#pragma once #include "RspTypes.h" enum { 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 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 DPC_CLR_XBUS_DMEM_DMA = 0x0001, // Bit 0: Clear xbus_dmem_dma DPC_SET_XBUS_DMEM_DMA = 0x0002, // Bit 1: Set xbus_dmem_dma DPC_CLR_FREEZE = 0x0004, // Bit 2: Clear freeze DPC_SET_FREEZE = 0x0008, // Bit 3: Set freeze DPC_CLR_FLUSH = 0x0010, // Bit 4: Clear flush DPC_SET_FLUSH = 0x0020, // Bit 5: Set flush DPC_CLR_TMEM_CTR = 0x0040, // Bit 6: Clear TMEM CTR DPC_CLR_PIPE_CTR = 0x0080, // Bit 7: Clear pipe CTR DPC_CLR_CMD_CTR = 0x0100, // Bit 8: Clear CMD CTR DPC_CLR_CLOCK_CTR = 0x0200, // Bit 9: Clear clock CTR DPC_STATUS_XBUS_DMEM_DMA = 0x001, // Bit 0: xbus_dmem_dma DPC_STATUS_FREEZE = 0x002, // Bit 1: Freeze DPC_STATUS_FLUSH = 0x004, // Bit 2: Flush DPC_STATUS_START_GCLK = 0x008, // Bit 3: Start GCLK DPC_STATUS_TMEM_BUSY = 0x010, // Bit 4: TMEM busy DPC_STATUS_PIPE_BUSY = 0x020, // Bit 5: Pipe busy DPC_STATUS_CMD_BUSY = 0x040, // Bit 6: CMD busy DPC_STATUS_CBUF_READY = 0x080, // Bit 7: CBUF ready DPC_STATUS_DMA_BUSY = 0x100, // Bit 8: DMA busy DPC_STATUS_END_VALID = 0x200, // Bit 9: End valid DPC_STATUS_START_VALID = 0x400, // Bit 10: Start valid MI_INTR_SP = 0x01, // Bit 0: SP INTR }; extern char * x86_Strings[8]; extern char * GPR_Strings[32]; #define x86_Name(Reg) (x86_Strings[(Reg)]) #define GPR_Name(Reg) (GPR_Strings[(Reg)]) #define COP0_Name(Reg) \ (Reg) == 0 ? "SP memory address" : (Reg) == 1 ? "SP DRAM DMA address" \ : (Reg) == 2 ? "SP read DMA length" \ : (Reg) == 3 ? "SP write DMA length" \ : (Reg) == 4 ? "SP status" \ : (Reg) == 5 ? "SP DMA full" \ : (Reg) == 6 ? "SP DMA busy" \ : (Reg) == 7 ? "SP semaphore" \ : (Reg) == 8 ? "DP CMD DMA start" \ : (Reg) == 9 ? "DP CMD DMA end" \ : (Reg) == 10 ? "DP CMD DMA current" \ : (Reg) == 11 ? "DP CMD status" \ : (Reg) == 12 ? "DP clock counter" \ : (Reg) == 13 ? "DP buffer busy counter" \ : (Reg) == 14 ? "DP pipe busy counter" \ : (Reg) == 15 ? "DP TMEM load counter" \ : "Unknown Register" void Enter_RSP_Register_Window(void); void InitilizeRSPRegisters(void); void UpdateRSPRegistersScreen(void); int64_t AccumulatorGet(uint8_t el); void AccumulatorSet(uint8_t el, int64_t Accumulator); // RSP registers extern UWORD32 RSP_GPR[32], RSP_Flags[4]; extern UDWORD RSP_ACCUM[8]; extern RSPVector RSP_Vect[32]; extern RSPFlag VCOL, VCOH; extern RSPFlag VCCL, VCCH; extern RSPFlag VCE;