139f20b39d
Conflicts: CMakeLists.txt sources.cmake src/io/file_manager.cpp src/io/file_manager.hpp src/modes/world.hpp src/tracks/track.hpp src/tracks/track_object_presentation.cpp
392 lines
11 KiB
C++
392 lines
11 KiB
C++
/*
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AngelCode Scripting Library
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Copyright (c) 2003-2013 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_sh4.cpp
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//
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// These functions handle the actual calling of system functions
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//
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// This version is SH4 specific and was originally written
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// by Fredrik Ehnbom in May, 2004
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// Later updated for angelscript 2.0.0 by Fredrik Ehnbom in Jan, 2005
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// References:
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// * http://www.renesas.com/avs/resource/japan/eng/pdf/mpumcu/e602156_sh4.pdf
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// * http://msdn.microsoft.com/library/default.asp?url=/library/en-us/wcechp40/html/_callsh4_SH_4_Calling_Standard.asp
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#include "as_config.h"
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#ifndef AS_MAX_PORTABILITY
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#ifdef AS_SH4
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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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#include <stdio.h>
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#include <stdlib.h>
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BEGIN_AS_NAMESPACE
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#define AS_SH4_MAX_ARGS 32
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// The array used to send values to the correct places.
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// first 0-4 regular values to load into the r4-r7 registers
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// then 0-8 float values to load into the fr4-fr11 registers
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// then (AS_SH4_MAX_ARGS - 12) values to load onto the stack
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// the +1 is for when CallThis (object methods) is used
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// extra +1 when returning in memory
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extern "C" {
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static asDWORD sh4Args[AS_SH4_MAX_ARGS + 1 + 1];
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}
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// Loads all data into the correct places and calls the function.
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// intArgSize is the size in bytes for how much data to put in int registers
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// floatArgSize is the size in bytes for how much data to put in float registers
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// stackArgSize is the size in bytes for how much data to put on the callstack
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extern "C" asQWORD sh4Func(int intArgSize, int floatArgSize, int stackArgSize, asDWORD func);
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asm(""
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" .align 4\n"
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" .global _sh4Func\n"
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"_sh4Func:\n"
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" mov.l r14,@-r15\n"
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" mov.l r13,@-r15\n"
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" mov.l r12,@-r15\n"
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" sts.l pr,@-r15\n" // must be saved since we call a subroutine
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" mov r7, r14\n" // func
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" mov r6, r13\n" // stackArgSize
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" mov.l r5,@-r15\n" // floatArgSize
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" mov.l sh4Args,r0\n"
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" pref @r0\n"
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" mov r4, r1\n" // intArgsize
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" mov #33*4,r2\n"
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" extu.b r2,r2\n" // make unsigned (33*4 = 132 => 128)
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" mov.l @(r0,r2), r2\n" // r2 has adress for when returning in memory
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"_sh4f_intarguments:\n" // copy all the int arguments to the respective registers
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" mov #4*2*2,r3\n" // calculate how many bytes to skip
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" sub r1,r3\n"
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" braf r3\n"
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" add #-4,r1\n" // we are indexing the array backwards, so subtract one (delayed slot)
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" mov.l @(r0,r1),r7\n" // 4 arguments
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" add #-4,r1\n"
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" mov.l @(r0,r1),r6\n" // 3 arguments
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" add #-4,r1\n"
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" mov.l @(r0,r1),r5\n" // 2 arguments
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" add #-4,r1\n"
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" mov.l @(r0,r1),r4\n" // 1 argument
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" nop\n"
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"_sh4f_floatarguments:\n" // copy all the float arguments to the respective registers
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" add #4*4, r0\n"
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" mov.l @r15+,r1\n" // floatArgSize
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" mov #8*2*2,r3\n" // calculate how many bytes to skip
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" sub r1,r3\n"
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" braf r3\n"
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" add #-4,r1\n" // we are indexing the array backwards, so subtract one (delayed slot)
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" fmov.s @(r0,r1),fr11\n" // 8 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr10\n" // 7 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr9\n" // 6 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr8\n" // 5 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr7\n" // 4 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr6\n" // 3 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr5\n" // 2 arguments
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" add #-4,r1\n"
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" fmov.s @(r0,r1),fr4\n" // 1 argument
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" nop\n"
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"_sh4f_stackarguments:\n" // copy all the stack argument onto the stack
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" add #8*4, r0\n"
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" mov r0, r1\n"
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" mov #0, r0\n" // init position counter (also used as a 0-check on the line after)
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" cmp/eq r0, r13\n"
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" bt _sh4f_functioncall\n" // no arguments to push onto the stack
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" mov r13, r3\n" // stackArgSize
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" sub r3,r15\n" // "allocate" space on the stack
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" shlr2 r3\n" // make into a counter
