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我有問題試圖將INSERT函數轉換爲按字母順序排列節點的函數。我寫下了迄今爲止我嘗試過的內容......但它只檢查第一個節點的名稱,以查看它是否大於函數參數中新節點的給定名稱。有人可以給我一個關於如何能夠移動通過每個節點並且能夠比較它們的鍵(名稱)並相應地將它們左右放置的想法嗎?下面是我在我的代碼和我的INSERT功能到目前爲止...將未排序的鏈接列表變成已排序的鏈接列表? (C++)
// UnSortedLnkList.h
//----------------------------
#include <iostream>
#include <afxwin.h>
using namespace std;
#define new DEBUG_NEW
struct Node {
string m_name; // key
int m_age;
Node* m_next;
Node(const string& name, int age, Node* next = NULL);
};
ostream& operator<< (ostream&, const Node&);
class ULnkList {
friend ostream& operator<< (ostream&, const ULnkList&); // 1.5
public:
ULnkList();
// copy ctor
ULnkList(const ULnkList& existingList); // 5
~ULnkList(); // 4
bool IsEmpty() const;
int Size() const;
bool Insert(const string& name, int age); // 1
bool Delete(const string& name); // 3
bool Lookup(const string& name, int& age) const; // 2
ULnkList& operator =(const ULnkList& list2); // 6
bool Delete2(const string& name);
private:
Node* m_head; // points to head of the list
int m_num; // the number of entries in the list
// helper functions:
void Clear(); // 7
void Copy(const ULnkList& list2); // 8
};
// UnSortedLnkList.cpp
//----------------------------
#include "UnSortedLnkList.h"
#include <iostream>
#include <string>
using namespace std;
Node::Node(const string& name, int age, Node* next)
: m_name(name), m_age(age), m_next(next)
{}
ostream& operator<< (ostream& os, const Node& n) // cout << n;
{
os << "Name: " << n.m_name << "\tAge: " << n.m_age;
return os;
}
ULnkList::ULnkList()
: m_head(new Node("",-99,NULL)), m_num(0)
{
//m_head = new Node("",-99,NULL);
}
//
ULnkList::ULnkList(const ULnkList& existingList)
{
Copy(existingList);
}
void ULnkList::Copy(const ULnkList& existingList)
{
m_num = existingList.m_num;
// create dummy node
m_head = new Node("",-99,NULL);
// traverse existing list
Node *pe = existingList.m_head->m_next;
Node *pThis = m_head;
while(pe != 0)
{
// create a copy of the Node in OUR list
pThis->m_next = new Node(pe->m_name,pe->m_age,0);
// update pointers
pe = pe->m_next;
pThis = pThis->m_next;
}
}
void ULnkList::Clear()
{
Node *p = m_head->m_next;
Node *tp = m_head; // trail pointer
while(p != 0)
{
delete tp;
// update pointers
tp = p; //
p = p->m_next;
}
delete tp;
}
ULnkList& ULnkList::operator =(const ULnkList& list2) // list1 = list2;
{
// list1 = list1; // check for self-assignment
if(this != &list2)
{
this->Clear(); // normally Clear();
this->Copy(list2);
}
// l1 = l2 = l3;
return *this;
}
bool ULnkList::IsEmpty() const
{
return m_num == 0;
// return m_head->m_next == NULL;
}
int ULnkList::Size() const
{
return m_num;
}
//
ULnkList::Insert(const string& name, int age)
{
Node *current = m_head->m_next;
Node *previous = m_head;
if (m_head->m_next == NULL)
{
m_head->m_next = new Node(name,age,m_head->m_next);
m_num++;
return true;
}
if (name < m_head->m_next->m_name)
{
m_head->m_next = new Node(name,age,m_head->m_next);
m_num++;
return true;
}
return true;
}
//
ostream& operator<< (ostream& os, const ULnkList& list) // cout << list;
{
Node *p = list.m_head->m_next; // first node with data
while(p != 0)
{
cout << *p << endl; // ????
// update p
p = p->m_next;
}
cout << "--------------------------------------" << endl;
return os;
}
// input: name
//// output: age if found
bool ULnkList::Lookup(const string& name, int& age) const
{
// linear search
Node *p = m_head->m_next;
while(p != 0)
{
if(name == p->m_name)
{
// found it
age = p->m_age;
return true;
}
// update p
p = p->m_next;
}
return false;
}
//
bool ULnkList::Delete(const string& name)
{
Node *p = m_head->m_next;
Node *tp = m_head; // trail pointer
while(p != 0)
{
if(name == p->m_name)
{
// found it, so now remove it
// fix links
tp->m_next = p->m_next;
// delete the node
delete p;
return true;
}
// update pointers
tp = p; // tp = tp->m_next;
p = p->m_next;
}
return false;
}
bool ULnkList::Delete2(const string& name)
{
Node *p = m_head;
while(p->m_next != 0) // ?????
{
if(p->m_next->m_name == name)
{
Node *save = p->m_next;
// remove the node
// fix links
p->m_next = p->m_next->m_next;
// delete memory
delete save;
return true;
}
// update pointers
p = p->m_next;
}
return false;
}
//
ULnkList::~ULnkList()
{
Clear();
}
//
如果這是功課,請標記爲這樣。否則,不要使用鏈表來產生一個糟糕的'std :: set'模擬(好吧,我沒有仔細觀察 - 也許這是對std :: multiset的模仿)。哦,既然你沒有編寫模板,也可以從你的代碼中刪除'this->'。 –