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This might be somewhat pointless, but I'm curious what you guys think about it. I'm iterating over a string with pointers and want to pull a short substring out of it (placing the substring into a pre-allocated temporary array). Are there any reasons to use assignment over strncopy, or vice-versa? I.e.

#include <stdlib.h>
#include <stdio.h>
#include <string.h>

int main()
{   char orig[]  = "Hello. I am looking for Molly.";

    /* Strings to store the copies
     * Pretend that strings had some prior value, ensure null-termination */
    char cpy1[4] = "huh\0";
    char cpy2[4] = "huh\0";

    /* Pointer to simulate iteration over a string */
    char *startptr = orig + 2;
    int length = 3;
    int i;

    /* Using strncopy */
    strncpy(cpy1, startptr, length);

    /* Using assignment operator */
    for (i = 0; i < length; i++)
    {   cpy2[i] = *(startptr + i); 

    /* Display Results */
    printf("strncpy result:\n");
    printf("%s\n\n", cpy1);
    printf("loop result:\n");
    printf("%s\n", cpy2);

It seems to me that strncopy is both less typing and more easily readable, but I've seen people advocate looping instead. Is there a difference? Does it even matter? Assume that this is for small values of i (0 < i < 5), and null-termination is assured.

Refs: Strings in c, how to get subString, How to get substring in C, Difference between strncpy and memcpy?

share|improve this question
strncpy() is always wrong. Avoid it untill you find a reason to use it. – wildplasser Sep 5 '12 at 14:33
Thanks for the helpful comment. It's always nice when someone offers good advice and explains their reasoning. – surfreak Sep 5 '12 at 14:38
Please read the description in the manpage for strncpy(). Ask yourself which of its "features" you actually want. Then ask yourself which of these features you actually really don't want. – wildplasser Sep 5 '12 at 14:41
I did. I wanted to pull a 3-char substring out of the original string without trying to copy the rest of the string or messing with the final character, the '\0' null termination value. So I had a choice between strncpy, strlcpy, and iteration (and probably some others that I don't know of). Since I explicitly knew all of the sizes, I thought strncpy wouldn't be a problem. I don't see any features here that are a problem. – surfreak Sep 5 '12 at 14:50
In the case where you know all the sizes, memcpy(cpy1, startptr, length); does exactly the right thing (which in this special case is exactly the same as your strncpy). It also informs the human reader that you know what your doing (and that you don't want a nul-terminator, because you rely on the existing one) In the case where (strlen(2nd argument) < length), both would fail in their own particular way. – wildplasser Sep 5 '12 at 14:58

4 Answers 4

up vote 3 down vote accepted

While this may seem counter-intuitive, there are more optimized ways to copy a string than by using the assignment operator in a loop. For instance, IA-32 provides the REP prefix for MOVS, STOS, CMPS etc for string handling, and these can be much faster than a loop that copies one char at a time. The implementation of strncpy or strcpy may choose to use such hardware-optimized code to achieve better performance.

share|improve this answer
So in short, generally try to use built-in methods because they're smarter than me? ;) Gotcha. I was suspicious this might be the case (that strncpy might be able to optimize under the hood), but I'm a total newbie to CS in general so I wanted to ask the experts. Thanks! – surfreak Sep 5 '12 at 14:37
Take a look at gnu's libc source code. The optimised code tries to read/write int-wide objects, and does a hell of a job to get all the alignment right. – wildplasser Sep 5 '12 at 14:44
@wildplasser , so what are your suggestions? So far you've said "avoid strncpy," which while possibly illuminating, does not propose an alternative solution. – surfreak Sep 5 '12 at 14:52
Maybe I should add an answer, then. – wildplasser Sep 5 '12 at 14:59
BTW: the REP/REPZ prefixed opcodes were fast for the 6086. Things changed with the 286. After 386 these opcodes have no advantage over plain loops, since memory bandwith will always be the bottleneck for simple operations (and almost every operation is simple, nowadays). Also,: compilers will not like these instructions because of the implicit use of SI, DI AND CX. – wildplasser Aug 13 '14 at 12:07

strncpy(char * dst, char *src, size_t len) has two peculiar properties:

  • if (strlen(src) >= len) : the resulting string will not be nul-terminated.
  • if (strlen(src) < len) : the end of the string will be filled/padded with '\0'.

The first property will force you to actually check if (strlen(src) >= len) and act appropiately. (or brutally set the final character to nul with dst[len-1] = '\0';, like @Gilles does above) The other property is not particular dangerous, but can spill a lot of cycles. Imagine:

char buff[10000];
strncpy(buff, "Hello!", sizeof buff);

which touches 10000 bytes, where only 7 need to be touched.

My advice:

  • A: if you know the sizes, just do memcpy(dst,src,len); dst[len] = 0;
  • B: if you don't know the sizes, get them somehow (using strlen and/or sizeof and/or the allocated size for dynamically allocced memory). Then: goto A above.

Since for safe operation the strncpy() version already needs to know the sizes, (and the checks on them!), the memcpy() version is not more complex or more dangerous than the strncpy() version. (technically it is even marginally faster; because memcpy() does not have to check for the '\0' byte)

share|improve this answer
THAT was helpful. Thanks! – surfreak Sep 5 '12 at 19:46

As long as you know your lengths are "in range" and everything is correctly nul terminated, then strncpy is better.

If you need to get length checks etc in there, looping could be more convenient.

share|improve this answer

A loop with assignment is a bad idea because you're reinventing the wheel. You might make a mistake, and your code is likely to be less efficient than the code in the standard library (some processors have optimized instructions for memory copies, and optimized implementations usually at least copy word by word if possible).

However, note that strncpy is not a well-rounded wheel. In particular, if the string is too long, it does not append a null byte to the destination. The BSD function strlcpy is better designed, but not available everywhere. Even strlcpy is not a panacea: you need to get the buffer size right, and be aware that it might truncate the string.

A portable way to copy a string, with truncation if the string is too long, is to call strncpy and always add the terminating null byte. If the buffer is an array:

char buffer[BUFFER_SIZE];
strncpy(buffer, source, sizeof(buffer)-1);
buf[sizeof(buffer)-1] = 0;

If the buffer is given by a pointer and size:

strncpy(buf, source, buffer_size-1);
buf[buffer_size-1] = 0;
share|improve this answer
Thanks for the info! I've read a bunch about strncpy and its possible "misbehavior," but here I'm certain of null-termination. I'll keep that in mind if I ever don't explicitly know the size of my buffers, though! – surfreak Sep 5 '12 at 14:42
@surfreak If you already know the size of the source string, and you know that it fits in the destination buffer, you can use strcpy. Preferably with an assert or a comment reminding the reader (and perhaps the runtime system) of the size requirements. – Gilles Sep 5 '12 at 14:46
Yes, but here I was pulling a substring, and to my knowledge there's no way to do that with strncpy if the substring terminates before the end of the source string... Or is there? – surfreak Sep 5 '12 at 14:54
@surfreak Oh, right. For a substring, if you already know that it fits in the destination, you can use memcpy and add the terminating null byte. If you don't know whether it fits, use strlcpy if available, otherwise strncpy (and add the terminating null byte). – Gilles Sep 5 '12 at 14:56
So now the question is between memcpy and strncpy... Does THAT matter? Either way I have to add the null byte. – surfreak Sep 5 '12 at 15:05

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