aec7ca0ce9
Fixes: https://github.com/supertuxkart/stk-code/issues/2528 Signed-off-by: Igor Gnatenko <i.gnatenko.brain@gmail.com>
666 lines
22 KiB
C++
666 lines
22 KiB
C++
/*
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AngelCode Scripting Library
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Copyright (c) 2003-2015 Andreas Jonsson
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This software is provided 'as-is', without any express or implied
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warranty. In no event will the authors be held liable for any
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damages arising from the use of this software.
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Permission is granted to anyone to use this software for any
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purpose, including commercial applications, and to alter it and
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redistribute it freely, subject to the following restrictions:
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1. The origin of this software must not be misrepresented; you
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must not claim that you wrote the original software. If you use
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this software in a product, an acknowledgment in the product
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documentation would be appreciated but is not required.
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2. Altered source versions must be plainly marked as such, and
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must not be misrepresented as being the original software.
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3. This notice may not be removed or altered from any source
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distribution.
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The original version of this library can be located at:
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http://www.angelcode.com/angelscript/
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Andreas Jonsson
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andreas@angelcode.com
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*/
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//
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// as_callfunc_arm.cpp
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//
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// These functions handle the actual calling of system functions on the arm platform
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//
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// Written by Fredrik Ehnbom in June 2009, based on as_callfunc_x86.cpp
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//
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// The code was complemented to support Linux with ARM by Carlos Luna in December, 2012.
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//
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// Added support for functor methods by Jordi Oliveras Rovira in April, 2014.
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// This code has to conform to both AAPCS and the modified ABI for iOS
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//
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// Reference:
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//
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// AAPCS: http://infocenter.arm.com/help/topic/com.arm.doc.ihi0042d/IHI0042D_aapcs.pdf
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// iOS: http://developer.apple.com/library/ios/documentation/Xcode/Conceptual/iPhoneOSABIReference/iPhoneOSABIReference.pdf
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#include "as_config.h"
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#ifndef AS_MAX_PORTABILITY
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#ifdef AS_ARM
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#include "as_callfunc.h"
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#include "as_scriptengine.h"
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#include "as_texts.h"
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#include "as_tokendef.h"
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#include "as_context.h"
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#if defined(AS_SOFTFP)
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// This code supports the soft-float ABI, i.e. g++ -mfloat-abi=softfp
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//
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// The code for iOS, Android, Marmalade and Windows Phone goes here
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BEGIN_AS_NAMESPACE
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extern "C" asQWORD armFunc (const asDWORD *, int, asFUNCTION_t);
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extern "C" asQWORD armFuncR0 (const asDWORD *, int, asFUNCTION_t, asDWORD r0);
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extern "C" asQWORD armFuncR0R1 (const asDWORD *, int, asFUNCTION_t, asDWORD r0, asDWORD r1);
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extern "C" asQWORD armFuncObjLast (const asDWORD *, int, asFUNCTION_t, asDWORD obj);
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extern "C" asQWORD armFuncR0ObjLast (const asDWORD *, int, asFUNCTION_t, asDWORD r0, asDWORD obj);
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asQWORD CallSystemFunctionNative(asCContext *context, asCScriptFunction *descr, void *obj, asDWORD *args, void *retPointer, asQWORD &/*retQW2*/, void *secondObject)
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{
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asCScriptEngine *engine = context->m_engine;
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asSSystemFunctionInterface *sysFunc = descr->sysFuncIntf;
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int callConv = sysFunc->callConv;
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asQWORD retQW = 0;
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asFUNCTION_t func = sysFunc->func;
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int paramSize = sysFunc->paramSize;
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asFUNCTION_t *vftable;
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if( sysFunc->hostReturnInMemory )
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{
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// The return is made in memory
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callConv++;
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}
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bool isThisCallMethod = callConv >= ICC_THISCALL_OBJLAST;
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asDWORD paramBuffer[64+2];
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// Android & Linux needs to align 64bit types on even registers, but this isn't done on iOS or Windows Phone
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// TODO: optimize runtime: There should be a check for this in PrepareSystemFunction() so this
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// doesn't have to be done for functions that don't have any 64bit types
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#if !defined(AS_ANDROID) && !defined(AS_LINUX)
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// In cases of thiscall methods, the callstack is configured as a standard thiscall
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// adding the secondObject as first or last element in callstack
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if( sysFunc->takesObjByVal || isThisCallMethod )
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#endif
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{
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#if defined(AS_ANDROID) || defined(AS_LINUX)
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// mask is used as a toggler to skip uneven registers.
