-/**
- * @file bitset.h
- * @date 15.10.2004
- * @author Sebastian Hack
- * @brief A bitset implementation.
+/*
+ * Copyright (C) 1995-2008 University of Karlsruhe. All right reserved.
+ *
+ * This file is part of libFirm.
+ *
+ * This file may be distributed and/or modified under the terms of the
+ * GNU General Public License version 2 as published by the Free Software
+ * Foundation and appearing in the file LICENSE.GPL included in the
+ * packaging of this file.
+ *
+ * Licensees holding valid libFirm Professional Edition licenses may use
+ * this file in accordance with the libFirm Commercial License.
+ * Agreement provided with the Software.
+ *
+ * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
+ * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
+ * PURPOSE.
*/
-#ifndef __FIRM_BITSET_H
-#define __FIRM_BITSET_H
+/**
+ * @file
+ * @brief A bitset implementation.
+ * @author Sebastian Hack
+ * @date 15.10.2004
+ * @version $Id$
+ */
+#ifndef FIRM_ADT_BITSET_H
+#define FIRM_ADT_BITSET_H
#include <stdlib.h>
#include <stdio.h>
#include <assert.h>
#include <string.h>
-#include "firm_config.h"
+#include "xmalloc.h"
#include "bitfiddle.h"
+typedef unsigned int bitset_pos_t;
+
#include "bitset_std.h"
-/*
#if defined(__GNUC__) && defined(__i386__)
#include "bitset_ia32.h"
#endif
-*/
typedef struct _bitset_t {
- unsigned long units;
- unsigned long *data;
+ bitset_pos_t units;
+ bitset_pos_t size;
} bitset_t;
-#define BS_UNIT_SIZE sizeof(unsigned long)
-#define BS_UNIT_SIZE_BITS (BS_UNIT_SIZE * 8)
-#define BS_UNIT_MASK (BS_UNIT_SIZE_BITS - 1)
+#define BS_UNIT_SIZE sizeof(bitset_unit_t)
+#define BS_UNIT_SIZE_BITS (BS_UNIT_SIZE * 8)
+#define BS_UNIT_MASK (BS_UNIT_SIZE_BITS - 1)
+
+#define BS_DATA(bs) ((bitset_unit_t *) ((char *) (bs) + sizeof(bitset_t)))
+#define BS_UNITS(bits) (round_up2(bits, BS_UNIT_SIZE_BITS) / BS_UNIT_SIZE_BITS)
+#define BS_TOTAL_SIZE(bits) (sizeof(bitset_t) + BS_UNITS(bits) * BS_UNIT_SIZE)
/**
* Initialize a bitset.
*
* Note that this function needs three macros which must be provided by the
* bitfield implementor:
- * - _bitset_overall_size(highest_bit) The overall size that must be
+ * - _bitset_overall_size(size) The overall size that must be
* allocated for the bitfield in bytes.
- * - _bitset_units(highest_bit) The number of units that will be
+ * - _bitset_units(size) The number of units that will be
* present in the bitfield for a given highest bit.
- * - _bitset_data_ptr(data, highest_bit) This produces as pointer to the
+ * - _bitset_data_ptr(data, size) This produces as pointer to the
* first unit in the allocated memory area. The main reason for this
* macro is, that some bitset implementors want control over memory
* alignment.
*
* @param area A pointer to memory reserved for the bitset.
- * @param units The number of units that are allocated for the bitset.
+ * @param size The size of the bitset in bits.
* @return A pointer to the initialized bitset.
*/
-static INLINE bitset_t *_bitset_prepare(void *area, unsigned long highest_bit)
+static inline bitset_t *_bitset_prepare(void *area, bitset_pos_t size)
{
bitset_t *ptr = area;
- memset(area, 0, _bitset_overall_size(sizeof(bitset_t), highest_bit));
- ptr->units = _bitset_units(highest_bit);
- ptr->data = _bitset_data_ptr(area, sizeof(bitset_t), highest_bit);
+ memset(ptr, 0, BS_TOTAL_SIZE(size));
+ ptr->units = BS_UNITS(size);
+ ptr->size = size;
return ptr;
}
+/**
+ * Mask out all bits, which are only there, because the number
+ * of bits in the set didn't match a unit size boundary.
+ * @param bs The bitset.
+ * @return The masked bitset.
