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// Copyright 2008-2009 Daniel James.
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// Gratuitous single linked list.
//
// Sadly some STL implementations aren't up to scratch and I need a simple
// cross-platform container. So here it is.
#if !defined(UNORDERED_TEST_LIST_HEADER)
#define UNORDERED_TEST_LIST_HEADER
#include <boost/iterator.hpp>
#include <boost/limits.hpp>
#include <functional>
namespace test
{
template <typename It1, typename It2>
bool equal(It1 begin, It1 end, It2 compare)
{
for(;begin != end; ++begin, ++compare)
if(*begin != *compare) return false;
return true;
}
template <typename It1, typename It2, typename Pred>
bool equal(It1 begin, It1 end, It2 compare, Pred predicate)
{
for(;begin != end; ++begin, ++compare)
if(!predicate(*begin, *compare)) return false;
return true;
}
template <typename T> class list;
namespace test_detail
{
template <typename T> class list_node;
template <typename T> class list_data;
template <typename T> class list_iterator;
template <typename T> class list_const_iterator;
template <typename T>
class list_node
{
list_node(list_node const&);
list_node& operator=(list_node const&);
public:
T value_;
list_node* next_;
list_node(T const& v) : value_(v), next_(0) {}
list_node(T const& v, list_node* n) : value_(v), next_(n) {}
};
template <typename T>
class list_data
{
public:
typedef list_node<T> node;
typedef unsigned int size_type;
node* first_;
node** last_ptr_;
size_type size_;
list_data() : first_(0), last_ptr_(&first_), size_(0) {}
~list_data() {
while(first_) {
node* tmp = first_;
first_ = first_->next_;
delete tmp;
}
}
private:
list_data(list_data const&);
list_data& operator=(list_data const&);
};
template <typename T>
class list_iterator
: public boost::iterator<
std::forward_iterator_tag, T,
int, T*, T&>
{
friend class list_const_iterator<T>;
friend class test::list<T>;
typedef list_node<T> node;
typedef list_const_iterator<T> const_iterator;
node* ptr_;
public:
list_iterator() : ptr_(0) {}
explicit list_iterator(node* x) : ptr_(x) {}
T& operator*() const { return ptr_->value_; }
T* operator->() const { return &ptr_->value_; }
list_iterator& operator++() {
ptr_ = ptr_->next_; return *this; }
list_iterator operator++(int) {
list_iterator tmp = *this; ptr_ = ptr_->next_; return tmp; }
bool operator==(const_iterator y) const { return ptr_ == y.ptr_; }
bool operator!=(const_iterator y) const { return ptr_ != y.ptr_; }
};
template <typename T>
class list_const_iterator
: public boost::iterator<
std::forward_iterator_tag, T,
int, T const*, T const&>
{
friend class list_iterator<T>;
friend class test::list<T>;
typedef list_node<T> node;
typedef list_iterator<T> iterator;
typedef list_const_iterator<T> const_iterator;
node* ptr_;
public:
list_const_iterator() : ptr_(0) {}
list_const_iterator(list_iterator<T> const& x) : ptr_(x.ptr_) {}
T const& operator*() const { return ptr_->value_; }
T const* operator->() const { return &ptr_->value_; }
list_const_iterator& operator++()
{
ptr_ = ptr_->next_;
return *this;
}
list_const_iterator operator++(int)
{
list_const_iterator tmp = *this;
ptr_ = ptr_->next_;
return tmp;
}
bool operator==(const_iterator y) const
{
return ptr_ == y.ptr_;
}
bool operator!=(const_iterator y) const
{
return ptr_ != y.ptr_;
}
};
}
template <typename T>
class list
{
typedef test::test_detail::list_data<T> data;
typedef test::test_detail::list_node<T> node;
data data_;
public:
typedef T value_type;
typedef value_type& reference;
typedef value_type const& const_reference;
typedef unsigned int size_type;
typedef test::test_detail::list_iterator<T> iterator;
typedef test::test_detail::list_const_iterator<T> const_iterator;
list() : data_() {}
list(list const& other) : data_() {
insert(other.begin(), other.end());
}
template <class InputIterator>
list(InputIterator i, InputIterator j) : data_() {
insert(i, j);
}
list& operator=(list const& other) {
clear();
insert(other.begin(), other.end());
return *this;
}
iterator begin() { return iterator(data_.first_); }
iterator end() { return iterator(); }
const_iterator begin() const { return iterator(data_.first_); }
const_iterator end() const { return iterator(); }
const_iterator cbegin() const { return iterator(data_.first_); }
const_iterator cend() const { return iterator(); }
template <class InputIterator>
void insert(InputIterator i, InputIterator j) {
for(; i != j; ++i)
push_back(*i);
}
void push_front(value_type const& v) {
data_.first_ = new node(v, data_.first_);
if(!data_.size_) data_.last_ptr_ = &(*data_.last_ptr_)->next_;
++data_.size_;
}
void push_back(value_type const& v) {
*data_.last_ptr_ = new node(v);
data_.last_ptr_ = &(*data_.last_ptr_)->next_;
++data_.size_;
}
void clear() {
while(data_.first_) {
node* tmp = data_.first_;
data_.first_ = data_.first_->next_;
--data_.size_;
delete tmp;
}
data_.last_ptr_ = &data_.first_;
}
void erase(const_iterator start, const_iterator end) {
node** ptr = &data_.first_;
while(*ptr != start.ptr_) {
ptr = &(*ptr)->next_;
}
while(*ptr != end.ptr_) {
node* to_delete = *ptr;
*ptr = (*ptr)->next_;
--data_.size_;
delete to_delete;
}
if(!*ptr) data_.last_ptr_ = ptr;
}
bool empty() const {
return !data_.size_;
}
size_type size() const {
return data_.size_;
}
void sort() {
sort(std::less<T>());
}
template <typename Less>
void sort(Less less = Less()) {
if(!empty()) merge_sort(&data_.first_,
(std::numeric_limits<size_type>::max)(), less);
}
bool operator==(list const& y) const {
return size() == y.size() &&
test::equal(begin(), end(), y.begin());
}
bool operator!=(list const& y) const {
return !(*this == y);
}
private:
template <typename Less>
node** merge_sort(node** l, size_type recurse_limit, Less less)
{
node** ptr = &(*l)->next_;
for(size_type count = 0; count < recurse_limit && *ptr; ++count)
{
ptr = merge_adjacent_ranges(l, ptr,
merge_sort(ptr, count, less), less);
}
return ptr;
}
template <typename Less>
node** merge_adjacent_ranges(node** first, node** second,
node** third, Less less)
{
for(;;) {
for(;;) {
if(first == second) return third;
if(less((*second)->value_, (*first)->value_)) break;
first = &(*first)->next_;
}
swap_adjacent_ranges(first, second, third);
first = &(*first)->next_;
// Since the two ranges we just swapped, the order is now:
// first...third...second
for(;;) {
if(first == third) return second;
if(!less((*first)->value_, (*third)->value_)) break;
first = &(*first)->next_;
}
swap_adjacent_ranges(first, third, second);
first = &(*first)->next_;
}
}
void swap_adjacent_ranges(node** first, node** second, node** third)
{
node* tmp = *first;
*first = *second;
*second = *third;
*third = tmp;
if(!*second) data_.last_ptr_ = second;
}
};
}
#endif
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