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@@ -10,6 +10,7 @@ typedef struct rtree_elm_s rtree_elm_t;
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typedef struct rtree_elm_witness_s rtree_elm_witness_t;
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typedef struct rtree_elm_witness_tsd_s rtree_elm_witness_tsd_t;
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typedef struct rtree_level_s rtree_level_t;
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typedef struct rtree_ctx_s rtree_ctx_t;
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typedef struct rtree_s rtree_t;
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/*
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@@ -25,6 +26,13 @@ typedef struct rtree_s rtree_t;
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/* Used for two-stage lock-free node initialization. */
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#define RTREE_NODE_INITIALIZING ((rtree_elm_t *)0x1)
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#define RTREE_CTX_INITIALIZER { \
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false, \
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0, \
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0, \
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{NULL /* C initializes all trailing elements to NULL. */} \
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}
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/*
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* Maximum number of concurrently acquired elements per thread. This controls
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* how many witness_t structures are embedded in tsd. Ideally rtree_elm_t would
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@@ -78,9 +86,9 @@ struct rtree_level_s {
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*
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* Suppose keys comprise 48 bits, and LG_RTREE_BITS_PER_LEVEL is 4.
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* This results in a 3-level tree, and the leftmost leaf can be directly
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* accessed via subtrees[2], the subtree prefixed by 0x0000 (excluding
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* 0x00000000) can be accessed via subtrees[1], and the remainder of the
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* tree can be accessed via subtrees[0].
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* accessed via levels[2], the subtree prefixed by 0x0000 (excluding
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* 0x00000000) can be accessed via levels[1], and the remainder of the
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* tree can be accessed via levels[0].
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*
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* levels[0] : [<unused> | 0x0001******** | 0x0002******** | ...]
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*
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@@ -90,7 +98,7 @@ struct rtree_level_s {
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*
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* This has practical implications on x64, which currently uses only the
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* lower 47 bits of virtual address space in userland, thus leaving
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* subtrees[0] unused and avoiding a level of tree traversal.
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* levels[0] unused and avoiding a level of tree traversal.
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*/
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union {
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void *subtree_pun;
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@@ -105,13 +113,31 @@ struct rtree_level_s {
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unsigned cumbits;
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};
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struct rtree_ctx_s {
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/* If false, key/elms have not yet been initialized by a lookup. */
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bool valid;
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/* Key that corresponds to the tree path recorded in elms. */
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uintptr_t key;
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/* Memoized rtree_start_level(key). */
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unsigned start_level;
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/*
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* A path through rtree, driven by key. Only elements that could
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* actually be used for subsequent lookups are initialized, i.e. if
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* start_level = rtree_start_level(key) is non-zero, the first
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* start_level elements are uninitialized. The last element contains a
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* pointer to the leaf node element that corresponds to key, so that
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* exact matches require no tree node offset computation.
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*/
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rtree_elm_t *elms[RTREE_HEIGHT_MAX + 1];
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};
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struct rtree_s {
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unsigned height;
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/*
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* Precomputed table used to convert from the number of leading 0 key
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* bits to which subtree level to start at.
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*/
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unsigned start_level[RTREE_HEIGHT_MAX];
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unsigned start_level[RTREE_HEIGHT_MAX + 1];
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rtree_level_t levels[RTREE_HEIGHT_MAX];
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};
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@@ -143,7 +169,9 @@ void rtree_elm_witness_release(tsdn_t *tsdn, const rtree_t *rtree,
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#ifdef JEMALLOC_H_INLINES
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#ifndef JEMALLOC_ENABLE_INLINE
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unsigned rtree_start_level(rtree_t *rtree, uintptr_t key);
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unsigned rtree_start_level(const rtree_t *rtree, uintptr_t key);
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unsigned rtree_ctx_start_level(const rtree_t *rtree,
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const rtree_ctx_t *rtree_ctx, uintptr_t key);
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uintptr_t rtree_subkey(rtree_t *rtree, uintptr_t key, unsigned level);
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bool rtree_node_valid(rtree_elm_t *node);
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@@ -156,33 +184,55 @@ rtree_elm_t *rtree_subtree_tryread(rtree_t *rtree, unsigned level,
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bool dependent);
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rtree_elm_t *rtree_subtree_read(tsdn_t *tsdn, rtree_t *rtree,
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unsigned level, bool dependent);
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rtree_elm_t *rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key,
