# how to std::sort a 3 dimensional vector

I have a vector declared as follow :

``````vector<vector<vector<int> > > myVector (148995,vector<vector<int> >(7,vector <int>(6,0)));
``````

I would like to be able to use std::sort to sort it.

I want to sort all the value of y by the value of y = 5 in Myvector[x][y][z]

I would like to be able to sort one z at a time (z value can be from 0 to 5 ), i have tried to sort it as an independent 2d vector and only have Myvector[x][y] but I always get compile error while doing so.

I have found this code on another stackoverflow question that works for 2d vector but my limited programming skills do not let me convert it for a 3d vector :

``````std::sort(myVector.begin(), myVector.end(), [](const std::vector< int >& a, const std::vector< int >& b){ return a[1] > b[1]; } );
``````

thank you, Kaven

edit

``````myVector[x][y][z]
Myvector[x] = {0,1,2,3,...,200 000}
myvector[0][y][0] = {44,30,21,15,1,600,25}
myvector[1][y][0] = [25,24,10,7,1,700,30}
myvector[0][y][2] = {34,20,11,6,1,400,25}
myvector[1][y][2] = [33,24,10,7,1,300,40}
``````

if i would sort myvector[x][y][z] for all x by the value of y = 5 and sort all 'y' values where z = 0 (z can change from 0 to 5)

if i were to use the sort i would like and use it on z = 0 i would get

``````myvector[1][y][0] = {44,30,21,15,1,600,25}
myvector[0][y][0] = [25,24,10,7,1,700,30}
myvector[0][y][2] = {34,20,11,6,1,400,25}
myvector[1][y][2] = [33,24,10,7,1,300,40}
``````
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First, you have to think what means, for you, that one vector is greater that another. In the example you've provided only the first coordinate matters. So -- how should it be in your case? –  jacek.ciach Jul 3 '13 at 21:22
How I am seeing this vector is 6 table on top of each other, x is up to 200000, y is up to 7 and z is up to 6. I would like in one sort command to sort the y "line" of 7 values based on the 5th. the biggest value should be to x =0 and the lowest to x = 200000 –  user1853547 Jul 3 '13 at 21:24
Ok, but WHEN one vector is not equal, greater, less that another? I.e. is `(1,2,3)` greater that `(1,3,2)`? –  jacek.ciach Jul 3 '13 at 21:28
Post a numerical example, 'cause I'm not sure, what you're going to do and achieve. –  jacek.ciach Jul 3 '13 at 21:29
Do I understand correctly that you want to sort a vector of (in this example) 148995 2D Matrices without changing those matrices and want to sort them on the value of M[5][n] where n is a parameter that can change from sort to sort? –  dhavenith Jul 3 '13 at 21:34

You should be using std::sort and a function you use for sorting. If I understand you correctly you want to sort based on the 2nd or 3rd dimension.

``````bool comparison_function(const std::vector<std::vector<int> >& v1,
const std::vector<std::vector<int> >& v2) {
// calculate some comparison_result
return comparison_result
}
``````

Using this function you can call std::sort:

``````std::sort(myVector.begin(), myVector.end(), comparison_function);
``````

If your comparisons are rather complex then you should use functors instead of the comparison_function to inject state.

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dhaveniths answer is more exhaustive and is making use of C++11. In principle they are the same. I hope you understand the use of std::sort now. –  hanslovsky Jul 3 '13 at 22:05

I'm not sure I understand the question correctly, but if all you want is to sort a vector of matrices on the integer element M[y][z] of each matrix then I think the following code is what you need:

``````#include <vector>
#include <algorithm>

using namespace std;

using Row      = vector<int>;
using Matrix   = vector<Row>;
using Matrices = vector<Matrix>;

/// Sort a vector of matrices on element M[y][z] of each of the matrices.
/// terminology: y and z as in original question
void sort_on( Matrices &matrices, int y, int z)
{
sort( matrices.begin(), matrices.end(), [y,z](const Matrix &lhs, const Matrix &rhs)
{
return lhs[y][z] < rhs[y][z];
});
}

int main()
{
Matrices myVector( 100000, Matrix( 7, Row(6,0)));

sort_on( myVector, 5, 0); // sort on M[5][0]
sort_on( myVector, 5, 5); // sort on M[5][5]
}
``````
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