#include "stdafx.h" CCodeSection * CRecompilerOps::m_Section = NULL; CRegInfo CRecompilerOps::m_RegWorkingSet; STEP_TYPE CRecompilerOps::m_NextInstruction; DWORD CRecompilerOps::m_CompilePC; OPCODE CRecompilerOps::m_Opcode; DWORD CRecompilerOps::m_BranchCompare = 0; void CRecompilerOps::CompileReadTLBMiss (DWORD VirtualAddress, x86Reg LookUpReg ) { MoveConstToVariable(VirtualAddress,_TLBLoadAddress,"TLBLoadAddress"); TestX86RegToX86Reg(LookUpReg,LookUpReg); m_Section->CompileExit(m_CompilePC, m_CompilePC,m_RegWorkingSet,CExitInfo::TLBReadMiss,FALSE,JeLabel32); } void CRecompilerOps::CompileReadTLBMiss (x86Reg AddressReg, x86Reg LookUpReg ) { MoveX86regToVariable(AddressReg,_TLBLoadAddress,"TLBLoadAddress"); TestX86RegToX86Reg(LookUpReg,LookUpReg); m_Section->CompileExit(m_CompilePC, m_CompilePC,m_RegWorkingSet,CExitInfo::TLBReadMiss,FALSE,JeLabel32); } void CRecompilerOps::CompileWriteTLBMiss (x86Reg AddressReg, x86Reg LookUpReg ) { MoveX86regToVariable(AddressReg,&_TLBStoreAddress,"_TLBStoreAddress"); TestX86RegToX86Reg(LookUpReg,LookUpReg); m_Section->CompileExit(m_CompilePC, m_CompilePC,m_RegWorkingSet,CExitInfo::TLBWriteMiss,FALSE,JeLabel32); } bool DelaySlotEffectsCompare ( DWORD PC, DWORD Reg1, DWORD Reg2 ); /************************** Branch functions ************************/ void CRecompilerOps::Compile_Branch (CRecompilerOps::BranchFunction CompareFunc, BRANCH_TYPE BranchType, BOOL Link) { static CRegInfo RegBeforeDelay; static bool EffectDelaySlot; if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_CompilePC + ((short)m_Opcode.offset << 2) + 4 == m_CompilePC + 8) { return; } if ((m_CompilePC & 0xFFC) != 0xFFC) { switch (BranchType) { case BranchTypeRs: EffectDelaySlot = DelaySlotEffectsCompare(m_CompilePC,m_Opcode.rs,0); break; case BranchTypeRsRt: EffectDelaySlot = DelaySlotEffectsCompare(m_CompilePC,m_Opcode.rs,m_Opcode.rt); break; case BranchTypeCop1: { OPCODE Command; if (!_MMU->LW_VAddr(m_CompilePC + 4, Command.Hex)) { g_Notify->DisplayError(GS(MSG_FAIL_LOAD_WORD)); ExitThread(0); } EffectDelaySlot = FALSE; if (Command.op == R4300i_CP1) { if (Command.fmt == R4300i_COP1_S && (Command.funct & 0x30) == 0x30 ) { EffectDelaySlot = TRUE; } if (Command.fmt == R4300i_COP1_D && (Command.funct & 0x30) == 0x30 ) { EffectDelaySlot = TRUE; } } } break; #ifndef EXTERNAL_RELEASE default: g_Notify->DisplayError("Unknown branch type"); #endif } } else { EffectDelaySlot = true; } m_Section->m_Jump.JumpPC = m_CompilePC; m_Section->m_Jump.TargetPC = m_CompilePC + ((short)m_Opcode.offset << 2) + 4; if (m_Section->m_JumpSection != NULL) { m_Section->m_Jump.BranchLabel.Format("Section_%d",m_Section->m_JumpSection->m_SectionID); } else { m_Section->m_Jump.BranchLabel.Format("Exit_%X_jump_%X",m_Section->m_EnterPC,m_Section->m_Jump.TargetPC); } m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_Section->m_Jump.DoneDelaySlot = FALSE; m_Section->m_Cont.JumpPC = m_CompilePC; m_Section->m_Cont.TargetPC = m_CompilePC + 8; if (m_Section->m_ContinueSection != NULL) { m_Section->m_Cont.BranchLabel.Format("Section_%d",m_Section->m_ContinueSection->m_SectionID); } else { m_Section->m_Cont.BranchLabel.Format("Exit_%X_continue_%X",m_Section->m_EnterPC,m_Section->m_Cont.TargetPC); } m_Section->m_Cont.LinkLocation = NULL; m_Section->m_Cont.LinkLocation2 = NULL; m_Section->m_Cont.DoneDelaySlot = FALSE; if (m_Section->m_Jump.TargetPC < m_Section->m_Cont.TargetPC) { m_Section->m_Cont.FallThrough = FALSE; m_Section->m_Jump.FallThrough = TRUE; } else { m_Section->m_Cont.FallThrough = TRUE; m_Section->m_Jump.FallThrough = FALSE; } if (Link) { UnMap_GPR( 31, FALSE); m_RegWorkingSet.SetMipsRegLo(31,m_CompilePC + 8); m_RegWorkingSet.SetMipsRegState(31,CRegInfo::STATE_CONST_32); } if (EffectDelaySlot) { if ((m_CompilePC & 0xFFC) != 0xFFC) { m_Section->m_Cont.BranchLabel = m_Section->m_ContinueSection != NULL ? "Continue" : "ExitBlock"; m_Section->m_Jump.BranchLabel = m_Section->m_JumpSection != NULL ? "Jump" : "ExitBlock"; } else { m_Section->m_Cont.BranchLabel = "Continue"; m_Section->m_Jump.BranchLabel = "Jump"; } if (m_Section->m_Jump.TargetPC != m_Section->m_Cont.TargetPC) { CompareFunc(); } if (!m_Section->m_Jump.FallThrough && !m_Section->m_Cont.FallThrough) { if (m_Section->m_Jump.LinkLocation != NULL) { CPU_Message(""); CPU_Message(" %s:",m_Section->m_Jump.BranchLabel.c_str()); SetJump32((DWORD *)m_Section->m_Jump.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation = NULL; if (m_Section->m_Jump.LinkLocation2 != NULL) { SetJump32((DWORD *)m_Section->m_Jump.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation2 = NULL; } m_Section->m_Jump.FallThrough = TRUE; } else if (m_Section->m_Cont.LinkLocation != NULL){ CPU_Message(""); CPU_Message(" %s:",m_Section->m_Cont.BranchLabel.c_str()); SetJump32((DWORD *)m_Section->m_Cont.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation = NULL; if (m_Section->m_Cont.LinkLocation2 != NULL) { SetJump32((DWORD *)m_Section->m_Cont.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation2 = NULL; } m_Section->m_Cont.FallThrough = TRUE; } } if ((m_CompilePC & 0xFFC) == 0xFFC) { BYTE * DelayLinkLocation = NULL; if (m_Section->m_Jump.FallThrough) { if (m_Section->m_Jump.LinkLocation != NULL || m_Section->m_Jump.LinkLocation2 != NULL) { g_Notify->BreakPoint(__FILE__,__LINE__); } MoveConstToVariable(m_Section->m_Jump.TargetPC,&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } else if (m_Section->m_Cont.FallThrough) { if (m_Section->m_Cont.LinkLocation != NULL || m_Section->m_Cont.LinkLocation2 != NULL) { g_Notify->BreakPoint(__FILE__,__LINE__); } MoveConstToVariable(m_Section->m_Cont.TargetPC,&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } if (m_Section->m_Jump.LinkLocation != NULL || m_Section->m_Jump.LinkLocation2 != NULL) { JmpLabel8("DoDelaySlot",0); if (DelayLinkLocation != NULL) { g_Notify->BreakPoint(__FILE__,__LINE__); } DelayLinkLocation = (BYTE *)(m_RecompPos - 1); CPU_Message(" "); CPU_Message(" %s:",m_Section->m_Jump.BranchLabel.c_str()); SetJump32(m_Section->m_Jump.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation = NULL; if (m_Section->m_Jump.LinkLocation2 != NULL) { SetJump32(m_Section->m_Jump.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation2 = NULL; } MoveConstToVariable(m_Section->m_Jump.TargetPC,&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } if (m_Section->m_Cont.LinkLocation != NULL || m_Section->m_Cont.LinkLocation2 != NULL) { JmpLabel8("DoDelaySlot",0); if (DelayLinkLocation != NULL) { g_Notify->BreakPoint(__FILE__,__LINE__); } DelayLinkLocation = (BYTE *)(m_RecompPos - 1); CPU_Message(" "); CPU_Message(" %s:",m_Section->m_Cont.BranchLabel.c_str()); SetJump32(m_Section->m_Cont.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation = NULL; if (m_Section->m_Cont.LinkLocation2 != NULL) { SetJump32(m_Section->m_Cont.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation2 = NULL; } MoveConstToVariable(m_Section->m_Cont.TargetPC,&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } if (DelayLinkLocation) { CPU_Message(""); CPU_Message(" DoDelaySlot:"); SetJump8(DelayLinkLocation,m_RecompPos); } OverflowDelaySlot(false); return; } ResetX86Protection(); RegBeforeDelay = m_RegWorkingSet; } m_NextInstruction = DO_DELAY_SLOT; } else if (m_NextInstruction == DELAY_SLOT_DONE ) { if (EffectDelaySlot) { CJumpInfo * FallInfo = m_Section->m_Jump.FallThrough?&m_Section->m_Jump:&m_Section->m_Cont; CJumpInfo * JumpInfo = m_Section->m_Jump.FallThrough?&m_Section->m_Cont:&m_Section->m_Jump; if (FallInfo->FallThrough && !FallInfo->DoneDelaySlot) { ResetX86Protection(); FallInfo->RegSet = m_RegWorkingSet; if (FallInfo == &m_Section->m_Jump) { if (m_Section->m_JumpSection != NULL) { m_Section->m_Jump.BranchLabel.Format("Section_%d",m_Section->m_JumpSection->m_SectionID); } else { m_Section->m_Jump.BranchLabel = "ExitBlock"; } if (FallInfo->TargetPC <= m_CompilePC) { UpdateCounters(m_Section->m_Jump.RegSet,true,true); CPU_Message("CompileSystemCheck 12"); CompileSystemCheck(FallInfo->TargetPC,m_Section->m_Jump.RegSet); ResetX86Protection(); } } else { if (m_Section->m_ContinueSection != NULL) { m_Section->m_Cont.BranchLabel.Format("Section_%d",m_Section->m_ContinueSection->m_SectionID); } else { m_Section->m_Cont.BranchLabel = "ExitBlock"; } } FallInfo->DoneDelaySlot = TRUE; if (!JumpInfo->DoneDelaySlot) { FallInfo->FallThrough = FALSE; JmpLabel32(FallInfo->BranchLabel.c_str(),0); FallInfo->LinkLocation = (DWORD *)(m_RecompPos - 4); if (JumpInfo->LinkLocation != NULL) { CPU_Message(" %s:",JumpInfo->BranchLabel.c_str()); SetJump32((DWORD *)JumpInfo->LinkLocation,(DWORD *)m_RecompPos); JumpInfo->LinkLocation = NULL; if (JumpInfo->LinkLocation2 != NULL) { SetJump32((DWORD *)JumpInfo->LinkLocation2,(DWORD *)m_RecompPos); JumpInfo->LinkLocation2 = NULL; } JumpInfo->FallThrough = TRUE; m_NextInstruction = DO_DELAY_SLOT; m_RegWorkingSet = RegBeforeDelay; return; } } } } else { if (m_Section->m_Jump.TargetPC != m_Section->m_Cont.TargetPC) { CompareFunc(); ResetX86Protection(); m_Section->m_Cont.RegSet = m_RegWorkingSet; m_Section->m_Jump.RegSet = m_RegWorkingSet; } else { m_Section->m_Jump.FallThrough = false; m_Section->m_Cont.FallThrough = true; m_Section->m_Cont.RegSet = m_RegWorkingSet; if (m_Section->m_ContinueSection == NULL && m_Section->m_JumpSection != NULL) { m_Section->m_ContinueSection = m_Section->m_JumpSection; m_Section->m_JumpSection = NULL; } if (m_Section->m_ContinueSection != NULL) { m_Section->m_Cont.BranchLabel.Format("Section_%d",m_Section->m_ContinueSection->m_SectionID); } else { m_Section->m_Cont.BranchLabel = "ExitBlock"; } } } m_Section->GenerateSectionLinkage(); m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nBranch\nNextInstruction = %X", m_NextInstruction); #endif } } void CRecompilerOps::Compile_BranchLikely (BranchFunction CompareFunc, BOOL Link) { if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (!bLinkBlocks() || (m_CompilePC & 0xFFC) == 0xFFC) { m_Section->m_Jump.JumpPC = m_CompilePC; m_Section->m_Jump.TargetPC = m_CompilePC + ((short)m_Opcode.offset << 2) + 4; m_Section->m_Cont.JumpPC = m_CompilePC; m_Section->m_Cont.TargetPC = m_CompilePC + 8; } else { if (m_Section->m_Jump.JumpPC != m_CompilePC) { g_Notify->BreakPoint(__FILE__,__LINE__); } if (m_Section->m_Cont.JumpPC != m_CompilePC) { g_Notify->BreakPoint(__FILE__,__LINE__); } if (m_Section->m_Cont.TargetPC != m_CompilePC + 8) { g_Notify->BreakPoint(__FILE__,__LINE__); } } if (m_Section->m_JumpSection != NULL) { m_Section->m_Jump.BranchLabel.Format("Section_%d",((CCodeSection *)m_Section->m_JumpSection)->m_SectionID); } else { m_Section->m_Jump.BranchLabel = "ExitBlock"; } if (m_Section->m_ContinueSection != NULL) { m_Section->m_Cont.BranchLabel.Format("Section_%d",((CCodeSection *)m_Section->m_ContinueSection)->m_SectionID); } else { m_Section->m_Cont.BranchLabel = "ExitBlock"; } m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_Section->m_Cont.FallThrough = FALSE; m_Section->m_Cont.LinkLocation = NULL; m_Section->m_Cont.LinkLocation2 = NULL; if (Link) { UnMap_GPR( 31, FALSE); m_RegWorkingSet.SetMipsRegLo(31, m_CompilePC + 8); m_RegWorkingSet.SetMipsRegState(31,CRegInfo::STATE_CONST_32); } CompareFunc(); ResetX86Protection(); m_Section->m_Cont.RegSet = m_RegWorkingSet; if ((m_CompilePC & 0xFFC) == 0xFFC) { if (m_Section->m_Cont.FallThrough) { g_Notify->BreakPoint(__FILE__,__LINE__); } if (m_Section->m_Jump.LinkLocation != NULL) { SetJump32(m_Section->m_Jump.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation = NULL; if (m_Section->m_Jump.LinkLocation2 != NULL) { SetJump32(m_Section->m_Jump.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Jump.LinkLocation2 = NULL; } } MoveConstToVariable(m_Section->m_Jump.TargetPC,&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); OverflowDelaySlot(false); CPU_Message(" "); CPU_Message(" %s:",m_Section->m_Cont.BranchLabel.c_str()); if (m_Section->m_Cont.LinkLocation != NULL) { SetJump32(m_Section->m_Cont.LinkLocation,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation = NULL; if (m_Section->m_Cont.LinkLocation2 != NULL) { SetJump32(m_Section->m_Cont.LinkLocation2,(DWORD *)m_RecompPos); m_Section->m_Cont.LinkLocation2 = NULL; } } m_Section->CompileExit(m_CompilePC, m_CompilePC + 8,m_Section->m_Cont.RegSet,CExitInfo::Normal,TRUE,NULL); return; } else { m_NextInstruction = DO_DELAY_SLOT; } if (bLinkBlocks()) { m_Section->m_Jump.RegSet = m_RegWorkingSet; m_Section->GenerateSectionLinkage(); m_NextInstruction = END_BLOCK; } else { if (m_Section->m_Cont.FallThrough) { if (m_Section->m_Jump.LinkLocation != NULL) { g_Notify->BreakPoint(__FILE__,__LINE__); } m_Section->GenerateSectionLinkage(); m_NextInstruction = END_BLOCK; } } } else if (m_NextInstruction == DELAY_SLOT_DONE ) { ResetX86Protection(); m_Section->m_Jump.RegSet = m_RegWorkingSet; m_Section->GenerateSectionLinkage(); m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nBranchLikely\nNextInstruction = %X", m_NextInstruction); #endif } } void CRecompilerOps::BNE_Compare (void) { BYTE *Jump = NULL; if (IsKnown(m_Opcode.rs) && IsKnown(m_Opcode.rt)) { if (IsConst(m_Opcode.rs) && IsConst(m_Opcode.rt)) { if (Is64Bit(m_Opcode.rs) || Is64Bit(m_Opcode.rt)) { CRecompilerOps::UnknownOpcode(); } else if (GetMipsRegLo(m_Opcode.rs) != GetMipsRegLo(m_Opcode.rt)) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsMapped(m_Opcode.rs) && IsMapped(m_Opcode.rt)) { if (Is64Bit(m_Opcode.rs) || Is64Bit(m_Opcode.rt)) { ProtectGPR(m_Opcode.rs); ProtectGPR(m_Opcode.rt); CompX86RegToX86Reg( Is32Bit(m_Opcode.rs)?Map_TempReg(x86_Any,m_Opcode.rs,TRUE):GetMipsRegMapHi(m_Opcode.rs), Is32Bit(m_Opcode.rt)?Map_TempReg(x86_Any,m_Opcode.rt,TRUE):GetMipsRegMapHi(m_Opcode.rt) ); if (m_Section->m_Jump.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs),GetMipsRegMapLo(m_Opcode.rt)); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else { CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs),GetMipsRegMapLo(m_Opcode.rt)); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } else { DWORD ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(ConstReg) || Is64Bit(MappedReg)) { if (Is32Bit(ConstReg) || Is32Bit(MappedReg)) { ProtectGPR(MappedReg); if (Is32Bit(MappedReg)) { CompConstToX86reg(Map_TempReg(x86_Any,MappedReg,TRUE),GetMipsRegHi(ConstReg)); } else { CompConstToX86reg(GetMipsRegMapHi(MappedReg),GetMipsRegLo_S(ConstReg) >> 31); } } else { CompConstToX86reg(GetMipsRegMapHi(MappedReg),GetMipsRegHi(ConstReg)); } if (m_Section->m_Jump.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } CompConstToX86reg(GetMipsRegMapLo(MappedReg),GetMipsRegLo(ConstReg)); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else { CompConstToX86reg(GetMipsRegMapLo(MappedReg),GetMipsRegLo(ConstReg)); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } } else if (IsKnown(m_Opcode.rs) || IsKnown(m_Opcode.rt)) { DWORD KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (!b32BitCore()) { if (IsConst(KnownReg)) { if (Is64Bit(KnownReg)) { CompConstToVariable(GetMipsRegHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else if (IsSigned(KnownReg)) { CompConstToVariable((GetMipsRegLo_S(KnownReg) >> 31),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompConstToVariable(0,&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } else { if (Is64Bit(KnownReg)) { CompX86regToVariable(GetMipsRegMapHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else if (IsSigned(KnownReg)) { ProtectGPR(KnownReg); CompX86regToVariable(Map_TempReg(x86_Any,KnownReg,TRUE),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompConstToVariable(0,&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } if (m_Section->m_Jump.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } if (IsConst(KnownReg)) { CompConstToVariable(GetMipsRegLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); if (Jump) { CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); if (b32BitCore()) { m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } } else { x86Reg Reg = x86_Any; if (!b32BitCore()) { Reg = Map_TempReg(x86_Any,m_Opcode.rt,TRUE); CompX86regToVariable(Reg,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); if (m_Section->m_Jump.