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pack(3)                                                          pack(3)




NAME

       libpack - support for connected components


SYNOPSIS

       #include <graphviz/pack.h>

       typedef enum { l_clust, l_node, l_graph, l_array} pack_mode;

       typedef struct {
              float aspect;           /* desired aspect ratio */
              int sz;                     /* row/column size size */
              unsigned int margin; /* margin left around objects, in points */
              int doSplines;          /* use splines in constructing graph shape */
              pack_mode mode;                /* granularity and method */
              boolean *fixed;                /* fixed[i] == true implies g[i] should not be moved */
              packval_t* vals;        /* for arrays, sort numbers */
              int flags;
       } pack_info;

       point*     putRects(int ng, boxf* bbs, pack_info* pinfo);
       int        packRects(int ng, boxf* bbs, pack_info* pinfo);

       point*     putGraphs (int, Agraph_t**, Agraph_t*, pack_info*);
       int        packGraphs (int, Agraph_t**, Agraph_t*, pack_info*);
       int        packSubgraphs (int, Agraph_t**, Agraph_t*, pack_info*);

       pack_mode  getPackMode (Agraph_t*, pack_mode dflt);
       int        getPack (Agraph_t*, int, int);

       int        isConnected (Agraph_t*);
       Agraph_t** ccomps (Agraph_t*, int*, char*);
       Agraph_t** pccomps (Agraph_t*, int*, char*, boolean*);
       int        nodeInduce (Agraph_t*);



DESCRIPTION

       libpack supports the use of connected components in the context of lay-
       ing out graphs using other graphviz libraries.  One  set  of  functions
       can  be  used  to take a single graph and break it apart into connected
       components. A complementary set of  functions  takes  a  collection  of
       graphs  (not  necessarily components of a single graph) which have been
       laid out separately, and packs them together.

       As this library is meant to be used with libcommon, it  relies  on  the
       Agraphinfo_t,  Agnodeinfo_t  and Agedgeinfo_t used in that library. The
       specific dependencies are given below in the function descriptions.


   Creating components
     Agraph_t** ccomps (Agraph_t* g, int* cnt, char* pfx)
       The function ccomps takes a graph g and returns an array of pointers to
       subgraphs  of  g which are its connected components.  cnt is set to the
       number of components. If pfx is non-NULL, it is used as  a  prefix  for
       the  names  of  the  subgraphs; otherwise, the string ``_cc_'' is used.
       Note that the subgraphs only contain the relevant nodes, not any corre-
       sponding  edges.  Depending  on  the  use,  this  allows  the caller to
       retrieve edge information from the root graph.

       The array returned is obtained from malloc and must  be  freed  by  the
       caller. The function relies on the mark field in Agnodeinfo_t.


     Agraph_t** pccomps (Agraph_t* g, int* cnt, char* pfx, boolean* pinned)
       This is identical to ccomps except that is puts all pinned nodes in the
       first component returned. In addition, if pinned is non-NULL, it is set
       to true if pinned nodes are found and false otherwise.


     int nodeInduce (Agraph_t* g)
       This  function takes a subgraph g and finds all edges in its root graph
       both of whose endpoints are in g. It returns the number of  such  edges
       and, if this edge is not already in the subgraph, it is added.


     int isConnected (Agraph_t* g)
       This function returns non-zero if the graph g is connected.


   Packing components
     point* putGraphs (int ng, Agraph_t** gs, Agraph_t* root, pack_info ip)
       putGraphs  packs together a collection of laid out graphs into a single
       layout which avoids any overlap. It takes as input ng  graphs  gs.  For
       each graph, it is assumed that all the nodes have been positioned using
       pos, and that the xsize and ysize fields have been set.

       If root is non-NULL, it is taken as the root graph of the subgraphs  gs
       and  is  used  to  find  the edges. Otherwise, putGraphs uses the edges
       found in each graph gs[i].

       For the modes l_node, l_clust, and l_graph, the packing is  done  using
       the  polyomino-based  algorithm  of  Freivalds et al. This allows for a
       fairly tight packing, in which a convex part  of  one  graph  might  be
       inserted  into  the  concave  part  of another.  The granularity of the
       polyominoes used depends on the value of ip->mode. If this is l_node, a
       polyomino is constructed to approximate the nodes and edges. If this is
       l_clust, the polyomino treats top-level clusters as single  rectangles,
       unioned  with the polyominoes for the remaining nodes and edges. If the
       value is l_graph, the polyomino for a graph is a single rectangle  cor-
       responding to the bounding box of the graph.

       The mode l_node specifies that the graphs should be packed as an array.

       If ip->doSplines is true, the function uses the spline  information  in
       the  spl field of an edge, if it exists.  Otherwise, the algorithm rep-
       resents an edge as a straight line segment connecting node centers.

