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432 lines
15 KiB
C
432 lines
15 KiB
C
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/*
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* Copyright 2016 Facebook, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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/**
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* AtomicHashArray is the building block for AtomicHashMap. It provides the
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* core lock-free functionality, but is limited by the fact that it cannot
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* grow past its initialization size and is a little more awkward (no public
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* constructor, for example). If you're confident that you won't run out of
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* space, don't mind the awkardness, and really need bare-metal performance,
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* feel free to use AHA directly.
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*
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* Check out AtomicHashMap.h for more thorough documentation on perf and
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* general pros and cons relative to other hash maps.
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*
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* @author Spencer Ahrens <sahrens@fb.com>
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* @author Jordan DeLong <delong.j@fb.com>
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*/
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#pragma once
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#define FOLLY_ATOMICHASHARRAY_H_
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#include <atomic>
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#include <boost/iterator/iterator_facade.hpp>
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#include <boost/noncopyable.hpp>
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#include <folly/Hash.h>
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#include <folly/ThreadCachedInt.h>
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namespace folly {
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struct AtomicHashArrayLinearProbeFcn
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{
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inline size_t operator()(size_t idx,
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size_t /* numProbes */,
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size_t capacity) const {
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idx += 1; // linear probing
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// Avoid modulus because it's slow
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return LIKELY(idx < capacity) ? idx : (idx - capacity);
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}
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};
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struct AtomicHashArrayQuadraticProbeFcn
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{
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inline size_t operator()(size_t idx, size_t numProbes, size_t capacity) const{
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idx += numProbes; // quadratic probing
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// Avoid modulus because it's slow
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return LIKELY(idx < capacity) ? idx : (idx - capacity);
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}
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};
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// Enables specializing checkLegalKey without specializing its class.
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namespace detail {
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// Local copy of folly::gen::Identity, to avoid heavy dependencies.
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class AHAIdentity {
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public:
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template<class Value>
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auto operator()(Value&& value) const ->
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decltype(std::forward<Value>(value)) {
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return std::forward<Value>(value);
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}
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};
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template <typename NotKeyT, typename KeyT>
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inline void checkLegalKeyIfKeyTImpl(NotKeyT /* ignored */,
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KeyT /* emptyKey */,
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KeyT /* lockedKey */,
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KeyT /* erasedKey */) {}
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template <typename KeyT>
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inline void checkLegalKeyIfKeyTImpl(KeyT key_in, KeyT emptyKey,
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KeyT lockedKey, KeyT erasedKey) {
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DCHECK_NE(key_in, emptyKey);
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DCHECK_NE(key_in, lockedKey);
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DCHECK_NE(key_in, erasedKey);
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}
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} // namespace detail
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template <class KeyT, class ValueT,
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class HashFcn = std::hash<KeyT>,
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class EqualFcn = std::equal_to<KeyT>,
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class Allocator = std::allocator<char>,
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class ProbeFcn = AtomicHashArrayLinearProbeFcn,
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class KeyConvertFcn = detail::AHAIdentity>
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class AtomicHashMap;
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template <class KeyT, class ValueT,
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class HashFcn = std::hash<KeyT>,
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class EqualFcn = std::equal_to<KeyT>,
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class Allocator = std::allocator<char>,
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class ProbeFcn = AtomicHashArrayLinearProbeFcn,
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class KeyConvertFcn = detail::AHAIdentity>
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class AtomicHashArray : boost::noncopyable {
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static_assert((std::is_convertible<KeyT,int32_t>::value ||
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std::is_convertible<KeyT,int64_t>::value ||
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std::is_convertible<KeyT,const void*>::value),
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"You are trying to use AtomicHashArray with disallowed key "
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"types. You must use atomically compare-and-swappable integer "
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"keys, or a different container class.");
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public:
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typedef KeyT key_type;
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typedef ValueT mapped_type;
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typedef HashFcn hasher;
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typedef EqualFcn key_equal;
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typedef KeyConvertFcn key_convert;
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typedef std::pair<const KeyT, ValueT> value_type;
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typedef std::size_t size_type;
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typedef std::ptrdiff_t difference_type;
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typedef value_type& reference;
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typedef const value_type& const_reference;
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typedef value_type* pointer;
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typedef const value_type* const_pointer;
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const size_t capacity_;
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const size_t maxEntries_;
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const KeyT kEmptyKey_;
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const KeyT kLockedKey_;
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const KeyT kErasedKey_;
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template<class ContT, class IterVal>
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struct aha_iterator;
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typedef aha_iterator<const AtomicHashArray,const value_type> const_iterator;
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typedef aha_iterator<AtomicHashArray,value_type> iterator;
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// You really shouldn't need this if you use the SmartPtr provided by create,
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// but if you really want to do something crazy like stick the released
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// pointer into a DescriminatedPtr or something, you'll need this to clean up
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// after yourself.
