacks are invoked in the proper order until there are no more
// change records pending to a callback.
//
// Note that in order to reduce allocation and processing costs, the
// implementation of (1) and (2) have "optimized" states which represent
// common cases which can be handled more efficiently.
var observationState;
var notifierPrototype = {};
// We have to wait until after bootstrapping to grab a reference to the
// observationState object, since it's not possible to serialize that
// reference into the snapshot.
function GetObservationStateJS() {
if (IS_UNDEFINED(observationState)) {
observationState = %GetObservationState();
}
// TODO(adamk): Consider moving this code into heap.cc
if (IS_UNDEFINED(observationState.callbackInfoMap)) {
observationState.callbackInfoMap = %ObservationWeakMapCreate();
observationState.objectInfoMap = %ObservationWeakMapCreate();
observationState.notifierObjectInfoMap = %ObservationWeakMapCreate();
observationState.pendingObservers = null;
observationState.nextCallbackPriority = 0;
observationState.lastMicrotaskId = 0;
}
return observationState;
}
function GetPendingObservers() {
return GetObservationStateJS().pendingObservers;
}
function SetPendingObservers(pendingObservers) {
GetObservationStateJS().pendingObservers = pendingObservers;
}
function GetNextCallbackPriority() {
return GetObservationStateJS().nextCallbackPriority++;
}
function nullProtoObject() {
return { __proto__: null };
}
function TypeMapCreate() {
return nullProtoObject();
}
function TypeMapAddType(typeMap, type, ignoreDuplicate) {
typeMap[type] = ignoreDuplicate ? 1 : (typeMap[type] || 0) + 1;
}
function TypeMapRemoveType(typeMap, type) {
typeMap[type]--;
}
function TypeMapCreateFromList(typeList, length) {
var typeMap = TypeMapCreate();
for (var i = 0; i < length; i++) {
TypeMapAddType(typeMap, typeList[i], true);
}
return typeMap;
}
function TypeMapHasType(typeMap, type) {
return !!typeMap[type];
}
function TypeMapIsDisjointFrom(typeMap1, typeMap2) {
if (!typeMap1 || !typeMap2)
return true;
for (var type in typeMap1) {
if (TypeMapHasType(typeMap1, type) && TypeMapHasType(typeMap2, type))
return false;
}
return true;
}
var defaultAcceptTypes = (function() {
var defaultTypes = [
'add',
'update',
'delete',
'setPrototype',
'reconfigure',
'preventExtensions'
];
return TypeMapCreateFromList(defaultTypes, defaultTypes.length);
})();
// An Observer is a registration to observe an object by a callback with
// a given set of accept types. If the set of accept types is the default
// set for Object.observe, the observer is represented as a direct reference
// to the callback. An observer never changes its accept types and thus never
// needs to "normalize".
function ObserverCreate(callback, acceptList) {
if (IS_UNDEFINED(acceptList))
return callback;
var observer = nullProtoObject();
observer.callback = callback;
observer.accept = acceptList;
return observer;
}
function ObserverGetCallback(observer) {
return IS_CALLABLE(observer) ? observer : observer.callback;
}
function ObserverGetAcceptTypes(observer) {
return IS_CALLABLE(observer) ? defaultAcceptTypes : observer.accept;
}
function ObserverIsActive(observer, objectInfo) {
return TypeMapIsDisjointFrom(ObjectInfoGetPerformingTypes(objectInfo),
ObserverGetAcceptTypes(observer));
}
function ObjectInfoGetOrCreate(object) {
var objectInfo = ObjectInfoGet(object);
if (IS_UNDEFINED(objectInfo)) {
if (!IS_PROXY(object)) {
%SetIsObserved(object);
}
objectInfo = {
object: object,
changeObservers: null,
notifier: null,
performing: null,
performingCount: 0,
};
%WeakCollectionSet(GetObservationStateJS().objectInfoMap,
object, objectInfo, GetHash(object));
}
return objectInfo;
}
function ObjectInfoGet(object) {
return %WeakCollectionGet(GetObservationStateJS().objectInfoMap, object,
GetHash(object));
}
function ObjectInfoGetFromNotifier(notifier) {
return %WeakCollectionGet(GetObservationStateJS().notifierObjectInfoMap,
notifier, GetHash(notifier));
}
function ObjectInfoGetNotifier(objectInfo) {
if (IS_NULL(objectInfo.notifier)) {
var notifier = { __proto__: notifierPrototype };
objectInfo.notifier = notifier;
%WeakCollectionSet(GetObservationStateJS().notifierObjectInfoMap,
notifier, objectInfo, GetHash(notifier));
}
return objectInfo.notifier;
}
function ChangeObserversIsOptimized(changeObservers) {
return IS_CALLABLE(changeObservers) ||
IS_CALLABLE(changeObservers.callback);
}
// The set of observers on an object is called 'changeObservers'. The first
// observer is referenced directly via objectInfo.changeObservers. When a second
// is added, changeObservers "normalizes" to become a mapping of callback
// priority -> observer and is then stored on objectInfo.changeObservers.