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int mask = 1;
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if( isThisCallMethod )
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{
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mask = 0;
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}
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else
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{
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// Check for object pointer as first argument
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switch( callConv )
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{
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case ICC_THISCALL:
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case ICC_CDECL_OBJFIRST:
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case ICC_VIRTUAL_THISCALL:
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case ICC_THISCALL_RETURNINMEM:
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case ICC_CDECL_OBJFIRST_RETURNINMEM:
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case ICC_VIRTUAL_THISCALL_RETURNINMEM:
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mask = 0;
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break;
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default:
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break;
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}
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}
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// Check for hidden address in case of return by value
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if( sysFunc->hostReturnInMemory )
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mask = !mask;
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#endif
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paramSize = 0;
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int spos = 0;
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int dpos = 2;
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if( isThisCallMethod && (callConv >= ICC_THISCALL_OBJFIRST &&
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callConv <= ICC_VIRTUAL_THISCALL_OBJFIRST_RETURNINMEM) )
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{
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// Add the object pointer as the first parameter
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paramBuffer[dpos++] = (asDWORD)secondObject;
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paramSize++;
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}
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for( asUINT n = 0; n < descr->parameterTypes.GetLength(); n++ )
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{
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// TODO: runtime optimize: Declare a reference to descr->parameterTypes[n] so the array doesn't have to be access all the time
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if( descr->parameterTypes[n].IsObject() && !descr->parameterTypes[n].IsObjectHandle() && !descr->parameterTypes[n].IsReference() )
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{
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#ifdef COMPLEX_OBJS_PASSED_BY_REF
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if( descr->parameterTypes[n].GetTypeInfo()->flags & COMPLEX_MASK )
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{
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paramBuffer[dpos++] = args[spos++];
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paramSize++;
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}
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else
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#endif
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{
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#if defined(AS_ANDROID) || defined(AS_LINUX)
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if( (descr->parameterTypes[n].GetTypeInfo()->flags & asOBJ_APP_CLASS_ALIGN8) &&
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((dpos & 1) == mask) )
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{
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// 64 bit value align
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dpos++;
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paramSize++;
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}
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#endif
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// Copy the object's memory to the buffer
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memcpy(¶mBuffer[dpos], *(void**)(args+spos), descr->parameterTypes[n].GetSizeInMemoryBytes());
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// Delete the original memory
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engine->CallFree(*(char**)(args+spos));
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spos++;
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dpos += descr->parameterTypes[n].GetSizeInMemoryDWords();
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paramSize += descr->parameterTypes[n].GetSizeInMemoryDWords();
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}
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}
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else
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{
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#if defined(AS_ANDROID) || defined(AS_LINUX)
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// Should an alignment be performed?
