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-rw-r--r--PcsxSrc/PsxInterpreter.c471
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diff --git a/PcsxSrc/PsxInterpreter.c b/PcsxSrc/PsxInterpreter.c
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+++ b/PcsxSrc/PsxInterpreter.c
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+/* Pcsx - Pc Psx Emulator
+ * Copyright (C) 1999-2002 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
+ */
+
+#include <stdlib.h>
+
+#include "PsxCommon.h"
+
+static int branch = 0;
+static int branch2 = 0;
+static u32 branchPC;
+
+// These macros are used to assemble the repassembler functions
+
+#ifdef PSXCPU_LOG
+#define debugI() \
+ if (Log) { \
+ PSXCPU_LOG("%s\n", disR3000AF(psxRegs.code, psxRegs.pc)); \
+ }
+#else
+#define debugI()
+#endif
+
+#define execI() { \
+ psxRegs.code = PSXMu32(psxRegs.pc); \
+ \
+ debugI(); \
+ \
+ psxRegs.pc+= 4; \
+ psxRegs.cycle++; \
+ \
+ psxBSC[psxRegs.code >> 26](); \
+}
+
+#define doBranch(tar) { \
+ branch2 = branch = 1; \
+ branchPC = tar; \
+ execI(); \
+ branch = 0; \
+ psxRegs.pc = branchPC; \
+ \
+ psxBranchTest(); \
+}
+
+// Subsets
+void (*psxBSC[64])();
+void (*psxSPC[64])();
+void (*psxREG[32])();
+void (*psxCP0[32])();
+void (*psxCP2[64])();
+void (*psxCP2BSC[32])();
+
+/*********************************************************
+* Arithmetic with immediate operand *
+* Format: OP rt, rs, immediate *
+*********************************************************/
+void psxADDI() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) + _Imm_ ; } // Rt = Rs + Im (Exception on Integer Overflow)
+void psxADDIU() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) + _Imm_ ; } // Rt = Rs + Im
+void psxANDI() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) & _ImmU_; } // Rt = Rs And Im
+void psxORI() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) | _ImmU_; } // Rt = Rs Or Im
+void psxXORI() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) ^ _ImmU_; } // Rt = Rs Xor Im
+void psxSLTI() { if (!_Rt_) return; _rRt_ = _i32(_rRs_) < _Imm_ ; } // Rt = Rs < Im (Signed)
+void psxSLTIU() { if (!_Rt_) return; _rRt_ = _u32(_rRs_) < _ImmU_; } // Rt = Rs < Im (Unsigned)
+
+/*********************************************************
+* Register arithmetic *
+* Format: OP rd, rs, rt *
+*********************************************************/
+void psxADD() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) + _u32(_rRt_); } // Rd = Rs + Rt (Exception on Integer Overflow)
+void psxADDU() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) + _u32(_rRt_); } // Rd = Rs + Rt
+void psxSUB() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) - _u32(_rRt_); } // Rd = Rs - Rt (Exception on Integer Overflow)
+void psxSUBU() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) - _u32(_rRt_); } // Rd = Rs - Rt
+void psxAND() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) & _u32(_rRt_); } // Rd = Rs And Rt
+void psxOR() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) | _u32(_rRt_); } // Rd = Rs Or Rt
