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/**
* @file
* @ingroup cgraph_core
* @ingroup cgraph_rec
*/
/*************************************************************************
* Copyright (c) 2011 AT&T Intellectual Property
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* https://www.eclipse.org/legal/epl-v10.html
*
* Contributors: Details at https://graphviz.org
*************************************************************************/
#include <cgraph/cghdr.h>
#include <stdbool.h>
#include <stdlib.h>
#include <util/streq.h>
#include <util/alloc.h>
#include <util/unreachable.h>
/*
* run time records
*/
static void set_data(Agobj_t * obj, Agrec_t * data, bool mtflock)
{
Agedge_t *e;
obj->data = data;
obj->tag.mtflock = mtflock;
if (AGTYPE(obj) == AGINEDGE || AGTYPE(obj) == AGOUTEDGE) {
e = agopp((Agedge_t *) obj);
AGDATA(e) = data;
e->base.tag.mtflock = mtflock;
}
}
/* find record in circular list and do optional move-to-front */
Agrec_t *aggetrec(void *obj, const char *name, int mtf)
{
Agobj_t *hdr;
Agrec_t *d, *first;
hdr = obj;
first = d = hdr->data;
while (d && !streq(name, d->name)) {
d = d->next;
if (d == first)
return NULL;
}
if (!d)
return NULL;
if (hdr->tag.mtflock) {
if (mtf && hdr->data != d)
agerrorf("move to front lock inconsistency");
} else if (d != first || mtf != 0) {
set_data(hdr, d, mtf != 0); /* Always optimize */
}
return d;
}
/* insert the record in data list of this object (only) */
static void objputrec(Agobj_t * obj, void *arg)
{
Agrec_t *firstrec, *newrec;
newrec = arg;
firstrec = obj->data;
if (firstrec == NULL)
newrec->next = newrec; /* 0 elts */
else {
if (firstrec->next == firstrec) {
firstrec->next = newrec; /* 1 elt */
newrec->next = firstrec;
} else {
newrec->next = firstrec->next;
firstrec->next = newrec;
}
}
if (!obj->tag.mtflock)
set_data(obj, newrec, false);
}
/* attach a new record of the given size to the object.
*/
void *agbindrec(void *arg_obj, const char *recname, unsigned int recsize,
int move_to_front)
{
Agraph_t *g;
Agobj_t *obj;
obj = arg_obj;
g = agraphof(obj);
Agrec_t *rec = aggetrec(obj, recname, 0);
if (rec == NULL && recsize > 0) {
rec = gv_calloc(recsize, sizeof(char));
rec->name = agstrdup(g, recname);
objputrec(obj, rec);
}
if (move_to_front)
aggetrec(arg_obj, recname, 1);
return rec;
}
/* if obj points to rec, move its data pointer. break any mtf lock(?) */
static void objdelrec(Agraph_t * g, Agobj_t * obj, void *arg_rec)
{
(void)g;
Agrec_t *rec = arg_rec, *newrec;
if (obj->data == rec) {
if (rec->next == rec)
newrec = NULL;
else
newrec = rec->next;
set_data(obj, newrec, false);
}
}
/* delete a record from a circular data list */
static void listdelrec(Agobj_t * obj, Agrec_t * rec)
{
Agrec_t *prev;
prev = obj->data;
while (prev->next != rec) {
prev = prev->next;
assert(prev != obj->data);
}
/* following is a harmless no-op if the list is trivial */
prev->next = rec->next;
}
int agdelrec(void *arg_obj, const char *name)
{
Agobj_t *obj = arg_obj;
Agraph_t *g = agraphof(obj);
Agrec_t *rec = aggetrec(obj, name, 0);
if (!rec)
return FAILURE;
listdelrec(obj, rec); /* zap it from the circular list */
switch (obj->tag.objtype) { /* refresh any stale pointers */
case AGRAPH:
objdelrec(g, obj, rec);
break;
case AGNODE:
case AGINEDGE:
case AGOUTEDGE:
agapply(agroot(g), obj, objdelrec, rec, false);
break;
default:
UNREACHABLE();
}
agstrfree(g, rec->name, false);
free(rec);
return SUCCESS;
}
static void simple_delrec(Agraph_t * g, Agobj_t * obj, void *rec_name)
{
(void)g;
agdelrec(obj, rec_name);
}
void aginit(Agraph_t * g, int kind, const char *rec_name, int arg_rec_size,
int mtf) {
Agnode_t *n;
Agedge_t *e;
Agraph_t *s;
unsigned int rec_size;
bool recur = arg_rec_size < 0; /* if recursive on subgraphs */
rec_size = (unsigned int) abs(arg_rec_size);
switch (kind) {
case AGRAPH:
agbindrec(g, rec_name, rec_size, mtf);
if (recur)
for (s = agfstsubg(g); s; s = agnxtsubg(s))
aginit(s,kind,rec_name,arg_rec_size,mtf);
break;
case AGNODE:
case AGOUTEDGE:
case AGINEDGE:
for (n = agfstnode(g); n; n = agnxtnode(g, n))
if (kind == AGNODE)
agbindrec(n, rec_name, rec_size, mtf);
else {
for (e = agfstout(g, n); e; e = agnxtout(g, e))
agbindrec(e, rec_name, rec_size, mtf);
}
break;
default:
break;
}
}
void agclean(Agraph_t * g, int kind, char *rec_name)
{
Agnode_t *n;
Agedge_t *e;
switch (kind) {
case AGRAPH:
agapply(g, (Agobj_t *)g, simple_delrec, rec_name, true);
break;
case AGNODE:
case AGOUTEDGE:
case AGINEDGE:
for (n = agfstnode(g); n; n = agnxtnode(g, n))
if (kind == AGNODE)
agdelrec(n, rec_name);
else {
for (e = agfstout(g, n); e; e = agnxtout(g, e))
agdelrec(e, rec_name);
}
break;
default:
break;
}
}
void agrecclose(Agobj_t * obj)
{
Agraph_t *g;
Agrec_t *rec, *nrec;
g = agraphof(obj);
if ((rec = obj->data)) {
do {
nrec = rec->next;
agstrfree(g, rec->name, false);
free(rec);
rec = nrec;
} while (rec != obj->data);
}
obj->data = NULL;
}
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