Plan 9 from Bell Labs’s /usr/web/sources/contrib/steve/root/sys/src/cmd/graphviz/dotneato/twopigen/twopiinit.c

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.


/*
    This software may only be used by you under license from AT&T Corp.
    ("AT&T").  A copy of AT&T's Source Code Agreement is available at
    AT&T's Internet website having the URL:
    <http://www.research.att.com/sw/tools/graphviz/license/source.html>
    If you received this software without first entering into a license
    with AT&T, you have an infringing copy of this software and cannot use
    it without violating AT&T's intellectual property rights.
*/
#pragma prototyped

/*
 * Written by Emden R. Gansner
 * Derived from Graham Wills' algorithm described in GD'97.
 */

#include    "circle.h"
#include    "adjust.h"
#include    "pack.h"
#include    "neatoprocs.h"


void 
twopi_nodesize(node_t* n, boolean flip)
{
  int         w;

  w = ND_xsize(n) = POINTS(ND_width(n));
  ND_lw_i(n)  = ND_rw_i(n) = w / 2;
  ND_ht_i(n) = ND_ysize(n) = POINTS(ND_height(n));
}

static void
twopi_init_node (node_t* n)
{
  common_init_node(n);

  twopi_nodesize(n,GD_left_to_right(n->graph));
  ND_pos(n) = ALLOC(GD_ndim(n->graph),0,double);
  ND_alg(n) = (void*)NEW(cdata);
}

static void
twopi_initPort(node_t* n, edge_t* e, char* name)
{
  port_t  port;

  if (name == NULL) return;
  port = ND_shape(n)->portfn(n,name);
#ifdef NOTDEF
  if (n->GD_left_to_right(graph)) port.p = invflip_pt(port.p);
#endif
  port.order = 0;
  if (e->tail == n) ED_tail_port(e) = port; else ED_head_port(e) = port;
}

static void
twopi_init_edge (edge_t* e)
{
  common_init_edge(e);

  ED_factor(e) = late_double(e,E_weight,1.0,0.0);

  twopi_initPort(e->tail,e,agget(e,"tailport"));
  twopi_initPort(e->head,e,agget(e,"headport"));
}

static void 
twopi_init_node_edge(graph_t *g)
{
  node_t* n;
  edge_t* e;
  char*   str;
  int     i = 0;
  
  GD_neato_nlist(g) = N_NEW(agnnodes(g) + 1,node_t*);
  for (n = agfstnode(g); n; n = agnxtnode(g,n)) {
    GD_neato_nlist(g)[i++] = n;
    twopi_init_node(n);
  }
  for (n = agfstnode(g); n; n = agnxtnode(g,n)) {
    for (e = agfstout(g,n); e; e = agnxtout(g,e)) {
      twopi_init_edge(e);
      str = agget(e,"label");
      if (str && str[0]) GD_has_edge_labels(g) = TRUE;
    }
  }
}

void 
twopi_init_graph(graph_t *g)
{
  UseRankdir = FALSE;
  graph_init(g);
  GD_drawing(g)->engine = TWOPI;
  /* GD_ndim(g) = late_int(g,agfindattr(g,"dim"),2,2); */
  Ndim = GD_ndim(g) = 2;  /* The algorithm only makes sense in 2D */
  twopi_init_node_edge(g);
}

/* twopi_layout:
 */
void
twopi_layout(Agraph_t* g)
{
  Agnode_t*   ctr = 0;
  char*       s;

  twopi_init_graph(g);
  s = agget (g, "root");
  if (s && (*s != '\0')) {
    ctr = agfindnode (g, s);
    if (!ctr) {
      agerr (AGWARN, "specified root node \"%s\" was not found.", s);
      agerr (AGPREV, "Using default calculation for root node\n");
    }
  }
  if (agnnodes(g)) {
    Agraph_t** ccs;
    Agraph_t*  sg;
    Agnode_t*  c = NULL;
    int        ncc;
    int        i;

    ccs = ccomps (g, &ncc, 0);
    if (ncc == 1) {
      circleLayout (g,ctr);
      adjustNodes (g);
      spline_edges(g);
    }
    else {
      pack_info pinfo;
      pack_mode pmode = getPackMode (g,l_node);

      for (i = 0; i < ncc; i++) {
        sg = ccs[i];
        if (ctr && agcontains (sg, ctr)) c = ctr;
        else c = 0;
        nodeInduce (sg);
        circleLayout (sg,c);
        adjustNodes (sg);
      }
      spline_edges(g);
      pinfo.margin = getPack (g, CL_OFFSET, CL_OFFSET);
      pinfo.doSplines = 1;
      pinfo.mode = pmode;
      pinfo.fixed = 0;
      packSubgraphs (ncc, ccs, g, &pinfo);
    }
    for (i = 0; i < ncc; i++) {
      agdelete (g, ccs[i]);
    }
  }
  dotneato_postprocess(g, twopi_nodesize);

}

static void twopi_cleanup_node(node_t* n)
{
	free (ND_alg(n));
	if (ND_shape(n))
		ND_shape(n)->freefn(n);
	free_label(ND_label(n));
	memset(&(n->u),0,sizeof(Agnodeinfo_t));
}

static void twopi_free_splines(edge_t* e)
{
	int		i;
	if (ED_spl(e)) {
		for (i = 0; i < ED_spl(e)->size; i++)
		       	free(ED_spl(e)->list[i].list);
		free(ED_spl(e)->list);
		free(ED_spl(e));
	}
	ED_spl(e) = NULL;
}

static void twopi_cleanup_edge(edge_t* e)
{
	twopi_free_splines(e);
	free_label(ED_label(e));
	memset(&(e->u),0,sizeof(Agedgeinfo_t));
}

static void twopi_cleanup_graph(graph_t* g)
{
	free(GD_neato_nlist(g));
	free_ugraph(g);
	free_label(GD_label(g));
	memset(&(g->u),0,sizeof(Agraphinfo_t));
}

void twopi_cleanup(graph_t* g)
{
	node_t  *n;
	edge_t  *e;

	for (n = agfstnode(g); n; n = agnxtnode(g, n)) {
		for (e = agfstedge(g, n); e; e = agnxtedge(g, e, n)) {
			twopi_cleanup_edge(e);
		}
		twopi_cleanup_node(n);
	}
	twopi_cleanup_graph(g);
}

Bell Labs OSI certified Powered by Plan 9

(Return to Plan 9 Home Page)

Copyright © 2021 Plan 9 Foundation. All Rights Reserved.
Comments to webmaster@9p.io.