function ObjectInfoNormalizeChangeObservers(objectInfo) {
if (ChangeObserversIsOptimized(objectInfo.changeObservers)) {
var observer = objectInfo.changeObservers;
var callback = ObserverGetCallback(observer);
var callbackInfo = CallbackInfoGet(callback);
var priority = CallbackInfoGetPriority(callbackInfo);
objectInfo.changeObservers = nullProtoObject();
objectInfo.changeObservers[priority] = observer;
}
}
function ObjectInfoAddObserver(objectInfo, callback, acceptList) {
var callbackInfo = CallbackInfoGetOrCreate(callback);
var observer = ObserverCreate(callback, acceptList);
if (!objectInfo.changeObservers) {
objectInfo.changeObservers = observer;
return;
}
ObjectInfoNormalizeChangeObservers(objectInfo);
var priority = CallbackInfoGetPriority(callbackInfo);
objectInfo.changeObservers[priority] = observer;
}
function ObjectInfoRemoveObserver(objectInfo, callback) {
if (!objectInfo.changeObservers)
return;
if (ChangeObserversIsOptimized(objectInfo.changeObservers)) {
if (callback === ObserverGetCallback(objectInfo.changeObservers))
objectInfo.changeObservers = null;
return;
}
var callbackInfo = CallbackInfoGet(callback);
var priority = CallbackInfoGetPriority(callbackInfo);
objectInfo.changeObservers[priority] = null;
}
function ObjectInfoHasActiveObservers(objectInfo) {
if (IS_UNDEFINED(objectInfo) || !objectInfo.changeObservers)
return false;
if (ChangeObserversIsOptimized(objectInfo.changeObservers))
return ObserverIsActive(objectInfo.changeObservers, objectInfo);
for (var priority in objectInfo.changeObservers) {
var observer = objectInfo.changeObservers[priority];
if (!IS_NULL(observer) && ObserverIsActive(observer, objectInfo))
return true;
}
return false;
}
function ObjectInfoAddPerformingType(objectInfo, type) {
objectInfo.performing = objectInfo.performing || TypeMapCreate();
TypeMapAddType(objectInfo.performing, type);
objectInfo.performingCount++;
}
function ObjectInfoRemovePerformingType(objectInfo, type) {
objectInfo.performingCount--;
TypeMapRemoveType(objectInfo.performing, type);
}
function ObjectInfoGetPerformingTypes(objectInfo) {
return objectInfo.performingCount > 0 ? objectInfo.performing : null;
}
function ConvertAcceptListToTypeMap(arg) {
// We use undefined as a sentinel for the default accept list.
if (IS_UNDEFINED(arg))
return arg;
if (!IS_RECEIVER(arg)) throw MakeTypeError(kObserveInvalidAccept);
var len = TO_INTEGER(arg.length);
if (len < 0) len = 0;
return TypeMapCreateFromList(arg, len);
}
// CallbackInfo's optimized state is just a number which represents its global
// priority. When a change record must be enqueued for the callback, it
// normalizes. When delivery clears any pending change records, it re-optimizes.
