gcc/tree-ssa-threadupdate.h - gcc - Git at Google

 /* Communication between registering jump thread requests and
    updating the SSA/CFG for jump threading.
    Copyright (C) 2013-2021 Free Software Foundation, Inc.

 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 _TREE_SSA_THREADUPDATE_H
 #define _TREE_SSA_THREADUPDATE_H 1

 enum jump_thread_edge_type
 {
   EDGE_START_JUMP_THREAD,
   EDGE_COPY_SRC_BLOCK,
   EDGE_COPY_SRC_JOINER_BLOCK,
   EDGE_NO_COPY_SRC_BLOCK
 };

 // We keep the registered jump threading opportunities in this
 // vector as edge pairs (original_edge, target_edge).

 class jump_thread_edge
 {
 public:
   jump_thread_edge (edge e, jump_thread_edge_type t) : e (e), type (t) {}

   edge e;
   jump_thread_edge_type type;
 };

 class jump_thread_path_allocator
 {
 public:
   jump_thread_path_allocator ();
   ~jump_thread_path_allocator ();
   jump_thread_edge *allocate_thread_edge (edge, jump_thread_edge_type);
   vec<jump_thread_edge *> *allocate_thread_path ();
 private:
   DISABLE_COPY_AND_ASSIGN (jump_thread_path_allocator);
   obstack m_obstack;
 };

 // Abstract class for the jump thread registry.
 //
 // When all candidates have been registered with
 // register_jump_thread(), thread_through_all_blocks() is called to
 // update the CFG.

 class jt_path_registry
 {
 public:
   jt_path_registry (bool backedge_threads);
   virtual ~jt_path_registry ();
   bool register_jump_thread (vec<jump_thread_edge *> *);
   bool thread_through_all_blocks (bool peel_loop_headers);
   void push_edge (vec<jump_thread_edge *> *path, edge, jump_thread_edge_type);
   vec<jump_thread_edge *> *allocate_thread_path ();
   void debug ();
 protected:
   void debug_path (FILE *, int pathno);
   vec<vec<jump_thread_edge *> *> m_paths;
   unsigned long m_num_threaded_edges;
 private:
   virtual bool update_cfg (bool peel_loop_headers) = 0;
   bool cancel_invalid_paths (vec<jump_thread_edge *> &path);
   jump_thread_path_allocator m_allocator;
   // True if threading through back edges is allowed.  This is only
   // allowed in the generic copier in the backward threader.
   bool m_backedge_threads;
   DISABLE_COPY_AND_ASSIGN (jt_path_registry);
 };

 // Forward threader path registry using a custom BB copier.

 class fwd_jt_path_registry : public jt_path_registry
 {
 public:
   fwd_jt_path_registry ();
   ~fwd_jt_path_registry ();
   void remove_jump_threads_including (edge);
 private:
   bool update_cfg (bool peel_loop_headers) override;
   void mark_threaded_blocks (bitmap threaded_blocks);
   bool thread_block_1 (basic_block, bool noloop_only, bool joiners);
   bool thread_block (basic_block, bool noloop_only);
   bool thread_through_loop_header (class loop *loop,
 				   bool may_peel_loop_headers);
   class redirection_data *lookup_redirection_data (edge e, enum insert_option);

   hash_table<struct removed_edges> *m_removed_edges;

   // Main data structure to hold information for duplicates of BB.
   hash_table<redirection_data> *m_redirection_data;
 };

 // Backward threader path registry using a generic BB copier.

 class back_jt_path_registry : public jt_path_registry
 {
 public:
   back_jt_path_registry ();
 private:
   bool update_cfg (bool peel_loop_headers) override;
   void adjust_paths_after_duplication (unsigned curr_path_num);
   bool duplicate_thread_path (edge entry, edge exit, basic_block *region,
 			      unsigned n_region, unsigned current_path_no);
   bool rewire_first_differing_edge (unsigned path_num, unsigned edge_num);
 };

 // Rather than search all the edges in jump thread paths each time DOM
 // is able to simply if control statement, we build a hash table with
 // the deleted edges.  We only care about the address of the edge, not
 // its contents.
 struct removed_edges : nofree_ptr_hash<edge_def>
 {
   static hashval_t hash (edge e) { return htab_hash_pointer (e); }
   static bool equal (edge e1, edge e2) { return e1 == e2; }
 };

 extern unsigned int estimate_threading_killed_stmts (basic_block);

 enum bb_dom_status
 {
   /* BB does not dominate latch of the LOOP.  */
   DOMST_NONDOMINATING,
   /* The LOOP is broken (there is no path from the header to its latch.  */
   DOMST_LOOP_BROKEN,
   /* BB dominates the latch of the LOOP.  */
   DOMST_DOMINATING
 };

 enum bb_dom_status determine_bb_domination_status (class loop *, basic_block);

 // In tree-ssa-dom.c.
 extern void free_dom_edge_info (edge);

 #endif
	/* Communication between registering jump thread requests and
	updating the SSA/CFG for jump threading.
	Copyright (C) 2013-2021 Free Software Foundation, Inc.

