project64/Source/Project64-core/N64System/Mips/Register.h

#pragma once

#include <Common/Platform.h>
#include <Project64-core\N64System\N64Types.h>
#include <Project64-core\N64System\MemoryHandler\AudioInterfaceHandler.h>
#include <Project64-core\N64System\MemoryHandler\CartridgeDomain2Address1Handler.h>
#include <Project64-core\N64System\MemoryHandler\DisplayControlRegHandler.h>
#include <Project64-core\N64System\MemoryHandler\MIPSInterfaceHandler.h>
#include <Project64-core\N64System\MemoryHandler\PeripheralInterfaceHandler.h>
#include <Project64-core\N64System\MemoryHandler\RDRAMInterfaceHandler.h>
#include <Project64-core\N64System\MemoryHandler\RDRAMRegistersHandler.h>
#include <Project64-core\N64System\MemoryHandler\SerialInterfaceHandler.h>
#include <Project64-core\N64System\MemoryHandler\SPRegistersHandler.h>
#include <Project64-core\N64System\MemoryHandler\VideoInterfaceHandler.h>
#include <Project64-core\Settings\DebugSettings.h>
#include <Project64-core\Settings\GameSettings.h>
#include <Project64-core\Logging.h>

// CPO registers by name
class CP0registers
{
protected:
    CP0registers (uint32_t * _CP0);

public:
    uint32_t & INDEX_REGISTER;
    uint32_t & RANDOM_REGISTER;
    uint32_t & ENTRYLO0_REGISTER;
    uint32_t & ENTRYLO1_REGISTER;
    uint32_t & CONTEXT_REGISTER;
    uint32_t & PAGE_MASK_REGISTER;
    uint32_t & WIRED_REGISTER;
    uint32_t & BAD_VADDR_REGISTER;
    uint32_t & COUNT_REGISTER;
    uint32_t & ENTRYHI_REGISTER;
    uint32_t & COMPARE_REGISTER;
    uint32_t & STATUS_REGISTER;
    uint32_t & CAUSE_REGISTER;
    uint32_t & EPC_REGISTER;
    uint32_t & CONFIG_REGISTER;
    uint32_t & TAGLO_REGISTER;
    uint32_t & TAGHI_REGISTER;
    uint32_t & ERROREPC_REGISTER;
    uint32_t & FAKE_CAUSE_REGISTER;

private:
    CP0registers();
    CP0registers(const CP0registers&);
    CP0registers& operator=(const CP0registers&);
};

// CPO register flags
enum
{
    // Status register
    STATUS_IE = 0x00000001, STATUS_EXL = 0x00000002, STATUS_ERL = 0x00000004,
    STATUS_IP0 = 0x00000100, STATUS_IP1 = 0x00000200, STATUS_IP2 = 0x00000400,
    STATUS_IP3 = 0x00000800, STATUS_IP4 = 0x00001000, STATUS_IP5 = 0x00002000,
    STATUS_IP6 = 0x00004000, STATUS_IP7 = 0x00008000, STATUS_BEV = 0x00400000,
    STATUS_FR = 0x04000000, STATUS_CU0 = 0x10000000, STATUS_CU1 = 0x20000000,

    // Cause flags
    CAUSE_EXC_CODE = 0xFF,
    CAUSE_IP0 = 0x100,
    CAUSE_IP1 = 0x200,
    CAUSE_IP2 = 0x400,
    CAUSE_IP3 = 0x800,
    CAUSE_IP4 = 0x1000,
    CAUSE_IP5 = 0x2000,
    CAUSE_IP6 = 0x4000,
    CAUSE_IP7 = 0x8000,
    CAUSE_BD = 0x80000000,

    // Cause exception ID's
    EXC_INT = 0,    // Interrupt
    EXC_MOD = 4,    // TLB mod
    EXC_RMISS = 8,    // Read TLB miss
    EXC_WMISS = 12,    // Write TLB miss
    EXC_RADE = 16,    // Read address error
    EXC_WADE = 20,    // Write address error
    EXC_IBE = 24,    // Instruction bus error
    EXC_DBE = 28,    // Data bus error
    EXC_SYSCALL = 32,    // Syscall
    EXC_BREAK = 36,    // Breakpoint
    EXC_II = 40,   // Illegal instruction
    EXC_CPU = 44,   // Co-processor unusable
    EXC_OV = 48,   // Overflow
    EXC_TRAP = 52,   // Trap exception
    EXC_VCEI = 56,   // Virtual coherency on instruction fetch
    EXC_FPE = 60,   // Floating point exception
    EXC_WATCH = 92,   // Watchpoint reference
    EXC_VCED = 124,  // Virtual coherency on data read
};

