384 lines
8.6 KiB
C
384 lines
8.6 KiB
C
/****************************************************************
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Copyright 1990, 1993 by AT&T Bell Laboratories and Bellcore.
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Permission to use, copy, modify, and distribute this software
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and its documentation for any purpose and without fee is hereby
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granted, provided that the above copyright notice appear in all
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copies and that both that the copyright notice and this
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permission notice and warranty disclaimer appear in supporting
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documentation, and that the names of AT&T Bell Laboratories or
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Bellcore or any of their entities not be used in advertising or
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publicity pertaining to distribution of the software without
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specific, written prior permission.
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AT&T and Bellcore disclaim all warranties with regard to this
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software, including all implied warranties of merchantability
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and fitness. In no event shall AT&T or Bellcore be liable for
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any special, indirect or consequential damages or any damages
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whatsoever resulting from loss of use, data or profits, whether
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in an action of contract, negligence or other tortious action,
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arising out of or in connection with the use or performance of
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this software.
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****************************************************************/
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#include "defs.h"
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LOCAL eqvcommon(), eqveqv(), nsubs();
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/* ROUTINES RELATED TO EQUIVALENCE CLASS PROCESSING */
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/* called at end of declarations section to process chains
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created by EQUIVALENCE statements
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*/
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doequiv()
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{
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register int i;
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int inequiv; /* True if one namep occurs in
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several EQUIV declarations */
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int comno; /* Index into Extsym table of the last
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COMMON block seen (implicitly assuming
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that only one will be given) */
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int ovarno;
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ftnint comoffset; /* Index into the COMMON block */
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ftnint offset; /* Offset from array base */
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ftnint leng;
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register struct Equivblock *equivdecl;
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register struct Eqvchain *q;
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struct Primblock *primp;
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register Namep np;
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int k, k1, ns, pref, t;
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chainp cp;
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extern int type_pref[];
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char *s;
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for(i = 0 ; i < nequiv ; ++i)
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{
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/* Handle each equivalence declaration */
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equivdecl = &eqvclass[i];
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equivdecl->eqvbottom = equivdecl->eqvtop = 0;
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comno = -1;
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for(q = equivdecl->equivs ; q ; q = q->eqvnextp)
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{
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offset = 0;
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primp = q->eqvitem.eqvlhs;
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vardcl(np = primp->namep);
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if(primp->argsp || primp->fcharp)
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{
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expptr offp, suboffset();
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/* Pad ones onto the end of an array declaration when needed */
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if(np->vdim!=NULL && np->vdim->ndim>1 &&
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nsubs(primp->argsp)==1 )
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{
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if(! ftn66flag)
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warni
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("1-dim subscript in EQUIVALENCE, %d-dim declared",
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np -> vdim -> ndim);
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cp = NULL;
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ns = np->vdim->ndim;
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while(--ns > 0)
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cp = mkchain((char *)ICON(1), cp);
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primp->argsp->listp->nextp = cp;
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}
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offp = suboffset(primp);
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if(ISICON(offp))
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offset = offp->constblock.Const.ci;
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else {
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dclerr
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("nonconstant subscript in equivalence ",
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np);
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np = NULL;
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}
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frexpr(offp);
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}
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/* Free up the primblock, since we now have a hash table (Namep) entry */
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frexpr((expptr)primp);
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if(np && (leng = iarrlen(np))<0)
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{
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dclerr("adjustable in equivalence", np);
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np = NULL;
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}
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if(np) switch(np->vstg)
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{
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case STGUNKNOWN:
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case STGBSS:
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case STGEQUIV:
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if (in_vector(np->cvarname, st_fields,
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n_st_fields) >= 0) {
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k = strlen(np->cvarname);
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strcpy(s = mem(k+2,0), np->cvarname);
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s[k] = '_';
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s[k+1] = 0;
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np->cvarname = s;
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}
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break;
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case STGCOMMON:
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/* The code assumes that all COMMON references in a given EQUIVALENCE will
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be to the same COMMON block, and will all be consistent */
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comno = np->vardesc.varno;
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comoffset = np->voffset + offset;
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break;
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default:
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dclerr("bad storage class in equivalence", np);
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np = NULL;
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break;
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}
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if(np)
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{
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q->eqvoffset = offset;
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/* eqvbottom gets the largest difference between the array base address
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and the address specified in the EQUIV declaration */
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equivdecl->eqvbottom =
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lmin(equivdecl->eqvbottom, -offset);
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/* eqvtop gets the largest difference between the end of the array and
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the address given in the EQUIVALENCE */
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equivdecl->eqvtop =
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lmax(equivdecl->eqvtop, leng-offset);
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}
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q->eqvitem.eqvname = np;
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}
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/* Now all equivalenced variables are in the hash table with the proper
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offset, and eqvtop and eqvbottom are set. */
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if(comno >= 0)
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/* Get rid of all STGEQUIVS, they will be mapped onto STGCOMMON variables
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*/
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eqvcommon(equivdecl, comno, comoffset);
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else for(q = equivdecl->equivs ; q ; q = q->eqvnextp)
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{
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if(np = q->eqvitem.eqvname)
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{
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inequiv = NO;
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if(np->vstg==STGEQUIV)
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if( (ovarno = np->vardesc.varno) == i)
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{
