1、使用插入排序对链表进行排序。
public ListNode insertionSortList(ListNode head) {
if(head == null){
return null;
}
ListNode curNode = head.next;
ListNode pNode = new ListNode(0);
pNode.next = head;
head.next = null;
while(curNode != null){
ListNode compareNode = pNode;
while(compareNode != null){
if(compareNode.next == null || compareNode.next.val>= curNode.val){
break;
}
compareNode = compareNode.next;
}
ListNode temp = curNode.next;
curNode.next = compareNode.next;
compareNode.next = curNode;
curNode = temp;
}
return pNode.next;
}
2、将给定的单链表L: L 0→L 1→…→L n-1→L n,重新排序为: L 0→L n →L 1→L n-1→L 2→L n-2→…要求使用原地算法,并且不改变节点的值。例如:对于给定的单链表{1,2,3,4},将其重新排序为{1,4,2,3}.
public void reorderList(ListNode head) {
if(head == null || head.next == null)
return;
// 快满指针找到中间节点
ListNode fast = head;
ListNode slow = head;
while(fast.next != null && fast.next.next != null){
fast = fast.next.next;
slow = slow.next;
}
// 拆分链表,并反转中间节点之后的链表
ListNode after = slow.next;
slow.next = null;
ListNode pre = null;
while(after != null){
ListNode temp = after.next;
after.next = pre;
pre = after;
after = temp;
}
// 合并两个链表
ListNode first = head;
after = pre;
while(first != null && after != null){
ListNode ftemp = first.next;
ListNode aftemp = after.next;
first.next = after;
first = ftemp;
after.next = first;
after = aftemp;
}
}
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