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Port over the last ht.h changes from libevent: avoid _reserved identifiers
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107f604f31
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@ -1027,7 +1027,7 @@ digestmap_set(digestmap_t *map, const char *key, void *val)
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* the hash table that we do in the unoptimized code above. (Each of
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* HT_INSERT and HT_FIND calls HT_SET_HASH and HT_FIND_P.)
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*/
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_HT_FIND_OR_INSERT(digestmap_impl, node, digestmap_entry_hash, &(map->head),
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HT_FIND_OR_INSERT_(digestmap_impl, node, digestmap_entry_hash, &(map->head),
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digestmap_entry_t, &search, ptr,
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{
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/* we found an entry. */
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@ -1041,7 +1041,7 @@ digestmap_set(digestmap_t *map, const char *key, void *val)
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tor_malloc_zero(sizeof(digestmap_entry_t));
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memcpy(newent->key, key, DIGEST_LEN);
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newent->val = val;
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_HT_FOI_INSERT(node, &(map->head), &search, newent, ptr);
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HT_FOI_INSERT_(node, &(map->head), &search, newent, ptr);
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return NULL;
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});
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#endif
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@ -1354,14 +1354,14 @@ digestmap_free(digestmap_t *map, void (*free_val)(void*))
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void
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strmap_assert_ok(const strmap_t *map)
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{
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tor_assert(!_strmap_impl_HT_REP_IS_BAD(&map->head));
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tor_assert(!strmap_impl_HT_REP_IS_BAD_(&map->head));
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}
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/** Fail with an assertion error if anything has gone wrong with the internal
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* representation of <b>map</b>. */
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void
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digestmap_assert_ok(const digestmap_t *map)
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{
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tor_assert(!_digestmap_impl_HT_REP_IS_BAD(&map->head));
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tor_assert(!digestmap_impl_HT_REP_IS_BAD_(&map->head));
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}
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/** Return true iff <b>map</b> has no entries. */
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@ -102,24 +102,24 @@ ht_string_hash(const char *s)
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}
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#ifndef HT_NO_CACHE_HASH_VALUES
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#define _HT_SET_HASH(elm, field, hashfn) \
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#define HT_SET_HASH_(elm, field, hashfn) \
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do { (elm)->field.hte_hash = hashfn(elm); } while (0)
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#define _HT_SET_HASHVAL(elm, field, val) \
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#define HT_SET_HASHVAL_(elm, field, val) \
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do { (elm)->field.hte_hash = (val); } while (0)
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#define _HT_ELT_HASH(elm, field, hashfn) \
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#define HT_ELT_HASH_(elm, field, hashfn) \
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((elm)->field.hte_hash)
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#else
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#define _HT_SET_HASH(elm, field, hashfn) \
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#define HT_SET_HASH_(elm, field, hashfn) \
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((void)0)
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#define _HT_ELT_HASH(elm, field, hashfn) \
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#define HT_ELT_HASH_(elm, field, hashfn) \
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(hashfn(elm))
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#define _HT_SET_HASHVAL(elm, field, val) \
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#define HT_SET_HASHVAL_(elm, field, val) \
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((void)0)
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#endif
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/* Helper: alias for the bucket containing 'elm'. */
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#define _HT_BUCKET(head, field, elm, hashfn) \
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((head)->hth_table[_HT_ELT_HASH(elm,field,hashfn) % head->hth_table_length])
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#define HT_BUCKET_(head, field, elm, hashfn) \
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((head)->hth_table[HT_ELT_HASH_(elm,field,hashfn) % head->hth_table_length])
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#define HT_FOREACH(x, name, head) \
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for ((x) = HT_START(name, head); \
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@ -129,7 +129,7 @@ ht_string_hash(const char *s)
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#define HT_PROTOTYPE(name, type, field, hashfn, eqfn) \
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int name##_HT_GROW(struct name *ht, unsigned min_capacity); \
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void name##_HT_CLEAR(struct name *ht); \
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int _##name##_HT_REP_IS_BAD(const struct name *ht); \
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int name##_HT_REP_IS_BAD_(const struct name *ht); \
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static INLINE void \
