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What form is correct in allocating string in C?

char *sample;

sample = malloc ( length * sizeof(char) );


sample = malloc ( length * sizeof(char*) );

Why does char* take 4 bytes when char takes 1 byte?

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8 Answers 8

up vote 6 down vote accepted

Assuming the goal is to store a string of length characters, the correct allocation is:

sample = malloc(length + 1);


  1. Don't use sizeof (char), since it's always 1 it doesn't add any value.
  2. Remember the terminator, I assumed (based on name) that length is the length in visible characters of the string, i.e. the return of strlen() will be length.
  3. I know you didn't, but it's worth pointing out that there should be no cast of the return value from malloc(), either.

The reason char * is larger is that it's a pointer type, and pointers are almost always larger than a single character. On many systems (such as yours, it seems) they are 32 bit, while characters are just 8 bits. The larger size is needed since the pointer needs to be able to represent any address in the machine's memory. On 64-bit computers, pointers are often 64 bits, i.e. 8 characters.

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i remember about null byte at the end thanks:) –  fex Dec 6 '12 at 11:16
Though sizeof(char) doesn't add anything, it makes the intent explicit about what's going on. I guess it's a matter of taste. –  Blue Moon Dec 6 '12 at 11:21
@KingsIndian: it's a matter of how you read the malloc call (and I agree that in turn is a matter of taste). unwind and I would read malloc(length + 1) as "allocate length+1 bytes" or "allocate length+1 chars", and know that the two mean exactly the same thing in C. Some might read it as "allocate length+1 of something, but of what? The author doesn't say, maybe they don't know!". To those readers, throwing an explicit sizeof(char) in there might help convince them that I meant what I said. –  Steve Jessop Dec 6 '12 at 11:31
@SteveJessop It may confuse when using length+sizeof(int) for allocating length number of integers or other data type. Why not calculate the same way length*4 bytes (if sizeof(int)=4) and same way for other data types. This will obviously lead to problems when sizeof(int) changes. Requires to have a complete understanding of subtleties involved that sizeof(char) is always 1, sizeof(int) may vary etc. So length+sizeof(char) reads "length chars" and "length ints", "length floats" etc. IMO, this is very explicit and don't have to think about chars as some kind of a special case. –  Blue Moon Dec 6 '12 at 11:54
@KingIndian: I don't understand who you're saying it would confuse. You? Some hypothetical newbie who will quickly get over their ignorance? Or actual colleagues? Like I say, I don't think it's wrong to put the size in there, just a matter of taste and redundant for real C programmers that I have encountered. And I might write the code differently in a tutorial than in production, because it's for a different audience (newbies), but by the end of the tutorial I would reveal the production way(s). –  Steve Jessop Dec 6 '12 at 12:15

Why does char* take 4 bytes when char takes 1 byte?

Because you are on a 32-bit systems, meaning that pointers take four bytes; char* is a pointer.

char always takes exactly one byte, so you do not need to multiply by sizeof(char):

sample = malloc (length);

I am assuming that length is already padded for null termination.

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sample = malloc ( length * sizeof(char) );

First is the correct one if you want to allocate memory for length number of characters.

char* is of type pointer which happens to be 4 bytes on your platform. So sizeof(char*) returns 4.

But sizeof(char) is always 1 and smae is guaranteed by the C standard.

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In the given cases you are doing two different things:

In the first case : sample = malloc ( length * sizeof(char) );

You are allocating length multiplied by the size of type char which is 1 byte

While in the second case : sample = malloc ( length * sizeof(char*) );

You are allocating length multiplied by the size of pointer to char which is 4 byte on your machine.

Consider that while case 1 remains immutable, on the second case the size is variable.

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sample = malloc(length);

is the right one

char* is a pointer, a pointer uses 4 bytes (say on a 32-bit platform)

char is a char, a char uses 1 byte

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length * sizeof(char) +1 is somewhat bizarre. I can understand (length + 1) * sizeof(char), and length + 1 is fine too, but why add 1 after multiplication? –  Dietrich Epp Dec 6 '12 at 11:12

In your case, you want to alloc an array of length characters. You will store in sample a pointer to an array of length times the size of what you point to. The sizeof(char*) is the size of a pointer to char. Not the size of a char.

A good practice is

sample = malloc(length * sizeof(*sample));

Using that, you will reserve length time the size of what you want to point to. This gives you the ability to change the data type anytime, simply declaring sample to be another kind of data.

int *sample;

sample = malloc(length * sizeof(*sample)); // length * 4

char *sample;

sample = malloc(length * sizeof(*sample)); // length * 1
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Provided the length already accounts for the nul terminator, I would write either:

sample = malloc(length);


sample = malloc(length * sizeof(*sample));

sizeof(char*) is the size of the pointer, and it is completely irrelevant to the the size that the allocated buffer needs to be. So definitely don't use that.

My first snippet is IMO good enough for string-manipulation code. C programmers know that memory and string lengths in C are both measured in multiples of sizeof(char). There's no real need to put a conversion factor in there that everybody knows is always 1.

My second snippet is the One True Way to write allocations in general. So if you want all your allocations to look consistent, then string allocations should use it too. I can think of two possible reasons to make all your allocations look consistent (both fairly weak IMO, but not actually wrong):

  • some people will find it easier to read them that way, only one visual pattern to recognise.
  • you might want to use the code in future as the basis for code that handles wide strings, and a consistent form would remind you to get the allocation right when the length is no longer measured in bytes but in wide chars. Using sizeof(*sample) as the consistent form means you don't need to change that line of code at all, assuming that you update the type of sample at the same time as the units in which length is measured.

Other options include:

sample = calloc(length, 1);
sample = calloc(length, sizeof(char));
sample = calloc(length, sizeof(*sample));

They're probably fairly pointless here, but as well as the trifling secondary effect of zeroing the memory, calloc has an interesting difference from malloc that it explicitly separates the number and size of objects that you're planning to use, whereas malloc just wants the total size.

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For any type T, the usual form is

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


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

where N is the number of elements of type T you wish to allocate. The expression *p has type T, so sizeof *p is equivalent to sizeof (T).

Note that sizeof is an operator like & or *, not a library function; parentheses are only necessary if the operand is a type name like int or char *.

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