gcc/analyzer/state-purge.h - gcc - Git at Google

 /* Classes for purging state at function_points.
    Copyright (C) 2019-2023 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_STATE_PURGE_H
 #define GCC_ANALYZER_STATE_PURGE_H

 /* Hash traits for function_point.  */

 template <> struct default_hash_traits<function_point>
 : public pod_hash_traits<function_point>
 {
   static const bool empty_zero_p = false;
 };

 template <>
 inline hashval_t
 pod_hash_traits<function_point>::hash (value_type v)
 {
   return v.hash ();
 }

 template <>
 inline bool
 pod_hash_traits<function_point>::equal (const value_type &existing,
                                  const value_type &candidate)
 {
   return existing == candidate;
 }
 template <>
 inline void
 pod_hash_traits<function_point>::mark_deleted (value_type &v)
 {
   v = function_point::deleted ();
 }
 template <>
 inline void
 pod_hash_traits<function_point>::mark_empty (value_type &v)
 {
   v = function_point::empty ();
 }
 template <>
 inline bool
 pod_hash_traits<function_point>::is_deleted (value_type v)
 {
   return v.get_kind () == PK_DELETED;
 }
 template <>
 inline bool
 pod_hash_traits<function_point>::is_empty (value_type v)
 {
   return v.get_kind () == PK_EMPTY;
 }

 namespace ana {

 /* The result of analyzing which decls and SSA names can be purged from state at
    different points in the program, so that we can simplify program_state
    objects, in the hope of reducing state-blowup.  */

 class state_purge_map : public log_user
 {
 public:
   typedef ordered_hash_map<tree, state_purge_per_ssa_name *> ssa_map_t;
   typedef ssa_map_t::iterator ssa_iterator;

   typedef ordered_hash_map<tree, state_purge_per_decl *> decl_map_t;
   typedef decl_map_t::iterator decl_iterator;

   state_purge_map (const supergraph &sg,
 		   region_model_manager *mgr,
 		   logger *logger);
   ~state_purge_map ();

   const state_purge_per_ssa_name &get_data_for_ssa_name (tree name) const
   {
     gcc_assert (TREE_CODE (name) == SSA_NAME);
     if (tree var = SSA_NAME_VAR (name))
       if (TREE_CODE (var) == VAR_DECL)
 	gcc_assert (!VAR_DECL_IS_VIRTUAL_OPERAND (var));

     state_purge_per_ssa_name **slot
       = const_cast <ssa_map_t&> (m_ssa_map).get (name);
     return **slot;
   }

   const state_purge_per_decl *get_any_data_for_decl (tree decl) const
   {
     gcc_assert (TREE_CODE (decl) == VAR_DECL
 		|| TREE_CODE (decl) == PARM_DECL
 		|| TREE_CODE (decl) == RESULT_DECL);
     if (state_purge_per_decl **slot
 	= const_cast <decl_map_t&> (m_decl_map).get (decl))
       return *slot;
     else
       return NULL;
   }

   state_purge_per_decl &get_or_create_data_for_decl (function *fun, tree decl);

   const supergraph &get_sg () const { return m_sg; }

   ssa_iterator begin_ssas () const { return m_ssa_map.begin (); }
   ssa_iterator end_ssas () const { return m_ssa_map.end (); }

   decl_iterator begin_decls () const { return m_decl_map.begin (); }
   decl_iterator end_decls () const { return m_decl_map.end (); }

 private:
   DISABLE_COPY_AND_ASSIGN (state_purge_map);

   const supergraph &m_sg;
   ssa_map_t m_ssa_map;
   decl_map_t m_decl_map;
 };

   /* Base class for state_purge_per_ssa_name and state_purge_per_decl.  */

 class state_purge_per_tree
 {
 public:
   function *get_function () const { return m_fun; }
   tree get_fndecl () const { return m_fun->decl; }

 protected:
   typedef hash_set<function_point> point_set_t;

   state_purge_per_tree (function *fun)
   : m_fun (fun)
   {
   }

 private:
   function *m_fun;
 };

 /* The part of a state_purge_map relating to a specific SSA name.

    The result of analyzing a given SSA name, recording which
    function_points need to retain state information about it to handle
    their successor states, so that we can simplify program_state objects,
    in the hope of reducing state-blowup.  */

 class state_purge_per_ssa_name : public state_purge_per_tree
 {
 public:
   state_purge_per_ssa_name (const state_purge_map &map,
 			    tree name,
 			    function *fun);

   bool needed_at_point_p (const function_point &point) const;

 private:
   static function_point before_use_stmt (const state_purge_map &map,
 					 const gimple *use_stmt);

   void add_to_worklist (const function_point &point,
 			auto_vec<function_point> *worklist,
 			logger *logger);

   void process_point (const function_point &point,
 		      auto_vec<function_point> *worklist,
 		      const state_purge_map &map);

   point_set_t m_points_needing_name;
   tree m_name;
 };

 /* The part of a state_purge_map relating to a specific decl.

