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How do I do a memset for a pointer to an array?

int (*p)[2];



Is this allocation an correct?

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Do not cast the result of malloc, and have you tried it? What makes you think it may be not correct? – Eregrith Oct 3 '12 at 9:37
You need to clarify, whether you want C or C++. Because for C++ all these will not required – iammilind Oct 3 '12 at 9:38
my confusion was should i write memset(p,0,sizeof(*p)*100); or memset(p,0,sizeof(int[2])*100); – user1660982 Oct 3 '12 at 9:39
Those two are equivalent. – jrok Oct 3 '12 at 9:40
I don't really understand what you're trying to do... I mean, what your goal is (it's not clear from your code). – CAFxX Oct 3 '12 at 9:43

5 Answers 5

you can use calloc.

calloc will replace both malloc and memset.

p = calloc(100, sizeof (*p));
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I'll summarize a lot of answers (although I've ignored some of the stylistic variants in favor of my own preferences).

In C:

How to use malloc:

int (*p)[2] = malloc(100 * sizeof(*p));

How to use memset:

memset(p, 0, 100 * sizeof(*p));

How to do both in one statement:

int (*p)[2] = calloc(100, sizeof(*p));

In C++, the same is possible except that you need to cast the results of malloc and calloc: static_cast<int(*)[2]>(std::malloc(100 * sizeof(*p)).

However, C++ provides alternative ways to allocate this:

int (*p)[2] = new int[100][2](); // like calloc.
delete[] p; // *not* delete p

C++ also provides vector, which is usually nice, but unfortunately you cannot create a vector of C-style arrays. In C++03 you can workaround like this:

struct my_array {
    int data[2];

std::vector<my_array> p(100);
// no need to free/delete anything

I don't think that zeros the elements, although I might be wrong. If I'm right, then to zero you need:

my_array initvalue = {0};
std::vector<my_array> p(100, initvalue);

another way to represent 2 ints:

std::vector<std::pair<int,int> > p(100);

If you can use Boost:

std::vector<boost::array<int, 2> > p(100);

In C++11:

std::vector<std::array<int, 2>> p(100);

I've listed these in increasing order of how good they usually are, so use the last one that isn't blocked by whatever constraints you're working under. For example, if you expect to take a pointer to the first element of one of the inner arrays-of-2-int, and increment it to get a pointer to the second, then std::pair is out because it doesn't guarantee that works.

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Whether the struct will contain garbage or zero by default will of course depend on in which scope it was declared (global/static vs automatic). In C++, it would be better to add a constructor to the struct, so that you wouldn't need to rely on the explicit initialization. – Lundin Oct 3 '12 at 13:18
@Lundin: I nearly added a constructor, but (a) I didn't want to needlessly make it non-POD, and (b) just because I want this vector zero-ed doesn't necessarily mean I want every instance of the class ever to be zeroed. My basic confusion is that I can't remember whether the temporary my_array() is default initialized or zero initialized. It's neither global not automatic! – Steve Jessop Oct 3 '12 at 13:42
It will run the default constructor, which does nothing. So the data will be garbage unless you add a constructor. You could always add one like my_array(int arr[2] = NULL) and make the zero initialization conditional. – Lundin Oct 3 '12 at 14:13

The elegant way:

typedef int int_arr_2[2];

int_arr_2* p;

p = malloc(sizeof(int_arr_2)*100);

The best way:

typedef int int_arr_2[2];

int_arr_2* p;

p = calloc(100, sizeof(int_arr_2));

calloc, unlike malloc, guarantees that all bytes are set to zero.

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I'm sort of at +1 for calloc, -1 for saying that sizeof(int_arr_2) is more elegant than sizeof(*p). But it's a bigger +1 than -1, so I can easily be convinced ;-) – Steve Jessop Oct 3 '12 at 9:49
@SteveJessop I'm persuading you to upvote, just like I did. – jrok Oct 3 '12 at 10:01
@SteveJessop The code is elegant for the following reasons: It makes it impossible for the programmer to accidentally take sizeof(the pointer itself). Particularly, you are bound to get it wrong in the not too uncommon case of bool custom_allocate (int** array); where the allocated data is passed to main through a parameter. To get that right, you'd need to write malloc(sizeof(**array)). Besides that, the typedef syntax is also easier and more intuitive to read for the average C programmer who isn't used to array pointers. – Lundin Oct 3 '12 at 12:43
I don't think I am bound to get it wrong. I'd write *array = malloc(number * sizeof(**array)). Or some_function()->member = malloc(number * sizeof(*(some_function()->member))). It's not a complicated rule. But I meant I can be convinced this is a good answer, not that I can be convinced to prefer your way of writing the size. I cannot be convinced of that, because you're wrong :-) I don't mind the typedef for the pointer-to-array, though, that's another plus point. – Steve Jessop Oct 3 '12 at 12:47
@SteveJessop But then, judging from the quality of your C-related posts on this site, I don't believe you fit in the "average C programmer" category :) To write code that can even be understood and maintained by a rookie programmer, is much more challenging than writing code that can be understood and maintained by a C guru with a couple of decades of experience. – Lundin Oct 3 '12 at 12:53

The memset() line is proper.

For C you don't need malloc casting.
In C++ if you still want to do this, the type cast should be as:

p = (int(*)[2]) malloc(sizeof(*p)*100);  // or `static_cast<...>
  // ^^^^^^^^^

But I would suggest to change your approach for using std::vector instead. Cleaner, better and "semi-automatic":

std::vector<int*> vi(100);  // or std::vector vi(100, nullptr);

Another way with raw pointers is to use new[]:

int **p = new[100]();  // allocates and sets to 0

But you have to manage this memory later on by deallocating with delete[]

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In C++, the cast is mandatory and good style. In C, the cast is dangerous and can create severe bugs. They are different languages. This is why you should only program in one programming language at a time :) – Lundin Oct 3 '12 at 9:46
@Lundin: I think iammilind's point was that in C++ the malloc isn't mandatory. Hence "you can have this", but his suggestion is that you don't :-) – Steve Jessop Oct 3 '12 at 9:52
In C++, you would use new, so no cast is needed. And just adding a () at the end of the new expression will effectively set all of the allocated values to 0. – James Kanze Oct 3 '12 at 9:54
@JamesKanze, ideally I use new/new[] only if there is a specific programming requirement (i.e. copying is expensive or multi-threading environment). Always advisable to use std::vector which internally does that and takes care of deleting the memory. – iammilind Oct 3 '12 at 9:56
@iammilind Good point. std::vector<int> would be even better here. – James Kanze Oct 3 '12 at 10:00

In C (not C++) you would just do

int (*p)[2] = malloc(sizeof(*p)*100);


that is, variables can be initialized with expressions and malloc doesn't need (and should not have) a cast. Then *p is an "lvalue" of your array type that decays to a pointer when passed to memset.

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