It's very bothersome for me to write calloc(1, sizeof(MyStruct)) all the time. I don't want to use an idea like wrapping this method and etc. I mean I want to know what two parameters gives me? If it gives something, why doesn't mallochave two parameters too?

By the way, I searched for an answer to this question but I didn't find a really good answer. Those answers was that calloc can allocate larger blocks than malloc can and etc.

I saw another answer that calloc allocates an array. With malloc I can multiply and I'll get an array and I can use it without 1, at the start.

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    This should be tagged C not C++, in C++ you use new and delete, not malloc/free. – Borgleader Sep 23 '12 at 20:18
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    Because calloc allocate a zeroed array of elements of the same size, while malloc allocate an uninitialized heap zone. – Basile Starynkevitch Sep 23 '12 at 20:19
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    Possible duplicate of stackoverflow.com/questions/4083916/two-arguments-to-calloc – gtgaxiola Sep 23 '12 at 20:19
  • @gtgaxiola I saw that answer. It's with the larger blocks. It's not what I asked for :(. – DividedByZero Sep 23 '12 at 20:21
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    @BasileStarynkevitch That's no reason for two parameters, a simple size in bytes (like malloc) would be enough to zero the memory. – Eloff Sep 23 '12 at 20:21

Historical reasons.

At the time of when calloc was introduced, the malloc function didn't exist and the calloc function would provide the correct alignment for one element object.

When malloc was introduced afterwards, it was decided the memory returned would be properly aligned for any use (which costs more memory) and so only one parameter was necessary. The API for calloc was not changed but calloc now also returns memory properly aligned for any use.


See the discussion in the comments and the interesting input from @JimBalter.

My first statement regarding the introduction of malloc and calloc may be totally wrong.

Also the real reasons could also be well unrelated to alignment. C history has been changed a lot by compiler implementers. malloc and calloc could come from different groups / compilers implementers and this would explain the API difference. And I actually favor this explanation as the real reason.

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    Can you please cite a reference for the claim that calloc preceded malloc? I've been programming in C since Bell Labs Unix version 6, and I'm almost certain that this claim is incorrect. – Jim Balter Sep 23 '12 at 20:37
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    I think the main reason for the difference is that they were designed by different groups. PWB was developed by a group at Bell Labs separate from research, and that introduced some redundancy into the library and the commands. I don't think alignment buys much since the length (or a pointer to the next block) was stored with the allocated memory and it would be painful to manipulate it if it wasn't aligned -- and portability meant that alignment requirement was loose. – Jim Balter Sep 23 '12 at 21:39
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    +1 Nice. We don't really know, and it's good to acknowledge that. I'm almost inclined to delete my strongly stated but false comment that alloc was never part of the library, but I think I'll leave it, humbled by how sure I was of something that isn't true. – Jim Balter Sep 23 '12 at 22:01
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    @JimBalter I also wanted to delete my answer but I think it is better if the discussion remains. – ouah Sep 23 '12 at 22:04
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    Look at minnie.tuhs.org/cgi-bin/utree.pl and search for alloc and marvel at what you will discover ... e.g., minnie.tuhs.org/cgi-bin/utree.pl?file=V7M/src/libc/gen/calloc.c ("gen" was the PWB library that was an addendum to the C library). – Jim Balter Sep 24 '12 at 0:12

The only reason I could come up with is that

int *foo = calloc(42, sizeof *foo);

is one character shorter than

int *foo = malloc(42 * sizeof *foo);

The real reason is apparently lost to the millennia centuries decades of C history and needs a programming language archaeologist to unearth, but might be related to the following fact:

In contrast to malloc() - which needs to return a memory block aligned in accordance to the full block size - when using calloc() as intended, the memory block would only need to be aligned in accordance to the size passed as second argument. However, the C standard forbids this optimization in conforming implementations.