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"_sh4f_stackloop:\n"
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" mov.l @r1+, r12\n"
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" mov.l r12, @(r0, r15)\n"
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" add #4, r0\n"
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" dt r3\n"
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" bf _sh4f_stackloop\n"
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"_sh4f_functioncall:\n"
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" jsr @r14\n" // no arguments
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" nop\n"
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" add r13, r15\n" // restore stack position
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" lds.l @r15+,pr\n"
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" mov.l @r15+, r12\n"
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" mov.l @r15+, r13\n"
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" rts\n"
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" mov.l @r15+, r14\n" // delayed slot
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"\n"
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" .align 4\n"
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"sh4Args:\n"
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" .long _sh4Args\n"
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);
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// puts the arguments in the correct place in the sh4Args-array. See comments above.
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// This could be done better.
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inline void splitArgs(const asDWORD *args, int argNum, int &numRegIntArgs, int &numRegFloatArgs, int &numRestArgs, int hostFlags) {
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int i;
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int argBit = 1;
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for (i = 0; i < argNum; i++) {
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if (hostFlags & argBit) {
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if (numRegFloatArgs < 12 - 4) {
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// put in float register
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sh4Args[4 + numRegFloatArgs] = args[i];
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numRegFloatArgs++;
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} else {
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// put in stack
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sh4Args[4 + 8 + numRestArgs] = args[i];
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numRestArgs++;
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}
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} else {
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if (numRegIntArgs < 8 - 4) {
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// put in int register
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sh4Args[numRegIntArgs] = args[i];
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numRegIntArgs++;
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} else {
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// put in stack
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sh4Args[4 + 8 + numRestArgs] = args[i];
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numRestArgs++;
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}
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}
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argBit <<= 1;
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}
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}
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asQWORD CallCDeclFunction(const asDWORD *args, int argSize, asDWORD func, int flags)
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{
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int argNum = argSize >> 2;
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int intArgs = 0;
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int floatArgs = 0;
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int restArgs = 0;
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// put the arguments in the correct places in the sh4Args array
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if (argNum > 0)
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splitArgs(args, argNum, intArgs, floatArgs, restArgs, flags);
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return sh4Func(intArgs << 2, floatArgs << 2, restArgs << 2, func);
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}
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// This function is identical to CallCDeclFunction, with the only difference that
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// the value in the first parameter is the object
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asQWORD CallThisCallFunction(const void *obj, const asDWORD *args, int argSize, asDWORD func, int flags)
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{
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int argNum = argSize >> 2;
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int intArgs = 1;
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int floatArgs = 0;
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int restArgs = 0;
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sh4Args[0] = (asDWORD) obj;
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// put the arguments in the correct places in the sh4Args array
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if (argNum >= 1)
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splitArgs(args, argNum, intArgs, floatArgs, restArgs, flags);
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return sh4Func(intArgs << 2, floatArgs << 2, restArgs << 2, func);
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}
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// This function is identical to CallCDeclFunction, with the only difference that
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// the value in the last parameter is the object
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asQWORD CallThisCallFunction_objLast(const void *obj, const asDWORD *args, int argSize, asDWORD func, int flags)
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{
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int argNum = argSize >> 2;
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int intArgs = 0;
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int floatArgs = 0;
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int restArgs = 0;
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// put the arguments in the correct places in the sh4Args array
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if (argNum >= 1)
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splitArgs(args, argNum, intArgs, floatArgs, restArgs, flags);
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if (intArgs < 4) {
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sh4Args[intArgs] = (asDWORD) obj;
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intArgs++;
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} else {
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sh4Args[4 + 8 + restArgs] = (asDWORD) obj;
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restArgs++;
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}
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return sh4Func(intArgs << 2, floatArgs << 2, restArgs << 2, func);
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}
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asDWORD GetReturnedFloat()
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{
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asDWORD f;
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asm("fmov.s fr0, %0\n" : "=m"(f));
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return f;
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}
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// sizeof(double) == 4 with sh-elf-gcc (3.4.0) -m4
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// so this isn't really used...