+ */
+static inline bitset_t *_bitset_mask_highest(bitset_t *bs)
+{
+ bitset_pos_t rest = bs->size & BS_UNIT_MASK;
+ if (rest)
+ BS_DATA(bs)[bs->units - 1] &= (1 << rest) - 1;
+ return bs;
+}
+
/**
* Get the capacity of the bitset in bits.
* @param bs The bitset.
*/
#define bitset_capacity(bs) ((bs)->units * BS_UNIT_SIZE_BITS)
+/**
+ * Get the size of the bitset in bits.
+ * @note Note the difference between capacity and size.
+ * @param bs The bitset.
+ * @return The highest bit which can be set or cleared plus 1.
+ */
+#define bitset_size(bs) ((bs)->size)
+
/**
* Allocate a bitset on an obstack.
* @param obst The obstack.
- * @param highest_bit The greatest bit that shall be stored in the set.
+ * @param size The greatest bit that shall be stored in the set.
* @return A pointer to an empty initialized bitset.
*/
-#define bitset_obstack_alloc(obst,highest_bit) \
- _bitset_prepare(obstack_alloc(obst, _bitset_overall_size(sizeof(bitset_t), highest_bit)), highest_bit)
+#define bitset_obstack_alloc(obst,size) \
+ _bitset_prepare(obstack_alloc(obst, BS_TOTAL_SIZE(size)), size)
/**
* Allocate a bitset via malloc.
- * @param highest_bit The greatest bit that shall be stored in the set.
+ * @param size The greatest bit that shall be stored in the set.
* @return A pointer to an empty initialized bitset.
*/
-#define bitset_malloc(highest_bit) \
- _bitset_prepare(malloc(_bitset_overall_size(sizeof(bitset_t), highest_bit)), highest_bit)
+#define bitset_malloc(size) \
+ _bitset_prepare(xmalloc(BS_TOTAL_SIZE(size)), size)
/**
* Free a bitset allocated with bitset_malloc().
/**
* Allocate a bitset on the stack via alloca.
- * @param highest_bit The greatest bit that shall be stored in the set.
+ * @param size The greatest bit that shall be stored in the set.
* @return A pointer to an empty initialized bitset.
*/
-#define bitset_alloca(highest_bit) \
- _bitset_prepare(alloca(_bitset_overall_size(sizeof(bitset_t), highest_bit)), highest_bit)
+#define bitset_alloca(size) \
+ _bitset_prepare(alloca(BS_TOTAL_SIZE(size)), size)
/**
* @param bit The bit.
* @return A pointer to the unit containing the bit.
*/
-static INLINE unsigned long *_bitset_get_unit(const bitset_t *bs, unsigned long bit)
+static inline bitset_unit_t *_bitset_get_unit(const bitset_t *bs, bitset_pos_t bit)
{
- assert(bit < bs->units * BS_UNIT_SIZE_BITS && "Bit too large");
- return bs->data + bit / BS_UNIT_SIZE_BITS;
+ assert(bit <= bs->size && "Bit to large");
+ return BS_DATA(bs) + bit / BS_UNIT_SIZE_BITS;
}
/**
* @param bs The bitset.
* @param bit The bit to set.
*/
-static INLINE void bitset_set(bitset_t *bs, unsigned long bit)
+static inline void bitset_set(bitset_t *bs, bitset_pos_t bit)
{
- unsigned long *unit = _bitset_get_unit(bs, bit);
+ bitset_unit_t *unit = _bitset_get_unit(bs, bit);
_bitset_inside_set(unit, bit & BS_UNIT_MASK);
}
* @param bs The bitset.
* @param bit The bit to clear.
*/
-static INLINE void bitset_clear(bitset_t *bs, unsigned long bit)
+static inline void bitset_clear(bitset_t *bs, bitset_pos_t bit)
{
- unsigned long *unit = _bitset_get_unit(bs, bit);
+ bitset_unit_t *unit = _bitset_get_unit(bs, bit);
_bitset_inside_clear(unit, bit & BS_UNIT_MASK);
}
-static INLINE int bitset_is_set(const bitset_t *bs, unsigned long bit)
+/**
+ * Check, if a bit is set.
+ * @param bs The bitset.
+ * @param bit The bit to check for.
+ * @return 1, if the bit was set, 0 if not.
