gcc/digraph.h - gcc - Git at Google

 /* Template classes for directed graphs.
    Copyright (C) 2019-2022 Free Software Foundation, Inc.
    Contributed by David Malcolm <dmalcolm@redhat.com>.

 This file is part of GCC.

 GCC is free software; you can redistribute it and/or modify it
 under the terms of the GNU General Public License as published by
 the Free Software Foundation; either version 3, or (at your option)
 any later version.

 GCC is distributed in the hope that it will be useful, but
 WITHOUT ANY WARRANTY; without even the implied warranty of
 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 General Public License for more details.

 You should have received a copy of the GNU General Public License
 along with GCC; see the file COPYING3.  If not see
 <http://www.gnu.org/licenses/>.  */

 #ifndef GCC_DIGRAPH_H
 #define GCC_DIGRAPH_H

 #include "diagnostic.h"
 #include "tree-diagnostic.h" /* for default_tree_printer.  */
 #include "graphviz.h"

 /* Templates for a family of classes: digraph, node, edge, and cluster.
    This assumes a traits type with the following typedefs:
    node_t: the node class
    edge_t: the edge class
    dump_args_t: additional args for dot-dumps
    cluster_t: the cluster class (for use when generating .dot files).

    Using a template allows for typesafe nodes and edges: a node's
    predecessor and successor edges can be of a node-specific edge
    subclass, without needing casting.  */

 /* Abstract base class for a node in a directed graph.  */

 template <typename GraphTraits>
 class dnode
 {
  public:
   typedef typename GraphTraits::edge_t edge_t;
   typedef typename GraphTraits::dump_args_t dump_args_t;

   virtual ~dnode () {}
   virtual void dump_dot (graphviz_out *gv, const dump_args_t &args) const = 0;

   auto_vec<edge_t *> m_preds;
   auto_vec<edge_t *> m_succs;
 };

 /* Abstract base class for an edge in a directed graph.  */

 template <typename GraphTraits>
 class dedge
 {
  public:
   typedef typename GraphTraits::node_t node_t;
   typedef typename GraphTraits::dump_args_t dump_args_t;

   dedge (node_t *src, node_t *dest)
   : m_src (src), m_dest (dest) {}

   virtual ~dedge () {}

   virtual void dump_dot (graphviz_out *gv, const dump_args_t &args) const = 0;

   node_t *const m_src;
   node_t *const m_dest;
 };

 /* Abstract base class for a directed graph.
    This class maintains the vectors of nodes and edges,
    and owns the nodes and edges.  */

 template <typename GraphTraits>
 class digraph
 {
  public:
   typedef typename GraphTraits::node_t node_t;
   typedef typename GraphTraits::edge_t edge_t;
   typedef typename GraphTraits::dump_args_t dump_args_t;
   typedef typename GraphTraits::cluster_t cluster_t;

   digraph () {}
   virtual ~digraph () {}

   void dump_dot_to_pp (pretty_printer *pp,
 		       cluster_t *root_cluster,
 		       const dump_args_t &args) const;
   void dump_dot_to_file (FILE *fp,
 			 cluster_t *root_cluster,
 			 const dump_args_t &args) const;
   void dump_dot (const char *path,
 		 cluster_t *root_cluster,
 		 const dump_args_t &args) const;

   void add_node (node_t *node);
   void add_edge (edge_t *edge);

   auto_delete_vec<node_t> m_nodes;
   auto_delete_vec<edge_t> m_edges;
 };

 /* Abstract base class for splitting dnodes into hierarchical clusters
    in the generated .dot file.

    See "Subgraphs and Clusters" within
      https://www.graphviz.org/doc/info/lang.html
    and e.g.
      https://graphviz.gitlab.io/_pages/Gallery/directed/cluster.html

    If a root_cluster is passed to dump_dot*, then all nodes will be
    added to it at the start of dumping, via calls to add_node.

    The root cluster can organize the nodes into a hierarchy of
    child clusters.

    After all nodes are added to the root cluster, dump_dot will then
    be called on it (and not on the nodes themselves).  */

 template <typename GraphTraits>
 class cluster
 {
  public:
   typedef typename GraphTraits::node_t node_t;
   typedef typename GraphTraits::dump_args_t dump_args_t;

   virtual ~cluster () {}

   virtual void add_node (node_t *node) = 0;

   /* Recursively dump the cluster, all nodes, and child clusters.  */
   virtual void dump_dot (graphviz_out *gv, const dump_args_t &) const = 0;
 };

 /* Write .dot information for this graph to PP, passing ARGS to the nodes
    and edges.
    If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters.  */

 template <typename GraphTraits>
 inline void
 digraph<GraphTraits>::dump_dot_to_pp (pretty_printer *pp,
 				      cluster_t *root_cluster,
 				      const dump_args_t &args) const
 {
   graphviz_out gv (pp);

   pp_string (pp, "digraph \"");
   pp_string (pp, "base");
   pp_string (pp, "\" {\n");

   gv.indent ();

   pp_string (pp, "overlap=false;\n");
   pp_string (pp, "compound=true;\n");