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } Reg = Map_TempReg(Reg,m_Opcode.rt,FALSE); CompX86regToVariable(Reg,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); if (Jump) { CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); if (b32BitCore()) { m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } } } void CRecompilerOps::BEQ_Compare (void) { BYTE *Jump = NULL; if (IsKnown(m_Opcode.rs) && IsKnown(m_Opcode.rt)) { if (IsConst(m_Opcode.rs) && IsConst(m_Opcode.rt)) { if (Is64Bit(m_Opcode.rs) || Is64Bit(m_Opcode.rt)) { CRecompilerOps::UnknownOpcode(); } else if (GetMipsRegLo(m_Opcode.rs) == GetMipsRegLo(m_Opcode.rt)) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsMapped(m_Opcode.rs) && IsMapped(m_Opcode.rt)) { if ((Is64Bit(m_Opcode.rs) || Is64Bit(m_Opcode.rt)) && !b32BitCore()) { ProtectGPR(m_Opcode.rs); ProtectGPR(m_Opcode.rt); CompX86RegToX86Reg( Is32Bit(m_Opcode.rs)?Map_TempReg(x86_Any,m_Opcode.rs,TRUE):GetMipsRegMapHi(m_Opcode.rs), Is32Bit(m_Opcode.rt)?Map_TempReg(x86_Any,m_Opcode.rt,TRUE):GetMipsRegMapHi(m_Opcode.rt) ); if (m_Section->m_Cont.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Cont.BranchLabel.c_str(),0); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs),GetMipsRegMapLo(m_Opcode.rt)); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs),GetMipsRegMapLo(m_Opcode.rt)); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } else { DWORD ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(ConstReg) || Is64Bit(MappedReg)) { if (Is32Bit(ConstReg) || Is32Bit(MappedReg)) { if (Is32Bit(MappedReg)) { ProtectGPR(MappedReg); CompConstToX86reg(Map_TempReg(x86_Any,MappedReg,TRUE),GetMipsRegHi(ConstReg)); } else { CompConstToX86reg(GetMipsRegMapHi(MappedReg),GetMipsRegLo_S(ConstReg) >> 31); } } else { CompConstToX86reg(GetMipsRegMapHi(MappedReg),GetMipsRegHi(ConstReg)); } if (m_Section->m_Cont.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Cont.BranchLabel.c_str(),0); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } CompConstToX86reg(GetMipsRegMapLo(MappedReg),GetMipsRegLo(ConstReg)); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { CompConstToX86reg(GetMipsRegMapLo(MappedReg),GetMipsRegLo(ConstReg)); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } } else if (IsKnown(m_Opcode.rs) || IsKnown(m_Opcode.rt)) { DWORD KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (!b32BitCore()) { if (IsConst(KnownReg)) { if (Is64Bit(KnownReg)) { CompConstToVariable(GetMipsRegHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else if (IsSigned(KnownReg)) { CompConstToVariable(GetMipsRegLo_S(KnownReg) >> 31,&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompConstToVariable(0,&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } else { ProtectGPR(KnownReg); if (Is64Bit(KnownReg)) { CompX86regToVariable(GetMipsRegMapHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else if (IsSigned(KnownReg)) { CompX86regToVariable(Map_TempReg(x86_Any,KnownReg,TRUE),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompConstToVariable(0,&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } if (m_Section->m_Cont.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Cont.BranchLabel.c_str(),0); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } } if (IsConst(KnownReg)) { CompConstToVariable(GetMipsRegLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); if (Jump) { CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { x86Reg Reg = x86_Any; if (!b32BitCore()) { Reg = Map_TempReg(x86_Any,m_Opcode.rs,TRUE); CompX86regToVariable(Reg,&_GPR[m_Opcode.rt].W[1],CRegName::GPR_Hi[m_Opcode.rt]); if (m_Section->m_Cont.FallThrough) { JneLabel8("continue",0); Jump = m_RecompPos - 1; } else { JneLabel32(m_Section->m_Cont.BranchLabel.c_str(),0); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } } CompX86regToVariable(Map_TempReg(Reg,m_Opcode.rs,FALSE),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); if (Jump) { CPU_Message(" "); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } void CRecompilerOps::BGTZ_Compare (void) { if (IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { if (GetMipsReg_S(m_Opcode.rs) > 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else { if (GetMipsRegLo_S(m_Opcode.rs) > 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } } else if (IsMapped(m_Opcode.rs) && Is32Bit(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); if (m_Section->m_Jump.FallThrough) { JleLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JgLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JleLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else if (IsUnknown(m_Opcode.rs) && b32BitCore()) { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); if (m_Section->m_Jump.FallThrough) { JleLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JgLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JleLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { BYTE *Jump = NULL; if (IsMapped(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),0); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); } if (m_Section->m_Jump.FallThrough) { JlLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JgLabel8("continue",0); Jump = m_RecompPos - 1; } else if (m_Section->m_Cont.FallThrough) { JlLabel8("continue",0); Jump = m_RecompPos - 1; JgLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JlLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JgLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } if (IsMapped(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); } if (m_Section->m_Jump.FallThrough) { JeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else if (m_Section->m_Cont.FallThrough) { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else { JneLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } } void CRecompilerOps::BLEZ_Compare (void) { if (IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { if (GetMipsReg_S(m_Opcode.rs) <= 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsSigned(m_Opcode.rs)) { if (GetMipsRegLo_S(m_Opcode.rs) <= 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else { if (GetMipsRegLo(m_Opcode.rs) == 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } } else if (IsMapped(m_Opcode.rs)) { if (Is32Bit(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); if (m_Section->m_Jump.FallThrough) { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JleLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { BYTE *Jump = NULL; if (IsMapped(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),0); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); } if (m_Section->m_Jump.FallThrough) { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JlLabel8("Continue",0); Jump = m_RecompPos - 1; } else if (m_Section->m_Cont.FallThrough) { JgLabel8("Continue",0); Jump = m_RecompPos - 1; JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } if (IsMapped(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); } if (m_Section->m_Jump.FallThrough) { JneLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else if (m_Section->m_Cont.FallThrough) { JeLabel32 (m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } else { JneLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); JmpLabel32("BranchToJump",0); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } } else { BYTE *Jump = NULL; if (!b32BitCore()) { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); if (m_Section->m_Jump.FallThrough) { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JlLabel8("Continue",0); Jump = m_RecompPos - 1; } else if (m_Section->m_Cont.FallThrough) { JgLabel8("Continue",0); Jump = m_RecompPos - 1; JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); if (m_Section->m_Jump.FallThrough) { JneLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); if (b32BitCore()) { m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } if (Jump) { CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else if (m_Section->m_Cont.FallThrough) { JeLabel32 (m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); if (Jump) { CPU_Message(" continue:"); SetJump8(Jump,m_RecompPos); } } else { JneLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation2 = (DWORD *)(m_RecompPos - 4); JmpLabel32("BranchToJump",0); m_Section->m_Jump.LinkLocation2 = (DWORD *)(m_RecompPos - 4); } } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); if (m_Section->m_Jump.FallThrough) { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JleLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } } void CRecompilerOps::BLTZ_Compare (void) { if (IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { if (GetMipsReg_S(m_Opcode.rs) < 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsSigned(m_Opcode.rs)) { if (GetMipsRegLo_S(m_Opcode.rs) < 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),0); if (m_Section->m_Jump.FallThrough) { JgeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else if (IsSigned(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); if (m_Section->m_Jump.FallThrough) { JgeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JgeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else if (IsUnknown(m_Opcode.rs)) { if (b32BitCore()) { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); } if (m_Section->m_Jump.FallThrough) { JgeLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Cont.FallThrough) { JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JlLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32 (m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } void CRecompilerOps::BGEZ_Compare (void) { if (IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { g_Notify->BreakPoint(__FILE__,__LINE__); CRecompilerOps::UnknownOpcode(); } else if (IsSigned(m_Opcode.rs)) { if (GetMipsRegLo_S(m_Opcode.rs) >= 0) { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } else { m_Section->m_Jump.FallThrough = FALSE; m_Section->m_Cont.FallThrough = TRUE; } } else { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } } else if (IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),0); if (m_Section->m_Cont.FallThrough) { JgeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else if (IsSigned(m_Opcode.rs)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),0); if (m_Section->m_Cont.FallThrough) { JgeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } else { m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Cont.FallThrough = FALSE; } } else { if (b32BitCore()) { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); } else { CompConstToVariable(0,&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); } if (m_Section->m_Cont.FallThrough) { JgeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JlLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } } void CRecompilerOps::COP1_BCF_Compare (void) { TestVariable(FPCSR_C,&_FPCR[31],"_FPCR[31]"); if (m_Section->m_Cont.FallThrough) { JeLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JneLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } void CRecompilerOps::COP1_BCT_Compare (void) { TestVariable(FPCSR_C,&_FPCR[31],"_FPCR[31]"); if (m_Section->m_Cont.FallThrough) { JneLabel32 ( m_Section->m_Jump.BranchLabel.c_str(), 0 ); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } else if (m_Section->m_Jump.FallThrough) { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); } else { JeLabel32 ( m_Section->m_Cont.BranchLabel.c_str(), 0 ); m_Section->m_Cont.LinkLocation = (DWORD *)(m_RecompPos - 4); JmpLabel32(m_Section->m_Jump.BranchLabel.c_str(),0); m_Section->m_Jump.LinkLocation = (DWORD *)(m_RecompPos - 4); } } /************************* OpCode functions *************************/ void CRecompilerOps::J (void) { if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if ((m_CompilePC & 0xFFC) == 0xFFC) { MoveConstToVariable((m_CompilePC & 0xF0000000) + (m_Opcode.target << 2),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); OverflowDelaySlot(false); return; } m_Section->m_Jump.TargetPC = (m_CompilePC & 0xF0000000) + (m_Opcode.target << 2);; m_Section->m_Jump.JumpPC = m_CompilePC; if (m_Section->m_JumpSection != NULL) { m_Section->m_Jump.BranchLabel.Format("Section_%d",((CCodeSection *)m_Section->m_JumpSection)->m_SectionID); } else { m_Section->m_Jump.BranchLabel = "ExitBlock"; } m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_NextInstruction = DO_DELAY_SLOT; } else if (m_NextInstruction == DELAY_SLOT_DONE ) { m_Section->m_Jump.RegSet = m_RegWorkingSet; m_Section->GenerateSectionLinkage(); m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nJ\nNextInstruction = %X", m_NextInstruction); #endif } } void CRecompilerOps::JAL (void) { if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); UnMap_GPR( 31, FALSE); m_RegWorkingSet.SetMipsRegLo(31,m_CompilePC + 8); m_RegWorkingSet.SetMipsRegState(31,CRegInfo::STATE_CONST_32); if ((m_CompilePC & 0xFFC) == 0xFFC) { MoveConstToVariable((m_CompilePC & 0xF0000000) + (m_Opcode.target << 2),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); OverflowDelaySlot(false); return; } m_Section->m_Jump.TargetPC = (m_CompilePC & 0xF0000000) + (m_Opcode.target << 2); m_Section->m_Jump.JumpPC = m_CompilePC; if (m_Section->m_JumpSection != NULL) { m_Section->m_Jump.BranchLabel.Format("Section_%d",((CCodeSection *)m_Section->m_JumpSection)->m_SectionID); } else { m_Section->m_Jump.BranchLabel = "ExitBlock"; } m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_NextInstruction = DO_DELAY_SLOT; } else if (m_NextInstruction == DELAY_SLOT_DONE ) { if (m_Section->m_JumpSection) { m_Section->m_Jump.RegSet = m_RegWorkingSet; m_Section->GenerateSectionLinkage(); } else { DWORD TargetPC = (m_CompilePC & 0xF0000000) + (m_Opcode.target << 2); m_Section->CompileExit(m_CompilePC,TargetPC,m_RegWorkingSet,CExitInfo::Normal,TRUE,NULL); } m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nBranch\nNextInstruction = %X", m_NextInstruction); #endif } return; } void CRecompilerOps::ADDI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return; } if (bFastSP() && m_Opcode.rs == 29 && m_Opcode.rt == 29) { AddConstToX86Reg(Map_MemoryStack(x86_Any, true),(short)m_Opcode.immediate); } if (IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rt)) { UnMap_GPR(m_Opcode.rt, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt, GetMipsRegLo(m_Opcode.rs) + (short)m_Opcode.immediate); m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); } else { Map_GPR_32bit(m_Opcode.rt,TRUE,m_Opcode.rs); AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt),(short)m_Opcode.immediate); } if (bFastSP() && m_Opcode.rt == 29 && m_Opcode.rs != 29) { ResetX86Protection(); _MMU->ResetMemoryStack(); } } void CRecompilerOps::ADDIU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0 || (m_Opcode.immediate == 0 && m_Opcode.rs == m_Opcode.rt)) { return; } if (bFastSP()) { if (m_Opcode.rs == 29 && m_Opcode.rt == 29) { AddConstToX86Reg(Map_MemoryStack(x86_Any, TRUE),(short)m_Opcode.immediate); } } if (IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rt)) { UnMap_GPR(m_Opcode.rt, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt, GetMipsRegLo(m_Opcode.rs) + (short)m_Opcode.immediate); m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); } else { Map_GPR_32bit(m_Opcode.rt,TRUE,m_Opcode.rs); AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt),(short)m_Opcode.immediate); } if (bFastSP() && m_Opcode.rt == 29 && m_Opcode.rs != 29) { ResetX86Protection(); _MMU->ResetMemoryStack(); } } void CRecompilerOps::SLTIU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return; } if (IsConst(m_Opcode.rs)) { DWORD Result = Is64Bit(m_Opcode.rs) ? GetMipsReg(m_Opcode.rs) < ((unsigned)((__int64)((short)m_Opcode.immediate)))?1:0 : GetMipsRegLo(m_Opcode.rs) < ((unsigned)((short)m_Opcode.immediate))?1:0; UnMap_GPR(m_Opcode.rt, FALSE); m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt,Result); } else if (IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { BYTE * Jump[2]; CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),((short)m_Opcode.immediate >> 31)); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetbVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),(short)m_Opcode.immediate); SetbVariable(&m_BranchCompare,"m_BranchCompare"); CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } else { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),(short)m_Opcode.immediate); SetbVariable(&m_BranchCompare,"m_BranchCompare"); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } } else if (b32BitCore()) { CompConstToVariable((short)m_Opcode.immediate,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); SetbVariable(&m_BranchCompare,"m_BranchCompare"); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } else { BYTE * Jump = NULL; CompConstToVariable(((short)m_Opcode.immediate >> 31),&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); JneLabel8("CompareSet",0); Jump = m_RecompPos - 1; CompConstToVariable((short)m_Opcode.immediate,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); CPU_Message(""); CPU_Message(" CompareSet:"); SetJump8(Jump,m_RecompPos); SetbVariable(&m_BranchCompare,"m_BranchCompare"); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } } void CRecompilerOps::SLTI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return; } if (IsConst(m_Opcode.rs)) { DWORD Result = Is64Bit(m_Opcode.rs) ? ((__int64)GetMipsReg(m_Opcode.rs) < (__int64)((short)m_Opcode.immediate) ? 