mirror of
https://github.com/PCSX2/pcsx2.git
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afcd1c9784
git-svn-id: http://pcsx2.googlecode.com/svn/branches/pcsx2_0.9.2@159 96395faa-99c1-11dd-bbfe-3dabce05a288
274 lines
11 KiB
C
274 lines
11 KiB
C
/* Pcsx2 - Pc Ps2 Emulator
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* Copyright (C) 2002-2003 Pcsx2 Team
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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#ifndef __IVUMICRO_H__
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#define __IVUMICRO_H__
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#define VU0_MEMSIZE 0x1000
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#define VU1_MEMSIZE 0x4000
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#define RECOMPILE_VUMI_ABS
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#define RECOMPILE_VUMI_SUB
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#define RECOMPILE_VUMI_SUBA
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#define RECOMPILE_VUMI_MADD
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#define RECOMPILE_VUMI_MADDA
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#define RECOMPILE_VUMI_MSUB
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#define RECOMPILE_VUMI_MSUBA
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#define RECOMPILE_VUMI_ADD
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#define RECOMPILE_VUMI_ADDA
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#define RECOMPILE_VUMI_MUL
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#define RECOMPILE_VUMI_MULA
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#define RECOMPILE_VUMI_MAX
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#define RECOMPILE_VUMI_MINI
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#define RECOMPILE_VUMI_FTOI
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#define RECOMPILE_VUMI_MATH
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#define RECOMPILE_VUMI_MISC
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#define RECOMPILE_VUMI_E
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#define RECOMPILE_VUMI_X
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#define RECOMPILE_VUMI_RANDOM
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#define RECOMPILE_VUMI_FLAG
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#define RECOMPILE_VUMI_BRANCH
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#define RECOMPILE_VUMI_ARITHMETIC
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#define RECOMPILE_VUMI_LOADSTORE
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#ifdef __x86_64__
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#undef RECOMPILE_VUMI_X
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#endif
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u32 GetVIAddr(VURegs * VU, int reg, int read, int info); // returns the correct VI addr
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void recUpdateFlags(VURegs * VU, int reg, int info);
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void _recvuTestPipes(VURegs * VU);
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void _recvuFlushFDIV(VURegs * VU);
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void _recvuTestUpperStalls(VURegs * VU, _VURegsNum *VUregsn);
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void _recvuTestLowerStalls(VURegs * VU, _VURegsNum *VUregsn);
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void _recvuAddUpperStalls(VURegs * VU, _VURegsNum *VUregsn);
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void _recvuAddLowerStalls(VURegs * VU, _VURegsNum *VUregsn);
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#define VUOP_READ 2
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#define VUOP_WRITE 4
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// save on mem
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typedef struct {
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int cycle;
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int cycles;
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u8 statusflag;
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u8 macflag;
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u8 clipflag;
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u8 dummy;
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u8 q;
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u8 p;
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u16 pqinst; // bit of instruction specifying index (srec only)
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} _vuopinfo;
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extern _vuopinfo *cinfo;
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void SuperVUAnalyzeOp(VURegs *VU, _vuopinfo *info, _VURegsNum* pCodeRegs);
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// allocates all the necessary regs and returns the indices
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int eeVURecompileCode(VURegs *VU, _VURegsNum* regs);
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void VU1XGKICK_MTGSTransfer(u32 *pMem, u32 addr); // used for MTGS in XGKICK
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extern _VURegsNum* g_VUregs;
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#define SWAP(x, y) *(u32*)&y ^= *(u32*)&x ^= *(u32*)&y ^= *(u32*)&x;
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#define VUREC_INFO eeVURecompileCode(VU, g_VUregs)
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extern int vucycle;
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extern int vucycleold;