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if( !descr->parameterTypes[n].IsObjectHandle() &&
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!descr->parameterTypes[n].IsReference() &&
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descr->parameterTypes[n].GetSizeOnStackDWords() == 2 &&
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((dpos & 1) == mask) )
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{
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// 64 bit value align
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dpos++;
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paramSize++;
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}
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#endif
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// Copy the value directly
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paramBuffer[dpos++] = args[spos++];
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if( descr->parameterTypes[n].GetSizeOnStackDWords() > 1 )
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paramBuffer[dpos++] = args[spos++];
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paramSize += descr->parameterTypes[n].GetSizeOnStackDWords();
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}
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}
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if( isThisCallMethod && (callConv >= ICC_THISCALL_OBJLAST &&
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callConv <= ICC_VIRTUAL_THISCALL_OBJLAST_RETURNINMEM) )
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{
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// Add the object pointer as the last parameter
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paramBuffer[dpos++] = (asDWORD)secondObject;
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paramSize++;
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}
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// Keep a free location at the beginning
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args = ¶mBuffer[2];
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}
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switch( callConv )
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{
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case ICC_CDECL_RETURNINMEM: // fall through
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case ICC_STDCALL_RETURNINMEM:
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retQW = armFuncR0(args, paramSize<<2, func, (asDWORD)retPointer);
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break;
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case ICC_CDECL: // fall through
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case ICC_STDCALL:
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retQW = armFunc(args, paramSize<<2, func);
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break;
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case ICC_THISCALL: // fall through
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case ICC_CDECL_OBJFIRST:
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case ICC_THISCALL_OBJFIRST:
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case ICC_THISCALL_OBJLAST:
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retQW = armFuncR0(args, paramSize<<2, func, (asDWORD)obj);
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break;
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case ICC_THISCALL_RETURNINMEM:
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case ICC_THISCALL_OBJFIRST_RETURNINMEM:
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case ICC_THISCALL_OBJLAST_RETURNINMEM:
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#ifdef __GNUC__
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// On GNUC the address where the return value will be placed should be put in R0
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retQW = armFuncR0R1(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
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#else
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// On Windows the R0 should always hold the object pointer, and the address for the return value comes after
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retQW = armFuncR0R1(args, paramSize<<2, func, (asDWORD)obj, (asDWORD)retPointer);
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#endif
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break;
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case ICC_CDECL_OBJFIRST_RETURNINMEM:
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retQW = armFuncR0R1(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
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break;
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case ICC_VIRTUAL_THISCALL:
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case ICC_VIRTUAL_THISCALL_OBJFIRST:
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case ICC_VIRTUAL_THISCALL_OBJLAST:
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// Get virtual function table from the object pointer
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vftable = *(asFUNCTION_t**)obj;
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retQW = armFuncR0(args, paramSize<<2, vftable[FuncPtrToUInt(func)>>2], (asDWORD)obj);
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break;
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case ICC_VIRTUAL_THISCALL_RETURNINMEM:
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case ICC_VIRTUAL_THISCALL_OBJFIRST_RETURNINMEM:
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case ICC_VIRTUAL_THISCALL_OBJLAST_RETURNINMEM:
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// Get virtual function table from the object pointer
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vftable = *(asFUNCTION_t**)obj;
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#ifdef __GNUC__
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// On GNUC the address where the return value will be placed should be put in R0
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retQW = armFuncR0R1(args, (paramSize+1)<<2, vftable[FuncPtrToUInt(func)>>2], (asDWORD)retPointer, (asDWORD)obj);
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#else
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// On Windows the R0 should always hold the object pointer, and the address for the return value comes after
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retQW = armFuncR0R1(args, (paramSize+1)<<2, vftable[FuncPtrToUInt(func)>>2], (asDWORD)obj, (asDWORD)retPointer);
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#endif
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break;
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case ICC_CDECL_OBJLAST:
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retQW = armFuncObjLast(args, paramSize<<2, func, (asDWORD)obj);
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break;
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case ICC_CDECL_OBJLAST_RETURNINMEM:
