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pcsx2/pcsx2/VU0microInterp.cpp

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/* PCSX2 - PS2 Emulator for PCs
* Copyright (C) 2002-2010 PCSX2 Dev Team
*
* PCSX2 is free software: you can redistribute it and/or modify it under the terms
* of the GNU Lesser General Public License as published by the Free Software Found-
* ation, either version 3 of the License, or (at your option) any later version.
*
* PCSX2 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 for more details.
*
* You should have received a copy of the GNU General Public License along with PCSX2.
* If not, see <http://www.gnu.org/licenses/>.
*/
#include "PrecompiledHeader.h"
#include "Common.h"
#include "VUmicro.h"
#include <cfenv>
extern void _vuFlushAll(VURegs* VU);
static void _vu0ExecUpper(VURegs* VU, u32* ptr)
{
VU->code = ptr[1];
IdebugUPPER(VU0);
VU0_UPPER_OPCODE[VU->code & 0x3f]();
}
static void _vu0ExecLower(VURegs* VU, u32* ptr)
{
VU->code = ptr[0];
IdebugLOWER(VU0);
VU0_LOWER_OPCODE[VU->code >> 25]();
}
int vu0branch = 0;
static void _vu0Exec(VURegs* VU)
{
_VURegsNum lregs;
_VURegsNum uregs;
u32* ptr;
ptr = (u32*)&VU->Micro[VU->VI[REG_TPC].UL];
VU->VI[REG_TPC].UL += 8;
if (ptr[1] & 0x40000000) // E flag
{
VU->ebit = 2;
}
if (ptr[1] & 0x20000000 && VU == &VU0) // M flag
{
VU->flags |= VUFLAG_MFLAGSET;
VU0.blockhasmbit = true;
// Console.WriteLn("fixme: M flag set");
}
if (ptr[1] & 0x10000000) // D flag
{
if (VU0.VI[REG_FBRST].UL & 0x4)
{
VU0.VI[REG_VPU_STAT].UL |= 0x2;
hwIntcIrq(INTC_VU0);
VU->ebit = 1;
}
}
if (ptr[1] & 0x08000000) // T flag
{
if (VU0.VI[REG_FBRST].UL & 0x8)
{
VU0.VI[REG_VPU_STAT].UL |= 0x4;
hwIntcIrq(INTC_VU0);
VU->ebit = 1;
}
}
VU->code = ptr[1];
VU0regs_UPPER_OPCODE[VU->code & 0x3f](&uregs);
u32 cyclesBeforeOp = VU0.cycle - 1;
_vuTestUpperStalls(VU, &uregs);
/* check upper flags */
if (ptr[1] & 0x80000000) // I flag
{
_vuTestPipes(VU);
if (VU->VIBackupCycles > 0)
VU->VIBackupCycles -= std::min((u8)(VU0.cycle - cyclesBeforeOp), VU->VIBackupCycles);
_vu0ExecUpper(VU, ptr);
VU->VI[REG_I].UL = ptr[0];
memset(&lregs, 0, sizeof(lregs));
}
else
{
VECTOR _VF;
VECTOR _VFc;
REG_VI _VI;
REG_VI _VIc;
int vfreg = 0;
int vireg = 0;
int discard = 0;
VU->code = ptr[0];
lregs.cycles = 0;
VU0regs_LOWER_OPCODE[VU->code >> 25](&lregs);
_vuTestLowerStalls(VU, &lregs);
_vuTestPipes(VU);
if (VU->VIBackupCycles > 0)
VU->VIBackupCycles -= std::min((u8)(VU0.cycle - cyclesBeforeOp), VU->VIBackupCycles);
vu0branch = lregs.pipe == VUPIPE_BRANCH;
if (uregs.VFwrite)
{
if (lregs.VFwrite == uregs.VFwrite)
{
// Console.Warning("*PCSX2*: Warning, VF write to the same reg in both lower/upper cycle");
discard = 1;
}
if (lregs.VFread0 == uregs.VFwrite ||
lregs.VFread1 == uregs.VFwrite)
{
// Console.WriteLn("saving reg %d at pc=%x", i, VU->VI[REG_TPC].UL);
_VF = VU->VF[uregs.VFwrite];
vfreg = uregs.VFwrite;
}
}
if (uregs.VIread & (1 << REG_CLIP_FLAG))
{
if (lregs.VIwrite & (1 << REG_CLIP_FLAG))
