/* AngelCode Scripting Library Copyright (c) 2003-2015 Andreas Jonsson This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. The original version of this library can be located at: http://www.angelcode.com/angelscript/ Andreas Jonsson andreas@angelcode.com */ #include #include "as_config.h" #include "as_scriptengine.h" #include "as_scriptobject.h" #include "as_texts.h" BEGIN_AS_NAMESPACE // This helper function will call the default factory, that is a script function asIScriptObject *ScriptObjectFactory(const asCObjectType *objType, asCScriptEngine *engine) { asIScriptContext *ctx = 0; int r = 0; bool isNested = false; // Use nested call in the context if there is an active context ctx = asGetActiveContext(); if( ctx ) { // It may not always be possible to reuse the current context, // in which case we'll have to create a new one any way. if( ctx->GetEngine() == objType->GetEngine() && ctx->PushState() == asSUCCESS ) isNested = true; else ctx = 0; } if( ctx == 0 ) { // Request a context from the engine ctx = engine->RequestContext(); if( ctx == 0 ) { // TODO: How to best report this failure? return 0; } } r = ctx->Prepare(engine->scriptFunctions[objType->beh.factory]); if( r < 0 ) { if( isNested ) ctx->PopState(); else engine->ReturnContext(ctx); return 0; } for(;;) { r = ctx->Execute(); // We can't allow this execution to be suspended // so resume the execution immediately if( r != asEXECUTION_SUSPENDED ) break; } if( r != asEXECUTION_FINISHED ) { if( isNested ) { ctx->PopState(); // If the execution was aborted or an exception occurred, // then we should forward that to the outer execution. if( r == asEXECUTION_EXCEPTION ) { // TODO: How to improve this exception ctx->SetException(TXT_EXCEPTION_IN_NESTED_CALL); } else if( r == asEXECUTION_ABORTED ) ctx->Abort(); } else engine->ReturnContext(ctx); return 0; } asIScriptObject *ptr = (asIScriptObject*)ctx->GetReturnAddress(); // Increase the reference, because the context will release its pointer ptr->AddRef(); if( isNested ) ctx->PopState(); else engine->ReturnContext(ctx); return ptr; } #ifdef AS_MAX_PORTABILITY static void ScriptObject_AddRef_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); self->AddRef(); } static void ScriptObject_Release_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); self->Release(); } static void ScriptObject_GetRefCount_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); *(int*)gen->GetAddressOfReturnLocation() = self->GetRefCount(); } static void ScriptObject_SetFlag_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); self->SetFlag(); } static void ScriptObject_GetFlag_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); *(bool*)gen->GetAddressOfReturnLocation() = self->GetFlag(); } static void ScriptObject_GetWeakRefFlag_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); *(asILockableSharedBool**)gen->GetAddressOfReturnLocation() = self->GetWeakRefFlag(); } static void ScriptObject_EnumReferences_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); asIScriptEngine *engine = *(asIScriptEngine**)gen->GetAddressOfArg(0); self->EnumReferences(engine); } static void ScriptObject_ReleaseAllHandles_Generic(asIScriptGeneric *gen) { asCScriptObject *self = (asCScriptObject*)gen->GetObject(); asIScriptEngine *engine = *(asIScriptEngine**)gen->GetAddressOfArg(0); self->ReleaseAllHandles(engine); } static void ScriptObject_Assignment_Generic(asIScriptGeneric *gen) { asCScriptObject *other = *(asCScriptObject**)gen->GetAddressOfArg(0); asCScriptObject *self = (asCScriptObject*)gen->GetObject(); *self = *other; *(asCScriptObject**)gen->GetAddressOfReturnLocation() = self; } static void ScriptObject_Construct_Generic(asIScriptGeneric *gen) { asCObjectType *objType = *(asCObjectType**)gen->GetAddressOfArg(0); asCScriptObject *self = (asCScriptObject*)gen->GetObject(); ScriptObject_Construct(objType, self); } #endif void RegisterScriptObject(asCScriptEngine *engine) { // Register the default script class behaviours int r = 0; UNUSED_VAR(r); // It is only used in debug mode engine->scriptTypeBehaviours.engine = engine; engine->scriptTypeBehaviours.flags = asOBJ_SCRIPT_OBJECT | asOBJ_REF | asOBJ_GC; engine->scriptTypeBehaviours.name = "$obj"; #ifndef AS_MAX_PORTABILITY r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_CONSTRUCT, "void f(int&in)", asFUNCTION(ScriptObject_Construct), asCALL_CDECL_OBJLAST, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_ADDREF, "void f()", asMETHOD(asCScriptObject,AddRef), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_RELEASE, "void f()", asMETHOD(asCScriptObject,Release), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterMethodToObjectType(&engine->scriptTypeBehaviours, "int &opAssign(int &in)", asFUNCTION(ScriptObject_Assignment), asCALL_CDECL_OBJLAST); asASSERT( r >= 0 ); // Weakref behaviours r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GET_WEAKREF_FLAG, "int &f()", asMETHOD(asCScriptObject,GetWeakRefFlag), asCALL_THISCALL, 0); asASSERT( r >= 0 ); // Register GC behaviours r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GETREFCOUNT, "int f()", asMETHOD(asCScriptObject,GetRefCount), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_SETGCFLAG, "void f()", asMETHOD(asCScriptObject,SetFlag), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GETGCFLAG, "bool f()", asMETHOD(asCScriptObject,GetFlag), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_ENUMREFS, "void f(int&in)", asMETHOD(asCScriptObject,EnumReferences), asCALL_THISCALL, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_RELEASEREFS, "void f(int&in)", asMETHOD(asCScriptObject,ReleaseAllHandles), asCALL_THISCALL, 0); asASSERT( r >= 0 ); #else r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_CONSTRUCT, "void f(int&in)", asFUNCTION(ScriptObject_Construct_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_ADDREF, "void f()", asFUNCTION(ScriptObject_AddRef_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_RELEASE, "void f()", asFUNCTION(ScriptObject_Release_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterMethodToObjectType(&engine->scriptTypeBehaviours, "int &opAssign(int &in)", asFUNCTION(ScriptObject_Assignment_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); // Weakref behaviours r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GET_WEAKREF_FLAG, "int &f()", asFUNCTION(ScriptObject_GetWeakRefFlag_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); // Register GC behaviours r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GETREFCOUNT, "int f()", asFUNCTION(ScriptObject_GetRefCount_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_SETGCFLAG, "void f()", asFUNCTION(ScriptObject_SetFlag_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_GETGCFLAG, "bool f()", asFUNCTION(ScriptObject_GetFlag_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_ENUMREFS, "void f(int&in)", asFUNCTION(ScriptObject_EnumReferences_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->scriptTypeBehaviours, asBEHAVE_RELEASEREFS, "void f(int&in)", asFUNCTION(ScriptObject_ReleaseAllHandles_Generic), asCALL_GENERIC, 0); asASSERT( r >= 0 ); #endif } void ScriptObject_Construct(asCObjectType *objType, asCScriptObject *self) { new(self) asCScriptObject(objType); } void ScriptObject_ConstructUnitialized(asCObjectType *objType, asCScriptObject *self) { new(self) asCScriptObject(objType, false); } asCScriptObject::asCScriptObject(asCObjectType *ot, bool doInitialize) { refCount.set(1); objType = ot; objType->AddRef(); isDestructCalled = false; extra = 0; hasRefCountReachedZero = false; // Notify the garbage collector of this object if( objType->flags & asOBJ_GC ) objType->engine->gc.AddScriptObjectToGC(this, objType); // Initialize members to zero. Technically we only need to zero the pointer // members, but just the memset is faster than having to loop and check the