ppsspp/Core/MIPS/x86/CompLoadStore.cpp
Unknown W. Brackets 9cd5836b85 Rename WriteFinish() to Finish() is safe mem.
It's nothing to do with writing.
2013-01-26 09:09:47 -08:00

196 lines
5.0 KiB
C++

// Copyright (c) 2012- PPSSPP Project.
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, version 2.0 or later versions.
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License 2.0 for more details.
// A copy of the GPL 2.0 should have been included with the program.
// If not, see http://www.gnu.org/licenses/
// Official git repository and contact information can be found at
// https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/.
#include "../../MemMap.h"
#include "../MIPSAnalyst.h"
#include "../../Config.h"
#include "Jit.h"
#include "RegCache.h"
#define _RS ((op>>21) & 0x1F)
#define _RT ((op>>16) & 0x1F)
#define _RD ((op>>11) & 0x1F)
#define _FS ((op>>11) & 0x1F)
#define _FT ((op>>16) & 0x1F)
#define _FD ((op>>6 ) & 0x1F)
#define _POS ((op>>6 ) & 0x1F)
#define _SIZE ((op>>11 ) & 0x1F)
// All functions should have CONDITIONAL_DISABLE, so we can narrow things down to a file quickly.
// Currently known non working ones should have DISABLE.
// #define CONDITIONAL_DISABLE Comp_Generic(op); return;
#define CONDITIONAL_DISABLE ;
#define DISABLE Comp_Generic(op); return;
namespace MIPSComp
{
void Jit::CompITypeMemRead(u32 op, u32 bits, void (XEmitter::*mov)(int, int, X64Reg, OpArg), void *safeFunc)
{
CONDITIONAL_DISABLE;
int offset = (signed short)(op&0xFFFF);
int rt = _RT;
int rs = _RS;
gpr.Lock(rt, rs);
gpr.BindToRegister(rt, rt == rs, true);
JitSafeMem safe(this, rs, offset);
OpArg src;
if (safe.PrepareRead(src, safeFunc))
(this->*mov)(32, bits, gpr.RX(rt), src);
if (safe.PrepareSlowRead(safeFunc))
(this->*mov)(32, bits, gpr.RX(rt), R(EAX));
safe.Finish();
gpr.UnlockAll();
}
void Jit::CompITypeMemWrite(u32 op, u32 bits, void *safeFunc)
{
CONDITIONAL_DISABLE;
int offset = (signed short)(op&0xFFFF);
int rt = _RT;
int rs = _RS;
gpr.Lock(rt, rs);
gpr.BindToRegister(rt, true, false);
#ifdef _M_IX86
// We use EDX so we can have DL for 8-bit ops.
const bool needSwap = bits == 8 && !gpr.R(rt).IsSimpleReg(EDX) && !gpr.R(rt).IsSimpleReg(ECX);
if (needSwap)
gpr.FlushLockX(EDX);
#else
const bool needSwap = false;
#endif
JitSafeMem safe(this, rs, offset);
OpArg dest;
if (safe.PrepareWrite(dest))
{
if (needSwap)
{
MOV(32, R(EDX), gpr.R(rt));
MOV(bits, dest, R(EDX));
}
else
MOV(bits, dest, gpr.R(rt));
}
if (safe.PrepareSlowWrite())
safe.DoSlowWrite(safeFunc, gpr.R(rt));
safe.Finish();
if (needSwap)
gpr.UnlockAllX();
gpr.UnlockAll();
}
void Jit::Comp_ITypeMem(u32 op)
{
CONDITIONAL_DISABLE;
int offset = (signed short)(op&0xFFFF);
int rt = _RT;
int rs = _RS;
int o = op>>26;
if (((op >> 29) & 1) == 0 && rt == 0) {
// Don't load anything into $zr
return;
}
switch (o)
{
case 37: //R(rt) = ReadMem16(addr); break; //lhu
CompITypeMemRead(op, 16, &XEmitter::MOVZX, (void *) &Memory::Read_U16);
break;
case 36: //R(rt) = ReadMem8 (addr); break; //lbu
CompITypeMemRead(op, 8, &XEmitter::MOVZX, (void *) &Memory::Read_U8);
break;
case 35: //R(rt) = ReadMem32(addr); break; //lw
CompITypeMemRead(op, 32, &XEmitter::MOVZX, (void *) &Memory::Read_U32);
break;
case 32: //R(rt) = (u32)(s32)(s8) ReadMem8 (addr); break; //lb
CompITypeMemRead(op, 8, &XEmitter::MOVSX, (void *) &Memory::Read_U8);
break;
case 33: //R(rt) = (u32)(s32)(s16)ReadMem16(addr); break; //lh
CompITypeMemRead(op, 16, &XEmitter::MOVSX, (void *) &Memory::Read_U16);
break;
case 40: //WriteMem8 (addr, R(rt)); break; //sb
CompITypeMemWrite(op, 8, (void *) &Memory::Write_U8);
break;
case 41: //WriteMem16(addr, R(rt)); break; //sh
CompITypeMemWrite(op, 16, (void *) &Memory::Write_U16);
break;
case 43: //WriteMem32(addr, R(rt)); break; //sw
CompITypeMemWrite(op, 32, (void *) &Memory::Write_U32);
break;
case 134: //lwl
{
Crash();
//u32 shift = (addr & 3) << 3;
//u32 mem = ReadMem32(addr & 0xfffffffc);
//R(rt) = ( u32(R(rt)) & (0x00ffffff >> shift) ) | ( mem << (24 - shift) );
}
break;
case 138: //lwr
{
Crash();
//u32 shift = (addr & 3) << 3;
//u32 mem = ReadMem32(addr & 0xfffffffc);
//R(rt) = ( u32(rt) & (0xffffff00 << (24 - shift)) ) | ( mem >> shift );
}
break;
case 142: //swl
{
Crash();
//u32 shift = (addr & 3) << 3;
//u32 mem = ReadMem32(addr & 0xfffffffc);
//WriteMem32((addr & 0xfffffffc), ( ( u32(R(rt)) >> (24 - shift) ) ) |
// ( mem & (0xffffff00 << shift) ));
}
break;
case 146: //swr
{
Crash();
// u32 shift = (addr & 3) << 3;
// u32 mem = ReadMem32(addr & 0xfffffffc);
//
// WriteMem32((addr & 0xfffffffc), ( ( u32(R(rt)) << shift ) |
// (mem & (0x00ffffff >> (24 - shift)) ) ) );
}
break;
default:
Comp_Generic(op);
return ;
}
}
}