    Analogous to state_purge_per_ssa_name, but for local decls.

    This is more involved than the SSA name case, because we also need
    to handle pointers and components.  */

 class state_purge_per_decl : public state_purge_per_tree
 {
 public:
   state_purge_per_decl (const state_purge_map &map,
 			tree decl,
 			function *fun);

   bool needed_at_point_p (const function_point &point) const;

   void add_needed_at (const function_point &point);
   void add_pointed_to_at (const function_point &point);
   void process_worklists (const state_purge_map &map,
 			  region_model_manager *mgr);

 private:
   static function_point before_use_stmt (const state_purge_map &map,
 					 const gimple *use_stmt);

   void add_to_worklist (const function_point &point,
 			auto_vec<function_point> *worklist,
 			point_set_t *seen,
 			logger *logger);

   void process_point_backwards (const function_point &point,
 				auto_vec<function_point> *worklist,
 				point_set_t *seen,
 				const state_purge_map &map,
 				const region_model &model);
   void process_point_forwards (const function_point &point,
 			       auto_vec<function_point> *worklist,
 			       point_set_t *seen,
 			       const state_purge_map &map);

   point_set_t m_points_needing_decl;
   point_set_t m_points_taking_address;
   tree m_decl;
 };

 /* Subclass of dot_annotator for use by -fdump-analyzer-state-purge.
    Annotate the .dot output with state-purge information.  */

 class state_purge_annotator : public dot_annotator
 {
 public:
   state_purge_annotator (const state_purge_map *map) : m_map (map) {}

   bool add_node_annotations (graphviz_out *gv, const supernode &n, bool)
     const final override;

   void add_stmt_annotations (graphviz_out *gv, const gimple *stmt,
 			     bool within_row)
     const final override;

 private:
   void print_needed (graphviz_out *gv,
 		     const function_point &point,
 		     bool within_table) const;

   const state_purge_map *m_map;
 };

 } // namespace ana

 #endif /* GCC_ANALYZER_STATE_PURGE_H */
	/* Classes for purging state at function_points.
	Copyright (C) 2019-2023 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_STATE_PURGE_H
	#define GCC_ANALYZER_STATE_PURGE_H

	/* Hash traits for function_point. */

	template <> struct default_hash_traits<function_point>
	: public pod_hash_traits<function_point>
	{
	static const bool empty_zero_p = false;
	};

	template <>
	inline hashval_t
	pod_hash_traits<function_point>::hash (value_type v)
	{
	return v.hash ();
	}

	template <>
	inline bool
	pod_hash_traits<function_point>::equal (const value_type &existing,
	const value_type &candidate)
	{
	return existing == candidate;
	}
	template <>
	inline void
	pod_hash_traits<function_point>::mark_deleted (value_type &v)
	{
	v = function_point::deleted ();
	}
	template <>
	inline void
	pod_hash_traits<function_point>::mark_empty (value_type &v)
	{
	v = function_point::empty ();
	}
	template <>
	inline bool
	pod_hash_traits<function_point>::is_deleted (value_type v)
	{
	return v.get_kind () == PK_DELETED;
	}
	template <>
	inline bool
	pod_hash_traits<function_point>::is_empty (value_type v)
	{
	return v.get_kind () == PK_EMPTY;
	}

	namespace ana {

	/* The result of analyzing which decls and SSA names can be purged from state at
	different points in the program, so that we can simplify program_state
	objects, in the hope of reducing state-blowup. */

	class state_purge_map : public log_user
	{
	public:
	typedef ordered_hash_map<tree, state_purge_per_ssa_name *> ssa_map_t;
	typedef ssa_map_t::iterator ssa_iterator;

	typedef ordered_hash_map<tree, state_purge_per_decl *> decl_map_t;
	typedef decl_map_t::iterator decl_iterator;

	state_purge_map (const supergraph &sg,
	region_model_manager *mgr,
	logger *logger);
	~state_purge_map ();

	const state_purge_per_ssa_name &get_data_for_ssa_name (tree name) const
	{
	gcc_assert (TREE_CODE (name) == SSA_NAME);
	if (tree var = SSA_NAME_VAR (name))
	if (TREE_CODE (var) == VAR_DECL)
	gcc_assert (!VAR_DECL_IS_VIRTUAL_OPERAND (var));

