gcc/value-range.h - gcc - Git at Google

 /* Support routines for value ranges.
    Copyright (C) 2019-2021 Free Software Foundation, Inc.
    Contributed by Aldy Hernandez <aldyh@redhat.com> and
    Andrew Macleod <amacleod@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_VALUE_RANGE_H
 #define GCC_VALUE_RANGE_H

 // Types of value ranges.
 enum value_range_kind
 {
   /* Empty range.  */
   VR_UNDEFINED,
   /* Range spans the entire domain.  */
   VR_VARYING,
   /* Range is [MIN, MAX].  */
   VR_RANGE,
   /* Range is ~[MIN, MAX].  */
   VR_ANTI_RANGE,
   /* Range is a nice guy.  */
   VR_LAST
 };

 // Range of values that can be associated with an SSA_NAME.
 //
 // This is the base class without any storage.

 class GTY((user)) irange
 {
   friend class irange_allocator;
 public:
   // In-place setters.
   void set (tree, tree, value_range_kind = VR_RANGE);
   void set_nonzero (tree);
   void set_zero (tree);
   void set_varying (tree type);
   void set_undefined ();

   // Range types.
   static bool supports_type_p (tree);
   tree type () const;

   // Iteration over sub-ranges.
   unsigned num_pairs () const;
   wide_int lower_bound (unsigned = 0) const;
   wide_int upper_bound (unsigned) const;
   wide_int upper_bound () const;

   // Predicates.
   bool zero_p () const;
   bool nonzero_p () const;
   bool undefined_p () const;
   bool varying_p () const;
   bool singleton_p (tree *result = NULL) const;
   bool contains_p (tree) const;

   // In-place operators.
   void union_ (const irange &);
   void intersect (const irange &);
   void intersect (const wide_int& lb, const wide_int& ub);
   void invert ();

   // Operator overloads.
   irange& operator= (const irange &);
   bool operator== (const irange &) const;
   bool operator!= (const irange &r) const { return !(*this == r); }

   // Misc methods.
   bool fits_p (const irange &r) { return m_max_ranges >= r.num_pairs (); }
   void dump (FILE * = stderr) const;
   void debug () const;

   // Deprecated legacy public methods.
   enum value_range_kind kind () const;		// DEPRECATED
   tree min () const;				// DEPRECATED
   tree max () const;				// DEPRECATED
   bool symbolic_p () const;			// DEPRECATED
   bool constant_p () const;			// DEPRECATED
   void normalize_symbolics ();			// DEPRECATED
   void normalize_addresses ();			// DEPRECATED
   bool may_contain_p (tree) const;		// DEPRECATED
   void set (tree);				// DEPRECATED
   bool equal_p (const irange &) const;		// DEPRECATED
   void union_ (const class irange *);		// DEPRECATED
   void intersect (const irange *);		// DEPRECATED

 protected:
   irange (tree *, unsigned);
   // potential promotion to public?
   tree tree_lower_bound (unsigned = 0) const;
   tree tree_upper_bound (unsigned) const;
   tree tree_upper_bound () const;

    // In-place operators.
   void irange_union (const irange &);
   void irange_intersect (const irange &);
   void irange_set (tree, tree);
   void irange_set_anti_range (tree, tree);

   void normalize_kind ();

   bool legacy_mode_p () const;
   bool legacy_equal_p (const irange &) const;
   void legacy_union (irange *, const irange *);
   void legacy_intersect (irange *, const irange *);
   void verify_range ();
   wide_int legacy_lower_bound (unsigned = 0) const;
   wide_int legacy_upper_bound (unsigned) const;
   int value_inside_range (tree) const;
   bool maybe_anti_range () const;
   void copy_to_legacy (const irange &);
   void copy_legacy_to_multi_range (const irange &);

 private:
   friend void gt_ggc_mx (irange *);
   friend void gt_pch_nx (irange *);
   friend void gt_pch_nx (irange *, gt_pointer_operator, void *);

   void irange_set_1bit_anti_range (tree, tree);
   bool varying_compatible_p () const;

   unsigned char m_num_ranges;
   unsigned char m_max_ranges;
   ENUM_BITFIELD(value_range_kind) m_kind : 8;
   tree *m_base;
 };

 // Here we describe an irange with N pairs of ranges.  The storage for
 // the pairs is embedded in the class as an array.

 template<unsigned N>
 class GTY((user)) int_range : public irange
 {
 public:
   int_range ();
   int_range (tree, tree, value_range_kind = VR_RANGE);
   int_range (tree type, const wide_int &, const wide_int &,
 	     value_range_kind = VR_RANGE);
   int_range (tree type);
   int_range (const int_range &);
   int_range (const irange &);
   int_range& operator= (const int_range &);
 private:
   template <unsigned X> friend void gt_ggc_mx (int_range<X> *);
   template <unsigned X> friend void gt_pch_nx (int_range<X> *);
   template <unsigned X> friend void gt_pch_nx (int_range<X> *,
 					       gt_pointer_operator, void *);

