Note that `new int[2][4]`

is an array of `int[]`

; the `int[]`

arrays in the `int[][]`

array are all initially the same length, but there's no requirement that they remain the same length. Any element of the `int[][]`

array can be reassigned an `int[]`

with a different length without affecting the other elements at all. The concept of "rows" and "columns" is a higher-level idea that is not supported by Java arrays.

Using an `ArrayList`

as other answers suggest isn't going to change this. Furthermore, Depending on how you use `ArrayList`

, you may end up with considerable overhead due to autoboxing of `int`

values as `Integer`

objects.

If you want to preserve the rectangular shape of your data, I suggest that you define a `Matrix`

class that keeps all the dimensions consistent. (Or, perhaps better, linearizes the two-dimensional array into a one-dimensional array and does the appropriate subscripting calculations using internally stored row and column sizes. Or, perhaps best, use a well-written matrix library such as JAMA or a primitive collections library like Trove.)

**EDIT** Here's the start of a simple matrix class that uses a linear storage scheme internally and allows matrix resizing. The data are stored in row-major order and indexing is based at 0.

```
public class IntMatrix {
private int rows;
private int cols;
private int[] data;
/**
* Allocate a matrix with the indicated initial dimensions.
* @param cols The column (horizontal or x) dimension for the matrix
* @param rows The row (vertical or y) dimension for the matrix
*/
public IntMatrix(int cols, int rows) {
this.rows = rows;
this.cols = cols;
data = new int[cols * rows];
}
/**
* Calculates the index of the indicated row and column for
* a matrix with the indicated width. This uses row-major ordering
* of the matrix elements.
* <p>
* Note that this is a static method so that it can be used independent
* of any particular data instance.
* @param col The column index of the desired element
* @param row The row index of the desired element
* @param width The width of the matrix
*/
private static int getIndex(int col, int row, int width) {
return row * width + col;
}
public int get(int col, int row) {
return data[getIndex(col, row, cols)];
}
public void set(int col, int row, int value) {
data[getIndex(col, row, cols)] = value;
}
/**
* Resizes the matrix. The values in the current matrix are placed
* at the top-left corner of the new matrix. In each dimension, if
* the new size is smaller than the current size, the data are
* truncated; if the new size is larger, the remainder of the values
* are set to 0.
* @param cols The new column (horizontal) dimension for the matrix
* @param rows The new row (vertical) dimension for the matrix
*/
public void resize(int cols, int rows) {
int [] newData = new int[cols * rows];
int colsToCopy = Math.min(cols, this.cols);
int rowsToCopy = Math.min(rows, this.rows);
for (int i = 0; i < rowsToCopy; ++i) {
int oldRowStart = getIndex(0, i, this.cols);
int newRowStart = getIndex(0, i, cols);
System.arraycopy(data, oldRowStart, newData, newRowStart,
colsToCopy
);
}
data = newData;
}
. . .
}
```

`ArrayList`

? – Simz Nov 29 '13 at 17:46