X-Git-Url: https://notaz.gp2x.de/cgi-bin/gitweb.cgi?p=pcsx_rearmed.git;a=blobdiff_plain;f=libpcsxcore%2Fppc%2FpR3000A.c;fp=libpcsxcore%2Fppc%2FpR3000A.c;h=0000000000000000000000000000000000000000;hp=93745f82a0d94c96a0552b8b23e218f1d776eeba;hb=89f33b734d7d540c7fa26f6556ef9ec49eb3008a;hpb=665f33e1e8ce2e40a7939a33075c3bce1c90790c diff --git a/libpcsxcore/ppc/pR3000A.c b/libpcsxcore/ppc/pR3000A.c deleted file mode 100644 index 93745f82..00000000 --- a/libpcsxcore/ppc/pR3000A.c +++ /dev/null @@ -1,3540 +0,0 @@ -/* Pcsx - Pc Psx Emulator - * Copyright (C) 1999-2003 Pcsx Team - * - * This program is free software; you can redistribute it and/or modify - * it under the terms of the GNU General Public License as published by - * the Free Software Foundation; either version 2 of the License, or - * (at your option) any later version. - * - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - * - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Steet, Fifth Floor, Boston, MA 02111-1307 USA - */ - -#ifdef _MSC_VER_ -#pragma warning(disable:4244) -#pragma warning(disable:4761) -#endif -#include -#include -#include -#include -#include - -#ifndef MAP_ANONYMOUS -#define MAP_ANONYMOUS MAP_ANON -#endif - -#include "../psxcommon.h" -#include "ppc.h" -#include "reguse.h" -#include "../r3000a.h" -#include "../psxhle.h" - -//#define NO_CONSTANT - -u32 *psxRecLUT; - -#undef _Op_ -#define _Op_ _fOp_(psxRegs.code) -#undef _Funct_ -#define _Funct_ _fFunct_(psxRegs.code) -#undef _Rd_ -#define _Rd_ _fRd_(psxRegs.code) -#undef _Rt_ -#define _Rt_ _fRt_(psxRegs.code) -#undef _Rs_ -#define _Rs_ _fRs_(psxRegs.code) -#undef _Sa_ -#define _Sa_ _fSa_(psxRegs.code) -#undef _Im_ -#define _Im_ _fIm_(psxRegs.code) -#undef _Target_ -#define _Target_ _fTarget_(psxRegs.code) - -#undef _Imm_ -#define _Imm_ _fImm_(psxRegs.code) -#undef _ImmU_ -#define _ImmU_ _fImmU_(psxRegs.code) - -#undef PC_REC -#undef PC_REC8 -#undef PC_REC16 -#undef PC_REC32 -#define PC_REC(x) (psxRecLUT[x >> 16] + (x & 0xffff)) -#define PC_REC8(x) (*(u8 *)PC_REC(x)) -#define PC_REC16(x) (*(u16*)PC_REC(x)) -#define PC_REC32(x) (*(u32*)PC_REC(x)) - -#define OFFSET(X,Y) ((u32)(Y)-(u32)(X)) - -#define RECMEM_SIZE (12*1024*1024) - -static char *recMem; /* the recompiled blocks will be here */ -static char *recRAM; /* and the ptr to the blocks here */ -static char *recROM; /* and here */ - -static u32 pc; /* recompiler pc */ -static u32 pcold; /* recompiler oldpc */ -static int count; /* recompiler intruction count */ -static int branch; /* set for branch */ -static u32 target; /* branch target */ -static u32 resp; - -u32 cop2readypc = 0; -u32 idlecyclecount = 0; - -#define NUM_REGISTERS 34 -typedef struct { - int state; - u32 k; - int reg; -} iRegisters; - -static iRegisters iRegs[34]; - -#define ST_UNK 0x00 -#define ST_CONST 0x01 -#define ST_MAPPED 0x02 - -#ifdef NO_CONSTANT -#define IsConst(reg) 0 -#else -#define IsConst(reg) (iRegs[reg].state & ST_CONST) -#endif -#define IsMapped(reg) (iRegs[reg].state & ST_MAPPED) - -static void (*recBSC[64])(); -static void (*recSPC[64])(); -static void (*recREG[32])(); -static void (*recCP0[32])(); -static void (*recCP2[64])(); -static void (*recCP2BSC[32])(); - -#define REG_LO 32 -#define REG_HI 33 - -// Hardware register usage -#define HWUSAGE_NONE 0x00 - -#define HWUSAGE_READ 0x01 -#define HWUSAGE_WRITE 0x02 -#define HWUSAGE_CONST 0x04 -#define HWUSAGE_ARG 0x08 /* used as an argument for a function call */ - -#define HWUSAGE_RESERVED 0x10 /* won't get flushed when flushing all regs */ -#define HWUSAGE_SPECIAL 0x20 /* special purpose register */ -#define HWUSAGE_HARDWIRED 0x40 /* specific hardware register mapping that is never disposed */ -#define HWUSAGE_INITED 0x80 -#define HWUSAGE_PSXREG 0x100 - -// Remember to invalidate the special registers if they are modified by compiler -enum { - ARG1 = 3, - ARG2 = 4, - ARG3 = 5, - PSXREGS, // ptr - PSXMEM, // ptr - CYCLECOUNT, // ptr - PSXPC, // ptr - TARGETPTR, // ptr - TARGET, // ptr - RETVAL, - REG_RZERO, - REG_WZERO -}; - -typedef struct { - int code; - u32 k; - int usage; - int lastUsed; - - void (*flush)(int hwreg); - int private; -} HWRegister; -static HWRegister HWRegisters[NUM_HW_REGISTERS]; -static int HWRegUseCount; -static int DstCPUReg; -static int UniqueRegAlloc; - -static int GetFreeHWReg(); -static void InvalidateCPURegs(); -static void DisposeHWReg(int index); -static void FlushHWReg(int index); -static void FlushAllHWReg(); -static void MapPsxReg32(int reg); -static void FlushPsxReg32(int hwreg); -static int UpdateHWRegUsage(int hwreg, int usage); -static int GetHWReg32(int reg); -static int PutHWReg32(int reg); -static int GetSpecialIndexFromHWRegs(int which); -static int GetHWRegFromCPUReg(int cpureg); -static int MapRegSpecial(int which); -static void FlushRegSpecial(int hwreg); -static int GetHWRegSpecial(int which); -static int PutHWRegSpecial(int which); -static void recRecompile(); -static void recError(); - -#pragma mark --- Generic register mapping --- - -static int GetFreeHWReg() -{ - int i, least, index; - - if (DstCPUReg != -1) { - index = GetHWRegFromCPUReg(DstCPUReg); - DstCPUReg = -1; - } else { - // LRU algorith with a twist ;) - for (i=0; i= 13) { - index = i; - break; - } - else if (HWRegisters[i].lastUsed < least) { - least = HWRegisters[i].lastUsed; - index = i; - } - } - } - - // Cycle the registers - if (HWRegisters[index].usage == HWUSAGE_NONE) { - for (; i= 13 && - HWRegisters[i].lastUsed < least) { - least = HWRegisters[i].lastUsed; - index = i; - break; - } - } - } - } - } - -/* if (HWRegisters[index].code < 13 && HWRegisters[index].code > 3) { - SysPrintf("Allocating volatile register %i\n", HWRegisters[index].code); - } - if (HWRegisters[index].usage != HWUSAGE_NONE) { - SysPrintf("RegUse too big. Flushing %i\n", HWRegisters[index].code); - }*/ - if (HWRegisters[index].usage & (HWUSAGE_RESERVED | HWUSAGE_HARDWIRED)) { - if (HWRegisters[index].usage & HWUSAGE_RESERVED) { - SysPrintf("Error! Trying to map a new register to a reserved register (r%i)", - HWRegisters[index].code); - } - if (HWRegisters[index].usage & HWUSAGE_HARDWIRED) { - SysPrintf("Error! Trying to map a new register to a hardwired register (r%i)", - HWRegisters[index].code); - } - } - - if (HWRegisters[index].lastUsed != 0) { - UniqueRegAlloc = 0; - } - - // Make sure the register is really flushed! - FlushHWReg(index); - HWRegisters[index].usage = HWUSAGE_NONE; - HWRegisters[index].flush = NULL; - - return index; -} - -static void FlushHWReg(int index) -{ - if (index < 0) return; - if (HWRegisters[index].usage == HWUSAGE_NONE) return; - - if (HWRegisters[index].flush) { - HWRegisters[index].usage |= HWUSAGE_RESERVED; - HWRegisters[index].flush(index); - HWRegisters[index].flush = NULL; - } - - if (HWRegisters[index].usage & HWUSAGE_HARDWIRED) { - HWRegisters[index].usage &= ~(HWUSAGE_READ | HWUSAGE_WRITE); - } else { - HWRegisters[index].usage = HWUSAGE_NONE; - } -} - -// get rid of a mapped register without flushing the contents to the memory -static void DisposeHWReg(int index) -{ - if (index < 0) return; - if (HWRegisters[index].usage == HWUSAGE_NONE) return; - - HWRegisters[index].usage &= ~(HWUSAGE_READ | HWUSAGE_WRITE); - if (HWRegisters[index].usage == HWUSAGE_NONE) { - SysPrintf("Error! not correctly disposing register (r%i)", HWRegisters[index].code); - } - - FlushHWReg(index); -} - -// operated on cpu registers -__inline static void FlushCPURegRange(int start, int end) -{ - int i; - - if (end <= 0) end = 31; - if (start <= 0) start = 0; - - for (i=0; i= start && HWRegisters[i].code <= end) - if (HWRegisters[i].flush) - FlushHWReg(i); - } - - for (i=0; i= start && HWRegisters[i].code <= end) - FlushHWReg(i); - } -} - -static void FlushAllHWReg() -{ - FlushCPURegRange(0,31); -} - -static void InvalidateCPURegs() -{ - FlushCPURegRange(0,12); -} - -#pragma mark --- Mapping utility functions --- - -static void MoveHWRegToCPUReg(int cpureg, int hwreg) -{ - int dstreg; - - if (HWRegisters[hwreg].code == cpureg) - return; - - dstreg = GetHWRegFromCPUReg(cpureg); - - HWRegisters[dstreg].usage &= ~(HWUSAGE_HARDWIRED | HWUSAGE_ARG); - if (HWRegisters[hwreg].usage & (HWUSAGE_READ | HWUSAGE_WRITE)) { - FlushHWReg(dstreg); - MR(HWRegisters[dstreg].code, HWRegisters[hwreg].code); - } else { - if (HWRegisters[dstreg].usage & (HWUSAGE_READ | HWUSAGE_WRITE)) { - MR(HWRegisters[hwreg].code, HWRegisters[dstreg].code); - } - else if (HWRegisters[dstreg].usage != HWUSAGE_NONE) { - FlushHWReg(dstreg); - } - } - - HWRegisters[dstreg].code = HWRegisters[hwreg].code; - HWRegisters[hwreg].code = cpureg; -} - -static int UpdateHWRegUsage(int hwreg, int usage) -{ - HWRegisters[hwreg].lastUsed = ++HWRegUseCount; - if (usage & HWUSAGE_WRITE) { - HWRegisters[hwreg].usage &= ~HWUSAGE_CONST; - } - if (!