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authorKay Sievers <kay@vrfy.org>2015-06-09 14:27:33 +0200
committerKay Sievers <kay@vrfy.org>2015-06-11 10:52:46 +0200
commita095315b3c31f7a419baceac82c26c3c5ac0cd12 (patch)
treea5a70cf5b5430c0a6873311437b8345d7071f249 /src/shared/hashmap.c
parent37c47e5e5b8e47dd886ed6e8355b1203082b4a3e (diff)
build-sys: split internal basic/ library from shared/
basic/ can be used by everything cannot use anything outside of basic/ libsystemd/ can use basic/ cannot use shared/ shared/ can use libsystemd/
Diffstat (limited to 'src/shared/hashmap.c')
-rw-r--r--src/shared/hashmap.c1854
1 files changed, 0 insertions, 1854 deletions
diff --git a/src/shared/hashmap.c b/src/shared/hashmap.c
deleted file mode 100644
index 20d599d04b..0000000000
--- a/src/shared/hashmap.c
+++ /dev/null
@@ -1,1854 +0,0 @@
-/*-*- Mode: C; c-basic-offset: 8; indent-tabs-mode: nil -*-*/
-
-/***
- This file is part of systemd.
-
- Copyright 2010 Lennart Poettering
- Copyright 2014 Michal Schmidt
-
- systemd is free software; you can redistribute it and/or modify it
- under the terms of the GNU Lesser General Public License as published by
- the Free Software Foundation; either version 2.1 of the License, or
- (at your option) any later version.
-
- systemd is distributed in the hope that it will be useful, but
- WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
- Lesser General Public License for more details.
-
- You should have received a copy of the GNU Lesser General Public License
- along with systemd; If not, see <http://www.gnu.org/licenses/>.
-***/
-
-#include <stdlib.h>
-#include <errno.h>
-
-#include "util.h"
-#include "hashmap.h"
-#include "set.h"
-#include "macro.h"
-#include "siphash24.h"
-#include "strv.h"
-#include "mempool.h"
-#include "random-util.h"
-
-#ifdef ENABLE_DEBUG_HASHMAP
-#include "list.h"
-#endif
-
-/*
- * Implementation of hashmaps.
- * Addressing: open
- * - uses less RAM compared to closed addressing (chaining), because
- * our entries are small (especially in Sets, which tend to contain
- * the majority of entries in systemd).
- * Collision resolution: Robin Hood
- * - tends to equalize displacement of entries from their optimal buckets.
- * Probe sequence: linear
- * - though theoretically worse than random probing/uniform hashing/double
- * hashing, it is good for cache locality.
- *
- * References:
- * Celis, P. 1986. Robin Hood Hashing.
- * Ph.D. Dissertation. University of Waterloo, Waterloo, Ont., Canada, Canada.
- * https://cs.uwaterloo.ca/research/tr/1986/CS-86-14.pdf
- * - The results are derived for random probing. Suggests deletion with
- * tombstones and two mean-centered search methods. None of that works
- * well for linear probing.
- *
- * Janson, S. 2005. Individual displacements for linear probing hashing with different insertion policies.
- * ACM Trans. Algorithms 1, 2 (October 2005), 177-213.
- * DOI=10.1145/1103963.1103964 http://doi.acm.org/10.1145/1103963.1103964
- * http://www.math.uu.se/~svante/papers/sj157.pdf
- * - Applies to Robin Hood with linear probing. Contains remarks on
- * the unsuitability of mean-centered search with linear probing.
- *
- * Viola, A. 2005. Exact distribution of individual displacements in linear probing hashing.
- * ACM Trans. Algorithms 1, 2 (October 2005), 214-242.
- * DOI=10.1145/1103963.1103965 http://doi.acm.org/10.1145/1103963.1103965
- * - Similar to Janson. Note that Viola writes about C_{m,n} (number of probes
- * in a successful search), and Janson writes about displacement. C = d + 1.
- *
- * Goossaert, E. 2013. Robin Hood hashing: backward shift deletion.
- * http://codecapsule.com/2013/11/17/robin-hood-hashing-backward-shift-deletion/
- * - Explanation of backward shift deletion with pictures.
- *
- * Khuong, P. 2013. The Other Robin Hood Hashing.
- * http://www.pvk.ca/Blog/2013/11/26/the-other-robin-hood-hashing/
- * - Short summary of random vs. linear probing, and tombstones vs. backward shift.
- */
-
-/*
- * XXX Ideas for improvement:
- * For unordered hashmaps, randomize iteration order, similarly to Perl:
- * http://blog.booking.com/hardening-perls-hash-function.html
- */
-
-/* INV_KEEP_FREE = 1 / (1 - max_load_factor)
- * e.g. 1 / (1 - 0.8) = 5 ... keep one fifth of the buckets free. */
-#define INV_KEEP_FREE 5U
-
-/* Fields common to entries of all hashmap/set types */
-struct hashmap_base_entry {
- const void *key;
-};
-
-/* Entry types for specific hashmap/set types
- * hashmap_base_entry must be at the beginning of each entry struct. */
-
-struct plain_hashmap_entry {
- struct hashmap_base_entry b;
- void *value;
-};
-
-struct ordered_hashmap_entry {
- struct plain_hashmap_entry p;
- unsigned iterate_next, iterate_previous;
-};
-
-struct set_entry {
- struct hashmap_base_entry b;
-};
-
-/* In several functions it is advantageous to have the hash table extended
- * virtually by a couple of additional buckets. We reserve special index values
- * for these "swap" buckets. */
-#define _IDX_SWAP_BEGIN (UINT_MAX - 3)
-#define IDX_PUT (_IDX_SWAP_BEGIN + 0)
-#define IDX_TMP (_IDX_SWAP_BEGIN + 1)
-#define _IDX_SWAP_END (_IDX_SWAP_BEGIN + 2)
-
-#define IDX_FIRST (UINT_MAX - 1) /* special index for freshly initialized iterators */
-#define IDX_NIL UINT_MAX /* special index value meaning "none" or "end" */
-
-assert_cc(IDX_FIRST == _IDX_SWAP_END);
-assert_cc(IDX_FIRST == _IDX_ITERATOR_FIRST);
-
-/* Storage space for the "swap" buckets.
- * All entry types can fit into a ordered_hashmap_entry. */
-struct swap_entries {
- struct ordered_hashmap_entry e[_IDX_SWAP_END - _IDX_SWAP_BEGIN];
-};
-
-/* Distance from Initial Bucket */
-typedef uint8_t dib_raw_t;
-#define DIB_RAW_OVERFLOW ((dib_raw_t)0xfdU) /* indicates DIB value is greater than representable */
-#define DIB_RAW_REHASH ((dib_raw_t)0xfeU) /* entry yet to be rehashed during in-place resize */
-#define DIB_RAW_FREE ((dib_raw_t)0xffU) /* a free bucket */
-#define DIB_RAW_INIT ((char)DIB_RAW_FREE) /* a byte to memset a DIB store with when initializing */
-
-#define DIB_FREE UINT_MAX
-
-#ifdef ENABLE_DEBUG_HASHMAP
-struct hashmap_debug_info {
- LIST_FIELDS(struct hashmap_debug_info, debug_list);
- unsigned max_entries; /* high watermark of n_entries */
-
- /* who allocated this hashmap */
- int line;
- const char *file;
- const char *func;
-
- /* fields to detect modification while iterating */
- unsigned put_count; /* counts puts into the hashmap */
- unsigned rem_count; /* counts removals from hashmap */
- unsigned last_rem_idx; /* remembers last removal index */
-};
-
-/* Tracks all existing hashmaps. Get at it from gdb. See sd_dump_hashmaps.py */
-static LIST_HEAD(struct hashmap_debug_info, hashmap_debug_list);
-
-#define HASHMAP_DEBUG_FIELDS struct hashmap_debug_info debug;
-
-#else /* !ENABLE_DEBUG_HASHMAP */
-#define HASHMAP_DEBUG_FIELDS
-#endif /* ENABLE_DEBUG_HASHMAP */
-
-enum HashmapType {
- HASHMAP_TYPE_PLAIN,
- HASHMAP_TYPE_ORDERED,
- HASHMAP_TYPE_SET,
- _HASHMAP_TYPE_MAX
-};
-
-struct _packed_ indirect_storage {
- char *storage; /* where buckets and DIBs are stored */
- uint8_t hash_key[HASH_KEY_SIZE]; /* hash key; changes during resize */
-
- unsigned n_entries; /* number of stored entries */
- unsigned n_buckets; /* number of buckets */
-
- unsigned idx_lowest_entry; /* Index below which all buckets are free.
