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I'm constructing a tree with node classes that have two pointers to subnodes. While constructing the tree, I use vectors of nodes for manipulation and I end up pointing them to eachother. I often need to pop them off of the vector to maintain the logic of the linking process. Unfortunately, if I point to a node and pop it off the vector, the object is destroyed (to my understanding). Any ideas on how to keep my pointers pointing to the right place, or better systems?

Edit -- If it helps, here are some specifics:

I have an array of vectors of nodes: Vector<node> nVec[3]

for each level of parsing I need to do for my program, it will fill these 3 vectors with nodes. Then, based on other parse data, I will systematically link the nodes. To do this, I fill the vector, and at a certain point I need to link to the nVec[3].back() from some node in nVec[2] and pop it off so that, if I want to do it again, I won't be linking to the same element.

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That's too vague. Post your code –  icepack Feb 23 '13 at 10:27
By your very definition, if you pop and throw out a node from a fundamental value vector, there is no more "right place" to point to. Ensure nothing points to the node being popped, or use std::shared_ptr<> if your design is too hardened to turn back now. –  WhozCraig Feb 23 '13 at 10:29
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2 Answers

up vote 2 down vote accepted

It depends how you store in them in the std::vector. If you have a std::vector<node>, then yes, the node objects stored in the vector will be destroyed when you remove them from it.

However, if you have a vector of pointers (std::vector<node*>) and dynamically allocate your nodes before pushing them in (nodes.push_back(new node();)) they will stick around until you explicitly delete them. However, you would have to remember to delete these nodes later on. To safely use dynamic allocation, use a vector of smart pointers, such as std::vector<std::shared_ptr<node>>.

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You should store pointers to objects already in your vector:

vector<Node> nodes;

is NOT good.

vector<Node*> nodes;
nodes.push_back(new Node(foo));

is good because now node is allocated onto the heap and won't get destroyed when removed from the collection.

I suggest you to use a smart pointer (unique_ptr or shared_ptr) to manage resource allocation and deallocation since at this point you could end up forgetting how many references to a single object you have.

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Don't use auto_ptr<>, which is the white zinfandel of smart pointers, trying so hard to do it all and falling just short at everything it tries. There's a reason it was deprecated in C++11. Use either std::unique_ptr<> or std::shared_ptr<> –  WhozCraig Feb 23 '13 at 10:32
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