(usage & HWUSAGE_INITED)) { - HWRegisters[hwreg].usage &= ~HWUSAGE_INITED; - } - HWRegisters[hwreg].usage |= usage; - - return HWRegisters[hwreg].code; -} - -static int GetHWRegFromCPUReg(int cpureg) -{ - int i; - for (i=0; i= 0) { - if (HWRegisters[index].usage & HWUSAGE_WRITE) - break; - } - index = MapRegSpecial(which); - HWRegisters[index].flush = NULL; - break; - default: - if (index == -1) { - usage |= HWUSAGE_INITED; - index = MapRegSpecial(which); - - HWRegisters[index].usage |= HWUSAGE_RESERVED; - switch (which) { - case ARG1: - case ARG2: - case ARG3: - MoveHWRegToCPUReg(3+(which-ARG1), index); - /*reg = GetHWRegFromCPUReg(3+(which-ARG1)); - - if (HWRegisters[reg].usage != HWUSAGE_NONE) { - HWRegisters[reg].usage &= ~(HWUSAGE_HARDWIRED | HWUSAGE_ARG); - if (HWRegisters[reg].flush != NULL && HWRegisters[reg].usage & (HWUSAGE_WRITE | HWUSAGE_READ)) { - MR(HWRegisters[index].code, HWRegisters[reg].code); - } else { - FlushHWReg(reg); - } - } - HWRegisters[reg].code = HWRegisters[index].code; - if (!(HWRegisters[index].code >= 3 && HWRegisters[index].code <=31)) - SysPrintf("Error! Register allocation"); - HWRegisters[index].code = 3+(which-ARG1);*/ - HWRegisters[index].flush = NULL; - - usage |= HWUSAGE_RESERVED | HWUSAGE_HARDWIRED | HWUSAGE_ARG; - break; - } - } - HWRegisters[index].usage &= ~HWUSAGE_RESERVED; - break; - } - - DstCPUReg = -1; - - return UpdateHWRegUsage(index, usage); -} - -#pragma mark --- --- - -static void MapConst(int reg, u32 _const) { - if (reg == 0) - return; - if (IsConst(reg) && iRegs[reg].k == _const) - return; - - DisposeHWReg(iRegs[reg].reg); - iRegs[reg].k = _const; - iRegs[reg].state = ST_CONST; -} - -static void MapCopy(int dst, int src) -{ - // do it the lazy way for now - MR(PutHWReg32(dst), GetHWReg32(src)); -} - -static void iFlushReg(u32 nextpc, int reg) { - if (!IsMapped(reg) && IsConst(reg)) { - GetHWReg32(reg); - } - if (IsMapped(reg)) { - if (nextpc) { - int use = nextPsxRegUse(nextpc, reg); - if ((use & REGUSE_RW) == REGUSE_WRITE) { - DisposeHWReg(iRegs[reg].reg); - } else { - FlushHWReg(iRegs[reg].reg); - } - } else { - FlushHWReg(iRegs[reg].reg); - } - } -} - -static void iFlushRegs(u32 nextpc) { - int i; - - for (i=1; i> 26; - switch (tmp) { - case 0x10: // COP0 - switch (_Rs_) { - case 0x00: // MFC0 - case 0x02: // CFC0 - return 1; - } - break; - case 0x12: // COP2 - switch (_Funct_) { - case 0x00: - switch (_Rs_) { - case 0x00: // MFC2 - case 0x02: // CFC2 - return 1; - } - break; - } - break; - case 0x32: // LWC2 - return 1; - default: - if (tmp >= 0x20 && tmp <= 0x26) { // LB/LH/LWL/LW/LBU/LHU/LWR - return 1; - } - break; - } - return 0; -} - -/* set a pending branch */ -static void SetBranch() { - int treg; - branch = 1; - psxRegs.code = PSXMu32(pc); - pc+=4; - - if (iLoadTest() == 1) { - iFlushRegs(0); - LIW(0, psxRegs.code); - STW(0, OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); - /* store cycle */ - count = (idlecyclecount + (pc - pcold) / 4) * BIAS; - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - - treg = GetHWRegSpecial(TARGET); - MR(PutHWRegSpecial(ARG2), treg); - DisposeHWReg(GetHWRegFromCPUReg(treg)); - LIW(PutHWRegSpecial(ARG1), _Rt_); - LIW(GetHWRegSpecial(PSXPC), pc); - FlushAllHWReg(); - CALLFunc((u32)psxDelayTest); - - Return(); - return; - } - - recBSC[psxRegs.code>>26](); - - iFlushRegs(0); - treg = GetHWRegSpecial(TARGET); - MR(PutHWRegSpecial(PSXPC), GetHWRegSpecial(TARGET)); // FIXME: this line should not be needed - DisposeHWReg(GetHWRegFromCPUReg(treg)); - FlushAllHWReg(); - - count = (idlecyclecount + (pc - pcold) / 4) * BIAS; - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - FlushAllHWReg(); - CALLFunc((u32)psxBranchTest); - - // TODO: don't return if target is compiled - Return(); -} - -static void iJump(u32 branchPC) { - u32 *b1, *b2; - branch = 1; - psxRegs.code = PSXMu32(pc); - pc+=4; - - if (iLoadTest() == 1) { - iFlushRegs(0); - LIW(0, psxRegs.code); - STW(0, OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); - /* store cycle */ - count = (idlecyclecount + (pc - pcold) / 4) * BIAS; - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - - LIW(PutHWRegSpecial(ARG2), branchPC); - LIW(PutHWRegSpecial(ARG1), _Rt_); - LIW(GetHWRegSpecial(PSXPC), pc); - FlushAllHWReg(); - CALLFunc((u32)psxDelayTest); - - Return(); - return; - } - - recBSC[psxRegs.code>>26](); - - iFlushRegs(branchPC); - LIW(PutHWRegSpecial(PSXPC), branchPC); - FlushAllHWReg(); - - count = (idlecyclecount + (pc - pcold) / 4) * BIAS; - //if (/*psxRegs.code == 0 &&*/ count == 2 && branchPC == pcold) { - // LIW(PutHWRegSpecial(CYCLECOUNT), 0); - //} else { - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - //} - FlushAllHWReg(); - CALLFunc((u32)psxBranchTest); - - if (!Config.HLE && Config.PsxOut && - ((branchPC & 0x1fffff) == 0xa0 || - (branchPC & 0x1fffff) == 0xb0 || - (branchPC & 0x1fffff) == 0xc0)) - CALLFunc((u32)psxJumpTest); - - // always return for now... - //Return(); - - // maybe just happened an interruption, check so - LIW(0, branchPC); - CMPLW(GetHWRegSpecial(PSXPC), 0); - BNE_L(b1); - - LIW(3, PC_REC(branchPC)); - LWZ(3, 0, 3); - CMPLWI(3, 0); - BNE_L(b2); - - B_DST(b1); - Return(); - - // next bit is already compiled - jump right to it - B_DST(b2); - MTCTR(3); - BCTR(); -} - -static void iBranch(u32 branchPC, int savectx) { - HWRegister HWRegistersS[NUM_HW_REGISTERS]; - iRegisters iRegsS[NUM_REGISTERS]; - int HWRegUseCountS = 0; - u32 respold=0; - u32 *b1, *b2; - - if (savectx) { - respold = resp; - memcpy(iRegsS, iRegs, sizeof(iRegs)); - memcpy(HWRegistersS, HWRegisters, sizeof(HWRegisters)); - HWRegUseCountS = HWRegUseCount; - } - - branch = 1; - psxRegs.code = PSXMu32(pc); - - // the delay test is only made when the branch is taken - // savectx == 0 will mean that :) - if (savectx == 0 && iLoadTest() == 1) { - iFlushRegs(0); - LIW(0, psxRegs.code); - STW(0, OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); - /* store cycle */ - count = (idlecyclecount + ((pc+4) - pcold) / 4) * BIAS; - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - - LIW(PutHWRegSpecial(ARG2), branchPC); - LIW(PutHWRegSpecial(ARG1), _Rt_); - LIW(GetHWRegSpecial(PSXPC), pc); - FlushAllHWReg(); - CALLFunc((u32)psxDelayTest); - - Return(); - return; - } - - pc+= 4; - recBSC[psxRegs.code>>26](); - - iFlushRegs(branchPC); - LIW(PutHWRegSpecial(PSXPC), branchPC); - FlushAllHWReg(); - - /* store cycle */ - count = (idlecyclecount + (pc - pcold) / 4) * BIAS; - //if (/*psxRegs.code == 0 &&*/ count == 2 && branchPC == pcold) { - // LIW(PutHWRegSpecial(CYCLECOUNT), 0); - //} else { - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - //} - FlushAllHWReg(); - CALLFunc((u32)psxBranchTest); - - // always return for now... - //Return(); - - LIW(0, branchPC); - CMPLW(GetHWRegSpecial(PSXPC), 0); - BNE_L(b1); - - LIW(3, PC_REC(branchPC)); - LWZ(3, 0, 3); - CMPLWI(3, 0); - BNE_L(b2); - - B_DST(b1); - Return(); - - B_DST(b2); - MTCTR(3); - BCTR(); - - // maybe just happened an interruption, check so -/* CMP32ItoM((u32)&psxRegs.pc, branchPC); - j8Ptr[1] = JE8(0); - RET(); - - x86SetJ8(j8Ptr[1]); - MOV32MtoR(EAX, PC_REC(branchPC)); - TEST32RtoR(EAX, EAX); - j8Ptr[2] = JNE8(0); - RET(); - - x86SetJ8(j8Ptr[2]); - JMP32R(EAX);*/ - - pc-= 4; - if (savectx) { - resp = respold; - memcpy(iRegs, iRegsS, sizeof(iRegs)); - memcpy(HWRegisters, HWRegistersS, sizeof(HWRegisters)); - HWRegUseCount = HWRegUseCountS; - } -} - - -static void iDumpRegs() { - int i, j; - - printf("%lx %lx\n", psxRegs.pc, psxRegs.cycle); - for (i=0; i<4; i++) { - for (j=0; j<8; j++) - printf("%lx ", psxRegs.GPR.r[j*i]); - printf("\n"); - } -} - -void iDumpBlock(char *ptr) { -/* FILE *f; - u32 i; - - SysPrintf("dump1 %x:%x, %x\n", psxRegs.pc, pc, psxCurrentCycle); - - for (i = psxRegs.pc; i < pc; i+=4) - SysPrintf("%s\n", disR3000AF(PSXMu32(i), i)); - - fflush(stdout); - f = fopen("dump1", "w"); - fwrite(ptr, 1, (u32)x86Ptr - (u32)ptr, f); - fclose(f); - system("ndisasmw -u dump1"); - fflush(stdout);*/ -} - -#define REC_FUNC(f) \ -void psx##f(); \ -static void rec##f() { \ - iFlushRegs(0); \ - LIW(PutHWRegSpecial(ARG1), (u32)psxRegs.code); \ - STW(GetHWRegSpecial(ARG1), OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); \ - LIW(PutHWRegSpecial(PSXPC), (u32)pc); \ - FlushAllHWReg(); \ - CALLFunc((u32)psx##f); \ -/* branch = 2; */\ -} - -#define REC_SYS(f) \ -void psx##f(); \ -static void rec##f() { \ - iFlushRegs(0); \ - LIW(PutHWRegSpecial(ARG1), (u32)psxRegs.code); \ - STW(GetHWRegSpecial(ARG1), OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); \ - LIW(PutHWRegSpecial(PSXPC), (u32)pc); \ - FlushAllHWReg(); \ - CALLFunc((u32)psx##f); \ - branch = 2; \ - iRet(); \ -} - -#define REC_BRANCH(f) \ -void psx##f(); \ -static void rec##f() { \ - iFlushRegs(0); \ - LIW(PutHWRegSpecial(ARG1), (u32)psxRegs.code); \ - STW(GetHWRegSpecial(ARG1), OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); \ - LIW(PutHWRegSpecial(PSXPC), (u32)pc); \ - FlushAllHWReg(); \ - CALLFunc((u32)psx##f); \ - branch = 2; \ - iRet(); \ -} - -static void freeMem(int all) -{ - if (recMem) free(recMem); - if (recRAM) free(recRAM); - if (recROM) free(recROM); - recMem = recRAM = recROM = 0; - - if (all && psxRecLUT) { - free(psxRecLUT); psxRecLUT = NULL; - } -} - -static int allocMem() { - int i; - - freeMem(0); - - if (psxRecLUT==NULL) - psxRecLUT = (u32*) malloc(0x010000 * 4); - - recMem = (char*) malloc(RECMEM_SIZE); - //recMem = mmap(NULL, RECMEM_SIZE, PROT_EXEC|PROT_READ|PROT_WRITE, MAP_ANON|MAP_PRIVATE, -1, 0); - recRAM = (char*) malloc(0x200000); - recROM = (char*) malloc(0x080000); - if (recRAM == NULL || recROM == NULL || recMem == NULL/*(void *)-1*/ || psxRecLUT == NULL) { - freeMem(1); - SysMessage("Error allocating memory"); return -1; - } - - for (i=0; i<0x80; i++) psxRecLUT[i + 0x0000] = (u32)&recRAM[(i & 0x1f) << 16]; - memcpy(psxRecLUT + 0x8000, psxRecLUT, 0x80 * 4); - memcpy(psxRecLUT + 0xa000, psxRecLUT, 0x80 * 4); - - for (i=0; i<0x08; i++) psxRecLUT[i + 0xbfc0] = (u32)&recROM[i << 16]; - - return 0; -} - -static int recInit() { - return allocMem(); -} - -static void recReset() { - memset(recRAM, 0, 0x200000); - memset(recROM, 0, 0x080000); - - ppcInit(); - ppcSetPtr((u32 *)recMem); - - branch = 0; - memset(iRegs, 0, sizeof(iRegs)); - iRegs[0].state = ST_CONST; - iRegs[0].k = 0; -} - -static void recShutdown() { - freeMem(1); - ppcShutdown(); -} - -static void recError() { - SysReset(); - ClosePlugins(); - SysMessage("Unrecoverable error while running recompiler\n"); - SysRunGui(); -} - -__inline static void execute() { - void (**recFunc)(); - char *p; - - p = (char*)PC_REC(psxRegs.pc); - /*if (p != NULL)*/ recFunc = (void (**)()) (u32)p; - /*else { recError(); return; }*/ - - if (*recFunc == 0) { - recRecompile(); - } - recRun(*recFunc, (u32)&psxRegs, (u32)&psxM); -} - -static void recExecute() { - for (;;) execute(); -} - -static void recExecuteBlock() { - execute(); -} - -static void recClear(u32 Addr, u32 Size) { - memset((void*)PC_REC(Addr), 0, Size * 4); -} - -static void recNULL() { -// SysMessage("recUNK: %8.8x\n", psxRegs.code); -} - -/********************************************************* -* goes to opcodes tables... * -* Format: table[something....] * -*********************************************************/ - -//REC_SYS(SPECIAL); -static void recSPECIAL() { - recSPC[_Funct_](); -} - -static void recREGIMM() { - recREG[_Rt_](); -} - -static void recCOP0() { - recCP0[_Rs_](); -} - -//REC_SYS(COP2); -static void recCOP2() { - recCP2[_Funct_](); -} - -static void recBASIC() { - recCP2BSC[_Rs_](); -} - -//end of Tables opcodes... - -#pragma mark - Arithmetic with immediate operand - -/********************************************************* -* Arithmetic with immediate operand * -* Format: OP rt, rs, immediate * -*********************************************************/ - -#if 0 -/*REC_FUNC(ADDI); -REC_FUNC(ADDIU); -REC_FUNC(ANDI); -REC_FUNC(ORI); -REC_FUNC(XORI); -REC_FUNC(SLTI); -REC_FUNC(SLTIU);*/ -#else -static void recADDIU() { -// Rt = Rs + Im - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, iRegs[_Rs_].k + _Imm_); - } else { - if (_Imm_ == 0) { - MapCopy(_Rt_, _Rs_); - } else { - ADDI(PutHWReg32(_Rt_), GetHWReg32(_Rs_), _Imm_); - } - } -} - -static void recADDI() { -// Rt = Rs + Im - recADDIU(); -} - -//REC_FUNC(SLTI); -//REC_FUNC(SLTIU); -//CR0: SIGN | POSITIVE | ZERO | SOVERFLOW | SOVERFLOW | OVERFLOW | CARRY -static void recSLTI() { -// Rt = Rs < Im (signed) - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, (s32)iRegs[_Rs_].k < _Imm_); - } else { - if (_Imm_ == 0) { - SRWI(PutHWReg32(_Rt_), GetHWReg32(_Rs_), 31); - } else { - int reg; - CMPWI(GetHWReg32(_Rs_), _Imm_); - reg = PutHWReg32(_Rt_); - LI(reg, 1); - BLT(1); - LI(reg, 0); - } - } -} - -static void recSLTIU() { -// Rt = Rs < Im (unsigned) - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, iRegs[_Rs_].k < _ImmU_); - } else { - int reg; - CMPLWI(GetHWReg32(_Rs_), _Imm_); - reg = PutHWReg32(_Rt_); - LI(reg, 1); - BLT(1); - LI(reg, 0); - } -} - -static void recANDI() { -// Rt = Rs And Im - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, iRegs[_Rs_].k & _ImmU_); - } else { - ANDI_(PutHWReg32(_Rt_), GetHWReg32(_Rs_), _ImmU_); - } -} - -static void recORI() { -// Rt = Rs Or Im - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, iRegs[_Rs_].k | _ImmU_); - } else { - if (_Imm_ == 0) { - MapCopy(_Rt_, _Rs_); - } else { - ORI(PutHWReg32(_Rt_), GetHWReg32(_Rs_), _ImmU_); - } - } -} - -static void recXORI() { -// Rt = Rs Xor Im - if (!_Rt_) return; - - if (IsConst(_Rs_)) { - MapConst(_Rt_, iRegs[_Rs_].k ^ _ImmU_); - } else { - XORI(PutHWReg32(_Rt_), GetHWReg32(_Rs_), _ImmU_); - } -} -#endif -//end of * Arithmetic with immediate operand - -/********************************************************* -* Load higher 16 bits of the first word in GPR with imm * -* Format: OP rt, immediate * -*********************************************************/ -//REC_FUNC(LUI); -//#if 0*/ -static void recLUI() { -// Rt = Imm << 16 - if (!_Rt_) return; - - MapConst(_Rt_, psxRegs.code << 16); -} -//#endif -//End of Load Higher ..... - -#pragma mark - Register arithmetic - -/********************************************************* -* Register arithmetic * -* Format: OP rd, rs, rt * -*********************************************************/ - -#if 0 -/*REC_FUNC(ADD); -REC_FUNC(ADDU); -REC_FUNC(SUB); -REC_FUNC(SUBU); -REC_FUNC(AND); -REC_FUNC(OR); -REC_FUNC(XOR); -REC_FUNC(NOR); -REC_FUNC(SLT); -REC_FUNC(SLTU);*/ -#else -static void recADDU() { -// Rd = Rs + Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k + iRegs[_Rt_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((s32)(s16)iRegs[_Rs_].k == (s32)iRegs[_Rs_].k) { - ADDI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), (s16)iRegs[_Rs_].k); - } else if ((iRegs[_Rs_].k & 0xffff) == 0) { - ADDIS(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k>>16); - } else { - ADD(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((s32)(s16)iRegs[_Rt_].k == (s32)iRegs[_Rt_].k) { - ADDI(PutHWReg32(_Rd_), GetHWReg32(_Rs_), (s16)iRegs[_Rt_].k); - } else if ((iRegs[_Rt_].k & 0xffff) == 0) { - ADDIS(PutHWReg32(_Rd_), GetHWReg32(_Rs_), iRegs[_Rt_].k>>16); - } else { - ADD(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else { - ADD(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } -} - -static void recADD() { -// Rd = Rs + Rt - recADDU(); -} - -static void recSUBU() { -// Rd = Rs - Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k - iRegs[_Rt_].k); - } else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((s32)(s16)(-iRegs[_Rt_].k) == (s32)(-iRegs[_Rt_].k)) { - ADDI(PutHWReg32(_Rd_), GetHWReg32(_Rs_), -iRegs[_Rt_].k); - } else