V7M/src/cmd/struct/3.reach.c
#include <stdio.h>
#
/*
set REACH[v] = w if w is only node outside subtree of v which is reached from within
subtree of v, REACH[v] = UNDEFINED otherwise
*/
#include "def.h"
/* strategy in obtaining REACH(v) for each node v:
Since only need to know whether there is exactly one exit from subtree of v,
need keep track only of 2 farthest exits from each subtree rather than all exits.
The first may be the unique exit, while the second is used when the children
of a node has the same first exit.
To obtain 2 farthest exits of v, look at 2 farthest exits of children of v and
the nodes entered by arcs from v. Farthest exits are identified by numbering
the nodes from -2 to -(accessnum-2) starting at the bottom left corner of tree
using procedure number(). The farthest exit from the subtree of v is the one
with the least number according NUM to this numbering. If a node w is an exit from the
subtree of v, then NUM(w) < NUM(v). The negative numbers allow NUM(v) to be stored
in the same location as REACH(v). REACH(w) may already be set when an arc (v,w) to a child
is searched, but the negative numbering is consistent, i.e. NUM(v) < NUM(w) in this case
as in other cases where w is not an exit from the subtree of v.
*/
struct pair {
int smallest;
int second;
};
getreach() /* obtain REACH(v) for each node v */
{
VERT v;
struct pair *pr;
for (v = 0; v < nodenum; ++v)
REACH(v) = UNDEFINED;
number(START);
for (v = START; DEFINED(v); v = RSIB(v))
{
pr = exits(v); /* need to free the space for pr */
chfree(pr,sizeof(*pr));
}
}
exits(v) /* set REACH(v) = w if w is only node outside subtree of v which is reached from within
subtree of v, leave REACH(v) UNDEFINED otherwise */
VERT v;
{
struct pair *vpair, *chpair;
VERT w,t;
int i;
vpair = challoc(sizeof(*vpair));
vpair ->smallest = vpair ->second = UNDEFINED;
for (i = 0; i < CHILDNUM(v); ++i)
{
w = LCHILD(v,i);
if (!DEFINED(w)) continue;
for (t = w; DEFINED(t); t = RSIB(t))
{
chpair = exits(t);
/* set vpair->smallest,second to two smallest of vpair->smallest,second,
chpair->smallest,second */
if (inspr(chpair->smallest,vpair))
inspr(chpair->second,vpair);
chfree(chpair, sizeof(*chpair));
}
}
for (i = 0; i < ARCNUM(v); ++i)
{
w = ARC(v,i);
if (!DEFINED(w)) continue;
inspr(w,vpair);
}
/* throw out nodes in subtree of v */
if (NUM(vpair->second) >= NUM(v))
{
vpair->second = UNDEFINED;
if (NUM(vpair->smallest) >= NUM(v))
vpair->smallest = UNDEFINED;
}
if (vpair->second == UNDEFINED)
REACH(v) = vpair->smallest; /* vpair->smallest possibly UNDEFINED */
else
REACH(v) = UNDEFINED;
return(vpair);
}
/* number nodes from -2 to -(accessnum+2) starting at bottom left corner of tree */
number(v)
VERT v;
{
int i;
VERT w;
static int count;
for (i = 0; i < CHILDNUM(v); ++i)
{
w = LCHILD(v,i);
if (DEFINED(w))
number(w);
}
SETNUM(v,count-2);
--count;
if (DEFINED(RSIB(v)))
number(RSIB(v));
}
NUM(v)
VERT v;
{
if (!DEFINED(v)) return(UNDEFINED);
return(REACH(v));
}
SETNUM(v,count)
VERT v; int count;
{
/* this reuses REACH to save space;
/* appears to be no conflict with setting true value of REACH later */
REACH(v) = count;
}
LOGICAL inspr(w,pr) /* insert w in order in pr, return TRUE if <= smaller of pr */
/* don't insert duplicates */
VERT w;
struct pair *pr;
{
if (w == pr-> smallest) return(TRUE);
if (NUM(w) < NUM(pr->smallest))
{
pr->second = pr->smallest;
pr->smallest = w;
return(TRUE);
}
if (w == pr->second) return(FALSE);
if (NUM(w) < NUM(pr->second))
pr->second = w;
return(FALSE);
}