	state_purge_per_ssa_name **slot
	= const_cast <ssa_map_t&> (m_ssa_map).get (name);
	return **slot;
	}

	const state_purge_per_decl *get_any_data_for_decl (tree decl) const
	{
	gcc_assert (TREE_CODE (decl) == VAR_DECL
	\|\| TREE_CODE (decl) == PARM_DECL
	\|\| TREE_CODE (decl) == RESULT_DECL);
	if (state_purge_per_decl **slot
	= const_cast <decl_map_t&> (m_decl_map).get (decl))
	return *slot;
	else
	return NULL;
	}

	state_purge_per_decl &get_or_create_data_for_decl (function *fun, tree decl);

	const supergraph &get_sg () const { return m_sg; }

	ssa_iterator begin_ssas () const { return m_ssa_map.begin (); }
	ssa_iterator end_ssas () const { return m_ssa_map.end (); }

	decl_iterator begin_decls () const { return m_decl_map.begin (); }
	decl_iterator end_decls () const { return m_decl_map.end (); }

	private:
	DISABLE_COPY_AND_ASSIGN (state_purge_map);

	const supergraph &m_sg;
	ssa_map_t m_ssa_map;
	decl_map_t m_decl_map;
	};

	/* Base class for state_purge_per_ssa_name and state_purge_per_decl. */

	class state_purge_per_tree
	{
	public:
	function *get_function () const { return m_fun; }
	tree get_fndecl () const { return m_fun->decl; }

	protected:
	typedef hash_set<function_point> point_set_t;

	state_purge_per_tree (function *fun)
	: m_fun (fun)
	{
	}

	private:
	function *m_fun;
	};

	/* The part of a state_purge_map relating to a specific SSA name.

	The result of analyzing a given SSA name, recording which
	function_points need to retain state information about it to handle
	their successor states, so that we can simplify program_state objects,
	in the hope of reducing state-blowup. */

	class state_purge_per_ssa_name : public state_purge_per_tree
	{
	public:
	state_purge_per_ssa_name (const state_purge_map &map,
	tree name,
	function *fun);

	bool needed_at_point_p (const function_point &point) const;

	private:
	static function_point before_use_stmt (const state_purge_map &map,
	const gimple *use_stmt);

	void add_to_worklist (const function_point &point,
	auto_vec<function_point> *worklist,
	logger *logger);

	void process_point (const function_point &point,
	auto_vec<function_point> *worklist,
	const state_purge_map &map);

	point_set_t m_points_needing_name;
	tree m_name;
	};

	/* The part of a state_purge_map relating to a specific decl.

	Analogous to state_purge_per_ssa_name, but for local decls.

	This is more involved than the SSA name case, because we also need
	to handle pointers and components. */

	class state_purge_per_decl : public state_purge_per_tree
	{
	public:
	state_purge_per_decl (const state_purge_map &map,
	tree decl,
	function *fun);

	bool needed_at_point_p (const function_point &point) const;

	void add_needed_at (const function_point &point);
	void add_pointed_to_at (const function_point &point);
	void process_worklists (const state_purge_map &map,
	region_model_manager *mgr);

	private:
	static function_point before_use_stmt (const state_purge_map &map,
	const gimple *use_stmt);

	void add_to_worklist (const function_point &point,
	auto_vec<function_point> *worklist,
	point_set_t *seen,
	logger *logger);

	void process_point_backwards (const function_point &point,
	auto_vec<function_point> *worklist,
	point_set_t *seen,
	const state_purge_map &map,
	const region_model &model);
	void process_point_forwards (const function_point &point,
	auto_vec<function_point> *worklist,
	point_set_t *seen,
	const state_purge_map &map);

	point_set_t m_points_needing_decl;
	point_set_t m_points_taking_address;
	tree m_decl;
	};

	/* Subclass of dot_annotator for use by -fdump-analyzer-state-purge.
	Annotate the .dot output with state-purge information. */

	class state_purge_annotator : public dot_annotator
	{
	public:
	state_purge_annotator (const state_purge_map *map) : m_map (map) {}

	bool add_node_annotations (graphviz_out *gv, const supernode &n, bool)
	const final override;

	void add_stmt_annotations (graphviz_out gv, const gimple stmt,
	bool within_row)
	const final override;

	private:
	void print_needed (graphviz_out *gv,
	const function_point &point,
	bool within_table) const;

	const state_purge_map *m_map;
	};

	} // namespace ana

	#endif /* GCC_ANALYZER_STATE_PURGE_H */