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/*****************************************
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VU Micromode Upper instructions
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*****************************************/
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void recVUMI_ABS(VURegs *vuRegs, int info);
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void recVUMI_ADD(VURegs *vuRegs, int info);
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void recVUMI_ADDi(VURegs *vuRegs, int info);
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void recVUMI_ADDq(VURegs *vuRegs, int info);
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void recVUMI_ADDx(VURegs *vuRegs, int info);
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void recVUMI_ADDy(VURegs *vuRegs, int info);
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void recVUMI_ADDz(VURegs *vuRegs, int info);
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void recVUMI_ADDw(VURegs *vuRegs, int info);
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void recVUMI_ADDA(VURegs *vuRegs, int info);
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void recVUMI_ADDAi(VURegs *vuRegs, int info);
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void recVUMI_ADDAq(VURegs *vuRegs, int info);
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void recVUMI_ADDAx(VURegs *vuRegs, int info);
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void recVUMI_ADDAy(VURegs *vuRegs, int info);
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void recVUMI_ADDAz(VURegs *vuRegs, int info);
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void recVUMI_ADDAw(VURegs *vuRegs, int info);
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void recVUMI_SUB(VURegs *vuRegs, int info);
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void recVUMI_SUBi(VURegs *vuRegs, int info);
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void recVUMI_SUBq(VURegs *vuRegs, int info);
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void recVUMI_SUBx(VURegs *vuRegs, int info);
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void recVUMI_SUBy(VURegs *vuRegs, int info);
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void recVUMI_SUBz(VURegs *vuRegs, int info);
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void recVUMI_SUBw(VURegs *vuRegs, int info);
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void recVUMI_SUBA(VURegs *vuRegs, int info);
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void recVUMI_SUBAi(VURegs *vuRegs, int info);
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void recVUMI_SUBAq(VURegs *vuRegs, int info);
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void recVUMI_SUBAx(VURegs *vuRegs, int info);
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void recVUMI_SUBAy(VURegs *vuRegs, int info);
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void recVUMI_SUBAz(VURegs *vuRegs, int info);
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void recVUMI_SUBAw(VURegs *vuRegs, int info);
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void recVUMI_MUL(VURegs *vuRegs, int info);
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void recVUMI_MULi(VURegs *vuRegs, int info);
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void recVUMI_MULq(VURegs *vuRegs, int info);
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void recVUMI_MULx(VURegs *vuRegs, int info);
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void recVUMI_MULy(VURegs *vuRegs, int info);
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void recVUMI_MULz(VURegs *vuRegs, int info);
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void recVUMI_MULw(VURegs *vuRegs, int info);
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void recVUMI_MULA(VURegs *vuRegs, int info);
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void recVUMI_MULAi(VURegs *vuRegs, int info);
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void recVUMI_MULAq(VURegs *vuRegs, int info);
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void recVUMI_MULAx(VURegs *vuRegs, int info);
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void recVUMI_MULAy(VURegs *vuRegs, int info);
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void recVUMI_MULAz(VURegs *vuRegs, int info);
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void recVUMI_MULAw(VURegs *vuRegs, int info);
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void recVUMI_MADD(VURegs *vuRegs, int info);
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void recVUMI_MADDi(VURegs *vuRegs, int info);
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void recVUMI_MADDq(VURegs *vuRegs, int info);
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void recVUMI_MADDx(VURegs *vuRegs, int info);
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void recVUMI_MADDy(VURegs *vuRegs, int info);
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void recVUMI_MADDz(VURegs *vuRegs, int info);
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void recVUMI_MADDw(VURegs *vuRegs, int info);
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void recVUMI_MADDA(VURegs *vuRegs, int info);
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void recVUMI_MADDAi(VURegs *vuRegs, int info);
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void recVUMI_MADDAq(VURegs *vuRegs, int info);
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void recVUMI_MADDAx(VURegs *vuRegs, int info);
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void recVUMI_MADDAy(VURegs *vuRegs, int info);
