/* * Copyright (C) 2011 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "BasicHashtable" #include #include #include #include namespace android { BasicHashtableImpl::BasicHashtableImpl(size_t entrySize, bool hasTrivialDestructor, size_t minimumInitialCapacity, float loadFactor) : mBucketSize(entrySize + sizeof(Bucket)), mHasTrivialDestructor(hasTrivialDestructor), mLoadFactor(loadFactor), mSize(0), mFilledBuckets(0), mBuckets(NULL) { determineCapacity(minimumInitialCapacity, mLoadFactor, &mBucketCount, &mCapacity); } BasicHashtableImpl::BasicHashtableImpl(const BasicHashtableImpl& other) : mBucketSize(other.mBucketSize), mHasTrivialDestructor(other.mHasTrivialDestructor), mCapacity(other.mCapacity), mLoadFactor(other.mLoadFactor), mSize(other.mSize), mFilledBuckets(other.mFilledBuckets), mBucketCount(other.mBucketCount), mBuckets(other.mBuckets) { if (mBuckets) { SharedBuffer::bufferFromData(mBuckets)->acquire(); } } BasicHashtableImpl::~BasicHashtableImpl() { } void BasicHashtableImpl::dispose() { if (mBuckets) { releaseBuckets(mBuckets, mBucketCount); } } void BasicHashtableImpl::clone() { if (mBuckets) { void* newBuckets = allocateBuckets(mBucketCount); copyBuckets(mBuckets, newBuckets, mBucketCount); releaseBuckets(mBuckets, mBucketCount); mBuckets = newBuckets; } } void BasicHashtableImpl::setTo(const BasicHashtableImpl& other) { if (mBuckets) { releaseBuckets(mBuckets, mBucketCount); } mCapacity = other.mCapacity; mLoadFactor = other.mLoadFactor; mSize = other.mSize; mFilledBuckets = other.mFilledBuckets; mBucketCount = other.mBucketCount; mBuckets = other.mBuckets; if (mBuckets) { SharedBuffer::bufferFromData(mBuckets)->acquire(); } } void BasicHashtableImpl::clear() { if (mBuckets) { if (mFilledBuckets) { SharedBuffer* sb = SharedBuffer::bufferFromData(mBuckets); if (sb->onlyOwner()) { destroyBuckets(mBuckets, mBucketCount); for (size_t i = 0; i < mBucketCount; i++) { Bucket& bucket = bucketAt(mBuckets, i); bucket.cookie = 0; } } else { releaseBuckets(mBuckets, mBucketCount); mBuckets = NULL; } mFilledBuckets = 0; } mSize = 0; } } ssize_t BasicHashtableImpl::next(ssize_t index) const { if (mSize) { while (size_t(++index) < mBucketCount) { const Bucket& bucket = bucketAt(mBuckets, index); if (bucket.cookie & Bucket::PRESENT) { return index; } } } return -1; } ssize_t BasicHashtableImpl::find(ssize_t index, hash_t hash, const void* __restrict__ key) const { if (!mSize) { return -1; } hash = trimHash(hash); if (index < 0) { index = chainStart(hash, mBucketCount); const Bucket& bucket = bucketAt(mBuckets, size_t(index)); if (bucket.cookie & Bucket::PRESENT) { if (compareBucketKey(bucket, key)) { return index; } } else { if (!(bucket.cookie & Bucket::COLLISION)) { return -1; } } } size_t inc = chainIncrement(hash, mBucketCount); for (;;) { index = chainSeek(index, inc, mBucketCount); const Bucket& bucket = bucketAt(mBuckets, size_t(index)); if (bucket.cookie & Bucket::PRESENT) { if ((bucket.cookie & Bucket::HASH_MASK) == hash && compareBucketKey(bucket, key)) { return index; } } if (!(bucket.cookie & Bucket::COLLISION)) { return -1; } } } size_t BasicHashtableImpl::add(hash_t hash, const void* entry) { if (!mBuckets) { mBuckets = allocateBuckets(mBucketCount); } else { edit(); } hash = trimHash(hash); for (;;) { size_t index = chainStart(hash, mBucketCount); Bucket* bucket = &bucketAt(mBuckets, size_t(index)); if (bucket->cookie & Bucket::PRESENT) { size_t inc = chainIncrement(hash, mBucketCount); do { bucket->cookie |= Bucket::COLLISION; index = chainSeek(index, inc, mBucketCount); bucket = &bucketAt(mBuckets, size_t(index)); } while (bucket->cookie & Bucket::PRESENT); } uint32_t collision = bucket->cookie & Bucket::COLLISION; if (!collision) { if (mFilledBuckets >= mCapacity) { rehash(mCapacity * 2, mLoadFactor); continue; } mFilledBuckets += 1; } bucket->cookie = collision | Bucket::PRESENT | hash; mSize += 1; initializeBucketEntry(*bucket, entry); return index; } } void BasicHashtableImpl::removeAt(size_t index) { edit(); Bucket& bucket = bucketAt(mBuckets, index); bucket.cookie &= ~Bucket::PRESENT; if (!