if (((-iRegs[_Rt_].k) & 0xffff) == 0) { - ADDIS(PutHWReg32(_Rd_), GetHWReg32(_Rs_), (-iRegs[_Rt_].k)>>16); - } else { - SUB(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else { - SUB(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } -} - -static void recSUB() { -// Rd = Rs - Rt - recSUBU(); -} - -static void recAND() { -// Rd = Rs And Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k & iRegs[_Rt_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - // TODO: implement shifted (ANDIS) versions of these - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - ANDI_(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - AND(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - ANDI_(PutHWReg32(_Rd_), GetHWReg32(_Rs_), iRegs[_Rt_].k); - } else { - AND(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else { - AND(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } -} - -static void recOR() { -// Rd = Rs Or Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k | iRegs[_Rt_].k); - } - else { - if (_Rs_ == _Rt_) { - MapCopy(_Rd_, _Rs_); - } - else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - ORI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - OR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - ORI(PutHWReg32(_Rd_), GetHWReg32(_Rs_), iRegs[_Rt_].k); - } else { - OR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else { - OR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } -} - -static void recXOR() { -// Rd = Rs Xor Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k ^ iRegs[_Rt_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - XORI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - XOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - XORI(PutHWReg32(_Rd_), GetHWReg32(_Rs_), iRegs[_Rt_].k); - } else { - XOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else { - XOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } -} - -static void recNOR() { -// Rd = Rs Nor Rt - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, ~(iRegs[_Rs_].k | iRegs[_Rt_].k)); - } /*else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - NORI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - NOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - NORI(PutHWReg32(_Rd_), GetHWReg32(_Rs_), iRegs[_Rt_].k); - } else { - NOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } */else { - NOR(PutHWReg32(_Rd_), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } -} - -static void recSLT() { -// Rd = Rs < Rt (signed) - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, (s32)iRegs[_Rs_].k < (s32)iRegs[_Rt_].k); - } else { // TODO: add immidiate cases - int reg; - CMPW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - reg = PutHWReg32(_Rd_); - LI(reg, 1); - BLT(1); - LI(reg, 0); - } -} - -static void recSLTU() { -// Rd = Rs < Rt (unsigned) - if (!_Rd_) return; - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rs_].k < iRegs[_Rt_].k); - } else { // TODO: add immidiate cases - SUBFC(PutHWReg32(_Rd_), GetHWReg32(_Rt_), GetHWReg32(_Rs_)); - SUBFE(PutHWReg32(_Rd_), GetHWReg32(_Rd_), GetHWReg32(_Rd_)); - NEG(PutHWReg32(_Rd_), GetHWReg32(_Rd_)); - } -} -#endif -//End of * Register arithmetic - -#pragma mark - mult/div & Register trap logic - -/********************************************************* -* Register mult/div & Register trap logic * -* Format: OP rs, rt * -*********************************************************/ - -#if 0 -REC_FUNC(MULT); -REC_FUNC(MULTU); -REC_FUNC(DIV); -REC_FUNC(DIVU); -#else - -int DoShift(u32 k) -{ - u32 i; - for (i=0; i<30; i++) { - if (k == (1ul << i)) - return i; - } - return -1; -} - -//REC_FUNC(MULT); - -// FIXME: doesn't work in GT - wrong way marker -static void recMULT() { -// Lo/Hi = Rs * Rt (signed) - s32 k; int r; - int usehi, uselo; - - if ((IsConst(_Rs_) && iRegs[_Rs_].k == 0) || - (IsConst(_Rt_) && iRegs[_Rt_].k == 0)) { - MapConst(REG_LO, 0); - MapConst(REG_HI, 0); - return; - } - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - u64 res = (s64)((s64)(s32)iRegs[_Rs_].k * (s64)(s32)iRegs[_Rt_].k); - MapConst(REG_LO, (res & 0xffffffff)); - MapConst(REG_HI, ((res >> 32) & 0xffffffff)); - return; - } - - if (IsConst(_Rs_)) { - k = (s32)iRegs[_Rs_].k; - r = _Rt_; - } else if (IsConst(_Rt_)) { - k = (s32)iRegs[_Rt_].k; - r = _Rs_; - } else { - r = -1; - k = 0; - } - - // FIXME: this should not be needed!!! -// uselo = isPsxRegUsed(pc, REG_LO); -// usehi = isPsxRegUsed(pc, REG_HI); - uselo = 1; //isPsxRegUsed(pc, REG_LO); - usehi = 1; //isPsxRegUsed(pc, REG_HI); - - - if (r != -1) { - int shift = DoShift(k); - if (shift != -1) { - if (uselo) { - SLWI(PutHWReg32(REG_LO), GetHWReg32(r), shift) - } - if (usehi) { - SRAWI(PutHWReg32(REG_HI), GetHWReg32(r), 31-shift); - } - } else { - //if ((s32)(s16)k == k) { - // MULLWI(PutHWReg32(REG_LO), GetHWReg32(r), k); - // MULHWI(PutHWReg32(REG_HI), GetHWReg32(r), k); - //} else - { - if (uselo) { - MULLW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - if (usehi) { - MULHW(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - } - } else { - if (uselo) { - MULLW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - if (usehi) { - MULHW(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } -} - -static void recMULTU() { -// Lo/Hi = Rs * Rt (unsigned) - u32 k; int r; - int usehi, uselo; - - if ((IsConst(_Rs_) && iRegs[_Rs_].k == 0) || - (IsConst(_Rt_) && iRegs[_Rt_].k == 0)) { - MapConst(REG_LO, 0); - MapConst(REG_HI, 0); - return; - } - - if (IsConst(_Rs_) && IsConst(_Rt_)) { - u64 res = (u64)((u64)(u32)iRegs[_Rs_].k * (u64)(u32)iRegs[_Rt_].k); - MapConst(REG_LO, (res & 0xffffffff)); - MapConst(REG_HI, ((res >> 32) & 0xffffffff)); - return; - } - - if (IsConst(_Rs_)) { - k = (s32)iRegs[_Rs_].k; - r = _Rt_; - } else if (IsConst(_Rt_)) { - k = (s32)iRegs[_Rt_].k; - r = _Rs_; - } else { - r = -1; - k = 0; - } - - uselo = isPsxRegUsed(pc, REG_LO); - usehi = isPsxRegUsed(pc, REG_HI); - - if (r != -1) { - int shift = DoShift(k); - if (shift != -1) { - if (uselo) { - SLWI(PutHWReg32(REG_LO), GetHWReg32(r), shift); - } - if (usehi) { - SRWI(PutHWReg32(REG_HI), GetHWReg32(r), 31-shift); - } - } else { - { - if (uselo) { - MULLW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - if (usehi) { - MULHWU(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - } - } else { - if (uselo) { - MULLW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - if (usehi) { - MULHWU(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } -} - -static void recDIV() { -// Lo/Hi = Rs / Rt (signed) - int usehi; - - if (IsConst(_Rs_) && iRegs[_Rs_].k == 0) { - MapConst(REG_LO, 0); - MapConst(REG_HI, 0); - return; - } - if (IsConst(_Rt_) && IsConst(_Rs_)) { - MapConst(REG_LO, (s32)iRegs[_Rs_].k / (s32)iRegs[_Rt_].k); - MapConst(REG_HI, (s32)iRegs[_Rs_].k % (s32)iRegs[_Rt_].k); - return; - } - - usehi = isPsxRegUsed(pc, REG_HI); - - if (IsConst(_Rt_)) { - int shift = DoShift(iRegs[_Rt_].k); - if (shift != -1) { - SRAWI(PutHWReg32(REG_LO), GetHWReg32(_Rs_), shift); - ADDZE(PutHWReg32(REG_LO), GetHWReg32(REG_LO)); - if (usehi) { - RLWINM(PutHWReg32(REG_HI), GetHWReg32(_Rs_), 0, 31-shift, 31); - } - } else if (iRegs[_Rt_].k == 3) { - // http://the.wall.riscom.net/books/proc/ppc/cwg/code2.html - LIS(PutHWReg32(REG_HI), 0x5555); - ADDI(PutHWReg32(REG_HI), GetHWReg32(REG_HI), 0x5556); - MULHW(PutHWReg32(REG_LO), GetHWReg32(REG_HI), GetHWReg32(_Rs_)); - SRWI(PutHWReg32(REG_HI), GetHWReg32(_Rs_), 31); - ADD(PutHWReg32(REG_LO), GetHWReg32(REG_LO), GetHWReg32(REG_HI)); - if (usehi) { - MULLI(PutHWReg32(REG_HI), GetHWReg32(REG_LO), 3); - SUB(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(REG_HI)); - } - } else { - DIVW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - if (usehi) { - if ((iRegs[_Rt_].k & 0x7fff) == iRegs[_Rt_].k) { - MULLI(PutHWReg32(REG_HI), GetHWReg32(REG_LO), iRegs[_Rt_].k); - } else { - MULLW(PutHWReg32(REG_HI), GetHWReg32(REG_LO), GetHWReg32(_Rt_)); - } - SUB(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(REG_HI)); - } - } - } else { - DIVW(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - if (usehi) { - MULLW(PutHWReg32(REG_HI), GetHWReg32(REG_LO), GetHWReg32(_Rt_)); - SUB(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(REG_HI)); - } - } -} - -static void recDIVU() { -// Lo/Hi = Rs / Rt (unsigned) - int usehi; - - if (IsConst(_Rs_) && iRegs[_Rs_].k == 0) { - MapConst(REG_LO, 0); - MapConst(REG_HI, 0); - return; - } - if (IsConst(_Rt_) && IsConst(_Rs_)) { - MapConst(REG_LO, (u32)iRegs[_Rs_].k / (u32)iRegs[_Rt_].k); - MapConst(REG_HI, (u32)iRegs[_Rs_].k % (u32)iRegs[_Rt_].k); - return; - } - - usehi = isPsxRegUsed(pc, REG_HI); - - if (IsConst(_Rt_)) { - int shift = DoShift(iRegs[_Rt_].k); - if (shift != -1) { - SRWI(PutHWReg32(REG_LO), GetHWReg32(_Rs_), shift); - if (usehi) { - RLWINM(PutHWReg32(REG_HI), GetHWReg32(_Rs_), 0, 31-shift, 31); - } - } else { - DIVWU(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - if (usehi) { - MULLW(PutHWReg32(REG_HI), GetHWReg32(_Rt_), GetHWReg32(REG_LO)); - SUB(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(REG_HI)); - } - } - } else { - DIVWU(PutHWReg32(REG_LO), GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - if (usehi) { - MULLW(PutHWReg32(REG_HI), GetHWReg32(_Rt_), GetHWReg32(REG_LO)); - SUB(PutHWReg32(REG_HI), GetHWReg32(_Rs_), GetHWReg32(REG_HI)); - } - } -} -#endif -//End of * Register mult/div & Register trap logic - -#pragma mark - memory access - - -#if 0 -REC_FUNC(LB); -REC_FUNC(LBU); -REC_FUNC(LH); -REC_FUNC(LHU); -REC_FUNC(LW); - -REC_FUNC(SB); -REC_FUNC(SH); -REC_FUNC(SW); - -REC_FUNC(LWL); -REC_FUNC(LWR); -REC_FUNC(SWL); -REC_FUNC(SWR); -#else -static void preMemRead() -{ - int rs; - - ReserveArgs(1); - if (_Rs_ != _Rt_) { - DisposeHWReg(iRegs[_Rt_].reg); - } - rs = GetHWReg32(_Rs_); - if (rs != 3 || _Imm_ != 0) { - ADDI(PutHWRegSpecial(ARG1), rs, _Imm_); - } - if (_Rs_ == _Rt_) { - DisposeHWReg(iRegs[_Rt_].reg); - } - InvalidateCPURegs(); - //FlushAllHWReg(); -} - -static void preMemWrite(int size) -{ - int rs; - - ReserveArgs(2); - rs = GetHWReg32(_Rs_); - if (rs != 3 || _Imm_ != 0) { - ADDI(PutHWRegSpecial(ARG1), rs, _Imm_); - } - if (size == 1) { - RLWINM(PutHWRegSpecial(ARG2), GetHWReg32(_Rt_), 0, 24, 31); - //ANDI_(PutHWRegSpecial(ARG2), GetHWReg32(_Rt_), 0xff); - } else if (size == 2) { - RLWINM(PutHWRegSpecial(ARG2), GetHWReg32(_Rt_), 0, 16, 31); - //ANDI_(PutHWRegSpecial(ARG2), GetHWReg32(_Rt_), 0xffff); - } else { - MR(PutHWRegSpecial(ARG2), GetHWReg32(_Rt_)); - } - - InvalidateCPURegs(); - //FlushAllHWReg(); -} - -static void recLB() { -// Rt = mem[Rs + Im] (signed) - - /*if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - if (!_Rt_) return; - // since bios is readonly it won't change - MapConst(_Rt_, psxRs8(addr)); - return; - } - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (!_Rt_) return; - - addr = (u32)&psxM[addr & 0x1fffff]; - LIW(PutHWReg32(_Rt_), ((addr>>16)<<16)+(addr&0x8000<<1)); // FIXME: is this correct? - LBZ(PutHWReg32(_Rt_), addr&0xffff, GetHWReg32(_Rt_)); - EXTSB(PutHWReg32(_Rt_), GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (!_Rt_) return; - - addr = (u32)&psxH[addr & 0xfff]; - LIW(PutHWReg32(_Rt_), ((addr>>16)<<16)+(addr&0x8000<<1)); // FIXME: is this correct? - LBZ(PutHWReg32(_Rt_), addr&0xffff, GetHWReg32(_Rt_)); - EXTSB(PutHWReg32(_Rt_), GetHWReg32(_Rt_)); - return; - } - // SysPrintf("unhandled r8 %x\n", addr); - }*/ - - preMemRead(); - CALLFunc((u32)psxMemRead8); - if (_Rt_) { - EXTSB(PutHWReg32(_Rt_), GetHWRegSpecial(RETVAL)); - DisposeHWReg(GetSpecialIndexFromHWRegs(RETVAL)); - } -} - -static void recLBU() { -// Rt = mem[Rs + Im] (unsigned) - - /*if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - if (!_Rt_) return; - // since bios is readonly it won't change - MapConst(_Rt_, psxRu8(addr)); - return; - } - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (!_Rt_) return; - - addr = (u32)&psxM[addr & 0x1fffff]; - LIW(PutHWReg32(_Rt_), ((addr>>16)<<16)+(addr&0x8000<<1)); // FIXME: is this correct? - LBZ(PutHWReg32(_Rt_), addr&0xffff, GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (!_Rt_) return; - - addr = (u32)&psxH[addr & 0xfff]; - LIW(PutHWReg32(_Rt_), ((addr>>16)<<16)+(addr&0x8000<<1)); // FIXME: is this correct? - LBZ(PutHWReg32(_Rt_), addr&0xffff, GetHWReg32(_Rt_)); - return; - } - // SysPrintf("unhandled r8 %x\n", addr); - }*/ - - preMemRead(); - CALLFunc((u32)psxMemRead8); - - if (_Rt_) { - SetDstCPUReg(3); - PutHWReg32(_Rt_); - } -} - -static void recLH() { -// Rt = mem[Rs + Im] (signed) - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - if (!_Rt_) return; - // since bios is readonly it won't change - MapConst(_Rt_, psxRs16(addr)); - return; - } - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxM[addr & 0x1fffff]); - LHBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - EXTSH(PutHWReg32(_Rt_), GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxH[addr & 0xfff]); - LHBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - EXTSH(PutHWReg32(_Rt_), GetHWReg32(_Rt_)); - return; - } - // SysPrintf("unhandled r16 %x\n", addr); - } - - preMemRead(); - CALLFunc((u32)psxMemRead16); - if (_Rt_) { - EXTSH(PutHWReg32(_Rt_), GetHWRegSpecial(RETVAL)); - DisposeHWReg(GetSpecialIndexFromHWRegs(RETVAL)); - } -} - -static void recLHU() { -// Rt = mem[Rs + Im] (unsigned) - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - if (!_Rt_) return; - // since bios is readonly it won't change - MapConst(_Rt_, psxRu16(addr)); - return; - } - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxM[addr & 0x1fffff]); - LHBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxH[addr & 0xfff]); - LHBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80) { - if (addr >= 0x1f801c00 && addr < 0x1f801e00) { - if (!_Rt_) return; - - ReserveArgs(1); - LIW(PutHWRegSpecial(ARG1), addr); - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)SPU_readRegister); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - } - switch (addr) { - case 0x1f801100: case 0x1f801110: case 0x1f801120: - if (!_Rt_) return; - - ReserveArgs(1); - LIW(PutHWRegSpecial(ARG1), (addr >> 4) & 0x3); - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)psxRcntRcount); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - - case 0x1f801104: case 0x1f801114: case 0x1f801124: - if (!_Rt_) return; - - ReserveArgs(1); - LIW(PutHWRegSpecial(ARG1), (addr >> 4) & 0x3); - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)psxRcntRmode); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - - case 0x1f801108: case 0x1f801118: case 0x1f801128: - if (!_Rt_) return; - - ReserveArgs(1); - LIW(PutHWRegSpecial(ARG1), (addr >> 4) & 0x3); - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)psxRcntRtarget); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - } - } - // SysPrintf("unhandled r16u %x\n", addr); - } - - preMemRead(); - CALLFunc((u32)psxMemRead16); - if (_Rt_) { - SetDstCPUReg(3); - PutHWReg32(_Rt_); - } -} - -static void recLW() { -// Rt = mem[Rs + Im] (unsigned) - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - if (!_Rt_) return; - // since bios is readonly it won't change - MapConst(_Rt_, psxRu32(addr)); - return; - } - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxM[addr & 0x1fffff]); - LWBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxH[addr & 0xfff]); - LWBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - return; - } - if (t == 0x1f80) { - switch (addr) { - case 0x1f801080: case 0x1f801084: case 0x1f801088: - case 0x1f801090: case 0x1f801094: case 0x1f801098: - case 0x1f8010a0: case 0x1f8010a4: case 0x1f8010a8: - case 0x1f8010b0: case 0x1f8010b4: case 0x1f8010b8: - case 0x1f8010c0: case 0x1f8010c4: case 0x1f8010c8: - case 0x1f8010d0: case 0x1f8010d4: case 0x1f8010d8: - case 0x1f8010e0: case 0x1f8010e4: case 0x1f8010e8: - case 0x1f801070: case 0x1f801074: - case 0x1f8010f0: case 0x1f8010f4: - if (!_Rt_) return; - - LIW(PutHWReg32(_Rt_), (u32)&psxH[addr & 0xffff]); - LWBRX(PutHWReg32(_Rt_), 0, GetHWReg32(_Rt_)); - return; - - case 0x1f801810: - if (!_Rt_) return; - - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)GPU_readData); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - - case 0x1f801814: - if (!