How is a 2D array stored in memory?
I thought about the following approach, where rows are stored as contigous blocks of memory.
The elements are accesed like (i,j) -> n*i+j, where n is the dimension of the matrix (supposing it is nxn).
But what if i want to add a new column to it? I'd have to update each (n+1)th element in each row and also shift them to right, but that's too computationally expensive.
Another option would be to copy the matrix in a new location and update the rows with the new column's elements on the fly. But that's not too efficient too if the array is big.
And finally the third option i thought of is to allocate a fixed amount of memory for each row and when i add a new column i don't have to shift the rows to right.
I can't have gaps in the memory, so all blocks must be contigous.
I'm not asking for a C implementation using pointers and the actual RAM memory, i'm just curious about a theoretical approach of storing a dynamic 2d array in memory so as it is easy to append new rows or columns to it.
Are there other more efficient approaches?