/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 4 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is Mozilla Communicator client code, released * March 31, 1998. * * The Initial Developer of the Original Code is * Netscape Communications Corporation. * Portions created by the Initial Developer are Copyright (C) 1998 * the Initial Developer. All Rights Reserved. * * Contributor(s): * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ /* * PR hash table package. */ #include #include #include "jstypes.h" #include "jsstdint.h" #include "jsbit.h" #include "jsutil.h" /* Added by JSIFY */ #include "jshash.h" /* Added by JSIFY */ /* Compute the number of buckets in ht */ #define NBUCKETS(ht) JS_BIT(JS_HASH_BITS - (ht)->shift) /* The smallest table has 16 buckets */ #define MINBUCKETSLOG2 4 #define MINBUCKETS JS_BIT(MINBUCKETSLOG2) /* Compute the maximum entries given n buckets that we will tolerate, ~90% */ #define OVERLOADED(n) ((n) - ((n) >> 3)) /* Compute the number of entries below which we shrink the table by half */ #define UNDERLOADED(n) (((n) > MINBUCKETS) ? ((n) >> 2) : 0) /* ** Stubs for default hash allocator ops. */ static void * DefaultAllocTable(void *pool, size_t size) { return js_malloc(size); } static void DefaultFreeTable(void *pool, void *item, size_t size) { js_free(item); } static JSHashEntry * DefaultAllocEntry(void *pool, const void *key) { return (JSHashEntry*) js_malloc(sizeof(JSHashEntry)); } static void DefaultFreeEntry(void *pool, JSHashEntry *he, uintN flag) { if (flag == HT_FREE_ENTRY) js_free(he); } static JSHashAllocOps defaultHashAllocOps = { DefaultAllocTable, DefaultFreeTable, DefaultAllocEntry, DefaultFreeEntry }; JS_PUBLIC_API(JSHashTable *) JS_NewHashTable(uint32 n, JSHashFunction keyHash, JSHashComparator keyCompare, JSHashComparator valueCompare, JSHashAllocOps *allocOps, void *allocPriv) { JSHashTable *ht; size_t nb; if (n <= MINBUCKETS) { n = MINBUCKETSLOG2; } else { n = JS_CeilingLog2(n); if ((int32)n < 0) return NULL; } if (!allocOps) allocOps = &defaultHashAllocOps; ht = (JSHashTable*) allocOps->allocTable(allocPriv, sizeof *ht); if (!ht) return NULL; memset(ht, 0, sizeof *ht); ht->shift = JS_HASH_BITS - n; n = JS_BIT(n); nb = n * sizeof(JSHashEntry *); ht->buckets = (JSHashEntry**) allocOps->allocTable(allocPriv, nb); if (!ht->buckets) { allocOps->freeTable(allocPriv, ht, nb); return NULL; } memset(ht->buckets, 0, nb); ht->keyHash = keyHash; ht->keyCompare = keyCompare; ht->valueCompare = valueCompare; ht->allocOps = allocOps; ht->allocPriv = allocPriv; return ht; } JS_PUBLIC_API(void) JS_HashTableDestroy(JSHashTable *ht) { uint32 i, n; JSHashEntry *he, **hep; JSHashAllocOps *allocOps = ht->allocOps; void *allocPriv = ht->allocPriv; n = NBUCKETS(ht); for (i = 0; i < n; i++) { hep = &ht->buckets[i]; while ((he = *hep) != NULL) { *hep = he->next; allocOps->freeEntry(allocPriv, he, HT_FREE_ENTRY); } } #ifdef DEBUG memset(ht->buckets, 0xDB, n * sizeof ht->buckets[0]); #endif allocOps->freeTable(allocPriv, ht->buckets, n * sizeof ht->buckets[0]); #ifdef DEBUG memset(ht, 0xDB, sizeof *ht); #endif allocOps->freeTable(allocPriv, ht, sizeof *ht); } /* * Multiplicative hash, from Knuth 6.4. */ #define BUCKET_HEAD(ht, keyHash) \ (&(ht)->buckets[((keyHash) * JS_GOLDEN_RATIO) >> (ht)->shift]) JS_PUBLIC_API(JSHashEntry **) JS_HashTableRawLookup(JSHashTable *ht, JSHashNumber keyHash, const void *key) { JSHashEntry *he, **hep, **hep0; #ifdef JS_HASHMETER ht->nlookups++; #endif hep = hep0 = BUCKET_HEAD(ht, keyHash); while ((he = *hep) != NULL) { if (he->keyHash == keyHash && ht->keyCompare(key, he->key)) { /* Move to front of chain if not already there */ if (hep != hep0) { *hep = he->next; he->next = *hep0; *hep0 = he; } return hep0; } hep = &he->next; #ifdef JS_HASHMETER ht->nsteps++; #endif } return hep; } static JSBool Resize(JSHashTable *ht, uint32 newshift) { size_t nb, nentries, i; JSHashEntry **oldbuckets, *he, *next, **hep; size_t nold = NBUCKETS(ht); JS_ASSERT(newshift < JS_HASH_BITS); nb = (size_t)1 << (JS_HASH_BITS - newshift); /* Integer overflow protection. */ if (nb > (size_t)-1 / sizeof(JSHashEntry*)) return JS_FALSE; nb *= sizeof(JSHashEntry*); oldbuckets = ht->buckets; ht->buckets = (JSHashEntry**)ht->allocOps->allocTable(ht->allocPriv, nb); if (!ht->buckets) { ht->buckets = oldbuckets; return JS_FALSE; } memset(ht->buckets, 0, nb); ht->shift = newshift; nentries = ht->nentries; for (i = 0; nentries != 0; i++) { for (he = oldbuckets[i]; he; he = next) { JS_ASSERT(nentries != 0); --nentries; next = he->next; hep = BUCKET_HEAD(ht, he->keyHash); /* * We do not require unique entries, instead appending he to the * chain starting at hep. */ while (*hep) hep = &(*hep)->next; he->next = NULL; *hep = he; } } #ifdef DEBUG memset(oldbuckets, 0xDB, nold * sizeof oldbuckets[0]); #endif ht->allocOps->freeTable(ht->allocPriv, oldbuckets, nold * sizeof oldbuckets[0]); return JS_TRUE; } JS_PUBLIC_API(JSHashEntry *) JS_HashTableRawAdd(JSHashTable *ht, JSHashEntry **&hep, JSHashNumber keyHash, const void *key, void *value) { uint32 n; JSHashEntry *he; /* Grow the table if it is overloaded */ n = NBUCKETS(ht); if (ht->nentries >= OVERLOADED(n)) { if (!Resize(ht, ht->shift - 1)) return NULL; #ifdef JS_HASHMETER ht->ngrows++; #endif hep = JS_HashTableRawLookup(ht, keyHash, key); } /* Make a new key value entry */ he = ht->allocOps->allocEntry(ht->allocPriv, key); if (!he) return NULL; he->keyHash = keyHash; he->key = key; he->value = value; he->next = *hep; *hep = he; ht->nentries++; return he; } JS_PUBLIC_API(JSHashEntry *) JS_HashTableAdd(JSHashTable *ht, const void *key, void *value) { JSHashNumber keyHash; JSHashEntry *he, **hep; keyHash = ht->keyHash(key); hep = JS_HashTableRawLookup(ht, keyHash, key); if ((he = *hep) != NULL) { /* Hit; see if values match */ if (ht->valueCompare(he->value, value)) { /* key,value pair is already present in table */ return he; } if (he->value) ht->allocOps->freeEntry(ht->allocPriv, he, HT_FREE_VALUE); he->value = value; return he; } return JS_HashTableRawAdd(ht, hep, keyHash, key, value); } JS_PUBLIC_API(void) JS_HashTableRawRemove(JSHashTable *ht, JSHashEntry **hep, JSHashEntry *he) { uint32 n; *hep = he->next; ht->allocOps->freeEntry(ht->allocPriv, he, HT_FREE_ENTRY); /* Shrink table if it's underloaded */ n = NBUCKETS(ht); if (--ht->nentries < UNDERLOADED(n)) { Resize(ht, ht->shift + 1); #ifdef JS_HASHMETER ht->nshrinks++; #endif } } JS_PUBLIC_API(JSBool) JS_HashTableRemove(JSHashTable *ht, const void *key) { JSHashNumber keyHash; JSHashEntry *he, **hep; keyHash = ht->keyHash(key); hep = JS_HashTableRawLookup(ht, keyHash, key); if ((he = *hep) == NULL) return