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void recVUMI_MADDAz(VURegs *vuRegs, int info);
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void recVUMI_MADDAw(VURegs *vuRegs, int info);
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void recVUMI_MSUB(VURegs *vuRegs, int info);
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void recVUMI_MSUBi(VURegs *vuRegs, int info);
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void recVUMI_MSUBq(VURegs *vuRegs, int info);
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void recVUMI_MSUBx(VURegs *vuRegs, int info);
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void recVUMI_MSUBy(VURegs *vuRegs, int info);
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void recVUMI_MSUBz(VURegs *vuRegs, int info);
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void recVUMI_MSUBw(VURegs *vuRegs, int info);
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void recVUMI_MSUBA(VURegs *vuRegs, int info);
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void recVUMI_MSUBAi(VURegs *vuRegs, int info);
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void recVUMI_MSUBAq(VURegs *vuRegs, int info);
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void recVUMI_MSUBAx(VURegs *vuRegs, int info);
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void recVUMI_MSUBAy(VURegs *vuRegs, int info);
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void recVUMI_MSUBAz(VURegs *vuRegs, int info);
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void recVUMI_MSUBAw(VURegs *vuRegs, int info);
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void recVUMI_MAX(VURegs *vuRegs, int info);
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void recVUMI_MAXi(VURegs *vuRegs, int info);
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void recVUMI_MAXx(VURegs *vuRegs, int info);
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void recVUMI_MAXy(VURegs *vuRegs, int info);
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void recVUMI_MAXz(VURegs *vuRegs, int info);
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void recVUMI_MAXw(VURegs *vuRegs, int info);
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void recVUMI_MINI(VURegs *vuRegs, int info);
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void recVUMI_MINIi(VURegs *vuRegs, int info);
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void recVUMI_MINIx(VURegs *vuRegs, int info);
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void recVUMI_MINIy(VURegs *vuRegs, int info);
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void recVUMI_MINIz(VURegs *vuRegs, int info);
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void recVUMI_MINIw(VURegs *vuRegs, int info);
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void recVUMI_OPMULA(VURegs *vuRegs, int info);
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void recVUMI_OPMSUB(VURegs *vuRegs, int info);
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void recVUMI_NOP(VURegs *vuRegs, int info);
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void recVUMI_FTOI0(VURegs *vuRegs, int info);
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void recVUMI_FTOI4(VURegs *vuRegs, int info);
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void recVUMI_FTOI12(VURegs *vuRegs, int info);
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void recVUMI_FTOI15(VURegs *vuRegs, int info);
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void recVUMI_ITOF0(VURegs *vuRegs, int info);
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void recVUMI_ITOF4(VURegs *vuRegs, int info);
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void recVUMI_ITOF12(VURegs *vuRegs, int info);
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void recVUMI_ITOF15(VURegs *vuRegs, int info);
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void recVUMI_CLIP(VURegs *vuRegs, int info);
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/*****************************************
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VU Micromode Lower instructions
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*****************************************/
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void recVUMI_DIV(VURegs *vuRegs, int info);
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void recVUMI_SQRT(VURegs *vuRegs, int info);
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void recVUMI_RSQRT(VURegs *vuRegs, int info);
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void recVUMI_IADD(VURegs *vuRegs, int info);
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void recVUMI_IADDI(VURegs *vuRegs, int info);
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void recVUMI_IADDIU(VURegs *vuRegs, int info);
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void recVUMI_IAND(VURegs *vuRegs, int info);
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void recVUMI_IOR(VURegs *vuRegs, int info);
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void recVUMI_ISUB(VURegs *vuRegs, int info);
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void recVUMI_ISUBIU(VURegs *vuRegs, int info);
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void recVUMI_MOVE(VURegs *vuRegs, int info);
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void recVUMI_MFIR(VURegs *vuRegs, int info);
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void recVUMI_MTIR(VURegs *vuRegs, int info);
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void recVUMI_MR32(VURegs *vuRegs, int info);
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void recVUMI_LQ(VURegs *vuRegs, int info);
