/* SPDX-FileCopyrightText: 2012-2021 Meta Platforms, Inc. and affiliates. * SPDX-FileCopyrightText: 2022 Blender Authors * * SPDX-License-Identifier: Apache-2.0 */ /* Simplified version of Folly's AtomicHashArray * (https://github.com/facebook/folly/blob/main/folly/AtomicHashArray.h). * * Notable changes: * - Standalone and header-only. * - Behaves like a set, not like a map: There's no value type anymore, only keys. * - Capacity check logic have been removed, the code assumes you know the required size in * advance. * - Custom allocator support has been removed. * - Erase has been removed. * - Find has been removed. */ /** \file * \ingroup mikktspace */ #pragma once #ifdef _MSC_VER # include #endif #include #include namespace mikk { struct AtomicHashSetLinearProbeFcn { inline size_t operator()(size_t idx, size_t /* numProbes */, size_t capacity) const { idx += 1; // linear probing // Avoid modulus because it's slow return (idx < capacity) ? idx : (idx - capacity); } }; struct AtomicHashSetQuadraticProbeFcn { inline size_t operator()(size_t idx, size_t numProbes, size_t capacity) const { idx += numProbes; // quadratic probing // Avoid modulus because it's slow return (idx < capacity) ? idx : (idx - capacity); } }; template, class KeyEqual = std::equal_to, class ProbeFcn = AtomicHashSetLinearProbeFcn> class AtomicHashSet { static_assert((std::is_convertible::value || std::is_convertible::value || std::is_convertible::value), "You are trying to use AtomicHashSet with disallowed key " "types. You must use atomically compare-and-swappable integer " "keys, or a different container class."); public: const size_t capacity_; const KeyT kEmptyKey_; KeyHash hasher_; KeyEqual equalityChecker_; private: size_t kAnchorMask_; /* When using a single thread, we can avoid overhead by not bothering with atomic cells. */ typedef typename std::conditional, KeyT>::type cell_type; std::vector cells_; public: struct Config { KeyT emptyKey; double maxLoadFactor; double growthFactor; size_t capacity; // if positive, overrides maxLoadFactor // Cannot have constexpr ctor because some compilers rightly complain. Config() : emptyKey((KeyT)-1), maxLoadFactor(0.8), growthFactor(-1), capacity(0) {} }; /* Instead of a mess of arguments, we take a max size and a Config struct to * simulate named ctor parameters. The Config struct has sensible defaults * for everything, but is overloaded - if you specify a positive capacity, * that will be used directly instead of computing it based on maxLoadFactor. */ AtomicHashSet(size_t maxSize, KeyHash hasher = KeyHash(), KeyEqual equalityChecker = KeyEqual(), const Config &c = Config()) : capacity_(size_t(double(maxSize) / c.maxLoadFactor) + 1), kEmptyKey_(c.emptyKey), hasher_(hasher), equalityChecker_(equalityChecker), cells_(capacity_) { /* Get next power of two. Could be done more effiently with builtin_clz, but this is not * performance-critical. */ kAnchorMask_ = 1; while (kAnchorMask_ < capacity_) { kAnchorMask_ *= 2; } /* Get mask for lower bits. */ kAnchorMask_ -= 1; /* Not great, but the best we can do to support both atomic and non-atomic cells * since std::atomic doesn't have a copy constructor so cells_(capacity_, kEmptyKey_) * in the initializer list won't work. */ std::fill((KeyT *)cells_.data(), (KeyT *)cells_.data() + capacity_, kEmptyKey_); } AtomicHashSet(const AtomicHashSet &) = delete; AtomicHashSet &operator=(const AtomicHashSet &) = delete; ~AtomicHashSet() = default; /* Sequential specialization. */ bool tryUpdateCell(KeyT *cell, KeyT &existingKey, KeyT newKey) { if (*cell == existingKey) { *cell = newKey; return true; } existingKey = *cell; return false; } /* Atomic specialization. */ bool tryUpdateCell(std::atomic *cell, KeyT &existingKey, KeyT newKey) { return cell->compare_exchange_strong(existingKey, newKey, std::memory_order_acq_rel); } std::pair emplace(KeyT key) { size_t idx = keyToAnchorIdx(key); size_t numProbes = 0; for (;;) { cell_type *cell = &cells_[idx]; KeyT existingKey = kEmptyKey_; /* Try to replace empty cell with our key. */ if (tryUpdateCell(cell, existingKey, key)) { /* Cell was empty, we're done. */ return std::make_pair(key, true); } /* Cell was not empty, check if the existing key is equal. */ if (equalityChecker_(existingKey, key)) { /* Found equal element, we're done. */ return std::make_pair(existingKey, false); } /* Continue to next cell according to probe strategy. */ ++numProbes; if ((numProbes >= capacity_)) { // probed every cell...fail assert(false); return std::make_pair(kEmptyKey_, false); } idx = ProbeFcn()(idx, numProbes, capacity_); } } private: inline size_t keyToAnchorIdx(const KeyT k) const { const size_t hashVal = hasher_(k); const size_t probe = hashVal & kAnchorMask_; return (probe < capacity_) ? probe : hashVal % capacity_; } }; // AtomicHashSet } // namespace mikk