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终结Linked List(二)

时间:2020-01-01 23:56:29      阅读:141      评论:0      收藏:0      [点我收藏+]

三、编码技巧

1、遍历链表
先将head指针赋值给一个局部变量current

//return the number of nodes in a list (while-loop version)
int Length(struct node* head)
{
    int count = 0;
    struct node* current = head;

    while (current != NULL)
    {
        count++;
        current = current->next;
    }

    return count;
}

当然也可以写为:

for (current = head; current != NULL; current = current->next) {}

2、通过传递reference pointer改变某个指针
看个例子:

//Change the passed in head pointer to be NULL
//Uses a reference pointer to access the caller's memory
void ChangeToNull(struct node** headRef)  //takes a pointer to the value of interest
{
    *headRef = NULL;    //use * to access the value of interest
}

void ChangeCaller()
{
    struct node* head1;
    struct node* head2;

    ChangeToNull(&head1);   //use & to compute and pass a pointer to
    ChangeToNull(&head2);   //the value of interest
    //head1 and head2 are NULL at this point
}

这块的思想是和(一)中的Push()类似。
内存示意图:
技术分享图片
3、通过Push()建立链表(头插法)
这种方式的优点是速度飞快,简单易行,缺点是得到的链表是逆序的:

struct node* AddAtHead()
{
    struct node* head = NULL;

    for (int i = 1; i < 6; i++)
    {
        Push(&head, i);
    }

    //head == {5,4,3,2,1};
    return head;
}

4、尾插法建立链表
这种方法需要找到链表最后一个节点,改变其.next域:
技术分享图片

  • 插入或者删除节点,需要找到该节点的前一个节点的指针,改变其.next域;
  • 特例:如果涉及第一个节点的操作,那么一定要改变head指针。

5、特例+尾插法
如果要构建一个新的链表,那么头节点就要单独处理:

struct node* BuildWithSpecialCase()
{
    struct node* head = NULL;
    struct node* tail;
    
    //deal with the head node here, and set the tail pointer
    Push(&head, 1);
    tail = head;

    //do all the other nodes using "tail"
    for (int i = 2; i < 6; i++)
    {
        Push(&(tail->next), i);   //add node at tail->next
        tail = tail->next;     //advance tail to point to last node
    }

    return head;    //head == {1,2,3,4,5}
}

6、临时节点建立

struct node* BuildWithDummyNode()
{
    struct node dummy;   //dummy node is temporarily the first node
    struct node* tail = &dummy;   //build the list on dummy.next

    dummy.next = NULL;

    for (int i = 1; i < 6; i++)
    {
        Push(&(tail->next), i);
        tail = tail->next;
    }

    //the real result list is now in dummy.next
    //dummy.next == {1,2,3,4,5}
    return dummy.next;
}

7、本地指针建立

struct node* BuildWithLocalRef()
{
    struct node* head = NULL;
    struct node** lastPtrRef = &head;   //start out pointing to the head pointer

    for (int i = 1; i < 6; i++)
    {
        Push(lastPtrRef, i);  //add node at the last pointer in the list
        //advance to point to the new last pointer
        lastPtrRef = &((*lastPtrRef)->next);
    }

    return head;  //head == {1,2,3,4,5}
}

这块可能有些抽象:
1)lastPtrRef开始指向head指针,以后指向链表最后一个节点中的.next域;
2)在最后加上一个节点;
3)让lastPtrRef指针向后移动,指向最后一个节点的.next(*lastPtrRef)->next可以理解为*lastPtrRef指针指向的节点的next域。
技术分享图片

四、代码示例

1、AppendNode()
1) 不使用Push()函数:

struct node* AppendNode(struct node** headRef, int num)
{
    struct node* current = *headRef;
    struct node* newNode;

    newNode = (struct node*)malloc(sizeof(struct node));
    newNode->data = num;
    newNode->next = NULL;

    //special case for length 0
    if (current == NULL)
    {
        *headRef = newNode;
    }
    else
    {
        //Locate the last node
        while (current->next != NULL)
        {
            current = current->next;
        }

        current->next = newNode;
    }
}

2) 使用Push()函数:

struct node* AppendNode(struct node** headRef, int num)
{
    struct node* current = *headRef;

    //special case for length 0
    if (current == NULL)
    {
        Push(headRef, num);
    }
    else
    {
        //Locate the last node
        while (current->next != NULL)
        {
            current = current->next;
        }

        //Build the node after the last node
        Push(&(current->next), num);
    }
}

2、CopyList
用一个指针遍历原来的链表,两个指针跟踪新生成的链表(一个head,一个tail)。

1) 不使用Push()函数:

struct node* CopyList(struct node* head)
{
    struct node* current = head;   //used to iterate over the original list
    struct node* newList = NULL;   //head of the new list
    struct node* tail = NULL;     //kept pointing to the last node in the new list

    while (current != NULL)
    {
        if (newList == NULL)    //special case for the first new node
        {
            newList = (struct node*)malloc(sizeof(struct node));
            newList->data = current->data;
            newList->next = NULL;
            tail = newList;
        }
        else
        {
            tail->next = (struct node*)malloc(sizeof(struct node));
            tail = tail->next;
            tail->data = current->data;
            tail->next = NULL;
        }
        current = current->next;
    }

    return newList;
}

内存示意图:
技术分享图片
2) 使用Push()函数:

struct node* CopyList2(struct node* head)
{
    struct node* current = head;   //used to iterate over the original list
    struct node* newList = NULL;   //head of the new list
    struct node* tail = NULL;     //kept pointing to the last node in the new list

    while (current != NULL)
    {
        if (newList == NULL)    //special case for the first new node
        {
            Push(&newList, current->data);
            tail = newList;
        }
        else
        {
            Push(&(tail->next), current->data);   //add each node at the tail 
            tail = tail->next;       //advance the tail to the new last node;
        }
        current = current->next;
    }

    return newList;
}

3) 使用Dummy Node

struct node* CopyList3(struct node* head)
{
    struct node* current = head;   //used to iterate over the original list
    struct node* tail = NULL;     //kept pointing to the last node in the new list
    struct node dummy;            //build the new list off this dummy node

    dummy.next = NULL;
    tail = &dummy;      //start the tail pointing at the dummy

    while (current != NULL)
    {
        Push(&(tail->next), current->data);   //add each node at the tail
        tail = tail->next;                    //advance the tail to the new last node
        current = current->next;
    }

    return dummy.next;
}

4) 使用Local References

struct node* CopyList4(struct node* head)
{
    struct node* current = head;   //used to iterate over the original list
    struct node* newList = NULL;   //head of the new list
    struct node** lastPtr;           

    lastPtr = &newList;      //start off pointing to the head itself

    while (current != NULL)
    {
        Push(lastPtr, current->data);   //add each node at the lastPtr
        lastPtr = &((*lastPtr)->next);    //advance lastPtr
        current = current->next;
    }

    return newList;
}

核心思想是使用lastPtr指针指向每个节点的.next域这个指针,而不是指向节点本身。

  1. 使用Recursive
struct node* CopyList5(struct node* head)
{
    struct node* current = head;
    if (head == NULL)
        return NULL;
    else {
        struct node* newList = (struct node*)malloc(sizeof(struct node));  //make one node
        newList->data = current->data;

        newList->next = CopyList5(current->next);    //recur for the rest
        return newList;
    }
}

终结Linked List(二)

原文:https://www.cnblogs.com/EIMadrigal/p/12130892.html

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