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/*
*
* Copyright (c) 1994
* Hewlett-Packard Company
*
* Permission to use, copy, modify, distribute and sell this software
* and its documentation for any purpose is hereby granted without fee,
* provided that the above copyright notice appear in all copies and
* that both that copyright notice and this permission notice appear
* in supporting documentation. Hewlett-Packard Company makes no
* representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*
*
* Copyright (c) 1996,1997
* Silicon Graphics Computer Systems, Inc.
*
* Permission to use, copy, modify, distribute and sell this software
* and its documentation for any purpose is hereby granted without fee,
* provided that the above copyright notice appear in all copies and
* that both that copyright notice and this permission notice appear
* in supporting documentation. Silicon Graphics makes no
* representations about the suitability of this software for any
* purpose. It is provided "as is" without express or implied warranty.
*/
/* NOTE: This is an internal header file, included by other STL headers.
* You should not attempt to use it directly.
*/
#ifndef __SGI_STL_INTERNAL_LIST_H
#define __SGI_STL_INTERNAL_LIST_H
__STL_BEGIN_NAMESPACE
#if defined(__sgi) && !defined(__GNUC__) && (_MIPS_SIM != _MIPS_SIM_ABI32)
#pragma set woff 1174
#endif
template <class T>
struct __list_node {
typedef void* void_pointer;
void_pointer next;
void_pointer prev;
T data;
};
template<class T, class Ref, class Ptr>
struct __list_iterator {
typedef __list_iterator<T, T&, T*> iterator;
typedef __list_iterator<T, const T&, const T*> const_iterator;
typedef __list_iterator<T, Ref, Ptr> self;
typedef bidirectional_iterator_tag iterator_category;
typedef T value_type;
typedef Ptr pointer;
typedef Ref reference;
typedef __list_node<T>* link_type;
typedef size_t size_type;
typedef ptrdiff_t difference_type;
link_type node;
__list_iterator(link_type x) : node(x) {}
__list_iterator() {}
__list_iterator(const iterator& x) : node(x.node) {}
bool operator==(const self& x) const { return node == x.node; }
bool operator!=(const self& x) const { return node != x.node; }
reference operator*() const { return (*node).data; }
#ifndef __SGI_STL_NO_ARROW_OPERATOR
pointer operator->() const { return &(operator*()); }
#endif /* __SGI_STL_NO_ARROW_OPERATOR */
self& operator++() {
node = (link_type)((*node).next);
return *this;
}
self operator++(int) {
self tmp = *this;
++*this;
return tmp;
}
self& operator--() {
node = (link_type)((*node).prev);
return *this;
}
self operator--(int) {
self tmp = *this;
--*this;
return tmp;
}
};
#ifndef __STL_CLASS_PARTIAL_SPECIALIZATION
template <class T, class Ref, class Ptr>
inline bidirectional_iterator_tag
iterator_category(const __list_iterator<T, Ref, Ptr>&) {
return bidirectional_iterator_tag();
}
template <class T, class Ref, class Ptr>
inline T*
value_type(const __list_iterator<T, Ref, Ptr>&) {
return 0;
}
template <class T, class Ref, class Ptr>
inline ptrdiff_t*
distance_type(const __list_iterator<T, Ref, Ptr>&) {
return 0;
}
#endif /* __STL_CLASS_PARTIAL_SPECIALIZATION */
template <class T, class Alloc = alloc>
class list {
protected:
typedef void* void_pointer;
typedef __list_node<T> list_node;
typedef simple_alloc<list_node, Alloc> list_node_allocator;
public:
typedef T value_type;
typedef value_type* pointer;
typedef const value_type* const_pointer;
typedef value_type& reference;
typedef const value_type& const_reference;
typedef list_node* link_type;
typedef size_t size_type;
typedef ptrdiff_t difference_type;
public:
typedef __list_iterator<T, T&, T*> iterator;
typedef __list_iterator<T, const T&, const T*> const_iterator;
#ifdef __STL_CLASS_PARTIAL_SPECIALIZATION
typedef reverse_iterator<const_iterator> const_reverse_iterator;
typedef reverse_iterator<iterator> reverse_iterator;
#else /* __STL_CLASS_PARTIAL_SPECIALIZATION */
typedef reverse_bidirectional_iterator<const_iterator, value_type,
const_reference, difference_type>
const_reverse_iterator;