   // ?? These stubs are for ipa-prop.c which use a value_range in a
   // hash_traits.  hash-traits.h defines an extern of gt_ggc_mx (T &)
   // instead of picking up the gt_ggc_mx (T *) version.
   friend void gt_ggc_mx (int_range<1> *&);
   friend void gt_pch_nx (int_range<1> *&);

   tree m_ranges[N*2];
 };

 // This is a special int_range<1> with only one pair, plus
 // VR_ANTI_RANGE magic to describe slightly more than can be described
 // in one pair.  It is described in the code as a "legacy range" (as
 // opposed to multi-ranges which have multiple sub-ranges).  It is
 // provided for backward compatibility with code that has not been
 // converted to multi-range irange's.
 //
 // There are copy operators to seamlessly copy to/fro multi-ranges.
 typedef int_range<1> value_range;

 // This is an "infinite" precision irange for use in temporary
 // calculations.
 typedef int_range<255> int_range_max;

 // Returns true for an old-school value_range as described above.
 inline bool
 irange::legacy_mode_p () const
 {
   return m_max_ranges == 1;
 }

 extern bool range_has_numeric_bounds_p (const irange *);
 extern bool ranges_from_anti_range (const value_range *,
 				    value_range *, value_range *);
 extern void dump_value_range (FILE *, const irange *);
 extern bool vrp_val_is_min (const_tree);
 extern bool vrp_val_is_max (const_tree);
 extern bool vrp_operand_equal_p (const_tree, const_tree);

 inline value_range_kind
 irange::kind () const
 {
   return m_kind;
 }

 // Number of sub-ranges in a range.

 inline unsigned
 irange::num_pairs () const
 {
   if (m_kind == VR_ANTI_RANGE)
     return constant_p () ? 2 : 1;
   else
     return m_num_ranges;
 }

 inline tree
 irange::type () const
 {
   gcc_checking_assert (m_num_ranges > 0);
   return TREE_TYPE (m_base[0]);
 }

 // Return the lower bound of a sub-range expressed as a tree.  PAIR is
 // the sub-range in question.

 inline tree
 irange::tree_lower_bound (unsigned pair) const
 {
   return m_base[pair * 2];
 }

 // Return the upper bound of a sub-range expressed as a tree.  PAIR is
 // the sub-range in question.

 inline tree
 irange::tree_upper_bound (unsigned pair) const
 {
   return m_base[pair * 2 + 1];
 }

 // Return the highest bound of a range expressed as a tree.

 inline tree
 irange::tree_upper_bound () const
 {
   gcc_checking_assert (m_num_ranges);
   return tree_upper_bound (m_num_ranges - 1);
 }

 inline tree
 irange::min () const
 {
   return tree_lower_bound (0);
 }

 inline tree
 irange::max () const
 {
   if (m_num_ranges)
     return tree_upper_bound ();
   else
     return NULL;
 }

 inline bool
 irange::varying_compatible_p () const
 {
   if (m_num_ranges != 1)
     return false;

   tree l = m_base[0];
   tree u = m_base[1];
   tree t = TREE_TYPE (l);

   if (m_kind == VR_VARYING && t == error_mark_node)
     return true;

   unsigned prec = TYPE_PRECISION (t);
   signop sign = TYPE_SIGN (t);
   if (INTEGRAL_TYPE_P (t))
     return (wi::to_wide (l) == wi::min_value (prec, sign)
 	    && wi::to_wide (u) == wi::max_value (prec, sign));
   if (POINTER_TYPE_P (t))
     return (wi::to_wide (l) == 0
 	    && wi::to_wide (u) == wi::max_value (prec, sign));
   return true;
 }

 inline bool
 irange::varying_p () const
 {
   return m_kind == VR_VARYING;
 }

 inline bool
 irange::undefined_p () const
 {
   return m_kind == VR_UNDEFINED;
 }

 inline bool
 irange::zero_p () const
 {
   return (m_kind == VR_RANGE && m_num_ranges == 1
 	  && integer_zerop (tree_lower_bound (0))
 	  && integer_zerop (tree_upper_bound (0)));
 }

 inline bool
 irange::nonzero_p () const
 {
   if (undefined_p ())
     return false;

   tree zero = build_zero_cst (type ());
   return *this == int_range<1> (zero, zero, VR_ANTI_RANGE);
 }

 inline bool
 irange::supports_type_p (tree type)
 {
   if (type && (INTEGRAL_TYPE_P (type) || POINTER_TYPE_P (type)))
     return type;
   return false;
 }

 inline bool
 range_includes_zero_p (const irange *vr)
 {
   if (vr->undefined_p ())
     return false;

   if (vr->varying_p ())
     return true;