+ */
+static inline int bitset_is_set(const bitset_t *bs, bitset_pos_t bit)
{
- unsigned long *unit = _bitset_get_unit(bs, bit);
+ bitset_unit_t *unit = _bitset_get_unit(bs, bit);
return _bitset_inside_is_set(unit, bit & BS_UNIT_MASK);
}
* @param bs The bitset.
* @param bit The bit to flip.
*/
-static INLINE void bitset_flip(bitset_t *bs, unsigned long bit)
+static inline void bitset_flip(bitset_t *bs, bitset_pos_t bit)
{
- unsigned long *unit = _bitset_get_unit(bs, bit);
+ bitset_unit_t *unit = _bitset_get_unit(bs, bit);
_bitset_inside_flip(unit, bit & BS_UNIT_MASK);
}
/**
- * Copy a bitset to another.
- * @param tgt The target bitset.
- * @param src The source bitset.
- * @return The target bitset.
- */
-static INLINE bitset_t *bitset_copy(bitset_t *tgt, const bitset_t *src)
-{
- unsigned long tu = tgt->units;
- unsigned long su = src->units;
- unsigned long min_units = tu < su ? tu : su;
- memcpy(tgt->data, src->data, min_units * BS_UNIT_SIZE);
- if(tu > min_units)
- memset(tgt->data + min_units, 0, BS_UNIT_SIZE * (tu - min_units));
- return tgt;
-}
-
-/**
- * Find the smallest bit set in the bitset.
+ * Flip the whole bitset.
* @param bs The bitset.
- * @return The smallest bit set in the bitset.
*/
-static INLINE unsigned long bitset_min(const bitset_t *bs)
+static inline void bitset_flip_all(bitset_t *bs)
{
- unsigned long i, ofs = 0;
-
- for(i = 0; i < bs->units; ++i) {
- unsigned long *unit = &bs->data[i];
- unsigned long pos = _bitset_inside_ntz(unit);
- if(pos > 0)
- return ofs + pos;
- ofs += BS_UNIT_SIZE_BITS;
- }
-
- return 0;
+ bitset_pos_t i;
+ for(i = 0; i < bs->units; i++)
+ _bitset_inside_flip_unit(&BS_DATA(bs)[i]);
+ _bitset_mask_highest(bs);
}
/**
- * Find the greatest bit set in the bitset.
- * @param bs The bitset.
- * @return The greatest bit set in the bitset.
+ * Copy a bitset to another.
+ * @param tgt The target bitset.
+ * @param src The source bitset.
+ * @return The target bitset.
*/
-static INLINE unsigned long bitset_max(const bitset_t *bs)
+static inline bitset_t *bitset_copy(bitset_t *tgt, const bitset_t *src)
{
- unsigned long i, max = 0, ofs = 0;
-
- for(i = 0; i < bs->units; ++i) {
- unsigned long *unit = &bs->data[i];
- unsigned long pos = _bitset_inside_nlz(unit);
- if(pos > 0)
- max = ofs + pos;
- ofs += BS_UNIT_SIZE_BITS;
- }
-
- return max;
+ bitset_pos_t tu = tgt->units;
+ bitset_pos_t su = src->units;
+ bitset_pos_t min_units = tu < su ? tu : su;
+ memcpy(BS_DATA(tgt), BS_DATA(src), min_units * BS_UNIT_SIZE);
+ if(tu > min_units)
+ memset(BS_DATA(tgt) + min_units, 0, BS_UNIT_SIZE * (tu - min_units));
+ return _bitset_mask_highest(tgt);
}
/**
* @return The next set bit from pos on, or -1, if no set bit was found
* after pos.
*/
-static INLINE unsigned long _bitset_next(const bitset_t *bs,
- unsigned long pos, int set)
+static inline bitset_pos_t _bitset_next(const bitset_t *bs,
+ bitset_pos_t pos, int set)
{
- unsigned long unit_number = pos / BS_UNIT_SIZE_BITS;
+ bitset_pos_t unit_number = pos / BS_UNIT_SIZE_BITS;
+ bitset_pos_t res;
- if(unit_number >= bs->units)
+ if(pos >= bs->size)
return -1;
{
- unsigned long bit_in_unit = pos & BS_UNIT_MASK;
- unsigned long in_unit_mask = (1 << bit_in_unit) - 1;
+ bitset_pos_t bit_in_unit = pos & BS_UNIT_MASK;
+ bitset_pos_t in_unit_mask = (1 << bit_in_unit) - 1;
/*
* Mask out the bits smaller than pos in the current unit.
