lib/bbitset.h - platform/external/bison - Git at Google

 /* Base bitset stuff.

    Copyright (C) 2002-2004, 2006, 2009-2012 Free Software Foundation,
    Inc.

    Contributed by Michael Hayes (m.hayes@elec.canterbury.ac.nz).

    This program 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 of the License, or
    (at your option) any later version.

    This program 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 this program.  If not, see <http://www.gnu.org/licenses/>.  */

 #ifndef _BBITSET_H
 #define _BBITSET_H

 #include "libiberty.h"

 #include <stdbool.h>
 #include <limits.h>
 #include <stddef.h>

 /* Currently we support five flavours of bitsets:
    BITSET_ARRAY:  Array of bits (fixed size, fast for dense bitsets).
                   Memory for bit array and bitset structure allocated
                   contiguously.
    BITSET_LIST:   Linked list of arrays of bits (variable size, least storage
 		  for large very sparse sets).
    BITSET_TABLE:  Expandable table of pointers to arrays of bits
 		  (variable size, less storage for large sparse sets).
                   Faster than BITSET_LIST for random access.
    BITSET_VARRAY: Variable array of bits (variable size, fast for
                   dense bitsets).
    BITSET_STATS:  Wrapper bitset for internal use only.  Used for gathering
                   statistics and/or better run-time checking.
 */
 enum bitset_type {BITSET_ARRAY, BITSET_LIST, BITSET_TABLE, BITSET_VARRAY,
 		  BITSET_TYPE_NUM, BITSET_STATS};
 #define BITSET_TYPE_NAMES {"abitset", "lbitset", "ebitset", "vbitset"}

 extern const char * const bitset_type_names[];

 enum bitset_alloc_type {BITSET_MALLOC, BITSET_OBALLOC};

 /* Data type used to store a word of bits.  */
 typedef unsigned long int bitset_word;
 #define BITSET_WORD_BITS ((unsigned int) (CHAR_BIT * sizeof (bitset_word)))

 /* Bit index.  In theory we might need a type wider than size_t, but
    in practice we lose at most a factor of CHAR_BIT by going with
    size_t, and that is good enough.  If this type is changed to be
    wider than size_t, the code needs to be modified to check for
    overflow when converting bit counts to byte or word counts.
    The bit and word index types must be unsigned.  */
 typedef size_t bitset_bindex;

 /* Word index.  */
 typedef size_t bitset_windex;

 /* Maximum values for commonly-used unsigned types.  BITSET_SIZE_MAX
    always equals SIZE_MAX, but some older systems lack SIZE_MAX.  */
 #define BITSET_BINDEX_MAX ((bitset_bindex) -1)

 /* Limit max word index to the maximum value of a signed integer
    to simplify cache disabling.  */
 #define BITSET_WINDEX_MAX (((bitset_windex) -1) >> 1)
 #define BITSET_SIZE_MAX ((size_t) -1)

 #define BITSET_MSB ((bitset_word) 1 << (BITSET_WORD_BITS - 1))

 #define BITSET_LIST_SIZE 1024

 enum bitset_ops {BITSET_OP_ZERO, BITSET_OP_ONES,
 		 BITSET_OP_COPY, BITSET_OP_NOT,
 		 BITSET_OP_EMPTY_P, BITSET_OP_EQUAL_P,
 		 BITSET_OP_SUBSET_P, BITSET_OP_DISJOINT_P,
 		 BITSET_OP_AND, BITSET_OP_OR, BITSET_OP_XOR, BITSET_OP_ANDN,
 		 BITSET_OP_OR_AND, BITSET_OP_AND_OR, BITSET_OP_ANDN_OR};

 struct bbitset_struct
 {
   const struct bitset_vtable *vtable;
   bitset_windex cindex;		/* Cache word index.  */
   bitset_windex csize;		/* Cache size in words.  */
   bitset_word *cdata;		/* Cache data pointer.  */
   bitset_bindex n_bits;		/* Number of bits.  */
   /* Perhaps we could sacrifice another word to indicate
      that the bitset is known to be zero, that a bit has been set
      in the cache, and that a bit has been cleared in the cache.
      This would speed up some of the searches but slightly slow down
      bit set/reset operations of cached bits.  */
 };


 typedef union bitset_union *bitset;


