/*
  * UAE - The Un*x Amiga Emulator
  *
  * MC68000 emulation - machine dependent bits
  *
  * Copyright 1996 Bernd Schmidt, Samuel Devulder
  * Copyright 2004-2007 Richard Drummond
  */

 /*
  * Machine dependent structure for holding the 68k CCR flags
  */
struct flag_struct {
    unsigned short int cznv;
    unsigned short int x;
};

extern struct flag_struct regflags;

/*
 * The bits in the cznv field are assigned in correspondence to the
 * CZNV flags in the 68k CCR register
 */
#define FLAGBIT_N	3
#define FLAGBIT_Z	2
#define FLAGBIT_V	1
#define FLAGBIT_C	0
#define FLAGBIT_X	FLAGBIT_C

#define FLAGVAL_N	(1 << FLAGBIT_N)
#define FLAGVAL_Z 	(1 << FLAGBIT_Z)
#define FLAGVAL_C	(1 << FLAGBIT_C)
#define FLAGVAL_V	(1 << FLAGBIT_V)
#define FLAGVAL_X	(1 << FLAGBIT_X)

#define SET_ZFLG(flags, y)	((flags)->cznv = ((flags)->cznv & ~FLAGVAL_Z) | ((y) << FLAGBIT_Z))
#define SET_CFLG(flags, y)	((flags)->cznv = ((flags)->cznv & ~FLAGVAL_C) | ((y) << FLAGBIT_C))
#define SET_VFLG(flags, y)	((flags)->cznv = ((flags)->cznv & ~FLAGVAL_V) | ((y) << FLAGBIT_V))
#define SET_NFLG(flags, y)	((flags)->cznv = ((flags)->cznv & ~FLAGVAL_N) | ((y) << FLAGBIT_N))
#define SET_XFLG(flags, y)	((flags)->x    = (y) << FLAGBIT_X)

#define GET_ZFLG(flags)		(((flags)->cznv >> FLAGBIT_Z) & 1)
#define GET_CFLG(flags)		(((flags)->cznv >> FLAGBIT_C) & 1)
#define GET_VFLG(flags)		(((flags)->cznv >> FLAGBIT_V) & 1)
#define GET_NFLG(flags)		(((flags)->cznv >> FLAGBIT_N) & 1)
#define GET_XFLG(flags)		(((flags)->x >> FLAGBIT_X) & 1)

#define CLEAR_CZNV(flags)	((flags)->cznv = 0)
#define GET_CZNV(flags)		((flags)->cznv)
#define IOR_CZNV(flags, X)	((flags)->cznv |= (X))
#define SET_CZNV(flags, X)	((flags)->cznv = (X))

#define COPY_CARRY(flags)	((flags)->x = (flags)->cznv)

/*
 * Test CCR condition
 */
STATIC_INLINE int cctrue (const struct flag_struct *flags, int cc)
{
    uae_u32 cznv = flags->cznv;

    switch (cc) {
	case 0:  return 1;								/*				T  */
	case 1:  return 0;								/*				F  */
	case 2:  return (cznv & (FLAGVAL_C | FLAGVAL_Z)) == 0;				/* !CFLG && !ZFLG		HI */
	case 3:  return (cznv & (FLAGVAL_C | FLAGVAL_Z)) != 0;				/*  CFLG || ZFLG		LS */
	case 4:  return (cznv & FLAGVAL_C) == 0;					/* !CFLG			CC */
	case 5:  return (cznv & FLAGVAL_C) != 0;					/*  CFLG			CS */
	case 6:  return (cznv & FLAGVAL_Z) == 0;					/* !ZFLG			NE */
	case 7:  return (cznv & FLAGVAL_Z) != 0;					/*  ZFLG			EQ */
	case 8:  return (cznv & FLAGVAL_V) == 0;					/* !VFLG			VC */
	case 9:  return (cznv & FLAGVAL_V) != 0;					/*  VFLG			VS */
	case 10: return (cznv & FLAGVAL_N) == 0;					/* !NFLG			PL */
	case 11: return (cznv & FLAGVAL_N) != 0;					/*  NFLG			MI */
	case 12: return (((cznv << (FLAGBIT_N - FLAGBIT_V)) ^ cznv) & FLAGVAL_N) == 0;	/*  NFLG == VFLG		GE */
	case 13: return (((cznv << (FLAGBIT_N - FLAGBIT_V)) ^ cznv) & FLAGVAL_N) != 0;	/*  NFLG != VFLG		LT */
	case 14: cznv &= (FLAGVAL_N | FLAGVAL_Z | FLAGVAL_V);				/* ZFLG && (NFLG == VFLG)	GT */
		 return (((cznv << (FLAGBIT_N - FLAGBIT_V)) ^ cznv) & (FLAGVAL_N | FLAGVAL_Z)) == 0;
	case 15: cznv &= (FLAGVAL_N | FLAGVAL_Z | FLAGVAL_V);				/* ZFLG && (NFLG != VFLG)	LE */
		 return (((cznv << (FLAGBIT_N - FLAGBIT_V)) ^ cznv) & (FLAGVAL_N | FLAGVAL_Z)) != 0;
    }
    abort ();
    return 0;
}