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retQW = armFuncR0ObjLast(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
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break;
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default:
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context->SetInternalException(TXT_INVALID_CALLING_CONVENTION);
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}
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return retQW;
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}
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END_AS_NAMESPACE
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#elif !defined(AS_SOFTFP)
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// This code supports the hard-float ABI, i.e. g++ -mfloat-abi=hard
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// The main difference is that the floating point values are passed in the fpu registers
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#define VFP_OFFSET 70
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#define STACK_OFFSET 6
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#define PARAM_BUFFER_SIZE 104
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BEGIN_AS_NAMESPACE
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extern "C" asQWORD armFunc (const asDWORD *, int, asFUNCTION_t);
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extern "C" asQWORD armFuncR0 (const asDWORD *, int, asFUNCTION_t, asDWORD r0);
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extern "C" asQWORD armFuncR0R1 (const asDWORD *, int, asFUNCTION_t, asDWORD r0, asDWORD r1);
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extern "C" asQWORD armFuncObjLast (const asDWORD *, int, asFUNCTION_t, asDWORD obj);
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extern "C" asQWORD armFuncR0ObjLast (const asDWORD *, int, asFUNCTION_t, asDWORD r0, asDWORD obj);
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asQWORD CallSystemFunctionNative(asCContext *context, asCScriptFunction *descr, void *obj, asDWORD *args, void *retPointer, asQWORD &/*retQW2*/, void *secondObject)
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{
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asCScriptEngine *engine = context->m_engine;
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asSSystemFunctionInterface *sysFunc = descr->sysFuncIntf;
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int callConv = sysFunc->callConv;
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asQWORD retQW = 0;
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asFUNCTION_t func = sysFunc->func;
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int paramSize = sysFunc->paramSize;
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asFUNCTION_t *vftable;
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//---------------------------------------------------------------------------- RPi
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int freeFloatSlot = VFP_OFFSET;
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int freeDoubleSlot = VFP_OFFSET;
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int stackPos = STACK_OFFSET;
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int stackSize = 0;
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//----------------------------------------------------------------------------
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//---------------------------------------------------------------------------- RPi
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// We<57>ll divide paramBuffer into several segments:
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//
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// 0-1 Unused
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// 2-5 (+8 / +0 asm) values that should be placed in R0 - R3
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// 6-67 (+24 / +16 asm) values that should be placed on the stack
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// 68 (+272 / +264 asm) number of values stored in r registers (R0 - R3)
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// 69 (+276 / +268 asm) number of args stored on the stack
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// 70-85 (+280 / +272 asm) values that should be placed in VFP registers (16)
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// 86-87 (+344 / +336 asm) sp original value - sp final value - for debugging
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// 88-103 (+352 / +344 asm) Check area for free-used VFP registers
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//
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// Total number of elements: 104
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//
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// When passing the paramBuffer to the asm routines via the args pointer we are
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// offsetting the start of the array to being at element # 2. That<61>s why in asm
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// all addresses must have an offset of -2 words (-8 bytes).
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//---------------------------------------------------------------------------- RPi
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asDWORD paramBuffer[PARAM_BUFFER_SIZE];
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memset(paramBuffer, 0, sizeof(asDWORD) * PARAM_BUFFER_SIZE);
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if( sysFunc->hostReturnInMemory )
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{
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// TODO: runtime optimize: This check should be done in PrepareSystemFunction
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if ( !( descr->returnType.GetTypeInfo()->flags & COMPLEX_RETURN_MASK ) &&
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( descr->returnType.GetTypeInfo()->flags & asOBJ_APP_CLASS_ALLFLOATS ) &&
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descr->returnType.GetSizeInMemoryBytes() <= 8 )
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callConv--;
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// The return is made in memory
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callConv++;
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}
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bool isThisCallMethod = callConv >= ICC_THISCALL_OBJLAST;
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// Linux needs to align 64bit types on even registers, but this isn't done on iOS or Windows Phone
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// TODO: optimize runtime: There should be a check for this in PrepareSystemFunction() so this
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// doesn't have to be done for functions that don't have any 64bit types
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{
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// mask is used as a toggler to skip uneven registers.
