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I'm trying to declare an array of pointers of a struct some_struct in C

Can I do:

some_struct* arr[10];

instead of:

some_struct** arr=(some_struct**)malloc(10*sizeof(some_struct*));

And what's the difference?

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Please don't cast the result of malloc. – Kerrek SB Feb 11 '12 at 20:58
@Kerrek SB, why? – mikithskegg Feb 11 '12 at 21:02
@mikithskegg because void* can be implicitly converted to any other pointer type, and if you manually cast the return value, when you change the type to some_other_struct you will have to change the cast as well – Seth Carnegie Feb 11 '12 at 21:04
@mikithskegg: Why not? Why would you cast anything?? Mystical: That comment is too much apples-and-pears for my liking... – Kerrek SB Feb 11 '12 at 21:05
@KerrekSB this is C, we like implementation details – Seth Carnegie Feb 11 '12 at 21:16

4 Answers 4

up vote 5 down vote accepted
  • The first one puts the array on the stack.
  • The second one allocates it on the heap.

In the first case, the lifetime of the array is only the scope at which it is defined in. When it falls out of scope, it will be freed automatically so you don't have to do any clean up.

In the second case, the array lives beyond the scope where the pointer is declared. So you will need to manually free() it later to avoid a memory leak.

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automatic storage/dynamic storage. :) +1 nevertheless – Luchian Grigore Feb 11 '12 at 20:59
C doesn't really have "lifetime", though, does it? It's only about the validity of the allocated memory. Automatic memory is released automatically, while dynamic memory has to be released manually. – Kerrek SB Feb 11 '12 at 21:09
Was trying to keep the explanation simple. Pedantic terminology tends to confuse beginners. – Mysticial Feb 11 '12 at 21:16
@Mysticial: On the contrary, needless details clutter the mind and confuse. What's important is how the different types of memory behave, not how they're implemented. – Kerrek SB Feb 11 '12 at 21:18

The first is allocated on the stack.

  • Its lifetime is the surrounding scope, and you don't have to manually deallocate the memory it occupies since it will be deallocated when the enclosing scope ends (it is said to have an automatic storage duration)
  • Compile-time arrays like this must have a constant size (that is, the size must be known at compile time, not runtime. Unless you are using C99 which allows Variable Length Arrays (VLAs) or the GCC compiler which has a non-standard extension to allow that
  • Once they are created, they cannot be resized

The second is allocated on the heap.

  • Its lifetime is until you manually deallocate it with free (it is said to have dynamic storage duration)
  • If you don't use free on it before you lose all pointers to it (in this case, before the pointer to it goes out of scope), you will have a memory leak
  • The size of these arrays can be determined at runtime
  • You can use realloc on the pointer to the array to ask the C runtime to try to make it bigger (or smaller) in place (or move it to a different larger area of memory if resizing it in place is not possible)
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Do you mean can't be determined at runtime? – Marlon Feb 11 '12 at 21:05
@Marlon no, the size of dynamic arrays can be determined at runtime because allocation is done at runtime by the malloc function, not the compiler – Seth Carnegie Feb 11 '12 at 21:06

The first one will be allocated in the stack, the second in the heap

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some_struct* arr[10]; Will allocate the memory on the stack, while some_struct** arr=(some_struct*)malloc(10*sizeof(some_struct*)); will allocate it on the heap.

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