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name##_HT_INIT(struct name *head) { \
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head->hth_table_length = 0; \
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@ -141,12 +141,12 @@ ht_string_hash(const char *s)
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/* Helper: returns a pointer to the right location in the table \
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* 'head' to find or insert the element 'elm'. */ \
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static INLINE struct type ** \
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_##name##_HT_FIND_P(struct name *head, struct type *elm) \
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name##_HT_FIND_P_(struct name *head, struct type *elm) \
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{ \
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struct type **p; \
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if (!head->hth_table) \
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return NULL; \
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p = &_HT_BUCKET(head, field, elm, hashfn); \
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p = &HT_BUCKET_(head, field, elm, hashfn); \
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while (*p) { \
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if (eqfn(*p, elm)) \
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return p; \
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@ -161,8 +161,8 @@ ht_string_hash(const char *s)
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{ \
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struct type **p; \
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struct name *h = (struct name *) head; \
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_HT_SET_HASH(elm, field, hashfn); \
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p = _##name##_HT_FIND_P(h, elm); \
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HT_SET_HASH_(elm, field, hashfn); \
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p = name##_HT_FIND_P_(h, elm); \
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return p ? *p : NULL; \
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} \
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/* Insert the element 'elm' into the table 'head'. Do not call this \
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@ -174,8 +174,8 @@ ht_string_hash(const char *s)
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if (!head->hth_table || head->hth_n_entries >= head->hth_load_limit) \
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name##_HT_GROW(head, head->hth_n_entries+1); \
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++head->hth_n_entries; \
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_HT_SET_HASH(elm, field, hashfn); \
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p = &_HT_BUCKET(head, field, elm, hashfn); \
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HT_SET_HASH_(elm, field, hashfn); \
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p = &HT_BUCKET_(head, field, elm, hashfn); \
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elm->field.hte_next = *p; \
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*p = elm; \
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} \
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@ -188,8 +188,8 @@ ht_string_hash(const char *s)
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struct type **p, *r; \
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if (!head->hth_table || head->hth_n_entries >= head->hth_load_limit) \
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name##_HT_GROW(head, head->hth_n_entries+1); \
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_HT_SET_HASH(elm, field, hashfn); \
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p = _##name##_HT_FIND_P(head, elm); \
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HT_SET_HASH_(elm, field, hashfn); \
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p = name##_HT_FIND_P_(head, elm); \
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r = *p; \
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*p = elm; \
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if (r && (r!=elm)) { \
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@ -207,8 +207,8 @@ ht_string_hash(const char *s)
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name##_HT_REMOVE(struct name *head, struct type *elm) \
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{ \
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struct type **p, *r; \
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_HT_SET_HASH(elm, field, hashfn); \
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p = _##name##_HT_FIND_P(head,elm); \
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HT_SET_HASH_(elm, field, hashfn); \
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p = name##_HT_FIND_P_(head,elm); \
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if (!p || !*p) \
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return NULL; \
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r = *p; \
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@ -269,7 +269,7 @@ ht_string_hash(const char *s)
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if ((*elm)->field.hte_next) { \
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return &(*elm)->field.hte_next; \
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} else { \
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unsigned b = (_HT_ELT_HASH(*elm, field, hashfn) % head->hth_table_length)+1; \
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unsigned b = (HT_ELT_HASH_(*elm, field, hashfn) % head->hth_table_length)+1; \
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while (b < head->hth_table_length) { \
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if (head->hth_table[b]) \
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return &head->hth_table[b]; \
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@ -281,7 +281,7 @@ ht_string_hash(const char *s)
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static INLINE struct type ** \
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name##_HT_NEXT_RMV(struct name *head, struct type **elm) \
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{ \
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unsigned h = _HT_ELT_HASH(*elm, field, hashfn); \
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unsigned h = HT_ELT_HASH_(*elm, field, hashfn); \
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*elm = (*elm)->field.hte_next; \
