Esempio n. 1
0
void testCoarsening(int *nvtxs, idxtype *xadj, idxtype *adjncy,
                    idxtype *vwgt, idxtype *adjwgt,
                    int *wgtflag, int ct)
{
    GraphType graph, *cgraph;
    CtrlType ctrl;

    my_SetUpGraph(&graph, *nvtxs, xadj, adjncy, vwgt, adjwgt,
                  *wgtflag, 1);
    /* The last argument indicates we are setting up the original
     * graph */

    ctrl.CoarsenTo=ct;
    ctrl.CType=MATCH_SHEMN;

    my_AllocateWorkSpace(&ctrl,&graph);

    cgraph = Coarsen2Way(&ctrl,&graph);

    do {
        dump_graph(cgraph);
        cgraph = cgraph->finer;
    } while ( cgraph != NULL );

}
Esempio n. 2
0
void dump(const GoughGraph &g, const string &base, const Grey &grey) {
    if (!grey.dumpFlags) {
        return;
    }

    dump_graph(g, base, grey);
    dump_var_mapping(g, base, grey);
    dump_vars(g, base, grey);
}
Esempio n. 3
0
static void
push_stack(Graph *g)
{
	if (!g) return;

	g->nxt = Nodes_Stack;
	Nodes_Stack = g;
	if (tl_verbose)
	{	Symbol *z;
		printf("\nPush %s, from ", g->name->name);
		for (z = g->incoming; z; z = z->next)
			printf("%s, ", z->name);
		dump_graph(g);
	}
	Stack_sz++;
	if (Stack_sz > Stack_mx) Stack_mx = Stack_sz;
}
Esempio n. 4
0
File: f_lavfi.c Progetto: Akemi/mpv
// Initialize the graph if all inputs have formats set. If it's already
// initialized, or can't be initialized yet, do nothing.
static void init_graph(struct lavfi *c)
{
    assert(!c->initialized);

    if (!c->graph)
        precreate_graph(c, false);

    if (init_pads(c)) {
        struct mp_stream_info *info = mp_filter_find_stream_info(c->f);
        if (info && info->hwdec_devs) {
            struct mp_hwdec_ctx *hwdec = hwdec_devices_get_first(info->hwdec_devs);
            for (int n = 0; n < c->graph->nb_filters; n++) {
                AVFilterContext *filter = c->graph->filters[n];
                if (hwdec && hwdec->av_device_ref)
                    filter->hw_device_ctx = av_buffer_ref(hwdec->av_device_ref);
            }
        }

        // And here the actual libavfilter initialization happens.
        if (avfilter_graph_config(c->graph, NULL) < 0) {
            MP_FATAL(c, "failed to configure the filter graph\n");
            free_graph(c);
            c->failed = true;
            mp_filter_internal_mark_failed(c->f);
            return;
        }

        // The timebase is available after configuring.
        for (int n = 0; n < c->num_out_pads; n++) {
            struct lavfi_pad *pad = c->out_pads[n];

            pad->timebase = pad->buffer->inputs[0]->time_base;
        }

        c->initialized = true;

        if (!c->direct_filter) // (output uninteresting for direct filters)
            dump_graph(c);
    }
}
Esempio n. 5
0
int main(int argc, char *argv[])
{
	if(argc!=2){
		std::cerr<<"Must specify n.\n";
		return 1;
	}
	int n=atoi(argv[1]);
	
	std::vector<node> graph=build_graph(n);
	
	dump_graph(graph);
		
	// The run-time can vary, depending on where you start from. How should you
	// take that into account when timing it?
	int start=rand()%n;
	// Note that it is only graph_distance that we care about
	std::vector<int> tmp=graph_distance(graph, start);
	for(int i=0;i<tmp.size();i++){
		fprintf(stdout, "dist(%d->%d) = %d\n", start, i, tmp[i]);
	}
	
	return 0;
}
Esempio n. 6
0
static void
expand_g(Graph *g)
{	Node *now, *n1, *n2, *nx;
	int can_release;

