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6fb4b9a189
* Remove static char *id = from all source files. The same information is included in a comment in each source file. * Remove unused template file 'id'
276 lines
6.4 KiB
C
276 lines
6.4 KiB
C
/* $Id: arith2.c,v 1.4 2001/12/24 01:08:58 sybalsky Exp $ (C) Copyright Venue, All Rights Reserved
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*/
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/************************************************************************/
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/* */
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/* (C) Copyright 1989-99 Venue. All Rights Reserved. */
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/* Manufactured in the United States of America. */
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/* */
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/************************************************************************/
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#include "version.h"
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#include <stdio.h>
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#include "lispemul.h"
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#include "lspglob.h"
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#include "adr68k.h"
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#include "lispmap.h"
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#include "lsptypes.h"
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#include "medleyfp.h"
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#include "arith.h"
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#include "arith2defs.h"
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#include "fpdefs.h"
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#include "mkcelldefs.h"
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/************************************************************
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N_OP_plus2
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entry PLUS2 OPCODE[0324]
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entry IPLUS2 OPCODE[0330]
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return(tos + b)
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************************************************************/
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LispPTR N_OP_plus2(int tosm1, int tos) {
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register int arg1, arg2;
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register int result;
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N_GETNUMBER(tos, arg1, doufn);
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N_GETNUMBER(tosm1, arg2, doufn);
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#ifdef USE_INLINE_ARITH
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result = plus32(arg1, arg2);
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N_ARITH_SWITCH(result);
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doufn2:
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plus_err_label();
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ERROR_EXIT(tos);
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#else
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/* UB: signed integer overflow: 2147483647 + 2147483647 cannot be represented in type 'int' */
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result = arg1 + arg2;
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if (((arg1 >= 0) == (arg2 >= 0)) && ((result >= 0) != (arg1 >= 0))) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif /* USE_INLINE_ARITH */
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doufn:
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return (N_OP_fplus2(tosm1, tos));
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}
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/************************************************************************/
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/* */
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/* N _ O P _ i p l u s 2 */
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/* */
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/* Implements the IPLUS2 opcode--add the two arguments, which */
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/* must be SMALLP or FIXP */
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/* */
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/************************************************************************/
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LispPTR N_OP_iplus2(int tosm1, int tos) {
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register int arg1, arg2;
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register int result;
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N_IGETNUMBER(tos, arg1, doufn);
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N_IGETNUMBER(tosm1, arg2, doufn);
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#ifdef USE_INLINE_ARITH
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result = iplus32(arg1, arg2);
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N_ARITH_SWITCH(result);
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dummy:
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iplus_err_label();
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#else
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/* UB: signed integer overflow: 2147483647 + 2147483647 cannot be represented in type 'int' */
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result = arg1 + arg2;
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if (((arg1 >= 0) == (arg2 >= 0)) && ((result >= 0) != (arg1 >= 0))) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif /* USE_INLINE_ARITH */
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doufn:
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ERROR_EXIT(tos);
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}
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/************************************************************
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N_OP_difference
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entry DIFFERENCE OPCODE[0325]
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entry IDIFFERENCE OPCODE[0331]
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return(a - tos)
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************************************************************/
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LispPTR N_OP_difference(int tosm1, int tos) {
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register int arg1, arg2;
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register int result;
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N_GETNUMBER(tosm1, arg1, doufn);
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N_GETNUMBER(tos, arg2, doufn);
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#ifdef USE_INLINE_ARITH
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result = sub32(arg1, arg2);
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N_ARITH_SWITCH(result);
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doufn2:
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diff_err_label();
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ERROR_EXIT(tos);
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#else
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/* UB: signed integer overflow: -2147483647 - 320 cannot be represented in type 'int' */
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result = arg1 - arg2;
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if (((arg1 >= 0) == (arg2 < 0)) && ((result >= 0) != (arg1 >= 0))) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif
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doufn:
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return (N_OP_fdifference(tosm1, tos));
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}
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LispPTR N_OP_idifference(int tosm1, int tos) {
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register int arg1, arg2;
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register int result;
