The standard way without using boost is to use std::vector :
std::vector< std::vector<int> > v;
v.resize(rows, std::vector<int>(cols, 42)); // init value is 42
v[row][col] = ...;
That will take care of new / delete the memory you need automatically. But it's rather slow, since std::vector is not primarily designed for using it like that (nesting std::vector into each other). For example, all the memory is not allocated in one block, but separate for each column. Also the rows don't have to be all of the same width. Faster is using a normal vector, and then doing index calculation like col_count * row + col to get at a certain row and col:
std::vector<int> v(col_count * row_count, 42);
v[col_count * row + col) = ...;
But this will loose the capability to index the vector using [x][y]. You also have to store the amount of rows and cols somewhere, while using the nested solution you can get the amount of rows using v.size() and the amount of cols using v[0].size().
Using boost, you can use boost::multi_array, which does exactly what you want (see the other answer).
There is also the raw way using native C++ arrays. This envolves quite some work and is in no way better than the nested vector solution:
int ** rows = new int*[row_count];
for(std::size_t i = 0; i < row_count; i++) {
rows[i] = new int[cols_count];
std::fill(rows[i], rows[i] + cols_count, 42);
}
// use it... rows[row][col] then free it...
for(std::size_t i = 0; i < row_count; i++) {
delete[] rows[i];
}
delete[] rows;
You have to store the amount of columns and rows you created somewhere since you can't receive them from the pointer.