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/* Can't EQUIV different elements of the same array */
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if(np->voffset + q->eqvoffset != 0)
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dclerr
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("inconsistent equivalence", np);
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}
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else {
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offset = np->voffset;
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inequiv = YES;
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}
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np->vstg = STGEQUIV;
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np->vardesc.varno = i;
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np->voffset = - q->eqvoffset;
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if(inequiv)
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/* Combine 2 equivalence declarations */
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eqveqv(i, ovarno, q->eqvoffset + offset);
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}
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}
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}
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/* Now each equivalence declaration is distinct (all connections have been
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merged in eqveqv()), and some may be empty. */
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for(i = 0 ; i < nequiv ; ++i)
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{
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equivdecl = & eqvclass[i];
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if(equivdecl->eqvbottom!=0 || equivdecl->eqvtop!=0) {
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/* a live chain */
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k = TYCHAR;
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pref = 1;
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for(q = equivdecl->equivs ; q; q = q->eqvnextp)
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if ((np = q->eqvitem.eqvname)
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&& !np->veqvadjust) {
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np->veqvadjust = 1;
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np->voffset -= equivdecl->eqvbottom;
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t = typealign[k1 = np->vtype];
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if (pref < type_pref[k1]) {
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k = k1;
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pref = type_pref[k1];
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}
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if(np->voffset % t != 0) {
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dclerr("bad alignment forced by equivalence", np);
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--nerr; /* don't give bad return code for this */
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}
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}
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equivdecl->eqvtype = k;
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}
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freqchain(equivdecl);
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}
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}
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/* put equivalence chain p at common block comno + comoffset */
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LOCAL eqvcommon(p, comno, comoffset)
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struct Equivblock *p;
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int comno;
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ftnint comoffset;
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{
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int ovarno;
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ftnint k, offq;
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register Namep np;
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register struct Eqvchain *q;
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if(comoffset + p->eqvbottom < 0)
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{
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errstr("attempt to extend common %s backward",
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extsymtab[comno].fextname);
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freqchain(p);
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return;
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}
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if( (k = comoffset + p->eqvtop) > extsymtab[comno].extleng)
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extsymtab[comno].extleng = k;
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for(q = p->equivs ; q ; q = q->eqvnextp)
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if(np = q->eqvitem.eqvname)
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{
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switch(np->vstg)
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{
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case STGUNKNOWN:
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case STGBSS:
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np->vstg = STGCOMMON;
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np->vcommequiv = 1;
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np->vardesc.varno = comno;
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/* np -> voffset will point to the base of the array */
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np->voffset = comoffset - q->eqvoffset;
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break;
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case STGEQUIV:
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ovarno = np->vardesc.varno;
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/* offq will point to the current element, even if it's in an array */
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offq = comoffset - q->eqvoffset - np->voffset;
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np->vstg = STGCOMMON;
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np->vcommequiv = 1;
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np->vardesc.varno = comno;
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/* np -> voffset will point to the base of the array */
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np->voffset += offq;
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if(ovarno != (p - eqvclass))
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eqvcommon(&eqvclass[ovarno], comno, offq);
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break;
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case STGCOMMON:
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if(comno != np->vardesc.varno ||
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comoffset != np->voffset+q->eqvoffset)
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dclerr("inconsistent common usage", np);
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break;
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default:
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badstg("eqvcommon", np->vstg);
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}
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}
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freqchain(p);
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p->eqvbottom = p->eqvtop = 0;
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}
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/* Move all items on ovarno chain to the front of nvarno chain.
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* adjust offsets of ovarno elements and top and bottom of nvarno chain
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*/
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LOCAL eqveqv(nvarno, ovarno, delta)
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int ovarno, nvarno;
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ftnint delta;
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{
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register struct Equivblock *neweqv, *oldeqv;
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register Namep np;
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struct Eqvchain *q, *q1;
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neweqv = eqvclass + nvarno;
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oldeqv = eqvclass + ovarno;
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neweqv->eqvbottom = lmin(neweqv->eqvbottom, oldeqv->eqvbottom - delta);
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neweqv->eqvtop = lmax(neweqv->eqvtop, oldeqv->eqvtop - delta);
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oldeqv->eqvbottom = oldeqv->eqvtop = 0;
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for(q = oldeqv->equivs ; q ; q = q1)
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{
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q1 = q->eqvnextp;
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if( (np = q->eqvitem.eqvname) && np->vardesc.varno==ovarno)
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{
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q->eqvnextp = neweqv->equivs;
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neweqv->equivs = q;
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q->eqvoffset += delta;
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np->vardesc.varno = nvarno;
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np->voffset -= delta;
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}
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else free( (charptr) q);
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}
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oldeqv->equivs = NULL;
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}
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freqchain(p)
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register struct Equivblock *p;
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{
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register struct Eqvchain *q, *oq;
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for(q = p->equivs ; q ; q = oq)
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{
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oq = q->eqvnextp;
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free( (charptr) q);
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}
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p->equivs = NULL;
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}
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/* nsubs -- number of subscripts in this arglist (just the length of the
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list) */
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LOCAL nsubs(p)
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register struct Listblock *p;
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{
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register int n;
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register chainp q;
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n = 0;
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if(p)
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for(q = p->listp ; q ; q = q->nextp)
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++n;
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return(n);
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}
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