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char test[]="bla-bla-bla";

Which is more correct:


char *test1 = malloc(strlen(test));

or (2)

char *test1 = malloc(sizeof(test));
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Attention: strlen(test) != sizeof test. The difference is 1. The terminating '\0' is not counted with strlen() but is accounted for with sizeof. –  pmg Sep 12 '10 at 15:15
Though sizeof() works in this context I would discourage its use for this type of operation as arrays very easily decay into pointers and unless you are careful you may get caught out by this. –  Crappy Experience Bye Sep 12 '10 at 19:13

8 Answers 8

char test[]="bla-bla-bla";
char *test1 = malloc(strlen(test) + 1);
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strlen(test) + 1. strlen doesn't count the necessary NULL. –  Aram Hăvărneanu Sep 12 '10 at 14:59
-1 for sizeof(char). –  R.. Sep 12 '10 at 15:07
@Tomasz: Except sizeof(char) is defined as equal to 1 byte. As for the number of bits in it, however... –  Jon Purdy Sep 12 '10 at 15:11
So what is wrong with putting sizeof(char) into the code? It makes it more explicit in what you are trying to do. Thus if the code is ever changed to use wchar_t for example then it would be easier to spot where the code needs to be changed. So: Though not required here I see it as a benefit to include it in the code as it makes the meaning of the code more precise. –  Crappy Experience Bye Sep 12 '10 at 19:11
I've strongly argued against writing sizeof(char) for years. It adds visual clutter, and the semantics of object size in C have been units of sizeof(char) since the beginning. That makes an expression clear and simple in a common case, and calls attention to the dependence on a typed allocation in the other cases. –  RBerteig Sep 12 '10 at 22:19


#include <string.h>
char *mine = strdup(test);
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This is essentially equivalent to the version using strlen -- on the implementations that provide it. The problem, of course, is that it's an extension, so you can't depend on its presence. –  Jerry Coffin Sep 12 '10 at 15:09
Of course you can easily write your own strdup if it's missing. –  R.. Sep 12 '10 at 15:11
strdup is not defined by the Standard. After using it you need to call free(), so you must also #include <stdlib.h>. –  pmg Sep 12 '10 at 15:11
@pmg: You'd need to #include <stdlib.h> to use malloc so that's kind of a given already. –  Billy ONeal Sep 12 '10 at 15:33
@R: Although it's easy, if you write your own strdup, you get undefined behavior; names starting with str are reserved. Fortunately, it's just as easy to write your one dupe_string (or whatever other name you prefer). –  Jerry Coffin Sep 12 '10 at 15:38

I think sizeof is the correct one.Reason behind that is strlen(str) will give you length of the string( excluding the terminating null).And if you are using strcpy,it actually copy the whole string including the terminating null,so you will allocate one byte less if you use strlen in malloc.But sizeof gives the size of the string pointed by test,including the terminating null,so you will get correct size malloc chunk to copy the string including the terminating null.

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sizeof() will return a surprisingly 'wrong' result if you pass a (char *) object to it. It will return "the number of bytes necessary to store a pointer to 'char'", which is not necessarily equal to the size of the string pointed at by the pointer. –  Giorgos Keramidas Sep 12 '10 at 15:36
+1: In the code shown, the sizeof() solution is correct and the strlen() one is incorrect. The sizeof() solution might over-allocate memory if the string has been shortened since it was created. However, the definition of the array must be in scope for it to work - so the more generally safe solution uses strlen(str)+1, or assumes a POSIX environment and uses strdup(). –  Jonathan Leffler Sep 12 '10 at 15:38

You should use strlen, because sizeof() will fail silently if you change test to be a run-time defined string. This means that strlen is a far safer idea than sizeof as it will keep working.

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at run-time the variable also can be uninitialized, strlen/strcpy will crash. –  user411313 Sep 12 '10 at 21:42
At least in that case you'd get a crash instead of silently the wrong value. In addition, it's much easier for the compiler to warn you about potential uninitialized variable use. Finally, if you pass an uninitialized variable, it doesn't matter how you determined it's size. –  Puppy Sep 12 '10 at 21:53
char test[]="bla-bla-bla";
char *test1 = malloc(strlen(test) + 1); // +1 for the extra NULL character
strcpy(test1, test);
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This answer seems duplicate of that –  Salvador Jun 19 '14 at 4:18

1) definitely causes UB

2) may cause UB (if malloc fails)

I'd go with 2) as there is a better chance of the construct working as intended; or even better I'd write a version that works as intended (without UB) in all situations.


  • Undefined Behaviour in 1)

    test1 will have space for the characters in test, but not for the terminating '\0'. The call to strcpy() will try to write a '\0' to memory that does not belong to test1, hence UB.

  • Undefined Behaviour in 2)

    If the call to malloc() fails to reserve the requested memory, test1 will be assigned NULL. Passing NULL to strcpy() invokes UB.

The return value of calls to malloc() (and calloc() and friends) should always be tested to ensure the operation worked as expected.

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You know, it would probably be helpful to the OP if you would explain why UB is getting involved (the fact that he's not handling malloc failures). –  Billy ONeal Sep 12 '10 at 15:32
Thanks, Billy. Post edited. –  pmg Sep 12 '10 at 16:19
Actually, both cases have the same UB due to failure to validate the return of malloc(). The first case has the bonus UB from not allocating room for the NUL. –  RBerteig Sep 12 '10 at 22:24
+1 for the explanation –  mkind Jun 6 '11 at 19:22

(1) with strlen but not adding 1 is definitely incorrect. If you add 1, it would have the added benefit that it also works for pointers, not just arrays.

On the other hand, (2) is preferred as long as your string is actually an array, as it results in a compile-time constant, rather than a call to strlen (and thus faster and smaller code). Actually a modern compiler like gcc can probably optimize the strlen out if it knows the string is constant, but it may be hard for the compiler to determine this, so I'd always use sizeof when possible.

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In all situations where you can correctly use sizeof, the compiler will figure out that strlen can be optimized. So there’s simply no reason to use sizeof at all. –  Konrad Rudolph Sep 12 '10 at 15:40
@Konrad: char test[] = "bla bla \0 bla";; strlen(test) == 8 –  pmg Sep 12 '10 at 15:59
@Konrad: not true. It's possible the contents of the string are variable, but always fit in a small fixed-size array. In this case, strlen cannot be optimized out, but allocating a fixed-size object the same size as the array is always suitable. –  R.. Sep 12 '10 at 16:33
@pmg: that’s a completely different use-case. We were (implicitly) talking about zero-delimited strings here, otherwise strlen would make no sense at all. When dealing with raw data that may contain null bytes, treating that data as a (zero-delimited) string is obviously a bug. –  Konrad Rudolph Sep 12 '10 at 16:33

if it is a critical path sizeof has advantage over strlen as it has an O(1) complexity which can save cpu cycles.

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Can you please add some more details on this... –  GNKeshava Jan 30 '14 at 5:27
sizeof is computed at compile time and at every place sizeof is replaced by an integer as computed by compiler for that. There is no more run time computation for sizeof however for strlen the complete string is parsed once. –  user3141529 Feb 2 '14 at 17:39

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