# Redundant static data

This question applies to any type of static data. I'm only using `int` to keep the example simple.

I am reading in a large XML data file containing ints and storing them in a `vector<int>`. For the particular data I'm using, it's very common for the same value to be repeated consecutively many times.

``````<Node value="4" count="4000">
``````

The `count` attribute means that the value is to be repeated x number of times:

``````for(int i = 0; i < 4000; i++)
vec.push_back(4);
``````

It seems like a waste of memory to store the same value repeatedly when I already know that it is going to appear 4000 times in a row. However, I need to be able to index into the vector at any point.

For larger data objects, I know that I can just store a pointers but that would still involve storing 4000 identical pointers in the example above.

Is there any type of strategy to deal with an issue like this?

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Use two vectors. The first vector contains the indices, the second one the actual values.

Fill in the indices vector such that the value for all indices between indices[i-1] and indices [i] is in values[i].

Then use binary search on the indices array to locate the position in the values array. Binary search is very efficient (O(log n)), and you will only use a fraction of the memory compared to the original approach.

If you assume the following data:

``````4000 ints with value "4"
followed by 200 ints with value "3"
followed by 5000 ints with value "10"
``````

You would create an index vector and value vector and fill it like this:

``````indices = {4000, 4200, 9200}; // indices[i+1] = indices [i] + new_count or 0
values = {4,3,10};
``````

As suggested in the other answers, you should probably wrap this in an operator[].

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Ultimately, it's a tradeoff: you can offer O(1) access and O(N) memory or O(log(N)) access and O(1) memory. –  Puppy Nov 23 '12 at 13:12
That's an interesting strategy that I hadn't considered. My only real concern is blocks of non-repeating data between the repeating chunks. Maybe my implementation of operator[] could somehow leave gaps in the ranges of `indices` and be smart enough to look in another place if it's not found there. –  user987280 Nov 23 '12 at 13:21
A more complex version could use a third array, with pointers to vectors (or nullptr). For each larger non-repeating sequence, create a new array and store the pointer in the third array, and its boundaries in indices (as above). Then check the third array; if it contains a nullptr, use values[i], otherwise retrieve the value from the stored array using relative_index = in_index - indices[i]. –  Wilbert Nov 23 '12 at 13:42

I would suggest to write a specific class instead of using `vector`. Your class should just hold the number of times an item occurs in a list and compute the index in a smart way so you can easily retrieve an element based on the index.

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I assume list is just a generic name for a container here, not specifically an `std::list`. –  Gorpik Nov 23 '12 at 12:51
@Gorpik yes, list is to be considered as a generic name here. –  Benoit Thiery Nov 23 '12 at 12:59

Try to wrap your data into some objects with vector-like interface (`operator[]` and so on), so you can hide implementation detail (that is you are not actually storing 4000 numbers) yet provide similar interface.

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