# include "../ingres.h" # include "../tree.h" # include "../symbol.h" # include "../access.h" # include "decomp.h" /** ** usubr.c ** ** utility routines to handle setting up params, etc for DBU calls **/ /* * generate domain names, formats */ domnam(lnp, pre) struct querytree **lnp; char *pre; { register char suf, *n, **p; char name[MAXNAME]; suf = '1'; for (n=name; *n++= *pre++;); *n = '\0'; n--; for (p=lnp; *p; p++) { *n = suf++; setp(name); setp(format(*p)); } return; } /* ** Parameter buffer for use in calling dbu routines. ** The buffer is manipulated by setp() and initp(). ** It is interrogated by call_dbu(). */ char *Pv[PARGSIZE]; /* array of pointers to parameters */ char Pbuffer[PBUFSIZE]; /* space for actual parameters */ int Pcount; /* next free char in Pbuffer */ int Pc; /* number of parameters */ initp() /* ** Init parameter buffer to have no params. */ { Pc = 0; Pcount = 0; } setp(s) char *s; /* ** Copy the paramer s into the parameter buffer. */ { register char *r, *p; register int i; r = s; i = Pcount; p = &Pbuffer[i]; /* copy parameter */ Pv[Pc++] = p; while (*p++ = *r++) i++; Pcount = ++i; /* check for overflow */ if (i > PBUFSIZE || Pc >= PARGSIZE) syserr("setp overflow chars=%d,args=%d", i, Pc); } /* * gets format in ascii from RESDOM or AOP node */ char * format(p) struct querytree *p; { static char buf[10]; register char *b; b = buf; *b++ = p->frmt; itoa(p->frml & I1MASK, b); return(buf); } /* * makes list of nodes (depth first) */ lnode(nod, lnodv, count) struct querytree *nod, *lnodv[]; int count; { register struct querytree *q; register int i; i = count; q = nod; if (q && q->sym.type != TREE) { i = lnode(q->left, lnodv, i); lnodv[i++] = q; } return(i); } dstr_rel(relnum) int relnum; /* ** Immediately destroys the relation if it is an _SYS */ { initp(); dstr_mark(relnum); dstr_flush(0); } dstr_mark(relnum) int relnum; /* ** Put relation on list of relations to be ** destroyed. A call to initp() must be ** made before any calls to dstr_mark(). ** ** A call to dstr_flush() will actually have ** the relations exterminated */ { register char *p; char *rnum_convert(); if (rnum_temp(relnum)) { p = rnum_convert(relnum); # ifdef xDTR1 if (tTf(3, 4)) printf("destroying %s\n", p); # endif setp(p); specclose(relnum); /* guarantee that relation is closed and descriptor destroyed */ rnum_remove(relnum); } } dstr_flush(errflag) int errflag; /* ** call destroy if any relations are ** in the parameter vector */ { if (Pc) call_dbu(mdDESTROY, errflag); } mak_t_rel(tree, prefix, rnum) struct querytree *tree; char *prefix; int rnum; /* ** Make a temporary relation to match ** the target list of tree. ** ** If rnum is positive, use it as the relation number, ** Otherwise allocate a new one. */ { char *lnodv[MAXDOM + 1]; register int i, relnum; initp(); setp("0"); /* initial relstat field */ relnum = rnum < 0 ? rnum_alloc() : rnum; setp(rnum_convert(relnum)); lnodv[lnode(tree->left, lnodv, 0)] = 0; domnam(lnodv, prefix); call_dbu(mdCREATE, FALSE); return (relnum); } struct querytree **mksqlist(tree, var) struct querytree *tree; int var; { register struct querytree **sq; register int i; static struct querytree *sqlist[MAXRANGE]; sq = sqlist; for (i = 0; i < MAXRANGE; i++) *sq++ = 0; sqlist[var] = tree; return (sqlist); } long rel_pages(tupcnt, width) long tupcnt; int width; { register int tups_p_page; tups_p_page = (PGSIZE - 12) / (width + 2); return ((tupcnt + tups_p_page - 1) / tups_p_page); }