- Makes "while(hashmap_steal_first())" loops
- O(n) instead of O(n^2) for unordered hashmaps. */
- uint8_t _pad[3]; /* padding for the whole HashmapBase */
- /* The bitfields in HashmapBase complete the alignment of the whole thing. */
-};
-
-struct direct_storage {
- /* This gives us 39 bytes on 64bit, or 35 bytes on 32bit.
- * That's room for 4 set_entries + 4 DIB bytes + 3 unused bytes on 64bit,
- * or 7 set_entries + 7 DIB bytes + 0 unused bytes on 32bit. */
- char storage[sizeof(struct indirect_storage)];
-};
-
-#define DIRECT_BUCKETS(entry_t) \
- (sizeof(struct direct_storage) / (sizeof(entry_t) + sizeof(dib_raw_t)))
-
-/* We should be able to store at least one entry directly. */
-assert_cc(DIRECT_BUCKETS(struct ordered_hashmap_entry) >= 1);
-
-/* We have 3 bits for n_direct_entries. */
-assert_cc(DIRECT_BUCKETS(struct set_entry) < (1 << 3));
-
-/* Hashmaps with directly stored entries all use this shared hash key.
- * It's no big deal if the key is guessed, because there can be only
- * a handful of directly stored entries in a hashmap. When a hashmap
- * outgrows direct storage, it gets its own key for indirect storage. */
-static uint8_t shared_hash_key[HASH_KEY_SIZE];
-static bool shared_hash_key_initialized;
-
-/* Fields that all hashmap/set types must have */
-struct HashmapBase {
- const struct hash_ops *hash_ops; /* hash and compare ops to use */
-
- union _packed_ {
- struct indirect_storage indirect; /* if has_indirect */
- struct direct_storage direct; /* if !has_indirect */
- };
-
- enum HashmapType type:2; /* HASHMAP_TYPE_* */
- bool has_indirect:1; /* whether indirect storage is used */
- unsigned n_direct_entries:3; /* Number of entries in direct storage.
- * Only valid if !has_indirect. */
- bool from_pool:1; /* whether was allocated from mempool */
- HASHMAP_DEBUG_FIELDS /* optional hashmap_debug_info */
-};
-
-/* Specific hash types
- * HashmapBase must be at the beginning of each hashmap struct. */
-
-struct Hashmap {
- struct HashmapBase b;
-};
-
-struct OrderedHashmap {
- struct HashmapBase b;
- unsigned iterate_list_head, iterate_list_tail;
-};
-
-struct Set {
- struct HashmapBase b;
-};
-
-DEFINE_MEMPOOL(hashmap_pool, Hashmap, 8);
-DEFINE_MEMPOOL(ordered_hashmap_pool, OrderedHashmap, 8);
-/* No need for a separate Set pool */
-assert_cc(sizeof(Hashmap) == sizeof(Set));
-
-struct hashmap_type_info {
- size_t head_size;
- size_t entry_size;
- struct mempool *mempool;
- unsigned n_direct_buckets;
-};
-
-static const struct hashmap_type_info hashmap_type_info[_HASHMAP_TYPE_MAX] = {
- [HASHMAP_TYPE_PLAIN] = {
- .head_size = sizeof(Hashmap),
- .entry_size = sizeof(struct plain_hashmap_entry),
- .mempool = &hashmap_pool,
- .n_direct_buckets = DIRECT_BUCKETS(struct plain_hashmap_entry),
- },
- [HASHMAP_TYPE_ORDERED] = {
- .head_size = sizeof(OrderedHashmap),
- .entry_size = sizeof(struct ordered_hashmap_entry),
- .mempool = &ordered_hashmap_pool,
- .n_direct_buckets = DIRECT_BUCKETS(struct ordered_hashmap_entry),
- },
- [HASHMAP_TYPE_SET] = {
- .head_size = sizeof(Set),
- .entry_size = sizeof(struct set_entry),
- .mempool = &hashmap_pool,
- .n_direct_buckets = DIRECT_BUCKETS(struct set_entry),
- },
-};
-
-unsigned long string_hash_func(const void *p, const uint8_t hash_key[HASH_KEY_SIZE]) {
- uint64_t u;
- siphash24((uint8_t*) &u, p, strlen(p), hash_key);
- return (unsigned long) u;
-}
-
-int string_compare_func(const void *a, const void *b) {
- return strcmp(a, b);
-}
-
-const struct hash_ops string_hash_ops = {
- .hash = string_hash_func,
- .compare = string_compare_func
-};
-
-unsigned long trivial_hash_func(const void *p, const uint8_t hash_key[HASH_KEY_SIZE]) {
- uint64_t u;
- siphash24((uint8_t*) &u, &p, sizeof(p), hash_key);
- return (unsigned long) u;
-}
-
-int trivial_compare_func(const void *a, const void *b) {
- return a < b ? -1 : (a > b ? 1 : 0);
-}
-
-const struct hash_ops trivial_hash_ops = {
- .hash = trivial_hash_func,
- .compare = trivial_compare_func
-};
-
-unsigned long uint64_hash_func(const void *p, const uint8_t hash_key[HASH_KEY_SIZE]) {
- uint64_t u;
- siphash24((uint8_t*) &u, p, sizeof(uint64_t), hash_key);
- return (unsigned long) u;
-}
-
-int uint64_compare_func(const void *_a, const void *_b) {
- uint64_t a, b;
- a = *(const uint64_t*) _a;
- b = *(const uint64_t*) _b;
- return a < b ? -1 : (a > b ? 1 : 0);
-}
-
-const struct hash_ops uint64_hash_ops = {
- .hash = uint64_hash_func,
- .compare = uint64_compare_func
-};
-
-#if SIZEOF_DEV_T != 8
-unsigned long devt_hash_func(const void *p, const uint8_t hash_key[HASH_KEY_SIZE]) {
- uint64_t u;
- siphash24((uint8_t*) &u, p, sizeof(dev_t), hash_key);
- return (unsigned long) u;
-}
-
-int devt_compare_func(const void *_a, const void *_b) {
- dev_t a, b;
- a = *(const dev_t*) _a;
- b = *(const dev_t*) _b;
- return a < b ? -1 : (a > b ? 1 : 0);
-}
-
-const struct hash_ops devt_hash_ops = {
- .hash = devt_hash_func,
- .compare = devt_compare_func
-};
-#endif
-
-static unsigned n_buckets(HashmapBase *h) {
- return h->has_indirect ? h->indirect.n_buckets
- : hashmap_type_info[h->type].n_direct_buckets;
-}
-
-static unsigned n_entries(HashmapBase *h) {
- return h->has_indirect ? h->indirect.n_entries
- : h->n_direct_entries;
-}
-
-static void n_entries_inc(HashmapBase *h) {
- if (h->has_indirect)
- h->indirect.n_entries++;
- else
- h->n_direct_entries++;
-}
-
-static void n_entries_dec(HashmapBase *h) {
- if (h->has_indirect)
- h->indirect.n_entries--;
- else
- h->n_direct_entries--;
-}
-
-static char *storage_ptr(HashmapBase *h) {
- return h->has_indirect ? h->indirect.storage
- : h->direct.storage;
-}
-
-static uint8_t *hash_key(HashmapBase *h) {
- return h->has_indirect ? h->indirect.hash_key
- : shared_hash_key;
-}
-
-static unsigned base_bucket_hash(HashmapBase *h, const void *p) {
- return (unsigned) (h->hash_ops->hash(p, hash_key(h)) % n_buckets(h));
