V7M/src/cmd/struct/2.dfs.c
#include <stdio.h>
#
/* depth-first search used to identify back edges, unreachable nodes;
each node v entered by back edge replaced by
LOOPVX ->ITERVX -> v,
so that back edges entering v now enter the ITERVX,
and other edges entering v now enter the LOOPVX.
Nodes are numbered according to depth-first search:
before numbering- ntobef[v] = i => node numbered v is i'th
node in order of first visit during the search;
after numbering- ntoaft[v] = i => node numbered v is i'th
node visited in order of last visit during the search.
Also, in this case after[i] = v.
*/
#include "def.h"
#include "2.def.h"
#define MAXINS 3 /* spacing needed between numbers generated during depth first search */
int *status;
int befcount, aftcount;
/* following defines used to mark back edges and nodes entered by back edges */
#define UNPROCESSED 0
#define STACKED 1
#define FINISHED 2
#define MARK(v) {REACH(v) = 1; } /* mark node v */
#define UNMARK(v) {REACH(v) = 0; }
#define MARKED(v) (REACH(v))
#define MKEDGE(e) {if (e >= -1) e = -(e+3); } /* mark edge e */
#define UNMKEDGE(e) {if (e < -1) e = -(e+3); }
#define BACKEDGE(e) (e < -1)
dfs(v) /* depth first search */
VERT v;
{
int i; VERT w;
accessnum = 0;
status = challoc(sizeof(*status) * nodenum);
for (w = 0; w < nodenum; ++w)
{
status[w] = UNPROCESSED;
UNMARK(w);
}
search(v);
chreach();
chfree(status, sizeof(*status) * nodenum);
addloop();
after = challoc(sizeof(*after) * accessnum);
for (i = 0; i < accessnum; ++i)
after[i] = UNDEFINED;
ntoaft = challoc(sizeof(*ntoaft) * nodenum);
ntobef = challoc(sizeof(*ntobef) * nodenum);
for (w = 0; w < nodenum; ++w)
ntobef[w] = ntoaft[w] = UNDEFINED;
befcount = 0;
aftcount = 0;
repsearch(v);
}
search(v)
/* using depth first search, mark back edges using MKEDGE, and nodes entered by back
edges using MARK */
VERT v;
{
VERT adj; int i;
status[v] = STACKED;
for(i = 0; i < ARCNUM(v); ++i)
{
adj = ARC(v,i);
if (!DEFINED(adj)) continue;
else if (status[adj] == UNPROCESSED)
search(adj);
else if (status[adj] == STACKED)
{
MARK(adj); /* mark adj as entered by back edge */
MKEDGE(ARC(v,i)); /* mark edge ARC(v,i) as being back edge */
}
}
status[v] = FINISHED;
++accessnum;
}
chreach() /* look for unreachable nodes */
{
VERT v;
LOGICAL unreach;
unreach = FALSE;
for (v = 0; v < nodenum; ++v)
if (status[v] == UNPROCESSED && NTYPE(v) != FMTVX
&& NTYPE(v) != STOPVX && NTYPE(v) != RETVX)
{
unreach = TRUE;
if (debug)
fprintf(stderr,"node %d unreachable\n",v);
}
if (unreach)
error(": unreachable statements - ","will be ignored","");
}
addloop() /* add LOOPVX, ITERVX at nodes entered by back edges, and adjust edges */
{
VERT v, adj;
int j, oldnum;
for (v = 0, oldnum = nodenum; v < oldnum; ++v) /* insloop increases nodenum */
if (MARKED(v))
{
UNMARK(v); /* remove mark indicating v entered by back edge */
if (NTYPE(v) != ITERVX) /* DO loops already have ITERVX */
insloop(v); /* add LOOPVX, ITERVX since v entered by back edge*/
}
/* arcs which used to enter v now enter LOOPVX; must make back edges enter ITERVX */
for (v = 0; v < nodenum; ++v)
for (j = 0; j < ARCNUM(v); ++j)
{
if (BACKEDGE(ARC(v,j)))
{
UNMKEDGE(ARC(v,j)); /* return edge to normal value */
adj = ARC(v,j);
if (NTYPE(adj) == ITERVX) continue;
ASSERT(NTYPE(adj) == LOOPVX,addloop);
ARC(v,j) = ARC(adj,0); /* change arc to point to ITERVX */
ASSERT(NTYPE(ARC(v,j)) == ITERVX,addloop);
}
}
}
insloop(v) /* insert LOOPVX, ITERVX at node number v */
VERT v;
{
VERT loo, iter;
loo = create(LOOPVX, 1);
iter = create(ITERVX,1);
accessnum += 2;
/* want LOOPVX to take on node number v, so that arcs other than back arcs
entering v will enter the LOOPVX automatically */
exchange(&graph[v], &graph[loo]);
exchange(&v, &loo);
ARC(loo,0) = iter;
ARC(iter,0) = v;
FATH(iter) = UNDEFINED; /* will be defined later along with FATH for DOVX */
}
exchange(p1,p2) /* exchange values of p1,p2 */
int *p1,*p2;
{
int temp;
temp = *p1;
*p1 = *p2;
*p2 = temp;
}
repsearch(v) /* repeat df search in order to fill in after, ntoaft, ntobef tables */
VERT v;
{
VERT adj; int i,temp;
ntobef[v] = befcount;
++befcount;
for(i = 0; i < ARCNUM(v); ++i)
{
adj = ARC(v,i);
if (DEFINED(adj) && ntobef[adj] == UNDEFINED)
repsearch(adj);
}
++aftcount;
temp = accessnum - aftcount;
after[temp] = v;
ntoaft[v] = temp;
}