/* AngelCode Scripting Library Copyright (c) 2003-2011 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 */ // // as_scriptfunction.cpp // // A container for a compiled script function // #include "as_config.h" #include "as_scriptfunction.h" #include "as_tokendef.h" #include "as_scriptengine.h" #include "as_callfunc.h" #include "as_bytecode.h" #include "as_texts.h" BEGIN_AS_NAMESPACE #ifdef AS_MAX_PORTABILITY static void ScriptFunction_AddRef_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); self->AddRef(); } static void ScriptFunction_Release_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); self->Release(); } static void ScriptFunction_GetRefCount_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); *(int*)gen->GetAddressOfReturnLocation() = self->GetRefCount(); } static void ScriptFunction_SetFlag_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); self->SetFlag(); } static void ScriptFunction_GetFlag_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); *(bool*)gen->GetAddressOfReturnLocation() = self->GetFlag(); } static void ScriptFunction_EnumReferences_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); asIScriptEngine *engine = *(asIScriptEngine**)gen->GetAddressOfArg(0); self->EnumReferences(engine); } static void ScriptFunction_ReleaseAllHandles_Generic(asIScriptGeneric *gen) { asCScriptFunction *self = (asCScriptFunction*)gen->GetObject(); asIScriptEngine *engine = *(asIScriptEngine**)gen->GetAddressOfArg(0); self->ReleaseAllHandles(engine); } #endif void RegisterScriptFunction(asCScriptEngine *engine) { // Register the gc behaviours for the script functions int r; engine->functionBehaviours.engine = engine; engine->functionBehaviours.flags = asOBJ_REF | asOBJ_GC; engine->functionBehaviours.name = "_builtin_function_"; #ifndef AS_MAX_PORTABILITY r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_ADDREF, "void f()", asMETHOD(asCScriptFunction,AddRef), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_RELEASE, "void f()", asMETHOD(asCScriptFunction,Release), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_GETREFCOUNT, "int f()", asMETHOD(asCScriptFunction,GetRefCount), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_SETGCFLAG, "void f()", asMETHOD(asCScriptFunction,SetFlag), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_GETGCFLAG, "bool f()", asMETHOD(asCScriptFunction,GetFlag), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_ENUMREFS, "void f(int&in)", asMETHOD(asCScriptFunction,EnumReferences), asCALL_THISCALL); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_RELEASEREFS, "void f(int&in)", asMETHOD(asCScriptFunction,ReleaseAllHandles), asCALL_THISCALL); asASSERT( r >= 0 ); #else r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_ADDREF, "void f()", asFUNCTION(ScriptFunction_AddRef_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_RELEASE, "void f()", asFUNCTION(ScriptFunction_Release_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_GETREFCOUNT, "int f()", asFUNCTION(ScriptFunction_GetRefCount_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_SETGCFLAG, "void f()", asFUNCTION(ScriptFunction_SetFlag_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_GETGCFLAG, "bool f()", asFUNCTION(ScriptFunction_GetFlag_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_ENUMREFS, "void f(int&in)", asFUNCTION(ScriptFunction_EnumReferences_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); r = engine->RegisterBehaviourToObjectType(&engine->functionBehaviours, asBEHAVE_RELEASEREFS, "void f(int&in)", asFUNCTION(ScriptFunction_ReleaseAllHandles_Generic), asCALL_GENERIC); asASSERT( r >= 0 ); #endif } // internal asCScriptFunction::asCScriptFunction(asCScriptEngine *engine, asCModule *mod, asEFuncType _funcType) { refCount.set(1); this->engine = engine; funcType = _funcType; module = mod; objectType = 0; name = ""; isReadOnly = false; isPrivate = false; stackNeeded = 0; sysFuncIntf = 0; signatureId = 0; scriptSectionIdx = -1; dontCleanUpOnException = false; vfTableIdx = -1; jitFunction = 0; gcFlag = false; userData = 0; id = 0; accessMask = 0xFFFFFFFF; // TODO: optimize: The engine could notify the GC just before it wants to // discard the function. That way the GC won't waste time // trying to determine if the functions are garbage before // they can actually be considered garbage. // Notify the GC of script functions if( funcType == asFUNC_SCRIPT ) engine->gc.AddScriptObjectToGC(this, &engine->functionBehaviours); } // internal asCScriptFunction::~asCScriptFunction() { // Clean user data if( userData && engine->cleanFunctionFunc ) engine->cleanFunctionFunc(this); // Imported functions are not reference counted, nor are dummy // functions that are allocated on the stack asASSERT( funcType == asFUNC_DUMMY || funcType == asFUNC_IMPORTED || refCount.get() == 0 ); ReleaseReferences(); // Tell engine to free the function id if( funcType != -1 && funcType != asFUNC_IMPORTED && id ) engine->FreeScriptFunctionId(id); for( asUINT n = 0; n < variables.GetLength(); n++ ) { asDELETE(variables[n],asSScriptVariable); } if( sysFuncIntf ) { asDELETE(sysFuncIntf,asSSystemFunctionInterface); } for( asUINT p = 0; p < defaultArgs.GetLength(); p++ ) { if( defaultArgs[p] ) asDELETE(defaultArgs[p], asCString); } } // interface int asCScriptFunction::GetId() const { return id; } // interface int asCScriptFunction::AddRef() const { gcFlag = false; asASSERT( funcType != asFUNC_IMPORTED ); return refCount.atomicInc(); } // interface int asCScriptFunction::Release() const { gcFlag = false; asASSERT( funcType != asFUNC_IMPORTED ); int r = refCount.atomicDec(); if( r == 0 && funcType != -1 ) // Dummy functions are allocated on the stack and cannot be deleted asDELETE(const_cast(this),asCScriptFunction); return r; } // interface const char *asCScriptFunction::GetModuleName() const { if( module ) { return module->name.AddressOf(); } return 0; } // interface asIObjectType *asCScriptFunction::GetObjectType() const { return objectType; } // interface const char *asCScriptFunction::GetObjectName() const { if( objectType ) return objectType->GetName(); return 0; } // interface const char *asCScriptFunction::GetName() const { return name.AddressOf(); } // interface bool asCScriptFunction::IsReadOnly() const { return isReadOnly; } // interface bool asCScriptFunction::IsPrivate() const { return isPrivate; } // internal int asCScriptFunction::GetSpaceNeededForArguments() { // We need to check the size for each type int s = 0; for( asUINT n = 0; n < parameterTypes.GetLength(); n++ ) s += parameterTypes[n].GetSizeOnStackDWords(); return s; } // internal int asCScriptFunction::GetSpaceNeededForReturnValue() { return returnType.GetSizeOnStackDWords(); } // internal bool asCScriptFunction::DoesReturnOnStack() const { if( returnType.GetObjectType() && (returnType.GetObjectType()->flags & asOBJ_VALUE) && !returnType.IsReference() ) return true; return false; } // internal asCString asCScriptFunction::GetDeclarationStr(bool includeObjectName) const { asCString str; // TODO: default arg: Make the declaration with the default args an option // Don't add the return type for constructors and destructors if( !(returnType.GetTokenType() == ttVoid && objectType && (name == objectType->name || (name.GetLength() > 0 && name[0] == '~'))) ) { str = returnType.Format(); str += " "; } if( objectType && includeObjectName ) { if( objectType->name != "" ) str += objectType->name + "::"; else str += "_unnamed_type_::"; } if( name == "" ) str += "_unnamed_function_("; else str += name + "("; if( parameterTypes.GetLength() > 0 ) { asUINT n; for( n = 0; n < parameterTypes.GetLength() - 1; n++ ) { str += parameterTypes[n].Format(); if( parameterTypes[n].IsReference() && inOutFlags.GetLength() > n ) { if( inOutFlags[n] == asTM_INREF ) str += "in"; else if( inOutFlags[n] == asTM_OUTREF ) str += "out"; else if( inOutFlags[n] == asTM_INOUTREF ) str += "inout"; } if( defaultArgs.GetLength() > n && defaultArgs[n] ) { asCString tmp; tmp.Format(" arg%d = %s", n, defaultArgs[n]->AddressOf()); str += tmp; } str += ", "; } // Add the last parameter str += parameterTypes[n].Format(); if( parameterTypes[n].IsReference() && inOutFlags.GetLength() > n ) { if( inOutFlags[n] == asTM_INREF ) str += "in"; else if( inOutFlags[n] == asTM_OUTREF ) str += "out"; else if( inOutFlags[n] == asTM_INOUTREF ) str += "inout"; } if( defaultArgs.GetLength() > n && defaultArgs[n] ) { asCString tmp; tmp.Format(" arg%d = %s", n, defaultArgs[n]->AddressOf()); str += tmp; } } str += ")"; if( isReadOnly ) str += " const"; return str; } // interface int asCScriptFunction::FindNextLineWithCode(int line) const { if( lineNumbers.GetLength() == 0 ) return -1; // Check if given line is outside function // TODO: should start at declaration instead of first line of code if( line < (lineNumbers[1]&0xFFFFF) ) return -1; if( line > (lineNumbers[lineNumbers.GetLength()-1]&0xFFFFF) ) return -1; // Find the line with code on or right after the input line // TODO: optimize: Do binary search instead if( line == (lineNumbers[1]&0xFFFFF) ) return line; for( asUINT n = 3; n < lineNumbers.GetLength(); n += 2 ) { if( line <= (lineNumbers[n]&0xFFFFF) ) return (lineNumbers[n]&0xFFFFF); } return -1; } // internal int asCScriptFunction::GetLineNumber(int programPosition) { if( lineNumbers.GetLength() == 0 ) return 0; // Do a binary search in the buffer int max = (int)lineNumbers.GetLength()/2 - 1; int min = 0; int i = max/2; for(;;) { if( lineNumbers[i*2] < programPosition ) { // Have we found the largest number < programPosition? if( max == i ) return lineNumbers[i*2+1]; if( lineNumbers[i*2+2] > programPosition ) return lineNumbers[i*2+1]; min = i + 1; i = (max + min)/2; } else if( lineNumbers[i*2] > programPosition ) { // Have we found the smallest number > programPosition? if( min == i ) return lineNumbers[i*2+1]; max = i - 1; i = (max + min)/2; } else { // We found the exact position return lineNumbers[i*2+1]; } } } // interface asEFuncType asCScriptFunction::GetFuncType() const { return funcType; } // interface asUINT asCScriptFunction::GetVarCount() const { return int(variables.GetLength()); } // interface int asCScriptFunction::GetVar(asUINT index, const char **name, int *typeId) const { if( index >= variables.GetLength() ) return asINVALID_ARG; if( name ) *name = variables[index]->name.AddressOf(); if( typeId ) *typeId = engine->GetTypeIdFromDataType(variables[index]->type); return asSUCCESS; } // interface const char *asCScriptFunction::GetVarDecl(asUINT index) const { if( index >= variables.GetLength() ) return 0; asASSERT(threadManager); asCString *tempString = &threadManager->GetLocalData()->string; *tempString = variables[index]->type.Format(); *tempString += " " + variables[index]->name; return tempString->AddressOf(); } // internal void asCScriptFunction::AddVariable(asCString &name, asCDataType &type, int stackOffset) { asSScriptVariable *var = asNEW(asSScriptVariable); var->name = name; var->type = type; var->stackOffset = stackOffset; var->declaredAtProgramPos = 0; variables.PushLast(var); } // internal void asCScriptFunction::ComputeSignatureId() { // This function will compute the signatureId based on the // function name, return type, and parameter types. The object // type for methods is not used, so that class methods and // interface methods match each other. for( asUINT n = 0; n < engine->signatureIds.GetLength(); n++ ) { if( !IsSignatureEqual(engine->signatureIds[n]) ) continue; // We don't need to increment the reference counter here, because // asCScriptEngine::FreeScriptFunctionId will maintain the signature // id as the function is freed. signatureId = engine->signatureIds[n]->signatureId; return; } signatureId = id; engine->signatureIds.PushLast(this); } // internal bool asCScriptFunction::IsSignatureEqual(const asCScriptFunction *func) const { if( !IsSignatureExceptNameEqual(func) || name != func->name ) return false; return true; } // internal bool asCScriptFunction::IsSignatureExceptNameEqual(const asCScriptFunction *func) const { if( returnType != func->returnType ) return false; if( isReadOnly != func->isReadOnly ) return false; if( inOutFlags != func->inOutFlags ) return false; if( parameterTypes != func->parameterTypes ) return false; if( (objectType != 0) != (func->objectType != 0) ) return false; return true; } // internal void asCScriptFunction::AddReferences() { asUINT n; // This array will be used to make sure we only add the reference to the same resource once // This is especially important for global variables, as it expects the initialization function // to hold only one reference to the variable. However, if the variable is initialized through // the default constructor followed by the assignment operator we will have two references to // the variable in the function. asCArray ptrs; // Only count references if there is any bytecode if( byteCode.GetLength() ) { if( returnType.IsObject() ) returnType.GetObjectType()->AddRef(); for( asUINT p = 0; p < parameterTypes.GetLength(); p++ ) if( parameterTypes[p].IsObject() ) parameterTypes[p].GetObjectType()->AddRef(); for( asUINT n = 0; n < objVariableTypes.GetLength(); n++ ) objVariableTypes[n]->AddRef(); } // Go through the byte code and add references to all resources used by the function for( n = 0; n < byteCode.GetLength(); n += asBCTypeSize[asBCInfo[*(asBYTE*)&byteCode[n]].type] ) { switch( *(asBYTE*)&byteCode[n] ) { // Object types case asBC_OBJTYPE: case asBC_FREE: case asBC_REFCPY: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); objType->AddRef(); } break; // Object type and function case asBC_ALLOC: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); objType->AddRef(); int func = asBC_INTARG(&byteCode[n]+AS_PTR_SIZE); if( func ) engine->scriptFunctions[func]->AddRef(); } break; // Global variables case asBC_PGA: case asBC_LDG: case asBC_PshG4: case asBC_LdGRdR4: case asBC_CpyGtoV4: case asBC_CpyVtoG4: case asBC_SetG4: // Need to increase the reference for each global variable { void *gvarPtr = (void*)(size_t)asBC_PTRARG(&byteCode[n]); if( !gvarPtr ) break; asCGlobalProperty *prop = GetPropertyByGlobalVarPtr(gvarPtr); if( !prop ) break; // Only addref the properties once if( !ptrs.Exists(gvarPtr) ) { prop->AddRef(); ptrs.PushLast(gvarPtr); } asCConfigGroup *group = engine->FindConfigGroupForGlobalVar(prop->id); if( group != 0 ) group->AddRef(); } break; // System functions case asBC_CALLSYS: { int funcId = asBC_INTARG(&byteCode[n]); asCConfigGroup *group = engine->FindConfigGroupForFunction(funcId); if( group != 0 ) group->AddRef(); engine->scriptFunctions[funcId]->AddRef(); } break; // Functions case asBC_CALL: case asBC_CALLINTF: { int func = asBC_INTARG(&byteCode[n]); engine->scriptFunctions[func]->AddRef(); } break; // Function pointers case asBC_FuncPtr: { asCScriptFunction *func = (asCScriptFunction*)(size_t)asBC_PTRARG(&byteCode[n]); func->AddRef(); } break; } } } // internal void asCScriptFunction::ReleaseReferences() { asUINT n; asCArray ptrs; // Only count references if there is any bytecode if( byteCode.GetLength() ) { if( returnType.IsObject() ) returnType.GetObjectType()->Release(); for( asUINT p = 0; p < parameterTypes.GetLength(); p++ ) if( parameterTypes[p].IsObject() ) parameterTypes[p].GetObjectType()->Release(); for( asUINT n = 0; n < objVariableTypes.GetLength(); n++ ) if( objVariableTypes[n] ) objVariableTypes[n]->Release(); } // Go through the byte code and release references to all resources used by the function for( n = 0; n < byteCode.GetLength(); n += asBCTypeSize[asBCInfo[*(asBYTE*)&byteCode[n]].type] ) { switch( *(asBYTE*)&byteCode[n] ) { // Object