//快排,冒泡链表排序
#include
#include
using namespace std;
template
struct LinkNode
{
T _data;
LinkNode* _next;
LinkNode(const T& x)
:_data(x)
, _next(NULL)
{}
};
template
class ListNode
{
//为了安全性
private:
ListNode(const ListNode& l)
{}
ListNode& operator=(ListNode l)
{}
public:
//程序限制
LinkNode* _head;
public:
ListNode()
:_head(NULL)
{}
~ListNode()
{
while (_head)
{
PopBack();
}
}
void PushBack(const T& x)
{
LinkNode* tmp = new LinkNode(x);
if (_head == NULL)
_head = tmp;
else
{
LinkNode* cur = _head;
while (cur->_next)
cur = cur->_next;
cur->_next = tmp;
}
}
void PopBack()
{
if (_head == NULL)
return;
if (_head->_next == NULL)
{
delete _head;
_head = NULL;
}
else
{
LinkNode* cur = _head;
while (cur->_next&&cur->_next->_next)
{
cur = cur->_next;
}
LinkNode* del = cur->_next;
cur->_next = NULL;
delete del;
}
}
LinkNode* Search(const T& x)
{
if (_head == NULL)
return NULL;
LinkNode* cur = _head;
while (cur->_data != x)
cur = cur->_next;
return cur;
}
void Print()
{
LinkNode* cur = _head;
while (cur)
{
cout << cur->_data << " ";
cur = cur->_next;
}
cout << endl;
}
};
template
LinkNode* QuickPartion(LinkNode* begin,LinkNode* end)//前闭后开
{
if (begin== end)
return begin;
LinkNode* prev,* cur;
prev = begin;
cur = begin->_next;
int tmp = begin->_data;
while (cur != end)
{
if(cur->_data < tmp)
{
prev = prev->_next;
if (cur!=prev)
swap(cur->_data, prev->_data);
}
cur = cur->_next;
}
swap(prev->_data, begin->_data);
return prev;
}
template
void QuickSort(LinkNode* head,LinkNode* tail)
{
if (head == NULL || head-== tail)
return;
LinkNode* mid = QuickPartion(head, tail);
QuickSort(head, mid);
QuickSort(mid->_next, tail);
}
template
void BubbleSort(LinkNode* head)
{
if (head == NULL || head->_next == NULL)
return;
LinkNode* start = head;
LinkNode* end = NULL;
LinkNode* curBegin = NULL;
int flag = 0;
while (start->_next)
{
curBegin = start;
flag = 0;
while (curBegin->_next != end)
{
if (curBegin->_data > curBegin->_next->_data)
{
swap(curBegin->_data, curBegin->_next->_data);
flag = 1;
}
curBegin = curBegin->_next;
}
if (flag == 0)
break;//优化,若有序,直接跳出
end = curBegin;
}
}
template
LinkNode* SearchMidNode(LinkNode* head)
{
if (head == NULL || head->_next == NULL)
return head;
LinkNode* slow = head;
LinkNode* fast = head;
while (fast&&fast->_next)//偶数个数中间任意一个
//while (fast&&fast->_next&&fast->_next->_next)//偶数个数找到中间的第一个
{
fast = fast->_next->_next;
slow = slow->_next;
}
return slow;
}
void Test1()
{
ListNode l1;
l1.PushBack(10);
l1.PushBack(9);
l1.PushBack(8);
l1.PushBack(7);
l1.PushBack(6);
l1.PushBack(6);
l1.PushBack(5);
l1.PushBack(9);
l1.PushBack(0);
l1.PushBack(1);
l1.PushBack(2);
/*LinkNode* tail = NULL;
QuickSort(l1._head,tail);*/
//BubbleSort(l1._head);
cout << SearchMidNode(l1._head)->_data<< endl;
l1.Print();
}
分享文章:单链表的排序(快排和冒泡实现)以及查找中间结点
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