_Rt_) return; - - DisposeHWReg(iRegs[_Rt_].reg); - InvalidateCPURegs(); - CALLFunc((u32)GPU_readStatus); - - SetDstCPUReg(3); - PutHWReg32(_Rt_); - return; - } - } -// SysPrintf("unhandled r32 %x\n", addr); - } - - preMemRead(); - CALLFunc((u32)psxMemRead32); - if (_Rt_) { - SetDstCPUReg(3); - PutHWReg32(_Rt_); - } -} - -REC_FUNC(LWL); -REC_FUNC(LWR); -REC_FUNC(SWL); -REC_FUNC(SWR); -/*extern u32 LWL_MASK[4]; -extern u32 LWL_SHIFT[4]; - -void iLWLk(u32 shift) { - if (IsConst(_Rt_)) { - MOV32ItoR(ECX, iRegs[_Rt_].k); - } else { - MOV32MtoR(ECX, (u32)&psxRegs.GPR.r[_Rt_]); - } - AND32ItoR(ECX, LWL_MASK[shift]); - SHL32ItoR(EAX, LWL_SHIFT[shift]); - OR32RtoR (EAX, ECX); -} - -void recLWL() { -// Rt = Rt Merge mem[Rs + Im] - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - MOV32MtoR(EAX, (u32)&psxM[addr & 0x1ffffc]); - iLWLk(addr & 3); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - MOV32MtoR(EAX, (u32)&psxH[addr & 0xffc]); - iLWLk(addr & 3); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - return; - } - } - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - PUSH32R (EAX); - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - CALLFunc((u32)psxMemRead32); - - if (_Rt_) { - ADD32ItoR(ESP, 4); - POP32R (EDX); - AND32ItoR(EDX, 0x3); // shift = addr & 3; - - MOV32ItoR(ECX, (u32)LWL_SHIFT); - MOV32RmStoR(ECX, ECX, EDX, 2); - SHL32CLtoR(EAX); // mem(EAX) << LWL_SHIFT[shift] - - MOV32ItoR(ECX, (u32)LWL_MASK); - MOV32RmStoR(ECX, ECX, EDX, 2); - if (IsConst(_Rt_)) { - MOV32ItoR(EDX, iRegs[_Rt_].k); - } else { - MOV32MtoR(EDX, (u32)&psxRegs.GPR.r[_Rt_]); - } - AND32RtoR(EDX, ECX); // _rRt_ & LWL_MASK[shift] - - OR32RtoR(EAX, EDX); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - } else { -// ADD32ItoR(ESP, 8); - resp+= 8; - } -} - -static void recLWBlock(int count) { - u32 *code = PSXM(pc); - int i, respsave; -// Rt = mem[Rs + Im] (unsigned) - -// iFlushRegs(0); - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0xfff0) == 0xbfc0) { - // since bios is readonly it won't change - for (i=0; i> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - MOV32MtoR(EAX, (u32)&psxM[addr & 0x1ffffc]); - iLWRk(addr & 3); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - MOV32MtoR(EAX, (u32)&psxH[addr & 0xffc]); - iLWRk(addr & 3); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - return; - } - } - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - PUSH32R (EAX); - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - CALLFunc((u32)psxMemRead32); - - if (_Rt_) { - ADD32ItoR(ESP, 4); - POP32R (EDX); - AND32ItoR(EDX, 0x3); // shift = addr & 3; - - MOV32ItoR(ECX, (u32)LWR_SHIFT); - MOV32RmStoR(ECX, ECX, EDX, 2); - SHR32CLtoR(EAX); // mem(EAX) >> LWR_SHIFT[shift] - - MOV32ItoR(ECX, (u32)LWR_MASK); - MOV32RmStoR(ECX, ECX, EDX, 2); - - if (IsConst(_Rt_)) { - MOV32ItoR(EDX, iRegs[_Rt_].k); - } else { - MOV32MtoR(EDX, (u32)&psxRegs.GPR.r[_Rt_]); - } - AND32RtoR(EDX, ECX); // _rRt_ & LWR_MASK[shift] - - OR32RtoR(EAX, EDX); - - iRegs[_Rt_].state = ST_UNK; - MOV32RtoM((u32)&psxRegs.GPR.r[_Rt_], EAX); - } else { -// ADD32ItoR(ESP, 8); - resp+= 8; - } -}*/ - -static void recSB() { -// mem[Rs + Im] = Rt - - /*if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (IsConst(_Rt_)) { - MOV8ItoM((u32)&psxM[addr & 0x1fffff], (u8)iRegs[_Rt_].k); - } else { - MOV8MtoR(EAX, (u32)&psxRegs.GPR.r[_Rt_]); - MOV8RtoM((u32)&psxM[addr & 0x1fffff], EAX); - } - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (IsConst(_Rt_)) { - MOV8ItoM((u32)&psxH[addr & 0xfff], (u8)iRegs[_Rt_].k); - } else { - MOV8MtoR(EAX, (u32)&psxRegs.GPR.r[_Rt_]); - MOV8RtoM((u32)&psxH[addr & 0xfff], EAX); - } - return; - } -// SysPrintf("unhandled w8 %x\n", addr); - }*/ - - preMemWrite(1); - CALLFunc((u32)psxMemWrite8); -} - -static void recSH() { -// mem[Rs + Im] = Rt - - /*if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - if (IsConst(_Rt_)) { - MOV16ItoM((u32)&psxM[addr & 0x1fffff], (u16)iRegs[_Rt_].k); - } else { - MOV16MtoR(EAX, (u32)&psxRegs.GPR.r[_Rt_]); - MOV16RtoM((u32)&psxM[addr & 0x1fffff], EAX); - } - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - if (IsConst(_Rt_)) { - MOV16ItoM((u32)&psxH[addr & 0xfff], (u16)iRegs[_Rt_].k); - } else { - MOV16MtoR(EAX, (u32)&psxRegs.GPR.r[_Rt_]); - MOV16RtoM((u32)&psxH[addr & 0xfff], EAX); - } - return; - } - if (t == 0x1f80) { - if (addr >= 0x1f801c00 && addr < 0x1f801e00) { - if (IsConst(_Rt_)) { - PUSH32I(iRegs[_Rt_].k); - } else { - PUSH32M((u32)&psxRegs.GPR.r[_Rt_]); - } - PUSH32I (addr); - CALL32M ((u32)&SPU_writeRegister); -#ifndef __WIN32__ - resp+= 8; -#endif - return; - } - } -// SysPrintf("unhandled w16 %x\n", addr); - }*/ - - preMemWrite(2); - CALLFunc((u32)psxMemWrite16); -} - -static void recSW() { -// mem[Rs + Im] = Rt - u32 *b1, *b2; -#if 0 - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - LIW(0, addr & 0x1fffff); - STWBRX(GetHWReg32(_Rt_), GetHWRegSpecial(PSXMEM), 0); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - LIW(0, (u32)&psxH[addr & 0xfff]); - STWBRX(GetHWReg32(_Rt_), 0, 0); - return; - } - if (t == 0x1f80) { - switch (addr) { - case 0x1f801080: case 0x1f801084: - case 0x1f801090: case 0x1f801094: - case 0x1f8010a0: case 0x1f8010a4: - case 0x1f8010b0: case 0x1f8010b4: - case 0x1f8010c0: case 0x1f8010c4: - case 0x1f8010d0: case 0x1f8010d4: - case 0x1f8010e0: case 0x1f8010e4: - case 0x1f801074: - case 0x1f8010f0: - LIW(0, (u32)&psxH[addr & 0xffff]); - STWBRX(GetHWReg32(_Rt_), 0, 0); - return; - -/* case 0x1f801810: - if (IsConst(_Rt_)) { - PUSH32I(iRegs[_Rt_].k); - } else { - PUSH32M((u32)&psxRegs.GPR.r[_Rt_]); - } - CALL32M((u32)&GPU_writeData); -#ifndef __WIN32__ - resp+= 4; -#endif - return; - - case 0x1f801814: - if (IsConst(_Rt_)) { - PUSH32I(iRegs[_Rt_].k); - } else { - PUSH32M((u32)&psxRegs.GPR.r[_Rt_]); - } - CALL32M((u32)&GPU_writeStatus); -#ifndef __WIN32__ - resp+= 4; -#endif*/ - } - } -// SysPrintf("unhandled w32 %x\n", addr); - } - -/* LIS(0, 0x0079 + ((_Imm_ <= 0) ? 1 : 0)); - CMPLW(GetHWReg32(_Rs_), 0); - BGE_L(b1); - - //SaveContext(); - ADDI(0, GetHWReg32(_Rs_), _Imm_); - RLWINM(0, GetHWReg32(_Rs_), 0, 11, 31); - STWBRX(GetHWReg32(_Rt_), GetHWRegSpecial(PSXMEM), 0); - B_L(b2); - - B_DST(b1);*/ -#endif - preMemWrite(4); - CALLFunc((u32)psxMemWrite32); - - //B_DST(b2); -} - -/* -static void recSWBlock(int count) { - u32 *code; - int i, respsave; -// mem[Rs + Im] = Rt - -// iFlushRegs(); - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - code = PSXM(pc); - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - for (i=0; i> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - MOV32MtoR(EAX, (u32)&psxM[addr & 0x1ffffc]); - iSWLk(addr & 3); - MOV32RtoM((u32)&psxM[addr & 0x1ffffc], EAX); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - MOV32MtoR(EAX, (u32)&psxH[addr & 0xffc]); - iSWLk(addr & 3); - MOV32RtoM((u32)&psxH[addr & 0xffc], EAX); - return; - } - } - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - PUSH32R (EAX); - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - - CALLFunc((u32)psxMemRead32); - - ADD32ItoR(ESP, 4); - POP32R (EDX); - AND32ItoR(EDX, 0x3); // shift = addr & 3; - - MOV32ItoR(ECX, (u32)SWL_MASK); - MOV32RmStoR(ECX, ECX, EDX, 2); - AND32RtoR(EAX, ECX); // mem & SWL_MASK[shift] - - MOV32ItoR(ECX, (u32)SWL_SHIFT); - MOV32RmStoR(ECX, ECX, EDX, 2); - if (IsConst(_Rt_)) { - MOV32ItoR(EDX, iRegs[_Rt_].k); - } else { - MOV32MtoR(EDX, (u32)&psxRegs.GPR.r[_Rt_]); - } - SHR32CLtoR(EDX); // _rRt_ >> SWL_SHIFT[shift] - - OR32RtoR (EAX, EDX); - PUSH32R (EAX); - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - - CALLFunc((u32)psxMemWrite32); -// ADD32ItoR(ESP, 8); - resp+= 8; -} - -extern u32 SWR_MASK[4]; -extern u32 SWR_SHIFT[4]; - -void iSWRk(u32 shift) { - if (IsConst(_Rt_)) { - MOV32ItoR(ECX, iRegs[_Rt_].k); - } else { - MOV32MtoR(ECX, (u32)&psxRegs.GPR.r[_Rt_]); - } - SHL32ItoR(ECX, SWR_SHIFT[shift]); - AND32ItoR(EAX, SWR_MASK[shift]); - OR32RtoR (EAX, ECX); -} - -void recSWR() { -// mem[Rs + Im] = Rt Merge mem[Rs + Im] - - if (IsConst(_Rs_)) { - u32 addr = iRegs[_Rs_].k + _Imm_; - int t = addr >> 16; - - if ((t & 0x1fe0) == 0 && (t & 