(bucket.cookie & Bucket::COLLISION)) { mFilledBuckets -= 1; } mSize -= 1; if (!mHasTrivialDestructor) { destroyBucketEntry(bucket); } } void BasicHashtableImpl::rehash(size_t minimumCapacity, float loadFactor) { if (minimumCapacity < mSize) { minimumCapacity = mSize; } size_t newBucketCount, newCapacity; determineCapacity(minimumCapacity, loadFactor, &newBucketCount, &newCapacity); if (newBucketCount != mBucketCount || newCapacity != mCapacity) { if (mBuckets) { void* newBuckets; if (mSize) { newBuckets = allocateBuckets(newBucketCount); for (size_t i = 0; i < mBucketCount; i++) { const Bucket& fromBucket = bucketAt(mBuckets, i); if (fromBucket.cookie & Bucket::PRESENT) { hash_t hash = fromBucket.cookie & Bucket::HASH_MASK; size_t index = chainStart(hash, newBucketCount); Bucket* toBucket = &bucketAt(newBuckets, size_t(index)); if (toBucket->cookie & Bucket::PRESENT) { size_t inc = chainIncrement(hash, newBucketCount); do { toBucket->cookie |= Bucket::COLLISION; index = chainSeek(index, inc, newBucketCount); toBucket = &bucketAt(newBuckets, size_t(index)); } while (toBucket->cookie & Bucket::PRESENT); } toBucket->cookie = Bucket::PRESENT | hash; initializeBucketEntry(*toBucket, fromBucket.entry); } } } else { newBuckets = NULL; } releaseBuckets(mBuckets, mBucketCount); mBuckets = newBuckets; mFilledBuckets = mSize; } mBucketCount = newBucketCount; mCapacity = newCapacity; } mLoadFactor = loadFactor; } void* BasicHashtableImpl::allocateBuckets(size_t count) const { size_t bytes = count * mBucketSize; SharedBuffer* sb = SharedBuffer::alloc(bytes); LOG_ALWAYS_FATAL_IF(!sb, "Could not allocate %u bytes for hashtable with %u buckets.", uint32_t(bytes), uint32_t(count)); void* buckets = sb->data(); for (size_t i = 0; i < count; i++) { Bucket& bucket = bucketAt(buckets, i); bucket.cookie = 0; } return buckets; } void BasicHashtableImpl::releaseBuckets(void* __restrict__ buckets, size_t count) const { SharedBuffer* sb = SharedBuffer::bufferFromData(buckets); if (sb->release(SharedBuffer::eKeepStorage) == 1) { destroyBuckets(buckets, count); SharedBuffer::dealloc(sb); } } void BasicHashtableImpl::destroyBuckets(void* __restrict__ buckets, size_t count) const { if (!mHasTrivialDestructor) { for (size_t i = 0; i < count; i++) { Bucket& bucket = bucketAt(buckets, i); if (bucket.cookie & Bucket::PRESENT) { destroyBucketEntry(bucket); } } } } void BasicHashtableImpl::copyBuckets(const void* __restrict__ fromBuckets, void* __restrict__ toBuckets, size_t count) const { for (size_t i = 0; i < count; i++) { const Bucket& fromBucket = bucketAt(fromBuckets, i); Bucket& toBucket = bucketAt(toBuckets, i); toBucket.cookie = fromBucket.cookie; if (fromBucket.cookie & Bucket::PRESENT) { initializeBucketEntry(toBucket, fromBucket.entry); } } } // Table of 31-bit primes where each prime is no less than twice as large // as the previous one. Generated by "primes.py". static size_t PRIMES[] = { 5, 11, 23, 47, 97, 197, 397, 797, 1597, 3203, 6421, 12853, 25717, 51437, 102877, 205759, 411527, 823117, 1646237, 3292489, 6584983, 13169977, 26339969, 52679969, 105359939, 210719881, 421439783, 842879579, 1685759167, 0, }; void BasicHashtableImpl::determineCapacity(size_t minimumCapacity, float loadFactor, size_t* __restrict__ outBucketCount, size_t* __restrict__ outCapacity) { LOG_ALWAYS_FATAL_IF(loadFactor <= 0.0f || loadFactor > 1.0f, "Invalid load factor %0.3f. Must be in the range (0, 1].", loadFactor); size_t count = ceilf(minimumCapacity / loadFactor) + 1; size_t i = 0; while (count > PRIMES[i] && i < NELEM(PRIMES)) { i++; } count = PRIMES[i]; LOG_ALWAYS_FATAL_IF(!count, "Could not determine required number of buckets for " "hashtable with minimum capacity %u and load factor %0.3f.", uint32_t(minimumCapacity), loadFactor); *outBucketCount = count; *outCapacity = ceilf((count - 1) * loadFactor); } }; // namespace android