1:0) : ( GetMipsRegLo_S(m_Opcode.rs) < (short)m_Opcode.immediate?1:0); UnMap_GPR(m_Opcode.rt, FALSE); m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt,Result); } else if (IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { BYTE * Jump[2]; CompConstToX86reg(GetMipsRegMapHi(m_Opcode.rs),((short)m_Opcode.immediate >> 31)); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetlVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),(short)m_Opcode.immediate); SetbVariable(&m_BranchCompare,"m_BranchCompare"); CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } else { /* CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),(short)m_Opcode.immediate); SetlVariable(&m_BranchCompare,"m_BranchCompare"); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); */ ProtectGPR( m_Opcode.rs); Map_GPR_32bit(m_Opcode.rt,FALSE, -1); CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rs),(short)m_Opcode.immediate); if (GetMipsRegMapLo(m_Opcode.rt) > x86_EBX) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } else { Setl(GetMipsRegMapLo(m_Opcode.rt)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt), 1); } } } else if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rt,FALSE, -1); CompConstToVariable((short)m_Opcode.immediate,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); if (GetMipsRegMapLo(m_Opcode.rt) > x86_EBX) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } else { Setl(GetMipsRegMapLo(m_Opcode.rt)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt), 1); } } else { BYTE * Jump[2] = { NULL, NULL }; CompConstToVariable(((short)m_Opcode.immediate >> 31),&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs]); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetlVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0], m_RecompPos); CompConstToVariable((short)m_Opcode.immediate,&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs]); SetbVariable(&m_BranchCompare,"m_BranchCompare"); if (Jump[1]) { CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); } Map_GPR_32bit(m_Opcode.rt,FALSE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rt)); } } void CRecompilerOps::ANDI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return;} if (IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rt)) { UnMap_GPR(m_Opcode.rt, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt, GetMipsRegLo(m_Opcode.rs) & m_Opcode.immediate); } else if (m_Opcode.immediate != 0) { Map_GPR_32bit(m_Opcode.rt,FALSE,m_Opcode.rs); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt),m_Opcode.immediate); } else { Map_GPR_32bit(m_Opcode.rt,FALSE,0); } } void CRecompilerOps::ORI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return;} if (bFastSP() && m_Opcode.rs == 29 && m_Opcode.rt == 29) { OrConstToX86Reg(m_Opcode.immediate,Map_MemoryStack(x86_Any, true)); } if (IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rt)) { UnMap_GPR(m_Opcode.rt, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,GetMipsRegState(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegHi(m_Opcode.rt,GetMipsRegHi(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt,GetMipsRegLo(m_Opcode.rs) | m_Opcode.immediate); } else if (IsMapped(m_Opcode.rs)) { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rt,true,m_Opcode.rs); } else { if (Is64Bit(m_Opcode.rs)) { Map_GPR_64bit(m_Opcode.rt,m_Opcode.rs); } else { Map_GPR_32bit(m_Opcode.rt,IsSigned(m_Opcode.rs),m_Opcode.rs); } } OrConstToX86Reg(m_Opcode.immediate,GetMipsRegMapLo(m_Opcode.rt)); } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rt,true,m_Opcode.rs); } else { Map_GPR_64bit(m_Opcode.rt,m_Opcode.rs); } OrConstToX86Reg(m_Opcode.immediate,GetMipsRegMapLo(m_Opcode.rt)); } if (bFastSP() && m_Opcode.rt == 29 && m_Opcode.rs != 29) { ResetX86Protection(); _MMU->ResetMemoryStack(); } } void CRecompilerOps::XORI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return;} if (IsConst(m_Opcode.rs)) { if (m_Opcode.rs != m_Opcode.rt) { UnMap_GPR(m_Opcode.rt, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,GetMipsRegState(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegHi(m_Opcode.rt,GetMipsRegHi(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt,GetMipsRegLo(m_Opcode.rs) ^ m_Opcode.immediate); } else { if (IsMapped(m_Opcode.rs) && Is32Bit(m_Opcode.rs)) { Map_GPR_32bit(m_Opcode.rt,IsSigned(m_Opcode.rs),m_Opcode.rs); } else if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rt,true,m_Opcode.rs); } else { Map_GPR_64bit(m_Opcode.rt,m_Opcode.rs); } if (m_Opcode.immediate != 0) { XorConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt),m_Opcode.immediate); } } } void CRecompilerOps::LUI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) { return;} if (bFastSP() && m_Opcode.rt == 29) { x86Reg Reg = Map_MemoryStack(x86_Any, true, false); DWORD Address; _TransVaddr->TranslateVaddr(((short)m_Opcode.offset << 16), Address); if (Reg < 0) { MoveConstToVariable((DWORD)(Address + _MMU->Rdram()), &(_Recompiler->MemoryStackPos()), "MemoryStack"); } else { MoveConstToX86reg((DWORD)(Address + _MMU->Rdram()), Reg); } } UnMap_GPR(m_Opcode.rt, FALSE); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rt, ((short)m_Opcode.offset << 16)); m_RegWorkingSet.SetMipsRegState(m_Opcode.rt,CRegInfo::STATE_CONST_32); } void CRecompilerOps::DADDIU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rs != 0) { UnMap_GPR(m_Opcode.rs,TRUE); } if (m_Opcode.rs != 0) { UnMap_GPR(m_Opcode.rt,TRUE); } BeforeCallDirect(m_RegWorkingSet); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::DADDIU, "R4300iOp::DADDIU"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::CACHE (void){ CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (_Settings->LoadDword(Game_SMM_Cache) == 0) { return; } switch(m_Opcode.rt) { case 0: case 16: BeforeCallDirect(m_RegWorkingSet); PushImm32("CRecompiler::Remove_Cache",CRecompiler::Remove_Cache); PushImm32("0x20",0x20); if (IsConst(m_Opcode.base)) { DWORD Address = GetMipsRegLo(m_Opcode.base) + (short)m_Opcode.offset; PushImm32("Address",Address); } else if (IsMapped(m_Opcode.base)) { AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.base),(short)m_Opcode.offset); Push(GetMipsRegMapLo(m_Opcode.base)); } else { MoveVariableToX86reg(&_GPR[m_Opcode.base].UW[0],CRegName::GPR_Lo[m_Opcode.base],x86_EAX); AddConstToX86Reg(x86_EAX,(short)m_Opcode.offset); Push(x86_EAX); } MoveConstToX86reg((DWORD)_Recompiler,x86_ECX); Call_Direct(AddressOf(&CRecompiler::ClearRecompCode_Virt), "CRecompiler::ClearRecompCode_Virt"); AfterCallDirect(m_RegWorkingSet); break; case 1: case 3: case 13: case 5: case 8: case 9: case 17: case 21: case 25: break; #ifndef EXTERNAL_RELEASE default: g_Notify->DisplayError("cache: %d",m_Opcode.rt); #endif } } void CRecompilerOps::LL (void) { g_Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix x86Reg TempReg1, TempReg2; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rt == 0) return; if (IsConst(m_Opcode.base)) { DWORD Address = GetMipsRegLo(m_Opcode.base) + (short)m_Opcode.offset; Map_GPR_32bit(m_Opcode.rt,TRUE,-1); _MMU->Compile_LW(m_Section, GetMipsRegLo(m_Opcode.rt),Address); MoveConstToVariable(1,_LLBit,"LLBit"); g_Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix TranslateVaddr(Address, &Address); #endif MoveConstToVariable(Address,_LLAddr,"LLAddr"); return; } if (bUseTlb()) { if (IsMapped(m_Opcode.rt)) { ProtectGPR(m_Opcode.rt); } if (IsMapped(m_Opcode.base) && m_Opcode.offset == 0) { ProtectGPR(m_Opcode.base); TempReg1 = GetMipsRegLo(m_Opcode.base); } else { if (IsMapped(m_Opcode.base)) { ProtectGPR(m_Opcode.base); if (m_Opcode.offset != 0) { TempReg1 = Map_TempReg(x86_Any,-1,FALSE); LeaSourceAndOffset(TempReg1,GetMipsRegLo(m_Opcode.base),(short)m_Opcode.offset); } else { TempReg1 = Map_TempReg(x86_Any,m_Opcode.base,FALSE); } } else { TempReg1 = Map_TempReg(x86_Any,m_Opcode.base,FALSE); AddConstToX86Reg(TempReg1,(short)m_Opcode.immediate); } } TempReg2 = Map_TempReg(x86_Any,-1,FALSE); MoveX86RegToX86Reg(TempReg1, TempReg2); ShiftRightUnsignImmed(TempReg2,12); MoveVariableDispToX86Reg(TLB_ReadMap,"TLB_ReadMap",TempReg2,TempReg2,4); CompileReadTLBMiss(m_Section,TempReg1,TempReg2); Map_GPR_32bit(m_Opcode.rt,TRUE,-1); MoveX86regPointerToX86reg(TempReg1, TempReg2,GetMipsRegLo(m_Opcode.rt)); MoveConstToVariable(1,_LLBit,"LLBit"); MoveX86regToVariable(TempReg1,_LLAddr,"LLAddr"); AddX86regToVariable(TempReg2,_LLAddr,"LLAddr"); SubConstFromVariable((DWORD)_MMU->Rdram(),_LLAddr,"LLAddr"); } else { if (IsMapped(m_Opcode.base)) { ProtectGPR(m_Opcode.base); if (m_Opcode.offset != 0) { Map_GPR_32bit(m_Opcode.rt,TRUE,-1); LeaSourceAndOffset(GetMipsRegLo(m_Opcode.rt),GetMipsRegLo(m_Opcode.base),(short)m_Opcode.offset); } else { Map_GPR_32bit(m_Opcode.rt,TRUE,m_Opcode.base); } } else { Map_GPR_32bit(m_Opcode.rt,TRUE,m_Opcode.base); AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rt),(short)m_Opcode.immediate); } AndConstToX86Reg(GetMipsRegLo(m_Opcode.rt),0x1FFFFFFF); MoveX86regToVariable(GetMipsRegLo(m_Opcode.rt),_LLAddr,"LLAddr"); MoveN64MemToX86reg(GetMipsRegLo(m_Opcode.rt),GetMipsRegLo(m_Opcode.rt)); MoveConstToVariable(1,_LLBit,"LLBit"); } #endif } void CRecompilerOps::SC (void){ #ifdef tofix x86Reg TempReg1, TempReg2; BYTE * Jump; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); CompConstToVariable(1,_LLBit,"LLBit"); JneLabel32("LLBitNotSet",0); Jump = (DWORD *)(m_RecompPos - 4); if (IsConst(m_Opcode.base)) { DWORD Address = GetMipsRegLo(m_Opcode.base) + (short)m_Opcode.offset; if (IsConst(m_Opcode.rt)) { _MMU->Compile_SW_Const(GetMipsRegLo(m_Opcode.rt), Address); } else if (IsMapped(m_Opcode.rt)) { _MMU->Compile_SW_Register(m_Section,GetMipsRegLo(m_Opcode.rt), Address); } else { _MMU->Compile_SW_Register(m_Section,Map_TempReg(x86_Any,m_Opcode.rt,FALSE), Address); } CPU_Message(" LLBitNotSet:"); *((DWORD *)(Jump))=(BYTE)(m_RecompPos - Jump - 4); Map_GPR_32bit(m_Opcode.rt,FALSE,-1); MoveVariableToX86reg(_LLBit,"LLBit",GetMipsRegLo(m_Opcode.rt)); return; } if (IsMapped(m_Opcode.rt)) { ProtectGPR(m_Opcode.rt); } if (IsMapped(m_Opcode.base)) { ProtectGPR(m_Opcode.base); if (m_Opcode.offset != 0) { TempReg1 = Map_TempReg(x86_Any,-1,FALSE); LeaSourceAndOffset(TempReg1,GetMipsRegLo(m_Opcode.base),(short)m_Opcode.offset); } else { TempReg1 = Map_TempReg(x86_Any,m_Opcode.base,FALSE); } UnProtectGPR(m_Opcode.base); } else { TempReg1 = Map_TempReg(x86_Any,m_Opcode.base,FALSE); AddConstToX86Reg(TempReg1,(short)m_Opcode.immediate); } if (bUseTlb()) { TempReg2 = Map_TempReg(x86_Any,-1,FALSE); MoveX86RegToX86Reg(TempReg1, TempReg2); ShiftRightUnsignImmed(TempReg2,12); MoveVariableDispToX86Reg(TLB_WriteMap,"TLB_WriteMap",TempReg2,TempReg2,4); //For tlb miss //0041C522 85 C0 test eax,eax //0041C524 75 01 jne 0041C527 if (IsConst(m_Opcode.rt)) { MoveConstToX86regPointer(GetMipsRegLo(m_Opcode.rt),TempReg1, TempReg2); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToX86regPointer(GetMipsRegLo(m_Opcode.rt),TempReg1, TempReg2); } else { MoveX86regToX86regPointer(Map_TempReg(x86_Any,m_Opcode.rt,FALSE),TempReg1, TempReg2); } } else { AndConstToX86Reg(TempReg1,0x1FFFFFFF); if (IsConst(m_Opcode.rt)) { MoveConstToN64Mem(GetMipsRegLo(m_Opcode.rt),TempReg1); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToN64Mem(GetMipsRegLo(m_Opcode.rt),TempReg1); } else { MoveX86regToN64Mem(Map_TempReg(x86_Any,m_Opcode.rt,FALSE),TempReg1); } } CPU_Message(" LLBitNotSet:"); *((DWORD *)(Jump))=(BYTE)(m_RecompPos - Jump - 4); Map_GPR_32bit(m_Opcode.rt,FALSE,-1); MoveVariableToX86reg(_LLBit,"LLBit",GetMipsRegLo(m_Opcode.rt)); #endif } /********************** R4300i OpCodes: Special **********************/ void CRecompilerOps::SPECIAL_SLL (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) << m_Opcode.sa); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } if (m_Opcode.rd != m_Opcode.rt && IsMapped(m_Opcode.rt)) { switch (m_Opcode.sa) { case 0: Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); break; case 1: ProtectGPR(m_Opcode.rt); Map_GPR_32bit(m_Opcode.rd,TRUE,-1); LeaRegReg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt), 0, Multip_x2); break; case 2: ProtectGPR(m_Opcode.rt); Map_GPR_32bit(m_Opcode.rd,TRUE,-1); LeaRegReg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt), 0, Multip_x4); break; case 3: ProtectGPR(m_Opcode.rt); Map_GPR_32bit(m_Opcode.rd,TRUE,-1); LeaRegReg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt), 0, Multip_x8); break; default: Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftLeftSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } else { Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftLeftSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } void CRecompilerOps::SPECIAL_SRL (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) >> m_Opcode.sa); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightUnsignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } void CRecompilerOps::SPECIAL_SRA (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo_S(m_Opcode.rt) >> m_Opcode.sa); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } void CRecompilerOps::SPECIAL_SLLV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rs)) { DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x1F); if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) << Shift); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftLeftSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)Shift); } return; } Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x1F); Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftLeftSign(GetMipsRegMapLo(m_Opcode.rd)); } void CRecompilerOps::SPECIAL_SRLV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsKnown(m_Opcode.rs) && IsConst(m_Opcode.rs)) { DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x1F); if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) >> Shift); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightUnsignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)Shift); return; } Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x1F); Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightUnsign(GetMipsRegMapLo(m_Opcode.rd)); } void CRecompilerOps::SPECIAL_SRAV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsKnown(m_Opcode.rs) && IsConst(m_Opcode.rs)) { DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x1F); if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo_S(m_Opcode.rt) >> Shift); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)Shift); return; } Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x1F); Map_GPR_32bit(m_Opcode.rd,TRUE,m_Opcode.rt); ShiftRightSign(GetMipsRegMapLo(m_Opcode.rd)); } void CRecompilerOps::SPECIAL_JR (void) { if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if ((m_CompilePC & 0xFFC) == 0xFFC) { if (IsMapped(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); m_RegWorkingSet.WriteBackRegisters(); } else { m_RegWorkingSet.WriteBackRegisters(); MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,FALSE),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } OverflowDelaySlot(true); return; } m_Section->m_Jump.FallThrough = false; m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_Section->m_Cont.FallThrough = FALSE; m_Section->m_Cont.LinkLocation = NULL; m_Section->m_Cont.LinkLocation2 = NULL; if (DelaySlotEffectsCompare(m_CompilePC,m_Opcode.rs,0)) { if (IsConst(m_Opcode.rs)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rs),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } else if (IsMapped(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,FALSE),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } } m_NextInstruction = DO_DELAY_SLOT; } else if (m_NextInstruction == DELAY_SLOT_DONE ) { if (DelaySlotEffectsCompare(m_CompilePC,m_Opcode.rs,0)) { m_Section->CompileExit(m_CompilePC,(DWORD)-1,m_RegWorkingSet,CExitInfo::Normal,TRUE,NULL); } else { UpdateCounters(m_RegWorkingSet,true,true); if (IsConst(m_Opcode.rs)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rs),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } else if (IsMapped(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,FALSE),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } m_Section->CompileExit((DWORD)-1, (DWORD)-1,m_RegWorkingSet,CExitInfo::Normal,TRUE,NULL); if (m_Section->m_JumpSection) { m_Section->GenerateSectionLinkage(); } } m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nBranch\nNextInstruction = %X", m_NextInstruction); #endif } } void CRecompilerOps::SPECIAL_JALR (void) { if ( m_NextInstruction == NORMAL ) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (DelaySlotEffectsCompare(m_CompilePC,m_Opcode.rs,0)) { CRecompilerOps::UnknownOpcode(); } UnMap_GPR( m_Opcode.rd, FALSE); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,m_CompilePC + 8); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); if ((m_CompilePC & 0xFFC) == 0xFFC) { if (IsMapped(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); m_RegWorkingSet.WriteBackRegisters(); } else { m_RegWorkingSet.WriteBackRegisters(); MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,FALSE),&R4300iOp::m_JumpToLocation,"R4300iOp::m_JumpToLocation"); } OverflowDelaySlot(true); return; } m_NextInstruction = DO_DELAY_SLOT; } else if (m_NextInstruction == DELAY_SLOT_DONE ) { if (IsConst(m_Opcode.rs)) { m_Section->m_Jump.RegSet = m_RegWorkingSet; m_Section->m_Jump.BranchLabel.Format("0x%08X",GetMipsRegLo(m_Opcode.rs)); m_Section->m_Jump.TargetPC = GetMipsRegLo(m_Opcode.rs); m_Section->m_Jump.FallThrough = TRUE; m_Section->m_Jump.LinkLocation = NULL; m_Section->m_Jump.LinkLocation2 = NULL; m_Section->m_Cont.FallThrough = FALSE; m_Section->m_Cont.LinkLocation = NULL; m_Section->m_Cont.LinkLocation2 = NULL; m_Section->GenerateSectionLinkage(); } else { if (IsMapped(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,FALSE),_PROGRAM_COUNTER, "PROGRAM_COUNTER"); } UpdateCounters(m_RegWorkingSet,true,true); m_Section->CompileExit(m_CompilePC, (DWORD)-1,m_RegWorkingSet,CExitInfo::Normal,TRUE,NULL); } m_NextInstruction = END_BLOCK; } else { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("WTF\n\nBranch\nNextInstruction = %X", m_NextInstruction); #endif } } void CRecompilerOps::SPECIAL_SYSCALL (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileExit(m_CompilePC,(DWORD)-1,m_RegWorkingSet,CExitInfo::DoSysCall,TRUE,NULL); m_NextInstruction = END_BLOCK; } void CRecompilerOps::SPECIAL_MFLO (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } Map_GPR_64bit(m_Opcode.rd,-1); MoveVariableToX86reg(&_RegLO->UW[0],"_RegLO->UW[0]",GetMipsRegMapLo(m_Opcode.rd)); MoveVariableToX86reg(&_RegLO->UW[1],"_RegLO->UW[1]",GetMipsRegMapHi(m_Opcode.rd)); } void CRecompilerOps::SPECIAL_MTLO (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsKnown(m_Opcode.rs) && IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { MoveConstToVariable(GetMipsRegHi(m_Opcode.rs),&_RegLO->UW[1],"_RegLO->UW[1]"); } else if (IsSigned(m_Opcode.rs) && ((GetMipsRegLo(m_Opcode.rs) & 0x80000000) != 0)) { MoveConstToVariable(0xFFFFFFFF,&_RegLO->UW[1],"_RegLO->UW[1]"); } else { MoveConstToVariable(0,&_RegLO->UW[1],"_RegLO->UW[1]"); } MoveConstToVariable(GetMipsRegLo(m_Opcode.rs), &_RegLO->UW[0],"_RegLO->UW[0]"); } else if (IsKnown(m_Opcode.rs) && IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapHi(m_Opcode.rs),&_RegLO->UW[1],"_RegLO->UW[1]"); } else if (IsSigned(m_Opcode.rs)) { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,TRUE),&_RegLO->UW[1],"_RegLO->UW[1]"); } else { MoveConstToVariable(0,&_RegLO->UW[1],"_RegLO->UW[1]"); } MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs), &_RegLO->UW[0],"_RegLO->UW[0]"); } else { x86Reg reg = Map_TempReg(x86_Any,m_Opcode.rs,TRUE); MoveX86regToVariable(reg,&_RegLO->UW[1],"_RegLO->UW[1]"); MoveX86regToVariable(Map_TempReg(reg,m_Opcode.rs,FALSE), &_RegLO->UW[0],"_RegLO->UW[0]"); } } void CRecompilerOps::SPECIAL_MFHI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } Map_GPR_64bit(m_Opcode.rd,-1); MoveVariableToX86reg(&_RegHI->UW[0],"_RegHI->UW[0]",GetMipsRegMapLo(m_Opcode.rd)); MoveVariableToX86reg(&_RegHI->UW[1],"_RegHI->UW[1]",GetMipsRegMapHi(m_Opcode.rd)); } void CRecompilerOps::SPECIAL_MTHI (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsKnown(m_Opcode.rs) && IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { MoveConstToVariable(GetMipsRegHi(m_Opcode.rs),&_RegHI->UW[1],"_RegHI->UW[1]"); } else if (IsSigned(m_Opcode.rs) && ((GetMipsRegLo(m_Opcode.rs) & 0x80000000) != 0)) { MoveConstToVariable(0xFFFFFFFF,&_RegHI->UW[1],"_RegHI->UW[1]"); } else { MoveConstToVariable(0,&_RegHI->UW[1],"_RegHI->UW[1]"); } MoveConstToVariable(GetMipsRegLo(m_Opcode.rs), &_RegHI->UW[0],"_RegHI->UW[0]"); } else if (IsKnown(m_Opcode.rs) && IsMapped(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rs)) { MoveX86regToVariable(GetMipsRegMapHi(m_Opcode.rs),&_RegHI->UW[1],"_RegHI->UW[1]"); } else if (IsSigned(m_Opcode.rs)) { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rs,TRUE),&_RegHI->UW[1],"_RegHI->UW[1]"); } else { MoveConstToVariable(0,&_RegHI->UW[1],"_RegHI->UW[1]"); } MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rs), &_RegHI->UW[0],"_RegHI->UW[0]"); } else { x86Reg reg = Map_TempReg(x86_Any,m_Opcode.rs,TRUE); MoveX86regToVariable(reg,&_RegHI->UW[1],"_RegHI->UW[1]"); MoveX86regToVariable(Map_TempReg(reg,m_Opcode.rs,FALSE), &_RegHI->UW[0],"_RegHI->UW[0]"); } } void CRecompilerOps::SPECIAL_DSLLV (void) { BYTE * Jump[2]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rs)) { //DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x3F); CRecompilerOps::UnknownOpcode(); return; } Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x3F); Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); CompConstToX86reg(x86_ECX,0x20); JaeLabel8("MORE32", 0); Jump[0] = m_RecompPos - 1; ShiftLeftDouble(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); ShiftLeftSign(GetMipsRegMapLo(m_Opcode.rd)); JmpLabel8("continue", 0); Jump[1] = m_RecompPos - 1; //MORE32: CPU_Message(""); CPU_Message(" MORE32:"); SetJump8(Jump[0],m_RecompPos); MoveX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd)); XorX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); AndConstToX86Reg(x86_ECX,0x1F); ShiftLeftSign(GetMipsRegMapHi(m_Opcode.rd)); //continue: CPU_Message(""); CPU_Message(" continue:"); SetJump8(Jump[1],m_RecompPos); } void CRecompilerOps::SPECIAL_DSRLV (void) { BYTE * Jump[2]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rs)) { DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x3F); if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt)); m_RegWorkingSet.SetMipsReg(m_Opcode.rd, GetMipsReg(m_Opcode.rd) >> Shift); if ((GetMipsRegHi(m_Opcode.rd) == 0) && (GetMipsRegLo(m_Opcode.rd) & 0x80000000) == 0) { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if ((GetMipsRegHi(m_Opcode.rd) == 0xFFFFFFFF) && (GetMipsRegLo(m_Opcode.rd) & 0x80000000) != 0) { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } return; } //if (Shift < 0x20) { //} else { //} CRecompilerOps::UnknownOpcode(); } else { Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x3F); Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); CompConstToX86reg(x86_ECX,0x20); JaeLabel8("MORE32", 0); Jump[0] = m_RecompPos - 1; ShiftRightDouble(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd)); ShiftRightUnsign(GetMipsRegMapHi(m_Opcode.rd)); JmpLabel8("continue", 0); Jump[1] = m_RecompPos - 1; //MORE32: CPU_Message(""); CPU_Message(" MORE32:"); SetJump8(Jump[0],m_RecompPos); MoveX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); XorX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd)); AndConstToX86Reg(x86_ECX,0x1F); ShiftRightUnsign(GetMipsRegMapLo(m_Opcode.rd)); //continue: CPU_Message(""); CPU_Message(" continue:"); SetJump8(Jump[1],m_RecompPos); } } void CRecompilerOps::SPECIAL_DSRAV (void) { BYTE * Jump[2]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rs)) { //DWORD Shift = (GetMipsRegLo(m_Opcode.rs) & 0x3F); CRecompilerOps::UnknownOpcode(); return; } Map_TempReg(x86_ECX,m_Opcode.rs,FALSE); AndConstToX86Reg(x86_ECX,0x3F); Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); CompConstToX86reg(x86_ECX,0x20); JaeLabel8("MORE32", 0); Jump[0] = m_RecompPos - 1; ShiftRightDouble(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd)); ShiftRightSign(GetMipsRegMapHi(m_Opcode.rd)); JmpLabel8("continue", 0); Jump[1] = m_RecompPos - 1; //MORE32: CPU_Message(""); CPU_Message(" MORE32:"); SetJump8(Jump[0],m_RecompPos); MoveX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); ShiftRightSignImmed(GetMipsRegMapHi(m_Opcode.rd),0x1F); AndConstToX86Reg(x86_ECX,0x1F); ShiftRightSign(GetMipsRegMapLo(m_Opcode.rd)); //continue: CPU_Message(""); CPU_Message(" continue:"); SetJump8(Jump[1],m_RecompPos); } void CRecompilerOps::SPECIAL_MULT ( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_RegWorkingSet.SetX86Protected(x86_EDX,TRUE); Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); m_RegWorkingSet.SetX86Protected(x86_EDX,FALSE); Map_TempReg(x86_EDX,m_Opcode.rt,FALSE); imulX86reg(x86_EDX); MoveX86regToVariable(x86_EAX,&_RegLO->UW[0],"_RegLO->UW[0]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[0],"_RegHI->UW[0]"); ShiftRightSignImmed(x86_EAX,31); /* paired */ ShiftRightSignImmed(x86_EDX,31); MoveX86regToVariable(x86_EAX,&_RegLO->UW[1],"_RegLO->UW[1]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[1],"_RegHI->UW[1]"); } void CRecompilerOps::SPECIAL_MULTU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_RegWorkingSet.SetX86Protected(x86_EDX, TRUE); Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); m_RegWorkingSet.SetX86Protected(x86_EDX,FALSE); Map_TempReg(x86_EDX,m_Opcode.rt,FALSE); MulX86reg(x86_EDX); MoveX86regToVariable(x86_EAX,&_RegLO->UW[0],"_RegLO->UW[0]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[0],"_RegHI->UW[0]"); ShiftRightSignImmed(x86_EAX,31); /* paired */ ShiftRightSignImmed(x86_EDX,31); MoveX86regToVariable(x86_EAX,&_RegLO->UW[1],"_RegLO->UW[1]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[1],"_RegHI->UW[1]"); } void CRecompilerOps::SPECIAL_DIV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsConst(m_Opcode.rt)) { if (GetMipsRegLo(m_Opcode.rt) == 0) { MoveConstToVariable(0, &_RegLO->UW[0], "_RegLO->UW[0]"); MoveConstToVariable(0, &_RegLO->UW[1], "_RegLO->UW[1]"); MoveConstToVariable(0, &_RegHI->UW[0], "_RegHI->UW[0]"); MoveConstToVariable(0, &_RegHI->UW[1], "_RegHI->UW[1]"); return; } } else { if (IsMapped(m_Opcode.rt)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rt),0); } else { CompConstToVariable(0, &_GPR[m_Opcode.rt].W[0], CRegName::GPR_Lo[m_Opcode.rt]); } m_Section->CompileExit(m_CompilePC, m_CompilePC,m_RegWorkingSet,CExitInfo::DivByZero,FALSE,JeLabel32); } /* lo = (SD)rs / (SD)rt; hi = (SD)rs % (SD)rt; */ m_RegWorkingSet.SetX86Protected(x86_EDX,TRUE); Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); /* edx is the signed portion to eax */ m_RegWorkingSet.SetX86Protected(x86_EDX, FALSE); Map_TempReg(x86_EDX, -1, FALSE); MoveX86RegToX86Reg(x86_EAX, x86_EDX); ShiftRightSignImmed(x86_EDX,31); if (IsMapped(m_Opcode.rt)) { idivX86reg(GetMipsRegMapLo(m_Opcode.rt)); } else { idivX86reg(Map_TempReg(x86_Any,m_Opcode.rt,FALSE)); } MoveX86regToVariable(x86_EAX,&_RegLO->UW[0],"_RegLO->UW[0]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[0],"_RegHI->UW[0]"); ShiftRightSignImmed(x86_EAX,31); /* paired */ ShiftRightSignImmed(x86_EDX,31); MoveX86regToVariable(x86_EAX,&_RegLO->UW[1],"_RegLO->UW[1]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[1],"_RegHI->UW[1]"); } void CRecompilerOps::SPECIAL_DIVU ( void) { BYTE *Jump[2]; x86Reg Reg; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsConst(m_Opcode.rt)) { if (GetMipsRegLo(m_Opcode.rt) == 0) { MoveConstToVariable(0, &_RegLO->UW[0], "_RegLO->UW[0]"); MoveConstToVariable(0, &_RegLO->UW[1], "_RegLO->UW[1]"); MoveConstToVariable(0, &_RegHI->UW[0], "_RegHI->UW[0]"); MoveConstToVariable(0, &_RegHI->UW[1], "_RegHI->UW[1]"); return; } Jump[1] = NULL; } else { if (IsMapped(m_Opcode.rt)) { CompConstToX86reg(GetMipsRegMapLo(m_Opcode.rt),0); } else { CompConstToVariable(0, &_GPR[m_Opcode.rt].W[0], CRegName::GPR_Lo[m_Opcode.rt]); } JneLabel8("NoExcept", 0); Jump[0] = m_RecompPos - 1; MoveConstToVariable(0, &_RegLO->UW[0], "_RegLO->UW[0]"); MoveConstToVariable(0, &_RegLO->UW[1], "_RegLO->UW[1]"); MoveConstToVariable(0, &_RegHI->UW[0], "_RegHI->UW[0]"); MoveConstToVariable(0, &_RegHI->UW[1], "_RegHI->UW[1]"); JmpLabel8("EndDivu", 0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" NoExcept:"); SetJump8(Jump[0],m_RecompPos); } /* lo = (UD)rs / (UD)rt; hi = (UD)rs % (UD)rt; */ m_RegWorkingSet.SetX86Protected(x86_EAX,TRUE); Map_TempReg(x86_EDX, 0, FALSE); m_RegWorkingSet.SetX86Protected(x86_EAX,FALSE); Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); Reg = Map_TempReg(x86_Any,m_Opcode.rt,FALSE); DivX86reg(Reg); MoveX86regToVariable(x86_EAX,&_RegLO->UW[0],"_RegLO->UW[0]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[0],"_RegHI->UW[0]"); /* wouldnt these be zero (???) */ ShiftRightSignImmed(x86_EAX,31); /* paired */ ShiftRightSignImmed(x86_EDX,31); MoveX86regToVariable(x86_EAX,&_RegLO->UW[1],"_RegLO->UW[1]"); MoveX86regToVariable(x86_EDX,&_RegHI->UW[1],"_RegHI->UW[1]"); if( Jump[1] != NULL ) { CPU_Message(""); CPU_Message(" EndDivu:"); SetJump8(Jump[1],m_RecompPos); } } void CRecompilerOps::SPECIAL_DMULT (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rs != 0) { UnMap_GPR(m_Opcode.rs,TRUE); } if (m_Opcode.rs != 0) { UnMap_GPR(m_Opcode.rt,TRUE); } BeforeCallDirect(m_RegWorkingSet); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::SPECIAL_DMULT, "R4300iOp::SPECIAL_DMULT"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::SPECIAL_DMULTU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); UnMap_GPR(m_Opcode.rs,TRUE); UnMap_GPR(m_Opcode.rt,TRUE); BeforeCallDirect(m_RegWorkingSet); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::SPECIAL_DMULTU, "R4300iOp::SPECIAL_DMULTU"); AfterCallDirect(m_RegWorkingSet); #ifdef toremove /* _RegLO->UDW = (uint64)_GPR[m_Opcode.rs].UW[0] * (uint64)_GPR[m_Opcode.rt].UW[0]; */ X86Protected(x86_EDX) = TRUE; Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); X86Protected(x86_EDX) = FALSE; Map_TempReg(x86_EDX,m_Opcode.rt,FALSE); MulX86reg(x86_EDX); MoveX86regToVariable(x86_EAX, &_RegLO->UW[0], "_RegLO->UW[0]"); MoveX86regToVariable(x86_EDX, &_RegLO->UW[1], "_RegLO->UW[1]"); /* _RegHI->UDW = (uint64)_GPR[m_Opcode.rs].UW[1] * (uint64)_GPR[m_Opcode.rt].UW[1]; */ Map_TempReg(x86_EAX,m_Opcode.rs,TRUE); Map_TempReg(x86_EDX,m_Opcode.rt,TRUE); MulX86reg(x86_EDX); MoveX86regToVariable(x86_EAX, &_RegHI->UW[0], "_RegHI->UW[0]"); MoveX86regToVariable(x86_EDX, &_RegHI->UW[1], "_RegHI->UW[1]"); /* Tmp[0].UDW = (uint64)_GPR[m_Opcode.rs].UW[1] * (uint64)_GPR[m_Opcode.rt].UW[0]; */ Map_TempReg(x86_EAX,m_Opcode.rs,TRUE); Map_TempReg(x86_EDX,m_Opcode.rt,FALSE); Map_TempReg(x86_EBX,-1,FALSE); Map_TempReg(x86_ECX,-1,FALSE); MulX86reg(x86_EDX); MoveX86RegToX86Reg(x86_EAX, x86_EBX); /* EDX:EAX -> ECX:EBX */ MoveX86RegToX86Reg(x86_EDX, x86_ECX); /* Tmp[1].UDW = (uint64)_GPR[m_Opcode.rs].UW[0] * (uint64)_GPR[m_Opcode.rt].UW[1]; */ Map_TempReg(x86_EAX,m_Opcode.rs,FALSE); Map_TempReg(x86_EDX,m_Opcode.rt,TRUE); MulX86reg(x86_EDX); Map_TempReg(x86_ESI,-1,FALSE); Map_TempReg(x86_EDI,-1,FALSE); MoveX86RegToX86Reg(x86_EAX, x86_ESI); /* EDX:EAX -> EDI:ESI */ MoveX86RegToX86Reg(x86_EDX, x86_EDI); /* Tmp[2].UDW = (uint64)_RegLO->UW[1] + (uint64)Tmp[0].UW[0] + (uint64)Tmp[1].UW[0]; */ XorX86RegToX86Reg(x86_EDX, x86_EDX); MoveVariableToX86reg(&_RegLO->UW[1], "_RegLO->UW[1]", x86_EAX); AddX86RegToX86Reg(x86_EAX, x86_EBX); AddConstToX86Reg(x86_EDX, 0); AddX86RegToX86Reg(x86_EAX, x86_ESI); AddConstToX86Reg(x86_EDX, 0); /* EDX:EAX */ /* _RegLO->UDW += ((uint64)Tmp[0].UW[0] + (uint64)Tmp[1].UW[0]) << 32; */ /* [low+4] += ebx + esi */ AddX86regToVariable(x86_EBX, &_RegLO->UW[1], "_RegLO->UW[1]"); AddX86regToVariable(x86_ESI, &_RegLO->UW[1], "_RegLO->UW[1]"); /* _RegHI->UDW += (uint64)Tmp[0].UW[1] + (uint64)Tmp[1].UW[1] + Tmp[2].UW[1]; */ /* [hi] += ecx + edi + edx */ AddX86regToVariable(x86_ECX, &_RegHI->UW[0], "_RegHI->UW[0]"); AdcConstToVariable(&_RegHI->UW[1], "_RegHI->UW[1]", 0); AddX86regToVariable(x86_EDI, &_RegHI->UW[0], "_RegHI->UW[0]"); AdcConstToVariable(&_RegHI->UW[1], "_RegHI->UW[1]", 0); AddX86regToVariable(x86_EDX, &_RegHI->UW[0], "_RegHI->UW[0]"); AdcConstToVariable(&_RegHI->UW[1], "_RegHI->UW[1]", 0); #endif } void CRecompilerOps::SPECIAL_DDIV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); UnMap_GPR(m_Opcode.rs,TRUE); UnMap_GPR(m_Opcode.rt,TRUE); BeforeCallDirect(m_RegWorkingSet); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::SPECIAL_DDIV, "R4300iOp::SPECIAL_DDIV"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::SPECIAL_DDIVU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); UnMap_GPR(m_Opcode.rs,TRUE); UnMap_GPR(m_Opcode.rt,TRUE); BeforeCallDirect(m_RegWorkingSet); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::SPECIAL_DDIVU, "R4300iOp::SPECIAL_DDIVU"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::SPECIAL_ADD (void) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(source1) && IsConst(source2)) { DWORD temp = GetMipsRegLo(source1) + GetMipsRegLo(source2); if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,temp); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE, source1); if (IsConst(source2)) { AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(source2)); } else if (IsKnown(source2) && IsMapped(source2)) { AddX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { AddVariableToX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[source2].W[0],CRegName::GPR_Lo[source2]); } if (bFastSP() && m_Opcode.rd == 29) { _MMU->ResetMemoryStack(); } } void CRecompilerOps::SPECIAL_ADDU (void) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(source1) && IsConst(source2)) { DWORD temp = GetMipsRegLo(source1) + GetMipsRegLo(source2); if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,temp); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); return; } Map_GPR_32bit(m_Opcode.rd,TRUE, source1); if (IsConst(source2)) { AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(source2)); } else if (IsKnown(source2) && IsMapped(source2)) { AddX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { AddVariableToX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[source2].W[0],CRegName::GPR_Lo[source2]); } if (bFastSP() && m_Opcode.rd == 29) { _MMU->ResetMemoryStack(); } } void CRecompilerOps::SPECIAL_SUB (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { DWORD temp = GetMipsRegLo(m_Opcode.rs) - GetMipsRegLo(m_Opcode.rt); if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,temp); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { if (m_Opcode.rd == m_Opcode.rt) { x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rt,FALSE); Map_GPR_32bit(m_Opcode.rd,TRUE, m_Opcode.rs); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),Reg); return; } Map_GPR_32bit(m_Opcode.rd,TRUE, m_Opcode.rs); if (IsConst(m_Opcode.rt)) { SubConstFromX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(m_Opcode.rt)); } else if (IsMapped(m_Opcode.rt)) { SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt)); } else { SubVariableFromX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); } } if (bFastSP() && m_Opcode.rd == 29) { _MMU->ResetMemoryStack(); } } void CRecompilerOps::SPECIAL_SUBU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { DWORD temp = GetMipsRegLo(m_Opcode.rs) - GetMipsRegLo(m_Opcode.rt); if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,temp); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { if (m_Opcode.rd == m_Opcode.rt) { x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rt,FALSE); Map_GPR_32bit(m_Opcode.rd,TRUE, m_Opcode.rs); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),Reg); return; } Map_GPR_32bit(m_Opcode.rd,TRUE, m_Opcode.rs); if (IsConst(m_Opcode.rt)) { SubConstFromX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(m_Opcode.rt)); } else if (IsMapped(m_Opcode.rt)) { SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt)); } else { SubVariableFromX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); } } if (bFastSP() && m_Opcode.rd == 29) { _MMU->ResetMemoryStack(); } } void CRecompilerOps::SPECIAL_AND (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { m_RegWorkingSet.SetMipsReg(m_Opcode.rd, (Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt)) & (Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs)) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { m_RegWorkingSet.SetMipsReg(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) & GetMipsReg(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; ProtectGPR(source1); ProtectGPR(source2); if (Is32Bit(source1) && Is32Bit(source2)) { bool Sign = (IsSigned(m_Opcode.rt) && IsSigned(m_Opcode.rs))?true:false; Map_GPR_32bit(m_Opcode.rd,Sign,source1); AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else if (Is32Bit(source1) || Is32Bit(source2)) { if (IsUnsigned(Is32Bit(source1)?source1:source2)) { Map_GPR_32bit(m_Opcode.rd,FALSE,source1); AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { Map_GPR_64bit(m_Opcode.rd,source1); if (Is32Bit(source2)) { AndX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),Map_TempReg(x86_Any,source2,TRUE)); } else { AndX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(source2)); } AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } } else { Map_GPR_64bit(m_Opcode.rd,source1); AndX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(source2)); AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } } else { int ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; int MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(ConstReg)) { if (Is32Bit(MappedReg) && IsUnsigned(MappedReg)) { if (GetMipsRegLo(ConstReg) == 0) { Map_GPR_32bit(m_Opcode.rd,FALSE, 0); } else { DWORD Value = GetMipsRegLo(ConstReg); Map_GPR_32bit(m_Opcode.rd,FALSE, MappedReg); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),Value); } } else { __int64 Value = GetMipsReg(ConstReg); Map_GPR_64bit(m_Opcode.rd,MappedReg); AndConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),(DWORD)(Value >> 32)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),(DWORD)Value); } } else if (Is64Bit(MappedReg)) { DWORD Value = GetMipsRegLo(ConstReg); if (Value != 0) { Map_GPR_32bit(m_Opcode.rd,IsSigned(ConstReg)?TRUE:FALSE,MappedReg); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),(DWORD)Value); } else { Map_GPR_32bit(m_Opcode.rd,IsSigned(ConstReg)?TRUE:FALSE, 0); } } else { DWORD Value = GetMipsRegLo(ConstReg); bool Sign = false; if (IsSigned(ConstReg) && IsSigned(MappedReg)) { Sign = true; } if (Value != 0) { Map_GPR_32bit(m_Opcode.rd,Sign,MappedReg); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),Value); } else { Map_GPR_32bit(m_Opcode.rd,false, 0); } } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { DWORD KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (IsConst(KnownReg)) { if (Is64Bit(KnownReg)) { unsigned __int64 Value = GetMipsReg(KnownReg); Map_GPR_64bit(m_Opcode.rd,UnknownReg); AndConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),(DWORD)(Value >> 32)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),(DWORD)Value); } else { DWORD Value = GetMipsRegLo(KnownReg); Map_GPR_32bit(m_Opcode.rd,IsSigned(KnownReg),UnknownReg); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),(DWORD)Value); } } else { ProtectGPR(KnownReg); if (KnownReg == m_Opcode.rd) { if (Is64Bit(KnownReg)) { Map_GPR_64bit(m_Opcode.rd,KnownReg); AndVariableToX86Reg(&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg],GetMipsRegMapHi(m_Opcode.rd)); AndVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_32bit(m_Opcode.rd,IsSigned(KnownReg),KnownReg); AndVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } } else { if (Is64Bit(KnownReg)) { Map_GPR_64bit(m_Opcode.rd,UnknownReg); AndX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(KnownReg)); AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(KnownReg)); } else { Map_GPR_32bit(m_Opcode.rd,IsSigned(KnownReg),UnknownReg); AndX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(KnownReg)); } } } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,m_Opcode.rt); } else { Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); AndVariableToX86Reg(&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs],GetMipsRegMapHi(m_Opcode.rd)); } AndVariableToX86Reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_OR (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { m_RegWorkingSet.SetMipsReg(m_Opcode.rd, (Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt)) | (Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs)) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) | GetMipsRegLo(m_Opcode.rs)); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; ProtectGPR(m_Opcode.rt); ProtectGPR(m_Opcode.rs); if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { Map_GPR_64bit(m_Opcode.rd,source1); if (Is64Bit(source2)) { OrX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(source2)); } else { OrX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),Map_TempReg(x86_Any,source2,TRUE)); } } else { ProtectGPR(source2); Map_GPR_32bit(m_Opcode.rd,TRUE,source1); } OrX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { DWORD ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { unsigned __int64 Value; if (Is64Bit(ConstReg)) { Value = GetMipsReg(ConstReg); } else { Value = IsSigned(ConstReg)?(__int64)GetMipsRegLo_S(ConstReg):GetMipsRegLo(ConstReg); } Map_GPR_64bit(m_Opcode.rd,MappedReg); if ((Value >> 32) != 0) { OrConstToX86Reg((DWORD)(Value >> 32),GetMipsRegMapHi(m_Opcode.rd)); } if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } else { int Value = GetMipsRegLo(ConstReg); Map_GPR_32bit(m_Opcode.rd,TRUE, MappedReg); if (Value != 0) { OrConstToX86Reg(Value,GetMipsRegMapLo(m_Opcode.rd)); } } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { int KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; int UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (IsConst(KnownReg)) { unsigned __int64 Value; Value = Is64Bit(KnownReg)?GetMipsReg(KnownReg):GetMipsRegLo_S(KnownReg); if (b32BitCore() && Is32Bit(KnownReg)) { Map_GPR_32bit(m_Opcode.rd,true,UnknownReg); if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } else { Map_GPR_64bit(m_Opcode.rd,UnknownReg); if ((Value >> 32) != 0) { OrConstToX86Reg((DWORD)(Value >> 32),GetMipsRegMapHi(m_Opcode.rd)); } if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,KnownReg); OrVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,KnownReg); OrVariableToX86Reg(&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg],GetMipsRegMapHi(m_Opcode.rd)); OrVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,m_Opcode.rt); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs],GetMipsRegMapHi(m_Opcode.rd)); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } } if (bFastSP() && m_Opcode.rd == 29) { ResetX86Protection(); _MMU->ResetMemoryStack(); } } void CRecompilerOps::SPECIAL_XOR (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (m_Opcode.rt == m_Opcode.rs) { UnMap_GPR( m_Opcode.rd, FALSE); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, 0); return; } if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { #ifndef EXTERNAL_RELEASE g_Notify->DisplayError("XOR 1"); #endif CRecompilerOps::UnknownOpcode(); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, GetMipsRegLo(m_Opcode.rt) ^ GetMipsRegLo(m_Opcode.rs)); } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; ProtectGPR(source1); ProtectGPR(source2); if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { Map_GPR_64bit(m_Opcode.rd,source1); if (Is64Bit(source2)) { XorX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(source2)); } else if (IsSigned(source2)) { XorX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),Map_TempReg(x86_Any,source2,TRUE)); } XorX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { if (IsSigned(m_Opcode.rt) != IsSigned(m_Opcode.rs)) { Map_GPR_32bit(m_Opcode.rd,TRUE,source1); } else { Map_GPR_32bit(m_Opcode.rd,IsSigned(m_Opcode.rt),source1); } XorX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } } else { DWORD ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { DWORD ConstHi, ConstLo; ConstHi = Is32Bit(ConstReg)?(DWORD)(GetMipsRegLo_S(ConstReg) >> 31):GetMipsRegHi(ConstReg); ConstLo = GetMipsRegLo(ConstReg); Map_GPR_64bit(m_Opcode.rd,MappedReg); if (ConstHi != 0) { XorConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),ConstHi); } if (ConstLo != 0) { XorConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),ConstLo); } } else { int Value = GetMipsRegLo(ConstReg); if (IsSigned(m_Opcode.rt) != IsSigned(m_Opcode.rs)) { Map_GPR_32bit(m_Opcode.rd,TRUE, MappedReg); } else { Map_GPR_32bit(m_Opcode.rd,IsSigned(MappedReg)?TRUE:FALSE, MappedReg); } if (Value != 0) { XorConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),Value); } } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { int KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; int UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (IsConst(KnownReg)) { unsigned __int64 Value; if (Is64Bit(KnownReg)) { Value = GetMipsReg(KnownReg); Map_GPR_64bit(m_Opcode.rd,UnknownReg); if ((Value >> 32) != 0) { XorConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),(DWORD)(Value >> 32)); } } else { Map_GPR_32bit(m_Opcode.rd,true,UnknownReg); if (IsSigned(KnownReg)) { Value = (int)GetMipsRegLo(KnownReg); } else { Value = GetMipsRegLo(KnownReg); } } if ((DWORD)Value != 0) { XorConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),(DWORD)Value); } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,KnownReg); XorVariableToX86reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,KnownReg); XorVariableToX86reg(&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg],GetMipsRegMapHi(m_Opcode.rd)); XorVariableToX86reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } } } else if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,m_Opcode.rt); XorVariableToX86reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); XorVariableToX86reg(&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs],GetMipsRegMapHi(m_Opcode.rd)); XorVariableToX86reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_NOR (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { m_RegWorkingSet.SetMipsReg(m_Opcode.rd, ~((Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt)) | (Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs))) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,~(GetMipsRegLo(m_Opcode.rt) | GetMipsRegLo(m_Opcode.rs))); m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; ProtectGPR(m_Opcode.rt); ProtectGPR(m_Opcode.rs); if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { Map_GPR_64bit(m_Opcode.rd,source1); if (Is64Bit(source2)) { OrX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapHi(source2)); } else { OrX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),Map_TempReg(x86_Any,source2,TRUE)); } } else { ProtectGPR(source2); Map_GPR_32bit(m_Opcode.rd,TRUE,source1); } OrX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); } else { DWORD ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { unsigned __int64 Value; if (Is64Bit(ConstReg)) { Value = GetMipsReg(ConstReg); } else { Value = IsSigned(ConstReg)?(__int64)GetMipsRegLo_S(ConstReg):GetMipsRegLo(ConstReg); } Map_GPR_64bit(m_Opcode.rd,MappedReg); if ((Value >> 32) != 0) { OrConstToX86Reg((DWORD)(Value >> 32),GetMipsRegMapHi(m_Opcode.rd)); } if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } else { int Value = GetMipsRegLo(ConstReg); Map_GPR_32bit(m_Opcode.rd,TRUE, MappedReg); if (Value != 0) { OrConstToX86Reg(Value,GetMipsRegMapLo(m_Opcode.rd)); } } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { int KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; int UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; if (IsConst(KnownReg)) { unsigned __int64 Value; Value = Is64Bit(KnownReg)?GetMipsReg(KnownReg):GetMipsRegLo_S(KnownReg); if (b32BitCore() && Is32Bit(KnownReg)) { Map_GPR_32bit(m_Opcode.rd,true,UnknownReg); if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } else { Map_GPR_64bit(m_Opcode.rd,UnknownReg); if ((Value >> 32) != 0) { OrConstToX86Reg((DWORD)(Value >> 32),GetMipsRegMapHi(m_Opcode.rd)); } if ((DWORD)Value != 0) { OrConstToX86Reg((DWORD)Value,GetMipsRegMapLo(m_Opcode.rd)); } } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,KnownReg); OrVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,KnownReg); OrVariableToX86Reg(&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg],GetMipsRegMapHi(m_Opcode.rd)); OrVariableToX86Reg(&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg],GetMipsRegMapLo(m_Opcode.rd)); } } } else { if (b32BitCore()) { Map_GPR_32bit(m_Opcode.rd,true,m_Opcode.rt); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[1],CRegName::GPR_Hi[m_Opcode.rs],GetMipsRegMapHi(m_Opcode.rd)); OrVariableToX86Reg(&_GPR[m_Opcode.rs].W[0],CRegName::GPR_Lo[m_Opcode.rs],GetMipsRegMapLo(m_Opcode.rd)); } } if (IsMapped(m_Opcode.rd)) { if (Is64Bit(m_Opcode.rd)) { NotX86Reg(GetMipsRegMapHi(m_Opcode.rd)); } NotX86Reg(GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_SLT (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { g_Notify->DisplayError("1"); CRecompilerOps::UnknownOpcode(); } else { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); if (GetMipsRegLo_S(m_Opcode.rs) < GetMipsRegLo_S(m_Opcode.rt)) { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,1); } else { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,0); } } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { ProtectGPR(m_Opcode.rt); ProtectGPR(m_Opcode.rs); if ((Is64Bit(m_Opcode.rt) && Is64Bit(m_Opcode.rs)) || (!b32BitCore() && (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)))) { BYTE *Jump[2]; CompX86RegToX86Reg( Is64Bit(m_Opcode.rs)?GetMipsRegMapHi(m_Opcode.rs):Map_TempReg(x86_Any,m_Opcode.rs,TRUE), Is64Bit(m_Opcode.rt)?GetMipsRegMapHi(m_Opcode.rt):Map_TempReg(x86_Any,m_Opcode.rt,TRUE) ); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetlVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs), GetMipsRegMapLo(m_Opcode.rt)); SetbVariable(&m_BranchCompare,"m_BranchCompare"); CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_32bit(m_Opcode.rd,TRUE, -1); CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs), GetMipsRegMapLo(m_Opcode.rt)); if (GetMipsRegMapLo(m_Opcode.rd) > x86_EBX) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { Setl(GetMipsRegMapLo(m_Opcode.rd)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd), 1); } } } else { DWORD ConstReg = IsConst(m_Opcode.rs)?m_Opcode.rs:m_Opcode.rt; DWORD MappedReg = IsConst(m_Opcode.rs)?m_Opcode.rt:m_Opcode.rs; ProtectGPR(MappedReg); if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { BYTE *Jump[2]; CompConstToX86reg( Is64Bit(MappedReg)?GetMipsRegMapHi(MappedReg):Map_TempReg(x86_Any,MappedReg,TRUE), Is64Bit(ConstReg)?GetMipsRegHi(ConstReg):(GetMipsRegLo_S(ConstReg) >> 31) ); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; if (MappedReg == m_Opcode.rs) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetgVariable(&m_BranchCompare,"m_BranchCompare"); } JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompConstToX86reg(GetMipsRegMapLo(MappedReg), GetMipsRegLo(ConstReg)); if (MappedReg == m_Opcode.rs) { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { DWORD Constant = GetMipsRegLo(ConstReg); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); CompConstToX86reg(GetMipsRegMapLo(MappedReg), Constant); if (GetMipsRegMapLo(m_Opcode.rd) > x86_EBX) { if (MappedReg == m_Opcode.rs) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetgVariable(&m_BranchCompare,"m_BranchCompare"); } MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { if (MappedReg == m_Opcode.rs) { Setl(GetMipsRegMapLo(m_Opcode.rd)); } else { Setg(GetMipsRegMapLo(m_Opcode.rd)); } AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd), 1); } } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { DWORD KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; BYTE *Jump[2]; if (!b32BitCore()) { if (Is64Bit(KnownReg)) { if (IsConst(KnownReg)) { CompConstToVariable(GetMipsRegHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } else { if (IsConst(KnownReg)) { CompConstToVariable((GetMipsRegLo_S(KnownReg) >> 31),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { ProtectGPR(KnownReg); CompX86regToVariable(Map_TempReg(x86_Any,KnownReg,TRUE),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; if (KnownReg == (IsConst(KnownReg)?m_Opcode.rs:m_Opcode.rt)) { SetgVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetlVariable(&m_BranchCompare,"m_BranchCompare"); } JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); if (IsConst(KnownReg)) { CompConstToVariable(GetMipsRegLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (KnownReg == (IsConst(KnownReg)?m_Opcode.rs:m_Opcode.rt)) { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { if (IsMapped(KnownReg)) { ProtectGPR(KnownReg); } bool bConstant = IsConst(KnownReg); DWORD Value = IsConst(KnownReg) ? GetMipsRegLo(KnownReg) : 0; Map_GPR_32bit(m_Opcode.rd,TRUE, -1); if (bConstant) { CompConstToVariable(Value,&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (GetMipsRegMapLo(m_Opcode.rd) > x86_EBX) { if (KnownReg == (bConstant?m_Opcode.rs:m_Opcode.rt)) { SetgVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetlVariable(&m_BranchCompare,"m_BranchCompare"); } MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { if (KnownReg == (bConstant?m_Opcode.rs:m_Opcode.rt)) { Setg(GetMipsRegMapLo(m_Opcode.rd)); } else { Setl(GetMipsRegMapLo(m_Opcode.rd)); } AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd), 1); } } } else if (b32BitCore()) { x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rs,false); Map_GPR_32bit(m_Opcode.rd,false, -1); CompX86regToVariable(Reg,&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); if (GetMipsRegMapLo(m_Opcode.rd) > x86_EBX) { SetlVariable(&m_BranchCompare,"m_BranchCompare"); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { Setl(GetMipsRegMapLo(m_Opcode.rd)); AndConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd), 1); } } else { BYTE *Jump[2] = { NULL, NULL }; x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rs,TRUE); CompX86regToVariable(Reg,&_GPR[m_Opcode.rt].W[1],CRegName::GPR_Hi[m_Opcode.rt]); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetlVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompX86regToVariable(Map_TempReg(Reg,m_Opcode.rs,FALSE),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); SetbVariable(&m_BranchCompare,"m_BranchCompare"); if (Jump[1]) { CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); } Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_SLTU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsKnown(m_Opcode.rt) && IsKnown(m_Opcode.rs)) { if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { g_Notify->DisplayError("1"); CRecompilerOps::UnknownOpcode(); } else { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); if (GetMipsRegLo(m_Opcode.rs) < GetMipsRegLo(m_Opcode.rt)) { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,1); } else { m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,0); } } } else if (IsMapped(m_Opcode.rt) && IsMapped(m_Opcode.rs)) { ProtectGPR(m_Opcode.rt); ProtectGPR(m_Opcode.rs); if ((Is64Bit(m_Opcode.rt) && Is64Bit(m_Opcode.rs)) || (!b32BitCore() && (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)))) { BYTE *Jump[2]; CompX86RegToX86Reg( Is64Bit(m_Opcode.rs)?GetMipsRegMapHi(m_Opcode.rs):Map_TempReg(x86_Any,m_Opcode.rs,TRUE), Is64Bit(m_Opcode.rt)?GetMipsRegMapHi(m_Opcode.rt):Map_TempReg(x86_Any,m_Opcode.rt,TRUE) ); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetbVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs), GetMipsRegMapLo(m_Opcode.rt)); SetbVariable(&m_BranchCompare,"m_BranchCompare"); CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { CompX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rs), GetMipsRegMapLo(m_Opcode.rt)); SetbVariable(&m_BranchCompare,"m_BranchCompare"); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } } else { if (Is64Bit(m_Opcode.rt) || Is64Bit(m_Opcode.rs)) { DWORD ConstHi, ConstLo, ConstReg, MappedReg; x86Reg MappedRegHi, MappedRegLo; BYTE *Jump[2]; ConstReg = IsConst(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; ConstLo = GetMipsRegLo_S(ConstReg); ConstHi = GetMipsRegLo_S(ConstReg) >> 31; if (Is64Bit(ConstReg)) { ConstHi = GetMipsRegHi(ConstReg); } ProtectGPR(MappedReg); MappedRegLo = GetMipsRegMapLo(MappedReg); MappedRegHi = GetMipsRegMapHi(MappedReg); if (Is32Bit(MappedReg)) { MappedRegHi = Map_TempReg(x86_Any,MappedReg,TRUE); } Map_GPR_32bit(m_Opcode.rd,TRUE, -1); CompConstToX86reg(MappedRegHi, ConstHi); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; if (MappedReg == m_Opcode.rs) { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompConstToX86reg(MappedRegLo, ConstLo); if (MappedReg == m_Opcode.rs) { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { DWORD Const = IsConst(m_Opcode.rs)?GetMipsRegLo(m_Opcode.rs):GetMipsRegLo(m_Opcode.rt); DWORD MappedReg = IsConst(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; CompConstToX86reg(GetMipsRegMapLo(MappedReg), Const); if (MappedReg == m_Opcode.rs) { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } } } else if (IsKnown(m_Opcode.rt) || IsKnown(m_Opcode.rs)) { DWORD KnownReg = IsKnown(m_Opcode.rt)?m_Opcode.rt:m_Opcode.rs; DWORD UnknownReg = IsKnown(m_Opcode.rt)?m_Opcode.rs:m_Opcode.rt; BYTE *Jump[2] = { NULL, NULL }; ProtectGPR(KnownReg); if (b32BitCore()) { DWORD TestReg = IsConst(KnownReg)?m_Opcode.rs:m_Opcode.rt; if (IsConst(KnownReg)) { DWORD Value = GetMipsRegLo(KnownReg); Map_GPR_32bit(m_Opcode.rd,TRUE,-1); CompConstToVariable(Value,&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (KnownReg == TestReg) { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } } else { if (IsConst(KnownReg)) { if (Is64Bit(KnownReg)) { CompConstToVariable(GetMipsRegHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { CompConstToVariable((GetMipsRegLo_S(KnownReg) >> 31),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } else { if (Is64Bit(KnownReg)) { CompX86regToVariable(GetMipsRegMapHi(KnownReg),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } else { ProtectGPR(KnownReg); CompX86regToVariable(Map_TempReg(x86_Any,KnownReg,TRUE),&_GPR[UnknownReg].W[1],CRegName::GPR_Hi[UnknownReg]); } } JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; if (KnownReg == (IsConst(KnownReg)?m_Opcode.rs:m_Opcode.rt)) { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); if (IsConst(KnownReg)) { CompConstToVariable(GetMipsRegLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } else { CompX86regToVariable(GetMipsRegMapLo(KnownReg),&_GPR[UnknownReg].W[0],CRegName::GPR_Lo[UnknownReg]); } if (KnownReg == (IsConst(KnownReg)?m_Opcode.rs:m_Opcode.rt)) { SetaVariable(&m_BranchCompare,"m_BranchCompare"); } else { SetbVariable(&m_BranchCompare,"m_BranchCompare"); } if (Jump[1]) { CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); } } Map_GPR_32bit(m_Opcode.rd,TRUE,-1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else if (b32BitCore()) { x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rs,false); Map_GPR_32bit(m_Opcode.rd,false, -1); CompX86regToVariable(Reg,&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); SetbVariable(&m_BranchCompare,"m_BranchCompare"); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } else { BYTE *Jump[2] = { NULL, NULL }; x86Reg Reg = Map_TempReg(x86_Any,m_Opcode.rs,TRUE); CompX86regToVariable(Reg,&_GPR[m_Opcode.rt].W[1],CRegName::GPR_Hi[m_Opcode.rt]); JeLabel8("Low Compare",0); Jump[0] = m_RecompPos - 1; SetbVariable(&m_BranchCompare,"m_BranchCompare"); JmpLabel8("Continue",0); Jump[1] = m_RecompPos - 1; CPU_Message(""); CPU_Message(" Low Compare:"); SetJump8(Jump[0],m_RecompPos); CompX86regToVariable(Map_TempReg(Reg,m_Opcode.rs,FALSE),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); SetbVariable(&m_BranchCompare,"m_BranchCompare"); if (Jump[1]) { CPU_Message(""); CPU_Message(" Continue:"); SetJump8(Jump[1],m_RecompPos); } Map_GPR_32bit(m_Opcode.rd,TRUE, -1); MoveVariableToX86reg(&m_BranchCompare,"m_BranchCompare",GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_DADD (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs) + Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; Map_GPR_64bit(m_Opcode.rd,source1); if (IsConst(source2)) { AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(source2)); AddConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegHi(source2)); } else if (IsMapped(source2)) { x86Reg HiReg = Is64Bit(source2)?GetMipsRegMapHi(source2):Map_TempReg(x86_Any,source2,TRUE); ProtectGPR(source2); AddX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); AdcX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); } else { AddVariableToX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[source2].W[0],CRegName::GPR_Lo[source2]); AdcVariableToX86reg(GetMipsRegMapHi(m_Opcode.rd),&_GPR[source2].W[1],CRegName::GPR_Hi[source2]); } } } void CRecompilerOps::SPECIAL_DADDU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { __int64 ValRs = Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs); __int64 ValRt = Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt); if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, ValRs + ValRt); if ((GetMipsRegHi(m_Opcode.rd) == 0) && (GetMipsRegLo(m_Opcode.rd) & 0x80000000) == 0) { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if ((GetMipsRegHi(m_Opcode.rd) == 0xFFFFFFFF) && (GetMipsRegLo(m_Opcode.rd) & 0x80000000) != 0) { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { int source1 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rt:m_Opcode.rs; int source2 = m_Opcode.rd == m_Opcode.rt?m_Opcode.rs:m_Opcode.rt; Map_GPR_64bit(m_Opcode.rd,source1); if (IsConst(source2)) { AddConstToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(source2)); AddConstToX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegHi(source2)); } else if (IsMapped(source2)) { x86Reg HiReg = Is64Bit(source2)?GetMipsRegMapHi(source2):Map_TempReg(x86_Any,source2,TRUE); ProtectGPR(source2); AddX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(source2)); AdcX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); } else { AddVariableToX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[source2].W[0],CRegName::GPR_Lo[source2]); AdcVariableToX86reg(GetMipsRegMapHi(m_Opcode.rd),&_GPR[source2].W[1],CRegName::GPR_Hi[source2]); } } } void CRecompilerOps::SPECIAL_DSUB (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs) - Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { if (m_Opcode.rd == m_Opcode.rt) { x86Reg HiReg = Map_TempReg(x86_Any,m_Opcode.rt,TRUE); x86Reg LoReg = Map_TempReg(x86_Any,m_Opcode.rt,FALSE); Map_GPR_64bit(m_Opcode.rd,m_Opcode.rs); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),LoReg); SbbX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); return; } Map_GPR_64bit(m_Opcode.rd,m_Opcode.rs); if (IsConst(m_Opcode.rt)) { SubConstFromX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(m_Opcode.rt)); SbbConstFromX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegHi(m_Opcode.rt)); } else if (IsMapped(m_Opcode.rt)) { x86Reg HiReg = Is64Bit(m_Opcode.rt)?GetMipsRegMapHi(m_Opcode.rt):Map_TempReg(x86_Any,m_Opcode.rt,TRUE); ProtectGPR(m_Opcode.rt); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt)); SbbX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); } else { SubVariableFromX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); SbbVariableFromX86reg(GetMipsRegMapHi(m_Opcode.rd),&_GPR[m_Opcode.rt].W[1],CRegName::GPR_Hi[m_Opcode.rt]); } } } void CRecompilerOps::SPECIAL_DSUBU (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt) && IsConst(m_Opcode.rs)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, Is64Bit(m_Opcode.rs)?GetMipsReg(m_Opcode.rs):(__int64)GetMipsRegLo_S(m_Opcode.rs) - Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt) ); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else { if (m_Opcode.rd == m_Opcode.rt) { x86Reg HiReg = Map_TempReg(x86_Any,m_Opcode.rt,TRUE); x86Reg LoReg = Map_TempReg(x86_Any,m_Opcode.rt,FALSE); Map_GPR_64bit(m_Opcode.rd,m_Opcode.rs); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),LoReg); SbbX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); return; } Map_GPR_64bit(m_Opcode.rd,m_Opcode.rs); if (IsConst(m_Opcode.rt)) { SubConstFromX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegLo(m_Opcode.rt)); SbbConstFromX86Reg(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegHi(m_Opcode.rt)); } else if (IsMapped(m_Opcode.rt)) { x86Reg HiReg = Is64Bit(m_Opcode.rt)?GetMipsRegMapHi(m_Opcode.rt):Map_TempReg(x86_Any,m_Opcode.rt,TRUE); ProtectGPR(m_Opcode.rt); SubX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rt)); SbbX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rd),HiReg); } else { SubVariableFromX86reg(GetMipsRegMapLo(m_Opcode.rd),&_GPR[m_Opcode.rt].W[0],CRegName::GPR_Lo[m_Opcode.rt]); SbbVariableFromX86reg(GetMipsRegMapHi(m_Opcode.rd),&_GPR[m_Opcode.rt].W[1],CRegName::GPR_Hi[m_Opcode.rt]); } } } void CRecompilerOps::SPECIAL_DSLL (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd, Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt) << m_Opcode.sa); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } return; } Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); ShiftLeftDoubleImmed(GetMipsRegMapHi(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); ShiftLeftSignImmed( GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } void CRecompilerOps::SPECIAL_DSRL (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg(m_Opcode.rd,Is64Bit(m_Opcode.rt)?GetMipsReg(m_Opcode.rt):(QWORD)GetMipsRegLo_S(m_Opcode.rt) >> m_Opcode.sa); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } return; } Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); ShiftRightDoubleImmed(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); ShiftRightUnsignImmed(GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); } void CRecompilerOps::SPECIAL_DSRA (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (IsMapped(m_Opcode.rd)) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsReg_S(m_Opcode.rd, Is64Bit(m_Opcode.rt)?GetMipsReg_S(m_Opcode.rt):(__int64)GetMipsRegLo_S(m_Opcode.rt) >> m_Opcode.sa); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } return; } Map_GPR_64bit(m_Opcode.rd,m_Opcode.rt); ShiftRightDoubleImmed(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); ShiftRightSignImmed(GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); } void