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int buf1[] = {0,0,0,0,0};

int* buf2 = new int[5]; //assume every element is initialzed to 0 as well

The only difference I can think of is buf1 is a reference to the array while buf2 is a pointer pointing to the array. In other words, buf1 always refers to the array while buf2 can point to other places as well.

Besides the mentioned one, is there any other difference between the two ways of declaring(and initializing an array)?

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Why do you assume every element is initialized in the new case? –  Fred Larson Nov 30 '11 at 16:14
@FredLarson I just omitted the initialization steps so as to save some space here. –  Terry Li Nov 30 '11 at 16:16
Whilst it's specifically for C, this may be of some use: c-faq.com/aryptr/index.html –  Polynomial Nov 30 '11 at 16:17
@Polynomial Very helpful. Solved my confusion! –  Terry Li Nov 30 '11 at 16:23
Just a note, as of the 2003 version of c++. If you want your second example to be 0 initialized, you can write: int* buf2 = new int[5](); –  Evan Teran Nov 30 '11 at 16:30

5 Answers 5

up vote 9 down vote accepted

buf1 is an automatic object (or static if it's in the global scope); *buf2 is a dynamic object. That is, the lifetime of buf1 is controlled automatically, while the lifetime of *buf2 is yours to manage. (buf2 lives until you say something like delete[] buf2;.)

The initializers are also different; buf1 is brace-initialized, while *buf2 is default-initialized (i.e. its int elements are uninitialized).

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+1: Teh fact that buf1 is automatic while buf2 is dynamic is by far the most important difference here. –  John Dibling Nov 30 '11 at 16:23

In the first case:

  • automatic (in function scope) or static (in namespace scope) allocation is used
  • you have initialized the values to all zeros

In the second case:

  • dynamic allocation is used (and you will have to delete [] later)
  • The array is uninitialized
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int buf1[] = {0,0,0,0,0};

This gives automatic storage, if it's in a block, or static storage if it's in a namespace. In the first case, it will last until the program leaves the block it's declared inside; in the second, it lasts until the program exits.

int* buf2 = new int[5];

This creates the array dynamically; you have control over its lifetime, and it lasts until you delete it (delete [] buf2). If you don't delete it, then there is a memory leak, which is something you should avoid. To ensure that dynamic objects get deleted correctly, it's better not to manage them directly with a raw pointer, but should use a RAII class, such as a smart pointer or a container, to manage it for you.

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Strictly speaking, whether or not there's a memory leak depends on your implementation of ::operator new() (e.g. it could allocate from a pool that you clean up properly). What you do always have is a "lifetime leak". –  Kerrek SB Nov 30 '11 at 16:32

If you declare int buf1[] = {0,0,0,0,0}; in function after you exit from it the array will be destroyed. In the second case you have to manually delete the array after you finish using it like this delete [] buf2, but this way it won't be destroyed automatically, so you can use it everywhere until you delete it.

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Besides the fact you have to clean (delete) your second version? And that the first and second versions will be allocated in different areas of RAM? And that the first may take up ever so slightly more executable space if those 0s are stored instead of generated? Or that the second version will even clear that RAM to 0 for you, which I don't believe it will.

They are very different.

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