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static void destroy(AtomicHashArray*);
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private:
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const size_t kAnchorMask_;
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struct Deleter {
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void operator()(AtomicHashArray* ptr) {
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AtomicHashArray::destroy(ptr);
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}
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};
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public:
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typedef std::unique_ptr<AtomicHashArray, Deleter> SmartPtr;
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/*
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* create --
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*
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* Creates AtomicHashArray objects. Use instead of constructor/destructor.
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*
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* We do things this way in order to avoid the perf penalty of a second
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* pointer indirection when composing these into AtomicHashMap, which needs
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* to store an array of pointers so that it can perform atomic operations on
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* them when growing.
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*
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* Instead of a mess of arguments, we take a max size and a Config struct to
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* simulate named ctor parameters. The Config struct has sensible defaults
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* for everything, but is overloaded - if you specify a positive capacity,
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* that will be used directly instead of computing it based on
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* maxLoadFactor.
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*
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* Create returns an AHA::SmartPtr which is a unique_ptr with a custom
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* deleter to make sure everything is cleaned up properly.
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*/
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struct Config {
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KeyT emptyKey;
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KeyT lockedKey;
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KeyT erasedKey;
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double maxLoadFactor;
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double growthFactor;
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int entryCountThreadCacheSize;
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size_t capacity; // if positive, overrides maxLoadFactor
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public:
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// Cannot have constexpr ctor because some compilers rightly complain.
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Config() : emptyKey((KeyT)-1),
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lockedKey((KeyT)-2),
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erasedKey((KeyT)-3),
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maxLoadFactor(0.8),
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growthFactor(-1),
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entryCountThreadCacheSize(1000),
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capacity(0) {}
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};
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// Cannot have pre-instantiated const Config instance because of SIOF.
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static SmartPtr create(size_t maxSize, const Config& c = Config());
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/*
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* find --
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*
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*
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* Returns the iterator to the element if found, otherwise end().
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*
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* As an optional feature, the type of the key to look up (LookupKeyT) is
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* allowed to be different from the type of keys actually stored (KeyT).
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*
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* This enables use cases where materializing the key is costly and usually
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* redudant, e.g., canonicalizing/interning a set of strings and being able
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* to look up by StringPiece. To use this feature, LookupHashFcn must take
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* a LookupKeyT, and LookupEqualFcn must take KeyT and LookupKeyT as first
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* and second parameter, respectively.
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*
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* See folly/test/ArrayHashArrayTest.cpp for sample usage.
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*/
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template <typename LookupKeyT = key_type,
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typename LookupHashFcn = hasher,
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typename LookupEqualFcn = key_equal>
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iterator find(LookupKeyT k) {
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return iterator(this,
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findInternal<LookupKeyT, LookupHashFcn, LookupEqualFcn>(k).idx);
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}
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template <typename LookupKeyT = key_type,
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typename LookupHashFcn = hasher,
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typename LookupEqualFcn = key_equal>
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const_iterator find(LookupKeyT k) const {
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return const_cast<AtomicHashArray*>(this)->
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find<LookupKeyT, LookupHashFcn, LookupEqualFcn>(k);
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}
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/*
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* insert --
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*
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* Returns a pair with iterator to the element at r.first and bool success.
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* Retrieve the index with ret.first.getIndex().
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*
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* Fails on key collision (does not overwrite) or if map becomes
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* full, at which point no element is inserted, iterator is set to end(),
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* and success is set false. On collisions, success is set false, but the
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* iterator is set to the existing entry.
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*/
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std::pair<iterator,bool> insert(const value_type& r) {
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return emplace(r.first, r.second);
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}
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std::pair<iterator,bool> insert(value_type&& r) {
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return emplace(r.first, std::move(r.second));
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}
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/*
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* emplace --
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*
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* Same contract as insert(), but performs in-place construction
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* of the value type using the specified arguments.
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*
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* Also, like find(), this method optionally allows 'key_in' to have a type
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* different from that stored in the table; see find(). If and only if no
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* equal key is already present, this method converts 'key_in' to a key of
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* type KeyT using the provided LookupKeyToKeyFcn.
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*/
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template <typename LookupKeyT = key_type,
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typename LookupHashFcn = hasher,
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typename LookupEqualFcn = key_equal,
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typename LookupKeyToKeyFcn = key_convert,
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typename... ArgTs>
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std::pair<iterator,bool> emplace(LookupKeyT key_in, ArgTs&&... vCtorArgs) {
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SimpleRetT ret = insertInternal<LookupKeyT,
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LookupHashFcn,
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LookupEqualFcn,
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LookupKeyToKeyFcn>(
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key_in,
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std::forward<ArgTs>(vCtorArgs)...);
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return std::make_pair(iterator(this, ret.idx), ret.success);
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}
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// returns the number of elements erased - should never exceed 1
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size_t erase(KeyT k);
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// clears all keys and values in the map and resets all counters. Not thread
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// safe.
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void clear();
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// Exact number of elements in the map - note that readFull() acquires a
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// mutex. See folly/ThreadCachedInt.h for more details.