   return vr->may_contain_p (build_zero_cst (vr->type ()));
 }

 inline void
 gt_ggc_mx (irange *x)
 {
   for (unsigned i = 0; i < x->m_num_ranges; ++i)
     {
       gt_ggc_mx (x->m_base[i * 2]);
       gt_ggc_mx (x->m_base[i * 2 + 1]);
     }
 }

 inline void
 gt_pch_nx (irange *x)
 {
   for (unsigned i = 0; i < x->m_num_ranges; ++i)
     {
       gt_pch_nx (x->m_base[i * 2]);
       gt_pch_nx (x->m_base[i * 2 + 1]);
     }
 }

 inline void
 gt_pch_nx (irange *x, gt_pointer_operator op, void *cookie)
 {
   for (unsigned i = 0; i < x->m_num_ranges; ++i)
     {
       op (&x->m_base[i * 2], cookie);
       op (&x->m_base[i * 2 + 1], cookie);
     }
 }

 template<unsigned N>
 inline void
 gt_ggc_mx (int_range<N> *x)
 {
   gt_ggc_mx ((irange *) x);
 }

 template<unsigned N>
 inline void
 gt_pch_nx (int_range<N> *x)
 {
   gt_pch_nx ((irange *) x);
 }

 template<unsigned N>
 inline void
 gt_pch_nx (int_range<N> *x, gt_pointer_operator op, void *cookie)
 {
   gt_pch_nx ((irange *) x, op, cookie);
 }

 // Constructors for irange

 inline
 irange::irange (tree *base, unsigned nranges)
 {
   m_base = base;
   m_num_ranges = 0;
   m_max_ranges = nranges;
   m_kind = VR_UNDEFINED;
 }

 // Constructors for int_range<>.

 template<unsigned N>
 inline
 int_range<N>::int_range ()
   : irange (m_ranges, N)
 {
 }

 template<unsigned N>
 int_range<N>::int_range (const int_range &other)
   : irange (m_ranges, N)
 {
   irange::operator= (other);
 }

 template<unsigned N>
 int_range<N>::int_range (tree min, tree max, value_range_kind kind)
   : irange (m_ranges, N)
 {
   irange::set (min, max, kind);
 }

 template<unsigned N>
 int_range<N>::int_range (tree type)
   : irange (m_ranges, N)
 {
   set_varying (type);
 }

 template<unsigned N>
 int_range<N>::int_range (tree type, const wide_int &wmin, const wide_int &wmax,
 			 value_range_kind kind)
   : irange (m_ranges, N)
 {
   tree min = wide_int_to_tree (type, wmin);
   tree max = wide_int_to_tree (type, wmax);
   set (min, max, kind);
 }

 template<unsigned N>
 int_range<N>::int_range (const irange &other)
   : irange (m_ranges, N)
 {
   irange::operator= (other);
 }

 template<unsigned N>
 int_range<N>&
 int_range<N>::operator= (const int_range &src)
 {
   irange::operator= (src);
   return *this;
 }

 inline void
 irange::set (tree val)
 {
   set (val, val);
 }

 inline void
 irange::set_undefined ()
 {
   m_kind = VR_UNDEFINED;
   m_num_ranges = 0;
 }

 inline void
 irange::set_varying (tree type)
 {
   m_kind = VR_VARYING;
   m_num_ranges = 1;

   if (INTEGRAL_TYPE_P (type))
     {
       // Strict enum's require varying to be not TYPE_MIN/MAX, but rather
       // min_value and max_value.
       wide_int min = wi::min_value (TYPE_PRECISION (type), TYPE_SIGN (type));
       wide_int max = wi::max_value (TYPE_PRECISION (type), TYPE_SIGN (type));
       if (wi::eq_p (max, wi::to_wide (TYPE_MAX_VALUE (type)))
 	  && wi::eq_p (min, wi::to_wide (TYPE_MIN_VALUE (type))))
 	{
 	  m_base[0] = TYPE_MIN_VALUE (type);
 	  m_base[1] = TYPE_MAX_VALUE (type);
 	}
       else
 	{
 	  m_base[0] = wide_int_to_tree (type, min);
 	  m_base[1] = wide_int_to_tree (type, max);
 	}
     }
   else if (POINTER_TYPE_P (type))
     {
       m_base[0] = build_int_cst (type, 0);
       m_base[1] = build_int_cst (type, -1);
     }
   else
     m_base[0] = m_base[1] = error_mark_node;
 }

 inline bool
 irange::operator== (const irange &r) const
 {
   return equal_p (r);
 }

 // Return the lower bound of a sub-range.  PAIR is the sub-range in
 // question.

 inline wide_int
 irange::lower_bound (unsigned pair) const
 {
   if (legacy_mode_p ())
     return legacy_lower_bound (pair);
   gcc_checking_assert (m_num_ranges > 0);
   gcc_checking_assert (pair + 1 <= num_pairs ());
   return wi::to_wide (tree_lower_bound (pair));
 }

 // Return the upper bound of a sub-range.  PAIR is the sub-range in
 // question.