       The parameter ip->margin specifies a boundary of margin  points  to  be
       allowed around each node. It must be non-negative.

       The  parameter  ip->fixed,  if non-null, should point to an array of ng
       booleans. If ip->fixed[i] is true, graph gs[i] should be  left  at  its
       original  position. The packing will first first place all of the fixed
       graphs, then fill in the with the remaining graphs.

       The function returns an array of points which can be used as the origin
       of  the  bounding  box  of  each graph. If the graphs are translated to
       these positions, none of the graph components will overlap.  The  array
       returned  is  obtained  from malloc and must be freed by the caller. If
       any problem occurs, putGraphs returns NULL.  As a side-effect,  at  its
       start,  putGraphs sets the bb of each graph to reflect its initial lay-
       out. Note that putGraphs does not do  any  translation  or  change  the
       input graphs in any other way than setting the bb.

       This  function  uses  the  bb field in Agraphinfo_t, the pos, xsize and
       ysize fields in nodehinfo_t and the spl field in Aedgeinfo_t.


     int packGraphs (int ng, Agraph_t** gs, Agraph_t* root, pack_info* ip)
       This function takes ng subgraphs gs of a root graph root and calls put-
       Graphs with the given arguments to generate a packing of the subgraphs.
       If successful, it then invokes shifts the subgraphs to their new  posi-
       tions. It returns 0 on success.


     int packSubgraphs (int ng, Agraph_t** gs, Agraph_t* root, pack_info* ip)
       This  function  simply  calls  packGraphs with the given arguments, and
       then recomputes the bounding box of the root graph.


     int pack_graph(int ng, Agraph_t** gs, Agraph_t* root, boolean* fixed)
       uses packSubgraphs to place the individual subgraphs into a single lay-
       out  with the parameters obtained from getPackInfo. If successful, dot-
       neato_postprocess is called on the root graph.


     point* putRects (int ng, boxf* bbs, pack_info* ip)
       putRects packs together a collection of rectangles into a single layout
       which avoids any overlap. It takes as input ng rectangles bbs.

       Its  behavior  and  return  value  are analogous to those of putGraphs.
       However, the modes l_node and l_clust are illegal.   The  fields  fixed
       and doSplines of ip are unused.


     int packRects (int ng, boxf* bbs, pack_info* ip)
       packRects is analogous to packGraphs: it calls putRects and, if this is
       successful, it translates the rectangles in bbs appropriately.

   Utility functions
       The library provides several functions which can be used to tailor  the
       packing based on graph attributes.

     pack_mode parsePackModeInfo(char* p, pack_mode dflt, pack_info* pinfo)
       analyzes  p as a string representation of pack mode, storing the infor-
       mation in pinfo.  If p is "cluster", it returns l_clust;  for  "graph",
       it  returns  l_graph;  for  "node",  it returns l_node; for "array", it
       returns l_array; for  "aspect",  it  returns  l_aspect;  otherwise,  it
       returns dflt.  Related data is also stored in pinfo.

     pack_mode getPackModeInfo(Agraph_t * g, pack_mode dflt, pack_info* pinfo)
       This function processes the graph's "packmode" attribute,  storing  the
       information  in  pinfo.  It returns pinfo->mode.  The attribute is pro-
       cessed using parsePackModeInfo with dflt passed as  the  default  argu-
       ment.

     pack_mode getPackMode (Agraph_t* g, pack_mode dflt)
       This function returns a pack_mode associated with g.

     int getPack (Agraph_t* g, int not_def, int dflt)
       This function queries the graph attribute "pack". If this is defined as
       a non-negative integer, the integer is returned; if it  is  defined  as
       "true",  the  value  dflt  is returned; otherwise, the value not_def is
       returned.

     pack_mode getPackInfo(Agraph_t  *  g,  pack_mode  dflt,  int  dfltMargin,
       pack_info* pinfo)
       This  function  calls  both  getPackModeInfo  and  getPack, storing the
       information in pinfo. dfltMargin is used for both integer arguments  of
       getPack,   with   the   result  saved  as  pinfo->margin.   It  returns
       pinfo->mode.


SEE ALSO

       dot(1), neato(1), twopi(1), libgraph(3)
       K. Freivalds et al., "Disconnected Graph Layout and the Polyomino Pack-
       ing Approach", GD0'01, LNCS 2265, pp. 378-391.



BUGS

       The packing does not take into account edge or graph labels.


AUTHORS

       Emden Gansner (erg@research.att.com).



                                 04 APRIL 2009                      pack(3)

graphviz 2.40.1 - Generated Sat Jan 7 10:13:00 CST 2017
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