#ifndef Z80_H_ #define Z80_H_ #include "cpuintrf.h" #include "memz80.h" enum { Z80_PC, Z80_SP, Z80_A, Z80_B, Z80_C, Z80_D, Z80_E, Z80_H, Z80_L, Z80_AF, Z80_BC, Z80_DE, Z80_HL, Z80_IX, Z80_IY, Z80_AF2, Z80_BC2, Z80_DE2, Z80_HL2, Z80_R, Z80_I, Z80_IM, Z80_IFF1, Z80_IFF2, Z80_HALT, Z80_DC0, Z80_DC1, Z80_DC2, Z80_DC3, Z80_WZ }; enum { Z80_TABLE_op, Z80_TABLE_cb, Z80_TABLE_ed, Z80_TABLE_xy, Z80_TABLE_xycb, Z80_TABLE_ex /* cycles counts for taken jr/jp/call and interrupt latency (rst opcodes) */ }; /****************************************************************************/ /* The Z80 registers. HALT is set to 1 when the CPU is halted, the refresh */ /* register is calculated as follows: refresh=(Z80.r&127)|(Z80.r2&128) */ /****************************************************************************/ typedef struct { PAIR pc,sp,af,bc,de,hl,ix,iy,wz; PAIR af2,bc2,de2,hl2; UINT8 r,r2,iff1,iff2,halt,im,i; UINT8 nmi_state; /* nmi line state */ UINT8 nmi_pending; /* nmi pending */ UINT8 irq_state; /* irq line state */ UINT8 after_ei; /* are we in the EI shadow? */ const struct z80_irq_daisy_chain *daisy; int (*irq_callback)(int irqline); } Z80_Regs; extern Z80_Regs Z80; void z80_init(int index, int clock, const void *config, int (*irqcallback)(int)); void z80_reset (void); void z80_exit (void); void z80_run(int cycles); void z80_burn(int cycles); void z80_get_context (void *dst); void z80_set_context (void *src); void z80_set_irq_line(int irqline, int state); #endif