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int mask = 1;
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if( isThisCallMethod )
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{
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mask = 0;
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}
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else
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{
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// Check for object pointer as first argument
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switch( callConv )
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{
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case ICC_THISCALL:
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case ICC_CDECL_OBJFIRST:
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case ICC_VIRTUAL_THISCALL:
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case ICC_THISCALL_RETURNINMEM:
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case ICC_CDECL_OBJFIRST_RETURNINMEM:
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case ICC_VIRTUAL_THISCALL_RETURNINMEM:
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mask = 0;
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break;
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default:
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break;
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}
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}
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// Check for hidden address in case of return by value
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if( sysFunc->hostReturnInMemory )
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mask = !mask;
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paramSize = 0;
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int spos = 0;
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int dpos = 2;
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if( isThisCallMethod && (callConv >= ICC_THISCALL_OBJFIRST &&
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callConv <= ICC_VIRTUAL_THISCALL_OBJFIRST_RETURNINMEM) )
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{
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// Add the object pointer as the first parameter
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paramBuffer[dpos++] = (asDWORD)secondObject;
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paramSize++;
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}
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for( asUINT n = 0; n < descr->parameterTypes.GetLength(); n++ )
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{
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// TODO: runtime optimize: Declare a reference to descr->parameterTypes[n] so the array doesn't have to be access all the time
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if( descr->parameterTypes[n].IsObject() && !descr->parameterTypes[n].IsObjectHandle() && !descr->parameterTypes[n].IsReference() &&
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!(descr->parameterTypes[n].GetTypeInfo()->flags & asOBJ_APP_ARRAY) )
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{
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#ifdef COMPLEX_OBJS_PASSED_BY_REF
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if( descr->parameterTypes[n].GetTypeInfo()->flags & COMPLEX_MASK )
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{
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paramBuffer[dpos++] = args[spos++];
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paramSize++;
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}
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else
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#endif
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{
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if( (descr->parameterTypes[n].GetTypeInfo()->flags & asOBJ_APP_CLASS_ALIGN8) )
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{
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if ( (dpos & 1) == mask )
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{
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// 64 bit value align
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dpos++;
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paramSize++;
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}
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if ( (stackPos & 1) == mask )
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{
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// 64 bit value align
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stackPos++;
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stackSize++;
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}
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}
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// Copy the object's memory to the buffer
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if (descr->parameterTypes[n].GetTypeInfo()->flags & asOBJ_APP_CLASS_ALLFLOATS)
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{
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int target = (freeFloatSlot > freeDoubleSlot) ? freeFloatSlot : freeDoubleSlot;
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if ( descr->parameterTypes[n].GetSizeInMemoryDWords() <= ( (VFP_OFFSET + 16) - target) )
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{
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memcpy(¶mBuffer[target], *(void**)(args+spos), descr->parameterTypes[n].GetSizeInMemoryBytes());
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memset(¶mBuffer[target + 18], (asDWORD)1, descr->parameterTypes[n].GetSizeInMemoryDWords());
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target += descr->parameterTypes[n].GetSizeInMemoryDWords();
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freeFloatSlot = freeDoubleSlot = target;
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}
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else
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{
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memcpy(¶mBuffer[stackPos], *(void**)(args+spos), descr->parameterTypes[n].GetSizeInMemoryBytes());
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stackPos += descr->parameterTypes[n].GetSizeInMemoryDWords();
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stackSize += descr->parameterTypes[n].GetSizeOnStackDWords();
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}
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}
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else
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{
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memcpy(¶mBuffer[dpos], *(void**)(args+spos), descr->parameterTypes[n].GetSizeInMemoryBytes());
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dpos += descr->parameterTypes[n].GetSizeInMemoryDWords();
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paramSize += descr->parameterTypes[n].GetSizeInMemoryDWords();
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}
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// Delete the original memory
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engine->CallFree(*(char**)(args+spos));
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spos++;
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}
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continue;
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}
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else if( descr->parameterTypes[n].IsFloatType() && !descr->parameterTypes[n].IsReference() )
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{
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// Are there any "s" registers available?
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if ( freeFloatSlot < (VFP_OFFSET + 16) )
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{
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if (freeFloatSlot == freeDoubleSlot)
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freeDoubleSlot += 2;
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paramBuffer[freeFloatSlot + 18] = (asDWORD)1;
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paramBuffer[freeFloatSlot++] = args[spos++];
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|
||
while(freeFloatSlot < (VFP_OFFSET + 16) && paramBuffer[freeFloatSlot + 18] != 0)
|
||
freeFloatSlot++;
|
||
}
|
||
// If not, then store the float arg in the stack area
|
||
else
|
||
{
|
||
paramBuffer[stackPos++] = args[spos++];
|
||
stackSize++;
|
||
}
|
||
|
||
continue;
|
||
}
|
||
else if( descr->parameterTypes[n].IsDoubleType() && !descr->parameterTypes[n].IsReference() )
|
||
{
|
||
// Are there any "d" registers available?