	if (!g->New)
	{	Debug2("\nDone with %s", g->name->name);
		if (tl_verbose) dump_graph(g);
		if (not_new(g))
		{	if (tl_verbose) printf("\tIs Not New\n");
			return;
		}
		if (g->Next)
		{	Debug("	Has Next [");
			for (n1 = g->Next; n1; n1 = n1->nxt)
			{ Dump(n1); Debug(", "); }
			Debug("]\n");

			ng(ZS, getsym(g->name), g->Next, ZN, ZN);
		}
		return;
	}

	if (tl_verbose)
	{	Symbol *z;
		printf("\nExpand %s, from ", g->name->name);
		for (z = g->incoming; z; z = z->next)
			printf("%s, ", z->name);
		printf("\n\thandle:\t"); Explain(g->New->ntyp);
		dump_graph(g);
	}

	if (g->New->ntyp == AND)
	{	if (g->New->nxt)
		{	n2 = g->New->rgt;
			while (n2->nxt)
				n2 = n2->nxt;
			n2->nxt = g->New->nxt;
		}
		n1 = n2 = g->New->lft;
		while (n2->nxt)
			n2 = n2->nxt;
		n2->nxt = g->New->rgt;

		releasenode(0, g->New);

		g->New = n1;
		push_stack(g);
		return;
	}

	can_release = 0;	/* unless it need not go into Old */
	now = g->New;
	g->New = g->New->nxt;
	now->nxt = ZN;

	if (now->ntyp != TRUE)
	{	if (g->Old)
		{	for (n1 = g->Old; n1->nxt; n1 = n1->nxt)
				if (isequal(now, n1))
				{	can_release = 1;
					goto out;
				}
			n1->nxt = now;
		} else
			g->Old = now;
	}
out:
	switch (now->ntyp) {
	case FALSE:
		push_stack(g);
		break;
	case TRUE:
		releasenode(1, now);
		push_stack(g);
		break;
	case PREDICATE:
	case NOT:
		if (can_release) releasenode(1, now);
		push_stack(g);
		break;
	case V_OPER:
		Assert(now->rgt != ZN, now->ntyp);
		Assert(now->lft != ZN, now->ntyp);
		Assert(now->rgt->nxt == ZN, now->ntyp);
		Assert(now->lft->nxt == ZN, now->ntyp);
		n1 = now->rgt;
		n1->nxt = g->New;

		if (can_release)
			nx = now;
		else
			nx = getnode(now); /* now also appears in Old */
		nx->nxt = g->Next;

		n2 = now->lft;
		n2->nxt = getnode(now->rgt);
		n2->nxt->nxt = g->New;
		g->New = flatten(n2);
		push_stack(g);
		ng(ZS, g->incoming, n1, g->Old, nx);
		break;

	case U_OPER:
		Assert(now->rgt->nxt == ZN, now->ntyp);
		Assert(now->lft->nxt == ZN, now->ntyp);
		n1 = now->lft;

		if (can_release)
			nx = now;
		else
			nx = getnode(now); /* now also appears in Old */
		nx->nxt = g->Next;

		n2 = now->rgt;
		n2->nxt = g->New;

		goto common;

#ifdef NXT
	case NEXT:
		Assert(now->lft != ZN, now->ntyp);
		nx = dupnode(now->lft);
		nx->nxt = g->Next;
		g->Next = nx;
		if (can_release) releasenode(0, now);
		push_stack(g);
		break;
#endif

	case OR:
		Assert(now->rgt->nxt == ZN, now->ntyp);
		Assert(now->lft->nxt == ZN, now->ntyp);
		n1 = now->lft;
		nx = g->Next;

		n2 = now->rgt;
		n2->nxt = g->New;
common:
		n1->nxt = g->New;

		ng(ZS, g->incoming, n1, g->Old, nx);
		g->New = flatten(n2);

		if (can_release) releasenode(1, now);

		push_stack(g);
		break;
	}
}
Esempio n. 7
0
static int
not_new(Graph *g)
{	Graph	*q1; Node *tmp, *n1, *n2;
	Mapping	*map;

	tmp = flatten(g->Old);	/* duplicate, collapse, normalize */
	g->Other = g->Old;	/* non normalized full version */
	g->Old = tmp;

	g->oldstring = DoDump(g->Old);

	tmp = flatten(g->Next);
	g->nxtstring = DoDump(tmp);

	if (tl_verbose) dump_graph(g);