-}
-#define bucket_hash(h, p) base_bucket_hash(HASHMAP_BASE(h), p)
-
-static void get_hash_key(uint8_t hash_key[HASH_KEY_SIZE], bool reuse_is_ok) {
- static uint8_t current[HASH_KEY_SIZE];
- static bool current_initialized = false;
-
- /* Returns a hash function key to use. In order to keep things
- * fast we will not generate a new key each time we allocate a
- * new hash table. Instead, we'll just reuse the most recently
- * generated one, except if we never generated one or when we
- * are rehashing an entire hash table because we reached a
- * fill level */
-
- if (!current_initialized || !reuse_is_ok) {
- random_bytes(current, sizeof(current));
- current_initialized = true;
- }
-
- memcpy(hash_key, current, sizeof(current));
-}
-
-static struct hashmap_base_entry *bucket_at(HashmapBase *h, unsigned idx) {
- return (struct hashmap_base_entry*)
- (storage_ptr(h) + idx * hashmap_type_info[h->type].entry_size);
-}
-
-static struct plain_hashmap_entry *plain_bucket_at(Hashmap *h, unsigned idx) {
- return (struct plain_hashmap_entry*) bucket_at(HASHMAP_BASE(h), idx);
-}
-
-static struct ordered_hashmap_entry *ordered_bucket_at(OrderedHashmap *h, unsigned idx) {
- return (struct ordered_hashmap_entry*) bucket_at(HASHMAP_BASE(h), idx);
-}
-
-static struct set_entry *set_bucket_at(Set *h, unsigned idx) {
- return (struct set_entry*) bucket_at(HASHMAP_BASE(h), idx);
-}
-
-static struct ordered_hashmap_entry *bucket_at_swap(struct swap_entries *swap, unsigned idx) {
- return &swap->e[idx - _IDX_SWAP_BEGIN];
-}
-
-/* Returns a pointer to the bucket at index idx.
- * Understands real indexes and swap indexes, hence "_virtual". */
-static struct hashmap_base_entry *bucket_at_virtual(HashmapBase *h, struct swap_entries *swap,
- unsigned idx) {
- if (idx < _IDX_SWAP_BEGIN)
- return bucket_at(h, idx);
-
- if (idx < _IDX_SWAP_END)
- return &bucket_at_swap(swap, idx)->p.b;
-
- assert_not_reached("Invalid index");
-}
-
-static dib_raw_t *dib_raw_ptr(HashmapBase *h) {
- return (dib_raw_t*)
- (storage_ptr(h) + hashmap_type_info[h->type].entry_size * n_buckets(h));
-}
-
-static unsigned bucket_distance(HashmapBase *h, unsigned idx, unsigned from) {
- return idx >= from ? idx - from
- : n_buckets(h) + idx - from;
-}
-
-static unsigned bucket_calculate_dib(HashmapBase *h, unsigned idx, dib_raw_t raw_dib) {
- unsigned initial_bucket;
-
- if (raw_dib == DIB_RAW_FREE)
- return DIB_FREE;
-
- if (_likely_(raw_dib < DIB_RAW_OVERFLOW))
- return raw_dib;
-
- /*
- * Having an overflow DIB value is very unlikely. The hash function
- * would have to be bad. For example, in a table of size 2^24 filled
- * to load factor 0.9 the maximum observed DIB is only about 60.
- * In theory (assuming I used Maxima correctly), for an infinite size
- * hash table with load factor 0.8 the probability of a given entry
- * having DIB > 40 is 1.9e-8.
- * This returns the correct DIB value by recomputing the hash value in
- * the unlikely case. XXX Hitting this case could be a hint to rehash.
- */
- initial_bucket = bucket_hash(h, bucket_at(h, idx)->key);
- return bucket_distance(h, idx, initial_bucket);
-}
-
-static void bucket_set_dib(HashmapBase *h, unsigned idx, unsigned dib) {
- dib_raw_ptr(h)[idx] = dib != DIB_FREE ? MIN(dib, DIB_RAW_OVERFLOW) : DIB_RAW_FREE;
-}
-
-static unsigned skip_free_buckets(HashmapBase *h, unsigned idx) {
- dib_raw_t *dibs;
-
- dibs = dib_raw_ptr(h);
-
- for ( ; idx < n_buckets(h); idx++)
- if (dibs[idx] != DIB_RAW_FREE)
- return idx;
-
- return IDX_NIL;
-}
-
-static void bucket_mark_free(HashmapBase *h, unsigned idx) {
- memzero(bucket_at(h, idx), hashmap_type_info[h->type].entry_size);
- bucket_set_dib(h, idx, DIB_FREE);
-}
-
-static void bucket_move_entry(HashmapBase *h, struct swap_entries *swap,
- unsigned from, unsigned to) {
- struct hashmap_base_entry *e_from, *e_to;
-
- assert(from != to);
-
- e_from = bucket_at_virtual(h, swap, from);
- e_to = bucket_at_virtual(h, swap, to);
-
- memcpy(e_to, e_from, hashmap_type_info[h->type].entry_size);
-
- if (h->type == HASHMAP_TYPE_ORDERED) {
- OrderedHashmap *lh = (OrderedHashmap*) h;
- struct ordered_hashmap_entry *le, *le_to;
-
- le_to = (struct ordered_hashmap_entry*) e_to;
-
- if (le_to->iterate_next != IDX_NIL) {
- le = (struct ordered_hashmap_entry*)
- bucket_at_virtual(h, swap, le_to->iterate_next);
- le->iterate_previous = to;
- }
-
- if (le_to->iterate_previous != IDX_NIL) {
- le = (struct ordered_hashmap_entry*)
- bucket_at_virtual(h, swap, le_to->iterate_previous);
- le->iterate_next = to;
- }
-
- if (lh->iterate_list_head == from)
- lh->iterate_list_head = to;
- if (lh->iterate_list_tail == from)
- lh->iterate_list_tail = to;
- }
-}
-
-static unsigned next_idx(HashmapBase *h, unsigned idx) {
- return (idx + 1U) % n_buckets(h);
-}
-
-static unsigned prev_idx(HashmapBase *h, unsigned idx) {
- return (n_buckets(h) + idx - 1U) % n_buckets(h);
-}
-
-static void *entry_value(HashmapBase *h, struct hashmap_base_entry *e) {
- switch (h->type) {
-
- case HASHMAP_TYPE_PLAIN:
- case HASHMAP_TYPE_ORDERED:
- return ((struct plain_hashmap_entry*)e)->value;
-
- case HASHMAP_TYPE_SET:
- return (void*) e->key;
-
- default:
- assert_not_reached("Unknown hashmap type");
- }
-}
-
-static void base_remove_entry(HashmapBase *h, unsigned idx) {
- unsigned left, right, prev, dib;
- dib_raw_t raw_dib, *dibs;
-
- dibs = dib_raw_ptr(h);
- assert(dibs[idx] != DIB_RAW_FREE);
-
-#ifdef ENABLE_DEBUG_HASHMAP
- h->debug.rem_count++;
- h->debug.last_rem_idx = idx;
-#endif
-
- left = idx;
- /* Find the stop bucket ("right"). It is either free or has DIB == 0. */
- for (right = next_idx(h, left); ; right = next_idx(h, right)) {
- raw_dib = dibs[right];
- if (raw_dib == 0 || raw_dib == DIB_RAW_FREE)
- break;
-
- /* The buckets are not supposed to be all occupied and with DIB > 0.
