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STL
之 vector源码实现(云算法<< [] = 重载, new delete,throw catch)
堆(stack) 之 c 和 c++模板实现(空类默认成员函数
初谈引用 内联函数)
第一次实现list模板(幼稚的我)
队列(queue)
之 c++模板实现(友元函数和运算符重载)
STL
之 初识set multiset(map multimap)
c++
string 之 find_first of 实现(更改篇)
c++ fstream + string 处理大数据(与c 的fread)
一:起因(參考)
(1)数据结构里面两种很重要的存储结构,线性结构中的连续存储结构(代表vector数组)和非连续存储结构(代表list链表),他们两者被广泛的应用在
各个领域。是最基本最基础的两种存储结构。
(2)vector 已经简单的实现了,请看STL 之 vector的实现 之前还实现了STL的string类,请看 STL 之 string 的实现
(3)之前的友元类仅仅是停留在理论层面,真正实现还是头一次。(尽管友元函数,无数次的实现过了)这个友元类正是 Iterator 类,也是初次实现
Iterator。见识了Iterator ++ --运算符的重载,注意只实现了单一方向的++ --(这是源码这样处理的)。友元类很像java中的内部类。
。
。
(4)我也幼稚过,请看第一次实现list模板
(5)list 自己也是结合STL的源码,结合数据结构简单的实现的。里面可能有一些处理不当,请大神们指正,谢谢。
二:list实现
(1)list的分析
List是一种可在常数时间内在不论什么位置运行插入和删除操作的顺序容器。
list是双向链表。其迭代器是双向的。与其它顺序容器(array, vector, deque)相比。list
容器在任何位置运行插入、提取、和移动元素的操作更高效,但它不能通过在容器中的位置直接获取元素。
(2)list中的一些主要函数(注意。自己只实现了一部分)
Operations
list::splice() ———— 将一个list A中的元素转移到list B的指定位置。并将A中被转移的元素删除。
list::remove() ———— 将list中指定的元素删除。
list::unique() ———— 删除list中具有同样值的元素,仅仅保留第一个。也能够依据条件删除具有同样条件的元素,仅仅保留第一个。
list::merge() ———— 合并两个list。在合并之前两个list应该先排序,合并之后的list依旧有序。
也能够自己定义排序的条件。
list::sort() ———— 对list中的元素进行排序,变更它们在容器中的位置。sort()还能够按给定条件进行排序。
list::reverse() ——_ 改变list中元素的顺序。
(3)list的实现
a 构造函数 MyList(const MyList<T>& list0)
template<class T>
MyList<T>::MyList(const MyList<T>& list0)
{
size = list0.size;
node *cur0 = list0.head;
node *tp = new node;
tp->data = cur0->data;
head = tp;
rear = tp;
head->last = NULL;
while(cur0->next!=NULL)
{
cur0 = cur0->next;
node *tp = new node;
tp->data = cur0->data;
tp->last = rear;
rear->next = tp;
rear = tp;
}
rear->next = NULL;
}b +=重载(注意自加)
// MyList 的+= 感觉能够改进的,别两个while了
MyList<T>& operator += (const MyList<T>& list)
{
if(list.head == (*this).head)
{// meichuli
//cout << "****" << endl;
MyList<T> other(list);
//cout << "&&&&&" << endl;
return *this += other;
}
if(NULL == list.head)// list 空串
return *this;
node *cur = list.head;
node *tp = new node;
tp->data = cur->data;
if(head == NULL)
{// 当前list为空的
head = tp;
head ->last = NULL;
rear = tp;
}
else
{
rear->next = tp;
tp->last = rear;
rear = tp;
}
while(cur->next!=NULL)
{
cur = cur->next;
node *tp = new node;
tp->data = cur->data;
rear->next = tp;
tp->last = rear;
rear = tp;
}
rear->next = NULL;
size += list.size;
return *this;
}c 友元类(内部类)
//Iterator class
class MyIterator
{
friend class MyList<T>;
protected:
node* Iter;
MyIterator(node *iter)
{
Iter = iter;
}
public:
MyIterator(){}
// 先加上
MyIterator& operator ++()
{
Iter = Iter->next;
return *this;
}
// 先减去
MyIterator& operator --()
{
Iter = Iter->last;
return *this;
}
MyIterator& operator = (MyIterator& it)
{
Iter = it.Iter;
return *this;
}
bool operator ==(const MyIterator& iter)
{
return Iter==iter.Iter?true:false;
}
bool operator !=(const MyIterator& iter)
{
