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Ok, strncpy is not designed to work with NULL terminated strings - it's not designed for NULL terminated strings (if dest is too short it won't be terminated by NULL and if dest is longer it will be padded by zero's).

So, here is a trivial code:

const char *src = ....; // NULL terminated string of unknown length
char dest[30];

How to src to dest? strcpy is not safe, strncpy is bad choice too. So I left with strlen followed by memcpy? I suppose solution will differ a bit whenever I care care dest won't be truncated (dest is smaller than length of src) or not.

Some limitations:

  • Legacy code, so I don't want and can not to change it to std::string
  • I don't have strlcpy - gcc doesn't supply it.
  • Code may be used in parts of application where performance is critical (e.g. I don't want to wast CPU time padding with zeros dest as strncpy does). However, I'm not talking about premature optimization, but rather the idiotic way to perform string copying in C-way.


Oopps, I meant strncpy and not snprintf. My mistake

share|improve this question
Put dest[29]=0, use snprintf with n = 29, and don't worry about the padding. – sje397 Dec 6 '10 at 5:28
why is snprintf a bad choice? – MAK Dec 6 '10 at 5:29
You are simply wrong in your premises. snprintf always null terminates and never pads. – R.. Dec 6 '10 at 6:01
That's not a good reason to -1 the question IMO. – Karl Knechtel Dec 6 '10 at 6:20
If this is for an optimisation, do make sure you benchmark afterwards - seemingly wasteful functionality may sometimes still come out faster due to carefully using faster CPU instructions, better inlining etc.. Results may vary with string length, initial alignment etc.. – Tony D Dec 6 '10 at 6:25

With strncpy:

strncpy(dest, src, sizeof(dest) - 1);
dest[sizeof(dest) - 1] = '\0';

This pads with zeros, but does much less formatting work than snprintf. If you really must have the computer do as little as possible, describe it yourself:

char* last = dest + sizeof(dest) - 1;
char* curr = dest; /* assuming we must not alter 'dest' */
while (curr != last && *src) { *curr++ = *src++; }
*last = '\0'; /* avoids a branch, but always writes.
If branch prediction is working well and the text normally fits:
if (curr == last) { *curr = '\0'; } */
share|improve this answer

I think you're talking about strncpy(), which might not terminate the string and will fill the remainder of the buffer with zeros.

snprintf() always terminates the destination string (as long as thebuffer has a size of at least 1) and doesn't pad the remainder of the buffer with zeros.

In summary, snprintf() is what you want, except you're very concerned about performance. Since snprintf() needs to interpret the format string (even if all it ends up doing is copying a string), you might be better off with something like strlcpy() for bounded string copy operations.

(and if you want strlcpy() but don't have it, you can get the rather simple source here. For completeness, strlcat() is here)

share|improve this answer
+1 for reading OP's mind and figuring out the mistake in the question – R.. Dec 6 '10 at 22:40

If you don't care about truncation, you can use strncat():

dest[0] = 0;
strncat(dest, src, sizeof dest - 1);
share|improve this answer
Making the string empty and concatenating with strcat() is the other way to ensure that there is a null terminator at the end. This also avoids padding. Seems like backwards thinking, though. :) – Karl Knechtel Dec 6 '10 at 5:34

I'd just roll my own:

for (int i = 0; i < (sizeof(dest) - 1) && src[i] != NULL; i++)
    dest[i] = src[i];
dest[i] = NULL;

This ensures that dest is null-terminated, but never adds more nulls than necessary. If you're really performance-sensitive, you can declare this as a macro or an inline function in a common header.

share|improve this answer

Use snprintf. It always null-terminates and does not do any null padding. Don't know where you got the misconceptions about it...

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std::copy(src, src+strlen(src)+1, dest)

share|improve this answer
That doesn't check for overflow of dest.... – Tony D Dec 6 '10 at 6:22
Shouldn't be using C-strings anyway. – Crazy Eddie Dec 6 '10 at 6:38
that's a little simplistic; I've seen enough of your posts to know you know it too ;-P. – Tony D Dec 6 '10 at 7:52

I'm not sure I understand your question entirely, but if you're concerned about zero-padding it can often be done pretty efficiently if you initialize your array like this.

char dest[30] = { 0 };

If you initialize it like that you don't have to care about extra logic to add '\0' to the end of the string and it might even turn out faster.

But if you're going to optimize remember to measure the performance before and after the optimization. Otherwise always code with readability and maintainability in mind.

share|improve this answer
I don't think that you need C99 for this. Initializers are part of C89, too. Not part of C89 are designate initializers where you would write something like 'char dest[30] { [29] = 0 };` – Jens Gustedt Dec 6 '10 at 8:03
@Jens I stand corrected. I will edit my answer. Anyway, you shouldn't have to consider older standards than C99 anyway. – onemasse Dec 6 '10 at 8:43

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