+void psxXOR() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) ^ _u32(_rRt_); } // Rd = Rs Xor Rt
+void psxNOR() { if (!_Rd_) return; _rRd_ =~(_u32(_rRs_) | _u32(_rRt_)); }// Rd = Rs Nor Rt
+void psxSLT() { if (!_Rd_) return; _rRd_ = _i32(_rRs_) < _i32(_rRt_); } // Rd = Rs < Rt (Signed)
+void psxSLTU() { if (!_Rd_) return; _rRd_ = _u32(_rRs_) < _u32(_rRt_); } // Rd = Rs < Rt (Unsigned)
+
+/*********************************************************
+* Register mult/div & Register trap logic *
+* Format: OP rs, rt *
+*********************************************************/
+void psxDIV() {
+ if (_i32(_rRt_) != 0) {
+ _i32(_rLo_) = _i32(_rRs_) / _i32(_rRt_);
+ _i32(_rHi_) = _i32(_rRs_) % _i32(_rRt_);
+ }
+}
+
+void psxDIVU() {
+ if (_rRt_ != 0) {
+ _rLo_ = _rRs_ / _rRt_;
+ _rHi_ = _rRs_ % _rRt_;
+ }
+}
+
+void psxMULT() {
+ u64 res = (s64)((s64)_i32(_rRs_) * (s64)_i32(_rRt_));
+
+ psxRegs.GPR.n.lo = (unsigned long)(res & 0xffffffff);
+ psxRegs.GPR.n.hi = (unsigned long)((res >> 32) & 0xffffffff);
+}
+
+void psxMULTU() {
+ u64 res = (u64)((u64)_u32(_rRs_) * (u64)_u32(_rRt_));
+
+ psxRegs.GPR.n.lo = (unsigned long)(res & 0xffffffff);
+ psxRegs.GPR.n.hi = (unsigned long)((res >> 32) & 0xffffffff);
+}
+
+/*********************************************************
+* Register branch logic *
+* Format: OP rs, offset *
+*********************************************************/
+#define RepZBranchi32(op) if(_i32(_rRs_) op 0) doBranch(_BranchTarget_);
+#define RepZBranchLinki32(op) if(_i32(_rRs_) op 0) { _SetLink(31); doBranch(_BranchTarget_); }
+
+void psxBGEZ() { RepZBranchi32(>=) } // Branch if Rs >= 0
+void psxBGEZAL() { RepZBranchLinki32(>=) } // Branch if Rs >= 0 and link
+void psxBGTZ() { RepZBranchi32(>) } // Branch if Rs > 0
+void psxBLEZ() { RepZBranchi32(<=) } // Branch if Rs <= 0
+void psxBLTZ() { RepZBranchi32(<) } // Branch if Rs < 0
+void psxBLTZAL() { RepZBranchLinki32(<) } // Branch if Rs < 0 and link
+
+/*********************************************************
+* Shift arithmetic with constant shift *
+* Format: OP rd, rt, sa *
+*********************************************************/
+void psxSLL() { if (!_Rd_) return; _u32(_rRd_) = _u32(_rRt_) << _Sa_; } // Rd = Rt << sa
+void psxSRA() { if (!_Rd_) return; _i32(_rRd_) = _i32(_rRt_) >> _Sa_; } // Rd = Rt >> sa (arithmetic)
+void psxSRL() { if (!_Rd_) return; _u32(_rRd_) = _u32(_rRt_) >> _Sa_; } // Rd = Rt >> sa (logical)
+
+/*********************************************************
+* Shift arithmetic with variant register shift *
+* Format: OP rd, rt, rs *
+*********************************************************/
+void psxSLLV() { if (!_Rd_) return; _u32(_rRd_) = _u32(_rRt_) << _u32(_rRs_); } // Rd = Rt << rs
+void psxSRAV() { if (!_Rd_) return; _i32(_rRd_) = _i32(_rRt_) >> _u32(_rRs_); } // Rd = Rt >> rs (arithmetic)
+void psxSRLV() { if (!_Rd_) return; _u32(_rRd_) = _u32(_rRt_) >> _u32(_rRs_); } // Rd = Rt >> rs (logical)
+
