//===- MultiOnDiskHashTable.h - Merged set of hash tables -------*- 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 // //===----------------------------------------------------------------------===// // // This file provides a hash table data structure suitable for incremental and // distributed storage across a set of files. // // Multiple hash tables from different files are implicitly merged to improve // performance, and on reload the merged table will override those from other // files. // //===----------------------------------------------------------------------===// #ifndef LLVM_CLANG_LIB_SERIALIZATION_MULTIONDISKHASHTABLE_H #define LLVM_CLANG_LIB_SERIALIZATION_MULTIONDISKHASHTABLE_H #include "llvm/ADT/DenseMap.h" #include "llvm/ADT/DenseSet.h" #include "llvm/ADT/PointerUnion.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/SmallVector.h" #include "llvm/ADT/TinyPtrVector.h" #include "llvm/ADT/iterator_range.h" #include "llvm/Support/Endian.h" #include "llvm/Support/EndianStream.h" #include "llvm/Support/OnDiskHashTable.h" #include "llvm/Support/raw_ostream.h" #include #include #include namespace clang { namespace serialization { /// A collection of on-disk hash tables, merged when relevant for performance. template class MultiOnDiskHashTable { public: /// A handle to a file, used when overriding tables. using file_type = typename Info::file_type; /// A pointer to an on-disk representation of the hash table. using storage_type = const unsigned char *; using external_key_type = typename Info::external_key_type; using internal_key_type = typename Info::internal_key_type; using data_type = typename Info::data_type; using data_type_builder = typename Info::data_type_builder; using hash_value_type = unsigned; private: /// The generator is permitted to read our merged table. template friend class MultiOnDiskHashTableGenerator; /// A hash table stored on disk. struct OnDiskTable { using HashTable = llvm::OnDiskIterableChainedHashTable; file_type File; HashTable Table; OnDiskTable(file_type File, unsigned NumBuckets, unsigned NumEntries, storage_type Buckets, storage_type Payload, storage_type Base, const Info &InfoObj) : File(File), Table(NumBuckets, NumEntries, Buckets, Payload, Base, InfoObj) {} }; struct MergedTable { std::vector Files; llvm::DenseMap Data; }; using Table = llvm::PointerUnion; using TableVector = llvm::TinyPtrVector; /// The current set of on-disk and merged tables. /// We manually store the opaque value of the Table because TinyPtrVector /// can't cope with holding a PointerUnion directly. /// There can be at most one MergedTable in this vector, and if present, /// it is the first table. TableVector Tables; /// Files corresponding to overridden tables that we've not yet /// discarded. llvm::TinyPtrVector PendingOverrides; struct AsOnDiskTable { using result_type = OnDiskTable *; result_type operator()(void *P) const { return Table::getFromOpaqueValue(P).template get(); } }; using table_iterator = llvm::mapped_iterator; using table_range = llvm::iterator_range; /// The current set of on-disk tables. table_range tables() { auto Begin = Tables.begin(), End = Tables.end(); if (getMergedTable()) ++Begin; return llvm::make_range(llvm::map_iterator(Begin, AsOnDiskTable()), llvm::map_iterator(End, AsOnDiskTable())); } MergedTable *getMergedTable() const { // If we already have a merged table, it's the first one. return Tables.empty() ? nullptr : Table::getFromOpaqueValue(*Tables.begin()) .template dyn_cast(); } /// Delete all our current on-disk tables. void clear() { for (auto *T : tables()) delete T; if (auto *M = getMergedTable()) delete M; Tables.clear(); } void removeOverriddenTables() { llvm::DenseSet Files; Files.insert(PendingOverrides.begin(), PendingOverrides.end()); // Explicitly capture Files to work around an MSVC 2015 rejects-valid bug. auto ShouldRemove = [&Files](void *T) -> bool { auto *ODT = Table::getFromOpaqueValue(T).template get(); bool Remove = Files.count(ODT->File); if (Remove) delete ODT; return Remove; }; Tables.erase(std::remove_if(tables().begin().getCurrent(), Tables.end(), ShouldRemove), Tables.end()); PendingOverrides.clear(); } void condense() { MergedTable *Merged = getMergedTable(); if (!Merged) Merged = new MergedTable; // Read in all the tables and merge them together. // FIXME: Be smarter about which tables we merge. for (auto *ODT : tables()) { auto &HT = ODT->Table; Info &InfoObj = HT.getInfoObj(); for (auto I = HT.data_begin(), E = HT.data_end(); I != E; ++I) { auto *LocalPtr = I.getItem(); // FIXME: Don't rely on the OnDiskHashTable format here. auto L = InfoObj.ReadKeyDataLength(LocalPtr); const internal_key_type &Key = InfoObj.ReadKey(LocalPtr, L.first); data_type_builder ValueBuilder(Merged->Data[Key]); InfoObj.ReadDataInto(Key, LocalPtr + L.first, L.second, ValueBuilder); } Merged->Files.push_back(ODT->File); delete ODT; } Tables.clear(); Tables.push_back(Table(Merged).getOpaqueValue()); } public: MultiOnDiskHashTable() = default; MultiOnDiskHashTable(MultiOnDiskHashTable &&O) : Tables(std::move(O.Tables)), PendingOverrides(std::move(O.PendingOverrides)) { O.Tables.clear(); } MultiOnDiskHashTable &operator=(MultiOnDiskHashTable &&O) { if (&O == this) return *this; clear(); Tables = std::move(O.Tables); O.Tables.clear(); PendingOverrides = std::move(O.PendingOverrides); return *this; } ~MultiOnDiskHashTable() { clear(); } /// Add the table \p Data loaded from file \p File. void add(file_type File, storage_type Data, Info InfoObj = Info()) { using namespace llvm::support; storage_type Ptr = Data; uint32_t BucketOffset = endian::readNext(Ptr); // Read the list of overridden files. uint32_t NumFiles = endian::readNext(Ptr); // FIXME: Add a reserve() to TinyPtrVector so that we don't need to make // an additional copy. llvm::SmallVector OverriddenFiles; OverriddenFiles.reserve(NumFiles); for (/**/; NumFiles != 0; --NumFiles) OverriddenFiles.push_back(InfoObj.ReadFileRef(Ptr)); PendingOverrides.insert(PendingOverrides.end(), OverriddenFiles.begin(), OverriddenFiles.end()); // Read the OnDiskChainedHashTable header. storage_type Buckets = Data + BucketOffset; auto NumBucketsAndEntries = OnDiskTable::HashTable::readNumBucketsAndEntries(Buckets); // Register the table. Table NewTable = new OnDiskTable(File, NumBucketsAndEntries.first, NumBucketsAndEntries.second, Buckets, Ptr, Data, std::move(InfoObj)); Tables.push_back(NewTable.getOpaqueValue()); } /// Find and read the lookup results for \p EKey. data_type find(const external_key_type &EKey) { data_type Result; if (!PendingOverrides.empty()) removeOverriddenTables(); if (Tables.size() > static_cast(Info::MaxTables)) condense(); internal_key_type Key = Info::GetInternalKey(EKey); auto KeyHash = Info::ComputeHash(Key); if (MergedTable *M = getMergedTable()) { auto It = M->Data.find(Key); if (It != M->Data.end()) Result = It->second; } data_type_builder ResultBuilder(Result); for (auto *ODT : tables()) { auto &HT = ODT->Table; auto It = HT.find_hashed(Key, KeyHash); if (It != HT.end()) HT.getInfoObj().ReadDataInto(Key, It.getDataPtr(), It.getDataLen(), ResultBuilder); } return Result; } /// Read all the lookup results into a single value. This only makes /// sense if merging values across keys is meaningful. data_type findAll() { data_type Result; data_type_builder ResultBuilder(Result); if (!PendingOverrides.empty()) removeOverriddenTables(); if (MergedTable *M = getMergedTable()) { for (auto &KV : M->Data) Info::MergeDataInto(KV.second, ResultBuilder); } for (auto *ODT : tables()) { auto &HT = ODT->Table; Info &InfoObj = HT.getInfoObj(); for (auto I = HT.data_begin(), E = HT.data_end(); I != E; ++I) { auto *LocalPtr = I.getItem(); // FIXME: Don't rely on the OnDiskHashTable format here. auto L = InfoObj.ReadKeyDataLength(LocalPtr); const internal_key_type &Key = InfoObj.ReadKey(LocalPtr, L.first); InfoObj.ReadDataInto(Key, LocalPtr + L.first, L.second, ResultBuilder); } } return Result; } }; /// Writer for the on-disk hash table. template class MultiOnDiskHashTableGenerator { using BaseTable = MultiOnDiskHashTable; using Generator = llvm::OnDiskChainedHashTableGenerator; Generator Gen; public: MultiOnDiskHashTableGenerator() : Gen() {} void insert(typename WriterInfo::key_type_ref Key, typename WriterInfo::data_type_ref Data, WriterInfo &Info) { Gen.insert(Key, Data, Info); } void emit(llvm::SmallVectorImpl &Out, WriterInfo &Info, const BaseTable *Base) { using namespace llvm::support; llvm::raw_svector_ostream OutStream(Out); // Write our header information. { endian::Writer Writer(OutStream, llvm::endianness::little); // Reserve four bytes for the bucket offset. Writer.write(0); if (auto *Merged = Base ? Base->getMergedTable() : nullptr) { // Write list of overridden files. Writer.write(Merged->Files.size()); for (const auto &F : Merged->Files) Info.EmitFileRef(OutStream, F); // Add all merged entries from Base to the generator. for (auto &KV : Merged->Data) { if (!Gen.contains(KV.first, Info)) Gen.insert(KV.first, Info.ImportData(KV.second), Info); } } else { Writer.write(0); } } // Write the table itself. uint32_t BucketOffset = Gen.Emit(OutStream, Info); // Replace the first four bytes with the bucket offset. endian::write32le(Out.data(), BucketOffset); } }; } // namespace serialization } // namespace clang #endif // LLVM_CLANG_LIB_SERIALIZATION_MULTIONDISKHASHTABLE_H