- * That would mean we could make everyone better off by shifting them
- * backward. This scenario is impossible. */
- assert(left != right);
- }
-
- if (h->type == HASHMAP_TYPE_ORDERED) {
- OrderedHashmap *lh = (OrderedHashmap*) h;
- struct ordered_hashmap_entry *le = ordered_bucket_at(lh, idx);
-
- if (le->iterate_next != IDX_NIL)
- ordered_bucket_at(lh, le->iterate_next)->iterate_previous = le->iterate_previous;
- else
- lh->iterate_list_tail = le->iterate_previous;
-
- if (le->iterate_previous != IDX_NIL)
- ordered_bucket_at(lh, le->iterate_previous)->iterate_next = le->iterate_next;
- else
- lh->iterate_list_head = le->iterate_next;
- }
-
- /* Now shift all buckets in the interval (left, right) one step backwards */
- for (prev = left, left = next_idx(h, left); left != right;
- prev = left, left = next_idx(h, left)) {
- dib = bucket_calculate_dib(h, left, dibs[left]);
- assert(dib != 0);
- bucket_move_entry(h, NULL, left, prev);
- bucket_set_dib(h, prev, dib - 1);
- }
-
- bucket_mark_free(h, prev);
- n_entries_dec(h);
-}
-#define remove_entry(h, idx) base_remove_entry(HASHMAP_BASE(h), idx)
-
-static unsigned hashmap_iterate_in_insertion_order(OrderedHashmap *h, Iterator *i) {
- struct ordered_hashmap_entry *e;
- unsigned idx;
-
- assert(h);
- assert(i);
-
- if (i->idx == IDX_NIL)
- goto at_end;
-
- if (i->idx == IDX_FIRST && h->iterate_list_head == IDX_NIL)
- goto at_end;
-
- if (i->idx == IDX_FIRST) {
- idx = h->iterate_list_head;
- e = ordered_bucket_at(h, idx);
- } else {
- idx = i->idx;
- e = ordered_bucket_at(h, idx);
- /*
- * We allow removing the current entry while iterating, but removal may cause
- * a backward shift. The next entry may thus move one bucket to the left.
- * To detect when it happens, we remember the key pointer of the entry we were
- * going to iterate next. If it does not match, there was a backward shift.
- */
- if (e->p.b.key != i->next_key) {
- idx = prev_idx(HASHMAP_BASE(h), idx);
- e = ordered_bucket_at(h, idx);
- }
- assert(e->p.b.key == i->next_key);
- }
-
-#ifdef ENABLE_DEBUG_HASHMAP
- i->prev_idx = idx;
-#endif
-
- if (e->iterate_next != IDX_NIL) {
- struct ordered_hashmap_entry *n;
- i->idx = e->iterate_next;
- n = ordered_bucket_at(h, i->idx);
- i->next_key = n->p.b.key;
- } else
- i->idx = IDX_NIL;
-
- return idx;
-
-at_end:
- i->idx = IDX_NIL;
- return IDX_NIL;
-}
-
-static unsigned hashmap_iterate_in_internal_order(HashmapBase *h, Iterator *i) {
- unsigned idx;
-
- assert(h);
- assert(i);
-
- if (i->idx == IDX_NIL)
- goto at_end;
-
- if (i->idx == IDX_FIRST) {
- /* fast forward to the first occupied bucket */
- if (h->has_indirect) {
- i->idx = skip_free_buckets(h, h->indirect.idx_lowest_entry);
- h->indirect.idx_lowest_entry = i->idx;
- } else
- i->idx = skip_free_buckets(h, 0);
-
- if (i->idx == IDX_NIL)
- goto at_end;
- } else {
- struct hashmap_base_entry *e;
-
- assert(i->idx > 0);
-
- e = bucket_at(h, i->idx);
- /*
- * We allow removing the current entry while iterating, but removal may cause
- * a backward shift. The next entry may thus move one bucket to the left.
- * To detect when it happens, we remember the key pointer of the entry we were
- * going to iterate next. If it does not match, there was a backward shift.
- */
- if (e->key != i->next_key)
- e = bucket_at(h, --i->idx);
-
- assert(e->key == i->next_key);
- }
-
- idx = i->idx;
-#ifdef ENABLE_DEBUG_HASHMAP
- i->prev_idx = idx;
-#endif
-
- i->idx = skip_free_buckets(h, i->idx + 1);
- if (i->idx != IDX_NIL)
- i->next_key = bucket_at(h, i->idx)->key;
- else
- i->idx = IDX_NIL;
-
- return idx;
-
-at_end:
- i->idx = IDX_NIL;
- return IDX_NIL;
-}
-
-static unsigned hashmap_iterate_entry(HashmapBase *h, Iterator *i) {
- if (!h) {
- i->idx = IDX_NIL;
- return IDX_NIL;
- }
-
-#ifdef ENABLE_DEBUG_HASHMAP
- if (i->idx == IDX_FIRST) {
- i->put_count = h->debug.put_count;
- i->rem_count = h->debug.rem_count;
- } else {
- /* While iterating, must not add any new entries */
- assert(i->put_count == h->debug.put_count);
- /* ... or remove entries other than the current one */
- assert(i->rem_count == h->debug.rem_count ||
- (i->rem_count == h->debug.rem_count - 1 &&
- i->prev_idx == h->debug.last_rem_idx));
- /* Reset our removals counter */
- i->rem_count = h->debug.rem_count;
- }
-#endif
-
- return h->type == HASHMAP_TYPE_ORDERED ? hashmap_iterate_in_insertion_order((OrderedHashmap*) h, i)
- : hashmap_iterate_in_internal_order(h, i);
-}
-
-void *internal_hashmap_iterate(HashmapBase *h, Iterator *i, const void **key) {
- struct hashmap_base_entry *e;
- void *data;
- unsigned idx;
-
- idx = hashmap_iterate_entry(h, i);
- if (idx == IDX_NIL) {
- if (key)
- *key = NULL;
-
- return NULL;
- }
-
- e = bucket_at(h, idx);
- data = entry_value(h, e);
- if (key)
- *key = e->key;
-
- return data;
-}
-
-void *set_iterate(Set *s, Iterator *i) {
- return internal_hashmap_iterate(HASHMAP_BASE(s), i, NULL);
-}
-
-#define HASHMAP_FOREACH_IDX(idx, h, i) \
- for ((i) = ITERATOR_FIRST, (idx) = hashmap_iterate_entry((h), &(i)); \
- (idx != IDX_NIL); \
- (idx) = hashmap_iterate_entry((h), &(i)))
-
-static void reset_direct_storage(HashmapBase *h) {
- const struct hashmap_type_info *hi = &hashmap_type_info[h->type];
- void *p;
-
- assert(!h->has_indirect);
-
- p = mempset(h->direct.storage, 0, hi->entry_size * hi->n_direct_buckets);
- memset(p, DIB_RAW_INIT, sizeof(dib_raw_t) * hi->n_direct_buckets);
-}
-
-static struct HashmapBase *hashmap_base_new(const struct hash_ops *hash_ops, enum HashmapType type HASHMAP_DEBUG_PARAMS) {
- HashmapBase *h;
- const struct hashmap_type_info *hi = &hashmap_type_info[type];
- bool use_pool;
-
- use_pool = is_main_thread();
-
- h = use_pool ? mempool_alloc0_tile(hi->mempool) : malloc0(hi->head_size);
-
- if (!h)
- return NULL;
-
- h->type = type;
- h->from_pool = use_pool;
- h->hash_ops = hash_ops ? hash_ops : &trivial_hash_ops;
-
- if (type == HASHMAP_TYPE_ORDERED) {
