std向量c++ -深或浅拷贝。

时间:2022-01-28 16:39:54

I wonder whether copying a vector I am copying the vector with its values (whereas this is not working with array, and deep copy need a loop or memcpy).

我想知道是否复制一个向量,我正在用它的值复制这个向量(而这不是与数组一起工作,而深度复制需要一个循环或memcpy)。

Could you hint to an explanation?

你能给我一个解释吗?

Regards

问候

2 个解决方案

#1


65  

You are making a deep copy any time you copy a vector. But if your vector is a vector of pointers you are getting the copy of pointers, not the values are pointed to

当你复制一个向量时,你正在做一个深入的拷贝。但是如果你的向量是指针的矢量,你得到的是指针的拷贝,而不是指向的值。

For example:

例如:

std::vector<Foo> f;
std::vector<Foo> cp = f; //deep copy. All Foo copied

std::vector<Foo*> f;
std::vector<Foo*> cp = f; //deep copy (of pointers), or shallow copy (of objects).
//All pointers to Foo are copied, but not Foo themselves

#2


2  

Vector will resize to have enough space for the objects. It will then iterate through the objects and call the default copy operator for every object.

矢量将调整大小以使对象有足够的空间。然后,它将遍历对象,并为每个对象调用默认的复制操作符。

In this way, the copy of the vector is 'deep'. The copy of each object in the vector is whatever is defined for the default copy operator.

这样,矢量的拷贝是“深”的。向量中的每个对象的副本都是为默认复制操作符定义的。

In examples... this is BAD code:

在例子…这是糟糕的代码:

#include <iostream>
#include <vector>

using namespace std;

class my_array{
public:
    int *array;
    int size;
    my_array(int size, int init_val):size(size){
        array = new int[size];
        for(int i=0; i<size; ++i)
            array[i]=init_val;
    }
    ~my_array(){
        cout<<"Destructed "<<array[0]<<endl;
        if(array != NULL)
            delete []array;
        array = NULL;
        size = 0;
    }

};

void add_to(vector<my_array> &container){
    container.push_back(my_array(4,1));
}

int main(){

    vector<my_array> c;
    {
        my_array a(5,0);
        c.push_back(a);
    }
    add_to(c);
    //At this point the destructor of c[0] and c[1] has been called.
    //However vector still holds their 'remains'
    cout<<c[0].size<<endl; //should be fine, as it copies over with the = operator
    cout<<c[0].array[0]<<endl;//undefined behavior, the pointer will get copied, but the data is not valid
    return 0;
}

This is BETTER code:

这是更好的代码:

#include <iostream>
#include <vector>

using namespace std;

class my_array{
public:
    int *array;
    int size;
    my_array(int size, int init_val):size(size){
        cout<<"contsructed "<<init_val<<endl;
        array = new int[size];
        for(int i=0; i<size; ++i)
            array[i]=init_val;
    }
    my_array(const my_array &to_copy){
        cout<<"deep copied "<<to_copy.array[0]<<endl;
        array = new int[to_copy.size];
        size = to_copy.size;
        for(int i=0; i<to_copy.size; i++)
            array[i]=to_copy.array[i];
    }

    ~my_array(){
        cout<<"Destructed "<<array[0]<<endl;
        if(array != NULL)
            delete []array;
        array = NULL;
        size = 0;
    }

};

void add_to(vector<my_array> &container){
    container.push_back(my_array(4,1));
}

int main(){

    vector<my_array> c;
    {
        my_array a(5,0);
        c.push_back(a);
    }
    add_to(c);
    //At this point the destructor of c[0] and c[1] has been called.
    //However vector holds a deep copy'
    cout<<c[0].size<<endl; //This is FINE
    cout<<c[0].array[0]<<endl;//This is FINE
    return 0;
}

#1


65  

You are making a deep copy any time you copy a vector. But if your vector is a vector of pointers you are getting the copy of pointers, not the values are pointed to

当你复制一个向量时,你正在做一个深入的拷贝。但是如果你的向量是指针的矢量,你得到的是指针的拷贝,而不是指向的值。

For example:

例如:

std::vector<Foo> f;
std::vector<Foo> cp = f; //deep copy. All Foo copied

std::vector<Foo*> f;
std::vector<Foo*> cp = f; //deep copy (of pointers), or shallow copy (of objects).
//All pointers to Foo are copied, but not Foo themselves

#2


2  

Vector will resize to have enough space for the objects. It will then iterate through the objects and call the default copy operator for every object.

矢量将调整大小以使对象有足够的空间。然后,它将遍历对象,并为每个对象调用默认的复制操作符。

In this way, the copy of the vector is 'deep'. The copy of each object in the vector is whatever is defined for the default copy operator.

这样,矢量的拷贝是“深”的。向量中的每个对象的副本都是为默认复制操作符定义的。

In examples... this is BAD code:

在例子…这是糟糕的代码:

#include <iostream>
#include <vector>

using namespace std;

class my_array{
public:
    int *array;
    int size;
    my_array(int size, int init_val):size(size){
        array = new int[size];
        for(int i=0; i<size; ++i)
            array[i]=init_val;
    }
    ~my_array(){
        cout<<"Destructed "<<array[0]<<endl;
        if(array != NULL)
            delete []array;
        array = NULL;
        size = 0;
    }

};

void add_to(vector<my_array> &container){
    container.push_back(my_array(4,1));
}

int main(){

    vector<my_array> c;
    {
        my_array a(5,0);
        c.push_back(a);
    }
    add_to(c);
    //At this point the destructor of c[0] and c[1] has been called.
    //However vector still holds their 'remains'
    cout<<c[0].size<<endl; //should be fine, as it copies over with the = operator
    cout<<c[0].array[0]<<endl;//undefined behavior, the pointer will get copied, but the data is not valid
    return 0;
}

This is BETTER code:

这是更好的代码:

#include <iostream>
#include <vector>

using namespace std;

class my_array{
public:
    int *array;
    int size;
    my_array(int size, int init_val):size(size){
        cout<<"contsructed "<<init_val<<endl;
        array = new int[size];
        for(int i=0; i<size; ++i)
            array[i]=init_val;
    }
    my_array(const my_array &to_copy){
        cout<<"deep copied "<<to_copy.array[0]<<endl;
        array = new int[to_copy.size];
        size = to_copy.size;
        for(int i=0; i<to_copy.size; i++)
            array[i]=to_copy.array[i];
    }

    ~my_array(){
        cout<<"Destructed "<<array[0]<<endl;
        if(array != NULL)
            delete []array;
        array = NULL;
        size = 0;
    }

};

void add_to(vector<my_array> &container){
    container.push_back(my_array(4,1));
}

int main(){

    vector<my_array> c;
    {
        my_array a(5,0);
        c.push_back(a);
    }
    add_to(c);
    //At this point the destructor of c[0] and c[1] has been called.
    //However vector holds a deep copy'
    cout<<c[0].size<<endl; //This is FINE
    cout<<c[0].array[0]<<endl;//This is FINE
    return 0;
}