 inline wide_int
 irange::upper_bound (unsigned pair) const
 {
   if (legacy_mode_p ())
     return legacy_upper_bound (pair);
   gcc_checking_assert (m_num_ranges > 0);
   gcc_checking_assert (pair + 1 <= num_pairs ());
   return wi::to_wide (tree_upper_bound (pair));
 }

 // Return the highest bound of a range.

 inline wide_int
 irange::upper_bound () const
 {
   unsigned pairs = num_pairs ();
   gcc_checking_assert (pairs > 0);
   return upper_bound (pairs - 1);
 }

 inline void
 irange::union_ (const irange &r)
 {
   dump_flags_t m_flags = dump_flags;
   dump_flags &= ~TDF_DETAILS;
   irange::union_ (&r);
   dump_flags = m_flags;
 }

 inline void
 irange::intersect (const irange &r)
 {
   dump_flags_t m_flags = dump_flags;
   dump_flags &= ~TDF_DETAILS;
   irange::intersect (&r);
   dump_flags = m_flags;
 }

 // Set value range VR to a nonzero range of type TYPE.

 inline void
 irange::set_nonzero (tree type)
 {
   tree zero = build_int_cst (type, 0);
   if (legacy_mode_p ())
     set (zero, zero, VR_ANTI_RANGE);
   else
     irange_set_anti_range (zero, zero);
 }

 // Set value range VR to a ZERO range of type TYPE.

 inline void
 irange::set_zero (tree type)
 {
   tree z = build_int_cst (type, 0);
   if (legacy_mode_p ())
     set (z);
   else
     irange_set (z, z);
 }

 // Normalize a range to VARYING or UNDEFINED if possible.

 inline void
 irange::normalize_kind ()
 {
   if (m_num_ranges == 0)
     m_kind = VR_UNDEFINED;
   else if (varying_compatible_p ())
     {
       if (m_kind == VR_RANGE)
 	m_kind = VR_VARYING;
       else if (m_kind == VR_ANTI_RANGE)
 	set_undefined ();
       else
 	gcc_unreachable ();
     }
 }

 // Return the maximum value for TYPE.

 inline tree
 vrp_val_max (const_tree type)
 {
   if (INTEGRAL_TYPE_P (type))
     return TYPE_MAX_VALUE (type);
   if (POINTER_TYPE_P (type))
     {
       wide_int max = wi::max_value (TYPE_PRECISION (type), TYPE_SIGN (type));
       return wide_int_to_tree (const_cast<tree> (type), max);
     }
   return NULL_TREE;
 }

 // Return the minimum value for TYPE.

 inline tree
 vrp_val_min (const_tree type)
 {
   if (INTEGRAL_TYPE_P (type))
     return TYPE_MIN_VALUE (type);
   if (POINTER_TYPE_P (type))
     return build_zero_cst (const_cast<tree> (type));
   return NULL_TREE;
 }

 // This is the irange storage class.  It is used to allocate the
 // minimum amount of storage needed for a given irange.  Storage is
 // automatically freed at destruction of the storage class.
 //
 // It is meant for long term storage, as opposed to int_range_max
 // which is meant for intermediate temporary results on the stack.
 //
 // The newly allocated irange is initialized to the empty set
 // (undefined_p() is true).

 class irange_allocator
 {
 public:
   irange_allocator ();
   ~irange_allocator ();
   // Return a new range with NUM_PAIRS.
   irange *allocate (unsigned num_pairs);
   // Return a copy of SRC with the minimum amount of sub-ranges needed
   // to represent it.
   irange *allocate (const irange &src);
   void *get_memory (unsigned num_bytes);
 private:
   DISABLE_COPY_AND_ASSIGN (irange_allocator);
   struct obstack m_obstack;
 };

 inline
 irange_allocator::irange_allocator ()
 {
   obstack_init (&m_obstack);
 }

 inline
 irange_allocator::~irange_allocator ()
 {
   obstack_free (&m_obstack, NULL);
 }

 // Provide a hunk of memory from the obstack.
 inline void *
 irange_allocator::get_memory (unsigned num_bytes)
 {
   void *r = obstack_alloc (&m_obstack, num_bytes);
   return r;
 }

 // Return a new range with NUM_PAIRS.

 inline irange *
 irange_allocator::allocate (unsigned num_pairs)
 {
   // Never allocate 0 pairs.
   // Don't allocate 1 either, or we get legacy value_range's.
   if (num_pairs < 2)
     num_pairs = 2;

   size_t nbytes = sizeof (tree) * 2 * num_pairs;

   // Allocate the irange and required memory for the vector.
   void *r = obstack_alloc (&m_obstack, sizeof (irange));
   tree *mem = (tree *) obstack_alloc (&m_obstack, nbytes);
   return new (r) irange (mem, num_pairs);
 }

 inline irange *
 irange_allocator::allocate (const irange &src)
 {
   irange *r = allocate (src.num_pairs ());
   *r = src;
   return r;
 }