function CallbackInfoGet(callback) {
return %WeakCollectionGet(GetObservationStateJS().callbackInfoMap, callback,
GetHash(callback));
}
function CallbackInfoSet(callback, callbackInfo) {
%WeakCollectionSet(GetObservationStateJS().callbackInfoMap,
callback, callbackInfo, GetHash(callback));
}
function CallbackInfoGetOrCreate(callback) {
var callbackInfo = CallbackInfoGet(callback);
if (!IS_UNDEFINED(callbackInfo))
return callbackInfo;
var priority = GetNextCallbackPriority();
CallbackInfoSet(callback, priority);
return priority;
}
function CallbackInfoGetPriority(callbackInfo) {
if (IS_NUMBER(callbackInfo))
return callbackInfo;
else
return callbackInfo.priority;
}
function CallbackInfoNormalize(callback) {
var callbackInfo = CallbackInfoGet(callback);
if (IS_NUMBER(callbackInfo)) {
var priority = callbackInfo;
callbackInfo = new InternalArray;
callbackInfo.priority = priority;
CallbackInfoSet(callback, callbackInfo);
}
return callbackInfo;
}
function ObjectObserve(object, callback, acceptList) {
if (!IS_RECEIVER(object))
throw MakeTypeError(kObserveNonObject, "observe", "observe");
if (%IsJSGlobalProxy(object))
throw MakeTypeError(kObserveGlobalProxy, "observe");
if (%IsAccessCheckNeeded(object))
throw MakeTypeError(kObserveAccessChecked, "observe");
if (!IS_CALLABLE(callback))
throw MakeTypeError(kObserveNonFunction, "observe");
if (%object_is_frozen(callback))
throw MakeTypeError(kObserveCallbackFrozen);
var objectObserveFn = %GetObjectContextObjectObserve(object);
return objectObserveFn(object, callback, acceptList);
}
function NativeObjectObserve(object, callback, acceptList) {
var objectInfo = ObjectInfoGetOrCreate(object);
var typeList = ConvertAcceptListToTypeMap(acceptList);
ObjectInfoAddObserver(objectInfo, callback, typeList);
return object;
}
function ObjectUnobserve(object, callback) {
if (!IS_RECEIVER(object))
throw MakeTypeError(kObserveNonObject, "unobserve", "unobserve");
if (%IsJSGlobalProxy(object))
throw MakeTypeError(kObserveGlobalProxy, "unobserve");
if (!IS_CALLABLE(callback))
throw MakeTypeError(kObserveNonFunction, "unobserve");
var objectInfo = ObjectInfoGet(object);
if (IS_UNDEFINED(objectInfo))
return object;
ObjectInfoRemoveObserver(objectInfo, callback);
return object;
}
function ArrayObserve(object, callback) {
return ObjectObserve(object, callback, ['add',
'update',
'delete',
'splice']);
}
function ArrayUnobserve(object, callback) {
return ObjectUnobserve(object, callback);
}
function ObserverEnqueueIfActive(observer, objectInfo, changeRecord) {
if (!ObserverIsActive(observer, objectInfo) ||
!TypeMapHasType(ObserverGetAcceptTypes(observer), changeRecord.type)) {
return;
}
var callback = ObserverGetCallback(observer);
if (!%ObserverObjectAndRecordHaveSameOrigin(callback, changeRecord.object,
changeRecord)) {
return;
}
var callbackInfo = CallbackInfoNormalize(callback);
if (IS_NULL(GetPendingObservers())) {
SetPendingObservers(nullProtoObject());
if (DEBUG_IS_ACTIVE) {
var id = ++GetObservationStateJS().lastMicrotaskId;
var name = "Object.observe";
%EnqueueMicrotask(function() {
%DebugAsyncTaskEvent({ type: "willHandle", id: id, name: name });
ObserveMicrotaskRunner();
%DebugAsyncTaskEvent({ type: "didHandle", id: id, name: name });
});
%DebugAsyncTaskEvent({ type: "enqueue", id: id, name: name });
} else {
%EnqueueMicrotask(ObserveMicrotaskRunner);
}
}
GetPendingObservers()[callbackInfo.priority] = callback;
callbackInfo.push(changeRecord);
}
function ObjectInfoEnqueueExternalChangeRecord(objectInfo, changeRecord, type) {
if (!ObjectInfoHasActiveObservers(objectInfo))
return;
var hasType = !IS_UNDEFINED(type);
var newRecord = hasType ?
