gcc/analyzer/feasible-graph.h - gcc - Git at Google

 /* A graph for exploring trees of feasible paths through the egraph.
    Copyright (C) 2021 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_ANALYZER_FEASIBLE_GRAPH_H
 #define GCC_ANALYZER_FEASIBLE_GRAPH_H

 namespace ana {

 /* Forward decls.  */

 class base_feasible_node;
   class feasible_node;
   class infeasible_node;
 class base_feasible_edge;
   class feasible_edge;
   class infeasible_edge;
 class feasible_graph;
 class feasible_cluster;

 /* A traits class for feasible_graph.  */

 struct fg_traits
 {
   typedef base_feasible_node node_t;
   typedef base_feasible_edge edge_t;
   typedef feasible_graph graph_t;
   struct dump_args_t
   {
     typedef typename eg_traits::dump_args_t inner_args_t;

     dump_args_t (const inner_args_t &inner_args)
     : m_inner_args (inner_args)
     {
     }

     const inner_args_t &m_inner_args;
   };
   typedef feasible_cluster cluster_t;
 };

 /* Base class of node within a feasible_graph.
    There can be 0 or more base_feasible_nodes per exploded_node.  */

 class base_feasible_node : public dnode<fg_traits>
 {
  public:
   void dump_dot_id (pretty_printer *pp) const;

   const exploded_node *get_inner_node () const { return m_inner_node; }
   unsigned get_index () const { return m_index; }

  protected:
   base_feasible_node (const exploded_node *inner_node, unsigned index)
   : m_inner_node (inner_node), m_index (index)
   {}

   const exploded_node *m_inner_node;
   unsigned m_index;
 };

 /* Subclass of base_feasible_node for a node that is reachable via a
    feasible path, with a particular state.  */

 class feasible_node : public base_feasible_node
 {
 public:
   feasible_node (const exploded_node *inner_node, unsigned index,
 		 const feasibility_state &state,
 		 unsigned path_length)
   : base_feasible_node (inner_node, index),
     m_state (state),
     m_path_length (path_length)
   {
   }

   void dump_dot (graphviz_out *gv,
 		 const dump_args_t &args) const FINAL OVERRIDE;

   const feasibility_state &get_state () const { return m_state; }
   const region_model &get_model () const { return m_state.get_model (); }
   const auto_sbitmap &get_snodes_visited () const
   {
     return m_state.get_snodes_visited ();
   }

   unsigned get_path_length () const { return m_path_length; }

 private:
   feasibility_state m_state;
   unsigned m_path_length;
 };

 /* Subclass of base_feasible_node for a node that requires following
    an infeasible edge to reach (and thus terminating this part of the
    exploration).  */

 class infeasible_node : public base_feasible_node
 {
 public:
   infeasible_node (const exploded_node *inner_node, unsigned index,
 		   rejected_constraint *rc)
   : base_feasible_node (inner_node, index),
     m_rc (rc)
   {
   }
   ~infeasible_node () { delete m_rc; }

   void dump_dot (graphviz_out *gv,
 		 const dump_args_t &args) const FINAL OVERRIDE;

 private:
   rejected_constraint *m_rc;
 };

 /* Base class of edge within a feasible_graph.  */

 class base_feasible_edge : public dedge<fg_traits>
 {
  public:
   void dump_dot (graphviz_out *gv,
 		 const dump_args_t &args) const FINAL OVERRIDE;

   const exploded_edge *get_inner_edge () const { return m_inner_edge; }

  protected:
   base_feasible_edge (base_feasible_node *src, base_feasible_node *dest,
 		      const exploded_edge *inner_edge)
   : dedge<fg_traits> (src, dest), m_inner_edge (inner_edge)
   {
   }

   const exploded_edge *m_inner_edge;
 };

 /* Subclass of base_feasible_edge for connecting two feasible_nodes.  */

 class feasible_edge : public base_feasible_edge
 {
  public:
   feasible_edge (feasible_node *src, feasible_node *dest,
 		 const exploded_edge *inner_edge)
   : base_feasible_edge (src, dest, inner_edge)
   {
   }
 };

 /* Subclass of base_feasible_edge for connecting a feasible_node
    to an infeasible_node (and thus terminating this part of the
    exploration).  */

 class infeasible_edge : public base_feasible_edge
 {
  public:
   infeasible_edge (feasible_node *src, infeasible_node *dest,
 		   const exploded_edge *inner_edge)
   : base_feasible_edge (src, dest, inner_edge)
   {
   }
 };

 /* A digraph subclass for exploring trees of feasible paths through
    the egraph.  This is actually a tree.

    The paths within the graph of feasible_nodes express feasible paths
    through the graph, and it also captures known infeasible edges,
    which is invaluable for debugging.  */

 class feasible_graph : public digraph <fg_traits>
 {
  public:
   feasible_graph ();

   feasible_node *add_node (const exploded_node *enode,
 			   const feasibility_state &state,
 			   unsigned path_length);

   void add_feasibility_problem (feasible_node *src_fnode,
 				const exploded_edge *eedge,
 				rejected_constraint *rc);

   exploded_path *make_epath (feasible_node *fnode) const;

   unsigned get_num_infeasible () const { return m_num_infeasible; }

   void log_stats (logger *logger) const;

 private:
   unsigned m_num_infeasible;
 };

 class feasible_cluster : public cluster <fg_traits>
 {
 };

