Track extent is_head state in rtree leaf.
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862219e461
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70d1541c5b
@ -23,7 +23,7 @@ typedef enum extent_state_e extent_state_t;
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enum extent_head_state_e {
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EXTENT_NOT_HEAD,
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EXTENT_IS_HEAD /* Only relevant for Windows && opt.retain. */
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EXTENT_IS_HEAD /* See comments in ehooks_default_merge_impl(). */
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};
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typedef enum extent_head_state_e extent_head_state_t;
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@ -46,6 +46,7 @@ struct rtree_node_elm_s {
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typedef struct rtree_metadata_s rtree_metadata_t;
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struct rtree_metadata_s {
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szind_t szind;
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bool is_head; /* Mirrors edata->is_head. */
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bool slab;
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};
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@ -65,9 +66,10 @@ struct rtree_leaf_elm_s {
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*
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* x: index
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* e: edata
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* h: is_head
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* b: slab
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*
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* 00000000 xxxxxxxx eeeeeeee [...] eeeeeeee eeee000b
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* 00000000 xxxxxxxx eeeeeeee [...] eeeeeeee eeee00hb
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*/
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atomic_p_t le_bits;
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#else
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@ -184,12 +186,16 @@ rtree_leaf_elm_bits_encode(rtree_contents_t contents) {
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& (((uintptr_t)1 << LG_VADDR) - 1);
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uintptr_t szind_bits = (uintptr_t)contents.metadata.szind << LG_VADDR;
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/*
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* Slab shares the low bit of edata; we know edata is on an even address
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* (in fact, it's 128 bytes on 64-bit systems; we can enforce this
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* alignment if we want to steal 6 extra rtree leaf bits someday.
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* Metadata shares the low bits of edata. edata is CACHELINE aligned (in
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* fact, it's 128 bytes on 64-bit systems); we can enforce this
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* alignment if we want to steal the extra rtree leaf bits someday.
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*/
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uintptr_t slab_bits = (uintptr_t)contents.metadata.slab;
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return szind_bits | edata_bits | slab_bits;
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uintptr_t is_head_bits = (uintptr_t)contents.metadata.is_head << 1;
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uintptr_t metadata_bits = szind_bits | is_head_bits | slab_bits;
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assert((edata_bits & metadata_bits) == 0);
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return edata_bits | metadata_bits;
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}
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JEMALLOC_ALWAYS_INLINE rtree_contents_t
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@ -198,20 +204,23 @@ rtree_leaf_elm_bits_decode(uintptr_t bits) {
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/* Do the easy things first. */
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contents.metadata.szind = bits >> LG_VADDR;
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contents.metadata.slab = (bool)(bits & 1);
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contents.metadata.is_head = (bool)(bits & (1 << 1));
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uintptr_t metadata_mask = ~((uintptr_t)((1 << 2) - 1));
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# ifdef __aarch64__
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/*
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* aarch64 doesn't sign extend the highest virtual address bit to set
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* the higher ones. Instead, the high bits get zeroed.
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*/
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uintptr_t high_bit_mask = ((uintptr_t)1 << LG_VADDR) - 1;
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/* Mask off the slab bit. */
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uintptr_t low_bit_mask = ~(uintptr_t)1;
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/* Mask off metadata. */
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uintptr_t low_bit_mask = metadata_mask;
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uintptr_t mask = high_bit_mask & low_bit_mask;
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contents.edata = (edata_t *)(bits & mask);
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# else
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/* Restore sign-extended high bits, mask slab bit. */
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/* Restore sign-extended high bits, mask metadata bits. */
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contents.edata = (edata_t *)((uintptr_t)((intptr_t)(bits << RTREE_NHIB)
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>> RTREE_NHIB) & ~((uintptr_t)0x1));
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>> RTREE_NHIB) & metadata_mask);
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# endif
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return contents;
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}
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@ -230,7 +239,8 @@ rtree_leaf_elm_read(tsdn_t *tsdn, rtree_t *rtree, rtree_leaf_elm_t *elm,
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unsigned metadata_bits = atomic_load_u(&elm->le_metadata, dependent
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? ATOMIC_RELAXED : ATOMIC_ACQUIRE);
