0

How do I get the position of an element inside a vector, where the elements are classes. Is there a way of doing this?

Example code:

class Object
{
  public:
    void Destroy()
    {
      // run some code to get remove self from vector
    }
}

In main.cpp:

std::vector<Object> objects;
objects.push_back( <some instances of Object> );
// Some more code pushing back some more stuff

int n = 20;
objects.at(n).Destroy(); // Assuming I pushed back 20 items or more

So I guess I want to be able to write a method or something which is a member of the class which will return the location of itself inside the vector... Is this possible?

EDIT:

Due to confusion, I should explain better.

void Destroy(std::vector<Object>& container){
  container.erase( ?...? );
}

The problem is, how can I find the number to do the erasing...? Apparently this isn't possible... I thought it might not be...

16
  • Write a proper comparison operator for your class that reflects the semantics you require, then use std::find.
    – us2012
    Feb 18, 2013 at 21:45
  • 2
    Why would the Object care if it is a member of a vector, a list, or a deque?
    – Bo Persson
    Feb 18, 2013 at 21:47
  • I am afraid I don't understand what you just said. I need to write an operator== (...) and use std::find which is some code which does what? Feb 18, 2013 at 21:48
  • @BoPersson I am writing a Physics project. It is a requirement to make my code "better". (Define better, you ask?) Feb 18, 2013 at 21:49
  • Having objects be aware of which container they are in is a sure way to make code worse. Feb 18, 2013 at 21:56

4 Answers 4

1

You can use std::find to find elements in vector (providing you implement a comparison operator (==) for Object. However, 2 big concerns:

  1. If you need to find elements in a container then you will ger much better performance with using an ordered container such as std::map or std::set (find operations in O(log(N)) vs O(N)
  2. Object should not be the one responsible of removing itself from the container. Object shouldn't know or be concerned with where it is, as that breaks encapsulation. Instead, the owner of the container should concern itself ith such tasks.
3
  • Unfortunately, it would be better if we ignored the rules of encapsulation. Feb 18, 2013 at 21:55
  • Sometimes? sure. As a general rule of thumb? Definitely not. Objects should generally NOT be "aware" of the context in which they will be stored in. They can limit that context via Singletons, private constructors etc. but explicitly knowing the type of your owner is never a positive (perhaps an interfaces in some cases, but even that should be avoided when possible)
    – eladidan
    Feb 18, 2013 at 22:00
  • Yeah this is one of those cases, but I am not writing an interface. Feb 18, 2013 at 22:30
1

The object can erase itself thusly:

void Destroy(std::vector<Object>& container);
{
  container.erase(container.begin() + (this - &container[0]));
}

This will work as you expect, but it strikes me as exceptionally bad design. Members should not have knowledge of their containers. They should exist (from their own perspective) in an unidentifiable limbo. Creation and destruction should be left to their creator.

4
  • Yes, I feel like this is exactly what I want. Feb 18, 2013 at 22:32
  • Be aware that the object no longer exists after the call to .erase(). So, for example, you must not reference any member variables or call any member functions. To be safe, the only thing you should do after .erase() is return;.
    – Robᵩ
    Feb 18, 2013 at 22:33
  • Also, this solution is specific to std::vector<> due to the pointer arithmetic. Other containers do not have contiguous objects. This won't work on std::list<>, std::set<>, etc., and may not work on std::vector<DerivedFromObject>.
    – Robᵩ
    Feb 18, 2013 at 22:36
  • This appears to be a risky thing to do. I can see why people are against it, however in this exceptional case, it is defiantly the correct/most logical thing to be doing. Feb 18, 2013 at 22:48
0

Objects in a vector don't automatically know where they are in the vector.

You could supply each object with that information, but much easier: remove the object from the vector. Its destructor is then run automatically.

Then the objects can be used also in other containers.


Example:

#include <algorithm>
#include <iostream>
#include <vector>

class object_t
{
private:
    int     id_;
public:
    int id() const { return id_; }

    ~object_t() {}
    explicit object_t( int const id ): id_( id ) {}
};

int main()
{
    using namespace std;
    vector<object_t> objects;

    for( int i = 0;  i <= 33;  ++i )
    {
        objects.emplace_back( i );
    }

    int const n = 20;
    objects.erase( objects.begin() + n );

    for( auto const& o : objects )
    {
        cout << o.id() << ' ';
    }
    cout << endl;
}
2
  • Yes, I feel like you didn't understand the question. Destroy is a method which will do the removing. Feb 18, 2013 at 21:50
  • Okay an edit was made, thanks I'll look into implementing this. Feb 18, 2013 at 22:01
0

If you need to destroy the n'th item in a vector then the easiest way is to get an iterator from the beginning using std::begin() and call std::advance() to advance how ever many places you want, so something like:

std::vector<Object> objects;
const size_t n = 20;

auto erase_iter = std::advance(std::begin(objects), n);

objects.erase(erase_iter);

If you want to find the index of an item in a vector then use std::find to get the iterator and call std::distance from the beginning.

So something like:

Object object_to_find;
std::vector<Object> objects;

auto object_iter = std::find(std::begin(objects), std::end(objects), object_to_find);

const size_t n = std::distance(std::begin(objects), object_iter);

This does mean that you need to implement an equality operator for your object. Or you could try something like:

auto object_iter = std::find(std::begin(objects), std::end(objects), 
  [&object_to_find](const Object& object) -> bool { return &object_to_find == &object; });

Although for this to work the object_to_find needs to be the one from the actual list as it is just comparing addresses.

1
  • The problem is finding what the values of n is going to be. Feb 18, 2013 at 22:26

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