 #endif // GCC_VALUE_RANGE_H
	/* Support routines for value ranges.
	Copyright (C) 2019-2021 Free Software Foundation, Inc.
	Contributed by Aldy Hernandez <aldyh@redhat.com> and
	Andrew Macleod <amacleod@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_VALUE_RANGE_H
	#define GCC_VALUE_RANGE_H

	// Types of value ranges.
	enum value_range_kind
	{
	/* Empty range. */
	VR_UNDEFINED,
	/* Range spans the entire domain. */
	VR_VARYING,
	/* Range is [MIN, MAX]. */
	VR_RANGE,
	/* Range is ~[MIN, MAX]. */
	VR_ANTI_RANGE,
	/* Range is a nice guy. */
	VR_LAST
	};

	// Range of values that can be associated with an SSA_NAME.
	//
	// This is the base class without any storage.

	class GTY((user)) irange
	{
	friend class irange_allocator;
	public:
	// In-place setters.
	void set (tree, tree, value_range_kind = VR_RANGE);
	void set_nonzero (tree);
	void set_zero (tree);
	void set_varying (tree type);
	void set_undefined ();

	// Range types.
	static bool supports_type_p (tree);
	tree type () const;

	// Iteration over sub-ranges.
	unsigned num_pairs () const;
	wide_int lower_bound (unsigned = 0) const;
	wide_int upper_bound (unsigned) const;
	wide_int upper_bound () const;

	// Predicates.
	bool zero_p () const;
	bool nonzero_p () const;
	bool undefined_p () const;
	bool varying_p () const;
	bool singleton_p (tree *result = NULL) const;
	bool contains_p (tree) const;

	// In-place operators.
	void union_ (const irange &);
	void intersect (const irange &);
	void intersect (const wide_int& lb, const wide_int& ub);
	void invert ();

	// Operator overloads.
	irange& operator= (const irange &);
	bool operator== (const irange &) const;
	bool operator!= (const irange &r) const { return !(*this == r); }

	// Misc methods.
	bool fits_p (const irange &r) { return m_max_ranges >= r.num_pairs (); }
	void dump (FILE * = stderr) const;
	void debug () const;

	// Deprecated legacy public methods.
	enum value_range_kind kind () const; // DEPRECATED
	tree min () const; // DEPRECATED
	tree max () const; // DEPRECATED
	bool symbolic_p () const; // DEPRECATED
	bool constant_p () const; // DEPRECATED
	void normalize_symbolics (); // DEPRECATED
	void normalize_addresses (); // DEPRECATED
	bool may_contain_p (tree) const; // DEPRECATED
	void set (tree); // DEPRECATED
	bool equal_p (const irange &) const; // DEPRECATED
	void union_ (const class irange *); // DEPRECATED
	void intersect (const irange *); // DEPRECATED

	protected:
	irange (tree *, unsigned);
	// potential promotion to public?
	tree tree_lower_bound (unsigned = 0) const;
	tree tree_upper_bound (unsigned) const;
	tree tree_upper_bound () const;

	// In-place operators.
	void irange_union (const irange &);
	void irange_intersect (const irange &);
	void irange_set (tree, tree);
	void irange_set_anti_range (tree, tree);

	void normalize_kind ();

	bool legacy_mode_p () const;
	bool legacy_equal_p (const irange &) const;
	void legacy_union (irange , const irange );
	void legacy_intersect (irange , const irange );
	void verify_range ();
	wide_int legacy_lower_bound (unsigned = 0) const;
	wide_int legacy_upper_bound (unsigned) const;
	int value_inside_range (tree) const;
	bool maybe_anti_range () const;
	void copy_to_legacy (const irange &);
	void copy_legacy_to_multi_range (const irange &);

	private:
	friend void gt_ggc_mx (irange *);
	friend void gt_pch_nx (irange *);
	friend void gt_pch_nx (irange , gt_pointer_operator, void );

	void irange_set_1bit_anti_range (tree, tree);
	bool varying_compatible_p () const;

	unsigned char m_num_ranges;
	unsigned char m_max_ranges;
	ENUM_BITFIELD(value_range_kind) m_kind : 8;
	tree *m_base;
	};

	// Here we describe an irange with N pairs of ranges. The storage for
	// the pairs is embedded in the class as an array.

	template<unsigned N>
	class GTY((user)) int_range : public irange
	{
	public:
	int_range ();
	int_range (tree, tree, value_range_kind = VR_RANGE);
	int_range (tree type, const wide_int &, const wide_int &,
	value_range_kind = VR_RANGE);
	int_range (tree type);
	int_range (const int_range &);
	int_range (const irange &);
	int_range& operator= (const int_range &);
	private:
	template <unsigned X> friend void gt_ggc_mx (int_range<X> *);
	template <unsigned X> friend void gt_pch_nx (int_range<X> *);
	template <unsigned X> friend void gt_pch_nx (int_range<X> *,
	gt_pointer_operator, void *);

