mirror of https://github.com/PCSX2/pcsx2.git
482 lines
16 KiB
C++
482 lines
16 KiB
C++
/* PCSX2 - PS2 Emulator for PCs
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* Copyright (C) 2002-2010 PCSX2 Dev Team
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*
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* PCSX2 is free software: you can redistribute it and/or modify it under the terms
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* of the GNU Lesser General Public License as published by the Free Software Found-
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* ation, either version 3 of the License, or (at your option) any later version.
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*
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* PCSX2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY;
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* without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
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* PURPOSE. See the GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License along with PCSX2.
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* If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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class BaseR5900Exception;
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// --------------------------------------------------------------------------------------
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// Recompiler Stuffs
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// --------------------------------------------------------------------------------------
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// This code section contains recompiler vars that are used in "shared" code. Placing
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// them in iR5900.h would mean having to include that into more files than I care to
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// right now, so we're sticking them here for now until a better solution comes along.
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extern bool g_SkipBiosHack;
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extern bool g_GameStarted;
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extern bool g_GameLoading;
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namespace Exception
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{
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// Implementation Note: this exception has no meaningful type information and we don't
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// care to have it be caught by any BaseException handlers lying about, so let's not
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// derive from BaseException :D
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class ExitCpuExecute
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{
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public:
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explicit ExitCpuExecute() { }
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};
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class CancelInstruction
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{
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public:
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explicit CancelInstruction() { }
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};
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class FailedToAllocateRegister
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{
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public:
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explicit FailedToAllocateRegister() { }
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};
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}
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// --------------------------------------------------------------------------------------
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// EE Bios function name tables.
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// --------------------------------------------------------------------------------------
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namespace R5900 {
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extern const char* const bios[256];
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}
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extern s32 EEsCycle;
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extern u32 EEoCycle;
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union GPR_reg { // Declare union type GPR register
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u128 UQ;
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s128 SQ;
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u64 UD[2]; //128 bits
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s64 SD[2];
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u32 UL[4];
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s32 SL[4];
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u16 US[8];
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s16 SS[8];
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u8 UC[16];
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s8 SC[16];
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};
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union GPRregs {
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struct {
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GPR_reg r0, at, v0, v1, a0, a1, a2, a3,
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t0, t1, t2, t3, t4, t5, t6, t7,
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s0, s1, s2, s3, s4, s5, s6, s7,
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t8, t9, k0, k1, gp, sp, s8, ra;
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} n;
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GPR_reg r[32];
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};
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union PERFregs {
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struct
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{
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union
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{
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struct
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{
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u32 pad0:1; // LSB should always be zero (or undefined)
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u32 EXL0:1; // enable PCR0 during Level 1 exception handling
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u32 K0:1; // enable PCR0 during Kernel Mode execution
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u32 S0:1; // enable PCR0 during Supervisor mode execution
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u32 U0:1; // enable PCR0 during User-mode execution
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u32 Event0:5; // PCR0 event counter (all values except 1 ignored at this time)
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u32 pad1:1; // more zero/undefined padding [bit 10]
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u32 EXL1:1; // enable PCR1 during Level 1 exception handling
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u32 K1:1; // enable PCR1 during Kernel Mode execution
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u32 S1:1; // enable PCR1 during Supervisor mode execution
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u32 U1:1; // enable PCR1 during User-mode execution
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u32 Event1:5; // PCR1 event counter (all values except 1 ignored at this time)
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u32 Reserved:11;
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u32 CTE:1; // Counter enable bit, no counting if set to zero.
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} b;
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u32 val;
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} pccr;
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u32 pcr0, pcr1, pad;
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} n;
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u32 r[4];
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};
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union CP0regs {
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struct {
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u32 Index, Random, EntryLo0, EntryLo1,
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Context, PageMask, Wired, Reserved0,
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BadVAddr, Count, EntryHi, Compare;
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union {
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struct {
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u32 IE:1; // Bit 0: Interrupt Enable flag.
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u32 EXL:1; // Bit 1: Exception Level, set on any exception not covered by ERL.
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u32 ERL:1; // Bit 2: Error level, set on Resetm NMI, perf/debug exceptions.
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u32 KSU:2; // Bits 3-4: Kernel [clear] / Supervisor [set] mode
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u32 unused0:3;
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u32 IM:8; // Bits 10-15: Interrupt mask (bits 12,13,14 are unused)
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u32 EIE:1; // Bit 16: IE bit enabler. When cleared, ints are disabled regardless of IE status.