return Iter!=iter.Iter?true:false;
}
T operator *()
{
return Iter->data;
}
MyIterator &operator[](int n)
{
for(int i=0;i<n;i++)
{
assert(NULL!=Iter);
Iter=Iter->next;
}
return *this;
}
MyIterator &operator +(int n)
{
for(int i=0;i<n;i++)
{
assert(NULL!=Iter);
Iter=Iter->next;
}
return *this;
}
};// MyIterator 内部类d 字符串反转
// reverse 对于同一个串进行交换。e 移除指定元素。 template<class T> void MyList<T>::reserve(MyIterator& it1,MyIterator& it2) { node *le = it1.Iter; node *ri = it1.Iter; int c = 1; // 不是非常理解的 for(;ri!=it2.Iter;ri=ri->next) { c++; } for(;c>1;c-=2) { // 值交换,指针交换?? le->data ^= ri->data; ri->data ^= le->data; le->data ^= ri->data; le = le->next; ri = ri->last; } }
// remove value
template<class T>
void MyList<T>::remove(T val)
{
node *tp = head;
for(;tp!=NULL;)
{
if(tp->data==val)
{
tp = this->erase(MyIterator(tp)).Iter;
}
else
{
tp = tp->next;
}
}
}(4)完整代码例如以下:MyList.h
#ifndef MYLIST_H_INCLUDED
#define MYLIST_H_INCLUDED
#include <iostream>
#include <cassert>
#include <cstdio>
#include <string>
using namespace std;
template<class T>
class MyList
{
friend class MyIterator;
protected:
struct node
{
T data;
node *next;
node *last;
};
private:
node *head;
node *rear;
int size;
public:
//constructor
MyList();
MyList(const MyList<T>&);
MyList(T,int);
MyList(T);
//disconstructor
~MyList(){this->clear();}
//Iterator class
class MyIterator
{
friend class MyList<T>;
protected:
node* Iter;
MyIterator(node *iter)
{
Iter = iter;
}
public:
MyIterator(){}
// 先加上
MyIterator& operator ++()
{
Iter = Iter->next;
return *this;
}
// 先减去
MyIterator& operator --()
{
Iter = Iter->last;
return *this;
}
MyIterator& operator = (MyIterator& it)
{
Iter = it.Iter;
return *this;
}
bool operator ==(const MyIterator& iter)
{
return Iter==iter.Iter?true:false;
}
bool operator !=(const MyIterator& iter)
{
return Iter!=iter.Iter?true:false;
}
T operator *()
{
return Iter->data;
}
MyIterator &operator[](int n)
{
for(int i=0;i<n;i++)
{
assert(NULL!=Iter);
Iter=Iter->next;
}
return *this;
}
MyIterator &operator +(int n)
{
for(int i=0;i<n;i++)
{
assert(NULL!=Iter);
Iter=Iter->next;
}
return *this;
}
};// MyIterator 内部类
// public:// 功能函数
MyList<T> sublist(MyIterator&,MyIterator&);
MyList<T> sublist(MyIterator&,int);
MyList<T> sublist(MyIterator&);
void push_back(const T);
void push_front(const T);
void pop_back();
void pop_front();
void clear();
void reserve();
void reserve(MyIterator&,MyIterator&);
void replace(T,T);
void swap(MyList<T>&);
void display();
void display_rear();
void insert(MyIterator&,T);
void f_insert(MyIterator&,T);
void remove(T);
bool exist(T);
bool up_order();
bool down_order();
int get_size(){return size;}
// swap 值
friend void swap(MyIterator& it1,MyIterator& it2)
{
(it1.Iter)->data ^= (it2.Iter)->data;
(it2.Iter)->data ^= (it1.Iter)->data;
(it1.Iter)->data ^= (it2.Iter)->data;
}
// erase 当前的it,返回it->next
MyIterator erase(MyIterator& it)
