/* * Copyright 2016 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkSinglyLinkedList_DEFINED #define SkSinglyLinkedList_DEFINED #include <utility> #include "SkTypes.h" template <typename T> class SkSinglyLinkedList { struct Node; public: SkSinglyLinkedList() : fHead(nullptr), fTail(nullptr) {} ~SkSinglyLinkedList() { this->reset(); } void reset() { SkASSERT(fHead != nullptr || nullptr == fTail); // Use a while loop rather than recursion to avoid stack overflow. Node* node = fHead; while (node) { Node* next = node->fNext; SkASSERT(next != nullptr || node == fTail); delete node; node = next; } fHead = nullptr; fTail = nullptr; } T* back() { return fTail ? &fTail->fData : nullptr; } T* front() { return fHead ? &fHead->fData : nullptr; } bool empty() const { return fHead == nullptr; } #ifdef SK_DEBUG int count() { // O(n), debug only. int count = 0; for (Node* node = fHead; node; node = node->fNext) { ++count; } return count; } #endif void pop_front() { if (Node* node = fHead) { fHead = node->fNext; delete node; if (fHead == nullptr) { fTail = nullptr; } } } template <class... Args> T* emplace_front(Args&&... args) { Node* n = new Node(std::forward<Args>(args)...); n->fNext = fHead; if (!fTail) { fTail = n; SkASSERT(!fHead); } fHead = n; return &n->fData; } template <class... Args> T* emplace_back(Args&&... args) { Node* n = new Node(std::forward<Args>(args)...); if (fTail) { fTail->fNext = n; } else { fHead = n; } fTail = n; return &n->fData; } class ConstIter { public: void operator++() { fNode = fNode->fNext; } const T& operator*() const { return fNode->fData; } bool operator!=(const ConstIter& rhs) const { return fNode != rhs.fNode; } ConstIter(const Node* n) : fNode(n) {} private: const Node* fNode; }; ConstIter begin() const { return ConstIter(fHead); } ConstIter end() const { return ConstIter(nullptr); } private: struct Node { T fData; Node* fNext; template <class... Args> Node(Args&&... args) : fData(std::forward<Args>(args)...), fNext(nullptr) {} }; Node* fHead; Node* fTail; SkSinglyLinkedList(const SkSinglyLinkedList<T>&) = delete; SkSinglyLinkedList& operator=(const SkSinglyLinkedList<T>&) = delete; }; #endif // SkSinglyLinkedList_DEFINED