Most C programmers are familiar with the strdup function. Many of them will take it for granted, yet it is not part of the C Standard (neither C89, C99 nor C11). It is part of POSIX and may not be available on all environments. Indeed Microsoft insisted on renaming it _strdup, adding to confusion.

It is rather easy to define it this way (in C):

#include <string.h>

char *strdup(const char *s) {
    size_t size = strlen(s) + 1;
    char *p = malloc(size);
    if (p) {
        memcpy(p, s, size);
    return p;

But even savvy programmers can easily get it wrong.

Furthermore, redefining the function only on systems that do not have it proves a bit complicated as explained here: strdup() function

Why not include such useful widely supported functions in revised editions of the C Standard? A lot of new functions have been added in the C standard library in C99, what is the rationale for not including strdup?

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    @AlterMann: malloc and friends have always been part of the C Standard. aligned_alloc was added in C11, malloc is mentioned on 11 pages in the C11 standard, can you explain what you mean?
    – chqrlie
    Oct 5, 2015 at 8:48
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    @AlterMann: not everyone is programming for embedded systems. If local rules ban memory allocation via malloc they should obviously also ban strdup.
    – chqrlie
    Oct 5, 2015 at 8:59
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    It is sad that the evolution of the C language be determined by such a small group, 4 people, half of which not seeming to care.
    – chqrlie
    Oct 5, 2015 at 9:01
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    @JensGustedt I think he was suggesting that if we were to add both strdup and aprintf, then it could no longer be argued that strdup would be the only function not ending in alloc which requires free ing the result
    – M.M
    Oct 5, 2015 at 10:17

1 Answer 1


The quoted link in the comments (http://open-std.org/JTC1/SC22/WG14/www/docs/n718.htm) gives an explanation about what is "wrong" about having strdup in the standard library:

The major issue was the desirability of adding a function to the standard library which allocates heap memory automatically for the user.

Basically, the C language and its standard library try their best not to make assumptions about how the user allocates and uses memory.
It gives a few facilities among which are the stack, and the heap.

While malloc/free are standardized for dynamic memory allocation, they are by no means the only way to do so, because dynamic memory management is a very complicated topic and the default allocation strategy might not be desirable for all kinds of applications.

There are for example a few independant libraries such as jemalloc which emphasizes low fragmentation and concurrency, or even full-fledged garbage collectors such as The Boehm-Demers-Weiser conservative garbage collector. These libraries offer malloc/free implementations that are meant to be used exclusively in replacement to the standard *alloc and free functions from <stdlib.h> without breaking compatibility with the rest of the C standard library.

So if strdup was made standard, it would effectively be disqualified from being used by code using third-party memory management functions (it must be noted that the aforementioned jemalloc library does provide an implementation of strdup to avoid this problem).

More generally speaking, while strdup certainly is a practical function, it suffers from a lack of clarity in its semantics. It is a function declared in the <string.h> header, but calling it requires to consequently free the returned buffer by calling the free function from the <stdlib.h> header. So, is it a string function or a memory function ?
Leaving it in the POSIX standard seems to be the most reasonable solution to avoid making the C standard library less clear.

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    I understand your arguments, but I feel this answer is not very convincing: strdup is widely used to the point that many professional C programmers believe it to be part of the Standard (ask your own developers). All alternative implementations of the malloc family of functions supply a replacement for strdup as well, the Boehm gc or any other would not be defeated by strdup being made standard. The header issue is a non-issue, at worst strdup could be defined in both <stdlib.h> and <string.h> as is already the case of NULL defined in multiple standard header files.
    – chqrlie
    Oct 5, 2015 at 13:43
  • @chqrlie as an exception that might work, but imagine if functions using similar allocation patterns started getting standardized, it would mean that every alternative malloc implementation would have to ship their own version of these functions, and eventually ship their own version of the C standard library. That would be a maintenance nightmare.
    – SirDarius
    Oct 5, 2015 at 13:48
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    For completeness, NULL is defined in <stdio.h>, <stdlib.h>, <string.h>, <time.h>, <wchar.h>, <locale.h>, <stddef.h>...
    – chqrlie
    Oct 5, 2015 at 13:49
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    In my defense, given the mixed results of the vote mentioned earlier, I cannot pretend to make a more convicing case against strdup than the standard committee themselves. To be honest, I have used strdup in my code before but I can't say I like the function very much, because I prefer when malloc and free are located at the same level of abstraction. It is just too easy to forget to call free when you have not called malloc yourself.
    – SirDarius
    Oct 5, 2015 at 14:19
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    Note that <string.h> contains strerror(), but you need <errno.h> to get hold of errno values or macros which you might then pass to strerror(). The suggestion that strdup() fits uncomfortably in <string.h> is only of marginal relevance — though there is some justice to that. Apr 11, 2016 at 1:37

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