// Float point control status register flags
enum
{
    FPCSR_FS = 0x01000000, // Flush denormalization to zero
    FPCSR_C = 0x00800000, // Condition bit
    FPCSR_CE = 0x00020000, // Cause: unimplemented operation
    FPCSR_CV = 0x00010000, // Cause: invalid operation
    FPCSR_CZ = 0x00008000, // Cause: division by zero
    FPCSR_CO = 0x00004000, // Cause: overflow
    FPCSR_CU = 0x00002000, // Cause: underflow
    FPCSR_CI = 0x00001000, // Cause: inexact operation
    FPCSR_EV = 0x00000800, // Enable: invalid operation
    FPCSR_EZ = 0x00000400, // Enable: division by zero
    FPCSR_EO = 0x00000200, // Enable: overflow
    FPCSR_EU = 0x00000100, // Enable: underflow
    FPCSR_EI = 0x00000080, // Enable: inexact operation
    FPCSR_FV = 0x00000040, // Flag: invalid operation
    FPCSR_FZ = 0x00000020, // Flag: division by zero
    FPCSR_FO = 0x00000010, // Flag: overflow
    FPCSR_FU = 0x00000008, // Flag: underflow
    FPCSR_FI = 0x00000004, // Flag: inexact operation
    FPCSR_RM_MASK = 0x00000003, // Rounding mode mask
    FPCSR_RM_RN = 0x00000000, // Round to nearest
    FPCSR_RM_RZ = 0x00000001, // Round to zero
    FPCSR_RM_RP = 0x00000002, // Round to positive infinity
    FPCSR_RM_RM = 0x00000003, // Round to negative infinity
};


// MIPS interface flags
enum
{
    MI_MODE_INIT = 0x0080,        // Bit  7: Initialization mode
    MI_MODE_EBUS = 0x0100,        // Bit  8: EBUS test mode
    MI_MODE_RDRAM = 0x0200,        // Bit  9: RDRAM register mode

    MI_CLR_INIT = 0x0080,        // Bit  7: Clear initialization mode
    MI_SET_INIT = 0x0100,        // Bit  8: Set initialization mode
    MI_CLR_EBUS = 0x0200,        // Bit  9: Clear EBUS test
    MI_SET_EBUS = 0x0400,        // Bit 10: Set EBUS test mode
    MI_CLR_DP_INTR = 0x0800,        // Bit 11: Clear DP interrupt
    MI_CLR_RDRAM = 0x1000,        // Bit 12: Clear RDRAM register
    MI_SET_RDRAM = 0x2000,        // Bit 13: Set RDRAM register mode

    // Flags for writing to MI_INTR_MASK_REG
    MI_INTR_MASK_CLR_SP = 0x0001,        // Bit  0: Clear SP mask
    MI_INTR_MASK_SET_SP = 0x0002,        // Bit  1: Set SP mask
    MI_INTR_MASK_CLR_SI = 0x0004,        // Bit  2: Clear SI mask
    MI_INTR_MASK_SET_SI = 0x0008,        // Bit  3: Set SI mask
    MI_INTR_MASK_CLR_AI = 0x0010,        // Bit  4: Clear AI mask
    MI_INTR_MASK_SET_AI = 0x0020,        // Bit  5: Set AI mask
    MI_INTR_MASK_CLR_VI = 0x0040,        // Bit  6: Clear VI mask
    MI_INTR_MASK_SET_VI = 0x0080,        // Bit  7: Set VI mask
    MI_INTR_MASK_CLR_PI = 0x0100,        // Bit  8: Clear PI mask
    MI_INTR_MASK_SET_PI = 0x0200,        // Bit  9: Set PI mask
    MI_INTR_MASK_CLR_DP = 0x0400,        // Bit 10: Clear DP mask
    MI_INTR_MASK_SET_DP = 0x0800,        // Bit 11: Set DP mask