- OrderedHashmap *lh = (OrderedHashmap*)h;
- lh->iterate_list_head = lh->iterate_list_tail = IDX_NIL;
- }
-
- reset_direct_storage(h);
-
- if (!shared_hash_key_initialized) {
- random_bytes(shared_hash_key, sizeof(shared_hash_key));
- shared_hash_key_initialized= true;
- }
-
-#ifdef ENABLE_DEBUG_HASHMAP
- LIST_PREPEND(debug_list, hashmap_debug_list, &h->debug);
- h->debug.func = func;
- h->debug.file = file;
- h->debug.line = line;
-#endif
-
- return h;
-}
-
-Hashmap *internal_hashmap_new(const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return (Hashmap*) hashmap_base_new(hash_ops, HASHMAP_TYPE_PLAIN HASHMAP_DEBUG_PASS_ARGS);
-}
-
-OrderedHashmap *internal_ordered_hashmap_new(const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return (OrderedHashmap*) hashmap_base_new(hash_ops, HASHMAP_TYPE_ORDERED HASHMAP_DEBUG_PASS_ARGS);
-}
-
-Set *internal_set_new(const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return (Set*) hashmap_base_new(hash_ops, HASHMAP_TYPE_SET HASHMAP_DEBUG_PASS_ARGS);
-}
-
-static int hashmap_base_ensure_allocated(HashmapBase **h, const struct hash_ops *hash_ops,
- enum HashmapType type HASHMAP_DEBUG_PARAMS) {
- HashmapBase *q;
-
- assert(h);
-
- if (*h)
- return 0;
-
- q = hashmap_base_new(hash_ops, type HASHMAP_DEBUG_PASS_ARGS);
- if (!q)
- return -ENOMEM;
-
- *h = q;
- return 0;
-}
-
-int internal_hashmap_ensure_allocated(Hashmap **h, const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return hashmap_base_ensure_allocated((HashmapBase**)h, hash_ops, HASHMAP_TYPE_PLAIN HASHMAP_DEBUG_PASS_ARGS);
-}
-
-int internal_ordered_hashmap_ensure_allocated(OrderedHashmap **h, const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return hashmap_base_ensure_allocated((HashmapBase**)h, hash_ops, HASHMAP_TYPE_ORDERED HASHMAP_DEBUG_PASS_ARGS);
-}
-
-int internal_set_ensure_allocated(Set **s, const struct hash_ops *hash_ops HASHMAP_DEBUG_PARAMS) {
- return hashmap_base_ensure_allocated((HashmapBase**)s, hash_ops, HASHMAP_TYPE_SET HASHMAP_DEBUG_PASS_ARGS);
-}
-
-static void hashmap_free_no_clear(HashmapBase *h) {
- assert(!h->has_indirect);
- assert(!h->n_direct_entries);
-
-#ifdef ENABLE_DEBUG_HASHMAP
- LIST_REMOVE(debug_list, hashmap_debug_list, &h->debug);
-#endif
-
- if (h->from_pool)
- mempool_free_tile(hashmap_type_info[h->type].mempool, h);
- else
- free(h);
-}
-
-HashmapBase *internal_hashmap_free(HashmapBase *h) {
-
- /* Free the hashmap, but nothing in it */
-
- if (h) {
- internal_hashmap_clear(h);
- hashmap_free_no_clear(h);
- }
-
- return NULL;
-}
-
-HashmapBase *internal_hashmap_free_free(HashmapBase *h) {
-
- /* Free the hashmap and all data objects in it, but not the
- * keys */
-
- if (h) {
- internal_hashmap_clear_free(h);
- hashmap_free_no_clear(h);
- }
-
- return NULL;
-}
-
-Hashmap *hashmap_free_free_free(Hashmap *h) {
-
- /* Free the hashmap and all data and key objects in it */
-
- if (h) {
- hashmap_clear_free_free(h);
- hashmap_free_no_clear(HASHMAP_BASE(h));
- }
-
- return NULL;
-}
-
-void internal_hashmap_clear(HashmapBase *h) {
- if (!h)
- return;
-
- if (h->has_indirect) {
- free(h->indirect.storage);
- h->has_indirect = false;
- }
-
- h->n_direct_entries = 0;
- reset_direct_storage(h);
-
- if (h->type == HASHMAP_TYPE_ORDERED) {
- OrderedHashmap *lh = (OrderedHashmap*) h;
- lh->iterate_list_head = lh->iterate_list_tail = IDX_NIL;
- }
-}
-
-void internal_hashmap_clear_free(HashmapBase *h) {
- unsigned idx;
-
- if (!h)
- return;
-
- for (idx = skip_free_buckets(h, 0); idx != IDX_NIL;
- idx = skip_free_buckets(h, idx + 1))
- free(entry_value(h, bucket_at(h, idx)));
-
- internal_hashmap_clear(h);
-}
-
-void hashmap_clear_free_free(Hashmap *h) {
- unsigned idx;
-
- if (!h)
- return;
-
- for (idx = skip_free_buckets(HASHMAP_BASE(h), 0); idx != IDX_NIL;
- idx = skip_free_buckets(HASHMAP_BASE(h), idx + 1)) {
- struct plain_hashmap_entry *e = plain_bucket_at(h, idx);
- free((void*)e->b.key);
- free(e->value);
- }
-
- internal_hashmap_clear(HASHMAP_BASE(h));
-}
-
-static int resize_buckets(HashmapBase *h, unsigned entries_add);
-
-/*
- * Finds an empty bucket to put an entry into, starting the scan at 'idx'.
- * Performs Robin Hood swaps as it goes. The entry to put must be placed
- * by the caller into swap slot IDX_PUT.
- * If used for in-place resizing, may leave a displaced entry in swap slot
- * IDX_PUT. Caller must rehash it next.
- * Returns: true if it left a displaced entry to rehash next in IDX_PUT,
- * false otherwise.
- */
-static bool hashmap_put_robin_hood(HashmapBase *h, unsigned idx,
- struct swap_entries *swap) {
- dib_raw_t raw_dib, *dibs;
- unsigned dib, distance;
-
-#ifdef ENABLE_DEBUG_HASHMAP
- h->debug.put_count++;
-#endif
-
- dibs = dib_raw_ptr(h);
-
- for (distance = 0; ; distance++) {
- raw_dib = dibs[idx];
- if (raw_dib == DIB_RAW_FREE || raw_dib == DIB_RAW_REHASH) {
- if (raw_dib == DIB_RAW_REHASH)
- bucket_move_entry(h, swap, idx, IDX_TMP);
-
- if (h->has_indirect && h->indirect.idx_lowest_entry > idx)
- h->indirect.idx_lowest_entry = idx;
-
- bucket_set_dib(h, idx, distance);
- bucket_move_entry(h, swap, IDX_PUT, idx);
- if (raw_dib == DIB_RAW_REHASH) {
- bucket_move_entry(h, swap, IDX_TMP, IDX_PUT);
- return true;
- }
-
- return false;
- }
-
- dib = bucket_calculate_dib(h, idx, raw_dib);
-
- if (dib < distance) {
- /* Found a wealthier entry. Go Robin Hood! */
- bucket_set_dib(h, idx, distance);
-
- /* swap the entries */
- bucket_move_entry(h, swap, idx, IDX_TMP);
- bucket_move_entry(h, swap, IDX_PUT, idx);
- bucket_move_entry(h, swap, IDX_TMP, IDX_PUT);
-
- distance = dib;
- }
-
- idx = next_idx(h, idx);
- }
-}
-
-/*
- * Puts an entry into a hashmap, boldly - no check whether key already exists.
- * The caller must place the entry (only its key and value, not link indexes)
- * in swap slot IDX_PUT.
- * Caller must ensure: the key does not exist yet in the hashmap.