* We are only interested in bits set higher than pos.
*/
- unsigned long curr_unit = bs->data[unit_number];
+ bitset_unit_t curr_unit = BS_DATA(bs)[unit_number];
/*
* Find the next bit set in the unit.
* Mind that this function returns 0, if the unit is -1 and
* counts the bits from 1 on.
*/
- unsigned long next_in_this_unit =
+ bitset_pos_t next_in_this_unit =
_bitset_inside_ntz_value((set ? curr_unit : ~curr_unit) & ~in_unit_mask);
/* If there is a bit set in the current unit, exit. */
- if(next_in_this_unit < BS_UNIT_SIZE_BITS)
- return next_in_this_unit + unit_number * BS_UNIT_SIZE_BITS;
+ if (next_in_this_unit < BS_UNIT_SIZE_BITS) {
+ res = next_in_this_unit + unit_number * BS_UNIT_SIZE_BITS;
+ return res < bs->size ? res : (bitset_pos_t) -1;
+ }
/* Else search for set bits in the next units. */
else {
- unsigned long i;
+ bitset_pos_t i;
for(i = unit_number + 1; i < bs->units; ++i) {
- unsigned long data = bs->data[i];
- unsigned long first_set =
+ bitset_unit_t data = BS_DATA(bs)[i];
+ bitset_pos_t first_set =
_bitset_inside_ntz_value(set ? data : ~data);
- if(first_set < BS_UNIT_SIZE_BITS)
- return first_set + i * BS_UNIT_SIZE_BITS;
+ if (first_set < BS_UNIT_SIZE_BITS) {
+ res = first_set + i * BS_UNIT_SIZE_BITS;
+ return res < bs->size ? res : (bitset_pos_t) -1;
+ }
}
}
}
* @param elm A unsigned long variable.
*/
#define bitset_foreach(bitset,elm) \
- for(elm = bitset_next_set(bitset,0); elm != -1; elm = bitset_next_set(bitset,elm+1))
+ for(elm = bitset_next_set(bitset,0); elm != (bitset_pos_t) -1; elm = bitset_next_set(bitset,elm+1))
#define bitset_foreach_clear(bitset,elm) \
- for(elm = bitset_next_clear(bitset,0); elm != -1; elm = bitset_next_clear(bitset,elm+1))
+ for(elm = bitset_next_clear(bitset,0); elm != (bitset_pos_t) -1; elm = bitset_next_clear(bitset,elm+1))
/**
* Count the bits set.
* @param bs The bitset.
* @return The number of bits set in the bitset.
*/
-static INLINE unsigned long bitset_popcnt(const bitset_t *bs)
+static inline unsigned bitset_popcnt(const bitset_t *bs)
{
- unsigned long i, pop = 0;
- unsigned long *unit;
+ bitset_pos_t i;
+ bitset_unit_t *unit;
+ unsigned pop = 0;
- for(i = 0, unit = bs->data; i < bs->units; ++i, ++unit)
+ for (i = 0, unit = BS_DATA(bs); i < bs->units; ++i, ++unit)
pop += _bitset_inside_pop(unit);
return pop;
* This sets all bits to zero.
* @param bs The bitset.
*/
-static INLINE void bitset_clear_all(bitset_t *bs)
+static inline bitset_t *bitset_clear_all(bitset_t *bs)
+{
+ memset(BS_DATA(bs), 0, BS_UNIT_SIZE * bs->units);
+ return bs;
+}
+
+/**
+ * Set the bitset.
+ * This sets all bits to one.
+ * @param bs The bitset.
+ */
+static inline bitset_t *bitset_set_all(bitset_t *bs)
{
- memset(bs->data, 0, BS_UNIT_SIZE * bs->units);
+ memset(BS_DATA(bs), -1, bs->units * BS_UNIT_SIZE);
+ return _bitset_mask_highest(bs);
}
/**
* @param rhs Another bitset.
* @return 1, if all bits in lhs are also set in rhs, 0 otherwise.