	Debug2("\tformula-old: [%s]\n", g->oldstring?g->oldstring->name:"true");
	Debug2("\tformula-nxt: [%s]\n", g->nxtstring?g->nxtstring->name:"true");
	for (q1 = Nodes_Set; q1; q1 = q1->nxt)
	{	Debug2("	compare old to: %s", q1->name->name);
		Debug2(" [%s]", q1->oldstring?q1->oldstring->name:"true");

		Debug2("	compare nxt to: %s", q1->name->name);
		Debug2(" [%s]", q1->nxtstring?q1->nxtstring->name:"true");

		if (q1->oldstring != g->oldstring
		||  q1->nxtstring != g->nxtstring)
		{	Debug(" => different\n");
			continue;
		}
		Debug(" => match\n");

		if (g->incoming)
			q1->incoming = catSlist(g->incoming, q1->incoming);

		/* check if there's anything in g->Other that needs
		   adding to q1->Other
		*/
		for (n2 = g->Other; n2; n2 = n2->nxt)
		{	for (n1 = q1->Other; n1; n1 = n1->nxt)
				if (isequal(n1, n2))
					break;
			if (!n1)
			{	Node *n3 = dupnode(n2);
				/* don't mess up n2->nxt */
				n3->nxt = q1->Other;
				q1->Other = n3;
		}	}

		map = (Mapping *) tl_emalloc(sizeof(Mapping));
	  	map->from = g->name->name;
	  	map->to   = q1;
	  	map->nxt = Mapped;
	  	Mapped = map;

		for (n1 = g->Other; n1; n1 = n2)
		{	n2 = n1->nxt;
			releasenode(1, n1);
		}
		for (n1 = g->Old; n1; n1 = n2)
		{	n2 = n1->nxt;
			releasenode(1, n1);
		}
		for (n1 = g->Next; n1; n1 = n2)
		{	n2 = n1->nxt;
			releasenode(1, n1);
		}
		return 1;
	}

	if (newstates) tl_verbose=1;
	Debug2("	New Node %s [", g->name->name);
	for (n1 = g->Old; n1; n1 = n1->nxt)
	{ Dump(n1); Debug(", "); }
	Debug2("] nr %d\n", Base);
	if (newstates) tl_verbose=0;

	Base++;
	g->nxt = Nodes_Set;
	Nodes_Set = g;

	return 0;
}
Esempio n. 8
0
File: net.c Progetto: 95ulisse/tinc
/*
  this is where it all happens...
*/
int main_loop(void) {
	fd_set readset, writeset;
#ifdef HAVE_PSELECT
	struct timespec tv;
	sigset_t omask, block_mask;
	time_t next_event;
#else
	struct timeval tv;
#endif
	int r, maxfd;
	time_t last_ping_check, last_config_check, last_graph_dump;
	event_t *event;

	last_ping_check = now;
	last_config_check = now;
	last_graph_dump = now;
	
	srand(now);

#ifdef HAVE_PSELECT
	if(lookup_config(config_tree, "GraphDumpFile"))
		graph_dump = true;
	/* Block SIGHUP & SIGALRM */
	sigemptyset(&block_mask);
	sigaddset(&block_mask, SIGHUP);
	sigaddset(&block_mask, SIGALRM);
	sigprocmask(SIG_BLOCK, &block_mask, &omask);
#endif

	running = true;

	while(running) {
#ifdef HAVE_PSELECT
		next_event = last_ping_check + pingtimeout;
		if(graph_dump && next_event > last_graph_dump + 60)
			next_event = last_graph_dump + 60;

		if((event = peek_next_event()) && next_event > event->time)
			next_event = event->time;

		if(next_event <= now)
			tv.tv_sec = 0;
		else
			tv.tv_sec = next_event - now;
		tv.tv_nsec = 0;
#else
		tv.tv_sec = 1;
		tv.tv_usec = 0;
#endif

		maxfd = build_fdset(&readset, &writeset);