datatypes memset((void*)(this+1), 0, objType->size - sizeof(asCScriptObject)); if( doInitialize ) { #ifdef AS_NO_MEMBER_INIT // When member initialization is disabled the constructor must make sure // to allocate and initialize all members with the default constructor for( asUINT n = 0; n < objType->properties.GetLength(); n++ ) { asCObjectProperty *prop = objType->properties[n]; if( prop->type.IsObject() && !prop->type.IsObjectHandle() ) { if( prop->type.IsReference() || prop->type.GetObjectType()->flags & asOBJ_REF ) { asPWORD *ptr = reinterpret_cast(reinterpret_cast(this) + prop->byteOffset); if( prop->type.GetObjectType()->flags & asOBJ_SCRIPT_OBJECT ) *ptr = (asPWORD)ScriptObjectFactory(prop->type.GetObjectType(), ot->engine); else *ptr = (asPWORD)AllocateUninitializedObject(prop->type.GetObjectType(), ot->engine); } } } #endif } else { // When the object is created without initialization, all non-handle members must be allocated, but not initialized asCScriptEngine *engine = objType->engine; for( asUINT n = 0; n < objType->properties.GetLength(); n++ ) { asCObjectProperty *prop = objType->properties[n]; if( prop->type.IsObject() && !prop->type.IsObjectHandle() ) { if( prop->type.IsReference() || (prop->type.GetObjectType()->flags & asOBJ_REF) ) { asPWORD *ptr = reinterpret_cast(reinterpret_cast(this) + prop->byteOffset); *ptr = (asPWORD)AllocateUninitializedObject(prop->type.GetObjectType(), engine); } } } } } void asCScriptObject::Destruct() { // Call the destructor, which will also call the GCObject's destructor this->~asCScriptObject(); // Free the memory #ifndef WIP_16BYTE_ALIGN userFree(this); #else // Script object memory is allocated through asCScriptEngine::CallAlloc() // This free call must match the allocator used in CallAlloc(). userFreeAligned(this); #endif } asCScriptObject::~asCScriptObject() { if( extra ) { if( extra->weakRefFlag ) { extra->weakRefFlag->Release(); extra->weakRefFlag = 0; } if( objType->engine ) { // Clean the user data for( asUINT n = 0; n < extra->userData.GetLength(); n += 2 ) { if( extra->userData[n+1] ) { for( asUINT c = 0; c < objType->engine->cleanScriptObjectFuncs.GetLength(); c++ ) if( objType->engine->cleanScriptObjectFuncs[c].type == extra->userData[n] ) objType->engine->cleanScriptObjectFuncs[c].cleanFunc(this); } } } asDELETE(extra, SExtra); } // The engine pointer should be available from the objectType asCScriptEngine *engine = objType->engine; // Destroy all properties // In most cases the members are initialized in the order they have been declared, // so it's safer to uninitialize them from last to first. The order may be different // depending on the use of inheritance and or initialization in the declaration. // TODO: Should the order of initialization be stored by the compiler so that the // reverse order can be guaranteed during the destruction? for( int n = (int)objType->properties.GetLength()-1; n >= 0; n-- ) { asCObjectProperty *prop = objType->properties[n]; if( prop->type.IsObject() ) { // Destroy the object asCObjectType *propType = prop->type.GetObjectType(); if( prop->type.IsReference() || propType->flags & asOBJ_REF ) { void **ptr = (void**)(((char*)this) + prop->byteOffset); if( *ptr ) { FreeObject(*ptr, propType, engine); *(asDWORD*)ptr = 0; } } else { // The object is allocated inline. As only POD objects may be allocated inline // it is not a problem to call the destructor even if the object may never have // been initialized, e.g. if an exception interrupted the constructor. asASSERT( propType->flags & asOBJ_POD ); void *ptr = (void**)(((char*)this) + prop->byteOffset); if( propType->beh.destruct ) engine->CallObjectMethod(ptr, propType->beh.destruct); } } } objType->Release(); objType = 0; // Something is really wrong if the refCount is not 0 by now asASSERT( refCount.get() == 0 ); } asILockableSharedBool *asCScriptObject::GetWeakRefFlag() const { // If the object's refCount has already