/* AngelCode Scripting Library Copyright (c) 2003-2009 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_callfunc_xenon.cpp // // These functions handle the actual calling of system functions // // This version is Xenon specific // Modified from as_callfunc_ppc.cpp by Laszlo Perneky Februar 2007 #include "as_config.h" #ifndef AS_MAX_PORTABILITY #ifdef AS_XENON #include "as_callfunc.h" #include "as_scriptengine.h" #include "as_texts.h" #include "as_tokendef.h" #include #include BEGIN_AS_NAMESPACE #define AS_PPC_MAX_ARGS 32 #define AS_MAX_REG_FLOATS 13 #define AS_MAX_REG_INTS 8 #define AS_PPC_THISCALL_REG 1 #define AS_PPC_RETURNINMEM_REG 1 #define AS_PPC_ENDOFARGS 1 // The array used to send values to the correct places. // Contains a byte of argTypes to indicate the register type to load, or zero if end of arguments extern "C" { enum argTypes { ppcENDARG = 0, ppcINTARG, ppcFLOATARG, ppcDOUBLEARG }; static asBYTE ppcArgsType[AS_PPC_MAX_ARGS + AS_PPC_RETURNINMEM_REG + AS_PPC_THISCALL_REG + AS_PPC_ENDOFARGS]; static asDWORD ppcArgs[AS_PPC_MAX_ARGS + AS_PPC_RETURNINMEM_REG + AS_PPC_THISCALL_REG]; } // Loads all data into the correct places and calls the function. // ppcArgsType is an array containing a byte type (enum argTypes) for each argument. // iStackArgSize is the size in bytes for how much data to put on the stack frame //-------------------------------------------------------------------- asQWORD __declspec(naked) ppcFunc(const asDWORD *pArgs, int iStackArgSize, asDWORD dwFunc) { __asm { ////////////////////////////////////////////////////////////////////////// // Prepare args ////////////////////////////////////////////////////////////////////////// _ppcFunc: // setup stack // Read link register mflr r12 // Stack the link register stw r12, -8(r1) // Move stack pointer stwu r1, -70h(r1) mr r29, r3 // pArgs mr r30, r4 // iStackArgSize mr r27, r5 // dwFunc // Clear some registers sub r0, r0, r0 // Counting of used/assigned GPR's mr r23, r0 // Counting of used/assigned Float Registers mr r22, r0 // Fetch argument types array address lau r25, ppcArgsType lal r25, r25, ppcArgsType // Fetch arguments array address lau r26, ppcArgs lal r26, r26, ppcArgs // Begin loading and stacking registers subi r25, r25, 1 ////////////////////////////////////////////////////////////////////////// // Fetch the next argument ////////////////////////////////////////////////////////////////////////// ppcNextArg: // Increment rArgTypePtr addi r25, r25, 1 // Get data type lbz r24, 0(r25) // r24 holds the data type cmplwi cr6, r24, 0 beq cr6, ppcArgsEnd cmplwi cr6, r24, 1 beq cr6, ppcArgIsInteger cmplwi cr6, r24, 2 beq cr6, ppcArgIsFloat cmplwi cr6, r24, 3 beq cr6, ppcArgIsDouble ////////////////////////////////////////////////////////////////////////// // Load and stack integer arguments ////////////////////////////////////////////////////////////////////////// ppcArgIsInteger: // Get the arg from the stack lwz r11, 0(r26) // r23 holds the integer arg count so far cmplwi cr6, r23, 0 beq cr6, ppcLoadIntReg0 cmplwi cr6, r23, 1 beq cr6, ppcLoadIntReg1 cmplwi cr6, r23, 2 beq cr6, ppcLoadIntReg2 cmplwi cr6, r23, 3 beq cr6, ppcLoadIntReg3 cmplwi cr6, r23, 4 beq cr6, ppcLoadIntReg4 cmplwi cr6, r23, 5 beq cr6, ppcLoadIntReg5 cmplwi cr6, r23, 6 beq cr6, ppcLoadIntReg6 cmplwi cr6, r23, 7 beq