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14b9ff6984
MozReview-Commit-ID: 4G37uslYlOb
360 lines
9.2 KiB
C++
360 lines
9.2 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/** A doubly-linked list with flexible next/prev naming. */
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#ifndef mozilla_DoublyLinkedList_h
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#define mozilla_DoublyLinkedList_h
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#include <algorithm>
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#include <iterator>
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#include "mozilla/Assertions.h"
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/**
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* Where mozilla::LinkedList strives for ease of use above all other
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* considerations, mozilla::DoublyLinkedList strives for flexibility. The
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* following are things that can be done with mozilla::DoublyLinkedList that
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* cannot be done with mozilla::LinkedList:
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*
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* * Arbitrary next/prev placement and naming. With the tools provided here,
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* the next and previous pointers can be at the end of the structure, in a
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* sub-structure, stored with a tag, in a union, wherever, as long as you
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* can look them up and set them on demand.
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* * Can be used without deriving from a new base and, thus, does not require
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* use of constructors.
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*
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* Example:
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*
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* class Observer : public DoublyLinkedListElement<Observer>
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* {
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* public:
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* void observe(char* aTopic) { ... }
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* };
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*
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* class ObserverContainer
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* {
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* private:
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* DoublyLinkedList<Observer> mList;
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*
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* public:
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* void addObserver(Observer* aObserver)
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* {
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* // Will assert if |aObserver| is part of another list.
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* mList.pushBack(aObserver);
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* }
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*
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* void removeObserver(Observer* aObserver)
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* {
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* // Will assert if |aObserver| is not part of |list|.
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* mList.remove(aObserver);
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* }
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*
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* void notifyObservers(char* aTopic)
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* {
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* for (Observer* o : mList) {
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* o->observe(aTopic);
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* }
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* }
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* };
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*/
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namespace mozilla {
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/**
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* Provides access to a next and previous element pointer named |mNext| and
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* |mPrev| respectively. This class is the default and will work if the list
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* element derives from DoublyLinkedListElement.
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*
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* Although designed to work with DoublyLinkedListElement this will als work
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* with any class that defines |mNext| and |mPrev| members with the correct
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* type.
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*/
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template <typename T>
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struct DoublyLinkedSiblingAccess {
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static void SetNext(T* aElm, T* aNext) { aElm->mNext = aNext; }
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static T* GetNext(T* aElm) { return aElm->mNext; }
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static void SetPrev(T* aElm, T* aPrev) { aElm->mPrev = aPrev; }
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static T* GetPrev(T* aElm) { return aElm->mPrev; }
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};
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/**
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* Deriving from this will allow T to be inserted into and removed from a
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* DoublyLinkedList.
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*/
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template <typename T>
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struct DoublyLinkedListElement
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{
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friend struct DoublyLinkedSiblingAccess<T>;
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T* mNext;
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T* mPrev;
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public:
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DoublyLinkedListElement() : mNext(nullptr), mPrev(nullptr) {}
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};
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/**
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* A doubly linked list. |T| is the type of element stored in this list. |T|
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* must contain or have access to unique next and previous element pointers.
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* The template argument |SiblingAccess| provides code to tell this list how to
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* get and set the next and previous pointers. The actual storage of next/prev
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* links may reside anywhere and be encoded in any way.
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*/
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template <typename T, typename SiblingAccess = DoublyLinkedSiblingAccess<T>>
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class DoublyLinkedList final
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{
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T* mHead;
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T* mTail;
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/**
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* Checks that either the list is empty and both mHead and mTail are nullptr
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* or the list has entries and both mHead and mTail are non-null.
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*/
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bool isStateValid() const {
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return (mHead != nullptr) == (mTail != nullptr);
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}
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static bool ElementNotInList(T* aElm) {
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return !SiblingAccess::GetNext(aElm) && !SiblingAccess::GetPrev(aElm);
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}
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public:
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DoublyLinkedList() : mHead(nullptr), mTail(nullptr) {}
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class Iterator final {
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T* mCurrent;
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public:
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using iterator_category = std::forward_iterator_tag;
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using value_type = T;
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using difference_type = std::ptrdiff_t;
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using pointer = T*;
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using reference = T&;
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Iterator() : mCurrent(nullptr) {}
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explicit Iterator(T* aCurrent) : mCurrent(aCurrent) {}
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T& operator *() const { return *mCurrent; }
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T* operator ->() const { return mCurrent; }
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Iterator& operator++() {
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mCurrent = SiblingAccess::GetNext(mCurrent);
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return *this;
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}
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Iterator operator++(int) {
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Iterator result = *this;
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++(*this);
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return result;
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}
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Iterator& operator--() {
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mCurrent = SiblingAccess::GetPrev(mCurrent);
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return *this;
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}
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Iterator operator--(int) {
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Iterator result = *this;
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--(*this);
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return result;
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}
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bool operator!=(const Iterator& aOther) const {
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return mCurrent != aOther.mCurrent;
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}
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bool operator==(const Iterator& aOther) const {
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return mCurrent == aOther.mCurrent;
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}
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explicit operator bool() const {
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return mCurrent;
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}
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};
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Iterator begin() { return Iterator(mHead); }
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const Iterator begin() const { return Iterator(mHead); }
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const Iterator cbegin() const { return Iterator(mHead); }
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Iterator end() { return Iterator(); }
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const Iterator end() const { return Iterator(); }
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const Iterator cend() const { return Iterator(); }
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/**
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* Returns true if the list contains no elements.