+/*********************************************************
+* Load higher 16 bits of the first word in GPR with imm *
+* Format: OP rt, immediate *
+*********************************************************/
+void psxLUI() { if (!_Rt_) return; _u32(_rRt_) = psxRegs.code << 16; } // Upper halfword of Rt = Im
+
+/*********************************************************
+* Move from HI/LO to GPR *
+* Format: OP rd *
+*********************************************************/
+void psxMFHI() { if (!_Rd_) return; _rRd_ = _rHi_; } // Rd = Hi
+void psxMFLO() { if (!_Rd_) return; _rRd_ = _rLo_; } // Rd = Lo
+
+/*********************************************************
+* Move to GPR to HI/LO & Register jump *
+* Format: OP rs *
+*********************************************************/
+void psxMTHI() { _rHi_ = _rRs_; } // Hi = Rs
+void psxMTLO() { _rLo_ = _rRs_; } // Lo = Rs
+
+/*********************************************************
+* Special purpose instructions *
+* Format: OP *
+*********************************************************/
+void psxBREAK() {
+ // Break exception - psx rom doens't handles this
+}
+
+void psxSYSCALL() {
+ psxRegs.pc -= 4;
+ psxException(0x20, branch);
+}
+
+void psxRFE() {
+ psxRegs.CP0.n.Status = (psxRegs.CP0.n.Status & 0xfffffff0) |
+ ((psxRegs.CP0.n.Status & 0x3c) >> 2);
+}
+
+/*********************************************************
+* Register branch logic *
+* Format: OP rs, rt, offset *
+*********************************************************/
+#define RepBranchi32(op) if(_i32(_rRs_) op _i32(_rRt_)) doBranch(_BranchTarget_);
+
+void psxBEQ() { RepBranchi32(==) } // Branch if Rs == Rt
+void psxBNE() { RepBranchi32(!=) } // Branch if Rs != Rt
+
+/*********************************************************
+* Jump to target *
+* Format: OP target *
+*********************************************************/
+void psxJ() { doBranch(_JumpTarget_); }
+void psxJAL() { _SetLink(31); doBranch(_JumpTarget_); }
+
+/*********************************************************
+* Register jump *
+* Format: OP rs, rd *
+*********************************************************/
+void psxJR() { doBranch(_u32(_rRs_)); }
+void psxJALR() { if (_Rd_) { _SetLink(_Rd_); } doBranch(_u32(_rRs_)); }
+
+/*********************************************************
+* Load and store for GPR *
+* Format: OP rt, offset(base) *
+*********************************************************/
+
+#define _oB_ (_u32(_rRs_) + _Imm_)
+
+void psxLB() {
+ if (_Rt_) {
+ _i32(_rRt_) = (char)psxMemRead8(_oB_);
+ } else {
+ psxMemRead8(_oB_);
+ }
+}
+
+void psxLBU() {
+ if (_Rt_) {
+ _u32(_rRt_) = psxMemRead8(_oB_);
+ } else {
+ psxMemRead8(_oB_);
+ }
+}
+
+void psxLH() {
+ if (_Rt_) {
+ _i32(_rRt_) = (short)psxMemRead16(_oB_);
+ } else {
+ psxMemRead16(_oB_);
+ }
+}
+
+void psxLHU() {
+ if (_Rt_) {
+ _u32(_rRt_) = psxMemRead16(_oB_);
+ } else {
+ psxMemRead16(_oB_);
+ }
+}
+
+void psxLW() {
+ if (_Rt_) {
+ _u32(_rRt_) = psxMemRead32(_oB_);
+ } else {
+ psxMemRead32(_oB_);
