gcc/gimple-predicate-analysis.h - gcc - Git at Google

 /* Support for simple predicate analysis.

    Copyright (C) 2021-2024 Free Software Foundation, Inc.
    Contributed by Martin Sebor <msebor@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 GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED
 #define GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED


 /* Represents a simple Boolean predicate.  */
 struct pred_info
 {
   tree pred_lhs;
   tree pred_rhs;
   enum tree_code cond_code;
   bool invert;
 };

 /* The type to represent a sequence of predicates grouped
    with .AND. operation.  */
 typedef vec<pred_info, va_heap, vl_ptr> pred_chain;

 /* The type to represent a sequence of pred_chains grouped
    with .OR. operation.  */
 typedef vec<pred_chain, va_heap, vl_ptr> pred_chain_union;

 /* Represents a complex Boolean predicate expression.  */
 class predicate
 {
  public:
   /* Construct with the specified EVAL object.  */
   predicate (bool empty_val) : m_preds (vNULL), m_cval (empty_val) { }

   /* Copy.  */
   predicate (const predicate &rhs) : m_preds (vNULL) { *this = rhs; }

   ~predicate ();

   /* Assign.  */
   predicate& operator= (const predicate &);

   bool is_empty () const
   {
     return m_preds.is_empty ();
   }

   bool is_true () const
   {
     return is_empty () && m_cval;
   }

   bool is_false () const
   {
     return is_empty () && !m_cval;
   }

   bool empty_val () const
   {
     return m_cval;
   }

   const pred_chain_union chain () const
   {
     return m_preds;
   }

   void init_from_control_deps (const vec<edge> *, unsigned, bool);

   void dump (FILE *) const;
   void dump (FILE *, gimple *, const char *) const;
   void debug () const;

   void normalize (gimple * = NULL, bool = false);
   void simplify (gimple * = NULL, bool = false);

   bool superset_of (const predicate &) const;

 private:

   bool includes (const pred_chain &) const;
   void push_pred (const pred_info &);

   /* Normalization functions.  */
   void normalize (pred_chain *, pred_info, tree_code, pred_chain *,
 		  hash_set<tree> *);
   void normalize (const pred_info &);
   void normalize (const pred_chain &);

   /* Simplification functions.  */
   bool simplify_2 ();
   bool simplify_3 ();
   bool simplify_4 ();

   /* Representation of the predicate expression(s).  The predicate is
      m_cval || m_preds[0] || ...  */
   pred_chain_union m_preds;
   bool m_cval;
 };

 /* Represents a complex Boolean predicate expression.  */
 class uninit_analysis
 {
  public:
   /* Base function object type used to determine whether an expression
      is of interest.  */
   struct func_t
   {
     typedef unsigned phi_arg_set_t;

     /* Return a bitset of PHI arguments of interest.  By default returns
        bitset with a bit set for each argument.  Should be called in
        the overriden function first and, if nonzero, the result then
        refined as appropriate.  */
     virtual phi_arg_set_t phi_arg_set (gphi *);

     /* Maximum number of PHI arguments supported by phi_arg_set().  */
     static constexpr unsigned max_phi_args =
       sizeof (phi_arg_set_t) * CHAR_BIT;
   };

   /* Construct with the specified EVAL object.  */
   uninit_analysis (func_t &eval)
     : m_phi_def_preds (false), m_eval (eval) { }

   /* Copy.  */
   uninit_analysis (const uninit_analysis &rhs) = delete;

   /* Assign.  */
   uninit_analysis& operator= (const uninit_analysis&) = delete;

   /* Return true if the use by a statement in the basic block of
      a PHI operand is ruled out (i.e., guarded) by *THIS.  */
   bool is_use_guarded (gimple *, basic_block, gphi *, unsigned);

 private:
   bool is_use_guarded (gimple *, basic_block, gphi *, unsigned,
 		       hash_set<gphi *> *);
   bool prune_phi_opnds (gphi *, unsigned, gphi *, tree, tree_code,
 			hash_set<gphi *> *, bitmap *);
   bool overlap (gphi *, unsigned, hash_set<gphi *> *, const predicate &);

   void collect_phi_def_edges (gphi *, basic_block, vec<edge> *,
 			      hash_set<gimple *> *);
   bool init_from_phi_def (gphi *);
   bool init_use_preds (predicate &, basic_block, basic_block);


   /* Representation of the predicate expression(s).  */
   predicate m_phi_def_preds;
   /* Callback to evaluate an operand.  Return true if it's interesting.  */
   func_t &m_eval;
 };

 /* Bit mask handling macros.  */
 #define MASK_SET_BIT(mask, pos) mask |= (1 << pos)
 #define MASK_TEST_BIT(mask, pos) (mask & (1 << pos))
 #define MASK_EMPTY(mask) (mask == 0)

 #endif // GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED
	/* Support for simple predicate analysis.