|
||
if ( freeDoubleSlot < (VFP_OFFSET + 15) )
|
||
{
|
||
if (freeFloatSlot == freeDoubleSlot)
|
||
freeFloatSlot += 2;
|
||
|
||
// Copy two dwords for the double
|
||
paramBuffer[freeDoubleSlot + 18] = (asDWORD)1;
|
||
paramBuffer[freeDoubleSlot + 19] = (asDWORD)1;
|
||
paramBuffer[freeDoubleSlot++] = args[spos++];
|
||
paramBuffer[freeDoubleSlot++] = args[spos++];
|
||
|
||
while(freeDoubleSlot < (VFP_OFFSET + 15) && paramBuffer[freeDoubleSlot + 18] != 0)
|
||
freeDoubleSlot += 2;
|
||
}
|
||
// If not, then store the double arg in the stack area
|
||
else
|
||
{
|
||
if ( (stackPos & 1) == mask )
|
||
{
|
||
// 64 bit value align
|
||
stackPos++;
|
||
stackSize++;
|
||
}
|
||
|
||
paramBuffer[stackPos++] = args[spos++];
|
||
paramBuffer[stackPos++] = args[spos++];
|
||
stackSize += 2;
|
||
}
|
||
|
||
continue;
|
||
}
|
||
else
|
||
{
|
||
// Copy the value directly to "r" registers or the stack, checking for alignment
|
||
if (paramSize < 4)
|
||
{
|
||
// Should an alignment be performed?
|
||
if( (dpos & 1) == mask && descr->parameterTypes[n].GetSizeOnStackDWords() == 2 &&
|
||
!descr->parameterTypes[n].IsObjectHandle() && !descr->parameterTypes[n].IsReference() &&
|
||
!descr->parameterTypes[n].IsAnyType() )
|
||
{
|
||
// 64 bit value align
|
||
dpos++;
|
||
paramSize++;
|
||
}
|
||
|
||
paramBuffer[dpos++] = args[spos++];
|
||
paramSize += descr->parameterTypes[n].GetSizeOnStackDWords();
|
||
}
|
||
else
|
||
{
|
||
// Should an alignment be performed?
|
||
if( (stackPos & 1) == mask && descr->parameterTypes[n].GetSizeOnStackDWords() == 2 &&
|
||
!descr->parameterTypes[n].IsObjectHandle() && !descr->parameterTypes[n].IsReference() &&
|
||
!descr->parameterTypes[n].IsAnyType() )
|
||
{
|
||
// 64 bit value align
|
||
stackPos++;
|
||
stackSize++;
|
||
}
|
||
|
||
paramBuffer[stackPos++] = args[spos++];
|
||
stackSize += descr->parameterTypes[n].GetSizeOnStackDWords();
|
||
}
|
||
|
||
if( descr->parameterTypes[n].GetSizeOnStackDWords() > 1 )
|
||
{
|
||
if (paramSize < 5)
|
||
paramBuffer[dpos++] = args[spos++];
|
||
else
|
||
paramBuffer[stackPos++] = args[spos++];
|
||
}
|
||
}// else...
