I was doing some C coding and after reading some C code I've noticed that there are code snippets like

char *foo = (char *)malloc(sizeof(char) * someDynamicAmount);

So I want to ask what's more C-ish way to allocate memory for char array? Use sizeof(char) and supposedly future-proof the code against any standard changes or omit it and use the number directly?

12 Answers 12


The more Cish way would be

char* foo = malloc(someDynamicAmount * sizeof *foo);

referencing the variable and not the type so that the type isn't needed. And without casting the result of malloc (which is C++ish).

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    This is better because if the type of foo is changed it will still malloc the correct amount. This is especially important to do this in a memcpy. – progrmr Aug 30 '11 at 13:29
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    "which is C++ish" - well, in the unlikely event that you use malloc in C++, you would have to cast the return value. I suspect that it was a misguided C idiom as well as, and perhaps before, being a C++ idiom. I find it amusing that there's a CERT advisory for C code saying that you should always cast the return value of malloc, and another one saying that you should never do so. – Steve Jessop Aug 30 '11 at 13:36
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    @James: the way I see it, you have the choice of repeating the type (which can become out of sync and introduce a bug), or repeating the variable name. Unless your variable shadows another one, changing the name of the variable and failing to update the malloc argument causes a compilation failure ("foo not defined"), so it's a safer kind of repetition. – Steve Jessop Aug 30 '11 at 13:41
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    @Steve, Purposely designing a library so that it can be compiled in C and in C++ is sometimes the right thing to do. Thinking that compiling random C code with a C++ compiler will work without modification is an illusion. But it is less trouble than making work a code developped on a 32 bit platform without paying too much attention on portability on a 64 bit platform. – AProgrammer Aug 30 '11 at 13:51
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    @Steve Jessop: Pre-C89, the *alloc functions returned char * instead of void *, so the cast was necessary. That's part of why the practice has been so hard to stamp out; older programmers may still do it out of habit, and of course anyone who looks at their code or books written by them sees the practice and copies it. Took me a while to stop doing it once I realized it was no longer necessary. – John Bode Aug 30 '11 at 18:29

I do sizeof(char) to make the intentions clear. If anyone ever decides he wants foo to be an int he knows he'll need to do sizeof(int) for it to keep on working.

or omit it and use the number

Plus it's not very good coding practice to use magic numbers.

  • It's not magic numbers. I meant the variable which has some int value. – Eimantas Aug 30 '11 at 13:35
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    Even with the compiler set to emit all possible warnings, int *foo = malloc(sizeof(char) * some_quantity) will compile without complaint, silently creating a bug. – Blrfl Aug 30 '11 at 21:17
  • sizeof (*foo) is the way to goo – Prof. Falken Sep 16 '11 at 10:51
  • @Blrfl Not necessary a bug - int *foo = malloc(sizeof(char) * 4) is a valid code for allocating memory for 32-bit integer ... – Agnius Vasiliauskas Oct 3 '11 at 8:49
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    @0x69: That fails badly on systems where int is not four bytes or char is not eight bits. The standard permits both, and both of those situations exist in the real world. If you need an integer of known size, <stdint.h> provides types to handle that. – Blrfl Oct 3 '11 at 11:23

IMHO the best practice is to write sizeof(*foo). Then you're covered also if the type of foo changes and the sizeof is not corrected.



float*baz = malloc(sizeof(float) * someDynamicAmount);
int  *bar = malloc(sizeof(int)   * someDynamicAmount);
char *foo = malloc(sizeof(char)  * someDynamicAmount);


float*baz = malloc(sizeof(float) * someDynamicAmount);
int  *bar = malloc(sizeof(int)   * someDynamicAmount);
char *foo = malloc(someDynamicAmount);

I like the first version. Do you prefer the second?