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contents.metadata.slab = (bool)(metadata_bits & 1);
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contents.metadata.szind = (metadata_bits >> 1);
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contents.metadata.is_head = (bool)(metadata_bits & (1 << 1));
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contents.metadata.szind = (metadata_bits >> 2);
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contents.edata = (edata_t *)atomic_load_p(&elm->le_edata, dependent
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? ATOMIC_RELAXED : ATOMIC_ACQUIRE);
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@ -247,7 +257,8 @@ rtree_leaf_elm_write(tsdn_t *tsdn, rtree_t *rtree,
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atomic_store_p(&elm->le_bits, (void *)bits, ATOMIC_RELEASE);
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#else
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unsigned metadata_bits = ((unsigned)contents.metadata.slab
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| ((unsigned)contents.metadata.szind << 1));
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| ((unsigned)contents.metadata.is_head << 1)
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| ((unsigned)contents.metadata.szind << 2));
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atomic_store_u(&elm->le_metadata, metadata_bits, ATOMIC_RELEASE);
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/*
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* Write edata last, since the element is atomically considered valid
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@ -418,6 +429,7 @@ rtree_clear(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx,
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contents.edata = NULL;
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contents.metadata.szind = SC_NSIZES;
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contents.metadata.slab = false;
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contents.metadata.is_head = false;
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rtree_leaf_elm_write(tsdn, rtree, elm, contents);
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}
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@ -227,10 +227,14 @@ bool
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ehooks_default_merge(extent_hooks_t *extent_hooks, void *addr_a, size_t size_a,
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void *addr_b, size_t size_b, bool committed, unsigned arena_ind) {
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tsdn_t *tsdn = tsdn_fetch();
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edata_t *a = emap_edata_lookup(tsdn, &arena_emap_global, addr_a);
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bool head_a = edata_is_head_get(a);
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edata_t *b = emap_edata_lookup(tsdn, &arena_emap_global, addr_b);
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bool head_b = edata_is_head_get(b);
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emap_assert_mapped(tsdn, &arena_emap_global, a);
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emap_assert_mapped(tsdn, &arena_emap_global, b);
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return ehooks_default_merge_impl(tsdn, addr_a, head_a, addr_b, head_b);
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}
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21
src/emap.c
21
src/emap.c
@ -141,6 +141,8 @@ emap_rtree_write_acquired(tsdn_t *tsdn, emap_t *emap, rtree_leaf_elm_t *elm_a,
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contents.edata = edata;
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contents.metadata.szind = szind;
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contents.metadata.slab = slab;
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contents.metadata.is_head = (edata == NULL) ? false :
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edata_is_head_get(edata);
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rtree_leaf_elm_write(tsdn, &emap->rtree, elm_a, contents);
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if (elm_b != NULL) {
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rtree_leaf_elm_write(tsdn, &emap->rtree, elm_b, contents);
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@ -169,12 +171,14 @@ emap_register_interior(tsdn_t *tsdn, emap_t *emap, edata_t *edata,
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assert(edata_slab_get(edata));
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rtree_contents_t contents;
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contents.edata = edata;
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contents.metadata.szind = szind;
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contents.metadata.slab = true;
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contents.metadata.is_head = false; /* Not allowed to access. */
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/* Register interior. */
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for (size_t i = 1; i < (edata_size_get(edata) >> LG_PAGE) - 1; i++) {
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rtree_contents_t contents;
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contents.edata = edata;
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contents.metadata.szind = szind;
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contents.metadata.slab = true;
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rtree_write(tsdn, &emap->rtree, rtree_ctx,
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(uintptr_t)edata_base_get(edata) + (uintptr_t)(i <<
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LG_PAGE), contents);
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@ -214,6 +218,8 @@ emap_remap(tsdn_t *tsdn, emap_t *emap, edata_t *edata, szind_t szind,
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contents.edata = edata;
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contents.metadata.szind = szind;
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contents.metadata.slab = slab;
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contents.metadata.is_head = edata_is_head_get(edata);
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rtree_write(tsdn, &emap->rtree, rtree_ctx,
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(uintptr_t)edata_addr_get(edata), contents);
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/*
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@ -297,6 +303,7 @@ emap_merge_commit(tsdn_t *tsdn, emap_t *emap, emap_prepare_t *prepare,
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clear_contents.edata = NULL;
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clear_contents.metadata.szind = SC_NSIZES;