   /* If using clustering, emit all nodes via clusters.  */
   if (root_cluster)
     {
       int i;
       node_t *n;
       FOR_EACH_VEC_ELT (m_nodes, i, n)
 	root_cluster->add_node (n);
       root_cluster->dump_dot (&gv, args);
     }
   else
     {
       /* Otherwise, display all nodes at top level.  */
       int i;
       node_t *n;
       FOR_EACH_VEC_ELT (m_nodes, i, n)
 	n->dump_dot (&gv, args);
     }

   /* Edges.  */
   int i;
   edge_t *e;
   FOR_EACH_VEC_ELT (m_edges, i, e)
     e->dump_dot (&gv, args);

   /* Terminate "digraph" */
   gv.outdent ();
   pp_string (pp, "}");
   pp_newline (pp);
 }

 /* Write .dot information for this graph to FP, passing ARGS to the nodes
    and edges.
    If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters.  */

 template <typename GraphTraits>
 inline void
 digraph<GraphTraits>::dump_dot_to_file (FILE *fp,
 					cluster_t *root_cluster,
 					const dump_args_t &args) const
 {
   pretty_printer pp;
   // TODO:
   pp_format_decoder (&pp) = default_tree_printer;
   pp.buffer->stream = fp;
   dump_dot_to_pp (&pp, root_cluster, args);
   pp_flush (&pp);
 }

 /* Write .dot information for this graph to a file at PATH, passing ARGS
    to the nodes and edges.
    If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters.  */

 template <typename GraphTraits>
 inline void
 digraph<GraphTraits>::dump_dot (const char *path,
 				cluster_t *root_cluster,
 				const dump_args_t &args) const
 {
   FILE *fp = fopen (path, "w");
   dump_dot_to_file (fp, root_cluster, args);
   fclose (fp);
 }

 /* Add NODE to this DIGRAPH, taking ownership.  */

 template <typename GraphTraits>
 inline void
 digraph<GraphTraits>::add_node (node_t *node)
 {
   m_nodes.safe_push (node);
 }

 /* Add EDGE to this digraph, and to the preds/succs of its endpoints.
    Take ownership of EDGE.  */

 template <typename GraphTraits>
 inline void
 digraph<GraphTraits>::add_edge (edge_t *edge)
 {
   m_edges.safe_push (edge);
   edge->m_dest->m_preds.safe_push (edge);
   edge->m_src->m_succs.safe_push (edge);

 }

 #endif /* GCC_DIGRAPH_H */
	/* Template classes for directed graphs.
	Copyright (C) 2019-2022 Free Software Foundation, Inc.
	Contributed by David Malcolm <dmalcolm@redhat.com>.

	This file is part of GCC.

	GCC is free software; you can redistribute it and/or modify it
	under the terms of the GNU General Public License as published by
	the Free Software Foundation; either version 3, or (at your option)
	any later version.

	GCC is distributed in the hope that it will be useful, but
	WITHOUT ANY WARRANTY; without even the implied warranty of
	MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	General Public License for more details.

	You should have received a copy of the GNU General Public License
	along with GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#ifndef GCC_DIGRAPH_H
	#define GCC_DIGRAPH_H

	#include "diagnostic.h"
	#include "tree-diagnostic.h" /* for default_tree_printer. */
	#include "graphviz.h"

	/* Templates for a family of classes: digraph, node, edge, and cluster.
	This assumes a traits type with the following typedefs:
	node_t: the node class
	edge_t: the edge class
	dump_args_t: additional args for dot-dumps
	cluster_t: the cluster class (for use when generating .dot files).

	Using a template allows for typesafe nodes and edges: a node's
	predecessor and successor edges can be of a node-specific edge
	subclass, without needing casting. */

	/* Abstract base class for a node in a directed graph. */

	template <typename GraphTraits>
	class dnode
	{
	public:
	typedef typename GraphTraits::edge_t edge_t;
	typedef typename GraphTraits::dump_args_t dump_args_t;

	virtual ~dnode () {}
	virtual void dump_dot (graphviz_out *gv, const dump_args_t &args) const = 0;

	auto_vec<edge_t *> m_preds;
	auto_vec<edge_t *> m_succs;
	};

	/* Abstract base class for an edge in a directed graph. */

	template <typename GraphTraits>
	class dedge
	{
	public:
	typedef typename GraphTraits::node_t node_t;
	typedef typename GraphTraits::dump_args_t dump_args_t;

	dedge (node_t src, node_t dest)
	: m_src (src), m_dest (dest) {}

	virtual ~dedge () {}

	virtual void dump_dot (graphviz_out *gv, const dump_args_t &args) const = 0;

	node_t *const m_src;
	node_t *const m_dest;
	};