 /* Private accessor macros to bitset structure.  */
 #define BITSET_VTABLE_(SRC) (SRC)->b.vtable
 #define BITSET_CINDEX_(SRC) (SRC)->b.cindex
 #define BITSET_CDATA_(SRC) (SRC)->b.cdata
 #define BITSET_CSIZE_(SRC) (SRC)->b.csize
 #define BITSET_NBITS_(SRC) (SRC)->b.n_bits


 /* The contents of this structure should be considered private.  */
 struct bitset_vtable
 {
   void (*set) (bitset, bitset_bindex);
   void (*reset) (bitset, bitset_bindex);
   bool (*toggle) (bitset, bitset_bindex);
   bool (*test) (bitset, bitset_bindex);
   bitset_bindex (*resize) (bitset, bitset_bindex);
   bitset_bindex (*size) (bitset);
   bitset_bindex (*count) (bitset);

   bool (*empty_p) (bitset);
   void (*ones) (bitset);
   void (*zero) (bitset);

   void (*copy) (bitset, bitset);
   bool (*disjoint_p) (bitset, bitset);
   bool (*equal_p) (bitset, bitset);
   void (*not_) (bitset, bitset);
   bool (*subset_p) (bitset, bitset);

   void (*and_) (bitset, bitset, bitset);
   bool (*and_cmp) (bitset, bitset, bitset);
   void (*andn) (bitset, bitset, bitset);
   bool (*andn_cmp) (bitset, bitset, bitset);
   void (*or_) (bitset, bitset, bitset);
   bool (*or_cmp) (bitset, bitset, bitset);
   void (*xor_) (bitset, bitset, bitset);
   bool (*xor_cmp) (bitset, bitset, bitset);

   void (*and_or) (bitset, bitset, bitset, bitset);
   bool (*and_or_cmp) (bitset, bitset, bitset, bitset);
   void (*andn_or) (bitset, bitset, bitset, bitset);
   bool (*andn_or_cmp) (bitset, bitset, bitset, bitset);
   void (*or_and) (bitset, bitset, bitset, bitset);
   bool (*or_and_cmp) (bitset, bitset, bitset, bitset);

   bitset_bindex (*list) (bitset, bitset_bindex *, bitset_bindex,
 			 bitset_bindex *);
   bitset_bindex (*list_reverse) (bitset, bitset_bindex *, bitset_bindex,
 				 bitset_bindex *);
   void (*free) (bitset);
   enum bitset_type type;
 };

 #define BITSET_COMPATIBLE_(BSET1, BSET2) \
 ((BSET1)->b.vtable == (BSET2)->b.vtable)

 #define BITSET_CHECK2_(DST, SRC) \
 if (!BITSET_COMPATIBLE_ (DST, SRC)) abort ();

 #define BITSET_CHECK3_(DST, SRC1, SRC2) \
 if (!BITSET_COMPATIBLE_ (DST, SRC1) \
     || !BITSET_COMPATIBLE_ (DST, SRC2)) abort ();

 #define BITSET_CHECK4_(DST, SRC1, SRC2, SRC3) \
 if (!BITSET_COMPATIBLE_ (DST, SRC1) || !BITSET_COMPATIBLE_ (DST, SRC2) \
     || !BITSET_COMPATIBLE_ (DST, SRC3)) abort ();


 /* Redefine number of bits in bitset DST.  */
 #define BITSET_RESIZE_(DST, SIZE) (DST)->b.vtable->resize (DST, SIZE)

 /* Return size in bits of bitset SRC.  */
 #define BITSET_SIZE_(SRC) (SRC)->b.vtable->size (SRC)

 /* Return number of bits set in bitset SRC.  */
 #define BITSET_COUNT_(SRC) (SRC)->b.vtable->count (SRC)

