# What datastructure to use for evaluation order of objects?

I'm trying to figure out the optimal implementation for the following problem:

Let's say we have a class `A` that represents a complex mathematical object and upon construction initially holds all needed intrinsic state. For every object `a_i` of `A` one can compute a final numerical value, that depends in a non-trivial way on other `a_j` with `j < i`, and `a_0` is known. Moreover, the equations that lead to the final answer, require a special evaluation order and a comparison operator for the `a_i` can be defined.

What I want to do is to create all needed `a_i`s first, push them into some ordered data structure and finally traverse the structure in the right order to get the final results.

Now to the real question: Which data structure do I use to implement the structure for the evaluation order in a general way? A binary heap? Or do I simply use a std::vector and sort it afterwards?

Thank you!

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The question is too abstract for me to provide a concrete answer. However, std::set or std::multiset could be good data structures for your problem. –  Karel Petranek Mar 21 '11 at 16:42

If a comparison operator (say less than) for a_i can be defined based upon the evaluation order, then a natural container would be a std::set. Traversing the map using a std::set::iterator would yield every a_i in increasing order, which would be your order of evaluation. Eg.

``````std::set<A> aMap;
A a_i;
... // You create the rest of the A's
aMap.insert(a_i);
aMap.insert(a_j);

for (std::set<A>::iterator aIter = aMap.begin(); aIter != aMap.end(); ++aIter) {