211 lines
5.4 KiB
C
211 lines
5.4 KiB
C
#ifndef JEMALLOC_INTERNAL_BITMAP_INLINES_H
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#define JEMALLOC_INTERNAL_BITMAP_INLINES_H
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#ifndef JEMALLOC_ENABLE_INLINE
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bool bitmap_full(bitmap_t *bitmap, const bitmap_info_t *binfo);
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bool bitmap_get(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit);
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void bitmap_set(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit);
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size_t bitmap_ffu(const bitmap_t *bitmap, const bitmap_info_t *binfo,
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size_t min_bit);
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size_t bitmap_sfu(bitmap_t *bitmap, const bitmap_info_t *binfo);
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void bitmap_unset(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit);
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#endif
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#if (defined(JEMALLOC_ENABLE_INLINE) || defined(JEMALLOC_BITMAP_C_))
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JEMALLOC_INLINE bool
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bitmap_full(bitmap_t *bitmap, const bitmap_info_t *binfo) {
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#ifdef BITMAP_USE_TREE
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size_t rgoff = binfo->levels[binfo->nlevels].group_offset - 1;
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bitmap_t rg = bitmap[rgoff];
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/* The bitmap is full iff the root group is 0. */
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return (rg == 0);
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#else
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size_t i;
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for (i = 0; i < binfo->ngroups; i++) {
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if (bitmap[i] != 0) {
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return false;
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}
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}
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return true;
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#endif
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}
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JEMALLOC_INLINE bool
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bitmap_get(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit) {
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size_t goff;
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bitmap_t g;
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assert(bit < binfo->nbits);
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goff = bit >> LG_BITMAP_GROUP_NBITS;
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g = bitmap[goff];
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return !(g & (ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK)));
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}
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JEMALLOC_INLINE void
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bitmap_set(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit) {
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size_t goff;
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bitmap_t *gp;
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bitmap_t g;
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assert(bit < binfo->nbits);
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assert(!bitmap_get(bitmap, binfo, bit));
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goff = bit >> LG_BITMAP_GROUP_NBITS;
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gp = &bitmap[goff];
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g = *gp;
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assert(g & (ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK)));
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g ^= ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK);
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*gp = g;
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assert(bitmap_get(bitmap, binfo, bit));
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#ifdef BITMAP_USE_TREE
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/* Propagate group state transitions up the tree. */
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if (g == 0) {
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unsigned i;
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for (i = 1; i < binfo->nlevels; i++) {
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bit = goff;
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goff = bit >> LG_BITMAP_GROUP_NBITS;
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gp = &bitmap[binfo->levels[i].group_offset + goff];
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g = *gp;
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assert(g & (ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK)));
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g ^= ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK);
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*gp = g;
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if (g != 0) {
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break;
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}
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}
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}
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#endif
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}
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/* ffu: find first unset >= bit. */
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JEMALLOC_INLINE size_t
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bitmap_ffu(const bitmap_t *bitmap, const bitmap_info_t *binfo, size_t min_bit) {
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assert(min_bit < binfo->nbits);
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#ifdef BITMAP_USE_TREE
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unsigned level = binfo->nlevels - 1;
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size_t lg_bits_per_group = (LG_BITMAP_GROUP_NBITS * (level+1));
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size_t bits_per_group = 1LU << lg_bits_per_group;
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size_t bits_per_group_mask = bits_per_group - 1;
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unsigned group_nmask = (min_bit & bits_per_group_mask) >> (level *
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LG_BITMAP_GROUP_NBITS);
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bitmap_t group_mask = ~((1LU << group_nmask) - 1);
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bitmap_t group = bitmap[binfo->levels[level].group_offset] & group_mask;
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if (group == 0LU) {
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return binfo->nbits;
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}
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size_t bit = ffs_lu(group) - 1;
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while (level > 0) {
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level--;
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lg_bits_per_group = (LG_BITMAP_GROUP_NBITS * (level+1));
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bits_per_group = 1LU << lg_bits_per_group;
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bits_per_group_mask = bits_per_group - 1;
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group = bitmap[binfo->levels[level].group_offset + bit];
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size_t cur_base = bit << lg_bits_per_group;
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if (cur_base < min_bit) {
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group_nmask = (min_bit & bits_per_group_mask) >> (level
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* LG_BITMAP_GROUP_NBITS);
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group_mask = ~((1LU << group_nmask) - 1);
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group &= group_mask;
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}
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if (group == 0LU) {
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return binfo->nbits;
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}
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bit = (bit << LG_BITMAP_GROUP_NBITS) + (ffs_lu(group) - 1);
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}
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assert(bit < binfo->nbits);
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return bit;
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#else
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size_t i = min_bit >> LG_BITMAP_GROUP_NBITS;
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bitmap_t g = bitmap[i] & ~((1LU << (min_bit & BITMAP_GROUP_NBITS_MASK))
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- 1);
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size_t bit;
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do {
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bit = ffs_lu(g);
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if (bit != 0) {
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return (i << LG_BITMAP_GROUP_NBITS) + (bit - 1);
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}
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i++;
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g = bitmap[i];
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} while (i < binfo->ngroups);
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return binfo->nbits;
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#endif
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}
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/* sfu: set first unset. */
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JEMALLOC_INLINE size_t
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bitmap_sfu(bitmap_t *bitmap, const bitmap_info_t *binfo) {
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size_t bit;
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bitmap_t g;
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unsigned i;
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assert(!bitmap_full(bitmap, binfo));
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#ifdef BITMAP_USE_TREE
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i = binfo->nlevels - 1;
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g = bitmap[binfo->levels[i].group_offset];
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bit = ffs_lu(g) - 1;
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while (i > 0) {
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i--;
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g = bitmap[binfo->levels[i].group_offset + bit];
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bit = (bit << LG_BITMAP_GROUP_NBITS) + (ffs_lu(g) - 1);
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}
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#else
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i = 0;
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g = bitmap[0];
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while ((bit = ffs_lu(g)) == 0) {
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i++;
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g = bitmap[i];
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}
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bit = (i << LG_BITMAP_GROUP_NBITS) + (bit - 1);
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#endif
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bitmap_set(bitmap, binfo, bit);
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return bit;
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}
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JEMALLOC_INLINE void
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bitmap_unset(bitmap_t *bitmap, const bitmap_info_t *binfo, size_t bit) {
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size_t goff;
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bitmap_t *gp;
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bitmap_t g;
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UNUSED bool propagate;
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assert(bit < binfo->nbits);
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assert(bitmap_get(bitmap, binfo, bit));
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goff = bit >> LG_BITMAP_GROUP_NBITS;
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gp = &bitmap[goff];
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g = *gp;
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propagate = (g == 0);
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assert((g & (ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK))) == 0);
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g ^= ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK);
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*gp = g;
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assert(!bitmap_get(bitmap, binfo, bit));
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#ifdef BITMAP_USE_TREE
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/* Propagate group state transitions up the tree. */
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if (propagate) {
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unsigned i;
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for (i = 1; i < binfo->nlevels; i++) {
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bit = goff;
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goff = bit >> LG_BITMAP_GROUP_NBITS;
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gp = &bitmap[binfo->levels[i].group_offset + goff];
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g = *gp;
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propagate = (g == 0);
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assert((g & (ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK)))
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== 0);
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g ^= ZU(1) << (bit & BITMAP_GROUP_NBITS_MASK);
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*gp = g;
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if (!propagate) {
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break;
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}
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}
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}
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#endif /* BITMAP_USE_TREE */
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}
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#endif
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#endif /* JEMALLOC_INTERNAL_BITMAP_INLINES_H */
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