|
||
}// Loop
|
||
|
||
if( isThisCallMethod && (callConv >= ICC_THISCALL_OBJLAST &&
|
||
callConv <= ICC_VIRTUAL_THISCALL_OBJLAST_RETURNINMEM) )
|
||
{
|
||
if (paramSize < 4)
|
||
{
|
||
paramBuffer[dpos++] = (asDWORD)secondObject;
|
||
paramSize++;
|
||
}
|
||
else
|
||
{
|
||
paramBuffer[stackPos++] = (asDWORD)secondObject;
|
||
stackSize++;
|
||
}
|
||
}
|
||
|
||
// Keep a free location at the beginning
|
||
args = ¶mBuffer[2];
|
||
}
|
||
|
||
paramBuffer[69] = static_cast<asDWORD>(stackSize<<2);
|
||
|
||
switch( callConv )
|
||
{
|
||
case ICC_CDECL_RETURNINMEM: // fall through
|
||
case ICC_STDCALL_RETURNINMEM:
|
||
retQW = armFuncR0(args, paramSize<<2, func, (asDWORD)retPointer);
|
||
break;
|
||
case ICC_CDECL: // fall through
|
||
case ICC_STDCALL:
|
||
retQW = armFunc(args, paramSize<<2, func);
|
||
break;
|
||
case ICC_THISCALL: // fall through
|
||
case ICC_CDECL_OBJFIRST:
|
||
case ICC_THISCALL_OBJFIRST:
|
||
case ICC_THISCALL_OBJLAST:
|
||
retQW = armFuncR0(args, paramSize<<2, func, (asDWORD)obj);
|
||
break;
|
||
case ICC_THISCALL_RETURNINMEM:
|
||
case ICC_THISCALL_OBJFIRST_RETURNINMEM:
|
||
case ICC_THISCALL_OBJLAST_RETURNINMEM:
|
||
// On GNUC the address where the return value will be placed should be put in R0
|
||
retQW = armFuncR0R1(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
|
||
break;
|
||
case ICC_CDECL_OBJFIRST_RETURNINMEM:
|
||
retQW = armFuncR0R1(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
|
||
break;
|
||
case ICC_VIRTUAL_THISCALL:
|
||
case ICC_VIRTUAL_THISCALL_OBJFIRST:
|
||
case ICC_VIRTUAL_THISCALL_OBJLAST:
|
||
// Get virtual function table from the object pointer
|
||
vftable = *(asFUNCTION_t**)obj;
|
||
retQW = armFuncR0(args, paramSize<<2, vftable[FuncPtrToUInt(func)>>2], (asDWORD)obj);
|
||
break;
|
||
case ICC_VIRTUAL_THISCALL_RETURNINMEM:
|
||
case ICC_VIRTUAL_THISCALL_OBJFIRST_RETURNINMEM:
|
||
case ICC_VIRTUAL_THISCALL_OBJLAST_RETURNINMEM:
|
||
// Get virtual function table from the object pointer
|
||
vftable = *(asFUNCTION_t**)obj;
|
||
// On GNUC the address where the return value will be placed should be put in R0
|
||
retQW = armFuncR0R1(args, (paramSize+1)<<2, vftable[FuncPtrToUInt(func)>>2], (asDWORD)retPointer, (asDWORD)obj);
|
||
break;
|
||
case ICC_CDECL_OBJLAST:
|
||
retQW = armFuncObjLast(args, paramSize<<2, func, (asDWORD)obj);
|
||
break;
|
||
case ICC_CDECL_OBJLAST_RETURNINMEM:
|
||
retQW = armFuncR0ObjLast(args, paramSize<<2, func, (asDWORD)retPointer, (asDWORD)obj);
|
||
break;
|
||
default:
|
||
context->SetInternalException(TXT_INVALID_CALLING_CONVENTION);
|
||
}
|
||
|
||
// On Linux with arm the float and double values are returns in the
|
||
// floating point registers, s0 and s1. Objects that contain only
|
||
// float types and are not considered complex are also returned in the
|
||
// floating point registers.
|
||
if( sysFunc->hostReturnFloat )
|
||
{
|
||
retQW = paramBuffer[VFP_OFFSET];
|
||
|
||
if ( sysFunc->hostReturnSize > 1 )
|
||
retQW = *( (asQWORD*)¶mBuffer[VFP_OFFSET] );
|
||
}
|
||
else if ( descr->returnType.IsObject() )
|
||
{
|
||
// TODO: runtime optimize: This should be identified with a flag determined in PrepareSystemFunction
|
||
if ( !descr->returnType.IsObjectHandle() &&
|
||
!descr->returnType.IsReference() &&
|
||
!(descr->returnType.GetTypeInfo()->flags & COMPLEX_RETURN_MASK) &&
|
||
(descr->returnType.GetTypeInfo()->flags & asOBJ_APP_CLASS_ALLFLOATS) )
|
||
memcpy( retPointer, ¶mBuffer[VFP_OFFSET], descr->returnType.GetSizeInMemoryBytes() );
|
||
}
|
||
|
||
return retQW;
|
||
}
|
||
|
||
END_AS_NAMESPACE
|
||
|
||
#endif // AS_LINUX
|
||
|
||
#endif // AS_ARM
|
||
#endif // AS_MAX_PORTABILITY
|
||
|
||
|
||
|
||
|