# Does insertion of elements in a vector damages a pointer to the vector?

In a program to simulate logic gates I switched from using arrays

``````node N[1000];
``````

to vectors

``````vector<node> N;
``````

And my program did work perfectly before using vectors but now it prints wrong results, so I tried debugging and I found out that the bug happens here:

``````node* Simulator::FindNode(string h)
{
int i;
for(i = 0; i < NNodes; i++)
{
if (N[i].getname() == h)
{
return &N[i];
}
}

node n ;
N.push_back(n);
N[NNodes].setname(h);
NNodes++;
return &N[NNodes-1]; //why?because of NNodes++
}

// ...

node* inp1;
node* inp2;
node* out;
string NodeName;

inp_file >> NodeName;
inp1 = FindNode(NodeName);
s1 = inp1;

inp_file >> NodeName;
inp2 = FindNode(NodeName); //inp1 is destroyed here

inp_file >> NodeName;
out = FindNode(NodeName); //inp2 and inp1 are destroyed here
``````

When calling `FindNode` for the 1st time, the 1st pointer inp1 points to the right place which is `&N[0]`.

When calling `FindNode` for the second time the 1st pointer inp1 points to rubbish and the second pointer inp2 points to the right place `&N[1]`.

When calling `FindNode` for the 3rd time the both the 1st and 2nd pointers (`inp1`, `inp2`) point to rubbish! And 3rd pointer out points to the right place.

Why would that happen?
How does vector work when I insert items to them and which kind of pointers should I use to point to vectors items?

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I formatted your post. I also changed your code, please put spaces between things. Do: `for(i = 0; i < NNodes; i++)` instead of `for(i=0;i<NNodes;i++)` or do `inp_file >> NodeName;` instead of `inp_file>>NodeName;`, it's much more readable. –  GManNickG Aug 15 '10 at 19:36
I'd like to suggest that you mark GMan's answer as Accepted. It's the most comprehensive one here. –  Steven Sudit Aug 15 '10 at 23:07
Thanks for everyone who answered especially GMan and Steven Sudit , Now I have too many to study and modify . –  Ahmed Aug 16 '10 at 7:00

A few things.

First, as far as I can tell `NNodes` is just tracking the size. But you have `std::vector::size()` for that. You then use it to get the last inserted element, but you can just use `std::vector::back()` for that: `return &N.back();`.

Also your parameter is being passed by value, when it should probably be passed by const-reference: `const string& h`. This avoids unnecessary copies, and in general* you should pass things by const-reference instead of by-value.

``````node n;
N.push_back(n);
N[NNodes].setname(h);
``````

`node` should probably have a constructor that takes a `const string&` and sets the name during initialization. That way you can never have a node without a name, as in:

``````node n(h);
N.push_back(n);
``````

Or more terse:

``````N.push_back(node(h));
``````

Much better.

Second, yes, `vector` can invalidate pointers to elements; namely, whenever the capacity of the vector needs to be increased. If you can, `reserve()` the capacity up front to avoid re-allocations. In your case you cannot, so you can go two different routes.

The first route is a level of indirection. Instead of pointing directly at things, get their index into the array. Note that while their address may change, their location within the vector will not. You would have `Simulator::FindNode` return a `size_t`, and return `N.size() - 1`. Add a member like `node& GetNode(size_t index)`, which just does `return N[index];` (will error checking if you wish). Now whenever you need a member, hand the index to that member to `GetNode` and you'll get a reference to that node back.

The other route is to change your container. You can use a `deque`, for example. This does not have contiguous storage, but it's much like `vector`. `push_back` and `pop_back` are still O(1), and it still has good cache-coherence. (And by the way, `deque` trades contiguous storage for the ability to `push_front` and `pop_front` in O(1) time as well)

The important thing is that `deque` will not invalidate pointers during a push or pop operation from either end. It works by a sort of vector-list hybrid, where you get chunks of storage for elements linked together. Change your underlying storage to `deque` (and don't take or put anything in the middle), and you can point to things just fine.

However, from what I can tell you have a terribly inefficient map. You're mapping names to nodes. You should probably just use `std::map`, which has the exact interface you're trying to recreate. You can even point to any element in a map, which never invalidates things.

