《剑指offer》第三十五题(复杂链表的复制)

// 面试题35:复杂链表的复制
// 题目:请实现函数ComplexListNode* Clone(ComplexListNode* pHead),复
// 制一个复杂链表。在复杂链表中,每个结点除了有一个m_pNext指针指向下一个
// 结点外,还有一个m_pSibling 指向链表中的任意结点或者nullptr。

#include <iostream>
#include "ComplexList.h"

void CloneNodes(ComplexListNode* pHead);
void ConnectSiblingNodes(ComplexListNode* pHead);
ComplexListNode* ReconnectNodes(ComplexListNode* pHead);

ComplexListNode* Clone(ComplexListNode* pHead)
{
    CloneNodes(pHead);
    ConnectSiblingNodes(pHead);
    return ReconnectNodes(pHead);
}

void CloneNodes(ComplexListNode* pHead)//将原链表每个节点复制一下,接在这个节点的后面,此时不设置m_pSibling
{
    ComplexListNode* pNode = pHead;
    while (pNode != nullptr)
    {
        ComplexListNode* pCloned = new ComplexListNode();
        pCloned->m_nValue = pNode->m_nValue;
        pCloned->m_pNext = pNode->m_pNext;
        pCloned->m_pSibling = nullptr;

        pNode->m_pNext = pCloned;

        pNode = pCloned->m_pNext;
    }
}

void ConnectSiblingNodes(ComplexListNode* pHead)//设置m_pSibling,设置的方式就是第45行
{
    ComplexListNode* pNode = pHead;
    while (pNode != nullptr)
    {
        ComplexListNode* pCloned = pNode->m_pNext;
        if (pNode->m_pSibling != nullptr)
        {
            pCloned->m_pSibling = pNode->m_pSibling->m_pNext;
        }

        pNode = pCloned->m_pNext;
    }
}

ComplexListNode* ReconnectNodes(ComplexListNode* pHead)//把偶数位的pCloned抽出来
{
    ComplexListNode* pNode = pHead;
    ComplexListNode* pClonedHead = nullptr;
    ComplexListNode* pClonedNode = nullptr;

    if (pNode != nullptr)
    {
        pClonedHead = pClonedNode = pNode->m_pNext;
        pNode->m_pNext = pClonedNode->m_pNext;
        pNode = pNode->m_pNext;
    }

    while (pNode != nullptr)
    {
        pClonedNode->m_pNext = pNode->m_pNext;
        pClonedNode = pClonedNode->m_pNext;

        pNode->m_pNext = pClonedNode->m_pNext;
        pNode = pNode->m_pNext;
    }

    return pClonedHead;
}

// ====================测试代码====================
void Test(const char* testName, ComplexListNode* pHead)
{
    if (testName != nullptr)
        printf("%s begins:
", testName);

    printf("The original list is:
");
    PrintList(pHead);

    ComplexListNode* pClonedHead = Clone(pHead);

    printf("The cloned list is:
");
    PrintList(pClonedHead);
}

//          -----------------
//         |/              |
//  1-------2-------3-------4-------5
//  |       |      /|             /|
//  --------+--------               |
//          -------------------------
void Test1()
{
    ComplexListNode* pNode1 = CreateNode(1);
    ComplexListNode* pNode2 = CreateNode(2);
    ComplexListNode* pNode3 = CreateNode(3);
    ComplexListNode* pNode4 = CreateNode(4);
    ComplexListNode* pNode5 = CreateNode(5);

    BuildNodes(pNode1, pNode2, pNode3);
    BuildNodes(pNode2, pNode3, pNode5);
    BuildNodes(pNode3, pNode4, nullptr);
    BuildNodes(pNode4, pNode5, pNode2);

    Test("Test1", pNode1);
}

// m_pSibling指向结点自身
//          -----------------
//         |/              |
//  1-------2-------3-------4-------5
//         |       | /|           /|
//         |       | --             |
//         |------------------------|
void Test2()
{
    ComplexListNode* pNode1 = CreateNode(1);
    ComplexListNode* pNode2 = CreateNode(2);
    ComplexListNode* pNode3 = CreateNode(3);
    ComplexListNode* pNode4 = CreateNode(4);
    ComplexListNode* pNode5 = CreateNode(5);

    BuildNodes(pNode1, pNode2, nullptr);
    BuildNodes(pNode2, pNode3, pNode5);
    BuildNodes(pNode3, pNode4, pNode3);
    BuildNodes(pNode4, pNode5, pNode2);

    Test("Test2", pNode1);
}

// m_pSibling形成环
//          -----------------
//         |/              |
//  1-------2-------3-------4-------5
//          |              /|
//          |               |
//          |---------------|
void Test3()
{
    ComplexListNode* pNode1 = CreateNode(1);
    ComplexListNode* pNode2 = CreateNode(2);
    ComplexListNode* pNode3 = CreateNode(3);
    ComplexListNode* pNode4 = CreateNode(4);
    ComplexListNode* pNode5 = CreateNode(5);

    BuildNodes(pNode1, pNode2, nullptr);
    BuildNodes(pNode2, pNode3, pNode4);
    BuildNodes(pNode3, pNode4, nullptr);
    BuildNodes(pNode4, pNode5, pNode2);

    Test("Test3", pNode1);
}

// 只有一个结点
void Test4()
{
    ComplexListNode* pNode1 = CreateNode(1);
    BuildNodes(pNode1, nullptr, pNode1);

    Test("Test4", pNode1);
}

// 鲁棒性测试
void Test5()
{
    Test("Test5", nullptr);
}

int main(int argc, char* argv[])
{
    Test1();
    Test2();
    Test3();
    Test4();
    Test5();
    system("pause");
    return 0;
}

 文件ComplexList.h

struct ComplexListNode
{
    int                 m_nValue;
    ComplexListNode*    m_pNext;
    ComplexListNode*    m_pSibling;
};

ComplexListNode* CreateNode(int nValue);
void BuildNodes(ComplexListNode* pNode, ComplexListNode* pNext, ComplexListNode* pSibling);
void PrintList(ComplexListNode* pHead);

 文件ComplexList.cpp

#include <iostream>
#include "ComplexList.h"

ComplexListNode* CreateNode(int nValue)
{
    ComplexListNode* pNode = new ComplexListNode();
    
    pNode->m_nValue = nValue;
    pNode->m_pNext = nullptr;
    pNode->m_pSibling = nullptr;

    return pNode;
}

void BuildNodes(ComplexListNode* pNode, ComplexListNode* pNext, ComplexListNode* pSibling)
{
    if(pNode != nullptr)
    {
        pNode->m_pNext = pNext;
        pNode->m_pSibling = pSibling;
    }
}

void PrintList(ComplexListNode* pHead)
{
    ComplexListNode* pNode = pHead;
    while(pNode != nullptr)
    {
        printf("The value of this node is: %d.
", pNode->m_nValue);

        if(pNode->m_pSibling != nullptr)
            printf("The value of its sibling is: %d.
", pNode->m_pSibling->m_nValue);
        else
            printf("This node does not have a sibling.
");

        printf("
");

        pNode = pNode->m_pNext;
    }
}
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原文地址:https://www.cnblogs.com/CJT-blog/p/10494280.html