	/* Abstract base class for a directed graph.
	This class maintains the vectors of nodes and edges,
	and owns the nodes and edges. */

	template <typename GraphTraits>
	class digraph
	{
	public:
	typedef typename GraphTraits::node_t node_t;
	typedef typename GraphTraits::edge_t edge_t;
	typedef typename GraphTraits::dump_args_t dump_args_t;
	typedef typename GraphTraits::cluster_t cluster_t;

	digraph () {}
	virtual ~digraph () {}

	void dump_dot_to_pp (pretty_printer *pp,
	cluster_t *root_cluster,
	const dump_args_t &args) const;
	void dump_dot_to_file (FILE *fp,
	cluster_t *root_cluster,
	const dump_args_t &args) const;
	void dump_dot (const char *path,
	cluster_t *root_cluster,
	const dump_args_t &args) const;

	void add_node (node_t *node);
	void add_edge (edge_t *edge);

	auto_delete_vec<node_t> m_nodes;
	auto_delete_vec<edge_t> m_edges;
	};

	/* Abstract base class for splitting dnodes into hierarchical clusters
	in the generated .dot file.

	See "Subgraphs and Clusters" within
	https://www.graphviz.org/doc/info/lang.html
	and e.g.
	https://graphviz.gitlab.io/_pages/Gallery/directed/cluster.html

	If a root_cluster is passed to dump_dot*, then all nodes will be
	added to it at the start of dumping, via calls to add_node.

	The root cluster can organize the nodes into a hierarchy of
	child clusters.

	After all nodes are added to the root cluster, dump_dot will then
	be called on it (and not on the nodes themselves). */

	template <typename GraphTraits>
	class cluster
	{
	public:
	typedef typename GraphTraits::node_t node_t;
	typedef typename GraphTraits::dump_args_t dump_args_t;

	virtual ~cluster () {}

	virtual void add_node (node_t *node) = 0;

	/* Recursively dump the cluster, all nodes, and child clusters. */
	virtual void dump_dot (graphviz_out *gv, const dump_args_t &) const = 0;
	};

	/* Write .dot information for this graph to PP, passing ARGS to the nodes
	and edges.
	If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters. */

	template <typename GraphTraits>
	inline void
	digraph<GraphTraits>::dump_dot_to_pp (pretty_printer *pp,
	cluster_t *root_cluster,
	const dump_args_t &args) const
	{
	graphviz_out gv (pp);

	pp_string (pp, "digraph \"");
	pp_string (pp, "base");
	pp_string (pp, "\" {\n");

	gv.indent ();

	pp_string (pp, "overlap=false;\n");
	pp_string (pp, "compound=true;\n");

	/* If using clustering, emit all nodes via clusters. */
	if (root_cluster)
	{
	int i;
	node_t *n;
	FOR_EACH_VEC_ELT (m_nodes, i, n)
	root_cluster->add_node (n);
	root_cluster->dump_dot (&gv, args);
	}
	else
	{
	/* Otherwise, display all nodes at top level. */
	int i;
	node_t *n;
	FOR_EACH_VEC_ELT (m_nodes, i, n)
	n->dump_dot (&gv, args);
	}

	/* Edges. */
	int i;
	edge_t *e;
	FOR_EACH_VEC_ELT (m_edges, i, e)
	e->dump_dot (&gv, args);

	/* Terminate "digraph" */
	gv.outdent ();
	pp_string (pp, "}");
	pp_newline (pp);
	}

	/* Write .dot information for this graph to FP, passing ARGS to the nodes
	and edges.
	If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters. */

	template <typename GraphTraits>
	inline void
	digraph<GraphTraits>::dump_dot_to_file (FILE *fp,
	cluster_t *root_cluster,
	const dump_args_t &args) const
	{
	pretty_printer pp;
	// TODO:
	pp_format_decoder (&pp) = default_tree_printer;
	pp.buffer->stream = fp;
	dump_dot_to_pp (&pp, root_cluster, args);
	pp_flush (&pp);
	}

	/* Write .dot information for this graph to a file at PATH, passing ARGS
	to the nodes and edges.
	If ROOT_CLUSTER is non-NULL, use it to organize the nodes into clusters. */

	template <typename GraphTraits>
	inline void
	digraph<GraphTraits>::dump_dot (const char *path,
	cluster_t *root_cluster,
	const dump_args_t &args) const
	{
	FILE *fp = fopen (path, "w");
	dump_dot_to_file (fp, root_cluster, args);
	fclose (fp);
	}

	/* Add NODE to this DIGRAPH, taking ownership. */

	template <typename GraphTraits>
	inline void
	digraph<GraphTraits>::add_node (node_t *node)
	{
	m_nodes.safe_push (node);
	}

	/* Add EDGE to this digraph, and to the preds/succs of its endpoints.
	Take ownership of EDGE. */

	template <typename GraphTraits>
	inline void
	digraph<GraphTraits>::add_edge (edge_t *edge)
	{
	m_edges.safe_push (edge);
	edge->m_dest->m_preds.safe_push (edge);
	edge->m_src->m_succs.safe_push (edge);

	}

	#endif /* GCC_DIGRAPH_H */