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asQWORD GetReturnedDouble()
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{
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asQWORD d;
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asm("fmov dr0, %0\n" : "=m"(d));
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return d;
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}
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asQWORD CallSystemFunctionNative(asCContext *context, asCScriptFunction *descr, void *obj, asDWORD *args, void *retPointer, asQWORD &/*retQW2*/)
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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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void *func = (void*)sysFunc->func;
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int paramSize = sysFunc->paramSize;
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asDWORD *vftable;
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if( descr->returnType.IsObject() && !descr->returnType.IsReference() && !descr->returnType.IsObjectHandle() )
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{
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sh4Args[AS_SH4_MAX_ARGS+1] = (asDWORD) retPointer;
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}
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asASSERT(descr->parameterTypes.GetLength() <= 32);
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// mark all float arguments
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int argBit = 1;
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int hostFlags = 0;
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int intArgs = 0;
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for( asUINT a = 0; a < descr->parameterTypes.GetLength(); a++ ) {
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if (descr->parameterTypes[a].IsFloatType()) {
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hostFlags |= argBit;
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} else intArgs++;
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argBit <<= 1;
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}
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asDWORD paramBuffer[64];
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if( sysFunc->takesObjByVal )
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{
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paramSize = 0;
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int spos = 0;
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int dpos = 1;
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for( asUINT n = 0; n < descr->parameterTypes.GetLength(); n++ )
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{
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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].GetObjectType()->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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// 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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// 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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// Keep a free location at the beginning
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args = ¶mBuffer[1];
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}
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switch( callConv )
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{
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case ICC_CDECL:
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case ICC_CDECL_RETURNINMEM:
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case ICC_STDCALL:
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case ICC_STDCALL_RETURNINMEM:
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retQW = CallCDeclFunction(args, paramSize<<2, (asDWORD)func, hostFlags);
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break;
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case ICC_THISCALL:
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case ICC_THISCALL_RETURNINMEM:
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retQW = CallThisCallFunction(obj, args, paramSize<<2, (asDWORD)func, hostFlags);
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break;
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case ICC_VIRTUAL_THISCALL:
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case ICC_VIRTUAL_THISCALL_RETURNINMEM:
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// Get virtual function table from the object pointer
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vftable = *(asDWORD**)obj;
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retQW = CallThisCallFunction(obj, args, paramSize<<2, vftable[asDWORD(func)>>2], hostFlags);
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break;
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case ICC_CDECL_OBJLAST:
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case ICC_CDECL_OBJLAST_RETURNINMEM:
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retQW = CallThisCallFunction_objLast(obj, args, paramSize<<2, (asDWORD)func, hostFlags);
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break;
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case ICC_CDECL_OBJFIRST:
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case ICC_CDECL_OBJFIRST_RETURNINMEM:
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retQW = CallThisCallFunction(obj, args, paramSize<<2, (asDWORD)func, hostFlags);
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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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// If the return is a float value we need to get the value from the FP register
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if( sysFunc->hostReturnFloat )
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{
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if( sysFunc->hostReturnSize == 1 )
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*(asDWORD*)&retQW = GetReturnedFloat();
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else
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retQW = GetReturnedDouble();
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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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#endif // AS_SH4
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#endif // AS_MAX_PORTABILITY
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