 /* Return type of bitset SRC.  */
 #define BITSET_TYPE_(DST) (DST)->b.vtable->type

 /* Set bit BITNO in bitset DST.  */
 #define BITSET_SET_(DST, BITNO) (DST)->b.vtable->set (DST, BITNO)

 /* Reset bit BITNO in bitset DST.  */
 #define BITSET_RESET_(DST, BITNO) (DST)->b.vtable->reset (DST, BITNO)

 /* Toggle bit BITNO in bitset DST.  */
 #define BITSET_TOGGLE_(DST, BITNO) (DST)->b.vtable->toggle (DST, BITNO)

 /* Return non-zero if bit BITNO in bitset SRC is set.  */
 #define BITSET_TEST_(SRC, BITNO) (SRC)->b.vtable->test (SRC, BITNO)

 /* Free bitset SRC.  */
 #define BITSET_FREE_(SRC)\
  ((SRC)->b.vtable->free ? (SRC)->b.vtable->free (SRC) :(void)0)


 /* Return SRC == 0.  */
 #define BITSET_EMPTY_P_(SRC) (SRC)->b.vtable->empty_p (SRC)

 /* DST = ~0.  */
 #define BITSET_ONES_(DST) (DST)->b.vtable->ones (DST)

 /* DST = 0.  */
 #define BITSET_ZERO_(DST) (DST)->b.vtable->zero (DST)


 /* DST = SRC.  */
 #define BITSET_COPY_(DST, SRC) (SRC)->b.vtable->copy (DST, SRC)

 /* Return DST & SRC == 0.  */
 #define BITSET_DISJOINT_P_(DST, SRC) (SRC)->b.vtable->disjoint_p (DST, SRC)

 /* Return DST == SRC.  */
 #define BITSET_EQUAL_P_(DST, SRC) (SRC)->b.vtable->equal_p (DST, SRC)

 /* DST = ~SRC.  */
 #define BITSET_NOT_(DST, SRC) (SRC)->b.vtable->not_ (DST, SRC)

 /* Return DST == DST | SRC.  */
 #define BITSET_SUBSET_P_(DST, SRC) (SRC)->b.vtable->subset_p (DST, SRC)


 /* DST = SRC1 & SRC2.  */
 #define BITSET_AND_(DST, SRC1, SRC2) (SRC1)->b.vtable->and_ (DST, SRC1, SRC2)
 #define BITSET_AND_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->and_cmp (DST, SRC1, SRC2)

 /* DST = SRC1 & ~SRC2.  */
 #define BITSET_ANDN_(DST, SRC1, SRC2) (SRC1)->b.vtable->andn (DST, SRC1, SRC2)
 #define BITSET_ANDN_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->andn_cmp (DST, SRC1, SRC2)

 /* DST = SRC1 | SRC2.  */
 #define BITSET_OR_(DST, SRC1, SRC2) (SRC1)->b.vtable->or_ (DST, SRC1, SRC2)
 #define BITSET_OR_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->or_cmp (DST, SRC1, SRC2)

 /* DST = SRC1 ^ SRC2.  */
 #define BITSET_XOR_(DST, SRC1, SRC2) (SRC1)->b.vtable->xor_ (DST, SRC1, SRC2)
 #define BITSET_XOR_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->xor_cmp (DST, SRC1, SRC2)


 /* DST = (SRC1 & SRC2) | SRC3.  Return non-zero if
    DST != (SRC1 & SRC2) | SRC3.  */
 #define BITSET_AND_OR_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->and_or (DST, SRC1, SRC2, SRC3)
 #define BITSET_AND_OR_CMP_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->and_or_cmp (DST, SRC1, SRC2, SRC3)

 /* DST = (SRC1 & ~SRC2) | SRC3.  Return non-zero if
    DST != (SRC1 & ~SRC2) | SRC3.  */
 #define BITSET_ANDN_OR_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->andn_or (DST, SRC1, SRC2, SRC3)
 #define BITSET_ANDN_OR_CMP_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->andn_or_cmp (DST, SRC1, SRC2, SRC3)

