AngelScript
Garbage collected objects

Reference counting as memory management has a drawback in that it is difficult to detect circular references when determining dead objects. AngelScript allows the application to register types with special behaviours to support the garbage collection for detecting circular references. These behaviours make the class a bit more complex, but you should only have to register them for a few types, e.g. generic container classes.

// Registering the garbage collected reference type
r = engine->RegisterObjectType("ref_type", 0, asOBJ_REF | asOBJ_GC); assert( r >= 0 );

The difference between the garbage collected and non-garbage collected types is in the addref and release behaviours, the class constructor, and the extra support behaviours.

See also
The dictionary add-on for an example of a garbage collected object

GC support behaviours

The GC determines when objects should be destroyed by counting the references it can follow for each object. If the GC can see all references that points to an object, it knows that the object is part of a circular reference. If all the objects involved in that circular reference have no outside references it means that they should be destroyed.

The process of determining the dead objects uses the first four of the behaviours below, while the destruction of the objects is done by forcing the release of the object's references.

void CGCRef::SetGCFlag()
{
// Set the gc flag as the high bit in the reference counter
refCount |= 0x80000000;
}
bool CGCRef::GetGCFlag()
{
// Return the gc flag
return (refCount & 0x80000000) ? true : false;
}
int CGCRef::GetRefCount()
{
// Return the reference count, without the gc flag
return (refCount & 0x7FFFFFFF);
}
void CGCRef::EnumReferences(asIScriptEngine *engine)
{
// Call the engine::GCEnumCallback for all references to other objects held
engine->GCEnumCallback(myref);
}
void CGCRef::ReleaseAllReferences(asIScriptEngine *engine)
{
// When we receive this call, we are as good as dead, but
// the garbage collector will still hold a references to us, so we
// cannot just delete ourself yet. Just free all references to other
// objects that we hold
if( myref )
{
myref->Release();
myref = 0;
}
}
// Register the GC support behaviours
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_SETGCFLAG, "void f()", asMETHOD(CGCRef,SetGCFlag), asCALL_THISCALL); assert( r >= 0 );
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_GETGCFLAG, "bool f()", asMETHOD(CGCRef,GetGCFlag), asCALL_THISCALL); assert( r >= 0 );
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_GETREFCOUNT, "int f()", asMETHOD(CGCRef,GetRefCount), asCALL_THISCALL); assert( r >= 0 );
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_ENUMREFS, "void f(int&in)", asMETHOD(CGCRef,EnumReferences), asCALL_THISCALL); assert( r >= 0 );
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_RELEASEREFS, "void f(int&in)", asMETHOD(CGCRef,ReleaseAllReferences), asCALL_THISCALL); assert( r >= 0 );

Factory for garbage collection

Whenever a garbage collected class is created, the garbage collector must be notified of it's existence. The easiest way of doing that is to have the factory behaviour, or the class constructor call the NotifyGarbageCollectorOfNewObject() method on the engine when initializing the class.

CGCRef *GCRef_Factory()
{
// Create the object and then notify the GC of its existence
CGCRef *obj = new CGCRef();
asITypeInfo *type = engine->GetTypeInfoByName("gc");
return obj;
}

You may want to consider caching the typeId, so that it doesn't have to be looked up through the relatively expensive call to GetTypeIdByDecl every time an object of this type is created.

Note, if you create objects of this type from the application side, you must also notify the garbage collector of its existence, so it's a good idea to make sure all code use the same way of creating objects of this type.

Addref and release for garbage collection

For garbage collected objects it is important to make sure the AddRef and Release behaviours clear the GC flag. Otherwise it is possible that the GC incorrectly determine that the object should be destroyed.

void CGCRef::AddRef()
{
// Clear the gc flag and increase the reference counter
refCount = (refCount&0x7FFFFFFF) + 1;
}
void CGCRef::Release()
{
// Clear the gc flag, decrease ref count and delete if it reaches 0
refCount &= 0x7FFFFFFF;
if( --refCount == 0 )
delete this;
}
// Registering the addref/release behaviours
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_ADDREF, "void f()", asMETHOD(CGCRef,AddRef), asCALL_THISCALL); assert( r >= 0 );
r = engine->RegisterObjectBehaviour("ref_type", asBEHAVE_RELEASE, "void f()", asMETHOD(CGCRef,Release), asCALL_THISCALL); assert( r >= 0 );

GC behaviours for value types

Value types are normally not thought of as being part of circular references as they themselves cannot be referenced, however if a value type can hold a reference to a type, and then that type can have the value type as a member then a circular reference can be established preventing the reference type from being released.

To solve these situations the value types can also be registered with some of the garbage collector behaviours.

// Registering the value type with garbage collected behaviour
r = engine->RegisterObjectType("value_type", sizeof(value_type), asOBJ_VALUE | asOBJ_GC | ...); assert( r >= 0 );
// Register the garbage collector behaviours
r = engine->RegisterObjectBehaviour("ref", asBEHAVE_ENUMREFS, "void f(int&in)", asMETHOD(value_type,EnumReferences), asCALL_THISCALL); assert(r >= 0);
r = engine->RegisterObjectBehaviour("ref", asBEHAVE_RELEASEREFS, "void f(int&in)", asMETHOD(value_type, ReleaseReferences), asCALL_THISCALL); assert(r >= 0);

Only the asBEHAVE_ENUMREFS and asBEHAVE_RELEASEREFS should be registered for value types. These work the same way as for reference types, i.e. the asBEHAVE_ENUMREFS should call the engine's GCEnumCallback for all references held, and asBEHAVE_RELEASEREFS should clear all references held.