	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 _TREE_SSA_THREADUPDATE_H
	#define _TREE_SSA_THREADUPDATE_H 1

	enum jump_thread_edge_type
	{
	EDGE_START_JUMP_THREAD,
	EDGE_COPY_SRC_BLOCK,
	EDGE_COPY_SRC_JOINER_BLOCK,
	EDGE_NO_COPY_SRC_BLOCK
	};

	// We keep the registered jump threading opportunities in this
	// vector as edge pairs (original_edge, target_edge).

	class jump_thread_edge
	{
	public:
	jump_thread_edge (edge e, jump_thread_edge_type t) : e (e), type (t) {}

	edge e;
	jump_thread_edge_type type;
	};

	class jump_thread_path_allocator
	{
	public:
	jump_thread_path_allocator ();
	~jump_thread_path_allocator ();
	jump_thread_edge *allocate_thread_edge (edge, jump_thread_edge_type);
	vec<jump_thread_edge > allocate_thread_path ();
	private:
	DISABLE_COPY_AND_ASSIGN (jump_thread_path_allocator);
	obstack m_obstack;
	};

	// Abstract class for the jump thread registry.
	//
	// When all candidates have been registered with
	// register_jump_thread(), thread_through_all_blocks() is called to
	// update the CFG.

	class jt_path_registry
	{
	public:
	jt_path_registry (bool backedge_threads);
	virtual ~jt_path_registry ();
	bool register_jump_thread (vec<jump_thread_edge > );
	bool thread_through_all_blocks (bool peel_loop_headers);
	void push_edge (vec<jump_thread_edge > path, edge, jump_thread_edge_type);
	vec<jump_thread_edge > allocate_thread_path ();
	void debug ();
	protected:
	void debug_path (FILE *, int pathno);
	vec<vec<jump_thread_edge > > m_paths;
	unsigned long m_num_threaded_edges;
	private:
	virtual bool update_cfg (bool peel_loop_headers) = 0;
	bool cancel_invalid_paths (vec<jump_thread_edge *> &path);
	jump_thread_path_allocator m_allocator;
	// True if threading through back edges is allowed. This is only
	// allowed in the generic copier in the backward threader.
	bool m_backedge_threads;
	DISABLE_COPY_AND_ASSIGN (jt_path_registry);
	};

	// Forward threader path registry using a custom BB copier.

	class fwd_jt_path_registry : public jt_path_registry
	{
	public:
	fwd_jt_path_registry ();
	~fwd_jt_path_registry ();
	void remove_jump_threads_including (edge);
	private:
	bool update_cfg (bool peel_loop_headers) override;
	void mark_threaded_blocks (bitmap threaded_blocks);
	bool thread_block_1 (basic_block, bool noloop_only, bool joiners);
	bool thread_block (basic_block, bool noloop_only);
	bool thread_through_loop_header (class loop *loop,
	bool may_peel_loop_headers);
	class redirection_data *lookup_redirection_data (edge e, enum insert_option);

	hash_table<struct removed_edges> *m_removed_edges;

	// Main data structure to hold information for duplicates of BB.
	hash_table<redirection_data> *m_redirection_data;
	};

	// Backward threader path registry using a generic BB copier.

	class back_jt_path_registry : public jt_path_registry
	{
	public:
	back_jt_path_registry ();
	private:
	bool update_cfg (bool peel_loop_headers) override;
	void adjust_paths_after_duplication (unsigned curr_path_num);
	bool duplicate_thread_path (edge entry, edge exit, basic_block *region,
	unsigned n_region, unsigned current_path_no);
	bool rewire_first_differing_edge (unsigned path_num, unsigned edge_num);
	};

	// Rather than search all the edges in jump thread paths each time DOM
	// is able to simply if control statement, we build a hash table with
	// the deleted edges. We only care about the address of the edge, not
	// its contents.
	struct removed_edges : nofree_ptr_hash<edge_def>
	{
	static hashval_t hash (edge e) { return htab_hash_pointer (e); }
	static bool equal (edge e1, edge e2) { return e1 == e2; }
	};

	extern unsigned int estimate_threading_killed_stmts (basic_block);

	enum bb_dom_status
	{
	/* BB does not dominate latch of the LOOP. */
	DOMST_NONDOMINATING,
	/* The LOOP is broken (there is no path from the header to its latch. */
	DOMST_LOOP_BROKEN,
	/* BB dominates the latch of the LOOP. */
	DOMST_DOMINATING
	};

	enum bb_dom_status determine_bb_domination_status (class loop *, basic_block);

	// In tree-ssa-dom.c.
	extern void free_dom_edge_info (edge);

	#endif