    // Flags for reading from MI_INTR_MASK_REG
    MI_INTR_MASK_SP = 0x01,        // Bit 0: SP INTR mask
    MI_INTR_MASK_SI = 0x02,        // Bit 1: SI INTR mask
    MI_INTR_MASK_AI = 0x04,        // Bit 2: AI INTR mask
    MI_INTR_MASK_VI = 0x08,        // Bit 3: VI INTR mask
    MI_INTR_MASK_PI = 0x10,        // Bit 4: PI INTR mask
    MI_INTR_MASK_DP = 0x20,        // Bit 5: DP INTR mask

    MI_INTR_SP = 0x01,        // Bit 0: SP INTR
    MI_INTR_SI = 0x02,        // Bit 1: SI INTR
    MI_INTR_AI = 0x04,        // Bit 2: AI INTR
    MI_INTR_VI = 0x08,        // Bit 3: VI INTR
    MI_INTR_PI = 0x10,        // Bit 4: PI INTR
    MI_INTR_DP = 0x20,        // Bit 5: DP INTR
};

// Signal processor interface flags
enum
{
    SP_CLR_HALT = 0x00001,        // Bit  0: Clear halt
    SP_SET_HALT = 0x00002,        // Bit  1: Set halt
    SP_CLR_BROKE = 0x00004,        // Bit  2: Clear broke
    SP_CLR_INTR = 0x00008,        // Bit  3: Clear INTR
    SP_SET_INTR = 0x00010,        // Bit  4: Set INTR
    SP_CLR_SSTEP = 0x00020,        // Bit  5: Clear SSTEP
    SP_SET_SSTEP = 0x00040,        // Bit  6: Set SSTEP
    SP_CLR_INTR_BREAK = 0x00080,        // Bit  7: Clear INTR on break
    SP_SET_INTR_BREAK = 0x00100,        // Bit  8: Set INTR on break
    SP_CLR_SIG0 = 0x00200,        // Bit  9: Clear signal 0
    SP_SET_SIG0 = 0x00400,        // Bit 10: Set signal 0
    SP_CLR_SIG1 = 0x00800,        // Bit 11: Clear signal 1
    SP_SET_SIG1 = 0x01000,        // Bit 12: Set signal 1
    SP_CLR_SIG2 = 0x02000,        // Bit 13: Clear signal 2
    SP_SET_SIG2 = 0x04000,        // Bit 14: Set signal 2
    SP_CLR_SIG3 = 0x08000,        // Bit 15: Clear signal 3
    SP_SET_SIG3 = 0x10000,        // Bit 16: Set signal 3
    SP_CLR_SIG4 = 0x20000,        // Bit 17: Clear signal 4
    SP_SET_SIG4 = 0x40000,        // Bit 18: Set signal 4
    SP_CLR_SIG5 = 0x80000,        // Bit 19: Clear signal 5
    SP_SET_SIG5 = 0x100000,        // Bit 20: Set signal 5
    SP_CLR_SIG6 = 0x200000,        // Bit 21: Clear signal 6
    SP_SET_SIG6 = 0x400000,        // Bit 22: Set signal 6
    SP_CLR_SIG7 = 0x800000,        // Bit 23: Clear signal 7
    SP_SET_SIG7 = 0x1000000,    // Bit 24: Set signal 7

    SP_STATUS_HALT = 0x001,        // Bit  0: Halt
    SP_STATUS_BROKE = 0x002,        // Bit  1: Broke
    SP_STATUS_DMA_BUSY = 0x004,        // Bit  2: DMA busy
    SP_STATUS_DMA_FULL = 0x008,        // Bit  3: DMA full
    SP_STATUS_IO_FULL = 0x010,        // Bit  4: IO full
    SP_STATUS_SSTEP = 0x020,        // Bit  5: Single step
    SP_STATUS_INTR_BREAK = 0x040,        // Bit  6: Interrupt on break
    SP_STATUS_SIG0 = 0x080,        // Bit  7: Signal 0 set
    SP_STATUS_SIG1 = 0x100,        // Bit  8: Signal 1 set
    SP_STATUS_SIG2 = 0x200,        // Bit  9: Signal 2 set
    SP_STATUS_SIG3 = 0x400,        // Bit 10: Signal 3 set
    SP_STATUS_SIG4 = 0x800,        // Bit 11: Signal 4 set
    SP_STATUS_SIG5 = 0x1000,        // Bit 12: Signal 5 set
    SP_STATUS_SIG6 = 0x2000,        // Bit 13: Signal 6 set
    SP_STATUS_SIG7 = 0x4000,        // Bit 14: Signal 7 set
};

