/* Copyright (c) 2000, 2012, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; see the file COPYING. If not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. */ /* mySTL list implements a simple list * */ #ifndef mySTL_LIST_HPP #define mySTL_LIST_HPP #include "helpers.hpp" namespace mySTL { template class list { #ifdef __SUNPRO_CC /* Sun Forte 7 C++ v. 5.4 needs class 'node' public to be visible to the nested class 'iterator' (a non-standard behaviour). */ public: #endif struct node { node(T t) : prev_(0), next_(0), value_(t) {} node* prev_; node* next_; T value_; }; public: list() : head_(0), tail_(0), sz_(0) {} ~list(); void push_front(T); void pop_front(); T front() const; void push_back(T); void pop_back(); T back() const; bool remove(T); size_t size() const { return sz_; } bool empty() const { return sz_ == 0; } class iterator { node* current_; public: explicit iterator(node* p = 0) : current_(p) {} T& operator*() const { return current_->value_; } T* operator->() const { return &(operator*()); } iterator& operator++() { current_ = current_->next_; return *this; } iterator& operator--() { current_ = current_->prev_; return *this; } iterator operator++(int) { iterator tmp = *this; current_ = current_->next_; return tmp; } iterator operator--(int) { iterator tmp = *this; current_ = current_->prev_; return tmp; } bool operator==(const iterator& other) const { return current_ == other.current_; } bool operator!=(const iterator& other) const { return current_ != other.current_; } friend class list; }; class reverse_iterator { node* current_; public: explicit reverse_iterator(node* p = 0) : current_(p) {} T& operator*() const { return current_->value_; } T* operator->() const { return &(operator*()); } reverse_iterator& operator++() { current_ = current_->prev_; return *this; } reverse_iterator& operator--() { current_ = current_->next_; return *this; } reverse_iterator operator++(int) { reverse_iterator tmp = *this; current_ = current_->prev_; return tmp; } reverse_iterator operator--(int) { reverse_iterator tmp = *this; current_ = current_->next_; return tmp; } bool operator==(const reverse_iterator& other) const { return current_ == other.current_; } bool operator!=(const reverse_iterator& other) const { return current_ != other.current_; } friend class list; }; bool erase(iterator); iterator begin() const { return iterator(head_); } reverse_iterator rbegin() const { return reverse_iterator(tail_); } iterator end() const { return iterator(); } reverse_iterator rend() const { return reverse_iterator(); } typedef iterator const_iterator; // for now class underflow {}; class overflow {}; private: node* head_; node* tail_; size_t sz_; node* look_up(T); list(const list&); // hide copy list& operator=(const list&); // and assign }; template list::~list() { node* start = head_; node* next_; for (; start; start = next_) { next_ = start->next_; destroy(start); FreeMemory(start); } } template void list::push_front(T t) { void* mem = GetMemory(sizeof(node)); node* add = new (reinterpret_cast(mem)) node(t); if (head_) { add->next_ = head_; head_->prev_ = add; } else tail_ = add; head_ = add; ++sz_; } template void list::pop_front() { node* front = head_; if (head_ == 0) return; else if (head_ == tail_) head_ = tail_ = 0; else { head_ = head_->next_; head_->prev_ = 0; } destroy(front); FreeMemory(front); --sz_; } template T list::front() const { if (head_ == 0) return T(); return head_->value_; } template void list::push_back(T t) { void* mem = GetMemory(sizeof(node)); node* add = new (reinterpret_cast(mem)) node(t); if (tail_) { tail_->next_ = add; add->prev_ = tail_; } else head_ = add; tail_ = add; ++sz_; } template void list::pop_back() { node* rear = tail_; if (tail_ == 0) return; else if (tail_ == head_) tail_ = head_ = 0; else { tail_ = tail_->prev_; tail_->next_ = 0; } destroy(rear); FreeMemory(rear); --sz_; } template T list::back() const { if (tail_ == 0) return T(); return tail_->value_; } template typename list::node* list::look_up(T t) { node* list = head_; if (list == 0) return 0; for (; list; list = list->next_) if (list->value_ == t) return list; return 0; } template bool list::remove(T t) { node* del = look_up(t); if (del == 0) return false; else if (del == head_) pop_front(); else if (del == tail_) pop_back(); else { del->prev_->next_ = del->next_; del->next_->prev_ = del->prev_; destroy(del); FreeMemory(del); --sz_; } return true; } template bool list::erase(iterator iter) { node* del = iter.current_; if (del == 0) return false; else if (del == head_) pop_front(); else if (del == tail_) pop_back(); else { del->prev_->next_ = del->next_; del->next_->prev_ = del->prev_; destroy(del); FreeMemory(del); --sz_; } return true; } } // namespace mySTL #endif // mySTL_LIST_HPP