CRecompilerOps::SPECIAL_DSLL32 (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (m_Opcode.rd == 0) { return; } if (IsConst(m_Opcode.rt)) { if (m_Opcode.rt != m_Opcode.rd) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegHi(m_Opcode.rd,GetMipsRegLo(m_Opcode.rt) << m_Opcode.sa); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,0); if (GetMipsRegLo_S(m_Opcode.rd) < 0 && GetMipsRegHi_S(m_Opcode.rd) == -1){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else if (GetMipsRegLo_S(m_Opcode.rd) >= 0 && GetMipsRegHi_S(m_Opcode.rd) == 0){ m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); } else { m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_64); } } else if (IsMapped(m_Opcode.rt)) { ProtectGPR(m_Opcode.rt); Map_GPR_64bit(m_Opcode.rd,-1); if (m_Opcode.rt != m_Opcode.rd) { MoveX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rt),GetMipsRegMapHi(m_Opcode.rd)); } else { CPU_Message(" regcache: switch hi (%s) with lo (%s) for %s",x86_Name(GetMipsRegMapHi(m_Opcode.rt)),x86_Name(GetMipsRegMapLo(m_Opcode.rt)),CRegName::GPR[m_Opcode.rt]); x86Reg HiReg = GetMipsRegMapHi(m_Opcode.rt); m_RegWorkingSet.SetMipsRegMapHi(m_Opcode.rt,GetMipsRegMapLo(m_Opcode.rt)); m_RegWorkingSet.SetMipsRegMapLo(m_Opcode.rt,HiReg); } if ((BYTE)m_Opcode.sa != 0) { ShiftLeftSignImmed(GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); } XorX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); } else { Map_GPR_64bit(m_Opcode.rd,-1); MoveVariableToX86reg(&_GPR[m_Opcode.rt],CRegName::GPR_Hi[m_Opcode.rt],GetMipsRegMapHi(m_Opcode.rd)); if ((BYTE)m_Opcode.sa != 0) { ShiftLeftSignImmed(GetMipsRegMapHi(m_Opcode.rd),(BYTE)m_Opcode.sa); } XorX86RegToX86Reg(GetMipsRegMapLo(m_Opcode.rd),GetMipsRegMapLo(m_Opcode.rd)); } } void CRecompilerOps::SPECIAL_DSRL32 (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsConst(m_Opcode.rt)) { if (m_Opcode.rt != m_Opcode.rd) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd, (DWORD)(GetMipsReg(m_Opcode.rt) >> (m_Opcode.sa + 32))); } else if (IsMapped(m_Opcode.rt)) { ProtectGPR(m_Opcode.rt); if (Is64Bit(m_Opcode.rt)) { if (m_Opcode.rt == m_Opcode.rd) { CPU_Message(" regcache: switch hi (%s) with lo (%s) for %s",x86_Name(GetMipsRegMapHi(m_Opcode.rt)),x86_Name(GetMipsRegMapLo(m_Opcode.rt)),CRegName::GPR[m_Opcode.rt]); x86Reg HiReg = GetMipsRegMapHi(m_Opcode.rt); m_RegWorkingSet.SetMipsRegMapHi(m_Opcode.rt,GetMipsRegMapLo(m_Opcode.rt)); m_RegWorkingSet.SetMipsRegMapLo(m_Opcode.rt,HiReg); Map_GPR_32bit(m_Opcode.rd,FALSE,-1); } else { Map_GPR_32bit(m_Opcode.rd,FALSE,-1); MoveX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rt),GetMipsRegMapLo(m_Opcode.rd)); } if ((BYTE)m_Opcode.sa != 0) { ShiftRightUnsignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } else { CRecompilerOps::UnknownOpcode(); } } else { Map_GPR_32bit(m_Opcode.rd,FALSE,-1); MoveVariableToX86reg(&_GPR[m_Opcode.rt].UW[1],CRegName::GPR_Hi[m_Opcode.rt],GetMipsRegMapLo(m_Opcode.rd)); if ((BYTE)m_Opcode.sa != 0) { ShiftRightUnsignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } } void CRecompilerOps::SPECIAL_DSRA32 (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (IsConst(m_Opcode.rt)) { if (m_Opcode.rt != m_Opcode.rd) { UnMap_GPR(m_Opcode.rd, FALSE); } m_RegWorkingSet.SetMipsRegState(m_Opcode.rd,CRegInfo::STATE_CONST_32); m_RegWorkingSet.SetMipsRegLo(m_Opcode.rd,(DWORD)(GetMipsReg_S(m_Opcode.rt) >> (m_Opcode.sa + 32))); } else if (IsMapped(m_Opcode.rt)) { ProtectGPR(m_Opcode.rt); if (Is64Bit(m_Opcode.rt)) { if (m_Opcode.rt == m_Opcode.rd) { CPU_Message(" regcache: switch hi (%s) with lo (%s) for %s",x86_Name(GetMipsRegMapHi(m_Opcode.rt)),x86_Name(GetMipsRegMapLo(m_Opcode.rt)),CRegName::GPR[m_Opcode.rt]); x86Reg HiReg = GetMipsRegMapHi(m_Opcode.rt); m_RegWorkingSet.SetMipsRegMapHi(m_Opcode.rt,GetMipsRegMapLo(m_Opcode.rt)); m_RegWorkingSet.SetMipsRegMapLo(m_Opcode.rt,HiReg); Map_GPR_32bit(m_Opcode.rd,TRUE,-1); } else { Map_GPR_32bit(m_Opcode.rd,TRUE,-1); MoveX86RegToX86Reg(GetMipsRegMapHi(m_Opcode.rt),GetMipsRegMapLo(m_Opcode.rd)); } if ((BYTE)m_Opcode.sa != 0) { ShiftRightSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } else { CRecompilerOps::UnknownOpcode(); } } else { Map_GPR_32bit(m_Opcode.rd,TRUE,-1); MoveVariableToX86reg(&_GPR[m_Opcode.rt].UW[1],CRegName::GPR_Lo[m_Opcode.rt],GetMipsRegMapLo(m_Opcode.rd)); if ((BYTE)m_Opcode.sa != 0) { ShiftRightSignImmed(GetMipsRegMapLo(m_Opcode.rd),(BYTE)m_Opcode.sa); } } } /************************** COP0 functions **************************/ void CRecompilerOps::COP0_MF(void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); switch (m_Opcode.rd) { case 9: //Count m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() - CountPerOp()) ; UpdateCounters(m_RegWorkingSet,false, true); m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() + CountPerOp()) ; BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateTimers), "CSystemTimer::UpdateTimers"); AfterCallDirect(m_RegWorkingSet); } Map_GPR_32bit(m_Opcode.rt,TRUE,-1); MoveVariableToX86reg(&_CP0[m_Opcode.rd],CRegName::Cop0[m_Opcode.rd],GetMipsRegMapLo(m_Opcode.rt)); } void CRecompilerOps::COP0_MT (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); BYTE *Jump; switch (m_Opcode.rd) { case 0: //Index case 2: //EntryLo0 case 3: //EntryLo1 case 4: //Context case 5: //PageMask case 10: //Entry Hi case 14: //EPC case 16: //Config case 18: //WatchLo case 19: //WatchHi case 28: //Tag lo case 29: //Tag Hi case 30: //ErrEPC if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } if (m_Opcode.rd == 4) //Context { AndConstToVariable(0xFF800000,&_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } break; case 11: //Compare m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() - CountPerOp()) ; UpdateCounters(m_RegWorkingSet,false, true); m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() + CountPerOp()) ; BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateTimers), "CSystemTimer::UpdateTimers"); AfterCallDirect(m_RegWorkingSet); if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } AndConstToVariable((DWORD)~CAUSE_IP7,&_Reg->FAKE_CAUSE_REGISTER,"FAKE_CAUSE_REGISTER"); BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateCompareTimer), "CSystemTimer::UpdateCompareTimer"); AfterCallDirect(m_RegWorkingSet); break; case 9: //Count m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() - CountPerOp()) ; UpdateCounters(m_RegWorkingSet,false, true); m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() + CountPerOp()) ; BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateTimers), "CSystemTimer::UpdateTimers"); AfterCallDirect(m_RegWorkingSet); if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateCompareTimer), "CSystemTimer::UpdateCompareTimer"); AfterCallDirect(m_RegWorkingSet); break; case 12: //Status { x86Reg OldStatusReg = Map_TempReg(x86_Any,-1,FALSE); MoveVariableToX86reg(&_CP0[m_Opcode.rd],CRegName::Cop0[m_Opcode.rd],OldStatusReg); if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } XorVariableToX86reg(&_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd],OldStatusReg); TestConstToX86Reg(STATUS_FR,OldStatusReg); JeLabel8("FpuFlagFine",0); Jump = m_RecompPos - 1; BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_Reg,x86_ECX); Call_Direct(AddressOf(&CRegisters::FixFpuLocations),"CRegisters::FixFpuLocations"); AfterCallDirect(m_RegWorkingSet); SetJump8(Jump,m_RecompPos); //TestConstToX86Reg(STATUS_FR,OldStatusReg); //BreakPoint(__FILE__,__LINE__); //m_Section->CompileExit(m_CompilePC+4,m_RegWorkingSet,ExitResetRecompCode,FALSE,JneLabel32); BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_Reg,x86_ECX); Call_Direct(AddressOf(&CRegisters::CheckInterrupts),"CRegisters::CheckInterrupts"); AfterCallDirect(m_RegWorkingSet); } break; case 6: //Wired BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateTimers), "CSystemTimer::UpdateTimers"); AfterCallDirect(m_RegWorkingSet); if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE), &_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); } break; case 13: //cause if (IsConst(m_Opcode.rt)) { AndConstToVariable(0xFFFFCFF,&_CP0[m_Opcode.rd], CRegName::Cop0[m_Opcode.rd]); #ifndef EXTERNAL_RELEASE if ((GetMipsRegLo(m_Opcode.rt) & 0x300) != 0 ){ g_Notify->DisplayError("Set IP0 or IP1"); } #endif } else { g_Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix CRecompilerOps::UnknownOpcode(); #endif } BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_Reg,x86_ECX); Call_Direct(AddressOf(&CRegisters::CheckInterrupts),"CRegisters::CheckInterrupts"); AfterCallDirect(m_RegWorkingSet); break; default: g_Notify->BreakPoint(__FILE__,__LINE__); #ifdef tofix CRecompilerOps::UnknownOpcode(); #endif } } /************************** COP0 CO functions ***********************/ void CRecompilerOps::COP0_CO_TLBR( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (!bUseTlb()) { return; } BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_TLB,x86_ECX); Call_Direct(AddressOf(&CTLB::ReadEntry),"CTLB::ReadEntry"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::COP0_CO_TLBWI( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (!bUseTlb()) { return; } BeforeCallDirect(m_RegWorkingSet); PushImm32("FALSE",FALSE); MoveVariableToX86reg(&_Reg->INDEX_REGISTER,"INDEX_REGISTER",x86_ECX); AndConstToX86Reg(x86_ECX,0x1F); Push(x86_ECX); MoveConstToX86reg((DWORD)_TLB,x86_ECX); Call_Direct(AddressOf(&CTLB::WriteEntry),"CTLB::WriteEntry"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::COP0_CO_TLBWR( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (!bUseTlb()) { return; } m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() - CountPerOp()) ; UpdateCounters(m_RegWorkingSet,false, true); m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() + CountPerOp()) ; BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::UpdateTimers), "CSystemTimer::UpdateTimers"); PushImm32("true",true); MoveVariableToX86reg(&_Reg->RANDOM_REGISTER,"RANDOM_REGISTER",x86_ECX); AndConstToX86Reg(x86_ECX,0x1F); Push(x86_ECX); MoveConstToX86reg((DWORD)_TLB,x86_ECX); Call_Direct(AddressOf(&CTLB::WriteEntry),"CTLB::WriteEntry"); AfterCallDirect(m_RegWorkingSet); } void CRecompilerOps::COP0_CO_TLBP( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); if (!bUseTlb()) { return; } BeforeCallDirect(m_RegWorkingSet); MoveConstToX86reg((DWORD)_TLB,x86_ECX); Call_Direct(AddressOf(&CTLB::Probe), "CTLB::TLB_Probe"); AfterCallDirect(m_RegWorkingSet); } void compiler_COP0_CO_ERET (void) { if ((_Reg->STATUS_REGISTER & STATUS_ERL) != 0) { _Reg->m_PROGRAM_COUNTER = _Reg->ERROREPC_REGISTER; _Reg->STATUS_REGISTER &= ~STATUS_ERL; } else { _Reg->m_PROGRAM_COUNTER = _Reg->EPC_REGISTER; _Reg->STATUS_REGISTER &= ~STATUS_EXL; } _Reg->m_LLBit = 0; _Reg->CheckInterrupts(); } void CRecompilerOps::COP0_CO_ERET( void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_RegWorkingSet.WriteBackRegisters(); Call_Direct(compiler_COP0_CO_ERET,"compiler_COP0_CO_ERET"); UpdateCounters(m_RegWorkingSet,true,true); m_Section->CompileExit(m_CompilePC, (DWORD)-1,m_RegWorkingSet,CExitInfo::Normal,TRUE,NULL); m_NextInstruction = END_BLOCK; } /************************** FPU Options **************************/ void CRecompilerOps::ChangeDefaultRoundingModel (void) { switch((_FPCR[31] & 3)) { case 0: *_RoundingModel = ROUND_NEAR; break; case 1: *_RoundingModel = ROUND_CHOP; break; case 2: *_RoundingModel = ROUND_UP; break; case 3: *_RoundingModel = ROUND_DOWN; break; } } /************************** COP1 functions **************************/ void CRecompilerOps::COP1_MF (void) { x86Reg TempReg; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); UnMap_FPR(m_Opcode.fs,TRUE); Map_GPR_32bit(m_Opcode.rt, TRUE, -1); TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[100]; sprintf(Name,"_FPR_S[%d]",m_Opcode.fs); MoveVariableToX86reg((BYTE *)&_FPR_S[m_Opcode.fs],Name,TempReg); MoveX86PointerToX86reg(GetMipsRegMapLo(m_Opcode.rt),TempReg); } void CRecompilerOps::COP1_DMF (void) { x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); UnMap_FPR(m_Opcode.fs,TRUE); Map_GPR_64bit(m_Opcode.rt, -1); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",m_Opcode.fs); MoveVariableToX86reg((BYTE *)&_FPR_D[m_Opcode.fs],Name,TempReg); AddConstToX86Reg(TempReg,4); MoveX86PointerToX86reg(GetMipsRegMapHi(m_Opcode.rt),TempReg); sprintf(Name,"_FPR_D[%d]",m_Opcode.fs); MoveVariableToX86reg((BYTE *)&_FPR_D[m_Opcode.fs],Name,TempReg); MoveX86PointerToX86reg(GetMipsRegMapLo(m_Opcode.rt),TempReg); } void CRecompilerOps::COP1_CF(void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fs != 31 && m_Opcode.fs != 0) { UnknownOpcode(); return; } Map_GPR_32bit(m_Opcode.rt,TRUE,-1); MoveVariableToX86reg(&_FPCR[m_Opcode.fs],CRegName::FPR_Ctrl[m_Opcode.fs],GetMipsRegMapLo(m_Opcode.rt)); } void CRecompilerOps::COP1_MT( void) { x86Reg TempReg; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if ((m_Opcode.fs & 1) != 0) { if (RegInStack(m_Opcode.fs-1,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs-1,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs-1,TRUE); } } UnMap_FPR(m_Opcode.fs,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[50]; sprintf(Name,"_FPR_S[%d]",m_Opcode.fs); MoveVariableToX86reg((BYTE *)&_FPR_S[m_Opcode.fs],Name,TempReg); if (IsConst(m_Opcode.rt)) { MoveConstToX86Pointer(GetMipsRegLo(m_Opcode.rt),TempReg); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToX86Pointer(GetMipsRegMapLo(m_Opcode.rt),TempReg); } else { MoveX86regToX86Pointer(Map_TempReg(x86_Any, m_Opcode.rt, FALSE),TempReg); } } void CRecompilerOps::COP1_DMT( void) { x86Reg TempReg; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if ((m_Opcode.fs & 1) == 0) { if (RegInStack(m_Opcode.fs+1,CRegInfo::FPU_Float) || RegInStack(m_Opcode.fs+1,CRegInfo::FPU_Dword)) { UnMap_FPR(m_Opcode.fs+1,TRUE); } } UnMap_FPR(m_Opcode.fs,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[50]; sprintf(Name,"_FPR_D[%d]",m_Opcode.fs); MoveVariableToX86reg((BYTE *)&_FPR_D[m_Opcode.fs],Name,TempReg); if (IsConst(m_Opcode.rt)) { MoveConstToX86Pointer(GetMipsRegLo(m_Opcode.rt),TempReg); AddConstToX86Reg(TempReg,4); if (Is64Bit(m_Opcode.rt)) { MoveConstToX86Pointer(GetMipsRegHi(m_Opcode.rt),TempReg); } else { MoveConstToX86Pointer(GetMipsRegLo_S(m_Opcode.rt) >> 31,TempReg); } } else if (IsMapped(m_Opcode.rt)) { MoveX86regToX86Pointer(GetMipsRegMapLo(m_Opcode.rt),TempReg); AddConstToX86Reg(TempReg,4); if (Is64Bit(m_Opcode.rt)) { MoveX86regToX86Pointer(GetMipsRegMapHi(m_Opcode.rt),TempReg); } else { MoveX86regToX86Pointer(Map_TempReg(x86_Any, m_Opcode.rt, TRUE),TempReg); } } else { x86Reg Reg= Map_TempReg(x86_Any, m_Opcode.rt, FALSE); MoveX86regToX86Pointer(Reg,TempReg); AddConstToX86Reg(TempReg,4); MoveX86regToX86Pointer(Map_TempReg(Reg, m_Opcode.rt, TRUE),TempReg); } } void CRecompilerOps::COP1_CT(void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fs != 31) { UnknownOpcode(); return; } if (IsConst(m_Opcode.rt)) { MoveConstToVariable(GetMipsRegLo(m_Opcode.rt),&_FPCR[m_Opcode.fs],CRegName::FPR_Ctrl[m_Opcode.fs]); } else if (IsMapped(m_Opcode.rt)) { MoveX86regToVariable(GetMipsRegMapLo(m_Opcode.rt),&_FPCR[m_Opcode.fs],CRegName::FPR_Ctrl[m_Opcode.fs]); } else { MoveX86regToVariable(Map_TempReg(x86_Any,m_Opcode.rt,FALSE),&_FPCR[m_Opcode.fs],CRegName::FPR_Ctrl[m_Opcode.fs]); } BeforeCallDirect(m_RegWorkingSet); Call_Direct(ChangeDefaultRoundingModel, "ChangeDefaultRoundingModel"); AfterCallDirect(m_RegWorkingSet); m_RegWorkingSet.SetRoundingModel(CRegInfo::RoundUnknown); } /************************** COP1: S functions ************************/ void CRecompilerOps::COP1_S_ADD (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Float); if (RegInStack(Reg2, CRegInfo::FPU_Float)) { fpuAddReg(StackPosition(Reg2)); } else { x86Reg TempReg; UnMap_FPR(Reg2,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[50]; sprintf(Name,"_FPR_S[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_S[Reg2],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Float); fpuAddDwordRegPointer(TempReg); } UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_SUB (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); if (m_Opcode.fd == m_Opcode.ft) { UnMap_FPR(m_Opcode.fd,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_S[%d]",m_Opcode.ft); MoveVariableToX86reg((BYTE *)&_FPR_S[m_Opcode.ft],Name,TempReg); fpuSubDwordRegPointer(TempReg); } else { Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Float); if (RegInStack(Reg2, CRegInfo::FPU_Float)) { fpuSubReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Float); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_S[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_S[Reg2],Name,TempReg); fpuSubDwordRegPointer(TempReg); } } UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_MUL (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Float); if (RegInStack(Reg2, CRegInfo::FPU_Float)) { fpuMulReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Float); TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[50]; sprintf(Name,"_FPR_S[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_S[Reg2],Name,TempReg); fpuMulDwordRegPointer(TempReg); } UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_DIV (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); if (m_Opcode.fd == m_Opcode.ft) { UnMap_FPR(m_Opcode.fd,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_S[%d]",m_Opcode.ft); MoveVariableToX86reg((BYTE *)&_FPR_S[m_Opcode.ft],Name,TempReg); fpuDivDwordRegPointer(TempReg); } else { Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Float); if (RegInStack(Reg2, CRegInfo::FPU_Float)) { fpuDivReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Float); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_S[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_S[Reg2],Name,TempReg); fpuDivDwordRegPointer(TempReg); } } UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_ABS (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); fpuAbs(); UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_NEG (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); fpuNeg(); UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_SQRT (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); fpuSqrt(); UnMap_FPR(m_Opcode.fd,TRUE); } void CRecompilerOps::COP1_S_MOV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } void CRecompilerOps::COP1_S_TRUNC_L (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Qword,CRegInfo::RoundTruncate); } void CRecompilerOps::COP1_S_CEIL_L (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Qword,CRegInfo::RoundUp); } void CRecompilerOps::COP1_S_FLOOR_L (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Qword,CRegInfo::RoundDown); } void CRecompilerOps::COP1_S_ROUND_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Dword,CRegInfo::RoundNearest); } void CRecompilerOps::COP1_S_TRUNC_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Dword,CRegInfo::RoundTruncate); } void CRecompilerOps::COP1_S_CEIL_W (void) { // added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Dword,CRegInfo::RoundUp); } void CRecompilerOps::COP1_S_FLOOR_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Dword,CRegInfo::RoundDown); } void CRecompilerOps::COP1_S_CVT_D (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Double,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_S_CVT_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Dword,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_S_CVT_L (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Float)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Float); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Float,CRegInfo::FPU_Qword,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_S_CMP (void) { DWORD Reg1 = m_Opcode.fs; DWORD Reg2 = m_Opcode.ft; DWORD cmp = 0; if ((m_Opcode.funct & 4) == 0) { Reg1 = RegInStack(m_Opcode.ft, CRegInfo::FPU_Float)?m_Opcode.ft:m_Opcode.fs; Reg2 = RegInStack(m_Opcode.ft, CRegInfo::FPU_Float)?m_Opcode.fs:m_Opcode.ft; } CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if ((m_Opcode.funct & 7) == 0) { CRecompilerOps::UnknownOpcode(); } if ((m_Opcode.funct & 2) != 0) { cmp |= 0x4000; } if ((m_Opcode.funct & 4) != 0) { cmp |= 0x0100; } Load_FPR_ToTop(Reg1,Reg1, CRegInfo::FPU_Float); Map_TempReg(x86_EAX, 0, FALSE); if (RegInStack(Reg2, CRegInfo::FPU_Float)) { fpuComReg(StackPosition(Reg2),FALSE); } else { UnMap_FPR(Reg2,TRUE); Load_FPR_ToTop(Reg1,Reg1, CRegInfo::FPU_Float); x86Reg TempReg = Map_TempReg(x86_Any,-1,FALSE); char Name[50]; sprintf(Name,"_FPR_S[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_S[Reg2],Name,TempReg); fpuComDwordRegPointer(TempReg,FALSE); } AndConstToVariable((DWORD)~FPCSR_C, &_FPCR[31], "_FPCR[31]"); fpuStoreStatus(); x86Reg Reg = Map_TempReg(x86_Any8Bit, 0, FALSE); TestConstToX86Reg(cmp,x86_EAX); Setnz(Reg); if (cmp != 0) { TestConstToX86Reg(cmp,x86_EAX); Setnz(Reg); if ((m_Opcode.funct & 1) != 0) { x86Reg Reg2 = Map_TempReg(x86_Any8Bit, 0, FALSE); AndConstToX86Reg(x86_EAX, 0x4300); CompConstToX86reg(x86_EAX, 0x4300); Setz(Reg2); OrX86RegToX86Reg(Reg, Reg2); } } else if ((m_Opcode.funct & 1) != 0) { AndConstToX86Reg(x86_EAX, 0x4300); CompConstToX86reg(x86_EAX, 0x4300); Setz(Reg); } ShiftLeftSignImmed(Reg, 23); OrX86RegToVariable(&_FPCR[31], "_FPCR[31]", Reg); } /************************** COP1: D functions ************************/ void CRecompilerOps::COP1_D_ADD (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Double); if (RegInStack(Reg2, CRegInfo::FPU_Double)) { fpuAddReg(StackPosition(Reg2)); } else { x86Reg TempReg; UnMap_FPR(Reg2,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_D[Reg2],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Double); fpuAddQwordRegPointer(TempReg); } } void CRecompilerOps::COP1_D_SUB (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd == m_Opcode.ft) { UnMap_FPR(m_Opcode.fd,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",m_Opcode.ft); MoveVariableToX86reg((BYTE *)&_FPR_D[m_Opcode.ft],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); fpuSubQwordRegPointer(TempReg); } else { Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Double); if (RegInStack(Reg2, CRegInfo::FPU_Double)) { fpuSubReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_D[Reg2],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Double); fpuSubQwordRegPointer(TempReg); } } } void CRecompilerOps::COP1_D_MUL (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); FixRoundModel(CRegInfo::RoundDefault); Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Double); if (RegInStack(Reg2, CRegInfo::FPU_Double)) { fpuMulReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Double); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_D[Reg2],Name,TempReg); fpuMulQwordRegPointer(TempReg); } } void CRecompilerOps::COP1_D_DIV (void) { DWORD Reg1 = m_Opcode.ft == m_Opcode.fd?m_Opcode.ft:m_Opcode.fs; DWORD Reg2 = m_Opcode.ft == m_Opcode.fd?m_Opcode.fs:m_Opcode.ft; x86Reg TempReg; char Name[50]; CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd == m_Opcode.ft) { UnMap_FPR(m_Opcode.fd,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",m_Opcode.ft); MoveVariableToX86reg((BYTE *)&_FPR_D[m_Opcode.ft],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); fpuDivQwordRegPointer(TempReg); } else { Load_FPR_ToTop(m_Opcode.fd,Reg1, CRegInfo::FPU_Double); if (RegInStack(Reg2, CRegInfo::FPU_Double)) { fpuDivReg(StackPosition(Reg2)); } else { UnMap_FPR(Reg2,TRUE); TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_D[Reg2],Name,TempReg); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fd, CRegInfo::FPU_Double); fpuDivQwordRegPointer(TempReg); } } } void CRecompilerOps::COP1_D_ABS (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); fpuAbs(); } void CRecompilerOps::COP1_D_NEG (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); fpuNeg(); } void CRecompilerOps::COP1_D_SQRT (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); fpuSqrt(); } void CRecompilerOps::COP1_D_MOV (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } void CRecompilerOps::COP1_D_TRUNC_L (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Qword,CRegInfo::RoundTruncate); } void CRecompilerOps::COP1_D_CEIL_L (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Qword,CRegInfo::RoundUp); } void CRecompilerOps::COP1_D_FLOOR_L (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Qword,CRegInfo::RoundDown); } void CRecompilerOps::COP1_D_ROUND_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Dword,CRegInfo::RoundNearest); } void CRecompilerOps::COP1_D_TRUNC_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fd,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fd,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fd,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Dword,CRegInfo::RoundTruncate); } void CRecompilerOps::COP1_D_CEIL_W (void) { // added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Dword,CRegInfo::RoundUp); } void CRecompilerOps::COP1_D_FLOOR_W (void) { //added by Witten CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Dword,CRegInfo::RoundDown); } void CRecompilerOps::COP1_D_CVT_S (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fd,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fd,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fd,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Float,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_D_CVT_W (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Dword,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_D_CVT_L (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (RegInStack(m_Opcode.fs,CRegInfo::FPU_Double) || RegInStack(m_Opcode.fs,CRegInfo::FPU_Qword)) { UnMap_FPR(m_Opcode.fs,TRUE); } if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Double)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Double); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Double,CRegInfo::FPU_Qword,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_D_CMP (void) { DWORD Reg1 = m_Opcode.fs; DWORD Reg2 = m_Opcode.ft; DWORD cmp = 0; if ((m_Opcode.funct & 4) == 0) { Reg1 = RegInStack(m_Opcode.ft, CRegInfo::FPU_Double)?m_Opcode.ft:m_Opcode.fs; Reg2 = RegInStack(m_Opcode.ft, CRegInfo::FPU_Double)?m_Opcode.fs:m_Opcode.ft; } CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if ((m_Opcode.funct & 1) != 0) { CRecompilerOps::UnknownOpcode(); } if ((m_Opcode.funct & 2) != 0) { cmp |= 0x4000; } if ((m_Opcode.funct & 4) != 0) { cmp |= 0x0100; } Load_FPR_ToTop(Reg1,Reg1, CRegInfo::FPU_Double); Map_TempReg(x86_EAX, 0, FALSE); if (RegInStack(Reg2, CRegInfo::FPU_Double)) { fpuComReg(StackPosition(Reg2),FALSE); } else { char Name[50]; UnMap_FPR(Reg2,TRUE); x86Reg TempReg = Map_TempReg(x86_Any,-1,FALSE); sprintf(Name,"_FPR_D[%d]",Reg2); MoveVariableToX86reg((BYTE *)&_FPR_D[Reg2],Name,TempReg); Load_FPR_ToTop(Reg1,Reg1, CRegInfo::FPU_Double); fpuComQwordRegPointer(TempReg,FALSE); } AndConstToVariable((DWORD)~FPCSR_C, &_FPCR[31], "_FPCR[31]"); fpuStoreStatus(); x86Reg Reg = Map_TempReg(x86_Any8Bit, 0, FALSE); TestConstToX86Reg(cmp,x86_EAX); Setnz(Reg); if (cmp != 0) { TestConstToX86Reg(cmp,x86_EAX); Setnz(Reg); if ((m_Opcode.funct & 1) != 0) { x86Reg Reg2 = Map_TempReg(x86_Any8Bit, 0, FALSE); AndConstToX86Reg(x86_EAX, 0x4300); CompConstToX86reg(x86_EAX, 0x4300); Setz(Reg2); OrX86RegToX86Reg(Reg, Reg2); } } else if ((m_Opcode.funct & 1) != 0) { AndConstToX86Reg(x86_EAX, 0x4300); CompConstToX86reg(x86_EAX, 0x4300); Setz(Reg); } ShiftLeftSignImmed(Reg, 23); OrX86RegToVariable(&_FPCR[31], "_FPCR[31]", Reg); } /************************** COP1: W functions ************************/ void CRecompilerOps::COP1_W_CVT_S (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Dword)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Dword); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Dword,CRegInfo::FPU_Float,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_W_CVT_D (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Dword)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Dword); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Dword,CRegInfo::FPU_Double,CRegInfo::RoundDefault); } /************************** COP1: L functions ************************/ void CRecompilerOps::COP1_L_CVT_S (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Qword)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Qword); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Qword,CRegInfo::FPU_Float,CRegInfo::RoundDefault); } void CRecompilerOps::COP1_L_CVT_D (void) { CPU_Message(" %X %s",m_CompilePC,R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_Section->CompileCop1Test(); if (m_Opcode.fd != m_Opcode.fs || !RegInStack(m_Opcode.fd,CRegInfo::FPU_Qword)) { Load_FPR_ToTop(m_Opcode.fd,m_Opcode.fs,CRegInfo::FPU_Qword); } ChangeFPURegFormat(m_Opcode.fd,CRegInfo::FPU_Qword,CRegInfo::FPU_Double,CRegInfo::RoundDefault); } /************************** Other functions **************************/ void CRecompilerOps::UnknownOpcode (void) { CPU_Message(" %X Unhandled Opcode: %s",m_CompilePC, R4300iOpcodeName(m_Opcode.Hex,m_CompilePC)); m_RegWorkingSet.WriteBackRegisters(); UpdateCounters(m_RegWorkingSet,false,true); MoveConstToVariable(m_CompilePC,&_Reg->m_PROGRAM_COUNTER,"PROGRAM_COUNTER"); if (_SyncSystem) { MoveConstToX86reg((DWORD)_BaseSystem,x86_ECX); Call_Direct(AddressOf(&CN64System::SyncSystem), "CN64System::SyncSystem"); } m_RegWorkingSet.SetBlockCycleCount(m_RegWorkingSet.GetBlockCycleCount() - CountPerOp()); MoveConstToVariable(m_Opcode.Hex, &R4300iOp::m_Opcode.Hex, "R4300iOp::m_Opcode.Hex"); Call_Direct(R4300iOp::UnknownOpcode, "R4300iOp::UnknownOpcode"); Ret(); if (m_NextInstruction == NORMAL) { m_NextInstruction = END_BLOCK; } } void CRecompilerOps::BeforeCallDirect ( CRegInfo & RegSet ) { RegSet.UnMap_AllFPRs(); Pushad(); } void CRecompilerOps::AfterCallDirect ( CRegInfo & RegSet ) { Popad(); RegSet.SetRoundingModel(CRegInfo::RoundUnknown); } void CRecompilerOps::EnterCodeBlock ( void ) { #ifdef _DEBUG Push(x86_ESI); #else Push(x86_EDI); Push(x86_ESI); Push(x86_EBX); #endif } void CRecompilerOps::ExitCodeBlock ( void ) { #ifdef _DEBUG Pop(x86_ESI); #else Pop(x86_EBX); Pop(x86_ESI); Pop(x86_EDI); #endif Ret(); } void CRecompilerOps::UpdateSyncCPU ( CRegInfo & RegSet, DWORD Cycles ) { if (!_SyncSystem) { return; } WriteX86Comment("Updating Sync CPU"); BeforeCallDirect(RegSet); PushImm32(stdstr_f("%d",Cycles).c_str(),Cycles); PushImm32("_SyncSystem",(DWORD)_SyncSystem); MoveConstToX86reg((DWORD)_System,x86_ECX); Call_Direct(AddressOf(&CN64System::UpdateSyncCPU),"CN64System::UpdateSyncCPU"); AfterCallDirect(RegSet); } void CRecompilerOps::UpdateCounters ( CRegInfo & RegSet, bool CheckTimer, bool ClearValues ) { if (RegSet.GetBlockCycleCount() != 0) { UpdateSyncCPU(RegSet,RegSet.GetBlockCycleCount()); WriteX86Comment("Update Counter"); SubConstFromVariable(RegSet.GetBlockCycleCount(),_NextTimer,"_NextTimer"); // updates compare flag if (ClearValues) { RegSet.SetBlockCycleCount(0); } } else if (CheckTimer) { CompConstToVariable(0,_NextTimer,"_NextTimer"); } if (CheckTimer) { JnsLabel8("Continue_From_Timer_Test",0); BYTE * Jump = m_RecompPos - 1; Pushad(); MoveConstToX86reg((DWORD)_SystemTimer,x86_ECX); Call_Direct(AddressOf(&CSystemTimer::TimerDone),"CSystemTimer::TimerDone"); Popad(); CPU_Message(""); CPU_Message(" $Continue_From_Timer_Test:"); SetJump8(Jump,m_RecompPos); } } void CRecompilerOps::CompileSystemCheck (DWORD TargetPC, const CRegInfo & RegSet) { CompConstToVariable(0,(void *)&_SystemEvents->DoSomething(),"_SystemEvents->DoSomething()"); JeLabel32("Continue_From_Interrupt_Test",0); DWORD * Jump = (DWORD *)(m_RecompPos - 4); if (TargetPC != (DWORD)-1) { MoveConstToVariable(TargetPC,&_Reg->m_PROGRAM_COUNTER,"PROGRAM_COUNTER"); } CRegInfo RegSetCopy(RegSet); RegSetCopy.WriteBackRegisters(); MoveConstToX86reg((DWORD)_SystemEvents,x86_ECX); Call_Direct(AddressOf(&CSystemEvents::ExecuteEvents),"CSystemEvents::ExecuteEvents"); if (_SyncSystem) { MoveConstToX86reg((DWORD)_BaseSystem,x86_ECX); Call_Direct(AddressOf(&CN64System::SyncSystem), "CN64System::SyncSystem"); } ExitCodeBlock(); CPU_Message(""); CPU_Message(" $Continue_From_Interrupt_Test:"); SetJump32(Jump,(DWORD *)m_RecompPos); } void CRecompilerOps::OverflowDelaySlot (BOOL TestTimer) { m_RegWorkingSet.WriteBackRegisters(); UpdateCounters(m_RegWorkingSet,false,true); MoveConstToVariable(CompilePC() + 4,_PROGRAM_COUNTER,"PROGRAM_COUNTER"); if (_SyncSystem) { MoveConstToX86reg((DWORD)_BaseSystem,x86_ECX); Call_Direct(AddressOf(&CN64System::SyncSystem), "CN64System::SyncSystem"); } MoveConstToVariable(JUMP,&R4300iOp::m_NextInstruction,"R4300iOp::m_NextInstruction"); if (TestTimer) { MoveConstToVariable(TestTimer,&R4300iOp::m_TestTimer,"R4300iOp::m_TestTimer"); } PushImm32("CountPerOp()",CountPerOp()); Call_Direct(CInterpreterCPU::ExecuteOps, "CInterpreterCPU::ExecuteOps"); AddConstToX86Reg(x86_ESP,4); if (bFastSP() && _Recompiler) { MoveConstToX86reg((DWORD)_Recompiler,x86_ECX); Call_Direct(AddressOf(&CRecompiler::ResetMemoryStackPos), "CRecompiler::ResetMemoryStackPos"); } if (_SyncSystem) { UpdateSyncCPU(m_RegWorkingSet,CountPerOp()); MoveConstToX86reg((DWORD)_BaseSystem,x86_ECX); Call_Direct(AddressOf(&CN64System::SyncSystem), "CN64System::SyncSystem"); } ExitCodeBlock(); m_NextInstruction = END_BLOCK; }