cr6, ppcLoadIntReg7 // no more than 8 parameters b ppcLoadIntRegUpd ppcLoadIntReg0: mr r3, r11 b ppcLoadIntRegUpd ppcLoadIntReg1: mr r4, r11 b ppcLoadIntRegUpd ppcLoadIntReg2: mr r5, r11 b ppcLoadIntRegUpd ppcLoadIntReg3: mr r6, r11 b ppcLoadIntRegUpd ppcLoadIntReg4: mr r7, r11 b ppcLoadIntRegUpd ppcLoadIntReg5: mr r8, r11 b ppcLoadIntRegUpd ppcLoadIntReg6: mr r9, r11 b ppcLoadIntRegUpd ppcLoadIntReg7: mr r10, r11 b ppcLoadIntRegUpd ppcLoadIntRegUpd: // Increment used int register count addi r23, r23, 1 // Increment rArgsPtr addi r29, r29, 4 // Increment rStackPtr addi r26, r26, 4 b ppcNextArg ////////////////////////////////////////////////////////////////////////// // Load and stack float arguments ////////////////////////////////////////////////////////////////////////// ppcArgIsFloat: // Get the arg from the stack lfs fr15, 0(r26) // r22 holds the float arg count so far cmplwi cr6, r23, 0 beq cr6, ppcLoadFloatReg0 cmplwi cr6, r23, 1 beq cr6, ppcLoadFloatReg1 cmplwi cr6, r23, 2 beq cr6, ppcLoadFloatReg2 cmplwi cr6, r23, 3 beq cr6, ppcLoadFloatReg3 cmplwi cr6, r23, 4 beq cr6, ppcLoadFloatReg4 cmplwi cr6, r23, 5 beq cr6, ppcLoadFloatReg5 cmplwi cr6, r23, 6 beq cr6, ppcLoadFloatReg6 cmplwi cr6, r23, 7 beq cr6, ppcLoadFloatReg7 cmplwi cr6, r23, 8 beq cr6, ppcLoadFloatReg8 cmplwi cr6, r23, 9 beq cr6, ppcLoadFloatReg9 cmplwi cr6, r23, 10 beq cr6, ppcLoadFloatReg10 cmplwi cr6, r23, 11 beq cr6, ppcLoadFloatReg11 cmplwi cr6, r23, 12 beq cr6, ppcLoadFloatReg12 cmplwi cr6, r23, 13 beq cr6, ppcLoadFloatReg13 cmplwi cr6, r23, 14 beq cr6, ppcLoadFloatReg14 // no more than 14 parameters b ppcLoadFloatRegUpd ppcLoadFloatReg0: fmr fr0, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg1: fmr fr1, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg2: fmr fr2, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg3: fmr fr3, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg4: fmr fr4, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg5: fmr fr5, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg6: fmr fr6, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg7: fmr fr7, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg8: fmr fr8, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg9: fmr fr9, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg10: fmr fr10, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg11: fmr fr11, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg12: fmr fr12, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg13: fmr fr13, fr15 b ppcLoadFloatRegUpd ppcLoadFloatReg14: fmr fr14, fr15 b ppcLoadFloatRegUpd ppcLoadFloatRegUpd: // Increment used float register count addi r22, r22, 1 // Increment used int register count - a float reg eats up a GPR addi r23, r23, 1 // Increment rArgsPtr addi r29, r29, 4 // Increment rStackPtr addi r26, r26, 4 b ppcNextArg ////////////////////////////////////////////////////////////////////////// // Load and stack double float arguments ////////////////////////////////////////////////////////////////////////// ppcArgIsDouble: // Get the arg from the stack lfs fr15, 0(r26) // r22 holds the float arg count so far cmplwi cr6, r23, 0 beq cr6, ppcLoadDoubleReg0 cmplwi cr6, r23, 1 beq cr6, ppcLoadDoubleReg1 cmplwi cr6, r23, 2 beq cr6, ppcLoadDoubleReg2 cmplwi cr6, r23, 3 beq cr6, ppcLoadDoubleReg3 cmplwi