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void recVUMI_LQD(VURegs *vuRegs, int info);
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void recVUMI_LQI(VURegs *vuRegs, int info);
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void recVUMI_SQ(VURegs *vuRegs, int info);
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void recVUMI_SQD(VURegs *vuRegs, int info);
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void recVUMI_SQI(VURegs *vuRegs, int info);
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void recVUMI_ILW(VURegs *vuRegs, int info);
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void recVUMI_ISW(VURegs *vuRegs, int info);
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void recVUMI_ILWR(VURegs *vuRegs, int info);
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void recVUMI_ISWR(VURegs *vuRegs, int info);
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void recVUMI_LOI(VURegs *vuRegs, int info);
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void recVUMI_RINIT(VURegs *vuRegs, int info);
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void recVUMI_RGET(VURegs *vuRegs, int info);
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void recVUMI_RNEXT(VURegs *vuRegs, int info);
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void recVUMI_RXOR(VURegs *vuRegs, int info);
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void recVUMI_WAITQ(VURegs *vuRegs, int info);
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void recVUMI_FSAND(VURegs *vuRegs, int info);
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void recVUMI_FSEQ(VURegs *vuRegs, int info);
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void recVUMI_FSOR(VURegs *vuRegs, int info);
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void recVUMI_FSSET(VURegs *vuRegs, int info);
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void recVUMI_FMAND(VURegs *vuRegs, int info);
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void recVUMI_FMEQ(VURegs *vuRegs, int info);
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void recVUMI_FMOR(VURegs *vuRegs, int info);
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void recVUMI_FCAND(VURegs *vuRegs, int info);
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void recVUMI_FCEQ(VURegs *vuRegs, int info);
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void recVUMI_FCOR(VURegs *vuRegs, int info);
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void recVUMI_FCSET(VURegs *vuRegs, int info);
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void recVUMI_FCGET(VURegs *vuRegs, int info);
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void recVUMI_IBEQ(VURegs *vuRegs, int info);
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void recVUMI_IBGEZ(VURegs *vuRegs, int info);
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void recVUMI_IBGTZ(VURegs *vuRegs, int info);
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void recVUMI_IBLTZ(VURegs *vuRegs, int info);
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void recVUMI_IBLEZ(VURegs *vuRegs, int info);
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void recVUMI_IBNE(VURegs *vuRegs, int info);
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void recVUMI_B(VURegs *vuRegs, int info);
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void recVUMI_BAL(VURegs *vuRegs, int info);
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void recVUMI_JR(VURegs *vuRegs, int info);
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void recVUMI_JALR(VURegs *vuRegs, int info);
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void recVUMI_MFP(VURegs *vuRegs, int info);
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void recVUMI_WAITP(VURegs *vuRegs, int info);
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void recVUMI_ESADD(VURegs *vuRegs, int info);
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void recVUMI_ERSADD(VURegs *vuRegs, int info);
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void recVUMI_ELENG(VURegs *vuRegs, int info);
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void recVUMI_ERLENG(VURegs *vuRegs, int info);
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void recVUMI_EATANxy(VURegs *vuRegs, int info);
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void recVUMI_EATANxz(VURegs *vuRegs, int info);
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void recVUMI_ESUM(VURegs *vuRegs, int info);
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void recVUMI_ERCPR(VURegs *vuRegs, int info);
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void recVUMI_ESQRT(VURegs *vuRegs, int info);
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void recVUMI_ERSQRT(VURegs *vuRegs, int info);
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void recVUMI_ESIN(VURegs *vuRegs, int info);
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void recVUMI_EATAN(VURegs *vuRegs, int info);
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void recVUMI_EEXP(VURegs *vuRegs, int info);
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void recVUMI_XGKICK(VURegs *vuRegs, int info);
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void recVUMI_XTOP(VURegs *vuRegs, int info);
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void recVUMI_XITOP(VURegs *vuRegs, int info);
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void recVUMI_XTOP( VURegs *VU , int info);
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#endif /* __IVUMICRO_H__ */
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