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I am writing a memory-managing template class in which I want to create a C-style array of fixed size, to serve as a heap. I keep the objects stored in an array like this:

T v[SIZE];

As this only serves the role as a heap that can hold T objects, I don't want the T default constructor to get automatically called for every object in the array.

I thought about the solution to define the heap like this:

char v[SIZE * sizeof(T)];

...but this will give me alignment problems.

Is there any better way to achieve this?

ADD: As I have special run time requirements, it is essential that this class doesn't do any allocations on the global heap.

ADD 2: SIZE is a template argument and known at compile-time.

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When do you intend the T constructors to be called if not then? Manually when you allocate the array items, or are you using your own new operators? –  Elemental Feb 16 '10 at 14:06
You can use malloc, but, and again, BUT - you should not need this kind of functionality. –  Drakosha Feb 16 '10 at 14:09
The T constructors will be called manually. That part is not a problem. –  Johan Kotlinski Feb 16 '10 at 14:14
You should really check out boost::object_pool or boost::pool. I think they already do what you're wanting. boost.org/doc/libs/1_34_0/libs/pool/doc/interfaces.html –  Brendan Long Feb 16 '10 at 21:45
They don't, but thank you. –  Johan Kotlinski Feb 17 '10 at 10:07

6 Answers 6

up vote 6 down vote accepted

The standard containers use allocators to seperate allocation/deallocation from construction/destruction. The standard library supplies a single allocator which allocates on the heap.

This code declares an array big enough to hold SIZE elements of type T with the correct allignment:

typedef typename std::tr1::aligned_storage<sizeof(T),std::tr1::alignment_of<T>::value>::type aligned_storage;
aligned_storage array[SIZE];

The solution using std::allocator can't be used to declare an array on the stack, and as the standard containers require that custom allocators hold no state, a custom allocator can't be portably used to allocate on the stack either.

If your compiler doesn't support std::tr1::alignment_of you can use boost::alignment_of instead.

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I realize this is probably the best solution. Unfortunately I am prevented from using tr1 or boost. Thanks –  Johan Kotlinski Feb 17 '10 at 10:17
In that case, you can look at how boost::alignment_of works - it's pretty simple conceptually, just a wrapper around a union of integer types with size <= sizeof(T). The difficulty is in providing the list of types of different sizes on different platforms. If you're only dealing with one or two compilers it should be straightforward. –  Joe Gauterin Feb 17 '10 at 10:44
The problem is that a functionality like aligned_storage requires some compiler support or at least some compiler- and machine-specific guarantees that are not part of the standard. That's why I'd keep using boost::aligned_storage (so I don't have to deal with implementation specifics). –  sellibitze Feb 17 '10 at 12:12
Yes, but the questioner doesn't have access to boost, so that's not an option for him. –  Joe Gauterin Feb 17 '10 at 12:59

What you are looking for is called an Allocator. A good overview can be found here: http://www.codeproject.com/KB/cpp/allocator.aspx

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I am not sure I can apply it in this case. It is essential that the manager object doesn't do any allocations and can be put on the stack. –  Johan Kotlinski Feb 16 '10 at 14:10

What I'd probably do is create an array of char (about like you've already considered), but allocate enough space for one more object than you really need. You'll then need to write a bit of code to find the correct alignment for your objects in that space.

The largest alignment requirement for an object is its own size (otherwise arrays of those objects couldn't be contiguous, which is required). Therefore, you pick the first address in the char-buffer that's a multiple of sizeof(T), and start your array from there.

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Weird, but should work:

long long v[size * sizeof(T)/sizeof(long long)+1];

This buffer will be alligned on 64 bits. But better will be allocate memory by new.

In any case, if size is variable - compiller will allocate memory dynamically through malloc/new (and not on stack).

EDIT: You can't use std::auto_ptr to automaticaly free buffer. Instead scoped_arr from boost can be used

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Thanks. I should have mentioned, size is a template argument aswell. –  Johan Kotlinski Feb 16 '10 at 14:16
You can't use std::auto_ptr to free a dynamically allocated array because it uses delete not delete[]. –  Joe Gauterin Feb 16 '10 at 14:23
@Joe Gauterin: Excellent point. Boost has scoped_arr and shared_arr that could be used for this. –  Fred Larson Feb 16 '10 at 15:13
You can use the shared_ptr for the TR1. One of the constructor types allows you to specify the function that releases the object. If you have a compiler that supports C++ lambda syntax, this is a very clean solution. –  Steve Feb 16 '10 at 16:45
But if you want a dynamically sized array, why not just stick with std::vector? –  Joe Gauterin Feb 17 '10 at 13:01

You can use a struct to handle the alignment issue.

struct Tbuffer { char data_[ sizeof( T ) ]; }

struct Tbuffer heap[ SIZE ];
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You really want this from the stack right? –  Sanjaya R Feb 16 '10 at 21:41
Not portable, I think? –  Johan Kotlinski Feb 17 '10 at 9:57
Why not? I use this all the time. –  Sanjaya R Feb 18 '10 at 21:51
I would be really surprised if allocating char[4] would ensure 4 byte alignment. –  Johan Kotlinski Mar 1 '10 at 11:44

How I probably will do it (after looking on EASTL fixed_vector implementation):

PRAGMA_PRE_ALIGN(sizeof(T)) char[SIZE * sizeof(T)]; PRAGMA_POST_ALIGN(sizeof(T))

...and implement compiler specific PRAGMA_PRE_ALIGN and PRAGMA_POST_ALIGN macros, that insert the correct #pragmas.

Unfortunately, boost and tr1 are not possible for this project.

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