*The rule is, pass by const-reference unless the type is primitive (built-in like `int`, `double`, etc.), if the types size is less than `sizeof(void*)`, or if you are going to need a copy of it anyway.

That is, don't do this:

``````void foo(const std::string& s)
{
std::string ss(s); // make a copy, use copy
}
``````

But do this:

``````void foo(std::string s) // make a copy, use copy
{
}
``````

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Lots of good advice here and very comprehensive. Thanks. –  Steven Sudit Aug 15 '10 at 23:05
So many tips , Thank You ! –  Ahmed Aug 16 '10 at 6:54
After some trials I concluded that the first route , which was using some indirection won't work well If you need to use pointers in the program . Many problems appeared and there must be unnecessary complexity to solve them , So I used a deque and it worked like charm . –  Ahmed Aug 17 '10 at 11:56
@Ahmed: Good. :) –  GManNickG Aug 17 '10 at 17:09

Yes, it can re-allocate the entire buffer, making all pointers into the old location invalid.

You can limit this by preallocating, but that's really just a performance boost. The better way is to use indexes instead of raw pointers.

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So , how should i point to those elements ? –  Ahmed Aug 15 '10 at 18:08
Replace `node*` with `int`, and store the index. When you need a node, you'll have to look it up in the vector, using that index. –  Steven Sudit Aug 15 '10 at 18:09
I don't clearly get that .can you explain on a code example ? –  Ahmed Aug 15 '10 at 18:24
If you must keep the pointer semantics, you can use std::list instead: sgi.com/tech/stl/List.html Instead of pointers you use iterators into this list (std::list<node>::iterator). Iterators into this list behave like pointers, and they keep their value when elements are inserted or removed. std::list consumes more memory, and there is no random access "N[i]". –  Eike Aug 15 '10 at 20:06
That's interesting: I appear to have been downvoted for no reason whatsoever. Gotta love SO. –  Steven Sudit Aug 15 '10 at 23:01

When a vector grows, it is reallocated, which effectively invalidates all pointers to elements of the vector.

If you know beforehand how many elements you will have in the vector, you could use the reserve() method to preallocate space.

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I don't , It depends on user input . –  Ahmed Aug 15 '10 at 18:09
Peter, I mentioned preallocation, but I wouldn't recommend it as a solution for pointers being invalidated, only as a performance optimization. What's the point of using a `List<>` if you have to size it in advance? Might as well just use a native array, then. –  Steven Sudit Aug 15 '10 at 18:11
I know, but nevertheless a vector offers more benefits than just a "better array". Anyway i agree with you, your solution is better. –  PeterK Aug 15 '10 at 19:01
Peter, you're not wrong. If we knew that there was some reasonable maximum, we could reserve the full size while still having the semantics of an expandable vector with a valid current length. The only problem is that the OP says there is no such max. –  Steven Sudit Aug 15 '10 at 23:03

Returning a pointer to an internal STL member is probably not the best idea. When you give an object to an STL container you are basically giving up control of it. You are telling the STL it can move it around as it sees fit to maintain the promises that the container gives you. Returning the index where the node is located is a better idea like Steven Sudit mentioned.

Once you get the index you could create a function that returns a copy of the contents of the node you are interested in. This way you also maintain data encapsulation with the STL container, not allowing anyone else to modify its contents.

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Sure, but it would be fine if the pointers were taken after they stopped changing the container: STL guarantees that this is safe. –  Steven Sudit Aug 15 '10 at 18:17
And, as a few others have pointed out, the containers that don't use large contiguous blocks do guarantee that the address will not change. –  Steven Sudit Aug 15 '10 at 23:06

Yes, inserts will invalidate old pointers to vector elements on reallocation. If you want to use stable pointers really hard, you can switch from vector to deque. It offers a very similar interface to vector and can grow without reallocating and moves previous contents by allocating further chunks.

The price you pay for using a deque instead of a vector is one more level of indirection on random access. Depending on your usage, that may be totally irrelevant. You should iterate over deque the whole deque if necessary by using iterators. That will be as fast a iterating over a vector.

The gain is: zero reallocations!

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Imagine you needed to write the array-based code so that it could possibly re-size the array if necessary.

Imagine how you would do it.

Imagine what would happen to stale pointers.

Rewrite your code to use indices rather than pointers, or to guarantee that re-allocation doesn't happen, as appropriate.

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