cr6, r23, 4 beq cr6, ppcLoadDoubleReg4 cmplwi cr6, r23, 5 beq cr6, ppcLoadDoubleReg5 cmplwi cr6, r23, 6 beq cr6, ppcLoadDoubleReg6 cmplwi cr6, r23, 7 beq cr6, ppcLoadDoubleReg7 cmplwi cr6, r23, 8 beq cr6, ppcLoadDoubleReg8 cmplwi cr6, r23, 9 beq cr6, ppcLoadDoubleReg9 cmplwi cr6, r23, 10 beq cr6, ppcLoadDoubleReg10 cmplwi cr6, r23, 11 beq cr6, ppcLoadDoubleReg11 cmplwi cr6, r23, 12 beq cr6, ppcLoadDoubleReg12 cmplwi cr6, r23, 13 beq cr6, ppcLoadDoubleReg13 cmplwi cr6, r23, 14 beq cr6, ppcLoadDoubleReg14 ppcLoadDoubleReg0: fmr fr0, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg1: fmr fr1, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg2: fmr fr2, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg3: fmr fr3, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg4: fmr fr4, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg5: fmr fr5, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg6: fmr fr6, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg7: fmr fr7, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg8: fmr fr8, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg9: fmr fr9, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg10: fmr fr10, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg11: fmr fr11, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg12: fmr fr12, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg13: fmr fr13, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleReg14: fmr fr14, fr15 b ppcLoadDoubleRegUpd ppcLoadDoubleRegUpd: // Increment used float register count addi r22, r22, 1 // Increment used int register count addi r23, r23, 1 // Increment rArgsPtr addi r29, r29, 4 // Increment rStackPtr addi r26, r26, 4 b ppcNextArg ////////////////////////////////////////////////////////////////////////// // Finished ////////////////////////////////////////////////////////////////////////// ppcArgsEnd: // Call the function mtctr r27 bctrl // Function returned // Restore callers stack addi r1, r1, 70h // Fetch return link to caller lwz r12, -8(r1) mtlr r12 blr } } // Puts the arguments in the correct place in the stack array. //------------------------------------------------------------------- void stackArgs(const asDWORD *pArgs, int &iNumIntArgs, int &iNumFloatArgs, int &iNumDoubleArgs) { int iArgWordPos = iNumIntArgs + iNumFloatArgs + iNumDoubleArgs; for (int iArg = 0; iArg < AS_PPC_MAX_ARGS; iArg++) { if (ppcArgsType[iArg] == ppcENDARG) break; if (ppcArgsType[iArg] == ppcFLOATARG) { // stow float ((float *)ppcArgs)[iArgWordPos] = ((float *)(pArgs))[iArg]; iNumFloatArgs++; iArgWordPos++; // add one word } if (ppcArgsType[iArg] == ppcDOUBLEARG) { // stow double ((double *)ppcArgs)[iArgWordPos] = ((double *)(pArgs))[iArg]; iNumDoubleArgs++; iArgWordPos++; // add two words } if (ppcArgsType[iArg] == ppcINTARG) { // stow register ((int *)ppcArgs)[iArgWordPos] = ((int *)(pArgs))[iArg]; iNumIntArgs++; iArgWordPos++; } } } // Prepare the arg list for a CDecl funtion and then call it //-------------------------------------------------------------------- asQWORD CallCDeclFunction(const asDWORD *pArgs, int iArgSize, asDWORD dwFunc) { int iIntArgs = 0; int iFloatArgs = 0; int iDoubleArgs = 0; // Put the arguments in the correct places in the ppcArgs array if (iArgSize > 0) stackArgs(pArgs, iIntArgs, iFloatArgs, iDoubleArgs); return