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clear_contents.metadata.slab = false;
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clear_contents.metadata.is_head = false;
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if (prepare->lead_elm_b != NULL) {
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rtree_leaf_elm_write(tsdn, &emap->rtree,
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@ -320,8 +327,10 @@ void
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emap_do_assert_mapped(tsdn_t *tsdn, emap_t *emap, edata_t *edata) {
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EMAP_DECLARE_RTREE_CTX;
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assert(rtree_read(tsdn, &emap->rtree, rtree_ctx,
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(uintptr_t)edata_base_get(edata)).edata == edata);
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rtree_contents_t contents = rtree_read(tsdn, &emap->rtree, rtree_ctx,
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(uintptr_t)edata_base_get(edata));
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assert(contents.edata == edata);
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assert(contents.metadata.is_head == edata_is_head_get(edata));
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}
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void
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@ -1254,6 +1254,8 @@ extent_merge_impl(tsdn_t *tsdn, pac_t *pac, ehooks_t *ehooks, edata_t *a,
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assert(edata_arena_ind_get(a) == edata_arena_ind_get(b));
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assert(edata_arena_ind_get(a) == ehooks_ind_get(ehooks));
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emap_assert_mapped(tsdn, pac->emap, a);
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emap_assert_mapped(tsdn, pac->emap, b);
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bool err = ehooks_merge(tsdn, ehooks, edata_base_get(a),
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edata_size_get(a), edata_is_head_get(a), edata_base_get(b),
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@ -55,6 +55,7 @@ TEST_BEGIN(test_rtree_extrema) {
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contents_a.edata = &edata_a;
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contents_a.metadata.szind = edata_szind_get(&edata_a);
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contents_a.metadata.slab = edata_slab_get(&edata_a);
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contents_a.metadata.is_head = edata_is_head_get(&edata_a);
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expect_false(rtree_write(tsdn, rtree, &rtree_ctx, PAGE, contents_a),
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"Unexpected rtree_write() failure");
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expect_false(rtree_write(tsdn, rtree, &rtree_ctx, PAGE, contents_a),
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@ -63,20 +64,23 @@ TEST_BEGIN(test_rtree_extrema) {
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PAGE);
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expect_true(contents_a.edata == read_contents_a.edata
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&& contents_a.metadata.szind == read_contents_a.metadata.szind
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&& contents_a.metadata.slab == read_contents_a.metadata.slab,
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&& contents_a.metadata.slab == read_contents_a.metadata.slab
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&& contents_a.metadata.is_head == read_contents_a.metadata.is_head,
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"rtree_read() should return previously set value");
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rtree_contents_t contents_b;
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contents_b.edata = &edata_b;
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contents_b.metadata.szind = edata_szind_get_maybe_invalid(&edata_b);
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contents_b.metadata.slab = edata_slab_get(&edata_b);
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contents_b.metadata.is_head = edata_is_head_get(&edata_b);
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expect_false(rtree_write(tsdn, rtree, &rtree_ctx, ~((uintptr_t)0),
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contents_b), "Unexpected rtree_write() failure");
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rtree_contents_t read_contents_b = rtree_read(tsdn, rtree, &rtree_ctx,
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~((uintptr_t)0));
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assert_true(contents_b.edata == read_contents_b.edata
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&& contents_b.metadata.szind == read_contents_b.metadata.szind
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&& contents_b.metadata.slab == read_contents_b.metadata.slab,
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&& contents_b.metadata.slab == read_contents_b.metadata.slab
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&& contents_b.metadata.is_head == read_contents_b.metadata.is_head,
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"rtree_read() should return previously set value");
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base_delete(tsdn, base);
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@ -106,6 +110,7 @@ TEST_BEGIN(test_rtree_bits) {
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contents.edata = &edata;
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contents.metadata.szind = SC_NSIZES;
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contents.metadata.slab = false;
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contents.metadata.is_head = false;
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expect_false(rtree_write(tsdn, rtree, &rtree_ctx, keys[i],
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contents), "Unexpected rtree_write() failure");
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@ -158,6 +163,7 @@ TEST_BEGIN(test_rtree_random) {
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contents.edata = &edata;
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contents.metadata.szind = SC_NSIZES;
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contents.metadata.slab = false;
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contents.metadata.is_head = false;
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rtree_leaf_elm_write(tsdn, rtree, elm, contents);
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expect_ptr_eq(rtree_read(tsdn, rtree, &rtree_ctx,
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keys[i]).edata, &edata,
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