/* AngelCode Scripting Library Copyright (c) 2003-2013 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_generic.cpp // // This class handles the call to a function registered with asCALL_GENERIC // #include "as_generic.h" #include "as_scriptfunction.h" #include "as_objecttype.h" #include "as_scriptengine.h" BEGIN_AS_NAMESPACE // TODO: runtime optimize: The access to the arguments should be optimized so that code // doesn't have to count the position of the argument with every call // internal asCGeneric::asCGeneric(asCScriptEngine *engine, asCScriptFunction *sysFunction, void *currentObject, asDWORD *stackPointer) { this->engine = engine; this->sysFunction = sysFunction; this->currentObject = currentObject; this->stackPointer = stackPointer; objectRegister = 0; returnVal = 0; } // internal asCGeneric::~asCGeneric() { } // interface asIScriptEngine *asCGeneric::GetEngine() const { return (asIScriptEngine*)engine; } // interface asIScriptFunction *asCGeneric::GetFunction() const { return sysFunction; } // interface void *asCGeneric::GetObject() { return currentObject; } // interface int asCGeneric::GetObjectTypeId() const { asCDataType dt = asCDataType::CreateObject(sysFunction->objectType, false); return engine->GetTypeIdFromDataType(dt); } // interface int asCGeneric::GetArgCount() const { return (int)sysFunction->parameterTypes.GetLength(); } // interface asBYTE asCGeneric::GetArgByte(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 1 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(asBYTE*)&stackPointer[offset]; } // interface asWORD asCGeneric::GetArgWord(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 2 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(asWORD*)&stackPointer[offset]; } // interface asDWORD asCGeneric::GetArgDWord(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 4 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(asDWORD*)&stackPointer[offset]; } // interface asQWORD asCGeneric::GetArgQWord(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 8 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(asQWORD*)(&stackPointer[offset]); } // interface float asCGeneric::GetArgFloat(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 4 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(float*)(&stackPointer[offset]); } // interface double asCGeneric::GetArgDouble(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->IsObject() || dt->IsReference() ) return 0; if( dt->GetSizeInMemoryBytes() != 8 ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(double*)(&stackPointer[offset]); } // interface void *asCGeneric::GetArgAddress(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( !dt->IsReference() && !dt->IsObjectHandle() ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return (void*)*(asPWORD*)(&stackPointer[offset]); } // interface void *asCGeneric::GetArgObject(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Verify that the type is correct asCDataType *dt = &sysFunction->parameterTypes[arg]; if( !dt->IsObject() ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Get the value return *(void**)(&stackPointer[offset]); } // interface void *asCGeneric::GetAddressOfArg(asUINT arg) { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; // Determine the position of the argument int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // For object variables it's necessary to dereference the pointer to get the address of the value if( !sysFunction->parameterTypes[arg].IsReference() && sysFunction->parameterTypes[arg].IsObject() && !sysFunction->parameterTypes[arg].IsObjectHandle() ) return *(void**)&stackPointer[offset]; // Get the address of the value return &stackPointer[offset]; } // interface int asCGeneric::GetArgTypeId(asUINT arg, asDWORD *flags) const { if( arg >= (unsigned)sysFunction->parameterTypes.GetLength() ) return 0; if( flags ) { *flags = sysFunction->inOutFlags[arg]; *flags |= sysFunction->parameterTypes[arg].IsReadOnly() ? asTM_CONST : 0; } asCDataType *dt = &sysFunction->parameterTypes[arg]; if( dt->GetTokenType() != ttQuestion ) return engine->GetTypeIdFromDataType(*dt); else { int offset = 0; for( asUINT n = 0; n < arg; n++ ) offset += sysFunction->parameterTypes[n].GetSizeOnStackDWords(); // Skip the actual value to get to the type id offset += AS_PTR_SIZE; // Get the value return stackPointer[offset]; } } // interface int asCGeneric::SetReturnByte(asBYTE val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeInMemoryBytes() != 1 ) return asINVALID_TYPE; // Store the value *(asBYTE*)&returnVal = val; return 0; } // interface int asCGeneric::SetReturnWord(asWORD val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeInMemoryBytes() != 2 ) return asINVALID_TYPE; // Store the value *(asWORD*)&returnVal = val; return 0; } // interface int asCGeneric::SetReturnDWord(asDWORD val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeInMemoryBytes() != 4 ) return asINVALID_TYPE; // Store the value *(asDWORD*)&returnVal = val; return 0; } // interface int asCGeneric::SetReturnQWord(asQWORD val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeOnStackDWords() != 2 ) return asINVALID_TYPE; // Store the value returnVal = val; return 0; } // interface int asCGeneric::SetReturnFloat(float val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeOnStackDWords() != 1 ) return asINVALID_TYPE; // Store the value *(float*)&returnVal = val; return 0; } // interface int asCGeneric::SetReturnDouble(double val) { // Verify the type of the return value if( sysFunction->returnType.IsObject() || sysFunction->returnType.IsReference() ) return asINVALID_TYPE; if( sysFunction->returnType.GetSizeOnStackDWords() != 2 ) return asINVALID_TYPE; // Store the value *(double*)&returnVal = val; return 0; } // interface int asCGeneric::SetReturnAddress(void *val) { // Verify the type of the return value if( sysFunction->returnType.IsReference() ) { // Store the value *(void**)&returnVal = val; return 0; } else if( sysFunction->returnType.IsObjectHandle() ) { // Store the handle without increasing reference objectRegister = val; return 0; } return asINVALID_TYPE; } // interface int asCGeneric::SetReturnObject(void *obj) { asCDataType *dt = &sysFunction->returnType; if( !dt->IsObject() ) return asINVALID_TYPE; if( dt->IsReference() ) { *(void**)&returnVal = obj; return 0; } if( dt->IsObjectHandle() ) { // Increase the reference counter asSTypeBehaviour *beh = &dt->GetObjectType()->beh; if( obj && beh->addref ) engine->CallObjectMethod(obj, beh->addref); } else { // If function returns object by value the memory is already allocated. // Here we should just initialize that memory by calling the copy constructor // or the default constructor followed by the assignment operator void *mem = (void*)*(asPWORD*)&stackPointer[-AS_PTR_SIZE]; engine->ConstructScriptObjectCopy(mem, obj, dt->GetObjectType()); return 0; } objectRegister = obj; return 0; } // internal void *asCGeneric::GetReturnPointer() { asCDataType &dt = sysFunction->returnType; if( dt.IsObject() && !dt.IsReference() ) { // This function doesn't support returning on the stack but the use of // the function doesn't require it so we don't need to implement it here. asASSERT( !sysFunction->DoesReturnOnStack() ); return &objectRegister; } return &returnVal; } // interface void *asCGeneric::GetAddressOfReturnLocation() { asCDataType &dt = sysFunction->returnType; if( dt.IsObject() && !dt.IsReference() ) { if( sysFunction->DoesReturnOnStack() ) { // The memory is already preallocated on the stack, // and the pointer to the location is found before the first arg return (void*)*(asPWORD*)&stackPointer[-AS_PTR_SIZE]; } // Reference types store the handle in the objectReference return &objectRegister; } // Primitive types and references are stored in the returnVal property return &returnVal; } // interface int asCGeneric::GetReturnTypeId(asDWORD *flags) const { return sysFunction->GetReturnTypeId(flags); } END_AS_NAMESPACE