- * that resize is not needed if !may_resize.
- * Returns: 1 if entry was put successfully.
- * -ENOMEM if may_resize==true and resize failed with -ENOMEM.
- * Cannot return -ENOMEM if !may_resize.
- */
-static int hashmap_base_put_boldly(HashmapBase *h, unsigned idx,
- struct swap_entries *swap, bool may_resize) {
- struct ordered_hashmap_entry *new_entry;
- int r;
-
- assert(idx < n_buckets(h));
-
- new_entry = bucket_at_swap(swap, IDX_PUT);
-
- if (may_resize) {
- r = resize_buckets(h, 1);
- if (r < 0)
- return r;
- if (r > 0)
- idx = bucket_hash(h, new_entry->p.b.key);
- }
- assert(n_entries(h) < n_buckets(h));
-
- if (h->type == HASHMAP_TYPE_ORDERED) {
- OrderedHashmap *lh = (OrderedHashmap*) h;
-
- new_entry->iterate_next = IDX_NIL;
- new_entry->iterate_previous = lh->iterate_list_tail;
-
- if (lh->iterate_list_tail != IDX_NIL) {
- struct ordered_hashmap_entry *old_tail;
-
- old_tail = ordered_bucket_at(lh, lh->iterate_list_tail);
- assert(old_tail->iterate_next == IDX_NIL);
- old_tail->iterate_next = IDX_PUT;
- }
-
- lh->iterate_list_tail = IDX_PUT;
- if (lh->iterate_list_head == IDX_NIL)
- lh->iterate_list_head = IDX_PUT;
- }
-
- assert_se(hashmap_put_robin_hood(h, idx, swap) == false);
-
- n_entries_inc(h);
-#ifdef ENABLE_DEBUG_HASHMAP
- h->debug.max_entries = MAX(h->debug.max_entries, n_entries(h));
-#endif
-
- return 1;
-}
-#define hashmap_put_boldly(h, idx, swap, may_resize) \
- hashmap_base_put_boldly(HASHMAP_BASE(h), idx, swap, may_resize)
-
-/*
- * Returns 0 if resize is not needed.
- * 1 if successfully resized.
- * -ENOMEM on allocation failure.
- */
-static int resize_buckets(HashmapBase *h, unsigned entries_add) {
- struct swap_entries swap;
- char *new_storage;
- dib_raw_t *old_dibs, *new_dibs;
- const struct hashmap_type_info *hi;
- unsigned idx, optimal_idx;
- unsigned old_n_buckets, new_n_buckets, n_rehashed, new_n_entries;
- uint8_t new_shift;
- bool rehash_next;
-
- assert(h);
-
- hi = &hashmap_type_info[h->type];
- new_n_entries = n_entries(h) + entries_add;
-
- /* overflow? */
- if (_unlikely_(new_n_entries < entries_add))
- return -ENOMEM;
-
- /* For direct storage we allow 100% load, because it's tiny. */
- if (!h->has_indirect && new_n_entries <= hi->n_direct_buckets)
- return 0;
-
- /*
- * Load factor = n/m = 1 - (1/INV_KEEP_FREE).
- * From it follows: m = n + n/(INV_KEEP_FREE - 1)
- */
- new_n_buckets = new_n_entries + new_n_entries / (INV_KEEP_FREE - 1);
- /* overflow? */
- if (_unlikely_(new_n_buckets < new_n_entries))
- return -ENOMEM;
-
- if (_unlikely_(new_n_buckets > UINT_MAX / (hi->entry_size + sizeof(dib_raw_t))))
- return -ENOMEM;
-
- old_n_buckets = n_buckets(h);
-
- if (_likely_(new_n_buckets <= old_n_buckets))
- return 0;
-
- new_shift = log2u_round_up(MAX(
- new_n_buckets * (hi->entry_size + sizeof(dib_raw_t)),
- 2 * sizeof(struct direct_storage)));
-
- /* Realloc storage (buckets and DIB array). */
- new_storage = realloc(h->has_indirect ? h->indirect.storage : NULL,
- 1U << new_shift);
- if (!new_storage)
- return -ENOMEM;
-
- /* Must upgrade direct to indirect storage. */
- if (!h->has_indirect) {
- memcpy(new_storage, h->direct.storage,
- old_n_buckets * (hi->entry_size + sizeof(dib_raw_t)));
- h->indirect.n_entries = h->n_direct_entries;
- h->indirect.idx_lowest_entry = 0;
- h->n_direct_entries = 0;
- }
-
- /* Get a new hash key. If we've just upgraded to indirect storage,
- * allow reusing a previously generated key. It's still a different key
- * from the shared one that we used for direct storage. */
- get_hash_key(h->indirect.hash_key, !h->has_indirect);
-
- h->has_indirect = true;
- h->indirect.storage = new_storage;
- h->indirect.n_buckets = (1U << new_shift) /
- (hi->entry_size + sizeof(dib_raw_t));
-
- old_dibs = (dib_raw_t*)(new_storage + hi->entry_size * old_n_buckets);
- new_dibs = dib_raw_ptr(h);
-
- /*
- * Move the DIB array to the new place, replacing valid DIB values with
- * DIB_RAW_REHASH to indicate all of the used buckets need rehashing.
- * Note: Overlap is not possible, because we have at least doubled the
- * number of buckets and dib_raw_t is smaller than any entry type.
- */
- for (idx = 0; idx < old_n_buckets; idx++) {
- assert(old_dibs[idx] != DIB_RAW_REHASH);
- new_dibs[idx] = old_dibs[idx] == DIB_RAW_FREE ? DIB_RAW_FREE
- : DIB_RAW_REHASH;
- }
-
- /* Zero the area of newly added entries (including the old DIB area) */
- memzero(bucket_at(h, old_n_buckets),
- (n_buckets(h) - old_n_buckets) * hi->entry_size);
-
- /* The upper half of the new DIB array needs initialization */
- memset(&new_dibs[old_n_buckets], DIB_RAW_INIT,
- (n_buckets(h) - old_n_buckets) * sizeof(dib_raw_t));
-
- /* Rehash entries that need it */
- n_rehashed = 0;
- for (idx = 0; idx < old_n_buckets; idx++) {
- if (new_dibs[idx] != DIB_RAW_REHASH)
- continue;
-
- optimal_idx = bucket_hash(h, bucket_at(h, idx)->key);
-
- /*
- * Not much to do if by luck the entry hashes to its current
- * location. Just set its DIB.
- */
- if (optimal_idx == idx) {
- new_dibs[idx] = 0;
- n_rehashed++;
- continue;
- }
-
- new_dibs[idx] = DIB_RAW_FREE;
- bucket_move_entry(h, &swap, idx, IDX_PUT);
- /* bucket_move_entry does not clear the source */
- memzero(bucket_at(h, idx), hi->entry_size);
-
- do {
- /*
- * Find the new bucket for the current entry. This may make
- * another entry homeless and load it into IDX_PUT.
- */
- rehash_next = hashmap_put_robin_hood(h, optimal_idx, &swap);
- n_rehashed++;
-
- /* Did the current entry displace another one? */
- if (rehash_next)
- optimal_idx = bucket_hash(h, bucket_at_swap(&swap, IDX_PUT)->p.b.key);
- } while (rehash_next);
- }
-
- assert(n_rehashed == n_entries(h));
-
- return 1;
-}
-
-/*
- * Finds an entry with a matching key
- * Returns: index of the found entry, or IDX_NIL if not found.