	// ?? These stubs are for ipa-prop.c which use a value_range in a
	// hash_traits. hash-traits.h defines an extern of gt_ggc_mx (T &)
	// instead of picking up the gt_ggc_mx (T *) version.
	friend void gt_ggc_mx (int_range<1> *&);
	friend void gt_pch_nx (int_range<1> *&);

	tree m_ranges[N*2];
	};

	// This is a special int_range<1> with only one pair, plus
	// VR_ANTI_RANGE magic to describe slightly more than can be described
	// in one pair. It is described in the code as a "legacy range" (as
	// opposed to multi-ranges which have multiple sub-ranges). It is
	// provided for backward compatibility with code that has not been
	// converted to multi-range irange's.
	//
	// There are copy operators to seamlessly copy to/fro multi-ranges.
	typedef int_range<1> value_range;

	// This is an "infinite" precision irange for use in temporary
	// calculations.
	typedef int_range<255> int_range_max;

	// Returns true for an old-school value_range as described above.
	inline bool
	irange::legacy_mode_p () const
	{
	return m_max_ranges == 1;
	}

	extern bool range_has_numeric_bounds_p (const irange *);
	extern bool ranges_from_anti_range (const value_range *,
	value_range , value_range );
	extern void dump_value_range (FILE , const irange );
	extern bool vrp_val_is_min (const_tree);
	extern bool vrp_val_is_max (const_tree);
	extern bool vrp_operand_equal_p (const_tree, const_tree);

	inline value_range_kind
	irange::kind () const
	{
	return m_kind;
	}

	// Number of sub-ranges in a range.

	inline unsigned
	irange::num_pairs () const
	{
	if (m_kind == VR_ANTI_RANGE)
	return constant_p () ? 2 : 1;
	else
	return m_num_ranges;
	}

	inline tree
	irange::type () const
	{
	gcc_checking_assert (m_num_ranges > 0);
	return TREE_TYPE (m_base[0]);
	}

	// Return the lower bound of a sub-range expressed as a tree. PAIR is
	// the sub-range in question.

	inline tree
	irange::tree_lower_bound (unsigned pair) const
	{
	return m_base[pair * 2];
	}

	// Return the upper bound of a sub-range expressed as a tree. PAIR is
	// the sub-range in question.

	inline tree
	irange::tree_upper_bound (unsigned pair) const
	{
	return m_base[pair * 2 + 1];
	}

	// Return the highest bound of a range expressed as a tree.

	inline tree
	irange::tree_upper_bound () const
	{
	gcc_checking_assert (m_num_ranges);
	return tree_upper_bound (m_num_ranges - 1);
	}

	inline tree
	irange::min () const
	{
	return tree_lower_bound (0);
	}

	inline tree
	irange::max () const
	{
	if (m_num_ranges)
	return tree_upper_bound ();
	else
	return NULL;
	}

	inline bool
	irange::varying_compatible_p () const
	{
	if (m_num_ranges != 1)
	return false;

	tree l = m_base[0];
	tree u = m_base[1];
	tree t = TREE_TYPE (l);

	if (m_kind == VR_VARYING && t == error_mark_node)
	return true;

	unsigned prec = TYPE_PRECISION (t);
	signop sign = TYPE_SIGN (t);
	if (INTEGRAL_TYPE_P (t))
	return (wi::to_wide (l) == wi::min_value (prec, sign)
	&& wi::to_wide (u) == wi::max_value (prec, sign));
	if (POINTER_TYPE_P (t))
	return (wi::to_wide (l) == 0
	&& wi::to_wide (u) == wi::max_value (prec, sign));
	return true;
	}

	inline bool
	irange::varying_p () const
	{
	return m_kind == VR_VARYING;
	}

	inline bool
	irange::undefined_p () const
	{
	return m_kind == VR_UNDEFINED;
	}

	inline bool
	irange::zero_p () const
	{
	return (m_kind == VR_RANGE && m_num_ranges == 1
	&& integer_zerop (tree_lower_bound (0))
	&& integer_zerop (tree_upper_bound (0)));
	}

	inline bool
	irange::nonzero_p () const
	{
	if (undefined_p ())
	return false;

	tree zero = build_zero_cst (type ());
	return *this == int_range<1> (zero, zero, VR_ANTI_RANGE);
	}

	inline bool
	irange::supports_type_p (tree type)
	{
	if (type && (INTEGRAL_TYPE_P (type) \|\| POINTER_TYPE_P (type)))
	return type;
	return false;
	}

	inline bool
	range_includes_zero_p (const irange *vr)
	{
	if (vr->undefined_p ())
	return false;

	if (vr->varying_p ())
	return true;

