// -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- // // The contents of this file are subject to the Netscape 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/NPL/ // // Software distributed under the License is distributed on an "AS // IS" basis, WITHOUT WARRANTY OF ANY KIND, either express oqr // implied. See the License for the specific language governing // rights and limitations under the License. // // The Original Code is the JavaScript 2 Prototype. // // The Initial Developer of the Original Code is Netscape // Communications Corporation. Portions created by Netscape are // Copyright (C) 1998 Netscape Communications Corporation. All // Rights Reserved. #include "hash.h" #include namespace JS = JavaScript; // // Hash Codes // // General-purpose null-terminated C string hash function JS::HashNumber JS::hashString(const char *s) { HashNumber h = 0; uchar ch; while ((ch = (uchar)*s++) != 0) h = (h >> 28) ^ (h << 4) ^ ch; return h; } // General-purpose String hash function JS::HashNumber JS::hashString(const String &s) { HashNumber h = 0; String::const_iterator p = s.begin(); String::size_type n = s.size(); if (n < 16) // Hash every character in a short string. while (n--) h = (h >> 28) ^ (h << 4) ^ *p++; else // Sample a la java.lang.String.hash(). for (String::size_type m = n / 8; n >= m; p += m, n -= m) h = (h >> 28) ^ (h << 4) ^ *p; return h; } // // Hash Tables // const uint minLgNBuckets = 4; JS::GenericHashTableIterator::GenericHashTableIterator(GenericHashTable &ht): ht(ht), entry(0), nextBucket(ht.buckets) { DEBUG_ONLY(++ht.nReferences); operator++(); } JS::GenericHashTableIterator & JS::GenericHashTableIterator::operator++() { GenericHashEntry *e = entry; if (e) { backpointer = &e->next; e = e->next; } if (!e) { GenericHashEntry **const bucketsEnd = ht.bucketsEnd; GenericHashEntry **bucket = nextBucket; while (bucket != bucketsEnd) { e = *bucket++; if (e) { backpointer = bucket-1; break; } } nextBucket = bucket; } entry = e; return *this; } JS::GenericHashTable::GenericHashTable(uint32 nEntriesDefault): nEntries(0) { DEBUG_ONLY(nReferences = 0); uint lgNBuckets = ceilingLog2(nEntriesDefault); if (lgNBuckets < minLgNBuckets) lgNBuckets = minLgNBuckets; defaultLgNBuckets = lgNBuckets; recomputeMinMaxNEntries(lgNBuckets); uint32 nBuckets = JS_BIT(lgNBuckets); buckets = new GenericHashEntry*[nBuckets]; // No exceptions after this point unless buckets is deleted. bucketsEnd = buckets + nBuckets; zero(buckets, bucketsEnd); } // Initialize shift, minNEntries, and maxNEntries based on the lg2 of the // number of buckets. void JS::GenericHashTable::recomputeMinMaxNEntries(uint lgNBuckets) { uint32 nBuckets = JS_BIT(lgNBuckets); shift = 32 - lgNBuckets; maxNEntries = nBuckets; // Maximum ratio is 100% minNEntries = lgNBuckets <= defaultLgNBuckets ? 0 : 3*(nBuckets>>3); // Minimum ratio is 37.5% } // Rehash the table. This method cannot throw out-of-memory exceptions, so it is // safe to call from a destructor. void JS::GenericHashTable::rehash() { uint32 newLgNBuckets = ceilingLog2(nEntries); if (newLgNBuckets < defaultLgNBuckets) newLgNBuckets = defaultLgNBuckets; uint32 newNBuckets = JS_BIT(newLgNBuckets); try { GenericHashEntry **newBuckets = new GenericHashEntry*[newNBuckets]; // No exceptions after this point. GenericHashEntry **newBucketsEnd = newBuckets + newNBuckets; zero(newBuckets, newBucketsEnd); recomputeMinMaxNEntries(newLgNBuckets); GenericHashEntry **be = bucketsEnd; for (GenericHashEntry **b = buckets; b != be; b++) { GenericHashEntry *e = *b; while (e) { GenericHashEntry *next = e->next; // Place e in the new set of buckets. GenericHashEntry **nb = newBuckets + (e->keyHash*goldenRatio >> shift); e->next = *nb; *nb = e; e = next; } } delete[] buckets; buckets = newBuckets; bucketsEnd = newBucketsEnd; } catch (std::bad_alloc) { // Out of memory. Ignore the error and just relax the resizing boundaries. if (buckets + JS_BIT(newLgNBuckets) > bucketsEnd) maxNEntries >>= 1; else minNEntries <<= 1; } }