- */
-static unsigned base_bucket_scan(HashmapBase *h, unsigned idx, const void *key) {
- struct hashmap_base_entry *e;
- unsigned dib, distance;
- dib_raw_t *dibs = dib_raw_ptr(h);
-
- assert(idx < n_buckets(h));
-
- for (distance = 0; ; distance++) {
- if (dibs[idx] == DIB_RAW_FREE)
- return IDX_NIL;
-
- dib = bucket_calculate_dib(h, idx, dibs[idx]);
-
- if (dib < distance)
- return IDX_NIL;
- if (dib == distance) {
- e = bucket_at(h, idx);
- if (h->hash_ops->compare(e->key, key) == 0)
- return idx;
- }
-
- idx = next_idx(h, idx);
- }
-}
-#define bucket_scan(h, idx, key) base_bucket_scan(HASHMAP_BASE(h), idx, key)
-
-int hashmap_put(Hashmap *h, const void *key, void *value) {
- struct swap_entries swap;
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
-
- assert(h);
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx != IDX_NIL) {
- e = plain_bucket_at(h, idx);
- if (e->value == value)
- return 0;
- return -EEXIST;
- }
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p;
- e->b.key = key;
- e->value = value;
- return hashmap_put_boldly(h, hash, &swap, true);
-}
-
-int set_put(Set *s, const void *key) {
- struct swap_entries swap;
- struct hashmap_base_entry *e;
- unsigned hash, idx;
-
- assert(s);
-
- hash = bucket_hash(s, key);
- idx = bucket_scan(s, hash, key);
- if (idx != IDX_NIL)
- return 0;
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p.b;
- e->key = key;
- return hashmap_put_boldly(s, hash, &swap, true);
-}
-
-int hashmap_replace(Hashmap *h, const void *key, void *value) {
- struct swap_entries swap;
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
-
- assert(h);
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx != IDX_NIL) {
- e = plain_bucket_at(h, idx);
-#ifdef ENABLE_DEBUG_HASHMAP
- /* Although the key is equal, the key pointer may have changed,
- * and this would break our assumption for iterating. So count
- * this operation as incompatible with iteration. */
- if (e->b.key != key) {
- h->b.debug.put_count++;
- h->b.debug.rem_count++;
- h->b.debug.last_rem_idx = idx;
- }
-#endif
- e->b.key = key;
- e->value = value;
- return 0;
- }
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p;
- e->b.key = key;
- e->value = value;
- return hashmap_put_boldly(h, hash, &swap, true);
-}
-
-int hashmap_update(Hashmap *h, const void *key, void *value) {
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
-
- assert(h);
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return -ENOENT;
-
- e = plain_bucket_at(h, idx);
- e->value = value;
- return 0;
-}
-
-void *internal_hashmap_get(HashmapBase *h, const void *key) {
- struct hashmap_base_entry *e;
- unsigned hash, idx;
-
- if (!h)
- return NULL;
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return NULL;
-
- e = bucket_at(h, idx);
- return entry_value(h, e);
-}
-
-void *hashmap_get2(Hashmap *h, const void *key, void **key2) {
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
-
- if (!h)
- return NULL;
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return NULL;
-
- e = plain_bucket_at(h, idx);
- if (key2)
- *key2 = (void*) e->b.key;
-
- return e->value;
-}
-
-bool internal_hashmap_contains(HashmapBase *h, const void *key) {
- unsigned hash;
-
- if (!h)
- return false;
-
- hash = bucket_hash(h, key);
- return bucket_scan(h, hash, key) != IDX_NIL;
-}
-
-void *internal_hashmap_remove(HashmapBase *h, const void *key) {
- struct hashmap_base_entry *e;
- unsigned hash, idx;
- void *data;
-
- if (!h)
- return NULL;
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return NULL;
-
- e = bucket_at(h, idx);
- data = entry_value(h, e);
- remove_entry(h, idx);
-
- return data;
-}
-
-void *hashmap_remove2(Hashmap *h, const void *key, void **rkey) {
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
- void *data;
-
- if (!h) {
- if (rkey)
- *rkey = NULL;
- return NULL;
- }
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL) {
- if (rkey)
- *rkey = NULL;
- return NULL;
- }
-
- e = plain_bucket_at(h, idx);
- data = e->value;
- if (rkey)
- *rkey = (void*) e->b.key;
-
- remove_entry(h, idx);
-
- return data;
-}
-
-int hashmap_remove_and_put(Hashmap *h, const void *old_key, const void *new_key, void *value) {
- struct swap_entries swap;
- struct plain_hashmap_entry *e;
- unsigned old_hash, new_hash, idx;
-
- if (!h)
- return -ENOENT;
-
- old_hash = bucket_hash(h, old_key);
- idx = bucket_scan(h, old_hash, old_key);
- if (idx == IDX_NIL)
- return -ENOENT;
-
- new_hash = bucket_hash(h, new_key);
- if (bucket_scan(h, new_hash, new_key) != IDX_NIL)
- return -EEXIST;
-
- remove_entry(h, idx);
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p;
- e->b.key = new_key;
- e->value = value;
- assert_se(hashmap_put_boldly(h, new_hash, &swap, false) == 1);
-
- return 0;
-}
-
-int set_remove_and_put(Set *s, const void *old_key, const void *new_key) {
- struct swap_entries swap;
- struct hashmap_base_entry *e;
- unsigned old_hash, new_hash, idx;
-
- if (!s)
- return -ENOENT;
-
- old_hash = bucket_hash(s, old_key);
- idx = bucket_scan(s, old_hash, old_key);
- if (idx == IDX_NIL)
- return -ENOENT;
-
- new_hash = bucket_hash(s, new_key);
- if (bucket_scan(s, new_hash, new_key) != IDX_NIL)
- return -EEXIST;
-
- remove_entry(s, idx);
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p.b;
- e->key = new_key;
- assert_se(hashmap_put_boldly(s, new_hash, &swap, false) == 1);
-
- return 0;
-}
-
-int hashmap_remove_and_replace(Hashmap *h, const void *old_key, const void *new_key, void *value) {
- struct swap_entries swap;
- struct plain_hashmap_entry *e;
- unsigned old_hash, new_hash, idx_old, idx_new;
-
- if (!h)
- return -ENOENT;
-
- old_hash = bucket_hash(h, old_key);
- idx_old = bucket_scan(h, old_hash, old_key);
- if (idx_old == IDX_NIL)
- return -ENOENT;
-
- old_key = bucket_at(HASHMAP_BASE(h), idx_old)->key;
-
- new_hash = bucket_hash(h, new_key);
- idx_new = bucket_scan(h, new_hash, new_key);
- if (idx_new != IDX_NIL)
- if (idx_old != idx_new) {
- remove_entry(h, idx_new);
- /* Compensate for a possible backward shift. */
- if (old_key != bucket_at(HASHMAP_BASE(h), idx_old)->key)
- idx_old = prev_idx(HASHMAP_BASE(h), idx_old);
- assert(old_key == bucket_at(HASHMAP_BASE(h), idx_old)->key);
- }
-
- remove_entry(h, idx_old);
-
- e = &bucket_at_swap(&swap, IDX_PUT)->p;
- e->b.key = new_key;
- e->value = value;
- assert_se(hashmap_put_boldly(h, new_hash, &swap, false) == 1);
-
- return 0;
-}
-