 /* DST = (SRC1 | SRC2) & SRC3.  Return non-zero if
    DST != (SRC1 | SRC2) & SRC3.  */
 #define BITSET_OR_AND_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->or_and (DST, SRC1, SRC2, SRC3)
 #define BITSET_OR_AND_CMP_(DST, SRC1, SRC2, SRC3) \
  (SRC1)->b.vtable->or_and_cmp (DST, SRC1, SRC2, SRC3)


 /* Find list of up to NUM bits set in BSET starting from and including
    *NEXT.  Return with actual number of bits found and with *NEXT
    indicating where search stopped.  */
 #define BITSET_LIST_(BSET, LIST, NUM, NEXT) \
  (BSET)->b.vtable->list (BSET, LIST, NUM, NEXT)

 /* Find reverse list of up to NUM bits set in BSET starting from and
    including NEXT.  Return with actual number of bits found and with
    *NEXT indicating where search stopped.  */
 #define BITSET_LIST_REVERSE_(BSET, LIST, NUM, NEXT) \
  (BSET)->b.vtable->list_reverse (BSET, LIST, NUM, NEXT)


 /* Private functions for bitset implementations.  */

 extern bool bitset_toggle_ (bitset, bitset_bindex);

 extern bitset_bindex bitset_count_ (bitset);

 extern bitset_bindex bitset_size_ (bitset);

 extern bool bitset_copy_ (bitset, bitset);

 extern void bitset_and_or_ (bitset, bitset, bitset, bitset);

 extern bool bitset_and_or_cmp_ (bitset, bitset, bitset, bitset);

 extern void bitset_andn_or_ (bitset, bitset, bitset, bitset);

 extern bool bitset_andn_or_cmp_ (bitset, bitset, bitset, bitset);

 extern void bitset_or_and_ (bitset, bitset, bitset, bitset);

 extern bool bitset_or_and_cmp_ (bitset, bitset, bitset, bitset);

 #endif /* _BBITSET_H  */
	/* Base bitset stuff.

	Copyright (C) 2002-2004, 2006, 2009-2012 Free Software Foundation,
	Inc.

	Contributed by Michael Hayes (m.hayes@elec.canterbury.ac.nz).

	This program 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 of the License, or
	(at your option) any later version.

	This program 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 this program. If not, see <http://www.gnu.org/licenses/>. */

	#ifndef _BBITSET_H
	#define _BBITSET_H

	#include "libiberty.h"

	#include <stdbool.h>
	#include <limits.h>
	#include <stddef.h>

	/* Currently we support five flavours of bitsets:
	BITSET_ARRAY: Array of bits (fixed size, fast for dense bitsets).
	Memory for bit array and bitset structure allocated
	contiguously.
	BITSET_LIST: Linked list of arrays of bits (variable size, least storage
	for large very sparse sets).
	BITSET_TABLE: Expandable table of pointers to arrays of bits
	(variable size, less storage for large sparse sets).
	Faster than BITSET_LIST for random access.
	BITSET_VARRAY: Variable array of bits (variable size, fast for
	dense bitsets).
	BITSET_STATS: Wrapper bitset for internal use only. Used for gathering
	statistics and/or better run-time checking.
	*/
	enum bitset_type {BITSET_ARRAY, BITSET_LIST, BITSET_TABLE, BITSET_VARRAY,
	BITSET_TYPE_NUM, BITSET_STATS};
	#define BITSET_TYPE_NAMES {"abitset", "lbitset", "ebitset", "vbitset"}

	extern const char * const bitset_type_names[];

	enum bitset_alloc_type {BITSET_MALLOC, BITSET_OBALLOC};

	/* Data type used to store a word of bits. */
	typedef unsigned long int bitset_word;
	#define BITSET_WORD_BITS ((unsigned int) (CHAR_BIT * sizeof (bitset_word)))

