《剑指offer》第二十五题(合并两个排序的链表)

时间:2023-03-09 08:47:02
《剑指offer》第二十五题(合并两个排序的链表) 
// 面试题25:合并两个排序的链表

// 题目:输入两个递增排序的链表,合并这两个链表并使新链表中的结点仍然是按

// 照递增排序的。例如输入图3.11中的链表1和链表2,则合并之后的升序链表如链

// 表3所示。

#include <iostream>

#include "List.h"

ListNode* Merge(ListNode* pHead1, ListNode* pHead2)

{

    if (pHead1 == nullptr)//鲁棒一:若为空节点直接返回另一数组

        return pHead2;

    else if (pHead2 == nullptr)

        return pHead1;

    ListNode* pMergedHead = nullptr;//定义了一个空间点,作为合并链表的头结点

    if (pHead1->m_nValue < pHead2->m_nValue)//真漂亮啊这代码

    {

        pMergedHead = pHead1;

        pMergedHead->m_pNext = Merge(pHead1->m_pNext, pHead2);

    }

    else

    {

        pMergedHead = pHead2;

        pMergedHead->m_pNext = Merge(pHead1, pHead2->m_pNext);

    }

    return pMergedHead;

}

// ====================测试代码====================

ListNode* Test(const char* testName, ListNode* pHead1, ListNode* pHead2)

{

    if (testName != nullptr)

        printf("%s begins:\n", testName);

    printf("The first list is:\n");

    PrintList(pHead1);

    printf("The second list is:\n");

    PrintList(pHead2);

    printf("The merged list is:\n");

    ListNode* pMergedHead = Merge(pHead1, pHead2);

    PrintList(pMergedHead);

    printf("\n\n");

    return pMergedHead;//这链表的测试代码返回都是头结点,以供删除

}

// list1: 1->3->5

// list2: 2->4->6

void Test1()

{

    ListNode* pNode1 = CreateListNode();

    ListNode* pNode3 = CreateListNode();

    ListNode* pNode5 = CreateListNode();

    ConnectListNodes(pNode1, pNode3);

    ConnectListNodes(pNode3, pNode5);

    ListNode* pNode2 = CreateListNode();

    ListNode* pNode4 = CreateListNode();

    ListNode* pNode6 = CreateListNode();

    ConnectListNodes(pNode2, pNode4);

    ConnectListNodes(pNode4, pNode6);

    ListNode* pMergedHead = Test("Test1", pNode1, pNode2);

    DestroyList(pMergedHead);

}

// 两个链表中有重复的数字

// list1: 1->3->5

// list2: 1->3->5

void Test2()

{

    ListNode* pNode1 = CreateListNode();

    ListNode* pNode3 = CreateListNode();

    ListNode* pNode5 = CreateListNode();

    ConnectListNodes(pNode1, pNode3);

    ConnectListNodes(pNode3, pNode5);

    ListNode* pNode2 = CreateListNode();

    ListNode* pNode4 = CreateListNode();

    ListNode* pNode6 = CreateListNode();

    ConnectListNodes(pNode2, pNode4);

    ConnectListNodes(pNode4, pNode6);

    ListNode* pMergedHead = Test("Test2", pNode1, pNode2);

    DestroyList(pMergedHead);

}

// 两个链表都只有一个数字

// list1: 1

// list2: 2

void Test3()

{

    ListNode* pNode1 = CreateListNode();

    ListNode* pNode2 = CreateListNode();

    ListNode* pMergedHead = Test("Test3", pNode1, pNode2);

    DestroyList(pMergedHead);

}

// 一个链表为空链表

// list1: 1->3->5

// list2: 空链表

void Test4()

{

    ListNode* pNode1 = CreateListNode();

    ListNode* pNode3 = CreateListNode();

    ListNode* pNode5 = CreateListNode();

    ConnectListNodes(pNode1, pNode3);

    ConnectListNodes(pNode3, pNode5);

    ListNode* pMergedHead = Test("Test4", pNode1, nullptr);

    DestroyList(pMergedHead);

}

// 两个链表都为空链表

// list1: 空链表

// list2: 空链表

void Test5()

{

    ListNode* pMergedHead = Test("Test5", nullptr, nullptr);

}

int main(int argc, char* argv[])

{

    Test1();

    Test2();

    Test3();

    Test4();

    Test5();

    system("pause");

    return ;

}

相关文章