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I wrote a class that has to interface with some old code that requires a few C-style arrays (or at least the pointer to the first element) as arguments.

These arrays are members of my class and they are particularly large (50kb) so I want to put them on the heap so that the objects of my class are not huge on the stack. I'm a big believer of using resource managing objects so I would rather not manage these arrays on the heap myself.

I've found using unique_ptr's for this works particularly well. For example:

std::unique_ptr<SOMETYPE[]> someArrayName

and using:

someArrayName(new SOMETYPE[someLargeSize])

in the initialization list for my constructor. This allows me to use these as regular C arrays using the .get() method for functions that need that as arguments and I don't have to manage the memory myself. But I just realized my co-worker (the one who actually compiles our code for releases) is still on VS2008, obviously lacking support for C++0x features like unique_ptr. First, is my current solution using unique_ptr's for this a good one? If so, is there a replacement for this to maintain all the behavior I need in something like boost?

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8  
What about std::vector? (and you can pass along &v[0] to the legacy interface) –  R. Martinho Fernandes Jul 25 '13 at 16:38
3  
std::vector existed for this purpose and is older than C++11. –  Rapptz Jul 25 '13 at 16:39
    
I agree I'm basically trying to emulate the pros of std::vector while maintaining compatibility with the functions the require pointers to arrays. If I use std::vector, what is the best way to feed it in to something that wants a C style array? EDIT: looks like @R.MartinhoFernandes suggested something for this I missed. Is using &v[0] the proper way to solve this then? –  lanteau Jul 25 '13 at 16:40
    
Boost's got unique_ptr, too. –  jrok Jul 25 '13 at 16:40
    
@lanteau As R.MartinhoFernandes said, &v[0] (where v is a std::vector). –  Angew Jul 25 '13 at 16:41

1 Answer 1

up vote 4 down vote accepted

Using std::unique_ptr would require allocation using new[]. Which is never (or almost never) the best solution. In this case, just use std::vector. In pre-C++11, pass &array[0], array.size(); in C++11, you can be clearer, and pass array.data(), array.size(). (This also has the advantage that you don't have to special case empty vectors.)

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@lanteau However you want. You have more options than with new[], but you can also do exactly what you would do with new[], specifying the size, and then assigning to each element. –  James Kanze Jul 25 '13 at 17:06
    
Thanks, this achieves the behavior I was looking for. –  lanteau Jul 25 '13 at 17:06

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