//===- llvm/ADT/AllocatorList.h - Custom allocator list ---------*- 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 // //===----------------------------------------------------------------------===// #ifndef LLVM_ADT_ALLOCATORLIST_H #define LLVM_ADT_ALLOCATORLIST_H #include "llvm/ADT/ilist_node.h" #include "llvm/ADT/iterator.h" #include "llvm/ADT/simple_ilist.h" #include "llvm/Support/Allocator.h" #include #include #include #include #include #include namespace llvm { /// A linked-list with a custom, local allocator. /// /// Expose a std::list-like interface that owns and uses a custom LLVM-style /// allocator (e.g., BumpPtrAllocator), leveraging \a simple_ilist for the /// implementation details. /// /// Because this list owns the allocator, calling \a splice() with a different /// list isn't generally safe. As such, \a splice has been left out of the /// interface entirely. template class AllocatorList : AllocatorT { struct Node : ilist_node { Node(Node &&) = delete; Node(const Node &) = delete; Node &operator=(Node &&) = delete; Node &operator=(const Node &) = delete; Node(T &&V) : V(std::move(V)) {} Node(const T &V) : V(V) {} template Node(Ts &&... Vs) : V(std::forward(Vs)...) {} T V; }; using list_type = simple_ilist; list_type List; AllocatorT &getAlloc() { return *this; } const AllocatorT &getAlloc() const { return *this; } template Node *create(ArgTs &&... Args) { return new (getAlloc()) Node(std::forward(Args)...); } struct Cloner { AllocatorList &AL; Cloner(AllocatorList &AL) : AL(AL) {} Node *operator()(const Node &N) const { return AL.create(N.V); } }; struct Disposer { AllocatorList &AL; Disposer(AllocatorList &AL) : AL(AL) {} void operator()(Node *N) const { N->~Node(); AL.getAlloc().Deallocate(N); } }; public: using value_type = T; using pointer = T *; using reference = T &; using const_pointer = const T *; using const_reference = const T &; using size_type = typename list_type::size_type; using difference_type = typename list_type::difference_type; private: template class IteratorImpl : public iterator_adaptor_base, IteratorBase, std::bidirectional_iterator_tag, ValueT> { template friend class IteratorImpl; friend AllocatorList; using base_type = iterator_adaptor_base, IteratorBase, std::bidirectional_iterator_tag, ValueT>; public: using value_type = ValueT; using pointer = ValueT *; using reference = ValueT &; IteratorImpl() = default; IteratorImpl(const IteratorImpl &) = default; IteratorImpl &operator=(const IteratorImpl &) = default; explicit IteratorImpl(const IteratorBase &I) : base_type(I) {} template IteratorImpl(const IteratorImpl &X, std::enable_if_t::value> * = nullptr) : base_type(X.wrapped()) {} ~IteratorImpl() = default; reference operator*() const { return base_type::wrapped()->V; } pointer operator->() const { return &operator*(); } }; public: using iterator = IteratorImpl; using reverse_iterator = IteratorImpl; using const_iterator = IteratorImpl; using const_reverse_iterator = IteratorImpl; AllocatorList() = default; AllocatorList(AllocatorList &&X) : AllocatorT(std::move(X.getAlloc())), List(std::move(X.List)) {} AllocatorList(const AllocatorList &X) { List.cloneFrom(X.List, Cloner(*this), Disposer(*this)); } AllocatorList &operator=(AllocatorList &&X) { clear(); // Dispose of current nodes explicitly. List = std::move(X.List); getAlloc() = std::move(X.getAlloc()); return *this; } AllocatorList &operator=(const AllocatorList &X) { List.cloneFrom(X.List, Cloner(*this), Disposer(*this)); return *this; } ~AllocatorList() { clear(); } void swap(AllocatorList &RHS) { List.swap(RHS.List); std::swap(getAlloc(), RHS.getAlloc()); } bool empty() { return List.empty(); } size_t size() { return List.size(); } iterator begin() { return iterator(List.begin()); } iterator end() { return iterator(List.end()); } const_iterator begin() const { return const_iterator(List.begin()); } const_iterator end() const { return const_iterator(List.end()); } reverse_iterator rbegin() { return reverse_iterator(List.rbegin()); } reverse_iterator rend() { return reverse_iterator(List.rend()); } const_reverse_iterator rbegin() const { return const_reverse_iterator(List.rbegin()); } const_reverse_iterator rend() const { return const_reverse_iterator(List.rend()); } T &back() { return List.back().V; } T &front() { return List.front().V; } const T &back() const { return List.back().V; } const T &front() const { return List.front().V; } template iterator emplace(iterator I, Ts &&... Vs) { return iterator(List.insert(I.wrapped(), *create(std::forward(Vs)...))); } iterator insert(iterator I, T &&V) { return iterator(List.insert(I.wrapped(), *create(std::move(V)))); } iterator insert(iterator I, const T &V) { return iterator(List.insert(I.wrapped(), *create(V))); } template void insert(iterator I, Iterator First, Iterator Last) { for (; First != Last; ++First) List.insert(I.wrapped(), *create(*First)); } iterator erase(iterator I) { return iterator(List.eraseAndDispose(I.wrapped(), Disposer(*this))); } iterator erase(iterator First, iterator Last) { return iterator( List.eraseAndDispose(First.wrapped(), Last.wrapped(), Disposer(*this))); } void clear() { List.clearAndDispose(Disposer(*this)); } void pop_back() { List.eraseAndDispose(--List.end(), Disposer(*this)); } void pop_front() { List.eraseAndDispose(List.begin(), Disposer(*this)); } void push_back(T &&V) { insert(end(), std::move(V)); } void push_front(T &&V) { insert(begin(), std::move(V)); } void push_back(const T &V) { insert(end(), V); } void push_front(const T &V) { insert(begin(), V); } template void emplace_back(Ts &&... Vs) { emplace(end(), std::forward(Vs)...); } template void emplace_front(Ts &&... Vs) { emplace(begin(), std::forward(Vs)...); } /// Reset the underlying allocator. /// /// \pre \c empty() void resetAlloc() { assert(empty() && "Cannot reset allocator if not empty"); getAlloc().Reset(); } }; template using BumpPtrList = AllocatorList; } // end namespace llvm #endif // LLVM_ADT_ALLOCATORLIST_H