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#define JEMALLOC_BITMAP_C_
#include "jemalloc/internal/jemalloc_preamble.h"
#include "jemalloc/internal/jemalloc_internal_includes.h"

#include "jemalloc/internal/assert.h"

/******************************************************************************/

#ifdef BITMAP_USE_TREE

void
bitmap_info_init(bitmap_info_t *binfo, size_t nbits) {
	unsigned i;
	size_t group_count;

	assert(nbits > 0);
	assert(nbits <= (ZU(1) << LG_BITMAP_MAXBITS));

	/*
	 * Compute the number of groups necessary to store nbits bits, and
	 * progressively work upward through the levels until reaching a level
	 * that requires only one group.
	 */
	binfo->levels[0].group_offset = 0;
	group_count = BITMAP_BITS2GROUPS(nbits);
	for (i = 1; group_count > 1; i++) {
		assert(i < BITMAP_MAX_LEVELS);
		binfo->levels[i].group_offset = binfo->levels[i-1].group_offset
		    + group_count;
		group_count = BITMAP_BITS2GROUPS(group_count);
	}
	binfo->levels[i].group_offset = binfo->levels[i-1].group_offset
	    + group_count;
	assert(binfo->levels[i].group_offset <= BITMAP_GROUPS_MAX);
	binfo->nlevels = i;
	binfo->nbits = nbits;
}

static size_t
bitmap_info_ngroups(const bitmap_info_t *binfo) {
	return binfo->levels[binfo->nlevels].group_offset;
}

void
bitmap_init(bitmap_t *bitmap, const bitmap_info_t *binfo, bool fill) {
	size_t extra;
	unsigned i;

	/*
	 * Bits are actually inverted with regard to the external bitmap
	 * interface.
	 */

	if (fill) {
		/* The "filled" bitmap starts out with all 0 bits. */
		memset(bitmap, 0, bitmap_size(binfo));
		return;
	}

	/*
	 * The "empty" bitmap starts out with all 1 bits, except for trailing
	 * unused bits (if any).  Note that each group uses bit 0 to correspond
	 * to the first logical bit in the group, so extra bits are the most
	 * significant bits of the last group.
	 */
	memset(bitmap, 0xffU, bitmap_size(binfo));
	extra = (BITMAP_GROUP_NBITS - (binfo->nbits & BITMAP_GROUP_NBITS_MASK))
	    & BITMAP_GROUP_NBITS_MASK;
	if (extra != 0) {
		bitmap[binfo->levels[1].group_offset - 1] >>= extra;
	}
	for (i = 1; i < binfo->nlevels; i++) {
		size_t group_count = binfo->levels[i].group_offset -
		    binfo->levels[i-1].group_offset;
		extra = (BITMAP_GROUP_NBITS - (group_count &
		    BITMAP_GROUP_NBITS_MASK)) & BITMAP_GROUP_NBITS_MASK;
		if (extra != 0) {
			bitmap[binfo->levels[i+1].group_offset - 1] >>= extra;
		}
	}
}

#else /* BITMAP_USE_TREE */

void
bitmap_info_init(bitmap_info_t *binfo, size_t nbits) {
	assert(nbits > 0);
	assert(nbits <= (ZU(1) << LG_BITMAP_MAXBITS));

	binfo->ngroups = BITMAP_BITS2GROUPS(nbits);
	binfo->nbits = nbits;
}

static size_t
bitmap_info_ngroups(const bitmap_info_t *binfo) {
	return binfo->ngroups;
}

void
bitmap_init(bitmap_t *bitmap, const bitmap_info_t *binfo, bool fill) {
	size_t extra;

	if (fill) {
		memset(bitmap, 0, bitmap_size(binfo));
		return;
	}

	memset(bitmap, 0xffU, bitmap_size(binfo));
	extra = (BITMAP_GROUP_NBITS - (binfo->nbits & BITMAP_GROUP_NBITS_MASK))
	    & BITMAP_GROUP_NBITS_MASK;
	if (extra != 0) {
		bitmap[binfo->ngroups - 1] >>= extra;
	}
}

#endif /* BITMAP_USE_TREE */

size_t
bitmap_size(const bitmap_info_t *binfo) {
	return (bitmap_info_ngroups(binfo) << LG_SIZEOF_BITMAP);
}