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文章目录
- (一)my_vecrot.h文件
- (二)my_vector.cpp文件
- (三)main.cpp文件
- (四)简单测试结果
- (五)主要目的
(一)my_vecrot.h文件
#ifndef MY_VECTOR_H
#define MY_VECTOR_H
#include <iostream>
using namespace std;
//myvector容器
class myvector
{
public:
myvector();
~myvector();
void insert(int pos, int value);
void erase(int pos);
void resize(int num);
int& operator[](int idx);
//迭代器类:可以使用该类的对象,做指针的操作
class myiterator
{
public:
myiterator(myvector* pvc, int idx)
:vc(pvc),
index(idx)
{}
myiterator operator++(int)
{
myiterator tmp(*this);
index++;
return tmp;
}
bool operator!=(const myiterator& rhs)
{
return index != rhs.index;
}
int& operator*() //迭代器解引用
{
return (*vc)[index];
}
private:
int index;
myvector* vc;
};
myiterator getbegin();
myiterator getend();
private:
bool Empty();
bool Full();
bool ApplyNewspace();
int* data_space; //连续数据空间首地址
int cur_size; //当前元素个数
int capacity; //容器容量
};
#endif
(二)my_vector.cpp文件
#include "my_vector.h"
//容器实现
myvector::myvector()
{
data_space = new int[2];
cur_size = 0;
capacity = 2;
}
myvector::~myvector()
{
delete[] data_space;
data_space = NULL;
}
void myvector::insert(int pos, int value)
{
if (Full() && !ApplyNewspace())
{
throw exception("Applynewspace error");
}
for (int i = cur_size; i > pos; i--)
{
data_space[i] = data_space[i - 1];
}
data_space[pos] = value;
cur_size++;
}
void myvector::erase(int pos)
{
if (Empty() || pos < 0 || pos > cur_size)
{
throw exception("empty vector or erase pos err");
}
for (int i = pos; i < cur_size - 1; i++)
{
data_space[i] = data_space[i + 1];
}
cur_size--;
}
/*
resize(int num); 重新改变容器的元素个数,个数变多num>size(),使用默认值0填充新位置;
若变短num<size() ,超出长度的元素被删除,但是容量不会变
*/
void myvector::resize(int num)
{
if (num < 0)
{
throw exception("num can not -num");
}
if (num > capacity)
{
int* tmp = new int[num];
memcpy(tmp, data_space, sizeof(int) * capacity);
memset(tmp + cur_size, 0, sizeof(int) * (num - cur_size));
delete[] data_space;
data_space = tmp;
capacity = num;
}
else if (num <= cur_size)
{
cur_size = num;
memset(data_space + cur_size, 0, sizeof(int) * (capacity - cur_size));
}
else
{
memset(data_space + cur_size, 0, sizeof(int) * (capacity - cur_size));
}
}
bool myvector::Empty()
{
return cur_size == 0;
}
bool myvector::Full()
{
return cur_size == capacity;
}
//扩容
bool myvector::ApplyNewspace()
{
int* newspace = new int[2 * capacity];
memcpy(newspace, data_space, sizeof(int) * capacity);
delete[] data_space;
data_space = newspace;
capacity *= 2;
return true;
}
//[]运算符重载
int& myvector::operator[](int idx)
{
//抛出异常
if (idx < 0 || idx > cur_size)
{
throw exception("[idx] out range");
}
return data_space[idx];
}
//获取首元素、尾元素下一个地址的迭代器类型
myvector::myiterator myvector::getbegin()
{
return myiterator(this, 0);
}
myvector::myiterator myvector::getend()
{
return myiterator(this, cur_size);
}
(三)main.cpp文件
#include "my_vector.h"
void Print_vector(myvector& vc)
{
myvector::myiterator it = vc.getbegin();
while (it != vc.getend())
{
cout << *it << " ";
it++;
}
cout << endl;
}
void Test()
{
myvector vc;
for (int i = 0; i < 10; i++)
{
vc.insert(i, i * 10);
}
Print_vector(vc);
//使用erase(int pos)
vc.erase(3);
Print_vector(vc);
vc.resize(15);
Print_vector(vc);
vc.resize(5);
Print_vector(vc);
}
int main()
{
Test();
}
(四)简单测试结果
(五)主要目的
- 通过简单仿写vector的int类型容器和对应迭代器,加深对迭代器的理解。迭代器是一个对象类型,可以使用该类的一个对象来进行指针操作。
- 精华还是在类的设计中(组合类),以及迭代器和vector两个对象之间的关系
//myvector容器
class myvector
{
public:
myvector();
~myvector();
void insert(int pos, int value);
void erase(int pos);
void resize(int num);
int& operator[](int idx);
//迭代器类:是一个对象,做指针的操作
class myiterator
{
public:
myiterator(myvector* pvc, int idx)
:vc(pvc),
index(idx)
{}
myiterator operator++(int)
{
//系统提供浅拷贝
myiterator tmp(*this);
index++;
return tmp;
}
bool operator!=(const myiterator& rhs)
{
return index != rhs.index;
}
int& operator*() //迭代器解引用
{
return (*vc)[index];
}
private:
int index; //下标寻找位置
myvector* vc;
};
myiterator getbegin();
myiterator getend();
private:
bool Empty();
bool Full();
bool ApplyNewspace();
int* data_space; //连续数据空间首地址
int cur_size; //当前元素个数
int capacity; //容器容量
};
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