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I'm currently in the middle of making an old project of mine memory-safe.

In this project I have a 2D array populated with pointers to instances of my own class Block.

declared like so:

Block* gemGrid[xMax][yMax];

and populated later like so:

for(int i = 0; i<8; i++)
{
    for(int j = 0; j<8; j++)
    {
        //do stuff here
        gemGrid[i][j] = new Block(i,j, gridOffset);
    }
}

This works fine.

I had the idea of creating a 2D array of unique_ptr<Block> instead of Block*.

Which i decided to declare like so:

unique_ptr<Block> gemGrid[xMax][yMax];

and populate like so:

for(int i = 0; i<8; i++)
{
    for(int j = 0; j<8; j++)
    {
        gemGrid[i][j].reset( new Block(i,j, gridOffset));
    }
}

However when I try this the compiler decides to completely ignore the second for loop (the 'j' incremented section), and create only a one dimensional array.

Which leads me to ask, does C++ have a problem with unique_ptrs in 2D arrays? And should I just stick with a 2D array of pointers to Blocks, and have one unique_ptr make sure this array is killed-of when it goes out of scope?

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6  
Why are you even using pointers to blocks? Block gemGrid[xMax][yMax]; seems fine to me (though I can't not mention std::vector<Block> if sizes are not fixed at compile time) – R. Martinho Fernandes Feb 5 '13 at 14:17
1  
If it wasn't clear yet: this is not Java. You don't need new. Stop using it and all the issues it brings go away. (i.e. Block gemGrid[xMax][yMax]; just works without any manual intervention) – R. Martinho Fernandes Feb 5 '13 at 14:34
3  
"the compiler decides to completely ignore the second for loop (the 'j' incremented section), and create only a one dimensional array." This seems unlikely. The for loop has absolutely no effect on what dimension the array is. The dimension of the array is determined by its definition, and you have shown a definition of a 2-D array. The problem likely is something other than what you think it is. – Steve Jessop Feb 5 '13 at 14:34
1  
@GuyJoelMcLean, the object's sole purpose is to be pointed to by a pointer? I doubt it, as that's a pretty useless object. Why do you think you need pointers? – Jonathan Wakely Feb 5 '13 at 14:41
1  
@GuyJoelMcLean recheck, that xMax and yMax are exactly equals 8 or change for cicles to these constants instead of hardcode 8 – borisbn Feb 5 '13 at 14:48
up vote 4 down vote accepted

C++ has no objection whatever to a 2-D array of unique_ptr.

The two alternatives you offer don't seem like real alternatives to me. If you have a unique_ptr to a 2-D array of Block*, and you allocate xMax * yMax instances of Block using new and store pointers to them in your array, then who or what is going to free those instances of Block? Certainly the unique_ptr is not. So the answer to "should I just do that" is almost certainly "no", because you'll have memory leaks.

The most "obvious" way to allocate a 2-D layout of instances of Block is to define a 2-D array of Block (either using a builtin array or std::array if available). If you can identify anything about that that doesn't suit you, then someone can suggest an alternative way for your old code to avoid memory leaks.

[In response to a comment above] Having done Block gemGrid[xMax][yMax];, you can get a pointer to one of your Block objects, if you need one, like this: &gemGrid[i][j]. Needing a pointer has absolutely nothing to do with memory allocation. Pointers are the means by which new lets you access the objects it allocates, but you can take a pointer to an object regardless of how it is allocated.

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