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What is the difference between doing:

ptr = (char **) malloc (MAXELEMS * sizeof(char *));
// OR
ptr = (char **) calloc (MAXELEMS, sizeof(char*));

???

EDT: When is it a good idea to use calloc over malloc or vice versa?

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3 Answers

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calloc() zero-initializes the buffer, while malloc() leaves the memory uninitialized.

EDIT:

Zeroing out the memory may take a little time, so you probably want to use malloc() if that performance is an issue. If initializing the memory is more important, use calloc(). For example, calloc() might save you a call to memset().

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The *alloc variants are pretty mnemonic - clear-alloc, memory-alloc, re-alloc. – Jefromi Oct 8 at 15:07
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Use malloc() if you are going to set everything that you use in the allocated space. Use calloc() if you're going to leave parts of the data uninitialized - and it would be beneficial to have the unset parts zeroed. – Jonathan Leffler Oct 8 at 15:16
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calloc is not necessarily more expensive, since OS can do some tricks to speed it up. I know that FreeBSD, when it gets any idle CPU time, uses that to run a simple process that just goes around and zeroes out deallocated blocks of memory, and marks blocks thus processes with a flag. So when you do calloc, it first tries to find one of such pre-zeroed blocks and just give it to you - and most likely it will find one. – Pavel Minaev Oct 8 at 15:18
@Pavel - I agree. Edited my answer to be less definite on the time issue. – Fred Larson Oct 8 at 15:22
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Using calloc() is probably a safer bet in general, unless you're trying to optimize every last tiny bit out of your code (and even then, as others have pointed out, your efforts may be futile). – Andrew Song Oct 8 at 15:32
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A less known difference is that in operating systems with optimistic memory allocation, like Linux, the pointer returned by malloc isn't backed by real memory until the program actually touches it.

calloc does indeed touch the memory (it writes zeroes on it) and thus you'll be sure the OS is backing the allocation with actual RAM (or swap). This is also why it is slower than malloc (not only does it have to zero it, the OS must also find a suitable memory area by possibly swapping out other processes)

See for instance this SO question for further discussion about the behavior of malloc

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There's no difference in the size of the memory block allocated. calloc just fills the memory block with physical all-zero-bits pattern. In practice it is often assumed that the objects located in the memory block allocated with calloc have initilial value as if they were initialized with literal 0, i.e. integers should have value of 0, floating-point variables - value of 0.0, pointers - the appropriate null-pointer value, and so on.

From the pedantic point of view though, calloc (as well as memset(..., 0, ...)) is only guaranteed to properly initialize (with zeroes) objects of type unsigned char. Everything else is not guaranteed to be properly initialized and may contain so called trap representation, which causes undefined behavior. In other words, for any type other than unsigned char the aforementioned all-zero-bits patterm might represent an illegal value, trap representation.

Later, in one of the Technical Corrigenda to C99 standard, the behavior was defined for all integer types (which makes sense). I.e. formally, in the current C language you can initialize only integer types with calloc (and memset(..., 0, ...)). Using it to initialize anything else in general case leads to undefined behavior, from the point of view of C language.

In practice, calloc works, as we all know :), but whether you'd want to use it (considering the above) is up to you. I personally prefer to avoid it completely, use malloc instead and perfrom my own initialization.

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