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u32 _EDI:1; // Bit 17: Interrupt Enable (set enables ints in all modes, clear enables ints in kernel mode only)
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u32 CH:1; // Bit 18: Status of most recent cache instruction (set for hit, clear for miss)
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u32 unused1:3;
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u32 BEV:1; // Bit 22: if set, use bootstrap for TLB/general exceptions
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u32 DEV:1; // Bit 23: if set, use bootstrap for perf/debug exceptions
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u32 unused2:2;
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u32 FR:1; // (?)
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u32 unused3:1;
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u32 CU:4; // Bits 28-31: Co-processor Usable flag
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} b;
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u32 val;
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} Status;
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u32 Cause, EPC, PRid,
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Config, LLAddr, WatchLO, WatchHI,
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XContext, Reserved1, Reserved2, Debug,
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DEPC, PerfCnt, ErrCtl, CacheErr,
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TagLo, TagHi, ErrorEPC, DESAVE;
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} n;
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u32 r[32];
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};
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struct cpuRegisters {
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GPRregs GPR; // GPR regs
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// NOTE: don't change order since recompiler uses it
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GPR_reg HI;
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GPR_reg LO; // hi & log 128bit wide
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CP0regs CP0; // is COP0 32bit?
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u32 sa; // shift amount (32bit), needs to be 16 byte aligned
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u32 IsDelaySlot; // set true when the current instruction is a delay slot.
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u32 pc; // Program counter, when changing offset in struct, check iR5900-X.S to make sure offset is correct
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u32 code; // current instruction
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PERFregs PERF;
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u32 eCycle[32];
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u32 sCycle[32]; // for internal counters
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u32 cycle; // calculate cpucycles..
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u32 interrupt;
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int branch;
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int opmode; // operating mode
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u32 tempcycles;
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};
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// used for optimization
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union GPR_reg64 {
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u64 UD[1]; //64 bits
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s64 SD[1];
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u32 UL[2];
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s32 SL[2];
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u16 US[4];
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s16 SS[4];
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u8 UC[8];
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s8 SC[8];
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};
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union FPRreg {
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float f;
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u32 UL;
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s32 SL; // signed 32bit used for sign extension in interpreters.
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};
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struct fpuRegisters {
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FPRreg fpr[32]; // 32bit floating point registers
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u32 fprc[32]; // 32bit floating point control registers
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FPRreg ACC; // 32 bit accumulator
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u32 ACCflag; // an internal accumulator overflow flag
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};
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struct tlbs
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{
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u32 PageMask,EntryHi;
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u32 EntryLo0,EntryLo1;
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u32 Mask, nMask;
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u32 G;
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u32 ASID;
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u32 VPN2;
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u32 PFN0;
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u32 PFN1;
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u32 S;
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};
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#ifndef _PC_
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/*#define _i64(x) (s64)x
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#define _u64(x) (u64)x
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#define _i32(x) (s32)x
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#define _u32(x) (u32)x
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#define _i16(x) (s16)x
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#define _u16(x) (u16)x
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#define _i8(x) (s8)x
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#define _u8(x) (u8)x*/
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////////////////////////////////////////////////////////////////////
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// R5900 Instruction Macros
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#define _PC_ cpuRegs.pc // The next PC to be executed - only used in this header and R3000A.h
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#define _Funct_ ((cpuRegs.code ) & 0x3F) // The funct part of the instruction register
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#define _Rd_ ((cpuRegs.code >> 11) & 0x1F) // The rd part of the instruction register
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#define _Rt_ ((cpuRegs.code >> 16) & 0x1F) // The rt part of the instruction register
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#define _Rs_ ((cpuRegs.code >> 21) & 0x1F) // The rs part of the instruction register
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#define _Sa_ ((cpuRegs.code >> 6) & 0x1F) // The sa part of the instruction register
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#define _Im_ ((u16)cpuRegs.code) // The immediate part of the instruction register
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#define _InstrucTarget_ (cpuRegs.code & 0x03ffffff) // The target part of the instruction register
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#define _Imm_ ((s16)cpuRegs.code) // sign-extended immediate
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#define _ImmU_ (cpuRegs.code&0xffff) // zero-extended immediate
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#define _ImmSB_ (cpuRegs.code&0x8000) // gets the sign-bit of the immediate value
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#define _Opcode_ (cpuRegs.code >> 26 )
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#define _JumpTarget_ ((_InstrucTarget_ << 2) + (_PC_ & 0xf0000000)) // Calculates the target during a jump instruction
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#define _BranchTarget_ (((s32)(s16)_Im_ * 4) + _PC_) // Calculates the target during a branch instruction
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#define _TrapCode_ ((u16)cpuRegs.code >> 6) // error code for non-immediate trap instructions.