types case asBC_OBJTYPE: case asBC_FREE: case asBC_REFCPY: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); if( objType ) objType->Release(); } break; // Object type and function case asBC_ALLOC: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); if( objType ) objType->Release(); int func = asBC_INTARG(&byteCode[n]+AS_PTR_SIZE); if( func ) engine->scriptFunctions[func]->Release(); } break; // Global variables case asBC_PGA: case asBC_LDG: case asBC_PshG4: case asBC_LdGRdR4: case asBC_CpyGtoV4: case asBC_CpyVtoG4: case asBC_SetG4: // Need to increase the reference for each global variable { void *gvarPtr = (void*)(size_t)asBC_PTRARG(&byteCode[n]); if( !gvarPtr ) break; asCGlobalProperty *prop = GetPropertyByGlobalVarPtr(gvarPtr); if( !prop ) break; // Only release the properties once if( !ptrs.Exists(gvarPtr) ) { prop->Release(); ptrs.PushLast(gvarPtr); } asCConfigGroup *group = engine->FindConfigGroupForGlobalVar(prop->id); if( group != 0 ) group->Release(); } break; // System functions case asBC_CALLSYS: { int funcId = asBC_INTARG(&byteCode[n]); asCConfigGroup *group = engine->FindConfigGroupForFunction(funcId); if( group != 0 ) group->Release(); if( funcId ) engine->scriptFunctions[funcId]->Release(); } break; // Functions case asBC_CALL: case asBC_CALLINTF: { int func = asBC_INTARG(&byteCode[n]); if( func ) engine->scriptFunctions[func]->Release(); } break; // Function pointers case asBC_FuncPtr: { asCScriptFunction *func = (asCScriptFunction*)(size_t)asBC_PTRARG(&byteCode[n]); if( func ) func->Release(); } break; } } // Release the jit compiled function if( jitFunction ) engine->jitCompiler->ReleaseJITFunction(jitFunction); jitFunction = 0; } // interface int asCScriptFunction::GetReturnTypeId() const { return engine->GetTypeIdFromDataType(returnType); } // interface asUINT asCScriptFunction::GetParamCount() const { return (asUINT)parameterTypes.GetLength(); } // interface int asCScriptFunction::GetParamTypeId(asUINT index, asDWORD *flags) const { if( index >= parameterTypes.GetLength() ) return asINVALID_ARG; if( flags ) *flags = inOutFlags[index]; return engine->GetTypeIdFromDataType(parameterTypes[index]); } // interface asIScriptEngine *asCScriptFunction::GetEngine() const { return engine; } // interface const char *asCScriptFunction::GetDeclaration(bool includeObjectName) const { asASSERT(threadManager); asCString *tempString = &threadManager->GetLocalData()->string; *tempString = GetDeclarationStr(includeObjectName); return tempString->AddressOf(); } // interface const char *asCScriptFunction::GetScriptSectionName() const { if( scriptSectionIdx >= 0 ) return engine->scriptSectionNames[scriptSectionIdx]->AddressOf(); return 0; } // interface const char *asCScriptFunction::GetConfigGroup() const { asCConfigGroup *group = engine->FindConfigGroupForFunction(id); if( group == 0 ) return 0; return group->groupName.AddressOf(); } // internal void asCScriptFunction::JITCompile() { asIJITCompiler *jit = engine->GetJITCompiler(); if( !jit ) return; // Release the previous function, if any if( jitFunction ) { engine->jitCompiler->ReleaseJITFunction(jitFunction); jitFunction = 0; } // Compile for native system int r = jit->CompileFunction(this, &jitFunction); if( r < 0 ) { asASSERT( jitFunction == 0 ); } } // interface asDWORD *asCScriptFunction::GetByteCode(asUINT *length) { if( length ) *length = (asUINT)byteCode.GetLength(); if( byteCode.GetLength() ) { return byteCode.AddressOf(); } return 0; } // interface void *asCScriptFunction::SetUserData(void *data) { void *oldData = userData; userData = data; return oldData; } // interface void *asCScriptFunction::GetUserData() const { return userData; } // internal asCGlobalProperty *asCScriptFunction::GetPropertyByGlobalVarPtr(void *gvarPtr) { for( asUINT g = 0; g < engine->globalProperties.GetLength(); g++ ) if( engine->globalProperties[g] && engine->globalProperties[g]->GetAddressOfValue() == gvarPtr ) return engine->globalProperties[g]; return 0; } // internal int asCScriptFunction::GetRefCount() { return refCount.get(); } // internal void asCScriptFunction::SetFlag() { gcFlag = true; } // internal bool asCScriptFunction::GetFlag() { return gcFlag; } // internal void asCScriptFunction::EnumReferences(asIScriptEngine *) { // Notify the GC of all object types used if( returnType.IsObject() ) engine->GCEnumCallback(returnType.GetObjectType()); for( asUINT p = 0; p < parameterTypes.GetLength(); p++ ) if( parameterTypes[p].IsObject() ) engine->GCEnumCallback(parameterTypes[p].GetObjectType()); for( asUINT t = 0; t < objVariableTypes.GetLength(); t++ ) engine->GCEnumCallback(objVariableTypes[t]); // Notify the GC of all script functions that is accessed for( asUINT n = 0; n < byteCode.GetLength(); n += asBCTypeSize[asBCInfo[*(asBYTE*)&byteCode[n]].type] ) { switch( *(asBYTE*)&byteCode[n] ) { case asBC_OBJTYPE: case asBC_FREE: case asBC_REFCPY: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); engine->GCEnumCallback(objType); } break; case asBC_ALLOC: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); engine->GCEnumCallback(objType); int func = asBC_INTARG(&byteCode[n]+AS_PTR_SIZE); if( func ) engine->GCEnumCallback(engine->scriptFunctions[func]); } break; case asBC_CALL: case asBC_CALLINTF: { int func = asBC_INTARG(&byteCode[n]); if( func ) engine->GCEnumCallback(engine->scriptFunctions[func]); } break; // Function pointers case asBC_FuncPtr: { asCScriptFunction *func = (asCScriptFunction*)(size_t)asBC_PTRARG(&byteCode[n]); if( func ) engine->GCEnumCallback(func); } break; // Global variables case asBC_PGA: case asBC_LDG: case asBC_PshG4: case asBC_LdGRdR4: case asBC_CpyGtoV4: case asBC_CpyVtoG4: case asBC_SetG4: // Need to enumerate the reference for each global variable { // TODO: optimize: Keep an array of accessed global properties void *gvarPtr = (void*)(size_t)asBC_PTRARG(&byteCode[n]); asCGlobalProperty *prop = GetPropertyByGlobalVarPtr(gvarPtr); engine->GCEnumCallback(prop); } break; } } } // internal void asCScriptFunction::ReleaseAllHandles(asIScriptEngine *) { // Release paramaters if( byteCode.GetLength() ) { if( returnType.IsObject() ) { returnType.GetObjectType()->Release(); returnType = asCDataType::CreatePrimitive(ttVoid, false); } for( asUINT p = 0; p < parameterTypes.GetLength(); p++ ) if( parameterTypes[p].IsObject() ) { parameterTypes[p].GetObjectType()->Release(); parameterTypes[p] = asCDataType::CreatePrimitive(ttInt, false); } for( asUINT n = 0; n < objVariableTypes.GetLength(); n++ ) objVariableTypes[n]->Release(); objVariableTypes.SetLength(0); } // Release all script functions for( asUINT n = 0; n < byteCode.GetLength(); n += asBCTypeSize[asBCInfo[*(asBYTE*)&byteCode[n]].type] ) { switch( *(asBYTE*)&byteCode[n] ) { // Object types case asBC_OBJTYPE: case asBC_FREE: case asBC_REFCPY: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); if( objType ) { objType->Release(); *(void**)&byteCode[n+1] = 0; } } break; case asBC_ALLOC: { asCObjectType *objType = (asCObjectType*)(size_t)asBC_PTRARG(&byteCode[n]); if( objType ) { objType->Release(); * (void**)&byteCode[n+1] = 0; } int func = asBC_INTARG(&byteCode[n]+AS_PTR_SIZE); if( func ) { engine->scriptFunctions[func]->Release(); byteCode[n+AS_PTR_SIZE+1] = 0; } } break; case asBC_CALL: case asBC_CALLINTF: { int func = asBC_INTARG(&byteCode[n]); if( func ) { engine->scriptFunctions[func]->Release(); byteCode[n+1] = 0; } } break; // Function pointers case asBC_FuncPtr: { asCScriptFunction *func = (asCScriptFunction*)(size_t)asBC_PTRARG(&byteCode[n]); if( func ) { func->Release(); *(size_t*)&byteCode[n+1] = 0; } } break; // The global variables are not released here. It is enough that the global // variable itself release the function to break the circle } } } END_AS_NAMESPACE