  • It's just to allocate memory ,it can't optimize it. If it can then it can optimize it both the allocate methods. – DividedByZero Sep 23 '12 at 22:32
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    @DividedByZero: say your architectures supports 2-byte and 4-byte alignment; malloc(6) will need to return a 4-byte aligned block, whereas calloc(3, 2) could return a 2-byte aligned block if not for the restrictions probably introduced when C was standardized – Christoph Sep 23 '12 at 22:39
  • The C standard (I was on the standards committee, so this one I remember well) came long after malloc and calloc were introduced. And I'm pretty sure that, as of UNIX Version 7, calloc just called malloc and then cleared the memory. – Jim Balter Sep 23 '12 at 23:04
  • @JimBalter: thanks for your clarification; from the link you provided in another comment, it appears that there existed *nixes where one had to call cfree() on blocks allocated via calloc() - so at least someone needed to come up with the semantics which were later incorporated into the standard; I wouldn't be surprised if this actually happened due to laziness when porting calloc() to another *nix variant – Christoph Sep 23 '12 at 23:24
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    Search for alloc at minnie.tuhs.org/cgi-bin/utree.pl and you'll discover a lot of interesting things, like minnie.tuhs.org/cgi-bin/utree.pl?file=V6/usr/source/iolib/… – Jim Balter Sep 24 '12 at 0:09

calloc allocates an array of elements in memory the size of Number of elements (first parameter) times the size of the element to allocate specified number of (second parameter). Additionally calloc initializes this array to 0. The size of the element may be bigger than a byte and the function calculates the required memory size for you.

malloc takes a single parameter that allocates specified number of bytes and gives you a pointer to that. Additionally, malloc does not initialize this block to anything.

Both functions essentially gives you the same functionality.

Here's the references:

malloc calloc

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    Then why malloc doesn't has two parameters too? – DividedByZero Sep 23 '12 at 20:25
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    Hmm...doesn't really answer why there's a difference. – Christian Rau Sep 23 '12 at 20:32
  • The text of the question already addresses the irrelevancies of this answer. The fact is that there is no advantage to having two arguments, it's simply a different API with equivalent functionality. The only relevant difference between malloc and calloc is that the latter clears memory, but the OP explicitly state that that is not the question. – Jim Balter Sep 23 '12 at 20:44

it is just by design.

you could write your own calloc

void *mycalloc(size_t num, size_t size)
    void *block = malloc(num * size);
    if(block != NULL)
        memset(block, 0, num * size);
    return block;
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    Why was this correct answer downvoted without comment? Such downvotes are bad SO citizenry. – Jim Balter Sep 23 '12 at 20:45
  • @JimBalter Design is not an answer. Programming is not an iPhone and who create this function'll not has a time on designing his functions. – DividedByZero Sep 23 '12 at 21:02
  • @GamecatisToonKrijthe I don't know what your comment means. Answers at SO initially have a vote of 0, and there's an answer below with no downvotes, and an answer above with 2 downvotes. None of the downvotes have been explained nor have the downvoters taken responsibility. – Jim Balter Sep 23 '12 at 21:30
  • @DividedByZero I can't parse your comment, which is not in English. iPhones aren't the only thing designed; programs and APIs are also designed. The answer is correct: one or two arguments is a design choice, nothing more. – Jim Balter Sep 23 '12 at 21:32
  • @JimBalter I mean like adding parameters to it and make it more beautiful. The second parameter is useless and annoying. – DividedByZero Sep 23 '12 at 22:41

You shouldn't allocate objects with calloc (or malloc or anything like that). Even though calloc zero-initializes it, the object is still hasn't been constructed as far as C++ is concerned. Use constructors for that:

class MyClass
    short m_a;
    int m_b;
    long m_c;
    float m_d;

    MyClass() : m_a(0), m_b(0), m_c(0), m_d(0.0) {}

And then instantiate it with new (or on the stack if you can):

MyClass* mc = new MyClass();
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    This question is about C not C++. – DividedByZero Sep 23 '12 at 21:00
  • But you said that you were writing calloc(1, sizeof(MyClass)), which suggests you're using calloc to allocate objects. If not, what is MyClass then? – user1610015 Sep 23 '12 at 21:09
  • One can do class-oriented programming in C and define things like typedef struct { /* instance variables */ } MyClass; – Jim Balter Sep 23 '12 at 21:34
  • @JimBalter That would be a struct (a POD more precisely), not a class in the object-oriented sense. I guess we'll have to hear it from DividedByZero. – user1610015 Sep 23 '12 at 21:47
  • @user1610015 It is a class in the object-oriented sense if it is accompanied by functions like MyClass_foo(MyClass* this, ...). "object-oriented" is a methodology, not a syntax. – Jim Balter Sep 23 '12 at 22:05

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