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bool dependent, bool init_missing);
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rtree_elm_t *rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree,
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rtree_ctx_t *rtree_ctx, uintptr_t key, bool dependent, bool init_missing);
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bool rtree_write(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key,
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const extent_t *extent);
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extent_t *rtree_read(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key,
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bool dependent);
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rtree_elm_t *rtree_elm_acquire(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key,
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bool dependent, bool init_missing);
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bool rtree_write(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx,
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uintptr_t key, const extent_t *extent);
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extent_t *rtree_read(tsdn_t *tsdn, rtree_t *rtree,
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rtree_ctx_t *rtree_ctx, uintptr_t key, bool dependent);
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rtree_elm_t *rtree_elm_acquire(tsdn_t *tsdn, rtree_t *rtree,
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rtree_ctx_t *rtree_ctx, uintptr_t key, bool dependent, bool init_missing);
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extent_t *rtree_elm_read_acquired(tsdn_t *tsdn, const rtree_t *rtree,
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rtree_elm_t *elm);
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void rtree_elm_write_acquired(tsdn_t *tsdn, const rtree_t *rtree,
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rtree_elm_t *elm, const extent_t *extent);
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void rtree_elm_release(tsdn_t *tsdn, const rtree_t *rtree, rtree_elm_t *elm);
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void rtree_clear(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key);
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void rtree_clear(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx,
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uintptr_t key);
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#endif
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#if (defined(JEMALLOC_ENABLE_INLINE) || defined(JEMALLOC_RTREE_C_))
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JEMALLOC_ALWAYS_INLINE unsigned
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rtree_start_level(rtree_t *rtree, uintptr_t key)
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rtree_start_level(const rtree_t *rtree, uintptr_t key)
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{
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unsigned start_level;
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if (unlikely(key == 0))
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return (rtree->height - 1);
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start_level = rtree->start_level[lg_floor(key) >>
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start_level = rtree->start_level[(lg_floor(key) + 1) >>
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LG_RTREE_BITS_PER_LEVEL];
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assert(start_level < rtree->height);
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return (start_level);
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}
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JEMALLOC_ALWAYS_INLINE unsigned
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rtree_ctx_start_level(const rtree_t *rtree, const rtree_ctx_t *rtree_ctx,
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uintptr_t key)
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{
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unsigned start_level;
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uintptr_t key_diff;
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/* Compute the difference between old and new lookup keys. */
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key_diff = key ^ rtree_ctx->key;
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assert(key_diff != 0); /* Handled in rtree_elm_lookup(). */
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/*
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* Compute the last traversal path element at which the keys' paths
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* are the same.
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*/
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start_level = rtree->start_level[(lg_floor(key_diff) + 1) >>
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LG_RTREE_BITS_PER_LEVEL];
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assert(start_level < rtree->height);
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return (start_level);
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@@ -291,8 +341,8 @@ rtree_subtree_read(tsdn_t *tsdn, rtree_t *rtree, unsigned level, bool dependent)
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}
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JEMALLOC_ALWAYS_INLINE rtree_elm_t *
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rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent,
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bool init_missing)
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rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx,
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uintptr_t key, bool dependent, bool init_missing)
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{
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uintptr_t subkey;
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unsigned start_level;
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@@ -300,35 +350,95 @@ rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent,
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assert(!dependent || !init_missing);
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start_level = rtree_start_level(rtree, key);
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if (dependent || init_missing) {
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if (likely(rtree_ctx->valid)) {
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if (key == rtree_ctx->key)
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return (rtree_ctx->elms[rtree->height]);
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else {
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unsigned no_ctx_start_level =
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rtree_start_level(rtree, key);
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unsigned ctx_start_level;
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if (likely(no_ctx_start_level <=
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rtree_ctx->start_level && (ctx_start_level =
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rtree_ctx_start_level(rtree, rtree_ctx,
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key)) >= rtree_ctx->start_level)) {
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start_level = ctx_start_level;
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node = rtree_ctx->elms[ctx_start_level];
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} else {
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start_level = no_ctx_start_level;
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node = init_missing ?