{ object: objectInfo.object, type: type } :
{ object: objectInfo.object };
for (var prop in changeRecord) {
if (prop === 'object' || (hasType && prop === 'type')) continue;
%DefineDataPropertyUnchecked(
newRecord, prop, changeRecord[prop], READ_ONLY + DONT_DELETE);
}
%object_freeze(newRecord);
ObjectInfoEnqueueInternalChangeRecord(objectInfo, newRecord);
}
function ObjectInfoEnqueueInternalChangeRecord(objectInfo, changeRecord) {
// TODO(rossberg): adjust once there is a story for symbols vs proxies.
if (IS_SYMBOL(changeRecord.name)) return;
if (ChangeObserversIsOptimized(objectInfo.changeObservers)) {
var observer = objectInfo.changeObservers;
ObserverEnqueueIfActive(observer, objectInfo, changeRecord);
return;
}
for (var priority in objectInfo.changeObservers) {
var observer = objectInfo.changeObservers[priority];
if (IS_NULL(observer))
continue;
ObserverEnqueueIfActive(observer, objectInfo, changeRecord);
}
}
function BeginPerformSplice(array) {
var objectInfo = ObjectInfoGet(array);
if (!IS_UNDEFINED(objectInfo))
ObjectInfoAddPerformingType(objectInfo, 'splice');
}
function EndPerformSplice(array) {
var objectInfo = ObjectInfoGet(array);
if (!IS_UNDEFINED(objectInfo))
ObjectInfoRemovePerformingType(objectInfo, 'splice');
}
function EnqueueSpliceRecord(array, index, removed, addedCount) {
var objectInfo = ObjectInfoGet(array);
if (!ObjectInfoHasActiveObservers(objectInfo))
return;
var changeRecord = {
type: 'splice',
object: array,
index: index,
removed: removed,
addedCount: addedCount
};
%object_freeze(changeRecord);
%object_freeze(changeRecord.removed);
ObjectInfoEnqueueInternalChangeRecord(objectInfo, changeRecord);
}
function NotifyChange(type, object, name, oldValue) {
var objectInfo = ObjectInfoGet(object);
if (!ObjectInfoHasActiveObservers(objectInfo))
return;
var changeRecord;
if (arguments.length == 2) {
changeRecord = { type: type, object: object };
} else if (arguments.length == 3) {
changeRecord = { type: type, object: object, name: name };
} else {
changeRecord = {
type: type,
object: object,
name: name,
oldValue: oldValue
};
}
%object_freeze(changeRecord);
ObjectInfoEnqueueInternalChangeRecord(objectInfo, changeRecord);
}
function ObjectNotifierNotify(changeRecord) {
if (!IS_RECEIVER(this))
throw MakeTypeError(kCalledOnNonObject, "notify");
var objectInfo = ObjectInfoGetFromNotifier(this);
if (IS_UNDEFINED(objectInfo))
throw MakeTypeError(kObserveNotifyNonNotifier);
if (!IS_STRING(changeRecord.type))
throw MakeTypeError(kObserveTypeNonString);
ObjectInfoEnqueueExternalChangeRecord(objectInfo, changeRecord);
}
function ObjectNotifierPerformChange(changeType, changeFn) {
if (!IS_RECEIVER(this))
throw MakeTypeError(kCalledOnNonObject, "performChange");
var objectInfo = ObjectInfoGetFromNotifier(this);
if (IS_UNDEFINED(objectInfo))
throw MakeTypeError(kObserveNotifyNonNotifier);
if (!IS_STRING(changeType))
throw MakeTypeError(kObservePerformNonString);
if (!IS_CALLABLE(changeFn))
throw MakeTypeError(kObservePerformNonFunction);
var performChangeFn = %GetObjectContextNotifierPerformChange(objectInfo);
performChangeFn(objectInfo, changeType, changeFn);
}
function NativeObjectNotifierPerformChange(objectInfo, changeType, changeFn) {
ObjectInfoAddPerformingType(objectInfo, changeType);
var changeRecord;
try {
changeRecord = changeFn();
} finally {