typedef reverse_bidirectional_iterator<iterator, value_type, reference,
difference_type>
reverse_iterator;
#endif /* __STL_CLASS_PARTIAL_SPECIALIZATION */
protected:
link_type get_node() { return list_node_allocator::allocate(); }
void put_node(link_type p) { list_node_allocator::deallocate(p); }
link_type create_node(const T& x) {
link_type p = get_node();
__STL_TRY {
construct(&p->data, x);
}
__STL_UNWIND(put_node(p));
return p;
}
void destroy_node(link_type p) {
destroy(&p->data);
put_node(p);
}
protected:
void empty_initialize() {
node = get_node();
node->next = node;
node->prev = node;
}
void fill_initialize(size_type n, const T& value) {
empty_initialize();
__STL_TRY {
insert(begin(), n, value);
}
__STL_UNWIND(clear(); put_node(node));
}
#ifdef __STL_MEMBER_TEMPLATES
template <class InputIterator>
void range_initialize(InputIterator first, InputIterator last) {
empty_initialize();
__STL_TRY {
insert(begin(), first, last);
}
__STL_UNWIND(clear(); put_node(node));
}
#else /* __STL_MEMBER_TEMPLATES */
void range_initialize(const T* first, const T* last) {
empty_initialize();
__STL_TRY {
insert(begin(), first, last);
}
__STL_UNWIND(clear(); put_node(node));
}
void range_initialize(const_iterator first, const_iterator last) {
empty_initialize();
__STL_TRY {
insert(begin(), first, last);
}
__STL_UNWIND(clear(); put_node(node));
}
#endif /* __STL_MEMBER_TEMPLATES */
protected:
link_type node;
public:
list() { empty_initialize(); }
iterator begin() { return (link_type)((*node).next); }
const_iterator begin() const { return (link_type)((*node).next); }
iterator end() { return node; }
const_iterator end() const { return node; }
reverse_iterator rbegin() { return reverse_iterator(end()); }
const_reverse_iterator rbegin() const {
return const_reverse_iterator(end());
}
reverse_iterator rend() { return reverse_iterator(begin()); }
const_reverse_iterator rend() const {
return const_reverse_iterator(begin());
}
bool empty() const { return node->next == node; }
size_type size() const {
size_type result = 0;
distance(begin(), end(), result);
return result;
}
size_type max_size() const { return size_type(-1); }
reference front() { return *begin(); }
const_reference front() const { return *begin(); }
reference back() { return *(--end()); }
const_reference back() const { return *(--end()); }
void swap(list<T, Alloc>& x) { __STD::swap(node, x.node); }
iterator insert(iterator position, const T& x) {
link_type tmp = create_node(x);
tmp->next = position.node;
tmp->prev = position.node->prev;
(link_type(position.node->prev))->next = tmp;
position.node->prev = tmp;
return tmp;
}
iterator insert(iterator position) { return insert(position, T()); }
#ifdef __STL_MEMBER_TEMPLATES
template <class InputIterator>
void insert(iterator position, InputIterator first, InputIterator last);
#else /* __STL_MEMBER_TEMPLATES */
void insert(iterator position, const T* first, const T* last);
void insert(iterator position,
const_iterator first, const_iterator last);
#endif /* __STL_MEMBER_TEMPLATES */
void insert(iterator pos, size_type n, const T& x);
void insert(iterator pos, int n, const T& x) {
insert(pos, (size_type)n, x);
}
void insert(iterator pos, long n, const T& x) {
insert(pos, (size_type)n, x);
}
void push_front(const T& x) { insert(begin(), x); }
void push_back(const T& x) { insert(end(), x); }
iterator erase(iterator position) {
link_type next_node = link_type(position.node->next);
link_type prev_node = link_type(position.node->prev);
prev_node->next = next_node;
next_node->prev = prev_node;
destroy_node(position.node);
return iterator(next_node);
}
iterator erase(iterator first, iterator last);
void resize(size_type new_size, const T& x);
void resize(size_type new_size) { resize(new_size, T()); }
void clear();
void pop_front() { erase(begin()); }
void pop_back() {
iterator tmp = end();
erase(--tmp);
}
list(size_type n, const T& value) { fill_initialize(n, value); }
list(int n, const T& value) { fill_initialize(n, value); }
list(long n, const T& value) { fill_initialize(n, value); }
explicit list(size_type n) { fill_initialize(n, T()); }
