/** @file * Sources of the "INTEGER ARITHMETIC" group instructions */ /* $Id$ */ #include "em_abs.h" #include "logging.h" #include "global.h" #include "log.h" #include "mem.h" #include "trap.h" #include "warn.h" #include "text.h" #include "fra.h" PRIVATE long adi(long, long, size), sbi(long, long, size), dvi(long, long); PRIVATE long mli(long, long, size), rmi(long, long), ngi(long, size); PRIVATE long sli(long, long, size), sri(long, long, size); /** ADI w: Addition (*) */ void DoADI(register size l) { register long t = spop(arg_wi(l)); LOG(("@I6 DoADI(%ld)", l)); spoilFRA(); npush(adi(spop(l), t, l), l); } /** SBI w: Subtraction (*) */ void DoSBI(register size l) { register long t = spop(arg_wi(l)); LOG(("@I6 DoSBI(%ld)", l)); spoilFRA(); npush(sbi(spop(l), t, l), l); } /** MLI w: Multiplication (*) */ void DoMLI(register size l) { register long t = spop(arg_wi(l)); LOG(("@I6 DoMLI(%ld)", l)); spoilFRA(); npush(mli(spop(l), t, l), l); } /** DVI w: Division (*) */ void DoDVI(register size l) { register long t = spop(arg_wi(l)); LOG(("@I6 DoDVI(%ld)", l)); spoilFRA(); npush(dvi(spop(l), t), l); } /** RMI w: Remainder (*) */ void DoRMI(register size l) { register long t = spop(arg_wi(l)); LOG(("@I6 DoRMI(%ld)", l)); spoilFRA(); npush(rmi(spop(l), t), l); } /** NGI w: Negate (two's complement) (*) */ void DoNGI(register size l) { LOG(("@I6 DoNGI(%ld)", l)); spoilFRA(); l = arg_wi(l); npush(ngi(spop(l), l), l); } /** SLI w: Shift left (*) */ void DoSLI(register size l) { register long t = swpop(); LOG(("@I6 DoSLI(%ld)", l)); spoilFRA(); l = arg_wi(l); npush(sli(spop(l), t, l), l); } /** SRI w: Shift right (*) */ void DoSRI(register size l) { register long t = swpop(); LOG(("@I6 DoSRI(%ld)", l)); spoilFRA(); l = arg_wi(l); npush(sri(spop(l), t, l), l); } #define i_maxs(n) ((n == 2) ? I_MAXS2 : I_MAXS4) #define i_mins(n) ((n == 2) ? I_MINS2 : I_MINS4) /** Returns "w1" + "w2". */ PRIVATE long adi(long w1, long w2, size nbytes) { if (must_test && !(IgnMask&BIT(EIOVFL))) { if (w1 > 0 && w2 > 0) { if (i_maxs(nbytes) - w1 < w2) trap(EIOVFL); } else if (w1 < 0 && w2 < 0) { if (i_mins(nbytes) - w1 > w2) trap(EIOVFL); } } return (w1 + w2); } /** Returns "w1" - "w2" */ PRIVATE long sbi(long w1, long w2, size nbytes) { if (must_test && !(IgnMask&BIT(EIOVFL))) { if (w2 < 0 && w1 > 0) { if (i_maxs(nbytes) + w2 < w1) trap(EIOVFL); } else if (w2 > 0 && w1 < 0) { if (i_mins(nbytes) + w2 > w1) { trap(EIOVFL); } } } return (w1 - w2); } #define labs(w) ((w < 0) ? (-w) : w) /** Returns "w1" * "w2" */ PRIVATE long mli(long w1, long w2, size nbytes) { if (w1 == 0 || w2 == 0) return (0L); if (must_test && !(IgnMask&BIT(EIOVFL))) { if ((w1 > 0 && w2 > 0) || (w2 < 0 && w1 < 0)) { if ( w1 == i_mins(nbytes) || w2 == i_mins(nbytes) || (i_maxs(nbytes) / labs(w1)) < labs(w2) ) { trap(EIOVFL); } } else if (w1 > 0) { if (i_mins(nbytes) / w1 > w2) trap(EIOVFL); } else if (i_mins(nbytes) / w2 > w1) { trap(EIOVFL); } } return (w1 * w2); } PRIVATE long dvi(long w1, long w2) { if (w2 == 0) { if (!(IgnMask&BIT(EIDIVZ))) { trap(EIDIVZ); } else return (0L); } return (w1 / w2); } PRIVATE long rmi(long w1, long w2) { if (w2 == 0) { if (!(IgnMask&BIT(EIDIVZ))) { trap(EIDIVZ); } else return (0L); } return (w1 % w2); } PRIVATE long ngi(long w1, size nbytes) { if (must_test && !(IgnMask&BIT(EIOVFL))) { if (w1 == i_mins(nbytes)) { trap(EIOVFL); } } return (-w1); } /** "w1" << "w2" */ PRIVATE long sli(long w1, long w2, size nbytes) { if (must_test) { #ifdef LOGGING /* check shift distance */ if (w2 < 0) { warning(WSHNEG); w2 = 0; } if (w2 >= nbytes*8) { warning(WSHLARGE); w2 = nbytes*8 - 1; } #endif /* LOGGING */ if (!(IgnMask&BIT(EIOVFL))) { /* check overflow */ if ( (w1 >= 0 && (w1 >> (nbytes*8 - w2)) != 0) || (w1 < 0 && (w1 >> (nbytes*8 - w2)) != -1) ) { trap(EIOVFL); } } } /* calculate result */ return (w1 << w2); } /*ARGSUSED*/ PRIVATE long sri(long w1, long w2, size nbytes) /* w1 >> w2 */ { #ifdef LOGGING if (must_test) { /* check shift distance */ if (w2 < 0) { warning(WSHNEG); w2 = 0; } if (w2 >= nbytes*8) { warning(WSHLARGE); w2 = nbytes*8 - 1; } } #endif /* LOGGING */ /* calculate result */ return (w1 >> w2); }