+ }
+}
+
+void psxLWL() {
+ u32 shift = (_oB_ & 3) << 3;
+ u32 mem = psxMemRead32(_oB_ & 0xfffffffc);
+
+ if (!_Rt_) return;
+ _u32(_rRt_) = ( _u32(_rRt_) & (0x00ffffff >> shift) ) |
+ ( mem << (24 - shift) );
+
+ /*
+ Mem = 1234. Reg = abcd
+
+ 0 4bcd (mem << 24) | (reg & 0x00ffffff)
+ 1 34cd (mem << 16) | (reg & 0x0000ffff)
+ 2 234d (mem << 8) | (reg & 0x000000ff)
+ 3 1234 (mem ) | (reg & 0x00000000)
+
+ */
+}
+
+void psxLWR() {
+ u32 shift = (_oB_ & 3) << 3;
+ u32 mem = psxMemRead32(_oB_ & 0xfffffffc);
+
+ if (!_Rt_) return;
+ _u32(_rRt_) = ( _u32(_rRt_) & (0xffffff00 << (24 - shift)) ) |
+ ( mem >> shift );
+
+ /*
+ Mem = 1234. Reg = abcd
+
+ 0 1234 (mem ) | (reg & 0x00000000)
+ 1 a123 (mem >> 8) | (reg & 0xff000000)
+ 2 ab12 (mem >> 16) | (reg & 0xffff0000)
+ 3 abc1 (mem >> 24) | (reg & 0xffffff00)
+
+ */
+}
+
+void psxSB() { psxMemWrite8 (_oB_, _u8 (_rRt_)); }
+void psxSH() { psxMemWrite16(_oB_, _u16(_rRt_)); }
+void psxSW() { psxMemWrite32(_oB_, _u32(_rRt_)); }
+
+void psxSWL() {
+ u32 shift = (_oB_ & 3) << 3;
+ u32 mem = psxMemRead32(_oB_ & 0xfffffffc);
+
+ psxMemWrite32((_oB_ & 0xfffffffc), ( ( _u32(_rRt_) >> (24 - shift) ) ) |
+ ( mem & (0xffffff00 << shift) ));
+ /*
+ Mem = 1234. Reg = abcd
+
+ 0 123a (reg >> 24) | (mem & 0xffffff00)
+ 1 12ab (reg >> 16) | (mem & 0xffff0000)
+ 2 1abc (reg >> 8) | (mem & 0xff000000)
+ 3 abcd (reg ) | (mem & 0x00000000)
+
+ */
+}
+
+void psxSWR() {
+ u32 shift = (_oB_ & 3) << 3;
+ u32 mem = psxMemRead32(_oB_ & 0xfffffffc);
+
+ psxMemWrite32((_oB_ & 0xfffffffc), ( ( _u32(_rRt_) << shift ) |
+ (mem & (0x00ffffff >> (24 - shift)) ) ) );
+ /*
+ Mem = 1234. Reg = abcd
+
+ 0 abcd (reg ) | (mem & 0x00000000)
+ 1 bcd4 (reg << 8) | (mem & 0x000000ff)
+ 2 cd34 (reg << 16) | (mem & 0x0000ffff)
+ 3 d234 (reg << 24) | (mem & 0x00ffffff)
+
+ */
+}
+
+/*********************************************************
+* Moves between GPR and COPx *
+* Format: OP rt, fs *
+*********************************************************/
+void psxMFC0() { if (!_Rt_) return; _i32(_rRt_) = (int)_rFs_; }
+void psxCFC0() { if (!_Rt_) return; _i32(_rRt_) = (int)_rFs_; }
+
+void psxMTC0() { _rFs_ = _u32(_rRt_); }
+void psxCTC0() { _rFs_ = _u32(_rRt_); }
+
+/*********************************************************
+* Unknow instruction (would generate an exception) *
+* Format: ? *
+*********************************************************/
+void psxNULL() {
+#ifdef PSXCPU_LOG
+ PSXCPU_LOG("psx: Unimplemented op %x\n", psxRegs.code);
+#endif
+}
+
+void psxSPECIAL() {
+ psxSPC[_Funct_]();
+}
+
+void psxREGIMM() {
+ psxREG[_Rt_]();
+}
+
+void psxCOP0() {
+ psxCP0[_Rs_]();
+}
+
+void psxCOP2() {
+ psxCP2[_Funct_]();
+}
+
+void psxBASIC() {
+ psxCP2BSC[_Rs_]();
+}
+
+void psxHLE() {
+ psxHLEt[psxRegs.code & 0xff]();
+}
+
+void (*psxBSC[64])() = {
+ psxSPECIAL, psxREGIMM, psxJ , psxJAL , psxBEQ , psxBNE , psxBLEZ, psxBGTZ,
+ psxADDI , psxADDIU , psxSLTI, psxSLTIU, psxANDI, psxORI , psxXORI, psxLUI ,