#ifdef HAVE_MINGW
		LeaveCriticalSection(&mutex);
#endif
#ifdef HAVE_PSELECT
		r = pselect(maxfd + 1, &readset, &writeset, NULL, &tv, &omask);
#else
		r = select(maxfd + 1, &readset, &writeset, NULL, &tv);
#endif
		now = time(NULL);
#ifdef HAVE_MINGW
		EnterCriticalSection(&mutex);
#endif

		if(r < 0) {
			if(!sockwouldblock(sockerrno)) {
				logger(LOG_ERR, "Error while waiting for input: %s", sockstrerror(sockerrno));
				dump_connections();
				return 1;
			}
		}

		if(r > 0)
			check_network_activity(&readset, &writeset);

		if(do_purge) {
			purge();
			do_purge = false;
		}

		/* Let's check if everybody is still alive */

		if(last_ping_check + pingtimeout <= now) {
			check_dead_connections();
			last_ping_check = now;

			if(routing_mode == RMODE_SWITCH)
				age_subnets();

			age_past_requests();

			/* Should we regenerate our key? */

			if(keyexpires <= now) {
				avl_node_t *node;
				node_t *n;

				ifdebug(STATUS) logger(LOG_INFO, "Expiring symmetric keys");

				for(node = node_tree->head; node; node = node->next) {
					n = node->data;
					if(n->inkey) {
						free(n->inkey);
						n->inkey = NULL;
					}
				}

				send_key_changed();
				keyexpires = now + keylifetime;
			}

			/* Detect ADD_EDGE/DEL_EDGE storms that are caused when
			 * two tinc daemons with the same name are on the VPN.
			 * If so, sleep a while. If this happens multiple times
			 * in a row, sleep longer. */

			if(contradicting_del_edge > 100 && contradicting_add_edge > 100) {
				logger(LOG_WARNING, "Possible node with same Name as us! Sleeping %d seconds.", sleeptime);
				usleep(sleeptime * 1000000LL);
				sleeptime *= 2;
				if(sleeptime < 0)
					sleeptime = 3600;
			} else {
				sleeptime /= 2;
				if(sleeptime < 10)
					sleeptime = 10;
			}

			contradicting_add_edge = 0;
			contradicting_del_edge = 0;
		}

		if(sigalrm) {
			avl_node_t *node;
			logger(LOG_INFO, "Flushing event queue");
			expire_events();
			for(node = connection_tree->head; node; node = node->next) {
				connection_t *c = node->data;
				if(c->status.active)
					send_ping(c);
			}
			sigalrm = false;
		}

		while((event = get_expired_event())) {
			event->handler(event->data);
			free_event(event);
		}

		if(sighup) {
			connection_t *c;
			avl_node_t *node, *next;
			char *fname;
			struct stat s;
			
			sighup = false;

			reopenlogger();
			
			/* Reread our own configuration file */

			exit_configuration(&config_tree);
			init_configuration(&config_tree);

			if(!read_server_config()) {
				logger(LOG_ERR, "Unable to reread configuration file, exitting.");
				return 1;
			}

			/* Cancel non-active outgoing connections */

			for(node = connection_tree->head; node; node = next) {
				next = node->next;
				c = node->data;

				c->outgoing = NULL;

				if(c->status.connecting) {
					terminate_connection(c, false);
					connection_del(c);
				}
			}

			/* Wipe list of outgoing connections */

			for(list_node_t *node = outgoing_list->head; node; node = node->next) {
				outgoing_t *outgoing = node->data;

				if(outgoing->event)
					event_del(outgoing->event);
			}

			list_delete_list(outgoing_list);

			/* Close connections to hosts that have a changed or deleted host config file */
			
			for(node = connection_tree->head; node; node = node->next) {
				c = node->data;
				
				xasprintf(&fname, "%s/hosts/%s", confbase, c->name);
				if(stat(fname, &s) || s.st_mtime > last_config_check)
					terminate_connection(c, c->status.active);
				free(fname);
			}

			last_config_check = now;