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N_IGETNUMBER(tosm1, arg1, doufn);
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N_IGETNUMBER(tos, arg2, doufn);
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#ifdef USE_INLINE_ARITH
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result = isub32(arg1, arg2);
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N_ARITH_SWITCH(result);
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dummy:
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idiff_err_label();
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#else
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/* UB: signed integer overflow: -2147483647 - 100 cannot be represented in type 'int' */
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result = arg1 - arg2;
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if (((arg1 >= 0) == (arg2 < 0)) && ((result >= 0) != (arg1 >= 0))) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif
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doufn:
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ERROR_EXIT(tos);
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}
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/************************************************************
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N_OP_logxor
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entry LOGXOR2 OPCODE[0346]
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return(tosm1 ^ tos)
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************************************************************/
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LispPTR N_OP_logxor(int tosm1, int tos) { N_IARITH_BODY_2(tosm1, tos, ^); }
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/************************************************************
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N_OP_logand
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entry LOGAND2 OPCODE[0345]
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return(tosm1 & tos)
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************************************************************/
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LispPTR N_OP_logand(int tosm1, int tos) { N_IARITH_BODY_2(tosm1, tos, &); }
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/************************************************************
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N_OP_logor
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entry LOGOR2 OPCODE[0344]
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return(tosm1 | tos)
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************************************************************/
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LispPTR N_OP_logor(int tosm1, int tos) { N_IARITH_BODY_2(tosm1, tos, |); }
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/************************************************************
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N_OP_greaterp
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entry GREATERP OPCODE[0363]
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entry IGREATERP OPCODE[0361]
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return(tosm1 > tos)
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************************************************************/
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LispPTR N_OP_greaterp(int tosm1, int tos) {
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register int arg1, arg2;
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N_GETNUMBER(tosm1, arg1, do_ufn);
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N_GETNUMBER(tos, arg2, do_ufn);
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if (arg1 > arg2)
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return (ATOM_T);
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else
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return (NIL_PTR);
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do_ufn:
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return (N_OP_fgreaterp(tosm1, tos));
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}
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LispPTR N_OP_igreaterp(int tosm1, int tos) {
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register int arg1, arg2;
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N_IGETNUMBER(tosm1, arg1, do_ufn);
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N_IGETNUMBER(tos, arg2, do_ufn);
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if (arg1 > arg2)
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return (ATOM_T);
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else
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return (NIL_PTR);
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do_ufn:
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ERROR_EXIT(tos);
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}
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/************************************************************
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N_OP_iplusn
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entry IPLUS.N OPCODE[0335]
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return(tos + n)
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************************************************************/
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LispPTR N_OP_iplusn(int tos, int n) {
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register int arg1;
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register int result;
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N_IGETNUMBER(tos, arg1, do_ufn);
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#ifdef USE_INLINE_ARITH
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result = iplus32n(arg1, n);
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N_ARITH_SWITCH(result);
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dummy:
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iplusn_err_label();
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#else
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result = arg1 + n;
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if ((result < 0) && (arg1 >= 0)) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif
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do_ufn:
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ERROR_EXIT(tos);
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}
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/************************************************************
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N_OP_idifferencen
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entry IDIFFERENCE.N OPCODE[0336]
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return(tos - n)
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************************************************************/
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LispPTR N_OP_idifferencen(int tos, int n) {
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register int arg1;
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register int result;
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N_IGETNUMBER(tos, arg1, do_ufn);
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#ifdef USE_INLINE_ARITH
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result = sub32n(arg1, n);
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N_ARITH_SWITCH(result);
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dummy:
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idiffn_err_label();
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#else
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result = arg1 - n;
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if ((result >= 0) && (arg1 < 0)) { ERROR_EXIT(tos); }
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N_ARITH_SWITCH(result);
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#endif
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do_ufn:
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ERROR_EXIT(tos);
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}
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