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    So in cases where the code snippet is part of a list that are so intrinsically related that you've horizontally aligned them -- so related that if you add one for long long later then you're happy for the diff to show 3 lines changed in addition to the one added -- then it's OK to write sizeof(char) ;-p – Steve Jessop Aug 30 '11 at 13:33
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    @Steve: It's not about the list. It's about not making an exception of the general pattern for char just because you happen to have a guarantee of its size. – Armen Tsirunyan Aug 30 '11 at 13:34
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    you can look at it two ways, though. If you think of malloc as taking a "size in bytes" and sizeof as being the way to get the size of something "in bytes", then it makes sense to write sizeof(char). But if you think of malloc as taking a "size in chars", then it makes no sense to write sizeof(char), because no "unit conversion" is required. To that mindset, it's like writing if (something() != false). I don't write sizeof(char) if I'm allocating a byte buffer for I/O or string manipulation. I would if the code was nearly generic, but happens to use char at the moment. – Steve Jessop Aug 30 '11 at 13:54
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    ... well, that is I would write something for the size. If for some reason it wasn't appropriate to write it AProgrammer's way, it would be sizeof(char). In practice, for a read buffer I write char *foo = malloc(BUF_SIZE);, in that nearly-generic code I'd write char *foo = malloc(sizeof(*foo)*ARRAY_SIZE). I won't add what I see as noise to my code, in order to treat the former as part of the same "general pattern" as the latter. – Steve Jessop Aug 30 '11 at 13:55
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    @Steve Jessop: programmers who are expert in a certain language will have trained their eye to spot potential wtfs of the language. Since almost all mallocs had to have sizeof(), if while skimming over code you see malloc without one, then you'll have to pause and look around for its type, and now you realize you have wasted your time pausing because it turned out to be a char. This pauses potentially breaks your flow of what you're currently thinking, and may accumulate. There is a merit in being consistent. – Lie Ryan Aug 30 '11 at 19:01

You're correct, by standard, the multiplication is irrelivant. That said, it looks like a habit someone got into to be consistent. If you always use the sizeof(), regardless of type, you never forget.

char *foo = (char *)malloc(sizeof(char) * someDynamicAmount);
int  *bar = (int  *)malloc(sizeof(int)  * someDynamicAmount);

The common idiom is

T *p = malloc(N * sizeof *p);


T *p;
p = malloc(N * sizeof *p);

This way you don't have to worry about the type.


Citing C99 standard, section The sizeof operator:

When applied to an operand that has type char, unsigned char, or signed char, (or a qualified version thereof) the result is 1. When applied to an operand that has array type, the result is the total number of bytes in the array. When applied to an operand that has structure or union type, the result is the total number of bytes in such an object, including internal and trailing padding.

That is, sizeof char == 1 by the standard, not by the implementation. Therefore it is absolutely correct to omit sizeof(char) when calling malloc() for chars and in similar cases. IMHO, it is highly improbable that future C standard will allow implementation-specific size of char, because too much code already depends on it to be 1 and backward compatibility is very important in C.

Therefore, the question is only about style, not correctness and here I support AProgrammer's answer.


Writing sizeof(char) is not "future-proofing" your code against possible changes in the standard. It's usually a sign of complete misunderstanding of what sizeof means and the whole fundamental model of memory objects in C - what's referred to as Representation of Types in the language of the C standard. The only reason a sizeof operator even exists or makes sense is because C specifies objects to have a "representation" in memory in terms of a smallest possible unit that is unsigned char. If not for this, storage would be a lot more abstract and there would be no use of sizeof and the related pointer arithmetic.

sizeof is defined in units of char, i.e. sizeof(T)==N means type T occupies N chars. In light of this, sizeof(char) is completely silly; it's attempting to measure how many chars a char occupies.

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    sizeof is defined in bytes, not chars, chars are special cased for sizeof, but that's a different matter entirely than saying that sizeof is in terms of chars. – jmoreno Aug 30 '11 at 22:50
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    @jmoreno: -1'ing my answer doesn't change the fact that you're wrong. "Byte" is barely used in the C standard, and where it is used, it's synonymous with char. It probably wouldn't have been added at all if not for the phrase "multibyte character". – R.. Aug 30 '11 at 23:24
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    Actually, he's right, sizeof() returns the number of chars, not the number of bytes. sizeof(char) is 1, by definition. – Simon Richter Aug 30 '11 at 23:41
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    @R: C99 says The sizeof operator yields the size (in bytes) of its operand and When applied to an operand that has type char, unsigned char, or signed char, (or a qualified version thereof) the result is 1. I see it defined as bytes here. – Thomas Eding Aug 30 '11 at 23:51
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    -1, for "It's nothing short of a complete misunderstanding...". The fact that you don't see a reason to write it (because it's always 1) doesn't mean that other people who do are clueless. Disagreement with you does not constitute "complete misunderstanding". – Ed Staub Aug 31 '11 at 2:18

This is all a matter of coding style. Several styles exist.