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size_t size() const {
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return numEntries_.readFull() -
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numErases_.load(std::memory_order_relaxed);
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}
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bool empty() const { return size() == 0; }
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iterator begin() {
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iterator it(this, 0);
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it.advancePastEmpty();
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return it;
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}
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const_iterator begin() const {
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const_iterator it(this, 0);
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it.advancePastEmpty();
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return it;
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}
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iterator end() { return iterator(this, capacity_); }
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const_iterator end() const { return const_iterator(this, capacity_); }
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// See AtomicHashMap::findAt - access elements directly
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// WARNING: The following 2 functions will fail silently for hashtable
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// with capacity > 2^32
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iterator findAt(uint32_t idx) {
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DCHECK_LT(idx, capacity_);
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return iterator(this, idx);
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}
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const_iterator findAt(uint32_t idx) const {
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return const_cast<AtomicHashArray*>(this)->findAt(idx);
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}
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iterator makeIter(size_t idx) { return iterator(this, idx); }
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const_iterator makeIter(size_t idx) const {
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return const_iterator(this, idx);
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}
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// The max load factor allowed for this map
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double maxLoadFactor() const { return ((double) maxEntries_) / capacity_; }
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void setEntryCountThreadCacheSize(uint32_t newSize) {
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numEntries_.setCacheSize(newSize);
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numPendingEntries_.setCacheSize(newSize);
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}
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int getEntryCountThreadCacheSize() const {
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return numEntries_.getCacheSize();
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}
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/* Private data and helper functions... */
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private:
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friend class AtomicHashMap<KeyT,
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ValueT,
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HashFcn,
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EqualFcn,
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Allocator,
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ProbeFcn>;
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struct SimpleRetT { size_t idx; bool success;
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SimpleRetT(size_t i, bool s) : idx(i), success(s) {}
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SimpleRetT() = default;
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};
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template <typename LookupKeyT = key_type,
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typename LookupHashFcn = hasher,
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typename LookupEqualFcn = key_equal,
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typename LookupKeyToKeyFcn = detail::AHAIdentity,
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typename... ArgTs>
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SimpleRetT insertInternal(LookupKeyT key, ArgTs&&... vCtorArgs);
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template <typename LookupKeyT = key_type,
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typename LookupHashFcn = hasher,
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typename LookupEqualFcn = key_equal>
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SimpleRetT findInternal(const LookupKeyT key);
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template <typename MaybeKeyT>
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void checkLegalKeyIfKey(MaybeKeyT key) {
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detail::checkLegalKeyIfKeyTImpl(key, kEmptyKey_, kLockedKey_, kErasedKey_);
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}
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static std::atomic<KeyT>* cellKeyPtr(const value_type& r) {
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// We need some illegal casting here in order to actually store
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// our value_type as a std::pair<const,>. But a little bit of
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// undefined behavior never hurt anyone ...
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static_assert(sizeof(std::atomic<KeyT>) == sizeof(KeyT),
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"std::atomic is implemented in an unexpected way for AHM");
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return
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const_cast<std::atomic<KeyT>*>(
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reinterpret_cast<std::atomic<KeyT> const*>(&r.first));
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}
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static KeyT relaxedLoadKey(const value_type& r) {
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return cellKeyPtr(r)->load(std::memory_order_relaxed);
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}
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static KeyT acquireLoadKey(const value_type& r) {
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return cellKeyPtr(r)->load(std::memory_order_acquire);
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}
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// Fun with thread local storage - atomic increment is expensive
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// (relatively), so we accumulate in the thread cache and periodically
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// flush to the actual variable, and walk through the unflushed counts when
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// reading the value, so be careful of calling size() too frequently. This
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// increases insertion throughput several times over while keeping the count
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// accurate.
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ThreadCachedInt<uint64_t> numEntries_; // Successful key inserts
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ThreadCachedInt<uint64_t> numPendingEntries_; // Used by insertInternal
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std::atomic<int64_t> isFull_; // Used by insertInternal
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std::atomic<int64_t> numErases_; // Successful key erases
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value_type cells_[0]; // This must be the last field of this class
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// Force constructor/destructor private since create/destroy should be
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// used externally instead
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AtomicHashArray(size_t capacity, KeyT emptyKey, KeyT lockedKey,
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KeyT erasedKey, double maxLoadFactor, size_t cacheSize);
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~AtomicHashArray() = default;
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inline void unlockCell(value_type* const cell, KeyT newKey) {
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cellKeyPtr(*cell)->store(newKey, std::memory_order_release);
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}
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inline bool tryLockCell(value_type* const cell) {
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KeyT expect = kEmptyKey_;
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return cellKeyPtr(*cell)->compare_exchange_strong(expect, kLockedKey_,
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std::memory_order_acq_rel);
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}
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template <class LookupKeyT = key_type, class LookupHashFcn = hasher>
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inline size_t keyToAnchorIdx(const LookupKeyT k) const {
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const size_t hashVal = LookupHashFcn()(k);
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const size_t probe = hashVal & kAnchorMask_;
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return LIKELY(probe < capacity_) ? probe : hashVal % capacity_;
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}
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}; // AtomicHashArray
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} // namespace folly
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#include <folly/AtomicHashArray-inl.h>
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