ppcFunc(ppcArgs, iArgSize, dwFunc); } // This function is identical to CallCDeclFunction, with the only difference that // the value in the first parameter is the object //-------------------------------------------------------------------- asQWORD CallThisCallFunction(const void *pObj, const asDWORD *pArgs, int iArgSize, asDWORD dwFunc) { int iIntArgs = 0; int iFloatArgs = 0; int iDoubleArgs = 0; // Put the arguments in the correct places in the ppcArgs array /the this ptr is already in pArgs/ if (iArgSize > 0) stackArgs(pArgs, iIntArgs, iFloatArgs, iDoubleArgs); return ppcFunc(ppcArgs, iArgSize, dwFunc); } // This function is identical to CallCDeclFunction, with the only difference that // the value in the last parameter is the object //-------------------------------------------------------------------- asQWORD CallThisCallFunction_objLast(const void *pObj, const asDWORD *pArgs, int iArgSize, asDWORD dwFunc) { int iIntArgs = 0; int iFloatArgs = 0; int iDoubleArgs = 0; // Put the arguments in the correct places in the ppcArgs array /the this ptr is already in pArgs/ if (iArgSize > 0) stackArgs(pArgs, iIntArgs, iFloatArgs, iDoubleArgs); int iNumArgs = iIntArgs + iFloatArgs + iDoubleArgs; if (iNumArgs < AS_PPC_MAX_ARGS) { ppcArgs[iNumArgs] = (asDWORD)pObj; ppcArgsType[iNumArgs] = ppcINTARG; } return ppcFunc(ppcArgs, iArgSize + sizeof(pObj), dwFunc); } //-------------------------------------------------------------------- asDWORD GetReturnedFloat() { asDWORD f; __asm { stfs fr0, f } return f; } asQWORD GetReturnedDouble() //-------------------------------------------------------------------- { asQWORD f; __asm { stfd fr0, f } return f; } int CallSystemFunction(int iId, asCContext *pContext, void *pObjectPointer) //-------------------------------------------------------------------- { memset(ppcArgsType, 0, sizeof(ppcArgsType)); asCScriptEngine *pEngine = pContext->engine; asCScriptFunction *pDescr = pEngine->scriptFunctions[iId]; asSSystemFunctionInterface *pSysFunc = pDescr->sysFuncIntf; int iCallConv = pSysFunc->callConv; if (iCallConv == ICC_GENERIC_FUNC || iCallConv == ICC_GENERIC_METHOD) return pContext->CallGeneric(iId, pObjectPointer); asQWORD dwRetQW = 0; void *pFunc = (void *)pSysFunc->func; int iParamSize = pSysFunc->paramSize; asDWORD *pArgs = pContext->regs.stackPointer; void *pRetPointer = 0; void *pObj = 0; int iPopSize = iParamSize; asDWORD *pVftable; // We generate the parameter list to this, so it fits to teh callingconvention asDWORD fixedArgs[AS_PPC_MAX_ARGS + AS_PPC_RETURNINMEM_REG + AS_PPC_THISCALL_REG]; memset(fixedArgs, 0, sizeof(fixedArgs)); int iArgsPtr = 0; pContext->regs.objectType = pDescr->returnType.GetObjectType(); // If the function returns an object in memory, we allocate the memory and put the ptr to the front (will go to r3) if (pDescr->returnType.IsObject() && !pDescr->returnType.IsReference() && !pDescr->returnType.IsObjectHandle()) { pRetPointer = pEngine->CallAlloc(pDescr->returnType.GetObjectType()); if (pSysFunc->hostReturnInMemory) iCallConv++; fixedArgs[iArgsPtr] = (asDWORD)pRetPointer; ppcArgsType[iArgsPtr] = ppcINTARG; iArgsPtr++; } // Find out if we have an object if (iCallConv >= ICC_THISCALL) { if (pObjectPointer) { pObj = pObjectPointer; } else { // The object pointer should be popped from the context