Best way to create 5D or 6D array in java

Question

I am working on redesigning of a code in which 6D array are created . This is required for Cplex linear calculation.

Now, there are API's which can support 1D or int variable in cplex also so its not important to have 6 dimension array. Only the mapping is important with the variable which will be required when retrieing it from another method.

Is there any way of replacing 6D array. This will also help in simplying the complexity of the code.

-> can i replace somehow the 6D array and store the variable in 1D array or int variable.. -> I tried HashMap with key as list and value as Integer but eventually it is taking more time because HashMap internally uses Array.

Sample code is:

int [][][][][][] testVariable = new int [2][2][3][5][2][2];
        HashMap<List<Integer>, Integer> mapping = new HashMap<List<Integer>, Integer>();
        int[] arrayAdd = new int[11111];

    for (int a =0; a <= 2; a++) {       
        for (int l = 0; l < 2; l++) {
                for (int y = 0; y < 3; y++) {
                    for (int r = 0; r < 5; r++) {
                        for(int oc=0; oc< 2; oc++){
                            for(int c=0; c< 2; c++){

                                // usual array of 6D

                                testVariable[a][l][y][r][oc][c]=count;

                                // FIRST METHOD ( Takes more time then Array) 

                                LinkedList<Integer> listAdd = new LinkedList<Integer>();
                                listAdd.add(a);
                                listAdd.add(l);
                                listAdd.add(y);
                                listAdd.add(r);
                                listAdd.add(oc);
                                listAdd.add(c);
                                mapping.put(listAdd, count);

                                // second method .. this i am still testing but it doesnt make much sense)

                                arrayAdd[a + l + y + r + oc + c] = count;


                            //  Arrays.fill(arrayAdd, count);
                                //System.out.println("Value of list is  " + listAdd);
                                count ++;

                        }
                    }
                }
            }
       }
  }

Answer 1

If you know that the each of the dimensions' lengths won't change, then you can simulate a 6D array with a 1D array. The trick is to multiply the indexes for all but the last index c by a high enough number so that there won't be any collisions between distinct sets of 6D indexes mapping to the same 1D index.

int[] oneDArray = new int[2*2*3*5*2*2];

And for the calculation of the 1D index, using the 6 6D indexes. Multiplying by the product of all the dimensions' lengths after each particular 6D index will avoid the collisions.

int oneDIndex = 2*3*5*2*2 * a  // last 5 dimensions' lengths
              +   3*5*2*2 * l  // last 4 dimensions' lengths; variable letter l
              +     5*2*2 * y  // last 3 dimensions' lengths
              +       2*2 * r  // last 2 dimensions' lengths
              +         2 * oc // last dimension's length only
              +             c; // no multiplier necessary for last index

It will be better to use constants for each of the dimensions' lengths here, to reduce hard-coding.

Answer 2

Extending the answer of rgettman and proving more general way to convert from 6D->1D and vice versa.

1. Convert 6D array to 1D array:

   int[] sixDArrayToOneDArray(final int[][][][][][] sixDArray) {
   
       int dim1Length = sixDArray.length;
       int dim2Length = sixDArray[0].length;
       int dim3Length = sixDArray[0][0].length;
       int dim4Length = sixDArray[0][0][0].length;
       int dim5Length = sixDArray[0][0][0][0].length;
       int dim6Length = sixDArray[0][0][0][0][0].length;
   
       int[] result = new int[dim1Length * dim2Length * dim3Length * dim4Length * dim5Length * dim6Length];
   
       for (int i1 = 0; i1 < dim1Length; i1++)
           for (int i2 = 0; i2 < dim2Length; i2++)
               for (int i3 = 0; i3 < dim3Length; i3++)
                   for (int i4 = 0; i4 < dim4Length; i4++)
                       for (int i5 = 0; i5 < dim5Length; i5++)
                           for (int i6 = 0; i6 < dim6Length; i6++) {
                               int oneDIndex = i1 * dim2Length * dim3Length * dim4Length * dim5Length * dim6Length
                                             + i2 * dim3Length * dim4Length * dim5Length * dim6Length                                        + i3 * dim4Length * dim5Length * dim6Length
                                             + i4 * dim5Length * dim6Length
                                             + i5 * dim6Length
                                             + i6;
                               result[oneDIndex] = sixDArray[i1][i2][i3][i4][i5][i6];
                           }
   
       return result;
   }
   

2. Convert 1D array to 6D array:

   int[][][][][][] oneDArrayToSixDArray(int[] oneDArray, int dim1Length, int dim2Length, int dim3Length, int dim4Length, int dim5Length, int dim6Length) {
   
       if (oneDArray.length != dim1Length * dim2Length * dim3Length * dim4Length * dim5Length * dim6Length) {
           throw new IllegalArgumentException(String.format("One dimension array length [%s] does not match to six dimensions array lengths [%s, %s, %s, %s, %s, %s]", dim1Length, dim2Length, dim3Length, dim4Length, dim5Length, dim6Length));
       }
   
       int[][][][][][] result = new int[dim1Length][dim2Length][dim3Length][dim4Length][dim5Length][dim6Length];
       for (int i = 0; i < oneDArray.length; i++) {
           int i1 =  i / (dim2Length * dim3Length * dim4Length * dim5Length * dim6Length);
           int i2 = (i % (dim2Length * dim3Length * dim4Length * dim5Length * dim6Length)) / (dim3Length * dim4Length * dim5Length * dim6Length);
           int i3 = (i % (dim3Length * dim4Length * dim5Length * dim6Length)) / (dim4Length * dim5Length * dim6Length);
           int i4 = (i % (dim4Length * dim5Length * dim6Length)) / (dim5Length * dim6Length);
           int i5 = (i % (dim5Length * dim6Length)) / dim6Length;
           int i6 =  i % dim6Length;
           result[i1][i2][i3][i4][i5][i6] = oneDArray[i];
       }
   
       return result;
   }
   

Answer 3

Just my opinion, but assuming I wanted a non-sparse, hyper-rectangular, I would use a 1D Java array, and do the index arithmetic myself.

E.g., for a 2D array with 3 rows and 5 columns:

final int num_rows = 3;
final int num_cols = 5;

final T[] storage = new T[num_rows * num_cols];

T get(int row, int col) {
    assert(row >= 0);
    assert(row < num_rows);
    assert(col >= 0);
    assert(col < num_cols);
    return storage[row*num_cols + col];
}

You can imagine how this would be generalized to more than two dimensions.

Hint: I would replace num_rows and num_cols with a 1D, effectively immutable array named 'dimension'. The length of the dimension array would be the number of dimensions presented to the client. The length of the storage array would be the product of all of the members of the dimension array, and so on.