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*/
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bool isEmpty() const {
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MOZ_ASSERT(isStateValid());
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return mHead == nullptr;
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}
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/**
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* Inserts aElm into the list at the head position. |aElm| must not already
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* be in a list.
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*/
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void pushFront(T* aElm) {
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MOZ_ASSERT(aElm);
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MOZ_ASSERT(ElementNotInList(aElm));
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MOZ_ASSERT(isStateValid());
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SiblingAccess::SetNext(aElm, mHead);
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if (mHead) {
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MOZ_ASSERT(!SiblingAccess::GetPrev(mHead));
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SiblingAccess::SetPrev(mHead, aElm);
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}
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mHead = aElm;
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if (!mTail) {
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mTail = aElm;
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}
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}
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/**
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* Remove the head of the list and return it. Calling this on an empty list
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* will assert.
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*/
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T* popFront() {
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MOZ_ASSERT(!isEmpty());
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MOZ_ASSERT(isStateValid());
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T* result = mHead;
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mHead = result ? SiblingAccess::GetNext(result) : nullptr;
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if (mHead) {
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SiblingAccess::SetPrev(mHead, nullptr);
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}
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if (mTail == result) {
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mTail = nullptr;
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}
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if (result) {
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SiblingAccess::SetNext(result, nullptr);
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SiblingAccess::SetPrev(result, nullptr);
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}
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return result;
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}
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/**
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* Inserts aElm into the list at the tail position. |aElm| must not already
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* be in a list.
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*/
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void pushBack(T* aElm) {
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MOZ_ASSERT(aElm);
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MOZ_ASSERT(ElementNotInList(aElm));
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MOZ_ASSERT(isStateValid());
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SiblingAccess::SetNext(aElm, nullptr);
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SiblingAccess::SetPrev(aElm, mTail);
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if (mTail) {
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MOZ_ASSERT(!SiblingAccess::GetNext(mTail));
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SiblingAccess::SetNext(mTail, aElm);
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}
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mTail = aElm;
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if (!mHead) {
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mHead = aElm;
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}
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}
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/**
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* Remove the tail of the list and return it. Calling this on an empty list
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* will assert.
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*/
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T* popBack() {
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MOZ_ASSERT(!isEmpty());
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MOZ_ASSERT(isStateValid());
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T* result = mTail;
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mTail = result ? SiblingAccess::GetPrev(result) : nullptr;
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if (mTail) {
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SiblingAccess::SetNext(mTail, nullptr);
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}
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if (mHead == result) {
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mHead = nullptr;
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}
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if (result) {
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SiblingAccess::SetNext(result, nullptr);
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SiblingAccess::SetPrev(result, nullptr);
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}
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return result;
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}
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/**
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* Insert the given |aElm| *before* |aIter|.
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*/
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void insertBefore(const Iterator& aIter, T* aElm) {
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MOZ_ASSERT(aElm);
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MOZ_ASSERT(ElementNotInList(aElm));
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MOZ_ASSERT(isStateValid());
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if (!aIter) {
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return pushBack(aElm);
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} else if (aIter == begin()) {
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return pushFront(aElm);
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}
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T* after = &(*aIter);
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T* before = SiblingAccess::GetPrev(after);
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MOZ_ASSERT(before);
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SiblingAccess::SetNext(before, aElm);
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SiblingAccess::SetPrev(aElm, before);
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SiblingAccess::SetNext(aElm, after);
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SiblingAccess::SetPrev(after, aElm);
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}
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/**
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* Removes the given element from the list. The element must be in this list.
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*/
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void remove(T* aElm) {
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MOZ_ASSERT(aElm);
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MOZ_ASSERT(SiblingAccess::GetNext(aElm) || SiblingAccess::GetPrev(aElm) ||
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(aElm == mHead && aElm == mTail),
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"Attempted to remove element not in this list");
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if (T* prev = SiblingAccess::GetPrev(aElm)) {
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SiblingAccess::SetNext(prev, SiblingAccess::GetNext(aElm));
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} else {
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MOZ_ASSERT(mHead == aElm);
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mHead = SiblingAccess::GetNext(aElm);
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}
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if (T* next = SiblingAccess::GetNext(aElm)) {
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SiblingAccess::SetPrev(next, SiblingAccess::GetPrev(aElm));
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} else {
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MOZ_ASSERT(mTail == aElm);
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mTail = SiblingAccess::GetPrev(aElm);
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}
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SiblingAccess::SetNext(aElm, nullptr);
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SiblingAccess::SetPrev(aElm, nullptr);
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}
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/**
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* Returns an iterator referencing the first found element whose value matches
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* the given element according to operator==.
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*/
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Iterator find(const T& aElm) {
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return std::find(begin(), end(), aElm);
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}
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/**
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* Returns whether the given element is in the list. Note that this uses
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* T::operator==, not pointer comparison.
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*/
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bool contains(const T& aElm) {
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return find(aElm) != Iterator();
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}
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};
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} // namespace mozilla
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#endif // mozilla_DoublyLinkedList_h
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