0x1fff) != 0) { - MOV32MtoR(EAX, (u32)&psxM[addr & 0x1ffffc]); - iSWRk(addr & 3); - MOV32RtoM((u32)&psxM[addr & 0x1ffffc], EAX); - return; - } - if (t == 0x1f80 && addr < 0x1f801000) { - MOV32MtoR(EAX, (u32)&psxH[addr & 0xffc]); - iSWRk(addr & 3); - MOV32RtoM((u32)&psxH[addr & 0xffc], EAX); - return; - } - } - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - PUSH32R (EAX); - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - - CALLFunc((u32)psxMemRead32); - - ADD32ItoR(ESP, 4); - POP32R (EDX); - AND32ItoR(EDX, 0x3); // shift = addr & 3; - - MOV32ItoR(ECX, (u32)SWR_MASK); - MOV32RmStoR(ECX, ECX, EDX, 2); - AND32RtoR(EAX, ECX); // mem & SWR_MASK[shift] - - MOV32ItoR(ECX, (u32)SWR_SHIFT); - MOV32RmStoR(ECX, ECX, EDX, 2); - if (IsConst(_Rt_)) { - MOV32ItoR(EDX, iRegs[_Rt_].k); - } else { - MOV32MtoR(EDX, (u32)&psxRegs.GPR.r[_Rt_]); - } - SHL32CLtoR(EDX); // _rRt_ << SWR_SHIFT[shift] - - OR32RtoR (EAX, EDX); - PUSH32R (EAX); - - if (IsConst(_Rs_)) MOV32ItoR(EAX, iRegs[_Rs_].k + _Imm_); - else { - MOV32MtoR(EAX, (u32)&psxRegs.GPR.r[_Rs_]); - if (_Imm_) ADD32ItoR(EAX, _Imm_); - } - AND32ItoR(EAX, ~3); - PUSH32R (EAX); - - CALLFunc((u32)psxMemWrite32); -// ADD32ItoR(ESP, 8); - resp+= 8; -}*/ -#endif - -#if 0 -/*REC_FUNC(SLL); -REC_FUNC(SRL); -REC_FUNC(SRA);*/ -#else -static void recSLL() { -// Rd = Rt << Sa - if (!_Rd_) return; - - if (IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rt_].k << _Sa_); - } else { - SLWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), _Sa_); - } -} - -static void recSRL() { -// Rd = Rt >> Sa - if (!_Rd_) return; - - if (IsConst(_Rt_)) { - MapConst(_Rd_, iRegs[_Rt_].k >> _Sa_); - } else { - SRWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), _Sa_); - } -} - -static void recSRA() { -// Rd = Rt >> Sa - if (!_Rd_) return; - - if (IsConst(_Rt_)) { - MapConst(_Rd_, (s32)iRegs[_Rt_].k >> _Sa_); - } else { - SRAWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), _Sa_); - } -} -#endif - -#pragma mark - shift ops - -#if 0 -/*REC_FUNC(SLLV); -REC_FUNC(SRLV); -REC_FUNC(SRAV);*/ -#else -static void recSLLV() { -// Rd = Rt << Rs - if (!_Rd_) return; - - if (IsConst(_Rt_) && IsConst(_Rs_)) { - MapConst(_Rd_, iRegs[_Rt_].k << iRegs[_Rs_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - SLWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - SLW(PutHWReg32(_Rd_), GetHWReg32(_Rt_), GetHWReg32(_Rs_)); - } -} - -static void recSRLV() { -// Rd = Rt >> Rs - if (!_Rd_) return; - - if (IsConst(_Rt_) && IsConst(_Rs_)) { - MapConst(_Rd_, iRegs[_Rt_].k >> iRegs[_Rs_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - SRWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - SRW(PutHWReg32(_Rd_), GetHWReg32(_Rt_), GetHWReg32(_Rs_)); - } -} - -static void recSRAV() { -// Rd = Rt >> Rs - if (!_Rd_) return; - - if (IsConst(_Rt_) && IsConst(_Rs_)) { - MapConst(_Rd_, (s32)iRegs[_Rt_].k >> iRegs[_Rs_].k); - } else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - SRAWI(PutHWReg32(_Rd_), GetHWReg32(_Rt_), iRegs[_Rs_].k); - } else { - SRAW(PutHWReg32(_Rd_), GetHWReg32(_Rt_), GetHWReg32(_Rs_)); - } -} -#endif - -//REC_SYS(SYSCALL); -//REC_SYS(BREAK); - -//#if 0*/ -/*int dump;*/ -static void recSYSCALL() { -// dump=1; - iFlushRegs(0); - - ReserveArgs(2); - LIW(PutHWRegSpecial(PSXPC), pc - 4); - LIW(PutHWRegSpecial(ARG1), 0x20); - LIW(PutHWRegSpecial(ARG2), (branch == 1 ? 1 : 0)); - FlushAllHWReg(); - CALLFunc ((u32)psxException); - - branch = 2; - iRet(); -} - -static void recBREAK() { -} -//#endif - -#if 0 -/*REC_FUNC(MFHI); -REC_FUNC(MTHI); -REC_FUNC(MFLO); -REC_FUNC(MTLO);*/ -#else -static void recMFHI() { -// Rd = Hi - if (!_Rd_) return; - - if (IsConst(REG_HI)) { - MapConst(_Rd_, iRegs[REG_HI].k); - } else { - MapCopy(_Rd_, REG_HI); - } -} - -static void recMTHI() { -// Hi = Rs - - if (IsConst(_Rs_)) { - MapConst(REG_HI, iRegs[_Rs_].k); - } else { - MapCopy(REG_HI, _Rs_); - } -} - -static void recMFLO() { -// Rd = Lo - if (!_Rd_) return; - - if (IsConst(REG_LO)) { - MapConst(_Rd_, iRegs[REG_LO].k); - } else { - MapCopy(_Rd_, REG_LO); - } -} - -static void recMTLO() { -// Lo = Rs - - if (IsConst(_Rs_)) { - MapConst(REG_LO, iRegs[_Rs_].k); - } else { - MapCopy(REG_LO, _Rs_); - } -} -#endif - -#pragma mark - branch ops - -#if 0 -/*REC_BRANCH(J); -REC_BRANCH(JR); -REC_BRANCH(JAL); -REC_BRANCH(JALR); -REC_BRANCH(BLTZ); -REC_BRANCH(BGTZ); -REC_BRANCH(BLTZAL); -REC_BRANCH(BGEZAL); -REC_BRANCH(BNE); -REC_BRANCH(BEQ); -REC_BRANCH(BLEZ); -REC_BRANCH(BGEZ);*/ -#else -static void recBLTZ() { -// Branch if Rs < 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k < 0) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BLT_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; -} - -static void recBGTZ() { -// Branch if Rs > 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k > 0) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BGT_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; -} - -static void recBLTZAL() { -// Branch if Rs < 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k < 0) { - MapConst(31, pc + 4); - - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BLT_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - MapConst(31, pc + 4); - - iBranch(bpc, 0); - pc+=4; -} - -static void recBGEZAL() { -// Branch if Rs >= 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k >= 0) { - MapConst(31, pc + 4); - - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BGE_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - MapConst(31, pc + 4); - - iBranch(bpc, 0); - pc+=4; -} - -static void recJ() { -// j target - - iJump(_Target_ * 4 + (pc & 0xf0000000)); -} - -static void recJAL() { -// jal target - MapConst(31, pc + 4); - - iJump(_Target_ * 4 + (pc & 0xf0000000)); -} - -static void recJR() { -// jr Rs - - if (IsConst(_Rs_)) { - iJump(iRegs[_Rs_].k); - //LIW(PutHWRegSpecial(TARGET), iRegs[_Rs_].k); - } else { - MR(PutHWRegSpecial(TARGET), GetHWReg32(_Rs_)); - SetBranch(); - } -} - -static void recJALR() { -// jalr Rs - - if (_Rd_) { - MapConst(_Rd_, pc + 4); - } - - if (IsConst(_Rs_)) { - iJump(iRegs[_Rs_].k); - //LIW(PutHWRegSpecial(TARGET), iRegs[_Rs_].k); - } else { - MR(PutHWRegSpecial(TARGET), GetHWReg32(_Rs_)); - SetBranch(); - } -} - -static void recBEQ() { -// Branch if Rs == Rt - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (_Rs_ == _Rt_) { - iJump(bpc); - } - else { - if (IsConst(_Rs_) && IsConst(_Rt_)) { - if (iRegs[_Rs_].k == iRegs[_Rt_].k) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - CMPLWI(GetHWReg32(_Rt_), iRegs[_Rs_].k); - } - else if ((s32)(s16)iRegs[_Rs_].k == (s32)iRegs[_Rs_].k) { - CMPWI(GetHWReg32(_Rt_), iRegs[_Rs_].k); - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - CMPLWI(GetHWReg32(_Rs_), iRegs[_Rt_].k); - } - else if ((s32)(s16)iRegs[_Rt_].k == (s32)iRegs[_Rt_].k) { - CMPWI(GetHWReg32(_Rs_), iRegs[_Rt_].k); - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - - BEQ_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; - } -} - -static void recBNE() { -// Branch if Rs != Rt - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (_Rs_ == _Rt_) { - iJump(pc+4); - } - else { - if (IsConst(_Rs_) && IsConst(_Rt_)) { - if (iRegs[_Rs_].k != iRegs[_Rt_].k) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - else if (IsConst(_Rs_) && !IsMapped(_Rs_)) { - if ((iRegs[_Rs_].k & 0xffff) == iRegs[_Rs_].k) { - CMPLWI(GetHWReg32(_Rt_), iRegs[_Rs_].k); - } - else if ((s32)(s16)iRegs[_Rs_].k == (s32)iRegs[_Rs_].k) { - CMPWI(GetHWReg32(_Rt_), iRegs[_Rs_].k); - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - else if (IsConst(_Rt_) && !IsMapped(_Rt_)) { - if ((iRegs[_Rt_].k & 0xffff) == iRegs[_Rt_].k) { - CMPLWI(GetHWReg32(_Rs_), iRegs[_Rt_].k); - } - else if ((s32)(s16)iRegs[_Rt_].k == (s32)iRegs[_Rt_].k) { - CMPWI(GetHWReg32(_Rs_), iRegs[_Rt_].k); - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - } - else { - CMPLW(GetHWReg32(_Rs_), GetHWReg32(_Rt_)); - } - - BNE_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; - } -} - -static void recBLEZ() { -// Branch if Rs <= 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k <= 0) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BLE_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; -} - -static void recBGEZ() { -// Branch if Rs >= 0 - u32 bpc = _Imm_ * 4 + pc; - u32 *b; - - if (IsConst(_Rs_)) { - if ((s32)iRegs[_Rs_].k >= 0) { - iJump(bpc); return; - } else { - iJump(pc+4); return; - } - } - - CMPWI(GetHWReg32(_Rs_), 0); - BGE_L(b); - - iBranch(pc+4, 1); - - B_DST(b); - - iBranch(bpc, 0); - pc+=4; -} -#endif - -#if 1 -//REC_FUNC(MFC0); -//REC_SYS(MTC0); -//REC_FUNC(CFC0); -//REC_SYS(CTC0); -REC_FUNC(RFE); -//#else -static void recMFC0() { -// Rt = Cop0->Rd - if (!