-void *hashmap_remove_value(Hashmap *h, const void *key, void *value) {
- struct plain_hashmap_entry *e;
- unsigned hash, idx;
-
- if (!h)
- return NULL;
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return NULL;
-
- e = plain_bucket_at(h, idx);
- if (e->value != value)
- return NULL;
-
- remove_entry(h, idx);
-
- return value;
-}
-
-static unsigned find_first_entry(HashmapBase *h) {
- Iterator i = ITERATOR_FIRST;
-
- if (!h || !n_entries(h))
- return IDX_NIL;
-
- return hashmap_iterate_entry(h, &i);
-}
-
-void *internal_hashmap_first(HashmapBase *h) {
- unsigned idx;
-
- idx = find_first_entry(h);
- if (idx == IDX_NIL)
- return NULL;
-
- return entry_value(h, bucket_at(h, idx));
-}
-
-void *internal_hashmap_first_key(HashmapBase *h) {
- struct hashmap_base_entry *e;
- unsigned idx;
-
- idx = find_first_entry(h);
- if (idx == IDX_NIL)
- return NULL;
-
- e = bucket_at(h, idx);
- return (void*) e->key;
-}
-
-void *internal_hashmap_steal_first(HashmapBase *h) {
- struct hashmap_base_entry *e;
- void *data;
- unsigned idx;
-
- idx = find_first_entry(h);
- if (idx == IDX_NIL)
- return NULL;
-
- e = bucket_at(h, idx);
- data = entry_value(h, e);
- remove_entry(h, idx);
-
- return data;
-}
-
-void *internal_hashmap_steal_first_key(HashmapBase *h) {
- struct hashmap_base_entry *e;
- void *key;
- unsigned idx;
-
- idx = find_first_entry(h);
- if (idx == IDX_NIL)
- return NULL;
-
- e = bucket_at(h, idx);
- key = (void*) e->key;
- remove_entry(h, idx);
-
- return key;
-}
-
-unsigned internal_hashmap_size(HashmapBase *h) {
-
- if (!h)
- return 0;
-
- return n_entries(h);
-}
-
-unsigned internal_hashmap_buckets(HashmapBase *h) {
-
- if (!h)
- return 0;
-
- return n_buckets(h);
-}
-
-int internal_hashmap_merge(Hashmap *h, Hashmap *other) {
- Iterator i;
- unsigned idx;
-
- assert(h);
-
- HASHMAP_FOREACH_IDX(idx, HASHMAP_BASE(other), i) {
- struct plain_hashmap_entry *pe = plain_bucket_at(other, idx);
- int r;
-
- r = hashmap_put(h, pe->b.key, pe->value);
- if (r < 0 && r != -EEXIST)
- return r;
- }
-
- return 0;
-}
-
-int set_merge(Set *s, Set *other) {
- Iterator i;
- unsigned idx;
-
- assert(s);
-
- HASHMAP_FOREACH_IDX(idx, HASHMAP_BASE(other), i) {
- struct set_entry *se = set_bucket_at(other, idx);
- int r;
-
- r = set_put(s, se->b.key);
- if (r < 0)
- return r;
- }
-
- return 0;
-}
-
-int internal_hashmap_reserve(HashmapBase *h, unsigned entries_add) {
- int r;
-
- assert(h);
-
- r = resize_buckets(h, entries_add);
- if (r < 0)
- return r;
-
- return 0;
-}
-
-/*
- * The same as hashmap_merge(), but every new item from other is moved to h.
- * Keys already in h are skipped and stay in other.
- * Returns: 0 on success.
- * -ENOMEM on alloc failure, in which case no move has been done.
- */
-int internal_hashmap_move(HashmapBase *h, HashmapBase *other) {
- struct swap_entries swap;
- struct hashmap_base_entry *e, *n;
- Iterator i;
- unsigned idx;
- int r;
-
- assert(h);
-
- if (!other)
- return 0;
-
- assert(other->type == h->type);
-
- /*
- * This reserves buckets for the worst case, where none of other's
- * entries are yet present in h. This is preferable to risking
- * an allocation failure in the middle of the moving and having to
- * rollback or return a partial result.
- */
- r = resize_buckets(h, n_entries(other));
- if (r < 0)
- return r;
-
- HASHMAP_FOREACH_IDX(idx, other, i) {
- unsigned h_hash;
-
- e = bucket_at(other, idx);
- h_hash = bucket_hash(h, e->key);
- if (bucket_scan(h, h_hash, e->key) != IDX_NIL)
- continue;
-
- n = &bucket_at_swap(&swap, IDX_PUT)->p.b;
- n->key = e->key;
- if (h->type != HASHMAP_TYPE_SET)
- ((struct plain_hashmap_entry*) n)->value =
- ((struct plain_hashmap_entry*) e)->value;
- assert_se(hashmap_put_boldly(h, h_hash, &swap, false) == 1);
-
- remove_entry(other, idx);
- }
-
- return 0;
-}
-
-int internal_hashmap_move_one(HashmapBase *h, HashmapBase *other, const void *key) {
- struct swap_entries swap;
- unsigned h_hash, other_hash, idx;
- struct hashmap_base_entry *e, *n;
- int r;
-
- assert(h);
-
- h_hash = bucket_hash(h, key);
- if (bucket_scan(h, h_hash, key) != IDX_NIL)
- return -EEXIST;
-
- if (!other)
- return -ENOENT;
-
- assert(other->type == h->type);
-
- other_hash = bucket_hash(other, key);
- idx = bucket_scan(other, other_hash, key);
- if (idx == IDX_NIL)
- return -ENOENT;
-
- e = bucket_at(other, idx);
-
- n = &bucket_at_swap(&swap, IDX_PUT)->p.b;
- n->key = e->key;
- if (h->type != HASHMAP_TYPE_SET)
- ((struct plain_hashmap_entry*) n)->value =
- ((struct plain_hashmap_entry*) e)->value;
- r = hashmap_put_boldly(h, h_hash, &swap, true);
- if (r < 0)
- return r;
-
- remove_entry(other, idx);
- return 0;
-}
-
-HashmapBase *internal_hashmap_copy(HashmapBase *h) {
- HashmapBase *copy;
- int r;
-
- assert(h);
-
- copy = hashmap_base_new(h->hash_ops, h->type HASHMAP_DEBUG_SRC_ARGS);
- if (!copy)
- return NULL;
-
- switch (h->type) {
- case HASHMAP_TYPE_PLAIN:
- case HASHMAP_TYPE_ORDERED:
- r = hashmap_merge((Hashmap*)copy, (Hashmap*)h);
- break;
- case HASHMAP_TYPE_SET:
- r = set_merge((Set*)copy, (Set*)h);
- break;
- default:
- assert_not_reached("Unknown hashmap type");
- }
-
- if (r < 0) {
- internal_hashmap_free(copy);
- return NULL;
- }
-
- return copy;
-}
-
-char **internal_hashmap_get_strv(HashmapBase *h) {
- char **sv;
- Iterator i;
- unsigned idx, n;
-
- sv = new(char*, n_entries(h)+1);
- if (!sv)
- return NULL;
-
- n = 0;
- HASHMAP_FOREACH_IDX(idx, h, i)
- sv[n++] = entry_value(h, bucket_at(h, idx));
- sv[n] = NULL;
-
- return sv;
-}
-
-void *ordered_hashmap_next(OrderedHashmap *h, const void *key) {
- struct ordered_hashmap_entry *e;
- unsigned hash, idx;
-
- assert(key);
-
- if (!h)
- return NULL;
-
- hash = bucket_hash(h, key);
- idx = bucket_scan(h, hash, key);
- if (idx == IDX_NIL)
- return NULL;
-
- e = ordered_bucket_at(h, idx);
- if (e->iterate_next == IDX_NIL)
- return NULL;
- return ordered_bucket_at(h, e->iterate_next)->p.value;
-}
-
-int set_consume(Set *s, void *value) {
- int r;
-
- r = set_put(s, value);
- if (r <= 0)
- free(value);
-
- return r;
-}
-
-int set_put_strdup(Set *s, const char *p) {
- char *c;
- int r;
-
- assert(s);
- assert(p);
-
- c = strdup(p);
- if (!c)
- return -ENOMEM;
-
- r = set_consume(s, c);
- if (r == -EEXIST)
- return 0;
-
- return r;
-}
-
-int set_put_strdupv(Set *s, char **l) {
- int n = 0, r;
- char **i;
-
- STRV_FOREACH(i, l) {
- r = set_put_strdup(s, *i);
- if (r < 0)
- return r;
-
- n += r;
- }
-
- return n;
-}