gcc/domwalk.h - gcc - Git at Google

 /* Generic dominator tree walker
    Copyright (C) 2003-2019 Free Software Foundation, Inc.
    Contributed by Diego Novillo <dnovillo@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_DOM_WALK_H
 #define GCC_DOM_WALK_H

 /**
  * This is the main class for the dominator walker. It is expected that
  * consumers will have a custom class inheriting from it, which will over ride
  * at least one of before_dom_children and after_dom_children to implement the
  * custom behavior.
  */
 class dom_walker
 {
 public:
   static const edge STOP;

   /* An enum for determining whether the dom walk should be constrained to
      blocks reachable by executable edges.  */

   enum reachability
   {
     /* Walk all blocks within the CFG.  */
     ALL_BLOCKS,

     /* Use REACHABLE_BLOCKS when your subclass can discover that some edges
        are not executable.

        If a subclass can discover that a COND, SWITCH or GOTO has a static
        target in the before_dom_children callback, the taken edge should
        be returned.  The generic walker will clear EDGE_EXECUTABLE on all
        edges it can determine are not executable.

        With REACHABLE_BLOCKS, EDGE_EXECUTABLE will be set on every edge in
        the dom_walker ctor; the flag will then be cleared on edges that are
        determined to be not executable.  */
     REACHABLE_BLOCKS,

     /* Identical to REACHABLE_BLOCKS, but the initial state of EDGE_EXECUTABLE
        will instead be preserved in the ctor, allowing for information about
        non-executable edges to be merged in from an earlier analysis (and
        potentially for additional edges to be marked as non-executable).  */
     REACHABLE_BLOCKS_PRESERVING_FLAGS
   };

   /* You can provide a mapping of basic-block index to RPO if you
      have that readily available or you do multiple walks.  If you
      specify NULL as BB_INDEX_TO_RPO dominator children will not be
      walked in RPO order.  */
   dom_walker (cdi_direction direction, enum reachability = ALL_BLOCKS,
 	      int *bb_index_to_rpo = NULL);

   ~dom_walker ();

   /* Walk the dominator tree.  */
   void walk (basic_block);

   /* Function to call before the recursive walk of the dominator children.

      Return value is the always taken edge if the block has multiple outgoing
      edges, NULL otherwise.  When skipping unreachable blocks, the walker
      uses the taken edge information to clear EDGE_EXECUTABLE on the other
      edges, exposing unreachable blocks.  A NULL return value means all
      outgoing edges should still be considered executable.  A return value
      of STOP means to stop the domwalk from processing dominated blocks from
      here.  This can be used to process a SEME region only (note domwalk
      will still do work linear in function size).  */
   virtual edge before_dom_children (basic_block) { return NULL; }

   /* Function to call after the recursive walk of the dominator children.  */
   virtual void after_dom_children (basic_block) {}

 private:
   /* This is the direction of the dominator tree we want to walk.  i.e.,
      if it is set to CDI_DOMINATORS, then we walk the dominator tree,
      if it is set to CDI_POST_DOMINATORS, then we walk the post
      dominator tree.  */
   const ENUM_BITFIELD (cdi_direction) m_dom_direction : 2;
   const ENUM_BITFIELD (reachability) m_reachability : 2;
   bool m_user_bb_to_rpo;
   basic_block m_unreachable_dom;
   int *m_bb_to_rpo;

   /* Query whether or not the given block is reachable or not.  */
   bool bb_reachable (struct function *, basic_block);

   /* Given an unreachable block, propagate that property to outgoing
      and possibly incoming edges for the block.  Typically called after
      determining a block is unreachable in the before_dom_children
      callback.  */
   void propagate_unreachable_to_edges (basic_block, FILE *, dump_flags_t);

 };

 extern void set_all_edges_as_executable (function *fn);

 #endif
	/* Generic dominator tree walker
	Copyright (C) 2003-2019 Free Software Foundation, Inc.
	Contributed by Diego Novillo <dnovillo@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_DOM_WALK_H
	#define GCC_DOM_WALK_H

	/**
	* This is the main class for the dominator walker. It is expected that
	* consumers will have a custom class inheriting from it, which will over ride
	* at least one of before_dom_children and after_dom_children to implement the
	* custom behavior.
	*/
	class dom_walker
	{
	public:
	static const edge STOP;

	/* An enum for determining whether the dom walk should be constrained to
	blocks reachable by executable edges. */

	enum reachability
	{
	/* Walk all blocks within the CFG. */
	ALL_BLOCKS,

	/* Use REACHABLE_BLOCKS when your subclass can discover that some edges
	are not executable.

	If a subclass can discover that a COND, SWITCH or GOTO has a static
	target in the before_dom_children callback, the taken edge should
	be returned. The generic walker will clear EDGE_EXECUTABLE on all
	edges it can determine are not executable.

	With REACHABLE_BLOCKS, EDGE_EXECUTABLE will be set on every edge in
	the dom_walker ctor; the flag will then be cleared on edges that are
	determined to be not executable. */
	REACHABLE_BLOCKS,

	/* Identical to REACHABLE_BLOCKS, but the initial state of EDGE_EXECUTABLE
	will instead be preserved in the ctor, allowing for information about
	non-executable edges to be merged in from an earlier analysis (and
	potentially for additional edges to be marked as non-executable). */
	REACHABLE_BLOCKS_PRESERVING_FLAGS
	};

	/* You can provide a mapping of basic-block index to RPO if you
	have that readily available or you do multiple walks. If you
	specify NULL as BB_INDEX_TO_RPO dominator children will not be
	walked in RPO order. */
	dom_walker (cdi_direction direction, enum reachability = ALL_BLOCKS,
	int *bb_index_to_rpo = NULL);

	~dom_walker ();

	/* Walk the dominator tree. */
	void walk (basic_block);

	/* Function to call before the recursive walk of the dominator children.

	Return value is the always taken edge if the block has multiple outgoing
	edges, NULL otherwise. When skipping unreachable blocks, the walker
	uses the taken edge information to clear EDGE_EXECUTABLE on the other
	edges, exposing unreachable blocks. A NULL return value means all
	outgoing edges should still be considered executable. A return value
	of STOP means to stop the domwalk from processing dominated blocks from
	here. This can be used to process a SEME region only (note domwalk
	will still do work linear in function size). */
	virtual edge before_dom_children (basic_block) { return NULL; }

	/* Function to call after the recursive walk of the dominator children. */
	virtual void after_dom_children (basic_block) {}

	private:
	/* This is the direction of the dominator tree we want to walk. i.e.,
	if it is set to CDI_DOMINATORS, then we walk the dominator tree,
	if it is set to CDI_POST_DOMINATORS, then we walk the post
	dominator tree. */
	const ENUM_BITFIELD (cdi_direction) m_dom_direction : 2;
	const ENUM_BITFIELD (reachability) m_reachability : 2;
	bool m_user_bb_to_rpo;
	basic_block m_unreachable_dom;
	int *m_bb_to_rpo;

	/* Query whether or not the given block is reachable or not. */
	bool bb_reachable (struct function *, basic_block);

	/* Given an unreachable block, propagate that property to outgoing
	and possibly incoming edges for the block. Typically called after
	determining a block is unreachable in the before_dom_children
	callback. */
	void propagate_unreachable_to_edges (basic_block, FILE *, dump_flags_t);

	};

	extern void set_all_edges_as_executable (function *fn);

	#endif