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#define _SetLink(x) (cpuRegs.GPR.r[x].UD[0] = _PC_ + 4) // Sets the return address in the link register
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#endif
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alignas(16) extern cpuRegisters cpuRegs;
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alignas(16) extern fpuRegisters fpuRegs;
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alignas(16) extern tlbs tlb[48];
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extern u32 g_nextEventCycle;
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extern bool eeEventTestIsActive;
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extern u32 s_iLastCOP0Cycle;
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extern u32 s_iLastPERFCycle[2];
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void intSetBranch();
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// This is a special form of the interpreter's doBranch that is run from various
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// parts of the Recs (namely COP0's branch codes and stuff).
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void __fastcall intDoBranch(u32 target);
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// modules loaded at hardcoded addresses by the kernel
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const u32 EEKERNEL_START = 0;
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const u32 EENULL_START = 0x81FC0;
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const u32 EELOAD_START = 0x82000;
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const u32 EELOAD_SIZE = 0x20000; // overestimate for searching
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extern u32 g_eeloadMain, g_eeloadExec;
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extern void __fastcall eeGameStarting();
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extern void __fastcall eeloadHook();
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extern void __fastcall eeloadHook2();
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// --------------------------------------------------------------------------------------
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// R5900cpu
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// --------------------------------------------------------------------------------------
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// [TODO] : This is on the list to get converted to a proper C++ class. I'm putting it
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// off until I get my new IOPint and IOPrec re-merged. --air
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//
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struct R5900cpu
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{
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// Memory allocation function, for allocating virtual memory spaces needed by
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// the virtual cpu provider. Allocating additional heap memory from this method is
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// NOT recommended. Heap allocations should be performed by Reset only. This
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// maximizes the likeliness of reservations claiming addresses they prefer.
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//
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// Thread Affinity:
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// Called from the main/UI thread only. Cpu execution status is guaranteed to
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// be inactive. No locking is necessary.
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//
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// Exception Throws:
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// HardwareDeficiency - The host machine's hardware does not support this CPU provider.
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// OutOfMemory - Not enough memory, or the memory areas required were already
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// reserved.
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void (*Reserve)();
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// Deallocates ram allocated by Allocate, Reserve, and/or by runtime code execution.
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//
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// Thread Affinity:
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// Called from the main/UI thread only. Cpu execution status is guaranteed to
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// be inactive. No locking is necessary.
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//
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// Exception Throws: None. This function is a destructor, and should not throw.
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//
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void (*Shutdown)();
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// Initializes / Resets code execution states. Typically implementation is only
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// needed for recompilers, as interpreters have no internal execution states and
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// rely on the CPU/VM states almost entirely.
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//
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// Thread Affinity:
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// Can be called from any thread. CPU execution status is indeterminate and may
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// already be in progress. Implementations should be sure to queue and execute
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// resets at the earliest safe convenience (typically right before recompiling a
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// new block of code, or after a vsync event).
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//
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// Exception Throws: Emulator-defined. Common exception types to expect are
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// OutOfMemory, Stream Exceptions
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//
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void (*Reset)();
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// Steps a single instruction. Meant to be used by debuggers. Is currently unused
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// and unimplemented. Future note: recompiler "step" should *always* fall back
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// on interpreters.
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//
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// Exception Throws: [TODO] (possible execution-related throws to be added)
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//
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void (*Step)();
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// Executes code until a break is signaled. Execution can be paused or suspended
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// via thread-style signals that are handled by CheckExecutionState callbacks.
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// Execution Breakages are handled the same way, where-by a signal causes the Execute
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// call to return at the nearest state check (typically handled internally using
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// either C++ exceptions or setjmp/longjmp).
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//
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// Exception Throws:
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// Throws BaseR5900Exception and all derivatives.
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// Throws FileNotFound or other Streaming errors (typically related to BIOS MEC/NVM)
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//
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void (*Execute)();
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// Checks for execution suspension or cancellation. In pthreads terms this provides
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// a "cancellation point." Execution state checks are typically performed at Vsyncs
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// by the generic VM event handlers in R5900.cpp/Counters.cpp (applies to both recs
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// and ints).
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//
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// Implementation note: Because of the nuances of recompiled code execution, setjmp
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// may be used in place of thread cancellation or C++ exceptions (non-SEH exceptions
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// cannot unwind through the recompiled code stackframes, thus longjmp must be used).
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//
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// Thread Affinity:
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// Must be called on the same thread as Execute.
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//
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// Exception Throws:
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// May throw Execution/Pthreads cancellations if the compiler supports SEH.
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//
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void (*CheckExecutionState)();
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// Safely throws host exceptions from executing code (either recompiled or interpreted).
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// If this function is called outside the context of the CPU's code execution, then the
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// given exception will be re-thrown automatically.
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//
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// Exception Throws:
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// (SEH) Rethrows the given exception immediately.
