c++ 链表基础功能实现

#include<stack>

struct ListNode 
{
    int m_nValue;
    ListNode* m_pNext;
};

ListNode* CreateListNode(int value)
{
    ListNode* pNode = new ListNode();
    pNode->m_nValue = value;
    pNode->m_pNext = nullptr;
    return pNode;
}

void ConnectListNodes(ListNode* pCurrent, ListNode* pNext)
{
    if (pCurrent == nullptr)
    {
        printf("Error to connect two nodes.\n");
        exit(1);
    }
    pCurrent->m_pNext = pNext;
}

void PrintListNodeValue(ListNode* pNode)
{
    if (pNode == nullptr)
        printf("The node is nullptr.\n");
    else
        printf("The value of the node is %d .\n", pNode->m_nValue);
}

void PrintListNode(ListNode* pHead)
{
    printf("PrintList starts.\n");
    ListNode* pNode = pHead;
    while (pNode != nullptr)
    {
        printf("%d\t", pNode->m_nValue);
        pNode = pNode->m_pNext;
    }
    printf("\nPrintList ends.\n");
}

void DestroyList(ListNode* pHead)
{
    ListNode* pNode = pHead;
    while (pNode != nullptr)
    {
        pHead = pHead->m_pNext;
        delete pNode;
        pNode = pHead;
    }
}

void AddToTail(ListNode**pHead, int value)
{
    ListNode* pNew = new ListNode();
    pNew->m_nValue = value;
    pNew->m_pNext = nullptr;
    if (*pHead = nullptr)
        *pHead = pNew;
    else
    {
        ListNode* pNode = *pHead;
        while (pNode->m_pNext != nullptr)
            pNode = pNode->m_pNext;
        pNode->m_pNext = pNew;
    }
}

void RemoveNode(ListNode** pHead, int value)
{
    if (*pHead == nullptr || pHead == nullptr)
        return;
    ListNode* pToBeDeleted = nullptr;
    if ((*pHead)->m_nValue == value)
    {
        pToBeDeleted = *pHead;
        *pHead = (*pHead)->m_pNext;
    }
    else
    {
        ListNode* pNode = *pHead;
        while (pNode->m_pNext != nullptr && pNode->m_pNext->m_nValue != value)
            pNode = pNode->m_pNext;
        if (pNode->m_pNext != nullptr && pNode->m_pNext->m_nValue == value)
        {
            pToBeDeleted = pNode->m_pNext;
            pNode->m_pNext = pNode->m_pNext->m_pNext;
        }
    }
    if (pToBeDeleted != nullptr)
    {
        delete pToBeDeleted;
        pToBeDeleted = nullptr;
    }
}

void PrintListReversingly_Iteratively(ListNode* pHead)
{
    std::stack<ListNode*>nodes;
    ListNode* pNode = pHead;
    while (pNode != nullptr)
    {
        nodes.push(pNode);
        pNode = pNode->m_pNext;
    }
    while (!nodes.empty())
    {
        pNode = nodes.top();
        printf("%d\t", pNode->m_nValue);
        nodes.pop();
    }
}

void PrintListReversingly_Recursively(ListNode* pHead)
{
    if (pHead != nullptr)
    {
        if (pHead->m_pNext != nullptr)
        {
            PrintListReversingly_Recursively(pHead->m_pNext);

        }
        printf("%d\t", pHead->m_nValue);
    }
}

void Test(ListNode* pHead)
{
    PrintListNode(pHead);
    PrintListReversingly_Iteratively(pHead);
    printf("\n");
    PrintListReversingly_Recursively(pHead);
    
}

void Test1()
{
    printf("\nTest1 begins.\n");
    ListNode* pNode1 = CreateListNode(1);
    ListNode* pNode2 = CreateListNode(2);
    ListNode* pNode3 = CreateListNode(3);
    ListNode* pNode4 = CreateListNode(4);
    ListNode* pNode5 = CreateListNode(5);

    ConnectListNodes(pNode1, pNode2);
    ConnectListNodes(pNode2, pNode3);
    ConnectListNodes(pNode3, pNode4);
    ConnectListNodes(pNode4, pNode5);

    Test(pNode1);
    DestroyList(pNode1);
}

int main(int argc, char* argv[])
{
    Test1();
    getchar();
}