#ifdef __STL_MEMBER_TEMPLATES
template <class InputIterator>
list(InputIterator first, InputIterator last) {
range_initialize(first, last);
}
#else /* __STL_MEMBER_TEMPLATES */
list(const T* first, const T* last) { range_initialize(first, last); }
list(const_iterator first, const_iterator last) {
range_initialize(first, last);
}
#endif /* __STL_MEMBER_TEMPLATES */
list(const list<T, Alloc>& x) {
range_initialize(x.begin(), x.end());
}
~list() {
clear();
put_node(node);
}
list<T, Alloc>& operator=(const list<T, Alloc>& x);
protected:
void transfer(iterator position, iterator first, iterator last) {
if (position != last) {
(*(link_type((*last.node).prev))).next = position.node;
(*(link_type((*first.node).prev))).next = last.node;
(*(link_type((*position.node).prev))).next = first.node;
link_type tmp = link_type((*position.node).prev);
(*position.node).prev = (*last.node).prev;
(*last.node).prev = (*first.node).prev;
(*first.node).prev = tmp;
}
}
public:
void splice(iterator position, list& x) {
if (!x.empty())
transfer(position, x.begin(), x.end());
}
void splice(iterator position, list&, iterator i) {
iterator j = i;
++j;
if (position == i || position == j) return;
transfer(position, i, j);
}
void splice(iterator position, list&, iterator first, iterator last) {
if (first != last)
transfer(position, first, last);
}
void remove(const T& value);
void unique();
void merge(list& x);
void reverse();
void sort();
#ifdef __STL_MEMBER_TEMPLATES
template <class Predicate> void remove_if(Predicate);
template <class BinaryPredicate> void unique(BinaryPredicate);
template <class StrictWeakOrdering> void merge(list&, StrictWeakOrdering);
template <class StrictWeakOrdering> void sort(StrictWeakOrdering);
#endif /* __STL_MEMBER_TEMPLATES */
friend bool operator== __STL_NULL_TMPL_ARGS (const list& x, const list& y);
};
template <class T, class Alloc>
inline bool operator==(const list<T,Alloc>& x, const list<T,Alloc>& y) {
typedef typename list<T,Alloc>::link_type link_type;
link_type e1 = x.node;
link_type e2 = y.node;
link_type n1 = (link_type) e1->next;
link_type n2 = (link_type) e2->next;
for ( ; n1 != e1 && n2 != e2 ;
n1 = (link_type) n1->next, n2 = (link_type) n2->next)
if (n1->data != n2->data)
return false;
return n1 == e1 && n2 == e2;
}
template <class T, class Alloc>
inline bool operator<(const list<T, Alloc>& x, const list<T, Alloc>& y) {
return lexicographical_compare(x.begin(), x.end(), y.begin(), y.end());
}
#ifdef __STL_FUNCTION_TMPL_PARTIAL_ORDER
template <class T, class Alloc>
inline void swap(list<T, Alloc>& x, list<T, Alloc>& y) {
x.swap(y);
}
#endif /* __STL_FUNCTION_TMPL_PARTIAL_ORDER */
#ifdef __STL_MEMBER_TEMPLATES
template <class T, class Alloc> template <class InputIterator>
void list<T, Alloc>::insert(iterator position,
InputIterator first, InputIterator last) {
for ( ; first != last; ++first)
insert(position, *first);
}
#else /* __STL_MEMBER_TEMPLATES */
template <class T, class Alloc>
void list<T, Alloc>::insert(iterator position, const T* first, const T* last) {
for ( ; first != last; ++first)
insert(position, *first);
}
template <class T, class Alloc>
void list<T, Alloc>::insert(iterator position,
const_iterator first, const_iterator last) {
for ( ; first != last; ++first)
insert(position, *first);
}
#endif /* __STL_MEMBER_TEMPLATES */
template <class T, class Alloc>
void list<T, Alloc>::insert(iterator position, size_type n, const T& x) {
for ( ; n > 0; --n)
insert(position, x);
}
template <class T, class Alloc>
list<T,Alloc>::iterator list<T, Alloc>::erase(iterator first, iterator last) {
while (first != last) erase(first++);
return last;
}
template <class T, class Alloc>
void list<T, Alloc>::resize(size_type new_size, const T& x)
{
iterator i = begin();
size_type len = 0;
for ( ; i != end() && len < new_size; ++i, ++len)
;
if (len == new_size)
erase(i, end());
else // i == end()
insert(end(), new_size - len, x);
}
template <class T, class Alloc>
void list<T, Alloc>::clear()
{
link_type cur = (link_type) node->next;
while (cur != node) {
link_type tmp = cur;
cur = (link_type) cur->next;
