Your code doesn't do what you think it does.
ArrayList gridList = new ArrayList;
This first line allocates an
ArrayList al = this.gridList[a][b];
This second line retrieves the
ArrayList at offset
b in the
array at offset
a in the
array gridList. You should be aware that your code doesn't initialize either arrays.
The equivalent type in C++ could be:
std::array< std::array< std::vector<T>, 150>, 300> gridList;
T is the type of the element stored in the vectors. Note that Java prior to generics only allowed to define ArrayList without specifying the element type, which is pretty much what your code does. In C++, this parameter is mandatory. The above variable definition will instantiate it for the current scope. you will need to use a
new statement for a dynamic value (as in Java), and probably wrap it with a smart pointer.
To access an element of the grid, you can use the
vector v = gridList[a][b];
Beware that this will trigger a full copy of the
vector content in the grid at position < a,b > into
v. As suggested, a more efficient way would be to write:
auto const &al = gridList[a][b];
Again, the memory model used by Java is very dynamic, so if you want code closer in behaviour to the Java version, you would probably have something like:
typedef std::vector<int> i_vector;
typedef std::shared_ptr<i_vector> i_vector_ptr;
typedef std::array< std::array< i_vector_ptr>, 150>, 300> vector_grid;
typedef std::shared_ptr<vector_grid> vector_grid_ptr;
i_vector_ptr al = (*gridList)[a][b];
int, and each component of the grid type clearly defined. You still have to allocate the grid and each element (ie.