+ psxCOP0 , psxNULL , psxCOP2, psxNULL , psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL , psxNULL , psxNULL, psxNULL , psxNULL, psxNULL, psxNULL, psxNULL,
+ psxLB , psxLH , psxLWL , psxLW , psxLBU , psxLHU , psxLWR , psxNULL,
+ psxSB , psxSH , psxSWL , psxSW , psxNULL, psxNULL, psxSWR , psxNULL,
+ psxNULL , psxNULL , gteLWC2, psxNULL , psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL , psxNULL , gteSWC2, psxHLE , psxNULL, psxNULL, psxNULL, psxNULL
+};
+
+
+void (*psxSPC[64])() = {
+ psxSLL , psxNULL , psxSRL , psxSRA , psxSLLV , psxNULL , psxSRLV, psxSRAV,
+ psxJR , psxJALR , psxNULL, psxNULL, psxSYSCALL, psxBREAK, psxNULL, psxNULL,
+ psxMFHI, psxMTHI , psxMFLO, psxMTLO, psxNULL , psxNULL , psxNULL, psxNULL,
+ psxMULT, psxMULTU, psxDIV , psxDIVU, psxNULL , psxNULL , psxNULL, psxNULL,
+ psxADD , psxADDU , psxSUB , psxSUBU, psxAND , psxOR , psxXOR , psxNOR ,
+ psxNULL, psxNULL , psxSLT , psxSLTU, psxNULL , psxNULL , psxNULL, psxNULL,
+ psxNULL, psxNULL , psxNULL, psxNULL, psxNULL , psxNULL , psxNULL, psxNULL,
+ psxNULL, psxNULL , psxNULL, psxNULL, psxNULL , psxNULL , psxNULL, psxNULL
+};
+
+void (*psxREG[32])() = {
+ psxBLTZ , psxBGEZ , psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL , psxNULL , psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxBLTZAL, psxBGEZAL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL , psxNULL , psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL
+};
+
+void (*psxCP0[32])() = {
+ psxMFC0, psxNULL, psxCFC0, psxNULL, psxMTC0, psxNULL, psxCTC0, psxNULL,
+ psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxRFE , psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL
+};
+
+void (*psxCP2[64])() = {
+ psxBASIC, gteRTPS , psxNULL , psxNULL, psxNULL, psxNULL , gteNCLIP, psxNULL, // 00
+ psxNULL , psxNULL , psxNULL , psxNULL, gteOP , psxNULL , psxNULL , psxNULL, // 08
+ gteDPCS , gteINTPL, gteMVMVA, gteNCDS, gteCDP , psxNULL , gteNCDT , psxNULL, // 10
+ psxNULL , psxNULL , psxNULL , gteNCCS, gteCC , psxNULL , gteNCS , psxNULL, // 18
+ gteNCT , psxNULL , psxNULL , psxNULL, psxNULL, psxNULL , psxNULL , psxNULL, // 20
+ gteSQR , gteDCPL , gteDPCT , psxNULL, psxNULL, gteAVSZ3, gteAVSZ4, psxNULL, // 28
+ gteRTPT , psxNULL , psxNULL , psxNULL, psxNULL, psxNULL , psxNULL , psxNULL, // 30
+ psxNULL , psxNULL , psxNULL , psxNULL, psxNULL, gteGPF , gteGPL , gteNCCT // 38
+};
+
+void (*psxCP2BSC[32])() = {
+ gteMFC2, psxNULL, gteCFC2, psxNULL, gteMTC2, psxNULL, gteCTC2, psxNULL,
+ psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL,
+ psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL, psxNULL
+};
+
+
+///////////////////////////////////////////
+
+static int intInit() {
+ return 0;
+}
+
+static void intReset() {
+}
+
+static void intExecute() {
+ for (;;) execI();
+}
+
+static void intExecuteBlock() {
+ branch2 = 0;
+ while (!branch2) execI();
+}
+
+static void intClear(u32 Addr, u32 Size) {
+}
+
+static void intShutdown() {
+}
+
+R3000Acpu psxInt = {
+ intInit,
+ intReset,
+ intExecute,
+ intExecuteBlock,
+ intClear,
+ intShutdown
+};