	return vr->may_contain_p (build_zero_cst (vr->type ()));
	}

	inline void
	gt_ggc_mx (irange *x)
	{
	for (unsigned i = 0; i < x->m_num_ranges; ++i)
	{
	gt_ggc_mx (x->m_base[i * 2]);
	gt_ggc_mx (x->m_base[i * 2 + 1]);
	}
	}

	inline void
	gt_pch_nx (irange *x)
	{
	for (unsigned i = 0; i < x->m_num_ranges; ++i)
	{
	gt_pch_nx (x->m_base[i * 2]);
	gt_pch_nx (x->m_base[i * 2 + 1]);
	}
	}

	inline void
	gt_pch_nx (irange x, gt_pointer_operator op, void cookie)
	{
	for (unsigned i = 0; i < x->m_num_ranges; ++i)
	{
	op (&x->m_base[i * 2], cookie);
	op (&x->m_base[i * 2 + 1], cookie);
	}
	}

	template<unsigned N>
	inline void
	gt_ggc_mx (int_range<N> *x)
	{
	gt_ggc_mx ((irange *) x);
	}

	template<unsigned N>
	inline void
	gt_pch_nx (int_range<N> *x)
	{
	gt_pch_nx ((irange *) x);
	}

	template<unsigned N>
	inline void
	gt_pch_nx (int_range<N> x, gt_pointer_operator op, void cookie)
	{
	gt_pch_nx ((irange *) x, op, cookie);
	}

	// Constructors for irange

	inline
	irange::irange (tree *base, unsigned nranges)
	{
	m_base = base;
	m_num_ranges = 0;
	m_max_ranges = nranges;
	m_kind = VR_UNDEFINED;
	}

	// Constructors for int_range<>.

	template<unsigned N>
	inline
	int_range<N>::int_range ()
	: irange (m_ranges, N)
	{
	}

	template<unsigned N>
	int_range<N>::int_range (const int_range &other)
	: irange (m_ranges, N)
	{
	irange::operator= (other);
	}

	template<unsigned N>
	int_range<N>::int_range (tree min, tree max, value_range_kind kind)
	: irange (m_ranges, N)
	{
	irange::set (min, max, kind);
	}

	template<unsigned N>
	int_range<N>::int_range (tree type)
	: irange (m_ranges, N)
	{
	set_varying (type);
	}

	template<unsigned N>
	int_range<N>::int_range (tree type, const wide_int &wmin, const wide_int &wmax,
	value_range_kind kind)
	: irange (m_ranges, N)
	{
	tree min = wide_int_to_tree (type, wmin);
	tree max = wide_int_to_tree (type, wmax);
	set (min, max, kind);
	}

	template<unsigned N>
	int_range<N>::int_range (const irange &other)
	: irange (m_ranges, N)
	{
	irange::operator= (other);
	}

	template<unsigned N>
	int_range<N>&
	int_range<N>::operator= (const int_range &src)
	{
	irange::operator= (src);
	return *this;
	}

	inline void
	irange::set (tree val)
	{
	set (val, val);
	}

	inline void
	irange::set_undefined ()
	{
	m_kind = VR_UNDEFINED;
	m_num_ranges = 0;
	}

	inline void
	irange::set_varying (tree type)
	{
	m_kind = VR_VARYING;
	m_num_ranges = 1;

	if (INTEGRAL_TYPE_P (type))
	{
	// Strict enum's require varying to be not TYPE_MIN/MAX, but rather
	// min_value and max_value.
	wide_int min = wi::min_value (TYPE_PRECISION (type), TYPE_SIGN (type));
	wide_int max = wi::max_value (TYPE_PRECISION (type), TYPE_SIGN (type));
	if (wi::eq_p (max, wi::to_wide (TYPE_MAX_VALUE (type)))
	&& wi::eq_p (min, wi::to_wide (TYPE_MIN_VALUE (type))))
	{
	m_base[0] = TYPE_MIN_VALUE (type);
	m_base[1] = TYPE_MAX_VALUE (type);
	}
	else
	{
	m_base[0] = wide_int_to_tree (type, min);
	m_base[1] = wide_int_to_tree (type, max);
	}
	}
	else if (POINTER_TYPE_P (type))
	{
	m_base[0] = build_int_cst (type, 0);
	m_base[1] = build_int_cst (type, -1);
	}
	else
	m_base[0] = m_base[1] = error_mark_node;
	}

	inline bool
	irange::operator== (const irange &r) const
	{
	return equal_p (r);
	}

	// Return the lower bound of a sub-range. PAIR is the sub-range in
	// question.

	inline wide_int
	irange::lower_bound (unsigned pair) const
	{
	if (legacy_mode_p ())
	return legacy_lower_bound (pair);
	gcc_checking_assert (m_num_ranges > 0);
	gcc_checking_assert (pair + 1 <= num_pairs ());
	return wi::to_wide (tree_lower_bound (pair));
	}

	// Return the upper bound of a sub-range. PAIR is the sub-range in
	// question.