			/* If StrictSubnet is set, expire deleted Subnets and read new ones in */

			if(strictsubnets) {
				subnet_t *subnet;

				for(node = subnet_tree->head; node; node = node->next) {
					subnet = node->data;
					subnet->expires = 1;
				}

				load_all_subnets();

				for(node = subnet_tree->head; node; node = next) {
					next = node->next;
					subnet = node->data;
					if(subnet->expires == 1) {
						send_del_subnet(everyone, subnet);
						if(subnet->owner->status.reachable)
							subnet_update(subnet->owner, subnet, false);
						subnet_del(subnet->owner, subnet);
					} else if(subnet->expires == -1) {
						subnet->expires = 0;
					} else {
						send_add_subnet(everyone, subnet);
						if(subnet->owner->status.reachable)
							subnet_update(subnet->owner, subnet, true);
					}
				}
			}

			/* Try to make outgoing connections */
			
			try_outgoing_connections();
		}
		
		/* Dump graph if wanted every 60 seconds*/

		if(last_graph_dump + 60 <= now) {
			dump_graph();
			last_graph_dump = now;
		}
	}

#ifdef HAVE_PSELECT
	/* Restore SIGHUP & SIGALARM mask */
	sigprocmask(SIG_SETMASK, &omask, NULL);
#endif

	return 0;
}
Esempio n. 9
0
int main(int argc, char **argv) {
  igraph_t g;
  igraph_error_handler_t* oldhandler;
  igraph_warning_handler_t* oldwarnhandler;
  int result;
  FILE *ifile, *ofile;

  igraph_i_set_attribute_table(&igraph_cattribute_table);

  /* GraphML */
  ifile=fopen("test.gxl", "r");
  if (ifile==0) {
    return 10;
  }
  
  oldhandler=igraph_set_error_handler(igraph_error_handler_ignore);
  oldwarnhandler=igraph_set_warning_handler(custom_warning_handler);
  if ((result=igraph_read_graph_graphml(&g, ifile, 0))) {
    /* maybe it is simply disabled at compile-time */
    if (result == IGRAPH_UNIMPLEMENTED) return 77;
    return 1;
  }
  igraph_set_error_handler(oldhandler);

  fclose(ifile);

  /* Write it back */
  ofile=fopen("test2.gxl", "w");
  /* If we can't create the test file, just skip the test */
  if (ofile) {
    if ((result=igraph_write_graph_graphml(&g, ofile, /*prefixattr=*/ 1))) {
      return 1;
    }
    fclose(ofile);
    unlink("test2.gxl");
  }
  dump_graph("The directed graph:\n", &g);
  igraph_destroy(&g);
 
  /* The same with undirected graph */
  ifile=fopen("test.gxl", "r");
  if ((result=igraph_read_graph_graphml(&g, ifile, 0))) {
    return 1;
  }
  fclose(ifile);
  dump_graph("The undirected graph:\n", &g);
  igraph_destroy(&g);

  /* Test a GraphML file with default attributes */
  ifile=fopen("graphml-default-attrs.xml", "r");
  if ((result=igraph_read_graph_graphml(&g, ifile, 0))) {
    return 1;
  }
  fclose(ifile);
  dump_graph("The directed graph:\n", &g);
  dump_vertex_attribute_bool("type", &g);
  dump_vertex_attribute_string("gender", &g);
  dump_vertex_attribute_numeric("age", &g);
  dump_vertex_attribute_bool("retired", &g);
  igraph_destroy(&g);

  /* Test a GraphML file with namespaces */
  ifile=fopen("graphml-namespace.xml", "r");
  if ((result=igraph_read_graph_graphml(&g, ifile, 0))) {
    return 1;
  }
  fclose(ifile);
  dump_graph("The undirected graph:\n", &g);
  igraph_destroy(&g);

  /* Restore the old warning handler */
  igraph_set_warning_handler(oldwarnhandler);

  /* There were sometimes problems with this file */
  /* Only if called from R though, and only on random occasions, once in every 
     ten reads. Do testing here doesn't make much sense, but if we have the file 
     then let's do it anyway. */
  ifile=fopen("graphml-hsa05010.xml", "r");  
  igraph_read_graph_graphml(&g, ifile, 0);
  fclose(ifile);
  igraph_destroy(&g);
  
  return 0;
}