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--head->hth_n_entries; \
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if (*elm) { \
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@ -338,7 +338,7 @@ ht_string_hash(const char *s)
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elm = head->hth_table[b]; \
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while (elm) { \
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next = elm->field.hte_next; \
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b2 = _HT_ELT_HASH(elm, field, hashfn) % new_len; \
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b2 = HT_ELT_HASH_(elm, field, hashfn) % new_len; \
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elm->field.hte_next = new_table[b2]; \
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new_table[b2] = elm; \
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elm = next; \
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@ -356,7 +356,7 @@ ht_string_hash(const char *s)
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for (b=0; b < head->hth_table_length; ++b) { \
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struct type *e, **pE; \
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for (pE = &new_table[b], e = *pE; e != NULL; e = *pE) { \
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b2 = _HT_ELT_HASH(e, field, hashfn) % new_len; \
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b2 = HT_ELT_HASH_(e, field, hashfn) % new_len; \
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if (b2 == b) { \
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pE = &e->field.hte_next; \
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} else { \
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@ -386,7 +386,7 @@ ht_string_hash(const char *s)
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/* Debugging helper: return false iff the representation of 'head' is \
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* internally consistent. */ \
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int \
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_##name##_HT_REP_IS_BAD(const struct name *head) \
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name##_HT_REP_IS_BAD_(const struct name *head) \
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{ \
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unsigned n, i; \
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struct type *elm; \
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@ -408,9 +408,9 @@ ht_string_hash(const char *s)
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return 5; \
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for (n = i = 0; i < head->hth_table_length; ++i) { \
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for (elm = head->hth_table[i]; elm; elm = elm->field.hte_next) { \
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if (_HT_ELT_HASH(elm, field, hashfn) != hashfn(elm)) \
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if (HT_ELT_HASH_(elm, field, hashfn) != hashfn(elm)) \
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return 1000 + i; \
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if ((_HT_ELT_HASH(elm, field, hashfn) % head->hth_table_length) != i) \
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if ((HT_ELT_HASH_(elm, field, hashfn) % head->hth_table_length) != i) \
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return 10000 + i; \
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++n; \
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} \
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@ -423,24 +423,24 @@ ht_string_hash(const char *s)
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/** Implements an over-optimized "find and insert if absent" block;
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* not meant for direct usage by typical code, or usage outside the critical
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* path.*/
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#define _HT_FIND_OR_INSERT(name, field, hashfn, head, eltype, elm, var, y, n) \
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#define HT_FIND_OR_INSERT_(name, field, hashfn, head, eltype, elm, var, y, n) \
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{ \
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struct name *_##var##_head = head; \
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struct name *var##_head_ = head; \
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struct eltype **var; \
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if (!_##var##_head->hth_table || \
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_##var##_head->hth_n_entries >= _##var##_head->hth_load_limit) \
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name##_HT_GROW(_##var##_head, _##var##_head->hth_n_entries+1); \
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_HT_SET_HASH((elm), field, hashfn); \
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var = _##name##_HT_FIND_P(_##var##_head, (elm)); \
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if (!var##_head_->hth_table || \
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var##_head_->hth_n_entries >= var##_head_->hth_load_limit) \
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name##_HT_GROW(var##_head_, var##_head_->hth_n_entries+1); \
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HT_SET_HASH_((elm), field, hashfn); \
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var = name##_HT_FIND_P_(var##_head_, (elm)); \
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if (*var) { \
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y; \
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} else { \
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n; \
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} \
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}
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#define _HT_FOI_INSERT(field, head, elm, newent, var) \
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#define HT_FOI_INSERT_(field, head, elm, newent, var) \
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{ \
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_HT_SET_HASHVAL(newent, field, (elm)->field.hte_hash); \
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HT_SET_HASHVAL_(newent, field, (elm)->field.hte_hash); \
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newent->field.hte_next = NULL; \
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*var = newent; \
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++((head)->hth_n_entries); \
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