{
assert(0 != size);
size--;
if(0 == size)
{
head = NULL;
rear = NULL;
return MyIterator(NULL);
}
if(it.Iter == head)
{
node *tp = head;
head = head->next;
head->last = NULL;
delete(tp);
return MyIterator(head);
}
if(it.Iter == rear)
{
node *tp = rear;
rear = rear->last;
rear->next = NULL;
delete(tp);
return MyIterator(NULL);
}
(it.Iter)->last->next = (it.Iter)->next;
(it.Iter)->next->last = (it.Iter)->last;
node *ans = it.Iter->next;
delete(it.Iter);
return MyIterator(ans);// 返回结果
}
// find 返回ter指针
MyIterator find(T val)
{
node *tp = head;
for(;tp!=NULL;tp=tp->next)
{
if((tp->data)==val) return MyIterator(tp);
}
return MyIterator(NULL);
}
MyIterator begin(){return MyIterator(head);}
MyIterator end(){return MyIterator(rear);}
T& front(){return head->data;}
T& back(){return rear->data;}
bool empty(){return 0==size?true:false;}
void link(MyList<T>& list0){*this += list0;}
void reset(MyIterator& it,T val){(it.Iter)->data = val;}
// public://运算符重载
MyList<T>& operator = (const MyList<T>& list)
{
if(list.head == (*this).head)
return *this;
this->clear();
if(NULL==list.head)
{//空的
this->head = NULL;
this->rear = NULL;
return *this;
}
if(1 == list.size)
{//一个节点
//node *tp = new node;
node *tp = new node;
tp->data = list.head->data;
head = tp;
head->last = NULL;
rear = tp;
rear->next = NULL;
size = 1;
return *this;
}
node *cur = list.head;
node *tp = new node;
tp->data = cur->data;
head = tp;
head->last = NULL;
rear = tp;
while(cur->next!=NULL)
{
cur = cur->next;
node *tp = new node;
tp->data = cur->data;
rear->next = tp;
tp->last = rear;
rear = tp;
}
rear->next = NULL;
size = list.size;
return *this;
}
// MyList 的+= 感觉能够改进的。别两个while了
MyList<T>& operator += (const MyList<T>& list)
{
if(list.head == (*this).head)
{// meichuli
//cout << "****" << endl;
MyList<T> other(list);
//cout << "&&&&&" << endl;
return *this += other;
}
if(NULL == list.head)// list 空串
return *this;
node *cur = list.head;
node *tp = new node;
tp->data = cur->data;
if(head == NULL)
{// 当前list为空的
head = tp;
head ->last = NULL;
rear = tp;
}
else
{
rear->next = tp;
tp->last = rear;
rear = tp;
}
while(cur->next!=NULL)
{
cur = cur->next;
node *tp = new node;
tp->data = cur->data;
rear->next = tp;
tp->last = rear;
rear = tp;
}
rear->next = NULL;
size += list.size;
return *this;
}
// []得内容,与以下相应
T& operator [](int i)
{
assert(i<size);
node* tp = head;
while(i--)
{
tp = tp->next;
}
return tp->data;
}
// iterator 加i ,这个东西又问题。一直不知道怎么用的
MyIterator& operator +(int i)
{
assert(i<size);
node* tp = head;
while(i--)
{
tp = tp->next;
}
return MyIterator(tp);
}
};// MyList类
// constructor
template<class T>
MyList<T>::MyList()
{
head = NULL;
rear = NULL;
size = 0;
}
template<class T>
MyList<T>::MyList(T val)
{
node *tp = new node;
tp->data = val;
size = 1;
head = tp;
rear = tp;
rear->last = NULL;
head->next = NULL;
}
// 对否 待定?