// Peripheral interface flags
enum
{
    PI_STATUS_DMA_BUSY = 0x01,
    PI_STATUS_IO_BUSY = 0x02,
    PI_STATUS_ERROR = 0x04,

    PI_SET_RESET = 0x01,
    PI_CLR_INTR = 0x02,
};

class CRegName
{
public:
    static const char *GPR[32];
    static const char *GPR_Hi[32];
    static const char *GPR_Lo[32];
    static const char *Cop0[32];
    static const char *FPR[32];
    static const char *FPR_Ctrl[32];
};

class CSystemRegisters
{
protected:
    static uint32_t      * _PROGRAM_COUNTER;
    static MIPS_DWORD    * _GPR;
    static MIPS_DWORD    * _FPR;
    static uint32_t      * _CP0;
    static MIPS_DWORD    * _RegHI;
    static MIPS_DWORD    * _RegLO;
    static float        ** _FPR_S;
    static double       ** _FPR_D;
    static uint32_t      * _FPCR;
    static uint32_t      * _LLBit;
    static int32_t       * _RoundingModel;
};

class CN64System;
class CSystemEvents;

class CRegisters :
    public CLogging,
    private CDebugSettings,
    private CGameSettings,
    protected CSystemRegisters,
    public CP0registers,
    public RDRAMRegistersReg,
    public MIPSInterfaceReg,
    public VideoInterfaceReg,
    public AudioInterfaceReg,
    public PeripheralInterfaceReg,
    public RDRAMInterfaceReg,
    public SPRegistersReg,
    public DisplayControlReg,
    public SerialInterfaceReg,
    public DiskInterfaceReg
{
public:
    CRegisters(CN64System * System, CSystemEvents * SystemEvents);

    void CheckInterrupts();
    void DoAddressError( bool DelaySlot, uint32_t BadVaddr, bool FromRead );
    void DoBreakException( bool DelaySlot );
    void DoTrapException( bool DelaySlot );
    void DoCopUnusableException( bool DelaySlot, int32_t Coprocessor );
    bool DoIntrException( bool DelaySlot );
    void DoTLBReadMiss(bool DelaySlot, uint32_t BadVaddr);
    void DoTLBWriteMiss(bool DelaySlot, uint32_t BadVaddr);
    void DoSysCallException ( bool DelaySlot);
    void FixFpuLocations();
    void Reset();
    void SetAsCurrentSystem();

    // General registers
    uint32_t m_PROGRAM_COUNTER;
    MIPS_DWORD m_GPR[32];
    uint32_t m_CP0[33];
    MIPS_DWORD m_HI;
    MIPS_DWORD m_LO;
    uint32_t m_LLBit;

    // Floating point registers/information
    uint32_t m_FPCR[32];
    int32_t m_RoundingModel;
    MIPS_DWORD m_FPR[32];
    float * m_FPR_S[32];
    double * m_FPR_D[32];

    // Memory-mapped N64 registers
    uint32_t m_RDRAM_Registers[10];
    uint32_t m_SigProcessor_Interface[10];
    uint32_t m_Display_ControlReg[10];
    uint32_t m_Mips_Interface[4];
    uint32_t m_Video_Interface[14];
    uint32_t m_Audio_Interface[6];
    uint32_t m_Peripheral_Interface[13];
    uint32_t m_RDRAM_Interface[8];
    uint32_t m_SerialInterface[4];
    uint32_t m_DiskInterface[22];
    uint32_t m_AudioIntrReg;
    uint32_t m_GfxIntrReg;
    uint32_t m_RspIntrReg;

private:
    CRegisters();
    CRegisters(const CRegisters&);
    CRegisters& operator=(const CRegisters&);

    bool m_FirstInterupt;
    CN64System * m_System;
    CSystemEvents * m_SystemEvents;
};