To actually answer the question, people write

malloc(n * sizeof(char))

to keep all their code that uses malloc consistent. Next time they might need int and then they can write the code in the very same way,

malloc(n * sizeof(int))

So the reason why it is done to keep the coding style consistent. Even though sizeof(char) is indeed guaranteed to always be 1 and is therefore superfluous. It is a way to write self-documenting code.

However, the most common way to use malloc in C is perhaps

type* t = malloc(n * sizeof(*t));

or 100% equivalent:

type* t = malloc(n * sizeof *t);

Since the operator of sizeof is not evaluated for side-effects, this code is safe, even though the variable t is not yet initialized.

The third possible style is the pedantically correct one, which would use array pointers, since what we allocate is actually arrays:

type (*t)[n] = malloc( sizeof(type[n]) );

This is perhaps the most correct way, as far as type correctness is concerned. The size of an array is allocated, and we point at the allocated array with an array pointer.

However, the problem with this style is that array pointers add extra complexity to the syntax: you would have to de-reference this array as (*t)[i] instead of t[i]. It makes the code harder to read. (And also as a side-note, if n is not an integer constant expression, the code won't compile on old, outdated C compilers.)


The coding style can also be written as :-

char *foo = (char *)malloc(1 * someDynamicAmount);

But this is done so that the dynamically allocating memory can be increased according to the no of basic data type one wants. if u wanna increase 100 char it will increase 100 char. If may not have need but if we write 101 or 102 doing that would waste memory. doing the it according to the basic data type would not waste any memory space


The standard is deliberately vague about the sizes of common types. [Wikipedia]

While it is unlikely that the size of a char won't change, but the size of short has changed. The idiomatic way is:

type_t *foo = malloc(sizeof(type_t) * someDynamicAmount);

for any type (common or complex) type_t or

type_t *foo = malloc(sizeof(*foo) * someDynamicAmount);

So that you can decide to make changes to the type of foo later on and only change it in one place.

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    The standard garantee that sizeof(char) is 1. – AProgrammer Aug 30 '11 at 13:53
  • @AProgrammer Sure, but then you have a consistency issue. – lambacck Aug 30 '11 at 14:09
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    "A foolish consistency is the hobgoblin of little minds, adored by little statesmen and philosophers and divines". I'm already having this argument with Armen, but in almost all cases where I use a char buffer, there's no benefit of it being "consistent" with other arrays. I might almost as well observe that sometimes I write malloc(strlen(x) + strlen(y) + 1), and start writing malloc(sizeof(int)*(someDynamicAmount + 0 + 0)) for consistency. – Steve Jessop Aug 30 '11 at 14:20
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    And then I wen't on to give and explain the same answer as the answer with 35 up votes. And just because you pick char for you type now does not mean that your not going to decide to change to some kind of Unicode type later and need something other than char. Then you'll need to add back sizeof(type_t). And yes I have had situations where I started with an array of char and then went to something else after further work showed that char was insufficient for my uses. – lambacck Aug 31 '11 at 1:49

Think of unicode and multi-byte strings. If char represents single character in a string, it can actually occupy more than one byte, resulting in sizeof() > 1

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    -1 sizeof (char) is by definition 1. Multibyte representation of characters has nothing to do with it. This said, while sizeof (char) is always 1, CHAR_BIT may not always be 8. The sizes of base types must conform to this relation: sizeof(char) <= sizeof(short) <= sizeof(int) <= sizeof(long) <= sizeof(long long). – Patrick Schlüter Aug 30 '11 at 14:23

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