*/
-static INLINE int bitset_contains(const bitset_t *lhs, const bitset_t *rhs)
+static inline int bitset_contains(const bitset_t *lhs, const bitset_t *rhs)
{
- unsigned long n = lhs->units < rhs->units ? lhs->units : rhs->units;
- unsigned long i;
+ bitset_pos_t n = lhs->units < rhs->units ? lhs->units : rhs->units;
+ bitset_pos_t i;
for(i = 0; i < n; ++i) {
- unsigned long lu = lhs->data[i];
- unsigned long ru = rhs->data[i];
+ bitset_unit_t lu = BS_DATA(lhs)[i];
+ bitset_unit_t ru = BS_DATA(rhs)[i];
if((lu | ru) & ~ru)
return 0;
*/
if(lhs->units > n) {
for(i = n; i < lhs->units; ++i) {
- if(lhs->data[i] != 0)
+ if(BS_DATA(lhs)[i] != 0)
return 0;
}
}
return 1;
}
+/**
+ * Treat the bitset as a number and subtract 1.
+ * @param bs The bitset.
+ * @return The same bitset.
+ */
+static inline void bitset_minus1(bitset_t *bs)
+{
+#define _SH (sizeof(bitset_unit_t) * 8 - 1)
+
+ bitset_pos_t i;
+
+ for(i = 0; i < bs->units; ++i) {
+ bitset_unit_t unit = BS_DATA(bs)[i];
+ bitset_unit_t um1 = unit - 1;
+
+ BS_DATA(bs)[i] = um1;
+
+ if(((unit >> _SH) ^ (um1 >> _SH)) == 0)
+ break;
+ }
+#undef _SH
+}
+
+/**
+ * Check if two bitsets intersect.
+ * @param a The first bitset.
+ * @param b The second bitset.
+ * @return 1 if they have a bit in common, 0 if not.
+ */
+static inline int bitset_intersect(const bitset_t *a, const bitset_t *b)
+{
+ bitset_pos_t n = a->units < b->units ? a->units : b->units;
+ bitset_pos_t i;
+
+ for (i = 0; i < n; ++i)
+ if (BS_DATA(a)[i] & BS_DATA(b)[i])
+ return 1;
+
+ return 0;
+}
+
+/**
+ * set or clear all bits in the range [from;to[.
+ * @param a The bitset.
+ * @param from The first index to set to one.
+ * @param to The last index plus one to set to one.
+ * @param do_set If 1 the bits are set, if 0, they are cleared.
+ */
+static inline void bitset_mod_range(bitset_t *a, bitset_pos_t from, bitset_pos_t to, int do_set)
+{
+ bitset_pos_t from_unit, to_unit, i;
+ bitset_unit_t from_unit_mask, to_unit_mask;
+
+ if (from == to)
+ return;
+
+ if (to < from) {
+ bitset_pos_t tmp = from;
+ from = to;
+ to = tmp;
+ }
+
+ if (to > a->size)
+ to = a->size;
+
+ /*
+ * A small example (for cleaning bits in the same unit).
+ * from = 7
+ * to = 19
+ * do_set = 0
+ * result: xxxxxxx000000000000xxxxxxxxxxxxx
+ * from_unit_mask: 00000001111111111111111111111111
+ * to_unit_mask: 11111111111111111110000000000000
+ * scale: 01234567890123456789012345678901
+ * 1 2 3
+ */
+
+ from_unit = from / BS_UNIT_SIZE_BITS;
+ from_unit_mask = ~((1 << from) - 1);
+ from = from & BS_UNIT_MASK;
+
+ to_unit = to / BS_UNIT_SIZE_BITS;
+ to_unit_mask = (1 << to) - 1;
+ to = to & BS_UNIT_MASK;
+
+ /* do we want to set the bits in the range? */
+ if (do_set) {
+ /* If from and to are in the same unit: */
+ if (from_unit == to_unit)
+ BS_DATA(a)[from_unit] |= from_unit_mask & to_unit_mask;
+
+ /* Else, we have to treat the from and to units seperately */
+ else {
+ BS_DATA(a)[from_unit] |= from_unit_mask;
+ BS_DATA(a)[to_unit] |= to_unit_mask;
+ for (i = from_unit + 1; i < to_unit; i++)
+ BS_DATA(a)[i] = BITSET_UNIT_ALL_ONE;
+ }
+ }
+
+ /* ... or clear them? */
+ else {
+ if (from_unit == to_unit)
+ BS_DATA(a)[from_unit] &= ~(from_unit_mask & to_unit_mask);
+
+ else {
+ BS_DATA(a)[from_unit] &= ~from_unit_mask;
+ BS_DATA(a)[to_unit] &= ~to_unit_mask;
+ for (i = from_unit + 1; i < to_unit; i++)
+ BS_DATA(a)[i] = 0;
+ }
+ }
+}
+
+#define bitset_set_range(bs, from, to) bitset_mod_range((bs), (from), (to), 1)
+#define bitset_clear_range(bs, from, to) bitset_mod_range((bs), (from), (to), 0)
+
+/**
+ * Check, if a bitset is empty.