template<class T>
MyList<T>::MyList(T val,int n)
{
size = n;
if(size!=0)
{
node *tp = new node;
tp->data = val;
head = tp;
rear = tp;
head->last = NULL;
for(int i=1;i<n;i++)
{
node *tp = new node;
tp->data = val;
tp->last = rear;
rear->next = tp;
rear = tp;
}
rear->next = NULL;
}
}
template<class T>
MyList<T>::MyList(const MyList<T>& list0)
{
size = list0.size;
node *cur0 = list0.head;
node *tp = new node;
tp->data = cur0->data;
head = tp;
rear = tp;
head->last = NULL;
while(cur0->next!=NULL)
{
cur0 = cur0->next;
node *tp = new node;
tp->data = cur0->data;
tp->last = rear;
rear->next = tp;
rear = tp;
}
rear->next = NULL;
}
// clear
template<class T>
void MyList<T>::clear()
{
node *tp;
for(;size!=0;size--)
{
tp = head;
head = head->next;
delete tp;
}
tp = NULL;
}
// 功能函数
// sublist
// 这个有点问题的》》》》,从it1 到 it2;包含从头到尾,下标从0開始
template<class T>
MyList<T> MyList<T>::sublist(MyIterator& it1,MyIterator& it2)
{
MyList<T>::MyIterator it0;
int n = 1;
for(it0=it1;it0!=it2&&n<1e9;++it0)
{
n++;
}
assert(n!=1e9);
return this->sublist(it1,n);
}
template<class T>
MyList<T> MyList<T>::sublist(MyIterator& it1,int n)
{
MyList<T> list0;
list0.size = n;
node *tp = new node;
tp->data = *it1;
list0.head = tp;
list0.rear = tp;
//rear->next = NULL;
head->last = NULL;
++it1;
for(int i=1;i<n;i++)
{
node *tp = new node;
tp->data = *it1;
list0.rear->next = tp;
tp->last = list0.rear;
list0.rear = tp;
++it1;
}
list0.rear->next = NULL;
return list0;
}
template<class T>
MyList<T> MyList<T>::sublist(MyIterator& it2)
{
return this->sublist(this->begin(),it2);
}
// display 从头開始
template<class T>
void MyList<T>::display()
{
if(NULL==this->head)
{
cout << '�' << endl;
return;
}
MyList<T>::MyIterator iter = this->begin();
for(;iter!=this->end();++iter)
{
cout << *(iter) << " ";
}
cout << *(iter) << endl;// 输出end end是rear
}
// display_rear
template<class T>
void MyList<T>::display_rear()
{
if(NULL==this->rear)
{
cout << '�' << endl;
return;
}
MyList<T>::MyIterator iter = this->end();
for(;iter!=this->begin();--iter)
{
cout << *(iter) << " ";
}
cout << *(iter) << endl;// begin()
}
// push_back
template<class T>
void MyList<T>::push_back(const T val)
{
node *tp = new node;
tp->data = val;
size++;
if(1==size)
{
head = tp;
rear = tp;
head->last = NULL;
rear->next = NULL;
}
else
{
rear->next = tp;
tp->last = rear;
rear = tp;
rear->next = NULL;
}
}
// push_front
template<class T>
void MyList<T>::push_front(const T val)
{
node *tp = new node;
tp->data = val;
size++;
if(1==size)
{
head = tp;
rear = tp;
head->last = NULL;
rear->next = NULL;
}
else
{
tp->next = head;
head->last = tp;
head = tp;
head->last = NULL;
}
}
// pop_back
template<class T>
void MyList<T>::pop_back()
{
assert(rear!=NULL);
size--;
node *tp = rear;
rear = rear->last;
rear->next = NULL;
delete tp;
tp = NULL;
}
// pop_front
template<class T>
void MyList<T>::pop_front()
{
assert(head!=NULL);
size--;
node *tp = head;
head = head->next;
head->last = NULL;
delete tp;
tp = NULL;
}
// reverse
template<class T>
void MyList<T>::reserve()
{
node *le = head;
node *ri = rear;
for(int c=size;c>1;c-=2)
{
// 值交换,指针交换??
le->data ^= ri->data;
ri->data ^= le->data;
le->data ^= ri->data;
le = le->next;
ri = ri->last;
}
}
// reverse 对于同一个串进行交换。
。
template<class T>
void MyList<T>::reserve(MyIterator& it1,MyIterator& it2)
{
node *le = it1.Iter;
node *ri = it1.Iter;
int c = 1;
// 不是非常理解的
for(;ri!=it2.Iter;ri=ri->next)
{
c++;
}
for(;c>1;c-=2)
{
// 值交换,指针交换??