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// (setjmp) Re-throws immediately if called from outside the context of dynamically
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// generated code (either non-executing contexts or interpreters). Does not throw
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// otherwise.
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//
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void (*ThrowException)( const BaseException& ex );
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void (*ThrowCpuException)( const BaseR5900Exception& ex );
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// Manual recompiled code cache clear; typically useful to recompilers only. Size is
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// in MIPS words (32 bits). Dev note: this callback is nearly obsolete, and might be
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// better off replaced with some generic API callbacks from VTLB block protection.
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// Also: the calls from COP0's TLB remap code should be replaced with full recompiler
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// resets, since TLB remaps affect more than just the code they contain (code that
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// may reference the remapped blocks via memory loads/stores, for example).
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//
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// Thread Affinity Rule:
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// Can be called from any thread (namely for being called from debugging threads)
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//
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// Exception Throws: [TODO] Emulator defined? (probably shouldn't throw, probably
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// doesn't matter if we're stripping it out soon. ;)
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//
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void (*Clear)(u32 Addr, u32 Size);
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uint (*GetCacheReserve)();
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void (*SetCacheReserve)( uint reserveInMegs );
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};
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extern R5900cpu *Cpu;
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extern R5900cpu intCpu;
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extern R5900cpu recCpu;
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enum EE_EventType
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{
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DMAC_VIF0 = 0,
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DMAC_VIF1,
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DMAC_GIF,
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DMAC_FROM_IPU,
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DMAC_TO_IPU,
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DMAC_SIF0,
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DMAC_SIF1,
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DMAC_SIF2,
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DMAC_FROM_SPR,
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DMAC_TO_SPR,
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DMAC_MFIFO_VIF,
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DMAC_MFIFO_GIF,
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// We're setting error conditions through hwDmacIrq, so these correspond to the conditions above.
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DMAC_STALL_SIS = 13, // SIS
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DMAC_MFIFO_EMPTY = 14, // MEIS
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DMAC_BUS_ERROR = 15, // BEIS
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DMAC_GIF_UNIT,
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VIF_VU0_FINISH,
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VIF_VU1_FINISH
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};
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extern void CPU_INT( EE_EventType n, s32 ecycle );
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extern uint intcInterrupt();
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extern uint dmacInterrupt();
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extern void cpuInit();
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extern void cpuReset(); // can throw Exception::FileNotFound.
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extern void cpuException(u32 code, u32 bd);
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extern void cpuTlbMissR(u32 addr, u32 bd);
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extern void cpuTlbMissW(u32 addr, u32 bd);
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extern void cpuTestHwInts();
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extern void cpuClearInt(uint n);
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extern void __fastcall GoemonPreloadTlb();
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extern void __fastcall GoemonUnloadTlb(u32 key);
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extern void cpuSetNextEvent( u32 startCycle, s32 delta );
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extern void cpuSetNextEventDelta( s32 delta );
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extern int cpuTestCycle( u32 startCycle, s32 delta );
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extern void cpuSetEvent();
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extern void _cpuEventTest_Shared(); // for internal use by the Dynarecs and Ints inside R5900:
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extern void cpuTestINTCInts();
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extern void cpuTestDMACInts();
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extern void cpuTestTIMRInts();
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// breakpoint code shared between interpreter and recompiler
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int isMemcheckNeeded(u32 pc);
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int isBreakpointNeeded(u32 addr);
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////////////////////////////////////////////////////////////////////
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// Exception Codes
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#define EXC_CODE(x) ((x)<<2)
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#define EXC_CODE_Int EXC_CODE(0)
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#define EXC_CODE_Mod EXC_CODE(1) /* TLB Modification exception */
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#define EXC_CODE_TLBL EXC_CODE(2) /* TLB Miss exception (load or instruction fetch) */
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#define EXC_CODE_TLBS EXC_CODE(3) /* TLB Miss exception (store) */
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#define EXC_CODE_AdEL EXC_CODE(4)
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#define EXC_CODE_AdES EXC_CODE(5)
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#define EXC_CODE_IBE EXC_CODE(6)
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#define EXC_CODE_DBE EXC_CODE(7)
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#define EXC_CODE_Sys EXC_CODE(8)
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#define EXC_CODE_Bp EXC_CODE(9)
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#define EXC_CODE_Ri EXC_CODE(10)
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#define EXC_CODE_CpU EXC_CODE(11)
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#define EXC_CODE_Ov EXC_CODE(12)
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#define EXC_CODE_Tr EXC_CODE(13)
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#define EXC_CODE_FPE EXC_CODE(15)
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#define EXC_CODE_WATCH EXC_CODE(23)
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#define EXC_CODE__MASK 0x0000007c
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#define EXC_CODE__SHIFT 2
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