stack iPopSize++; pObj = (void *)*(pArgs); pArgs++; // Check for null pointer if (pObj == 0) { pContext->SetInternalException(TXT_NULL_POINTER_ACCESS); if (pRetPointer) pEngine->CallFree(pRetPointer); return 0; } // Add the base offset for multiple inheritance pObj = (void *)(int(pObj) + pSysFunc->baseOffset); } } // If we have an object and it's not objectlast, then we put it az the first arg if (pObj && iCallConv != ICC_CDECL_OBJLAST && iCallConv != ICC_CDECL_OBJLAST_RETURNINMEM) { fixedArgs[iArgsPtr] = (asDWORD)pObj; ppcArgsType[iArgsPtr] = ppcINTARG; iArgsPtr++; } asASSERT(pDescr->parameterTypes.GetLength() <= AS_PPC_MAX_ARGS); // Parameter calculation magic asDWORD paramBuffer[64]; if (pSysFunc->takesObjByVal) { iParamSize = 0; int iSpos = 0; int iDpos = 1; for (asUINT uParam = 0; uParam < pDescr->parameterTypes.GetLength(); uParam++) { // Parameter object by value if (pDescr->parameterTypes[uParam].IsObject() && !pDescr->parameterTypes[uParam].IsObjectHandle() && !pDescr->parameterTypes[uParam].IsReference()) { #ifdef COMPLEX_OBJS_PASSED_BY_REF if (pDescr->parameterTypes[uParam].GetObjectType()->flags & COMPLEX_MASK) { paramBuffer[dpos++] = args[spos++]; paramSize++; } else #endif { // Copy the object's memory to the buffer memcpy(¶mBuffer[iDpos], *(void **)(pArgs + iSpos), pDescr->parameterTypes[uParam].GetSizeInMemoryBytes()); // Delete the original memory pEngine->CallFree(*(char **)(pArgs + iSpos)); pArgs[uParam] = (asDWORD)¶mBuffer[iDpos]; iSpos++; iDpos += pDescr->parameterTypes[uParam].GetSizeInMemoryDWords(); iParamSize += pDescr->parameterTypes[uParam].GetSizeInMemoryDWords(); } } else { // Copy the value directly paramBuffer[iDpos++] = pArgs[iSpos++]; if (pDescr->parameterTypes[uParam].GetSizeOnStackDWords() > 1) paramBuffer[iDpos++] = pArgs[iSpos++]; iParamSize += pDescr->parameterTypes[uParam].GetSizeOnStackDWords(); } } } // Copy the parameter types for the ppcFunc. Also copy the params for the fixed xenon args buffer /containing this and // return ptr/ for (int iParam = 0; iParam < (int)pDescr->parameterTypes.GetLength(); iParam++, iArgsPtr++) { ppcArgsType[iArgsPtr] = ppcINTARG; if (pDescr->parameterTypes[iParam].IsFloatType()) ppcArgsType[iArgsPtr] = ppcFLOATARG; else if (pDescr->parameterTypes[iParam].IsDoubleType()) ppcArgsType[iArgsPtr] = ppcDOUBLEARG; fixedArgs[iArgsPtr] = pArgs[iParam]; // If the arg is bool, then endian swap it /it would not neccessary if the AS_BIG_ENDIAN would swap the bool from // 0x01000000 to 0x00000010/ if (pDescr->parameterTypes[iParam].GetTokenType() == ttBool) ((asBYTE *)(&fixedArgs[iArgsPtr]))[3] = ((asBYTE *)(&fixedArgs[iArgsPtr]))[0]; } pContext->isCallingSystemFunction = true; switch (iCallConv) { case ICC_CDECL: case ICC_CDECL_RETURNINMEM: case ICC_STDCALL: case ICC_STDCALL_RETURNINMEM: dwRetQW = CallCDeclFunction(fixedArgs, iArgsPtr, (asDWORD)pFunc); break; case ICC_THISCALL: case ICC_THISCALL_RETURNINMEM: dwRetQW = CallThisCallFunction(pObj, fixedArgs, iArgsPtr, (asDWORD)pFunc); break; case ICC_VIRTUAL_THISCALL: case ICC_VIRTUAL_THISCALL_RETURNINMEM: // Get virtual function table from the object pointer pVftable = *(asDWORD **)pObj; dwRetQW = CallThisCallFunction(pObj, fixedArgs, iArgsPtr, pVftable[asDWORD(pFunc) >> 2]); break; case ICC_CDECL_OBJLAST: case ICC_CDECL_OBJLAST_RETURNINMEM: dwRetQW = CallThisCallFunction_objLast(pObj, fixedArgs, iArgsPtr, (asDWORD)pFunc); break; case ICC_CDECL_OBJFIRST: case ICC_CDECL_OBJFIRST_RETURNINMEM: dwRetQW = CallThisCallFunction(pObj, fixedArgs, iArgsPtr, (asDWORD)pFunc); break; default: pContext->SetInternalException(TXT_INVALID_CALLING_CONVENTION); } pContext->isCallingSystemFunction = false; #ifdef COMPLEX_OBJS_PASSED_BY_REF if (pSysFunc->takesObjByVal) { // Need to free the complex objects passed by value pArgs = pContext->regs.stackPointer; if (iCallConv >= ICC_THISCALL && !pObjectPointer) pArgs++; int iSpos = 0; for (int iParam = 0; iParam < (int)descr->parameterTypes.GetLength(); iParam++) { if (pDescr->parameterTypes[iParam].IsObject() && !pDescr->parameterTypes[iParam].IsReference() && (pDescr->parameterTypes[iParam].GetObjectType()->flags & COMPLEX_MASK)) { void *pObj = (void *)pArgs[iSpos++]; asSTypeBehaviour *pBeh = &pDescr->parameterTypes[iParam].GetObjectType()->beh; if (pBeh->destruct) pEngine->CallObjectMethod(pObj, pBeh->destruct); pEngine->CallFree(pObj); } else iSpos += pDescr->parameterTypes[iParam].GetSizeInMemoryDWords(); } } #endif // Store the returned value in our stack if (pDescr->returnType.IsObject() && !pDescr->returnType.IsReference()) { if (pDescr->returnType.IsObjectHandle()) { pContext->regs.objectRegister = (void *)(asDWORD)dwRetQW; if (pSysFunc->returnAutoHandle && pContext->regs.objectRegister) pEngine->CallObjectMethod(pContext->regs.objectRegister, pDescr->returnType.GetObjectType()->beh.addref); } else { if (!pSysFunc->hostReturnInMemory) { // Copy the returned value to the pointer sent by the script engine if (pSysFunc->hostReturnSize == 1) *(asDWORD *)pRetPointer = (asDWORD)dwRetQW; else *(asQWORD *)pRetPointer = dwRetQW; } // Store the object in the register pContext->regs.objectRegister = pRetPointer; } } else { // If the retval is bool, then endian swap it /it would not neccessary if the AS_BIG_ENDIAN would swap the bool from // 0x01000000 to 0x00000010/ if (pDescr->returnType.GetTokenType() == ttBool) { ((asBYTE *)(&dwRetQW))[4] = ((asBYTE *)(&dwRetQW))[7]; ((asBYTE *)(&dwRetQW))[7] = 0; } // Store value in returnVal register if (pSysFunc->hostReturnFloat) { if (pSysFunc->hostReturnSize == 1) *(asDWORD *)&pContext->regs.valueRegister = GetReturnedFloat(); else pContext->regs.valueRegister = GetReturnedDouble(); } else if (pSysFunc->hostReturnSize == 1) *(asDWORD *)&pContext->regs.valueRegister = (asDWORD)dwRetQW; else pContext->regs.valueRegister = dwRetQW; } if (pSysFunc->hasAutoHandles) { pArgs = pContext->regs.stackPointer; if (iCallConv >= ICC_THISCALL && !pObjectPointer) pArgs++; int iSpos = 0; for (asUINT uParam = 0; uParam < pDescr->parameterTypes.GetLength(); uParam++) { if (pSysFunc->paramAutoHandles[uParam] && pArgs[iSpos]) { // Call the release method on the type pEngine->CallObjectMethod((void *)pArgs[iSpos], pDescr->parameterTypes[uParam].GetObjectType()->beh.release); pArgs[iSpos] = 0; } if (pDescr->parameterTypes[uParam].IsObject() && !pDescr->parameterTypes[uParam].IsObjectHandle() && !pDescr->parameterTypes[uParam].IsReference()) iSpos++; else iSpos += pDescr->parameterTypes[uParam].GetSizeOnStackDWords(); } } return iPopSize; } END_AS_NAMESPACE #endif // AS_XENON #endif // AS_MAX_PORTABILITY //------------------------------------------------------------------