# allocate a new memory for matrix

I have two classes:

``````class A

class B: class A
``````

I want to create a matrix that each pointer point to B (mat of 1X2).

so I defined:

``````A **mat;

mat = new A*[1];
*mat = new B[2]; // call the constructor.
``````

now I have 2 elements: mat[0][0], mat[0][1].

mat[0][0] is initialized but mat[0][1] is NULL.

-

If `sizeof(A) < sizeof(B)` than an array of `A`'s is not equivalent to an array of `B`'s. Since in the second allocation you allocate concreete objects which are larger than what `*mat` is supposed to point to, when you access the second element it doesn't access the second `B` element, but rather slices into the first.

That's my guess anyway, since you didn't tell us much about `A` and `B`.

EDIT

To answer your comment, I'd start by limiting the amount of raw pointers you use. Use a vector of vectors instead. Each element of the vector can be a raw pointer to an `A`. Which can have a run-time type of `B` or `C`.

``````#include <vector>

std::vector<std::vector<A*> > mat(1, std::vector<A*>(2, (A*)0));
``````
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thank you, but if I have: class B: public A.. and class C: public A.. and I want to create a matrix that each cell can be B or C, how can I do it? thank you! –  Alon Shmiel May 15 at 7:27
@AlonShmiel, That is a seperate question. But see my edit. –  StoryTeller May 15 at 17:33

If you need pointers to B, you don't need to specify anything about A. Since B derives A, you only have to allocate space for the larger one (B in this case).

For a matrix of pointers, you will need the following.

``````B *** mat;
mat = new B**[1]; //Dimension 1
mat[0] = new B*[2]; //Dimension 2 (array of pointers)
mat[0][0] = new B(); //Allocate B in [0][0]
mat[0][1] = new B(); //Allocate B in [0][1]
``````

But if you know it will always be 1x2, just use the following:

``````B * mat[1][2];
``````
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thank you, but if I have: class B: public A.. and class C: public A.. and I want to create a matrix that each cell can be B or C, how can I do it? thank you! –  Alon Shmiel May 15 at 7:25
You can create another class D: public B, public C. Then your matrix can be of type D*. When you read from the matrix you can cast to B or C easily. However, when writing B or C to the matrix, you will manually have to cast to type D. Another option could be to use a matrix of void* pointers and cast them to different pointers, but this would be dangerous. –  Brad May 15 at 22:53