	/* Bit index. In theory we might need a type wider than size_t, but
	in practice we lose at most a factor of CHAR_BIT by going with
	size_t, and that is good enough. If this type is changed to be
	wider than size_t, the code needs to be modified to check for
	overflow when converting bit counts to byte or word counts.
	The bit and word index types must be unsigned. */
	typedef size_t bitset_bindex;

	/* Word index. */
	typedef size_t bitset_windex;

	/* Maximum values for commonly-used unsigned types. BITSET_SIZE_MAX
	always equals SIZE_MAX, but some older systems lack SIZE_MAX. */
	#define BITSET_BINDEX_MAX ((bitset_bindex) -1)

	/* Limit max word index to the maximum value of a signed integer
	to simplify cache disabling. */
	#define BITSET_WINDEX_MAX (((bitset_windex) -1) >> 1)
	#define BITSET_SIZE_MAX ((size_t) -1)

	#define BITSET_MSB ((bitset_word) 1 << (BITSET_WORD_BITS - 1))

	#define BITSET_LIST_SIZE 1024

	enum bitset_ops {BITSET_OP_ZERO, BITSET_OP_ONES,
	BITSET_OP_COPY, BITSET_OP_NOT,
	BITSET_OP_EMPTY_P, BITSET_OP_EQUAL_P,
	BITSET_OP_SUBSET_P, BITSET_OP_DISJOINT_P,
	BITSET_OP_AND, BITSET_OP_OR, BITSET_OP_XOR, BITSET_OP_ANDN,
	BITSET_OP_OR_AND, BITSET_OP_AND_OR, BITSET_OP_ANDN_OR};

	struct bbitset_struct
	{
	const struct bitset_vtable *vtable;
	bitset_windex cindex; /* Cache word index. */
	bitset_windex csize; /* Cache size in words. */
	bitset_word cdata; / Cache data pointer. */
	bitset_bindex n_bits; /* Number of bits. */
	/* Perhaps we could sacrifice another word to indicate
	that the bitset is known to be zero, that a bit has been set
	in the cache, and that a bit has been cleared in the cache.
	This would speed up some of the searches but slightly slow down
	bit set/reset operations of cached bits. */
	};


	typedef union bitset_union *bitset;


	/* Private accessor macros to bitset structure. */
	#define BITSET_VTABLE_(SRC) (SRC)->b.vtable
	#define BITSET_CINDEX_(SRC) (SRC)->b.cindex
	#define BITSET_CDATA_(SRC) (SRC)->b.cdata
	#define BITSET_CSIZE_(SRC) (SRC)->b.csize
	#define BITSET_NBITS_(SRC) (SRC)->b.n_bits


	/* The contents of this structure should be considered private. */
	struct bitset_vtable
	{
	void (*set) (bitset, bitset_bindex);
	void (*reset) (bitset, bitset_bindex);
	bool (*toggle) (bitset, bitset_bindex);
	bool (*test) (bitset, bitset_bindex);
	bitset_bindex (*resize) (bitset, bitset_bindex);
	bitset_bindex (*size) (bitset);
	bitset_bindex (*count) (bitset);

	bool (*empty_p) (bitset);
	void (*ones) (bitset);
	void (*zero) (bitset);

	void (*copy) (bitset, bitset);
	bool (*disjoint_p) (bitset, bitset);
	bool (*equal_p) (bitset, bitset);
	void (*not_) (bitset, bitset);
	bool (*subset_p) (bitset, bitset);

	void (*and_) (bitset, bitset, bitset);
	bool (*and_cmp) (bitset, bitset, bitset);
	void (*andn) (bitset, bitset, bitset);
	bool (*andn_cmp) (bitset, bitset, bitset);
	void (*or_) (bitset, bitset, bitset);
	bool (*or_cmp) (bitset, bitset, bitset);
	void (*xor_) (bitset, bitset, bitset);
	bool (*xor_cmp) (bitset, bitset, bitset);