le->data ^= ri->data;
ri->data ^= le->data;
le->data ^= ri->data;
le = le->next;
ri = ri->last;
}
}
// replace
template<class T>
void MyList<T>::replace(T val1,T val2)
{
node *tp = head;
while(tp!=NULL)
{
if(tp->data==val1)
{
tp->data = val2;
}
tp = tp->next;
}
}
// swap list
//template<class T>
//void MyList<T>::swap_error(MyList<T>& list0)
//{
// node *tp = head;
// head = list0.head;
// list0.head = tp;
// tp = rear;
// rear = list0.rear;
// list0.rear = rear;
// size ^= list0.size;
// list0.size ^= size;
// size ^= list0.size;
//}
template<class T>
void MyList<T>::swap(MyList<T>& list0)
{
// 交换head
node *tp = head->next;
head->next = (list0.head)->next;
(list0.head)->next->last = head;
(list0.head)->next = tp;
tp->last = list0.head;
// 交换size
size ^= list0.size;
list0.size ^= size;
size ^= list0.size;
// 交换head->data
head->data ^= (list0.head)->data;
(list0.head)->data ^= head->data;
head->data ^= (list0.head)->data;
// 交换rear
tp = rear->last;
rear->last = (list0.rear)->last;
(list0.rear)->last->next = rear;
(list0.rear)->last = tp;
tp->next = list0.rear;
//交换rear->data
rear->data ^= (list0.rear)->data;
(list0.rear)->data ^= rear->data;
rear->data ^= (list0.rear)->data;
}
// insert
template<class T>
void MyList<T>::insert(MyIterator& it,T val)
{
node *tp = new node;
tp->data = val;
if(NULL==it.Iter->next)
{// 尾的后面
rear->next = tp;
tp->last = rear;
rear = tp;
size++;
}
else
{
tp->next = (it.Iter)->next;
(it.Iter)->next->last = tp;
(it.Iter)->next = tp;
tp->last = (it.Iter);
size++;
}
}
template<class T>
void MyList<T>::f_insert(MyIterator& it,T val)
{
node *tp = new node;
tp->data = val;
if(NULL==it.Iter->last)
{// head
head->last = tp;
tp->next = head;
head = tp;
size++;
}
else
{
tp->last = (it.Iter)->last;
(it.Iter)->last->next = tp;
tp->next = it.Iter;
(it.Iter)->last = tp;
size++;
}
}
// remove value
template<class T>
void MyList<T>::remove(T val)
{
node *tp = head;
for(;tp!=NULL;)
{
if(tp->data==val)
{
tp = this->erase(MyIterator(tp)).Iter;
}
else
{
tp = tp->next;
}
}
}
// exist
template<class T>
bool MyList<T>::exist(T val)
{
node *tp = head;
for(;tp!=NULL;tp=tp->next)
{
if(tp->data==val)
{
return true;
}
}
return false;
}
// is up_order
template<class T>
bool MyList<T>::up_order()
{
node *tp = head;
if(NULL==head || NULL==tp->next)
return true;
for(;tp->next!=NULL;tp=tp->next)
{
if(tp->data>tp->next->data)
{
return false;
}
}
return true;
}
// is down_order
template<class T>
bool MyList<T>::down_order()
{
node *tp = head;
if(NULL==head || NULL==tp->next)
return true;
for(;tp->next!=NULL;tp=tp->next)
{
if(tp->data<tp->next->data)
{
return false;
}
}
return true;
}
#endif // MYLIST_H_INCLUDED
(5) 測试韩式main
#include "MyList.h"
using namespace std;
int main()
{
MyList<string> list0;
MyList<string> list7("ccc",3);
list0 += list7;
list0.display_rear();
string tmp = "aaa";
list0.push_back(tmp);
list0.push_front("bbbb");
list7.display();
list0 += list0;
list0.display_rear();
cout << "1: " << list0.get_size() << " ," << endl;
//MyList<string> list1(tmp);
list0.clear();
//list1.display();
//list1.clear();
//list1.display();
MyList<int> list1(5,4);
list1.push_back(1111);
MyList<int>::MyIterator it = list1.begin();
//++it;
list1.insert(it+2,2222);
list1.f_insert(it,555);
//list1.push_front(5555);
//list1.pop_back();
//list1.pop_front();
cout << "2: " << list1.get_size() << ", ";
list1.display();
MyList<int> list2(list1);
cout << "3: " << list2.get_size() << ", ";
list2.display();
list2.reserve(list2.begin()+2,list2.begin()+4);
list2.display_rear();
MyList<int> list3(3,6);
list3.swap(list1);
list1.reserve();
cout << "4: " << list1.get_size() << ",";
list1.display();
list1.push_back(33);
cout << "5:" << list1[6] << ",," << list1.down_order() << list1.up_order() << endl;
//list1.display_rear();
MyList<int> list4= list2.sublist(list2.begin()+2,list2.begin()+4);
list4.display();
return 0;
}