reached zero then the object is already // about to be destroyed so it's ok to return null if the weakRefFlag doesn't already // exist if( (extra && extra->weakRefFlag) || hasRefCountReachedZero ) return extra->weakRefFlag; // Lock globally so no other thread can attempt // to create a shared bool at the same time. // TODO: runtime optimize: Instead of locking globally, it would be possible to have // a critical section per object type. This would reduce the // chances of two threads lock on the same critical section. asAcquireExclusiveLock(); // Make sure another thread didn't create the // flag while we waited for the lock if( !extra ) extra = asNEW(SExtra); if( !extra->weakRefFlag ) extra->weakRefFlag = asNEW(asCLockableSharedBool); asReleaseExclusiveLock(); return extra->weakRefFlag; } void *asCScriptObject::GetUserData(asPWORD type) const { if( !extra ) return 0; // There may be multiple threads reading, but when // setting the user data nobody must be reading. // TODO: runtime optimize: Would it be worth it to have a rwlock per object type? asAcquireSharedLock(); for( asUINT n = 0; n < extra->userData.GetLength(); n += 2 ) { if( extra->userData[n] == type ) { void *userData = reinterpret_cast(extra->userData[n+1]); asReleaseSharedLock(); return userData; } } asReleaseSharedLock(); return 0; } void *asCScriptObject::SetUserData(void *data, asPWORD type) { // Lock globally so no other thread can attempt // to manipulate the extra data at the same time. // TODO: runtime optimize: Instead of locking globally, it would be possible to have // a critical section per object type. This would reduce the // chances of two threads lock on the same critical section. asAcquireExclusiveLock(); // Make sure another thread didn't create the // flag while we waited for the lock if( !extra ) extra = asNEW(SExtra); // It is not intended to store a lot of different types of userdata, // so a more complex structure like a associative map would just have // more overhead than a simple array. for( asUINT n = 0; n < extra->userData.GetLength(); n += 2 ) { if( extra->userData[n] == type ) { void *oldData = reinterpret_cast(extra->userData[n+1]); extra->userData[n+1] = reinterpret_cast(data); asReleaseExclusiveLock(); return oldData; } } extra->userData.PushLast(type); extra->userData.PushLast(reinterpret_cast(data)); asReleaseExclusiveLock(); return 0; } asIScriptEngine *asCScriptObject::GetEngine() const { return objType->engine; } int asCScriptObject::AddRef() const { // Warn in case the application tries to increase the refCount after it has reached zero. // This may happen for example if the application calls a method on the class while it is // being destroyed. The application shouldn't do this because it may cause application // crashes if members that have already been destroyed are accessed accidentally. if( hasRefCountReachedZero ) { if( objType && objType->engine ) { asCString msg; msg.Format(TXT_RESURRECTING_SCRIPTOBJECT_s, objType->name.AddressOf()); objType->engine->WriteMessage("", 0, 0, asMSGTYPE_ERROR, msg.AddressOf()); } } // Increase counter and clear flag set by GC gcFlag = false; return refCount.atomicInc(); } int asCScriptObject::Release() const { // Clear the flag set by the GC gcFlag = false; // If the weak ref flag exists it is because someone held a weak ref // and that someone may add a reference to the object at any time. It // is ok to check the existance of the weakRefFlag without locking here // because if the refCount is 1 then no other thread is currently // creating the weakRefFlag. if( refCount.get() == 1 && extra && extra->weakRefFlag ) { // Set the flag to tell others that the object is no longer alive // We must do this before decreasing the refCount to 0 so we don't // end up with a race condition between this thread attempting to // destroy the object and the other that temporary added a strong // ref from the weak ref. extra->weakRefFlag->Set(true); } // Call