	void (*and_or) (bitset, bitset, bitset, bitset);
	bool (*and_or_cmp) (bitset, bitset, bitset, bitset);
	void (*andn_or) (bitset, bitset, bitset, bitset);
	bool (*andn_or_cmp) (bitset, bitset, bitset, bitset);
	void (*or_and) (bitset, bitset, bitset, bitset);
	bool (*or_and_cmp) (bitset, bitset, bitset, bitset);

	bitset_bindex (list) (bitset, bitset_bindex , bitset_bindex,
	bitset_bindex *);
	bitset_bindex (list_reverse) (bitset, bitset_bindex , bitset_bindex,
	bitset_bindex *);
	void (*free) (bitset);
	enum bitset_type type;
	};

	#define BITSET_COMPATIBLE_(BSET1, BSET2) \
	((BSET1)->b.vtable == (BSET2)->b.vtable)

	#define BITSET_CHECK2_(DST, SRC) \
	if (!BITSET_COMPATIBLE_ (DST, SRC)) abort ();

	#define BITSET_CHECK3_(DST, SRC1, SRC2) \
	if (!BITSET_COMPATIBLE_ (DST, SRC1) \
	\|\| !BITSET_COMPATIBLE_ (DST, SRC2)) abort ();

	#define BITSET_CHECK4_(DST, SRC1, SRC2, SRC3) \
	if (!BITSET_COMPATIBLE_ (DST, SRC1) \|\| !BITSET_COMPATIBLE_ (DST, SRC2) \
	\|\| !BITSET_COMPATIBLE_ (DST, SRC3)) abort ();


	/* Redefine number of bits in bitset DST. */
	#define BITSET_RESIZE_(DST, SIZE) (DST)->b.vtable->resize (DST, SIZE)

	/* Return size in bits of bitset SRC. */
	#define BITSET_SIZE_(SRC) (SRC)->b.vtable->size (SRC)

	/* Return number of bits set in bitset SRC. */
	#define BITSET_COUNT_(SRC) (SRC)->b.vtable->count (SRC)

	/* Return type of bitset SRC. */
	#define BITSET_TYPE_(DST) (DST)->b.vtable->type

	/* Set bit BITNO in bitset DST. */
	#define BITSET_SET_(DST, BITNO) (DST)->b.vtable->set (DST, BITNO)

	/* Reset bit BITNO in bitset DST. */
	#define BITSET_RESET_(DST, BITNO) (DST)->b.vtable->reset (DST, BITNO)

	/* Toggle bit BITNO in bitset DST. */
	#define BITSET_TOGGLE_(DST, BITNO) (DST)->b.vtable->toggle (DST, BITNO)

	/* Return non-zero if bit BITNO in bitset SRC is set. */
	#define BITSET_TEST_(SRC, BITNO) (SRC)->b.vtable->test (SRC, BITNO)

	/* Free bitset SRC. */
	#define BITSET_FREE_(SRC)\
	((SRC)->b.vtable->free ? (SRC)->b.vtable->free (SRC) :(void)0)


	/* Return SRC == 0. */
	#define BITSET_EMPTY_P_(SRC) (SRC)->b.vtable->empty_p (SRC)

	/* DST = ~0. */
	#define BITSET_ONES_(DST) (DST)->b.vtable->ones (DST)

	/* DST = 0. */
	#define BITSET_ZERO_(DST) (DST)->b.vtable->zero (DST)



	/* DST = SRC. */
	#define BITSET_COPY_(DST, SRC) (SRC)->b.vtable->copy (DST, SRC)

	/* Return DST & SRC == 0. */
	#define BITSET_DISJOINT_P_(DST, SRC) (SRC)->b.vtable->disjoint_p (DST, SRC)

	/* Return DST == SRC. */
	#define BITSET_EQUAL_P_(DST, SRC) (SRC)->b.vtable->equal_p (DST, SRC)

	/* DST = ~SRC. */
	#define BITSET_NOT_(DST, SRC) (SRC)->b.vtable->not_ (DST, SRC)