	inline wide_int
	irange::upper_bound (unsigned pair) const
	{
	if (legacy_mode_p ())
	return legacy_upper_bound (pair);
	gcc_checking_assert (m_num_ranges > 0);
	gcc_checking_assert (pair + 1 <= num_pairs ());
	return wi::to_wide (tree_upper_bound (pair));
	}

	// Return the highest bound of a range.

	inline wide_int
	irange::upper_bound () const
	{
	unsigned pairs = num_pairs ();
	gcc_checking_assert (pairs > 0);
	return upper_bound (pairs - 1);
	}

	inline void
	irange::union_ (const irange &r)
	{
	dump_flags_t m_flags = dump_flags;
	dump_flags &= ~TDF_DETAILS;
	irange::union_ (&r);
	dump_flags = m_flags;
	}

	inline void
	irange::intersect (const irange &r)
	{
	dump_flags_t m_flags = dump_flags;
	dump_flags &= ~TDF_DETAILS;
	irange::intersect (&r);
	dump_flags = m_flags;
	}

	// Set value range VR to a nonzero range of type TYPE.

	inline void
	irange::set_nonzero (tree type)
	{
	tree zero = build_int_cst (type, 0);
	if (legacy_mode_p ())
	set (zero, zero, VR_ANTI_RANGE);
	else
	irange_set_anti_range (zero, zero);
	}

	// Set value range VR to a ZERO range of type TYPE.

	inline void
	irange::set_zero (tree type)
	{
	tree z = build_int_cst (type, 0);
	if (legacy_mode_p ())
	set (z);
	else
	irange_set (z, z);
	}

	// Normalize a range to VARYING or UNDEFINED if possible.

	inline void
	irange::normalize_kind ()
	{
	if (m_num_ranges == 0)
	m_kind = VR_UNDEFINED;
	else if (varying_compatible_p ())
	{
	if (m_kind == VR_RANGE)
	m_kind = VR_VARYING;
	else if (m_kind == VR_ANTI_RANGE)
	set_undefined ();
	else
	gcc_unreachable ();
	}
	}

	// Return the maximum value for TYPE.

	inline tree
	vrp_val_max (const_tree type)
	{
	if (INTEGRAL_TYPE_P (type))
	return TYPE_MAX_VALUE (type);
	if (POINTER_TYPE_P (type))
	{
	wide_int max = wi::max_value (TYPE_PRECISION (type), TYPE_SIGN (type));
	return wide_int_to_tree (const_cast<tree> (type), max);
	}
	return NULL_TREE;
	}

	// Return the minimum value for TYPE.

	inline tree
	vrp_val_min (const_tree type)
	{
	if (INTEGRAL_TYPE_P (type))
	return TYPE_MIN_VALUE (type);
	if (POINTER_TYPE_P (type))
	return build_zero_cst (const_cast<tree> (type));
	return NULL_TREE;
	}

	// This is the irange storage class. It is used to allocate the
	// minimum amount of storage needed for a given irange. Storage is
	// automatically freed at destruction of the storage class.
	//
	// It is meant for long term storage, as opposed to int_range_max
	// which is meant for intermediate temporary results on the stack.
	//
	// The newly allocated irange is initialized to the empty set
	// (undefined_p() is true).

	class irange_allocator
	{
	public:
	irange_allocator ();
	~irange_allocator ();
	// Return a new range with NUM_PAIRS.
	irange *allocate (unsigned num_pairs);
	// Return a copy of SRC with the minimum amount of sub-ranges needed
	// to represent it.
	irange *allocate (const irange &src);
	void *get_memory (unsigned num_bytes);
	private:
	DISABLE_COPY_AND_ASSIGN (irange_allocator);
	struct obstack m_obstack;
	};

	inline
	irange_allocator::irange_allocator ()
	{
	obstack_init (&m_obstack);
	}

	inline
	irange_allocator::~irange_allocator ()
	{
	obstack_free (&m_obstack, NULL);
	}

	// Provide a hunk of memory from the obstack.
	inline void *
	irange_allocator::get_memory (unsigned num_bytes)
	{
	void *r = obstack_alloc (&m_obstack, num_bytes);
	return r;
	}

	// Return a new range with NUM_PAIRS.

	inline irange *
	irange_allocator::allocate (unsigned num_pairs)
	{
	// Never allocate 0 pairs.
	// Don't allocate 1 either, or we get legacy value_range's.
	if (num_pairs < 2)
	num_pairs = 2;

	size_t nbytes = sizeof (tree) * 2 * num_pairs;

	// Allocate the irange and required memory for the vector.
	void *r = obstack_alloc (&m_obstack, sizeof (irange));
	tree mem = (tree ) obstack_alloc (&m_obstack, nbytes);
	return new (r) irange (mem, num_pairs);
	}

	inline irange *
	irange_allocator::allocate (const irange &src)
	{
	irange *r = allocate (src.num_pairs ());
	*r = src;
	return r;
	}

	#endif // GCC_VALUE_RANGE_H