JS_FALSE; /* Hit; remove element */ JS_HashTableRawRemove(ht, hep, he); return JS_TRUE; } JS_PUBLIC_API(void *) JS_HashTableLookup(JSHashTable *ht, const void *key) { JSHashNumber keyHash; JSHashEntry *he, **hep; keyHash = ht->keyHash(key); hep = JS_HashTableRawLookup(ht, keyHash, key); if ((he = *hep) != NULL) { return he->value; } return NULL; } /* ** Iterate over the entries in the hash table calling func for each ** entry found. Stop if "f" says to (return value & JS_ENUMERATE_STOP). ** Return a count of the number of elements scanned. */ JS_PUBLIC_API(int) JS_HashTableEnumerateEntries(JSHashTable *ht, JSHashEnumerator f, void *arg) { JSHashEntry *he, **hep, **bucket; uint32 nlimit, n, nbuckets, newlog2; int rv; nlimit = ht->nentries; n = 0; for (bucket = ht->buckets; n != nlimit; ++bucket) { hep = bucket; while ((he = *hep) != NULL) { JS_ASSERT(n < nlimit); rv = f(he, n, arg); n++; if (rv & HT_ENUMERATE_REMOVE) { *hep = he->next; ht->allocOps->freeEntry(ht->allocPriv, he, HT_FREE_ENTRY); --ht->nentries; } else { hep = &he->next; } if (rv & HT_ENUMERATE_STOP) { goto out; } } } out: /* Shrink table if removal of entries made it underloaded */ if (ht->nentries != nlimit) { JS_ASSERT(ht->nentries < nlimit); nbuckets = NBUCKETS(ht); if (MINBUCKETS < nbuckets && ht->nentries < UNDERLOADED(nbuckets)) { newlog2 = JS_CeilingLog2(ht->nentries); if (newlog2 < MINBUCKETSLOG2) newlog2 = MINBUCKETSLOG2; /* Check that we really shrink the table. */ JS_ASSERT(JS_HASH_BITS - ht->shift > newlog2); Resize(ht, JS_HASH_BITS - newlog2); } } return (int)n; } #ifdef JS_HASHMETER #include JS_PUBLIC_API(void) JS_HashTableDumpMeter(JSHashTable *ht, JSHashEnumerator dump, FILE *fp) { double sqsum, mean, sigma; uint32 nchains, nbuckets; uint32 i, n, maxChain, maxChainLen; JSHashEntry *he; sqsum = 0; nchains = 0; maxChain = maxChainLen = 0; nbuckets = NBUCKETS(ht); for (i = 0; i < nbuckets; i++) { he = ht->buckets[i]; if (!he) continue; nchains++; for (n = 0; he; he = he->next) n++; sqsum += n * n; if (n > maxChainLen) { maxChainLen = n; maxChain = i; } } mean = JS_MeanAndStdDev(nchains, ht->nentries, sqsum, &sigma); fprintf(fp, "\nHash table statistics:\n"); fprintf(fp, " number of lookups: %u\n", ht->nlookups); fprintf(fp, " number of entries: %u\n", ht->nentries); fprintf(fp, " number of grows: %u\n", ht->ngrows); fprintf(fp, " number of shrinks: %u\n", ht->nshrinks); fprintf(fp, " mean steps per hash: %g\n", (double)ht->nsteps / ht->nlookups); fprintf(fp, "mean hash chain length: %g\n", mean); fprintf(fp, " standard deviation: %g\n", sigma); fprintf(fp, " max hash chain length: %u\n", maxChainLen); fprintf(fp, " max hash chain: [%u]\n", maxChain); for (he = ht->buckets[maxChain], i = 0; he; he = he->next, i++) if (dump(he, i, fp) != HT_ENUMERATE_NEXT) break; } #endif /* JS_HASHMETER */ JS_PUBLIC_API(int) JS_HashTableDump(JSHashTable *ht, JSHashEnumerator dump, FILE *fp) { int count; count = JS_HashTableEnumerateEntries(ht, dump, fp); #ifdef JS_HASHMETER JS_HashTableDumpMeter(ht, dump, fp); #endif return count; } JS_PUBLIC_API(JSHashNumber) JS_HashString(const void *key) { JSHashNumber h; const unsigned char *s; h = 0; for (s = (const unsigned char *)key; *s; s++) h = JS_ROTATE_LEFT32(h, 4) ^ *s; return h; } JS_PUBLIC_API(int) JS_CompareValues(const void *v1, const void *v2) { return v1 == v2; }