	/* Return DST == DST \| SRC. */
	#define BITSET_SUBSET_P_(DST, SRC) (SRC)->b.vtable->subset_p (DST, SRC)


	/* DST = SRC1 & SRC2. */
	#define BITSET_AND_(DST, SRC1, SRC2) (SRC1)->b.vtable->and_ (DST, SRC1, SRC2)
	#define BITSET_AND_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->and_cmp (DST, SRC1, SRC2)

	/* DST = SRC1 & ~SRC2. */
	#define BITSET_ANDN_(DST, SRC1, SRC2) (SRC1)->b.vtable->andn (DST, SRC1, SRC2)
	#define BITSET_ANDN_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->andn_cmp (DST, SRC1, SRC2)

	/* DST = SRC1 \| SRC2. */
	#define BITSET_OR_(DST, SRC1, SRC2) (SRC1)->b.vtable->or_ (DST, SRC1, SRC2)
	#define BITSET_OR_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->or_cmp (DST, SRC1, SRC2)

	/* DST = SRC1 ^ SRC2. */
	#define BITSET_XOR_(DST, SRC1, SRC2) (SRC1)->b.vtable->xor_ (DST, SRC1, SRC2)
	#define BITSET_XOR_CMP_(DST, SRC1, SRC2) (SRC1)->b.vtable->xor_cmp (DST, SRC1, SRC2)



	/* DST = (SRC1 & SRC2) \| SRC3. Return non-zero if
	DST != (SRC1 & SRC2) \| SRC3. */
	#define BITSET_AND_OR_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->and_or (DST, SRC1, SRC2, SRC3)
	#define BITSET_AND_OR_CMP_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->and_or_cmp (DST, SRC1, SRC2, SRC3)

	/* DST = (SRC1 & ~SRC2) \| SRC3. Return non-zero if
	DST != (SRC1 & ~SRC2) \| SRC3. */
	#define BITSET_ANDN_OR_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->andn_or (DST, SRC1, SRC2, SRC3)
	#define BITSET_ANDN_OR_CMP_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->andn_or_cmp (DST, SRC1, SRC2, SRC3)

	/* DST = (SRC1 \| SRC2) & SRC3. Return non-zero if
	DST != (SRC1 \| SRC2) & SRC3. */
	#define BITSET_OR_AND_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->or_and (DST, SRC1, SRC2, SRC3)
	#define BITSET_OR_AND_CMP_(DST, SRC1, SRC2, SRC3) \
	(SRC1)->b.vtable->or_and_cmp (DST, SRC1, SRC2, SRC3)


	/* Find list of up to NUM bits set in BSET starting from and including
	NEXT. Return with actual number of bits found and with NEXT
	indicating where search stopped. */
	#define BITSET_LIST_(BSET, LIST, NUM, NEXT) \
	(BSET)->b.vtable->list (BSET, LIST, NUM, NEXT)

	/* Find reverse list of up to NUM bits set in BSET starting from and
	including NEXT. Return with actual number of bits found and with
	NEXT indicating where search stopped. /
	#define BITSET_LIST_REVERSE_(BSET, LIST, NUM, NEXT) \
	(BSET)->b.vtable->list_reverse (BSET, LIST, NUM, NEXT)


	/* Private functions for bitset implementations. */

	extern bool bitset_toggle_ (bitset, bitset_bindex);

	extern bitset_bindex bitset_count_ (bitset);

	extern bitset_bindex bitset_size_ (bitset);

	extern bool bitset_copy_ (bitset, bitset);

	extern void bitset_and_or_ (bitset, bitset, bitset, bitset);

	extern bool bitset_and_or_cmp_ (bitset, bitset, bitset, bitset);

	extern void bitset_andn_or_ (bitset, bitset, bitset, bitset);

	extern bool bitset_andn_or_cmp_ (bitset, bitset, bitset, bitset);

	extern void bitset_or_and_ (bitset, bitset, bitset, bitset);

	extern bool bitset_or_and_cmp_ (bitset, bitset, bitset, bitset);

	#endif /* _BBITSET_H */