ObjectInfoRemovePerformingType(objectInfo, changeType);
}
if (IS_RECEIVER(changeRecord))
ObjectInfoEnqueueExternalChangeRecord(objectInfo, changeRecord, changeType);
}
function ObjectGetNotifier(object) {
if (!IS_RECEIVER(object))
throw MakeTypeError(kObserveNonObject, "getNotifier", "getNotifier");
if (%IsJSGlobalProxy(object))
throw MakeTypeError(kObserveGlobalProxy, "getNotifier");
if (%IsAccessCheckNeeded(object))
throw MakeTypeError(kObserveAccessChecked, "getNotifier");
if (%object_is_frozen(object)) return null;
if (!%ObjectWasCreatedInCurrentOrigin(object)) return null;
var getNotifierFn = %GetObjectContextObjectGetNotifier(object);
return getNotifierFn(object);
}
function NativeObjectGetNotifier(object) {
var objectInfo = ObjectInfoGetOrCreate(object);
return ObjectInfoGetNotifier(objectInfo);
}
function CallbackDeliverPending(callback) {
var callbackInfo = CallbackInfoGet(callback);
if (IS_UNDEFINED(callbackInfo) || IS_NUMBER(callbackInfo))
return false;
// Clear the pending change records from callback and return it to its
// "optimized" state.
var priority = callbackInfo.priority;
CallbackInfoSet(callback, priority);
var pendingObservers = GetPendingObservers();
if (!IS_NULL(pendingObservers))
delete pendingObservers[priority];
// TODO: combine the following runtime calls for perf optimization.
var delivered = [];
%MoveArrayContents(callbackInfo, delivered);
%DeliverObservationChangeRecords(callback, delivered);
return true;
}
function ObjectDeliverChangeRecords(callback) {
if (!IS_CALLABLE(callback))
throw MakeTypeError(kObserveNonFunction, "deliverChangeRecords");
while (CallbackDeliverPending(callback)) {}
}
function ObserveMicrotaskRunner() {
var pendingObservers = GetPendingObservers();
if (!IS_NULL(pendingObservers)) {
SetPendingObservers(null);
for (var i in pendingObservers) {
CallbackDeliverPending(pendingObservers[i]);
}
}
}
// -------------------------------------------------------------------
utils.InstallFunctions(notifierPrototype, DONT_ENUM, [
"notify", ObjectNotifierNotify,
"performChange", ObjectNotifierPerformChange
]);
var ObserveObjectMethods = [
"deliverChangeRecords", ObjectDeliverChangeRecords,
"getNotifier", ObjectGetNotifier,
"observe", ObjectObserve,
"unobserve", ObjectUnobserve
];
var ObserveArrayMethods = [
"observe", ArrayObserve,
"unobserve", ArrayUnobserve
];
// TODO(adamk): Figure out why this prototype removal has to
// happen as part of initial snapshotting.
var removePrototypeFn = function(f, i) {
if (i % 2 === 1) %FunctionRemovePrototype(f);
};
ObserveObjectMethods.forEach(removePrototypeFn);
ObserveArrayMethods.forEach(removePrototypeFn);
%InstallToContext([
"native_object_get_notifier", NativeObjectGetNotifier,
"native_object_notifier_perform_change", NativeObjectNotifierPerformChange,
"native_object_observe", NativeObjectObserve,
"observers_begin_perform_splice", BeginPerformSplice,
"observers_end_perform_splice", EndPerformSplice,
"observers_enqueue_splice", EnqueueSpliceRecord,
"observers_notify_change", NotifyChange,
]);
utils.Export(function(to) {
to.ObserveArrayMethods = ObserveArrayMethods;
to.ObserveBeginPerformSplice = BeginPerformSplice;
to.ObserveEndPerformSplice = EndPerformSplice;
to.ObserveEnqueueSpliceRecord = EnqueueSpliceRecord;
to.ObserveObjectMethods = ObserveObjectMethods;
});
})