# How to get to the Nth element of a 2d std::vector (`std::vector< std::vector<T> >`)?

We are given some `int el_position` number which is a position of wanted by us element in flatened representation of our 2d vector (`std::vector< std::vector<int> > matrix(5, std::vector<int>(4))`).

Meaning if we had such matrix

``````11 21 31 41 51
61 71 81 91 101
``````

and we were given `el_position` `==` `7` we would need to get second element of second row. Is it possible to do such thing withstd stl 2d vector? How to get value of element by given its position in flattened array?

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Sure this is possible:

`````` row = el_position % row_length;
col = el_position / row_length;
``````
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``````size_t size_y = matrix.front().size(); // to get your Y dimension
return matrix[el_position / size_y][el_position % size_y];
``````
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But, as I noted in my answer, watch out for `matrix.front().size()` to yield the value you need. –  Michael Krelin - hacker Nov 11 '11 at 13:17
@MichaelKrelin-hacker: agreed, and to avoid any possible troubles with this I would recommend to use `boost::array` or `std::array` in case of C++11 (`std::vector<std::array<int, N>>`) –  Andy T Nov 11 '11 at 13:20
`std::vector<int[N]>` perhaps is more comprehensive? –  Michael Krelin - hacker Nov 11 '11 at 13:22
C array? no, I wouldn't recommend it, at least for C++ –  Andy T Nov 11 '11 at 13:23
We are of different opinions here :) –  Michael Krelin - hacker Nov 11 '11 at 13:26

You just take one index of `n/W` and the other - `n%W`, where `W` is the width (or row length, whatever). Note that in fact in the vector of vectors, you may have vectors of different length, so it's up to you to break things.

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``````// Assuming fixed dimensions:
matrix[el_position/size][el_position%size];
``````

`/` is integer division, so computes the number of complete rows that we have to pass to find the row we're looking for and `%` is the remainder from integer division, so finds how far we should offset into the row.

If one of your inner vectors isn't the same size this will fail. You can check this assumption with two asserts:

``````assert(matrix.size()); // needed for the front element to be valid
assert(std::count(matrix.begin(), matrix.end(), matrix.front().size())
== matrix.size()); // the count will be the number of elements
// if it's correct
``````
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