destroy_node(tmp);
}
node->next = node;
node->prev = node;
}
template <class T, class Alloc>
list<T, Alloc>& list<T, Alloc>::operator=(const list<T, Alloc>& x) {
if (this != &x) {
iterator first1 = begin();
iterator last1 = end();
const_iterator first2 = x.begin();
const_iterator last2 = x.end();
while (first1 != last1 && first2 != last2) *first1++ = *first2++;
if (first2 == last2)
erase(first1, last1);
else
insert(last1, first2, last2);
}
return *this;
}
template <class T, class Alloc>
void list<T, Alloc>::remove(const T& value) {
iterator first = begin();
iterator last = end();
while (first != last) {
iterator next = first;
++next;
if (*first == value) erase(first);
first = next;
}
}
template <class T, class Alloc>
void list<T, Alloc>::unique() {
iterator first = begin();
iterator last = end();
if (first == last) return;
iterator next = first;
while (++next != last) {
if (*first == *next)
erase(next);
else
first = next;
next = first;
}
}
template <class T, class Alloc>
void list<T, Alloc>::merge(list<T, Alloc>& x) {
iterator first1 = begin();
iterator last1 = end();
iterator first2 = x.begin();
iterator last2 = x.end();
while (first1 != last1 && first2 != last2)
if (*first2 < *first1) {
iterator next = first2;
transfer(first1, first2, ++next);
first2 = next;
}
else
++first1;
if (first2 != last2) transfer(last1, first2, last2);
}
template <class T, class Alloc>
void list<T, Alloc>::reverse() {
if (node->next == node || link_type(node->next)->next == node) return;
iterator first = begin();
++first;
while (first != end()) {
iterator old = first;
++first;
transfer(begin(), old, first);
}
}
template <class T, class Alloc>
void list<T, Alloc>::sort() {
if (node->next == node || link_type(node->next)->next == node) return;
list<T, Alloc> carry;
list<T, Alloc> counter[64];
int fill = 0;
while (!empty()) {
carry.splice(carry.begin(), *this, begin());
int i = 0;
while(i < fill && !counter[i].empty()) {
counter[i].merge(carry);
carry.swap(counter[i++]);
}
carry.swap(counter[i]);
if (i == fill) ++fill;
}
for (int i = 1; i < fill; ++i) counter[i].merge(counter[i-1]);
swap(counter[fill-1]);
}
#ifdef __STL_MEMBER_TEMPLATES
template <class T, class Alloc> template <class Predicate>
void list<T, Alloc>::remove_if(Predicate pred) {
iterator first = begin();
iterator last = end();
while (first != last) {
iterator next = first;
++next;
if (pred(*first)) erase(first);
first = next;
}
}
template <class T, class Alloc> template <class BinaryPredicate>
void list<T, Alloc>::unique(BinaryPredicate binary_pred) {
iterator first = begin();
iterator last = end();
if (first == last) return;
iterator next = first;
while (++next != last) {
if (binary_pred(*first, *next))
erase(next);
else
first = next;
next = first;
}
}
template <class T, class Alloc> template <class StrictWeakOrdering>
void list<T, Alloc>::merge(list<T, Alloc>& x, StrictWeakOrdering comp) {
iterator first1 = begin();
iterator last1 = end();
iterator first2 = x.begin();
iterator last2 = x.end();
while (first1 != last1 && first2 != last2)
if (comp(*first2, *first1)) {
iterator next = first2;
transfer(first1, first2, ++next);
first2 = next;
}
else
++first1;
if (first2 != last2) transfer(last1, first2, last2);
}
template <class T, class Alloc> template <class StrictWeakOrdering>
void list<T, Alloc>::sort(StrictWeakOrdering comp) {
if (node->next == node || link_type(node->next)->next == node) return;
list<T, Alloc> carry;
list<T, Alloc> counter[64];
int fill = 0;
while (!empty()) {
carry.splice(carry.begin(), *this, begin());
int i = 0;
while(i < fill && !counter[i].empty()) {
counter[i].merge(carry, comp);
carry.swap(counter[i++]);
}
carry.swap(counter[i]);
if (i == fill) ++fill;
}
for (int i = 1; i < fill; ++i) counter[i].merge(counter[i-1], comp);
swap(counter[fill-1]);
}
#endif /* __STL_MEMBER_TEMPLATES */
#if defined(__sgi) && !defined(__GNUC__) && (_MIPS_SIM != _MIPS_SIM_ABI32)
#pragma reset woff 1174
#endif
__STL_END_NAMESPACE
#endif /* __SGI_STL_INTERNAL_LIST_H */
// Local Variables:
// mode:C++
// End:
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