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rtree_subtree_read(tsdn, rtree,
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no_ctx_start_level, dependent) :
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rtree_subtree_tryread(rtree,
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no_ctx_start_level, dependent);
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rtree_ctx->start_level =
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no_ctx_start_level;
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rtree_ctx->elms[no_ctx_start_level] =
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node;
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}
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}
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} else {
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unsigned no_ctx_start_level = rtree_start_level(rtree,
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key);
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start_level = no_ctx_start_level;
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node = init_missing ? rtree_subtree_read(tsdn, rtree,
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no_ctx_start_level, dependent) :
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rtree_subtree_tryread(rtree, no_ctx_start_level,
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dependent);
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rtree_ctx->valid = true;
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rtree_ctx->start_level = no_ctx_start_level;
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rtree_ctx->elms[no_ctx_start_level] = node;
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}
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rtree_ctx->key = key;
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} else {
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start_level = rtree_start_level(rtree, key);
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node = init_missing ? rtree_subtree_read(tsdn, rtree,
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start_level, dependent) : rtree_subtree_tryread(rtree,
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start_level, dependent);
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}
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node = init_missing ? rtree_subtree_read(tsdn, rtree, start_level,
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dependent) : rtree_subtree_tryread(rtree, start_level, dependent);
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#define RTREE_GET_BIAS (RTREE_HEIGHT_MAX - rtree->height)
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switch (start_level + RTREE_GET_BIAS) {
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#define RTREE_GET_SUBTREE(level) \
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case level: \
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assert(level < (RTREE_HEIGHT_MAX-1)); \
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if (!dependent && unlikely(!rtree_node_valid(node))) \
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if (!dependent && unlikely(!rtree_node_valid(node))) { \
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if (init_missing) \
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rtree_ctx->valid = false; \
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return (NULL); \
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} \
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subkey = rtree_subkey(rtree, key, level - \
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RTREE_GET_BIAS); \
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node = init_missing ? rtree_child_read(tsdn, rtree, \
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&node[subkey], level - RTREE_GET_BIAS, dependent) : \
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rtree_child_tryread(&node[subkey], dependent); \
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if (dependent || init_missing) { \
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rtree_ctx->elms[level - RTREE_GET_BIAS + 1] = \
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node; \
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} \
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/* Fall through. */
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#define RTREE_GET_LEAF(level) \
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case level: \
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assert(level == (RTREE_HEIGHT_MAX-1)); \
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if (!dependent && unlikely(!rtree_node_valid(node))) \
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if (!dependent && unlikely(!rtree_node_valid(node))) { \
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if (init_missing) \
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rtree_ctx->valid = false; \
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return (NULL); \
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} \
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subkey = rtree_subkey(rtree, key, level - \
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RTREE_GET_BIAS); \
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/* \
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* node is a leaf, so it contains values rather than \
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* child pointers. \
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*/ \
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return (&node[subkey]);
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node = &node[subkey]; \
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if (dependent || init_missing) { \
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rtree_ctx->elms[level - RTREE_GET_BIAS + 1] = \
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node; \
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} \
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return (node);
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#if RTREE_HEIGHT_MAX > 1
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RTREE_GET_SUBTREE(0)
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#endif
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@@ -387,14 +497,15 @@ rtree_elm_lookup(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent,
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}
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JEMALLOC_INLINE bool
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rtree_write(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, const extent_t *extent)
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rtree_write(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx, uintptr_t key,
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const extent_t *extent)
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{
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rtree_elm_t *elm;
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assert(extent != NULL); /* Use rtree_clear() for this case. */
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assert(((uintptr_t)extent & (uintptr_t)0x1) == (uintptr_t)0x0);
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elm = rtree_elm_lookup(tsdn, rtree, key, false, true);
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elm = rtree_elm_lookup(tsdn, rtree, rtree_ctx, key, false, true);
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if (elm == NULL)
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return (true);
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assert(rtree_elm_read(elm, false) == NULL);
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@@ -404,11 +515,12 @@ rtree_write(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, const extent_t *extent)
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}
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JEMALLOC_ALWAYS_INLINE extent_t *
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rtree_read(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent)
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rtree_read(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx, uintptr_t key,
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bool dependent)
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{
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rtree_elm_t *elm;
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elm = rtree_elm_lookup(tsdn, rtree, key, dependent, false);
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elm = rtree_elm_lookup(tsdn, rtree, rtree_ctx, key, dependent, false);
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if (elm == NULL)
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return (NULL);
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@@ -416,12 +528,13 @@ rtree_read(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent)
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}
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JEMALLOC_INLINE rtree_elm_t *
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rtree_elm_acquire(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key, bool dependent,
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bool init_missing)
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rtree_elm_acquire(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx,
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uintptr_t key, bool dependent, bool init_missing)
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{
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rtree_elm_t *elm;
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elm = rtree_elm_lookup(tsdn, rtree, key, dependent, init_missing);
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elm = rtree_elm_lookup(tsdn, rtree, rtree_ctx, key, dependent,
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init_missing);
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if (!dependent && elm == NULL)
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return (NULL);
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{
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@@ -481,11 +594,11 @@ rtree_elm_release(tsdn_t *tsdn, const rtree_t *rtree, rtree_elm_t *elm)
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}
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JEMALLOC_INLINE void
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rtree_clear(tsdn_t *tsdn, rtree_t *rtree, uintptr_t key)
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rtree_clear(tsdn_t *tsdn, rtree_t *rtree, rtree_ctx_t *rtree_ctx, uintptr_t key)
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{
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rtree_elm_t *elm;
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elm = rtree_elm_acquire(tsdn, rtree, key, true, false);
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elm = rtree_elm_acquire(tsdn, rtree, rtree_ctx, key, true, false);
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rtree_elm_write_acquired(tsdn, rtree, elm, NULL);
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rtree_elm_release(tsdn, rtree, elm);
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}
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Jason Evans