 } // namespace ana

 #endif /* GCC_ANALYZER_FEASIBLE_GRAPH_H */
	/* A graph for exploring trees of feasible paths through the egraph.
	Copyright (C) 2021 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_ANALYZER_FEASIBLE_GRAPH_H
	#define GCC_ANALYZER_FEASIBLE_GRAPH_H

	namespace ana {

	/* Forward decls. */

	class base_feasible_node;
	class feasible_node;
	class infeasible_node;
	class base_feasible_edge;
	class feasible_edge;
	class infeasible_edge;
	class feasible_graph;
	class feasible_cluster;

	/* A traits class for feasible_graph. */

	struct fg_traits
	{
	typedef base_feasible_node node_t;
	typedef base_feasible_edge edge_t;
	typedef feasible_graph graph_t;
	struct dump_args_t
	{
	typedef typename eg_traits::dump_args_t inner_args_t;

	dump_args_t (const inner_args_t &inner_args)
	: m_inner_args (inner_args)
	{
	}

	const inner_args_t &m_inner_args;
	};
	typedef feasible_cluster cluster_t;
	};

	/* Base class of node within a feasible_graph.
	There can be 0 or more base_feasible_nodes per exploded_node. */

	class base_feasible_node : public dnode<fg_traits>
	{
	public:
	void dump_dot_id (pretty_printer *pp) const;

	const exploded_node *get_inner_node () const { return m_inner_node; }
	unsigned get_index () const { return m_index; }

	protected:
	base_feasible_node (const exploded_node *inner_node, unsigned index)
	: m_inner_node (inner_node), m_index (index)
	{}

	const exploded_node *m_inner_node;
	unsigned m_index;
	};

	/* Subclass of base_feasible_node for a node that is reachable via a
	feasible path, with a particular state. */

	class feasible_node : public base_feasible_node
	{
	public:
	feasible_node (const exploded_node *inner_node, unsigned index,
	const feasibility_state &state,
	unsigned path_length)
	: base_feasible_node (inner_node, index),
	m_state (state),
	m_path_length (path_length)
	{
	}

	void dump_dot (graphviz_out *gv,
	const dump_args_t &args) const FINAL OVERRIDE;

	const feasibility_state &get_state () const { return m_state; }
	const region_model &get_model () const { return m_state.get_model (); }
	const auto_sbitmap &get_snodes_visited () const
	{
	return m_state.get_snodes_visited ();
	}

	unsigned get_path_length () const { return m_path_length; }

	private:
	feasibility_state m_state;
	unsigned m_path_length;
	};

	/* Subclass of base_feasible_node for a node that requires following
	an infeasible edge to reach (and thus terminating this part of the
	exploration). */

	class infeasible_node : public base_feasible_node
	{
	public:
	infeasible_node (const exploded_node *inner_node, unsigned index,
	rejected_constraint *rc)
	: base_feasible_node (inner_node, index),
	m_rc (rc)
	{
	}
	~infeasible_node () { delete m_rc; }

	void dump_dot (graphviz_out *gv,
	const dump_args_t &args) const FINAL OVERRIDE;

	private:
	rejected_constraint *m_rc;
	};

	/* Base class of edge within a feasible_graph. */

	class base_feasible_edge : public dedge<fg_traits>
	{
	public:
	void dump_dot (graphviz_out *gv,
	const dump_args_t &args) const FINAL OVERRIDE;

	const exploded_edge *get_inner_edge () const { return m_inner_edge; }

	protected:
	base_feasible_edge (base_feasible_node src, base_feasible_node dest,
	const exploded_edge *inner_edge)
	: dedge<fg_traits> (src, dest), m_inner_edge (inner_edge)
	{
	}

	const exploded_edge *m_inner_edge;
	};

	/* Subclass of base_feasible_edge for connecting two feasible_nodes. */

	class feasible_edge : public base_feasible_edge
	{
	public:
	feasible_edge (feasible_node src, feasible_node dest,
	const exploded_edge *inner_edge)
	: base_feasible_edge (src, dest, inner_edge)
	{
	}
	};

	/* Subclass of base_feasible_edge for connecting a feasible_node
	to an infeasible_node (and thus terminating this part of the
	exploration). */

	class infeasible_edge : public base_feasible_edge
	{
	public:
	infeasible_edge (feasible_node src, infeasible_node dest,
	const exploded_edge *inner_edge)
	: base_feasible_edge (src, dest, inner_edge)
	{
	}
	};

	/* A digraph subclass for exploring trees of feasible paths through
	the egraph. This is actually a tree.

	The paths within the graph of feasible_nodes express feasible paths
	through the graph, and it also captures known infeasible edges,
	which is invaluable for debugging. */

	class feasible_graph : public digraph <fg_traits>
	{
	public:
	feasible_graph ();

	feasible_node add_node (const exploded_node enode,
	const feasibility_state &state,
	unsigned path_length);

	void add_feasibility_problem (feasible_node *src_fnode,
	const exploded_edge *eedge,
	rejected_constraint *rc);

	exploded_path make_epath (feasible_node fnode) const;

	unsigned get_num_infeasible () const { return m_num_infeasible; }

	void log_stats (logger *logger) const;

	private:
	unsigned m_num_infeasible;
	};

	class feasible_cluster : public cluster <fg_traits>
	{
	};

	} // namespace ana

	#endif /* GCC_ANALYZER_FEASIBLE_GRAPH_H */