_Rt_) return; - - LWZ(PutHWReg32(_Rt_), OFFSET(&psxRegs, &psxRegs.CP0.r[_Rd_]), GetHWRegSpecial(PSXREGS)); -} - -static void recCFC0() { -// Rt = Cop0->Rd - - recMFC0(); -} - -static void recMTC0() { -// Cop0->Rd = Rt - - /*if (IsConst(_Rt_)) { - switch (_Rd_) { - case 12: - MOV32ItoM((u32)&psxRegs.CP0.r[_Rd_], iRegs[_Rt_].k); - break; - case 13: - MOV32ItoM((u32)&psxRegs.CP0.r[_Rd_], iRegs[_Rt_].k & ~(0xfc00)); - break; - default: - MOV32ItoM((u32)&psxRegs.CP0.r[_Rd_], iRegs[_Rt_].k); - break; - } - } else*/ { - switch (_Rd_) { - case 13: - RLWINM(0,GetHWReg32(_Rt_),0,22,15); // & ~(0xfc00) - STW(0, OFFSET(&psxRegs, &psxRegs.CP0.r[_Rd_]), GetHWRegSpecial(PSXREGS)); - break; - default: - STW(GetHWReg32(_Rt_), OFFSET(&psxRegs, &psxRegs.CP0.r[_Rd_]), GetHWRegSpecial(PSXREGS)); - break; - } - } - - if (_Rd_ == 12 || _Rd_ == 13) { - iFlushRegs(0); - LIW(PutHWRegSpecial(PSXPC), (u32)pc); - FlushAllHWReg(); - CALLFunc((u32)psxTestSWInts); - if(_Rd_ == 12) { - LWZ(0, OFFSET(&psxRegs, &psxRegs.interrupt), GetHWRegSpecial(PSXREGS)); - ORIS(0, 0, 0x8000); - STW(0, OFFSET(&psxRegs, &psxRegs.interrupt), GetHWRegSpecial(PSXREGS)); - } - branch = 2; - iRet(); - } -} - -static void recCTC0() { -// Cop0->Rd = Rt - - recMTC0(); -} -#else -static void recRFE() { - // TODO: implement multiple temp registers or cop0 registers - RLWINM(t1,Status,0,0,27); - RLWINM(Status,Status,30,28,31); - OR(Status,t1,Status); - - MOV32MtoR(EAX, (u32)&psxRegs.CP0.n.Status); - MOV32RtoR(ECX, EAX); - AND32ItoR(EAX, 0xfffffff0); - AND32ItoR(ECX, 0x3c); - SHR32ItoR(ECX, 2); - OR32RtoR (EAX, ECX); - MOV32RtoM((u32)&psxRegs.CP0.n.Status, EAX); - CALLFunc((u32)psxExceptionTest); -} -#endif - -#if 0 -#define CP2_FUNC(f) \ -void gte##f(); \ -static void rec##f() { \ - iFlushRegs(0); \ - LIW(0, (u32)psxRegs.code); \ - STW(0, OFFSET(&psxRegs, &psxRegs.code), GetHWRegSpecial(PSXREGS)); \ - FlushAllHWReg(); \ - CALLFunc ((u32)gte##f); \ -} -CP2_FUNC(LWC2); -CP2_FUNC(SWC2); - -#else -#include "pGte.h" -#endif -// - -static void recHLE() { - iFlushRegs(0); - FlushAllHWReg(); - - if ((psxRegs.code & 0x3ffffff) == (psxRegs.code & 0x7)) { - CALLFunc((u32)psxHLEt[psxRegs.code & 0x7]); - } else { - // somebody else must have written to current opcode for this to happen!!!! - CALLFunc((u32)psxHLEt[0]); // call dummy function - } - - count = (idlecyclecount + (pc - pcold) / 4 + 20) * BIAS; - ADDI(PutHWRegSpecial(CYCLECOUNT), GetHWRegSpecial(CYCLECOUNT), count); - FlushAllHWReg(); - CALLFunc((u32)psxBranchTest); - Return(); - - branch = 2; -} - -// - -static void (*recBSC[64])() = { - recSPECIAL, recREGIMM, recJ , recJAL , recBEQ , recBNE , recBLEZ, recBGTZ, - recADDI , recADDIU , recSLTI, recSLTIU, recANDI, recORI , recXORI, recLUI , - recCOP0 , recNULL , recCOP2, recNULL , recNULL, recNULL, recNULL, recNULL, - recNULL , recNULL , recNULL, recNULL , recNULL, recNULL, recNULL, recNULL, - recLB , recLH , recLWL , recLW , recLBU , recLHU , recLWR , recNULL, - recSB , recSH , recSWL , recSW , recNULL, recNULL, recSWR , recNULL, - recNULL , recNULL , recLWC2, recNULL , recNULL, recNULL, recNULL, recNULL, - recNULL , recNULL , recSWC2, recHLE , recNULL, recNULL, recNULL, recNULL -}; - -static void (*recSPC[64])() = { - recSLL , recNULL, recSRL , recSRA , recSLLV , recNULL , recSRLV, recSRAV, - recJR , recJALR, recNULL, recNULL, recSYSCALL, recBREAK, recNULL, recNULL, - recMFHI, recMTHI, recMFLO, recMTLO, recNULL , recNULL , recNULL, recNULL, - recMULT, recMULTU, recDIV, recDIVU, recNULL , recNULL , recNULL, recNULL, - recADD , recADDU, recSUB , recSUBU, recAND , recOR , recXOR , recNOR , - recNULL, recNULL, recSLT , recSLTU, recNULL , recNULL , recNULL, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL , recNULL , recNULL, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL , recNULL , recNULL, recNULL -}; - -static void (*recREG[32])() = { - recBLTZ , recBGEZ , recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recNULL , recNULL , recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recBLTZAL, recBGEZAL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recNULL , recNULL , recNULL, recNULL, recNULL, recNULL, recNULL, recNULL -}; - -static void (*recCP0[32])() = { - recMFC0, recNULL, recCFC0, recNULL, recMTC0, recNULL, recCTC0, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recRFE , recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL -}; - -static void (*recCP2[64])() = { - recBASIC, recRTPS , recNULL , recNULL, recNULL, recNULL , recNCLIP, recNULL, // 00 - recNULL , recNULL , recNULL , recNULL, recOP , recNULL , recNULL , recNULL, // 08 - recDPCS , recINTPL, recMVMVA, recNCDS, recCDP , recNULL , recNCDT , recNULL, // 10 - recNULL , recNULL , recNULL , recNCCS, recCC , recNULL , recNCS , recNULL, // 18 - recNCT , recNULL , recNULL , recNULL, recNULL, recNULL , recNULL , recNULL, // 20 - recSQR , recDCPL , recDPCT , recNULL, recNULL, recAVSZ3, recAVSZ4, recNULL, // 28 - recRTPT , recNULL , recNULL , recNULL, recNULL, recNULL , recNULL , recNULL, // 30 - recNULL , recNULL , recNULL , recNULL, recNULL, recGPF , recGPL , recNCCT // 38 -}; - -static void (*recCP2BSC[32])() = { - recMFC2, recNULL, recCFC2, recNULL, recMTC2, recNULL, recCTC2, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, - recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL, recNULL -}; - -static void recRecompile() { - //static int recCount = 0; - char *p; - u32 *ptr; - int i; - - cop2readypc = 0; - idlecyclecount = 0; - - // initialize state variables - UniqueRegAlloc = 1; - HWRegUseCount = 0; - DstCPUReg = -1; - memset(HWRegisters, 0, sizeof(HWRegisters)); - for (i=0; i= (RECMEM_SIZE - 0x10000)) - recReset(); - - ppcAlign(/*32*/4); - ptr = ppcPtr; - - // give us write access - //mprotect(recMem, RECMEM_SIZE, PROT_EXEC|PROT_READ|PROT_WRITE); - - // tell the LUT where to find us - PC_REC32(psxRegs.pc) = (u32)ppcPtr; - - pcold = pc = psxRegs.pc; - - //SysPrintf("RecCount: %i\n", recCount++); - - for (count=0; count<500;) { - p = (char *)PSXM(pc); - if (p == NULL) recError(); - psxRegs.code = SWAP32(*(u32 *)p); -/* - if ((psxRegs.code >> 26) == 0x23) { // LW - int i; - u32 code; - - for (i=1;; i++) { - p = (char *)PSXM(pc+i*4); - if (p == NULL) recError(); - code = *(u32 *)p; - - if ((code >> 26) != 0x23 || - _fRs_(code) != _Rs_ || - _fImm_(code) != (_Imm_+i*4)) - break; - } - if (i > 1) { - recLWBlock(i); - pc = pc + i*4; continue; - } - } - - if ((psxRegs.code >> 26) == 0x2b) { // SW - int i; - u32 code; - - for (i=1;; i++) { - p = (char *)PSXM(pc+i*4); - if (p == NULL) recError(); - code = *(u32 *)p; - - if ((code >> 26) != 0x2b || - _fRs_(code) != _Rs_ || - _fImm_(code) != (_Imm_+i*4)) - break; - } - if (i > 1) { - recSWBlock(i); - pc = pc + i*4; continue; - } - }*/ - - pc+=4; count++; -// iFlushRegs(0); // test - recBSC[psxRegs.code>>26](); - - if (branch) { - branch = 0; - //if (dump) iDumpBlock(ptr); - goto done; - } - } - - iFlushRegs(pc); - - LIW(PutHWRegSpecial(PSXPC), pc); - - iRet(); - -done:; -#if 0 - MakeDataExecutable(ptr, ((u8*)ppcPtr)-((u8*)ptr)); -#else - u32 a = (u32)(u8*)ptr; - while(a < (u32)(u8*)ppcPtr) { - __asm__ __volatile__("icbi 0,%0" : : "r" (a)); - __asm__ __volatile__("dcbst 0,%0" : : "r" (a)); - a += 4; - } - __asm__ __volatile__("sync"); - __asm__ __volatile__("isync"); -#endif - -#if 1 - sprintf((char *)ppcPtr, "PC=%08x", pcold); - ppcPtr += strlen((char *)ppcPtr); -#endif - - //mprotect(recMem, RECMEM_SIZE, PROT_EXEC|PROT_READ/*|PROT_WRITE*/); -} - - -R3000Acpu psxRec = { - recInit, - recReset, - recExecute, - recExecuteBlock, - recClear, - recShutdown -}; -