{
//Console.Warning("*PCSX2*: Warning, VI write to the same reg in both lower/upper cycle");
discard = 1;
}
if (lregs.VIread & (1 << REG_CLIP_FLAG))
{
_VI = VU0.VI[REG_CLIP_FLAG];
vireg = REG_CLIP_FLAG;
}
}
_vu0ExecUpper(VU, ptr);
if (discard == 0)
{
if (vfreg)
{
_VFc = VU->VF[vfreg];
VU->VF[vfreg] = _VF;
}
if (vireg)
{
_VIc = VU->VI[vireg];
VU->VI[vireg] = _VI;
}
_vu0ExecLower(VU, ptr);
if (vfreg)
{
VU->VF[vfreg] = _VFc;
}
if (vireg)
{
VU->VI[vireg] = _VIc;
}
}
}
if (uregs.pipe == VUPIPE_FMAC || lregs.pipe == VUPIPE_FMAC)
_vuClearFMAC(VU);
_vuAddUpperStalls(VU, &uregs);
_vuAddLowerStalls(VU, &lregs);
if (VU->branch > 0)
{
if (VU->branch-- == 1)
{
VU->VI[REG_TPC].UL = VU->branchpc;
VU->blockhasmbit = false;
if (VU->takedelaybranch)
{
DevCon.Warning("VU0 - Branch/Jump in Delay Slot");
VU->branch = 1;
VU->branchpc = VU->delaybranchpc;
VU->takedelaybranch = false;
}
}
}
if (VU->ebit > 0)
{
if (VU->ebit-- == 1)
{
VU->VIBackupCycles = 0;
_vuFlushAll(VU);
VU0.VI[REG_VPU_STAT].UL &= ~0x1; /* E flag */
vif0Regs.stat.VEW = false;
VU->blockhasmbit = false;
}
}
// Progress the write position of the FMAC pipeline by one place
if (uregs.pipe == VUPIPE_FMAC || lregs.pipe == VUPIPE_FMAC)
VU->fmacwritepos = (VU->fmacwritepos + 1) & 3;
}
void vu0Exec(VURegs* VU)
{
VU0.VI[REG_TPC].UL &= VU0_PROGMASK;
VU->cycle++;
_vu0Exec(VU);
if (VU->VI[0].UL != 0)
DbgCon.Error("VI[0] != 0!!!!\n");
if (VU->VF[0].f.x != 0.0f)
DbgCon.Error("VF[0].x != 0.0!!!!\n");
if (VU->VF[0].f.y != 0.0f)
DbgCon.Error("VF[0].y != 0.0!!!!\n");
if (VU->VF[0].f.z != 0.0f)
DbgCon.Error("VF[0].z != 0.0!!!!\n");
if (VU->VF[0].f.w != 1.0f)
DbgCon.Error("VF[0].w != 1.0!!!!\n");
}
// --------------------------------------------------------------------------------------
// VU0microInterpreter
// --------------------------------------------------------------------------------------
InterpVU0 CpuIntVU0;
InterpVU0::InterpVU0()
{
m_Idx = 0;
IsInterpreter = true;
}
void InterpVU0::Reset()
{
DevCon.Warning("VU0 Int Reset");
VU0.fmacwritepos = 0;
VU0.fmacreadpos = 0;
VU0.fmaccount = 0;
VU0.ialuwritepos = 0;
VU0.ialureadpos = 0;
VU0.ialucount = 0;
}
void InterpVU0::SetStartPC(u32 startPC)
{
VU0.start_pc = startPC;
}
void InterpVU0::Step()
{
vu0Exec(&VU0);
}
void InterpVU0::Execute(u32 cycles)
{
const int originalRounding = fegetround();
fesetround(g_sseVU0MXCSR.RoundingControl << 8);
VU0.VI[REG_TPC].UL <<= 3;
VU0.flags &= ~VUFLAG_MFLAGSET;
u32 startcycles = VU0.cycle;
while ((VU0.cycle - startcycles) < cycles)
{
if (!(VU0.VI[REG_VPU_STAT].UL & 0x1))
{
// Branches advance the PC to the new location if there was a branch in the E-Bit delay slot
if (VU0.branch)
{
VU0.VI[REG_TPC].UL = VU0.branchpc;
VU0.branch = 0;
}
break;
}
if (VU0.flags & VUFLAG_MFLAGSET)
break;
vu0Exec(&VU0);
}
VU0.VI[REG_TPC].UL >>= 3;
VU0.nextBlockCycles = (VU0.cycle - cpuRegs.cycle) + 1;
fesetround(originalRounding);
}
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