	Copyright (C) 2021-2024 Free Software Foundation, Inc.
	Contributed by Martin Sebor <msebor@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 GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED
	#define GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED


	/* Represents a simple Boolean predicate. */
	struct pred_info
	{
	tree pred_lhs;
	tree pred_rhs;
	enum tree_code cond_code;
	bool invert;
	};

	/* The type to represent a sequence of predicates grouped
	with .AND. operation. */
	typedef vec<pred_info, va_heap, vl_ptr> pred_chain;

	/* The type to represent a sequence of pred_chains grouped
	with .OR. operation. */
	typedef vec<pred_chain, va_heap, vl_ptr> pred_chain_union;

	/* Represents a complex Boolean predicate expression. */
	class predicate
	{
	public:
	/* Construct with the specified EVAL object. */
	predicate (bool empty_val) : m_preds (vNULL), m_cval (empty_val) { }

	/* Copy. */
	predicate (const predicate &rhs) : m_preds (vNULL) { *this = rhs; }

	~predicate ();

	/* Assign. */
	predicate& operator= (const predicate &);

	bool is_empty () const
	{
	return m_preds.is_empty ();
	}

	bool is_true () const
	{
	return is_empty () && m_cval;
	}

	bool is_false () const
	{
	return is_empty () && !m_cval;
	}

	bool empty_val () const
	{
	return m_cval;
	}

	const pred_chain_union chain () const
	{
	return m_preds;
	}

	void init_from_control_deps (const vec<edge> *, unsigned, bool);

	void dump (FILE *) const;
	void dump (FILE , gimple , const char *) const;
	void debug () const;

	void normalize (gimple * = NULL, bool = false);
	void simplify (gimple * = NULL, bool = false);

	bool superset_of (const predicate &) const;

	private:

	bool includes (const pred_chain &) const;
	void push_pred (const pred_info &);

	/* Normalization functions. */
	void normalize (pred_chain , pred_info, tree_code, pred_chain ,
	hash_set<tree> *);
	void normalize (const pred_info &);
	void normalize (const pred_chain &);

	/* Simplification functions. */
	bool simplify_2 ();
	bool simplify_3 ();
	bool simplify_4 ();

	/* Representation of the predicate expression(s). The predicate is
	m_cval \|\| m_preds[0] \|\| ... */
	pred_chain_union m_preds;
	bool m_cval;
	};

	/* Represents a complex Boolean predicate expression. */
	class uninit_analysis
	{
	public:
	/* Base function object type used to determine whether an expression
	is of interest. */
	struct func_t
	{
	typedef unsigned phi_arg_set_t;

	/* Return a bitset of PHI arguments of interest. By default returns
	bitset with a bit set for each argument. Should be called in
	the overriden function first and, if nonzero, the result then
	refined as appropriate. */
	virtual phi_arg_set_t phi_arg_set (gphi *);

	/* Maximum number of PHI arguments supported by phi_arg_set(). */
	static constexpr unsigned max_phi_args =
	sizeof (phi_arg_set_t) * CHAR_BIT;
	};

	/* Construct with the specified EVAL object. */
	uninit_analysis (func_t &eval)
	: m_phi_def_preds (false), m_eval (eval) { }

	/* Copy. */
	uninit_analysis (const uninit_analysis &rhs) = delete;

	/* Assign. */
	uninit_analysis& operator= (const uninit_analysis&) = delete;

	/* Return true if the use by a statement in the basic block of
	a PHI operand is ruled out (i.e., guarded) by THIS. /
	bool is_use_guarded (gimple , basic_block, gphi , unsigned);

	private:
	bool is_use_guarded (gimple , basic_block, gphi , unsigned,
	hash_set<gphi > );
	bool prune_phi_opnds (gphi , unsigned, gphi , tree, tree_code,
	hash_set<gphi > , bitmap *);
	bool overlap (gphi , unsigned, hash_set<gphi > *, const predicate &);

	void collect_phi_def_edges (gphi , basic_block, vec<edge> ,
	hash_set<gimple > );
	bool init_from_phi_def (gphi *);
	bool init_use_preds (predicate &, basic_block, basic_block);


	/* Representation of the predicate expression(s). */
	predicate m_phi_def_preds;
	/* Callback to evaluate an operand. Return true if it's interesting. */
	func_t &m_eval;
	};

	/* Bit mask handling macros. */
	#define MASK_SET_BIT(mask, pos) mask \|= (1 << pos)
	#define MASK_TEST_BIT(mask, pos) (mask & (1 << pos))
	#define MASK_EMPTY(mask) (mask == 0)

	#endif // GIMPLE_PREDICATE_ANALYSIS_H_INCLUDED