Reference types that contain value types that have GC behaviours need to have the asBEHAVE_ENUMREFS and asBEHAVE_RELEASEREFS behaviours adapted for this by forwarding the enum and release call to the value type. This forward is done by calling the engine's ForwardGCEnumReferences or ForwardGCReleaseReferences respectively.

void CGCRef2::EnumReferences(asIScriptEngine *engine)
{
// Forward the enum call to the member value type
engine->ForwardGCEnumReferences(valueObj, valueType);
}
void CGCRef2::ReleaseAllReferences(asIScriptEngine *engine)
{
// When we receive this call, we are as good as dead, but
// the garbage collector will still hold a references to us, so we
// cannot just delete ourself yet. Just free all references to other
// objects that we hold
// Forward the release call to the member value type
engine->ForwardGCReleaseReferences(valueObj, valueType);
}
See also
The ref object for a value type with GC behaviours, and the dictionary object for a ref type that can contain value types with GC behaviours.

Garbage collected objects and multi-threading

If you plan on executing scripts from multiple threads with automatic garbage collection turned on, or if you plan on running the garbage collector manually from a background thread, then you must make sure that the object type behaviours that support the garbage collector are thread-safe. Especially the ADDREF, RELEASE, and ENUMREFS behaviours have a high probability of being invoked from multiple threads simultaneously. The RELEASEREFS behaviour will only be invoked when the Garbage Collector has determined that the object is already dead so it is guaranteed not to be invoked by multiple threads. The others, GETREFCOUNT, SETGCFLAG, and GETGCFLAG, are not sensitive as the garbage collector just use the information as a hint.

Making the ADDREF and RELEASE behaviours thread-safe is easy with the use of asAtomicInc and asAtomicDec. If the object is static container, i.e. the memory layout of the contents cannot change, then ENUMREFS is already thread-safe, but if memory layout can change, e.g. dynamic arrays or hash maps, then the iteration over the content in ENUMREFS must be protected so that it doesn't break in case the memory happen to change in the middle of the iteration.

See also
Garbage collection and multi-threading
asBEHAVE_RELEASE
@ asBEHAVE_RELEASE
Release.
Definition: angelscript.h:368
asBEHAVE_SETGCFLAG
@ asBEHAVE_SETGCFLAG
(GC) Set GC flag
Definition: angelscript.h:381
asBEHAVE_RELEASEREFS
@ asBEHAVE_RELEASEREFS
(GC) Release all references
Definition: angelscript.h:387
asBEHAVE_ENUMREFS
@ asBEHAVE_ENUMREFS
(GC) Enumerate held references
Definition: angelscript.h:385
asIScriptEngine::GetTypeInfoByName
virtual asITypeInfo * GetTypeInfoByName(const char *name) const =0
Returns the type interface by name.
asBEHAVE_GETREFCOUNT
@ asBEHAVE_GETREFCOUNT
(GC) Get reference count
Definition: angelscript.h:379
asIScriptEngine::ForwardGCReleaseReferences
virtual void ForwardGCReleaseReferences(void *ref, asITypeInfo *type)=0
Used to forward GC callback to held value types that may contain references.
asIScriptEngine::RegisterObjectType
virtual int RegisterObjectType(const char *obj, int byteSize, asDWORD flags)=0
Registers a new object type.
asOBJ_REF
@ asOBJ_REF
A reference type.
Definition: angelscript.h:250
asIScriptEngine
The engine interface.
Definition: angelscript.h:1092
asIScriptEngine::RegisterObjectBehaviour
virtual int RegisterObjectBehaviour(const char *obj, asEBehaviours behaviour, const char *declaration, const asSFuncPtr &funcPointer, asDWORD callConv, void *auxiliary=0, int compositeOffset=0, bool isCompositeIndirect=false)=0
Registers a behaviour for the object type.
asIScriptEngine::GCEnumCallback
virtual void GCEnumCallback(void *reference)=0
Used by the garbage collector to enumerate all references held by an object.
asITypeInfo
The interface for describing types This interface is used to describe the types in the script engine.
Definition: angelscript.h:3527
asMETHOD
#define asMETHOD(c, m)
Returns an asSFuncPtr representing the class method specified by class and method name.
Definition: angelscript.h:740
asCALL_THISCALL
@ asCALL_THISCALL
A thiscall class method.
Definition: angelscript.h:232
asOBJ_GC
@ asOBJ_GC
A garbage collected type. Only valid for reference types.
Definition: angelscript.h:254
asOBJ_VALUE
@ asOBJ_VALUE
A value type.
Definition: angelscript.h:252
asBEHAVE_ADDREF
@ asBEHAVE_ADDREF
AddRef.
Definition: angelscript.h:366
asIScriptEngine::NotifyGarbageCollectorOfNewObject
virtual int NotifyGarbageCollectorOfNewObject(void *obj, asITypeInfo *type)=0
Notify the garbage collector of a new object that needs to be managed.
asIScriptEngine::ForwardGCEnumReferences
virtual void ForwardGCEnumReferences(void *ref, asITypeInfo *type)=0
Used to forward GC callback to held value types that may contain references.
asBEHAVE_GETGCFLAG
@ asBEHAVE_GETGCFLAG
(GC) Get GC flag
Definition: angelscript.h:383