+ * @param a The bitset.
+ * @return 1, if the bitset is empty, 0 if not.
+ */
+static inline int bitset_is_empty(const bitset_t *a)
+{
+ bitset_pos_t i;
+ for (i = 0; i < a->units; ++i)
+ if (BS_DATA(a)[i] != 0)
+ return 0;
+ return 1;
+}
+
/**
* Print a bitset to a stream.
- * The bitset is printed as a comma seperated list of bits set.
+ * The bitset is printed as a comma separated list of bits set.
* @param file The stream.
* @param bs The bitset.
*/
-static INLINE void bitset_fprint(FILE *file, const bitset_t *bs)
+static inline void bitset_fprint(FILE *file, const bitset_t *bs)
{
const char *prefix = "";
int i;
- putc('[', file);
+ putc('{', file);
for(i = bitset_next_set(bs, 0); i != -1; i = bitset_next_set(bs, i + 1)) {
fprintf(file, "%s%u", prefix, i);
prefix = ",";
}
- putc(']', file);
+ putc('}', file);
}
-static INLINE void bitset_debug_fprint(FILE *file, const bitset_t *bs)
+static inline void bitset_debug_fprint(FILE *file, const bitset_t *bs)
{
- unsigned long i;
+ bitset_pos_t i;
- fprintf(file, "%lu:", bs->units);
+ fprintf(file, "%u:", bs->units);
for(i = 0; i < bs->units; ++i)
- fprintf(file, " %0lx", bs->data[i]);
+ fprintf(file, " " BITSET_UNIT_FMT, BS_DATA(bs)[i]);
}
+/**
+ * Perform tgt = tgt \ src operation.
+ * @param tgt The target bitset.
+ * @param src The source bitset.
+ * @return the tgt set.
+ */
+static inline bitset_t *bitset_andnot(bitset_t *tgt, const bitset_t *src);
+
+/**
+ * Perform Union, tgt = tgt u src operation.
+ * @param tgt The target bitset.
+ * @param src The source bitset.
+ * @return the tgt set.
+ */
+static inline bitset_t *bitset_or(bitset_t *tgt, const bitset_t *src);
+
+/**
+ * Perform tgt = tgt ^ ~src operation.
+ * @param tgt The target bitset.
+ * @param src The source bitset.
+ * @return the tgt set.
+ */
+static inline bitset_t *bitset_xor(bitset_t *tgt, const bitset_t *src);
+
/*
* Here, the binary operations follow.
* And, Or, And Not, Xor are available.
*/
#define BINARY_OP(op) \
-static INLINE bitset_t *bitset_ ## op(bitset_t *tgt, const bitset_t *src) \
+static inline bitset_t *bitset_ ## op(bitset_t *tgt, const bitset_t *src) \
{ \
- unsigned long i; \
- unsigned long n = tgt->units > src->units ? src->units : tgt->units; \
+ bitset_pos_t i; \
+ bitset_pos_t n = tgt->units > src->units ? src->units : tgt->units; \
for(i = 0; i < n; i += _BITSET_BINOP_UNITS_INC) \
- _bitset_inside_binop_ ## op(&tgt->data[i], &src->data[i]); \
+ _bitset_inside_binop_ ## op(&BS_DATA(tgt)[i], &BS_DATA(src)[i]); \
if(n < tgt->units) \
- _bitset_clear_rest(&tgt->data[i], tgt->units - i); \
- return tgt; \
+ _bitset_clear_rest(&BS_DATA(tgt)[i], tgt->units - i); \
+ return _bitset_mask_highest(tgt); \
}
/*
#define _bitset_clear_rest(data,n) _bitset_inside_clear_units(data, n)
BINARY_OP(and)
#undef _bitset_clear_rest
-#define _bitset_clear_rest(data,n)
+#define _bitset_clear_rest(data,n) do { } while(0)
BINARY_OP(andnot)
BINARY_OP(or)