/* ----------------------------------------------------------------------- * * * Copyright 1996-2009 The NASM Authors - All Rights Reserved * See the file AUTHORS included with the NASM distribution for * the specific copyright holders. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following * conditions are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above * copyright notice, this list of conditions and the following * disclaimer in the documentation and/or other materials provided * with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND * CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. * * ----------------------------------------------------------------------- */ /* * hashtbl.c * * Efficient dictionary hash table class. */ #include "compiler.h" #include #include #include "nasm.h" #include "hashtbl.h" #define HASH_MAX_LOAD 2 /* Higher = more memory-efficient, slower */ #define hash_calc(key) crc64(CRC64_INIT, (key)) #define hash_calci(key) crc64i(CRC64_INIT, (key)) #define hash_max_load(size) ((size) * (HASH_MAX_LOAD - 1) / HASH_MAX_LOAD) #define hash_expand(size) ((size) << 1) #define hash_mask(size) ((size) - 1) #define hash_pos(hash, mask) ((hash) & (mask)) #define hash_inc(hash, mask) ((((hash) >> 32) & (mask)) | 1) /* always odd */ #define hash_pos_next(pos, inc, mask) (((pos) + (inc)) & (mask)) static struct hash_tbl_node *alloc_table(size_t newsize) { size_t bytes = newsize * sizeof(struct hash_tbl_node); return nasm_zalloc(bytes); } void hash_init(struct hash_table *head, size_t size) { nasm_assert(is_power2(size)); head->table = alloc_table(size); head->load = 0; head->size = size; head->max_load = hash_max_load(size); } /* * Find an entry in a hash table. * * On failure, if "insert" is non-NULL, store data in that structure * which can be used to insert that node using hash_add(). * * WARNING: this data is only valid until the very next call of * hash_add(); it cannot be "saved" to a later date. * * On success, return a pointer to the "data" element of the hash * structure. */ void **hash_find(struct hash_table *head, const char *key, struct hash_insert *insert) { struct hash_tbl_node *np; struct hash_tbl_node *tbl = head->table; uint64_t hash = hash_calc(key); size_t mask = hash_mask(head->size); size_t pos = hash_pos(hash, mask); size_t inc = hash_inc(hash, mask); while ((np = &tbl[pos])->key) { if (hash == np->hash && !strcmp(key, np->key)) return &np->data; pos = hash_pos_next(pos, inc, mask); } /* Not found. Store info for insert if requested. */ if (insert) { insert->head = head; insert->hash = hash; insert->where = np; } return NULL; } /* * Same as hash_find, but for case-insensitive hashing. */ void **hash_findi(struct hash_table *head, const char *key, struct hash_insert *insert) { struct hash_tbl_node *np; struct hash_tbl_node *tbl = head->table; uint64_t hash = hash_calci(key); size_t mask = hash_mask(head->size); size_t pos = hash_pos(hash, mask); size_t inc = hash_inc(hash, mask); while ((np = &tbl[pos])->key) { if (hash == np->hash && !nasm_stricmp(key, np->key)) return &np->data; pos = hash_pos_next(pos, inc, mask); } /* Not found. Store info for insert if requested. */ if (insert) { insert->head = head; insert->hash = hash; insert->where = np; } return NULL; } /* * Insert node. Return a pointer to the "data" element of the newly * created hash node. */ void **hash_add(struct hash_insert *insert, const char *key, void *data) { struct hash_table *head = insert->head; struct hash_tbl_node *np = insert->where; /* * Insert node. We can always do this, even if we need to * rebalance immediately after. */ np->hash = insert->hash; np->key = key; np->data = data; if (++head->load > head->max_load) { /* Need to expand the table */ size_t newsize = hash_expand(head->size); struct hash_tbl_node *newtbl = alloc_table(newsize); size_t mask = hash_mask(newsize); if (head->table) { struct hash_tbl_node *op, *xp; size_t i; /* Rebalance all the entries */ for (i = 0, op = head->table; i < head->size; i++, op++) { if (op->key) { size_t pos = hash_pos(op->hash, mask); size_t inc = hash_inc(op->hash, mask); while ((xp = &newtbl[pos])->key) pos = hash_pos_next(pos, inc, mask); *xp = *op; if (op == np) np = xp; } } nasm_free(head->table); } head->table = newtbl; head->size = newsize; head->max_load = hash_max_load(newsize); } return &np->data; } /* * Iterate over all members of a hash set. For the first call, * iterator should be initialized to NULL. Returns the data pointer, * or NULL on failure. */ void *hash_iterate(const struct hash_table *head, struct hash_tbl_node **iterator, const char **key) { struct hash_tbl_node *np = *iterator; struct hash_tbl_node *ep = head->table + head->size; if (!np) { np = head->table; if (!np) return NULL; /* Uninitialized table */ } while (np < ep) { if (np->key) { *iterator = np + 1; if (key) *key = np->key; return np->data; } np++; } *iterator = NULL; if (key) *key = NULL; return NULL; } /* * Free the hash itself. Doesn't free the data elements; use * hash_iterate() to do that first, if needed. */ void hash_free(struct hash_table *head) { void *p = head->table; head->table = NULL; nasm_free(p); }