152 lines
4.2 KiB
C++
152 lines
4.2 KiB
C++
#pragma once
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class SY6522
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{
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public:
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SY6522(UINT slot, bool isMegaAudio) : m_slot(slot), m_isMegaAudio(isMegaAudio), m_isBusDriven(false)
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{
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for (UINT i = 0; i < kNumTimersPer6522; i++)
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m_syncEvent[i] = NULL;
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Reset(true);
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}
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~SY6522(void)
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{
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}
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void InitSyncEvents(class SyncEvent* event0, class SyncEvent* event1)
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{
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m_syncEvent[0] = event0;
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m_syncEvent[1] = event1;
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}
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void Reset(const bool powerCycle);
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void StartTimer1(void);
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void StopTimer1(void);
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bool IsTimer1Active(void) { return m_timer1Active; }
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void StopTimer2(void);
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bool IsTimer2Active(void) { return m_timer2Active; }
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void UpdateIFR(BYTE clr_ifr, BYTE set_ifr = 0);
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void UpdateTimer1(USHORT clocks);
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void UpdateTimer2(USHORT clocks);
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enum { rORB = 0, rORA, rDDRB, rDDRA, rT1CL, rT1CH, rT1LL, rT1LH, rT2CL, rT2CH, rSR, rACR, rPCR, rIFR, rIER, rORA_NO_HS, SIZE_6522_REGS };
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BYTE GetReg(BYTE reg)
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{
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switch (reg)
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{
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case rDDRA: return m_regs.DDRA;
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case rORA: return m_regs.ORA;
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case rACR: return m_regs.ACR;
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case rPCR: return m_regs.PCR;
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case rIFR: return m_regs.IFR;
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}
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_ASSERT(0);
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return 0;
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}
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BYTE GetBusViewOfORB(void) { return m_regs.ORB & m_regs.DDRB; } // Return how the AY8913 sees ORB on the bus (ie. not CPU's view which will be OR'd with !DDRB)
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USHORT GetRegT1C(void) { return m_regs.TIMER1_COUNTER.w; }
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USHORT GetRegT2C(void) { return m_regs.TIMER2_COUNTER.w; }
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void GetRegs(BYTE regs[SIZE_6522_REGS]) { memcpy(®s[0], (BYTE*)&m_regs, SIZE_6522_REGS); } // For debugger
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void SetRegIRA(BYTE reg) { m_regs.ORA = reg; }
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bool IsTimer1IrqDelay(void) { return m_timer1IrqDelay ? true : false; }
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void SetBusBeingDriven(bool state) { m_isBusDriven = state; }
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BYTE Read(BYTE nReg);
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void Write(BYTE nReg, BYTE nValue);
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void SaveSnapshot(class YamlSaveHelper& yamlSaveHelper);
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void LoadSnapshot(class YamlLoadHelper& yamlLoadHelper, UINT version);
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void SetTimersActiveFromSnapshot(bool timer1Active, bool timer2Active, UINT version);
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// ACR
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static const BYTE ACR_RUNMODE = 1 << 6;
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static const BYTE ACR_RM_ONESHOT = 0 << 6;
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static const BYTE ACR_RM_FREERUNNING = 1 << 6;
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// IFR & IER:
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static const BYTE IxR_SSI263 = 1 << 1;
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static const BYTE IxR_VOTRAX = 1 << 4;
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static const BYTE IxR_TIMER2 = 1 << 5;
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static const BYTE IxR_TIMER1 = 1 << 6;
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static const BYTE IFR_IRQ = 1 << 7;
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static const UINT kExtraTimerCycles = 2; // Rockwell, Fig.16: period = N+2 cycles
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static const UINT kNumTimersPer6522 = 2;
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private:
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USHORT SetTimerSyncEvent(BYTE reg, USHORT timerLatch);
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USHORT GetTimer1Counter(BYTE reg);
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USHORT GetTimer2Counter(BYTE reg);
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bool IsTimer1Underflowed(BYTE reg);
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bool IsTimer2Underflowed(BYTE reg);
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bool CheckTimerUnderflow(USHORT& counter, int& timerIrqDelay, const USHORT clocks);
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int OnTimer1Underflow(USHORT& counter);
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UINT GetOpcodeCyclesForRead(BYTE reg);
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UINT GetOpcodeCyclesForWrite(BYTE reg);
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void StartTimer2(void);
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void StartTimer1_LoadStateV1(void);
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#pragma pack(push)
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#pragma pack(1) // Ensure 'struct Regs' is packed so that GetRegs() can just do a memcpy()
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struct IWORD
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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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BYTE l;
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BYTE h;
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};
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USHORT w;
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};
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};
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struct Regs
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{
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BYTE ORB; // $00 - Port B
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BYTE ORA; // $01 - Port A (with handshaking)
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BYTE DDRB; // $02 - Data Direction Register B
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BYTE DDRA; // $03 - Data Direction Register A
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IWORD TIMER1_COUNTER; // $04 - Read counter (L) / Write latch (L)
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// $05 - Read / Write & initiate count (H)
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IWORD TIMER1_LATCH; // $06 - Read / Write & latch (L)
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// $07 - Read / Write & latch (H)
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IWORD TIMER2_COUNTER; // $08 - Read counter (L) / Write latch (L)
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// $09 - Read counter (H) / Write latch (H)
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BYTE SERIAL_SHIFT; // $0A
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BYTE ACR; // $0B - Auxiliary Control Register
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BYTE PCR; // $0C - Peripheral Control Register
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BYTE IFR; // $0D - Interrupt Flag Register
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BYTE IER; // $0E - Interrupt Enable Register
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BYTE ORA_NO_HS; // $0F - Port A (without handshaking)
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//
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IWORD TIMER2_LATCH; // Doesn't exist in 6522
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};
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#pragma pack(pop)
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Regs m_regs;
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int m_timer1IrqDelay;
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int m_timer2IrqDelay;
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bool m_timer1Active;
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bool m_timer2Active;
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class SyncEvent* m_syncEvent[kNumTimersPer6522];
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UINT m_slot;
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bool m_isMegaAudio;
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bool m_isBusDriven;
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static const UINT kExtraMegaAudioTimerCycles = kExtraTimerCycles + 1;
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};
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