/*
- * Copyright 2016 Facebook, Inc.
+ * Copyright 2017 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
/*
* AtomicHashMap --
*
- * A high performance concurrent hash map with int32 or int64 keys. Supports
+ * A high-performance concurrent hash map with int32 or int64 keys. Supports
* insert, find(key), findAt(index), erase(key), size, and more. Memory cannot
* be freed or reclaimed by erase. Can grow to a maximum of about 18 times the
* initial capacity, but performance degrades linearly with growth. Can also be
* internal storage (retrieved with iterator::getIndex()).
*
* Advantages:
- * - High performance (~2-4x tbb::concurrent_hash_map in heavily
+ * - High-performance (~2-4x tbb::concurrent_hash_map in heavily
* multi-threaded environments).
* - Efficient memory usage if initial capacity is not over estimated
* (especially for small keys and values).
* faster because of reduced data indirection.
*
* AHMap is a wrapper around AHArray sub-maps that allows growth and provides
- * an interface closer to the stl UnorderedAssociativeContainer concept. These
+ * an interface closer to the STL UnorderedAssociativeContainer concept. These
* sub-maps are allocated on the fly and are processed in series, so the more
* there are (from growing past initial capacity), the worse the performance.
*
#include <boost/noncopyable.hpp>
#include <boost/type_traits/is_convertible.hpp>
-#include <stdexcept>
-#include <functional>
#include <atomic>
+#include <functional>
+#include <stdexcept>
#include <folly/AtomicHashArray.h>
-#include <folly/Foreach.h>
-#include <folly/Hash.h>
#include <folly/Likely.h>
#include <folly/ThreadCachedInt.h>
+#include <folly/container/Foreach.h>
+#include <folly/hash/Hash.h>
namespace folly {
{}
};
-template<class KeyT, class ValueT, class HashFcn, class EqualFcn,
- class Allocator, class ProbeFcn, class KeyConvertFcn>
+template <
+ class KeyT,
+ class ValueT,
+ class HashFcn,
+ class EqualFcn,
+ class Allocator,
+ class ProbeFcn,
+ class KeyConvertFcn>
class AtomicHashMap : boost::noncopyable {
typedef AtomicHashArray<KeyT, ValueT, HashFcn, EqualFcn,
Allocator, ProbeFcn, KeyConvertFcn>
typedef std::size_t size_type;
typedef typename SubMap::Config Config;
- template<class ContT, class IterVal, class SubIt>
+ template <class ContT, class IterVal, class SubIt>
struct ahm_iterator;
typedef ahm_iterator<const AtomicHashMap,
explicit AtomicHashMap(size_t finalSizeEst, const Config& c = Config());
~AtomicHashMap() {
- const int numMaps = numMapsAllocated_.load(std::memory_order_relaxed);
+ const unsigned int numMaps =
+ numMapsAllocated_.load(std::memory_order_relaxed);
FOR_EACH_RANGE (i, 0, numMaps) {
SubMap* thisMap = subMaps_[i].load(std::memory_order_relaxed);
DCHECK(thisMap);
* equal key is already present, this method converts 'key_in' to a key of
* type KeyT using the provided LookupKeyToKeyFcn.
*/
- template <typename LookupKeyT = key_type,
- typename LookupHashFcn = hasher,
- typename LookupEqualFcn = key_equal,
- typename LookupKeyToKeyFcn = key_convert,
- typename... ArgTs>
+ template <
+ typename LookupKeyT = key_type,
+ typename LookupHashFcn = hasher,
+ typename LookupEqualFcn = key_equal,
+ typename LookupKeyToKeyFcn = key_convert,
+ typename... ArgTs>
std::pair<iterator,bool> emplace(LookupKeyT k, ArgTs&&... vCtorArg);
/*
*
* See folly/test/ArrayHashMapTest.cpp for sample usage.
*/
- template <typename LookupKeyT = key_type,
- typename LookupHashFcn = hasher,
- typename LookupEqualFcn = key_equal>
+ template <
+ typename LookupKeyT = key_type,
+ typename LookupHashFcn = hasher,
+ typename LookupEqualFcn = key_equal>
iterator find(LookupKeyT k);
- template <typename LookupKeyT = key_type,
- typename LookupHashFcn = hasher,
- typename LookupEqualFcn = key_equal>
+ template <
+ typename LookupKeyT = key_type,
+ typename LookupHashFcn = hasher,
+ typename LookupEqualFcn = key_equal>
const_iterator find(LookupKeyT k) const;
/*
SimpleRetT() = default;
};
- template <typename LookupKeyT = key_type,
- typename LookupHashFcn = hasher,
- typename LookupEqualFcn = key_equal,
- typename LookupKeyToKeyFcn = key_convert,
- typename... ArgTs>
+ template <
+ typename LookupKeyT = key_type,
+ typename LookupHashFcn = hasher,
+ typename LookupEqualFcn = key_equal,
+ typename LookupKeyToKeyFcn = key_convert,
+ typename... ArgTs>
SimpleRetT insertInternal(LookupKeyT key, ArgTs&&... value);
- template <typename LookupKeyT = key_type,
- typename LookupHashFcn = hasher,
- typename LookupEqualFcn = key_equal>
+ template <
+ typename LookupKeyT = key_type,
+ typename LookupHashFcn = hasher,
+ typename LookupEqualFcn = key_equal>
SimpleRetT findInternal(const LookupKeyT k) const;
SimpleRetT findAtInternal(uint32_t idx) const;
std::atomic<SubMap*> subMaps_[kNumSubMaps_];
std::atomic<uint32_t> numMapsAllocated_;
- inline bool tryLockMap(int idx) {
+ inline bool tryLockMap(unsigned int idx) {
SubMap* val = nullptr;
return subMaps_[idx].compare_exchange_strong(val, (SubMap*)kLockedPtr_,
std::memory_order_acquire);
}; // AtomicHashMap
-template <class KeyT,
- class ValueT,
- class HashFcn = std::hash<KeyT>,
- class EqualFcn = std::equal_to<KeyT>,
- class Allocator = std::allocator<char>>
+template <
+ class KeyT,
+ class ValueT,
+ class HashFcn = std::hash<KeyT>,
+ class EqualFcn = std::equal_to<KeyT>,
+ class Allocator = std::allocator<char>>
using QuadraticProbingAtomicHashMap =
AtomicHashMap<KeyT,
ValueT,