#ifndef __Z80E_H__
#define __Z80E_H__
#include <stdint.h>
typedef struct {
uint16_t address;
uint8_t old_value;
void *callback; // z80e_watched_mem_cb*
void *next; // z80e_watched_mem_t*
} z80e_watched_mem_t;
typedef struct {
uint8_t io_addr;
int interrupt;
void *write_cb; // z80e_iowrite_cb*
void *read_cb; // z80e_ioread_cb*
void *iorq_cb; // z80e_iorq_cb*
void *next; // z80e_device_t*
} z80e_device_t;
#pragma pack(push, 1)
typedef struct {
uint8_t b, c, d, e, h, l;
uint8_t i;
uint8_t a, f;
uint8_t bp, cp, dp, ep, hp, lp;
uint8_t iff;
uint8_t ap, fp;
uint16_t pc, sp;
uint16_t ix, iy;
uint8_t im;
uint8_t memory[0x10000]; // 64k
int nmi;
int halt;
z80e_device_t *devices;
z80e_watched_mem_t *watched_mem;
uint16_t mirror_base[2];
uint16_t mirror_len;
} Z80E;
#pragma pack(pop)
typedef enum {
Z80E_S = 0x80,
Z80E_Z = 0x40,
Z80E_H = 0x20,
Z80E_P = 0x04,
Z80E_N = 0x12,
Z80E_C = 0x01
} z80e_flag_t;
typedef enum {
Z80E_HALT,
Z80E_BREAKPOINT,
Z80E_CYCLES
} z80e_stop_reason_t;
typedef struct {
uint8_t io_addr;
uint8_t write;
uint8_t byte;
} z80e_io_t;
typedef void z80e_watched_mem_cb(Z80E*, const z80e_watched_mem_t*);
typedef void z80e_iowrite_cb(Z80E*, uint8_t, uint8_t);
typedef uint8_t z80e_ioread_cb(Z80E*, uint8_t);
typedef uint8_t z80e_iorq_cb(Z80E*, uint8_t);
Z80E *z80e_new();
void z80e_destroy(Z80E *cpu);
int z80e_step(Z80E *cpu);
z80e_stop_reason_t z80e_run(Z80E *cpu, int cycles);
void z80e_interrupt(Z80E *cpu, uint8_t io_addr);
void z80e_clr_interrupt(Z80E *cpu, uint8_t io_addr);
void z80e_nmi(Z80E *cpu, uint8_t io_addr);
int z80e_connect_io(Z80E *cpu, uint8_t io_addr, z80e_iowrite_cb *write_cb,
z80e_ioread_cb *read_cb, z80e_iorq_cb *iorq_cb);
void z80e_disconnect_io(Z80E *cpu, uint8_t io_addr);
int z80e_watch_mem(Z80E *cpu, uint16_t addr, z80e_watched_mem_cb *callbk);
void z80e_unwatch_mem(Z80E *cpu, uint16_t addr);
int z80e_mirror(Z80E *cpu, uint16_t base1, uint16_t base2, uint16_t length);
void z80e_no_mirror(Z80E *cpu);
float z80e_max_clock();
#endif // __Z80E_H__