the script destructor behaviour if the reference counter is 1. if( refCount.get() == 1 && !isDestructCalled ) { // This cast is OK since we are the last reference const_cast(this)->CallDestructor(); } // Now do the actual releasing int r = refCount.atomicDec(); if( r == 0 ) { // Flag this object as being destroyed so the application // can be warned if the code attempts to resurrect the object // during the destructor. This also avoids a recursive call // to the destructor which would crash the application if it // really does resurrect the object. if( !hasRefCountReachedZero ) { hasRefCountReachedZero = true; // This cast is OK since we are the last reference const_cast(this)->Destruct(); } return 0; } return r; } void asCScriptObject::CallDestructor() { // Only allow the destructor to be called once if( isDestructCalled ) return; asIScriptContext *ctx = 0; bool isNested = false; bool doAbort = false; // Make sure the destructor is called once only, even if the // reference count is increased and then decreased again isDestructCalled = true; // Call the destructor for this class and all the super classes asCObjectType *ot = objType; while( ot ) { int funcIndex = ot->beh.destruct; if( funcIndex ) { if( ctx == 0 ) { // Check for active context first as it is quicker // to reuse than to set up a new one. ctx = asGetActiveContext(); if( ctx ) { if( ctx->GetEngine() == objType->GetEngine() && ctx->PushState() == asSUCCESS ) isNested = true; else ctx = 0; } if( ctx == 0 ) { // Request a context from the engine ctx = objType->engine->RequestContext(); if( ctx == 0 ) { // TODO: How to best report this failure? return; } } } int r = ctx->Prepare(objType->engine->scriptFunctions[funcIndex]); if( r >= 0 ) { ctx->SetObject(this); for(;;) { r = ctx->Execute(); // If the script tries to suspend itself just restart it if( r != asEXECUTION_SUSPENDED ) break; } // Exceptions in the destructor will be ignored, as there is not much // that can be done about them. However a request to abort the execution // will be forwarded to the outer execution, in case of a nested call. if( r == asEXECUTION_ABORTED ) doAbort = true; // Observe, even though the current destructor was aborted or an exception // occurred, we still try to execute the base class' destructor if available // in order to free as many resources as possible. } } ot = ot->derivedFrom; } if( ctx ) { if( isNested ) { ctx->PopState(); // Forward any request to abort the execution to the outer call if( doAbort ) ctx->Abort(); } else { // Return the context to engine objType->engine->ReturnContext(ctx); } } } asIObjectType *asCScriptObject::GetObjectType() const { return objType; } int asCScriptObject::GetRefCount() { return refCount.get(); } void asCScriptObject::SetFlag() { gcFlag = true; } bool asCScriptObject::GetFlag() { return gcFlag; } // interface int asCScriptObject::GetTypeId() const { asCDataType dt = asCDataType::CreateObject(objType, false); return objType->engine->GetTypeIdFromDataType(dt); } asUINT asCScriptObject::GetPropertyCount() const { return asUINT(objType->properties.GetLength()); } int asCScriptObject::GetPropertyTypeId(asUINT prop) const { if( prop >= objType->properties.GetLength() ) return asINVALID_ARG; return objType->engine->GetTypeIdFromDataType(objType->properties[prop]->type); } const char *asCScriptObject::GetPropertyName(asUINT prop) const { if( prop >= objType->properties.GetLength() ) return 0; return objType->properties[prop]->name.AddressOf(); } void *asCScriptObject::GetAddressOfProperty(asUINT prop) { if( prop >= objType->properties.GetLength() ) return 0; // Objects are stored by reference, so this must be dereferenced asCDataType *dt = &objType->properties[prop]->type; if( dt->IsObject() && !dt->IsObjectHandle() && (dt->IsReference() || dt->GetObjectType()->flags & asOBJ_REF) ) return *(void**)(((char*)this) + objType->properties[prop]->byteOffset); return (void*)(((char*)this) + objType->properties[prop]->byteOffset); } void asCScriptObject::EnumReferences(asIScriptEngine *engine) { // We'll notify the GC of all object handles that we're holding for( asUINT n = 0; n < objType->properties.GetLength(); n++ ) { asCObjectProperty *prop = objType->properties[n]; if( prop->type.IsObject() ) { // TODO: gc: The members of the value type needs to be enumerated // too, since the value type may be holding a reference. void *ptr; if( prop->type.IsReference() || (prop->type.GetObjectType()->flags & asOBJ_REF) ) ptr = *(void**)(((char*)this) + prop->byteOffset); else ptr = (void*)(((char*)this) + prop->byteOffset); if( ptr ) ((asCScriptEngine*)engine)->GCEnumCallback(ptr); } } } void asCScriptObject::ReleaseAllHandles(asIScriptEngine *engine) { for( asUINT n = 0; n < objType->properties.GetLength(); n++ ) { asCObjectProperty *prop = objType->properties[n]; // TODO: gc: The members of the members needs to be released // too, since they may be holding a reference. Even // if the member is a value type. if( prop->type.IsObject() && prop->type.IsObjectHandle() ) { void **ptr = (void**)(((char*)this) + prop->byteOffset); if( *ptr ) { asASSERT( (prop->type.GetObjectType()->flags & asOBJ_NOCOUNT) || prop->type.GetBehaviour()->release ); if( prop->type.GetBehaviour()->release ) ((asCScriptEngine*)engine)->CallObjectMethod(*ptr, prop->type.GetBehaviour()->release); *ptr = 0; } } } } asCScriptObject &ScriptObject_Assignment(asCScriptObject *other, asCScriptObject *self) { return (*self = *other); } asCScriptObject &asCScriptObject::operator=(const asCScriptObject &other) { if( &other != this ) { if( !other.objType->DerivesFrom(objType) ) { // We cannot allow a value assignment from a type that isn't the same or // derives from this type as the member properties may not have the same layout asIScriptContext *ctx = asGetActiveContext(); ctx->SetException(TXT_MISMATCH_IN_VALUE_ASSIGN); return *this; } // If the script class implements the opAssign method, it should be called asCScriptEngine *engine = objType->engine; asCScriptFunction *func = engine->scriptFunctions[objType->beh.copy]; if( func->funcType == asFUNC_SYSTEM ) { // Copy all properties for( asUINT n = 0; n < objType->properties.GetLength(); n++ ) { asCObjectProperty *prop = objType->properties[n]; if( prop->type.IsObject() ) { void **dst = (void**)(((char*)this) + prop->byteOffset); void **src = (void**)(((char*)&other) + prop->byteOffset); if( !prop->type.IsObjectHandle() ) { if( prop->type.IsReference() || (prop->type.GetObjectType()->flags & asOBJ_REF) ) CopyObject(*src, *dst, prop->type.GetObjectType(), engine); else CopyObject(src, dst, prop->type.GetObjectType(), engine); } else CopyHandle((asPWORD*)src, (asPWORD*)dst, prop->type.GetObjectType(), engine); } else { void *dst = ((char*)this) + prop->byteOffset; void *src = ((char*)&other) + prop->byteOffset; memcpy(dst, src, prop->type.GetSizeInMemoryBytes()); } } } else { // Reuse the active context or create a new one to call the script class' opAssign method asIScriptContext *ctx = 0; int r = 0; bool isNested = false; ctx = asGetActiveContext(); if( ctx ) { if( ctx->GetEngine() == engine && ctx->PushState() == asSUCCESS ) isNested = true; else ctx = 0; } if( ctx == 0 ) { // Request a context from the engine ctx = engine->RequestContext(); if( ctx == 0 ) { // TODO: How to best report this failure? return *this; } } r = ctx->Prepare(engine->scriptFunctions[objType->beh.copy]); if( r < 0 ) { if( isNested ) ctx->PopState(); else engine->ReturnContext(ctx); // TODO: How to best report this failure? return *this; } r = ctx->SetArgAddress(0, const_cast(&other)); asASSERT( r >= 0 ); r = ctx->SetObject(this); asASSERT( r >= 0 ); for(;;) { r = ctx->Execute(); // We can't allow this execution to be suspended // so resume the execution immediately if( r != asEXECUTION_SUSPENDED ) break; } if( r != asEXECUTION_FINISHED ) { if( isNested ) { ctx->PopState(); // If the execution was aborted or an exception occurred, // then we should forward that to the outer execution. if( r == asEXECUTION_EXCEPTION ) { // TODO: How to improve this exception ctx->SetException(TXT_EXCEPTION_IN_NESTED_CALL); } else if( r == asEXECUTION_ABORTED ) ctx->Abort(); } else { // Return the context to the engine engine->ReturnContext(ctx); } return *this; } if( isNested ) ctx->PopState(); else { // Return the context to the engine engine->ReturnContext(ctx); } } } return *this; } int asCScriptObject::CopyFrom(asIScriptObject *other) { if( other == 0 ) return asINVALID_ARG; if( GetTypeId() != other->GetTypeId() ) return asINVALID_TYPE; *this = *(asCScriptObject*)other; return 0; } void *asCScriptObject::AllocateUninitializedObject(asCObjectType *objType, asCScriptEngine *engine) { void *ptr = 0; if( objType->flags & asOBJ_SCRIPT_OBJECT ) { ptr = engine->CallAlloc(objType); ScriptObject_ConstructUnitialized(objType, reinterpret_cast(ptr)); } else if( objType->flags & asOBJ_TEMPLATE ) { // Templates store the original factory that takes the object // type as a hidden parameter in the construct behaviour ptr = engine->CallGlobalFunctionRetPtr(objType->beh.construct, objType); } else if( objType->flags & asOBJ_REF ) { ptr = engine->CallGlobalFunctionRetPtr(objType->beh.factory); } else { ptr = engine->CallAlloc(objType); int funcIndex = objType->beh.construct; if( funcIndex ) engine->CallObjectMethod(ptr, funcIndex); } return ptr; } void asCScriptObject::FreeObject(void *ptr, asCObjectType *objType, asCScriptEngine *engine) { if( objType->flags & asOBJ_REF ) { asASSERT( (objType->flags & asOBJ_NOCOUNT) || objType->beh.release ); if( objType->beh.release ) engine->CallObjectMethod(ptr, objType->beh.release); } else { if( objType->beh.destruct ) engine->CallObjectMethod(ptr, objType->beh.destruct); engine->CallFree(ptr); } } void asCScriptObject::CopyObject(void *src, void *dst, asCObjectType *objType, asCScriptEngine *engine) { int funcIndex = objType->beh.copy; if( funcIndex ) { asCScriptFunction *func = engine->scriptFunctions[objType->beh.copy]; if( func->funcType == asFUNC_SYSTEM ) engine->CallObjectMethod(dst, src, funcIndex); else { // Call the script class' opAssign method asASSERT( objType->flags & asOBJ_SCRIPT_OBJECT ); reinterpret_cast(dst)->CopyFrom(reinterpret_cast(src)); } } else if( objType->size && (objType->flags & asOBJ_POD) ) memcpy(dst, src, objType->size); } void asCScriptObject::CopyHandle(asPWORD *src, asPWORD *dst, asCObjectType *objType, asCScriptEngine *engine) { // asOBJ_NOCOUNT doesn't have addref or release behaviours asASSERT( (objType->flags & asOBJ_NOCOUNT) || (objType->beh.release && objType->beh.addref) ); if( *dst && objType->beh.release ) engine->CallObjectMethod(*(void**)dst, objType->beh.release); *dst = *src; if( *dst && objType->beh.addref ) engine->CallObjectMethod(*(void**)dst, objType->beh.addref); } // TODO: weak: Should move to its own file asCLockableSharedBool::asCLockableSharedBool() : value(false) { refCount.set(1); } int asCLockableSharedBool::AddRef() const { return refCount.atomicInc(); } int asCLockableSharedBool::Release() const { int r = refCount.atomicDec(); if( r == 0 ) asDELETE(const_cast(this), asCLockableSharedBool); return r; } bool asCLockableSharedBool::Get() const { return value; } void asCLockableSharedBool::Set(bool v) { // Make sure the value is not changed while another thread // is inspecting it and taking a decision on what to do. Lock(); value = v; Unlock(); } void asCLockableSharedBool::Lock() const { ENTERCRITICALSECTION(lock); } void asCLockableSharedBool::Unlock() const { LEAVECRITICALSECTION(lock); } // Interface // Auxiliary function to allow applications to create shared // booleans without having to implement the logic for them AS_API asILockableSharedBool *asCreateLockableSharedBool() { return asNEW(asCLockableSharedBool); } END_AS_NAMESPACE