//===- SymbolStringPool.h - Multi-threaded pool for JIT symbols -*- C++ -*-===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // Contains a multi-threaded string pool suitable for use with ORC. // //===----------------------------------------------------------------------===// #ifndef LLVM_EXECUTIONENGINE_ORC_SYMBOLSTRINGPOOL_H #define LLVM_EXECUTIONENGINE_ORC_SYMBOLSTRINGPOOL_H #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/StringMap.h" #include #include namespace llvm { namespace orc { class SymbolStringPtr; /// String pool for symbol names used by the JIT. class SymbolStringPool { friend class SymbolStringPtr; public: /// Destroy a SymbolStringPool. ~SymbolStringPool(); /// Create a symbol string pointer from the given string. SymbolStringPtr intern(StringRef S); /// Remove from the pool any entries that are no longer referenced. void clearDeadEntries(); /// Returns true if the pool is empty. bool empty() const; private: using RefCountType = std::atomic; using PoolMap = StringMap; using PoolMapEntry = StringMapEntry; mutable std::mutex PoolMutex; PoolMap Pool; }; /// Pointer to a pooled string representing a symbol name. class SymbolStringPtr { friend class OrcV2CAPIHelper; friend class SymbolStringPool; friend struct DenseMapInfo; public: SymbolStringPtr() = default; SymbolStringPtr(std::nullptr_t) {} SymbolStringPtr(const SymbolStringPtr &Other) : S(Other.S) { if (isRealPoolEntry(S)) ++S->getValue(); } SymbolStringPtr& operator=(const SymbolStringPtr &Other) { if (isRealPoolEntry(S)) --S->getValue(); S = Other.S; if (isRealPoolEntry(S)) ++S->getValue(); return *this; } SymbolStringPtr(SymbolStringPtr &&Other) : S(nullptr) { std::swap(S, Other.S); } SymbolStringPtr& operator=(SymbolStringPtr &&Other) { if (isRealPoolEntry(S)) --S->getValue(); S = nullptr; std::swap(S, Other.S); return *this; } ~SymbolStringPtr() { if (isRealPoolEntry(S)) --S->getValue(); } explicit operator bool() const { return S; } StringRef operator*() const { return S->first(); } friend bool operator==(const SymbolStringPtr &LHS, const SymbolStringPtr &RHS) { return LHS.S == RHS.S; } friend bool operator!=(const SymbolStringPtr &LHS, const SymbolStringPtr &RHS) { return !(LHS == RHS); } friend bool operator<(const SymbolStringPtr &LHS, const SymbolStringPtr &RHS) { return LHS.S < RHS.S; } private: using PoolEntry = SymbolStringPool::PoolMapEntry; using PoolEntryPtr = PoolEntry *; SymbolStringPtr(SymbolStringPool::PoolMapEntry *S) : S(S) { if (isRealPoolEntry(S)) ++S->getValue(); } // Returns false for null, empty, and tombstone values, true otherwise. bool isRealPoolEntry(PoolEntryPtr P) { return ((reinterpret_cast(P) - 1) & InvalidPtrMask) != InvalidPtrMask; } static SymbolStringPtr getEmptyVal() { return SymbolStringPtr(reinterpret_cast(EmptyBitPattern)); } static SymbolStringPtr getTombstoneVal() { return SymbolStringPtr(reinterpret_cast(TombstoneBitPattern)); } constexpr static uintptr_t EmptyBitPattern = std::numeric_limits::max() << PointerLikeTypeTraits::NumLowBitsAvailable; constexpr static uintptr_t TombstoneBitPattern = (std::numeric_limits::max() - 1) << PointerLikeTypeTraits::NumLowBitsAvailable; constexpr static uintptr_t InvalidPtrMask = (std::numeric_limits::max() - 3) << PointerLikeTypeTraits::NumLowBitsAvailable; PoolEntryPtr S = nullptr; }; inline SymbolStringPool::~SymbolStringPool() { #ifndef NDEBUG clearDeadEntries(); assert(Pool.empty() && "Dangling references at pool destruction time"); #endif // NDEBUG } inline SymbolStringPtr SymbolStringPool::intern(StringRef S) { std::lock_guard Lock(PoolMutex); PoolMap::iterator I; bool Added; std::tie(I, Added) = Pool.try_emplace(S, 0); return SymbolStringPtr(&*I); } inline void SymbolStringPool::clearDeadEntries() { std::lock_guard Lock(PoolMutex); for (auto I = Pool.begin(), E = Pool.end(); I != E;) { auto Tmp = I++; if (Tmp->second == 0) Pool.erase(Tmp); } } inline bool SymbolStringPool::empty() const { std::lock_guard Lock(PoolMutex); return Pool.empty(); } } // end namespace orc template <> struct DenseMapInfo { static orc::SymbolStringPtr getEmptyKey() { return orc::SymbolStringPtr::getEmptyVal(); } static orc::SymbolStringPtr getTombstoneKey() { return orc::SymbolStringPtr::getTombstoneVal(); } static unsigned getHashValue(const orc::SymbolStringPtr &V) { return DenseMapInfo::getHashValue(V.S); } static bool isEqual(const orc::SymbolStringPtr &LHS, const orc::SymbolStringPtr &RHS) { return LHS.S == RHS.S; } }; } // end namespace llvm #endif // LLVM_EXECUTIONENGINE_ORC_SYMBOLSTRINGPOOL_H