#include "defs" /* ROUTINES CALLED DURING DATA STATEMENT PROCESSING */ static char datafmt[] = "%s\t%05ld\t%05ld\t%d" ; /* another initializer, called from parser */ dataval(repp, valp) register struct constblock *repp, *valp; { int i, nrep; ftnint elen, vlen; register struct addrblock *p; struct addrblock *nextdata(); if(repp == NULL) nrep = 1; else if (ISICON(repp) && repp->const.ci >= 0) nrep = repp->const.ci; else { err("invalid repetition count in DATA statement"); frexpr(repp); goto ret; } frexpr(repp); if( ! ISCONST(valp) ) { err("non-constant initializer"); goto ret; } if(toomanyinit) goto ret; for(i = 0 ; i < nrep ; ++i) { p = nextdata(&elen, &vlen); if(p == NULL) { err("too many initializers"); toomanyinit = YES; goto ret; } setdata(p, valp, elen, vlen); frexpr(p); } ret: frexpr(valp); } struct addrblock *nextdata(elenp, vlenp) ftnint *elenp, *vlenp; { register struct impldoblock *ip; struct primblock *pp; register struct nameblock *np; register struct rplblock *rp; tagptr p; expptr neltp; register expptr q; int skip; ftnint off; struct constblock *mkintcon(); while(curdtp) { p = curdtp->datap; if(p->tag == TIMPLDO) { ip = p; if(ip->implb==NULL || ip->impub==NULL || ip->varnp==NULL) fatal1("bad impldoblock 0%o", ip); if(ip->isactive) ip->varvp->const.ci += ip->impdiff; else { q = fixtype(cpexpr(ip->implb)); if( ! ISICON(q) ) goto doerr; ip->varvp = q; if(ip->impstep) { q = fixtype(cpexpr(ip->impstep)); if( ! ISICON(q) ) goto doerr; ip->impdiff = q->const.ci; frexpr(q); } else ip->impdiff = 1; q = fixtype(cpexpr(ip->impub)); if(! ISICON(q)) goto doerr; ip->implim = q->const.ci; frexpr(q); ip->isactive = YES; rp = ALLOC(rplblock); rp->nextp = rpllist; rpllist = rp; rp->rplnp = ip->varnp; rp->rplvp = ip->varvp; rp->rpltag = TCONST; } if( (ip->impdiff>0 && (ip->varvp->const.ci <= ip->implim)) || (ip->impdiff<0 && (ip->varvp->const.ci >= ip->implim)) ) { /* start new loop */ curdtp = ip->datalist; goto next; } /* clean up loop */ popstack(&rpllist); frexpr(ip->varvp); ip->isactive = NO; curdtp = curdtp->nextp; goto next; } pp = p; np = pp->namep; skip = YES; if(p->argsp==NULL && np->vdim!=NULL) { /* array initialization */ q = mkaddr(np); off = typesize[np->vtype] * curdtelt; if(np->vtype == TYCHAR) off *= np->vleng->const.ci; q->memoffset = mkexpr(OPPLUS, q->memoffset, mkintcon(off) ); if( (neltp = np->vdim->nelt) && ISCONST(neltp)) { if(++curdtelt < neltp->const.ci) skip = NO; } else err("attempt to initialize adjustable array"); } else q = mklhs( cpexpr(pp) ); if(skip) { curdtp = curdtp->nextp; curdtelt = 0; } if(q->vtype == TYCHAR) if(ISICON(q->vleng)) *elenp = q->vleng->const.ci; else { err("initialization of string of nonconstant length"); continue; } else *elenp = typesize[q->vtype]; if(np->vstg == STGCOMMON) *vlenp = extsymtab[np->vardesc.varno].maxleng; else if(np->vstg == STGEQUIV) *vlenp = eqvclass[np->vardesc.varno].eqvleng; else { *vlenp = (np->vtype==TYCHAR ? np->vleng->const.ci : typesize[np->vtype]); if(np->vdim) *vlenp *= np->vdim->nelt->const.ci; } return(q); doerr: err("nonconstant implied DO parameter"); frexpr(q); curdtp = curdtp->nextp; next: curdtelt = 0; } return(NULL); } LOCAL setdata(varp, valp, elen, vlen) struct addrblock *varp; ftnint elen, vlen; struct constblock *valp; { union constant con; int i, k; int stg, type, valtype; ftnint offset; register char *s, *t; char *memname(); static char varname[XL+2]; /* output form of name is padded with blanks and preceded with a storage class digit */ stg = varp->vstg; varname[0] = (stg==STGCOMMON ? '2' : (stg==STGEQUIV ? '1' : '0') ); s = memname(stg, varp->memno); for(t = varname+1 ; *s ; ) *t++ = *s++; while(t < varname+XL+1) *t++ = ' '; varname[XL+1] = '\0'; offset = varp->memoffset->const.ci; type = varp->vtype; valtype = valp->vtype; if(type!=TYCHAR && valtype==TYCHAR) { if(! ftn66flag) warn("non-character datum initialized with character string"); varp->vleng = ICON(typesize[type]); varp->vtype = type = TYCHAR; } else if( (type==TYCHAR && valtype!=TYCHAR) || (cktype(OPASSIGN,type,valtype) == TYERROR) ) { err("incompatible types in initialization"); return; } if(type != TYCHAR) if(valtype == TYUNKNOWN) con.ci = valp->const.ci; else consconv(type, &con, valtype, &valp->const); k = 1; switch(type) { case TYLOGICAL: type = tylogical; case TYSHORT: case TYLONG: fprintf(initfile, datafmt, varname, offset, vlen, type); prconi(initfile, type, con.ci); break; case TYCOMPLEX: k = 2; type = TYREAL; case TYREAL: goto flpt; case TYDCOMPLEX: k = 2; type = TYDREAL; case TYDREAL: flpt: for(i = 0 ; i < k ; ++i) { fprintf(initfile, datafmt, varname, offset, vlen, type); prconr(initfile, type, con.cd[i]); offset += typesize[type]; } break; case TYCHAR: k = valp->vleng->const.ci; if(elen < k) k = elen; for(i = 0 ; i < k ; ++i) { fprintf(initfile, datafmt, varname, offset++, vlen, TYCHAR); fprintf(initfile, "\t%d\n", valp->const.ccp[i]); } k = elen - valp->vleng->const.ci; while( k-- > 0) { fprintf(initfile, datafmt, varname, offset++, vlen, TYCHAR); fprintf(initfile, "\t%d\n", ' '); } break; default: fatal1("setdata: impossible type %d", type); } } frdata(p0) chainp p0; { register chainp p; register tagptr q; for(p = p0 ; p ; p = p->nextp) { q = p->datap; if(q->tag == TIMPLDO) { if(q->isbusy) return; /* circular chain completed */ q->isbusy = YES; frdata(q->datalist); free(q); } else frexpr(q); } frchain( &p0); }