Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

Note:

This is a question about pure C. No C++ functions, etc.


Question:

Suppose I malloc a buffer that has room for 100 chars. Then, I fill only 5 of those slots with actual chars. I've heard that best practice is to null all remaining slots in the buffer like this:

while (nextAvailableBufferSlot < currentBufferSize) 
{
    buffer[nextAvailableBufferSlot] = '\0';
    nextAvailableBufferSlot++;
}

Is this strictly necessary, or can I simply set buffer[5] = '\0' and save myself a loop?


Context:

The code in question is called very frequently with a buffer size of 4096 and 99% of the strings that get copied into it are much shorter, making the loop above run nearly every time for at least a couple thousand iterations.

It is NOT possible for me to know what size the strings are in advance. And because re-allocs are so expensive, I choose a large buffer size initially. I target desktop-class hardware, so memory is not constrained at all.

share|improve this question
    
Not really relevant here, but do you truly mean "ANSI C" or do you just mean "strict C", as in, "keep your C++ answers to yourselves?" If it's the latter, as I assume, the tag is good enough. –  Ed S. Apr 4 at 4:01
    
I'v never heard of such best practice, I really wouldn't call it best. Even if you would need to do this, ( for example access the chars out-of-order ), memset would be the way to go. –  Buella Gábor Apr 4 at 6:03
add comment

4 Answers 4

up vote 1 down vote accepted

If it's strings you are copying you can use strncpy to copy the string and the extra buffer space will be filled with \0 for you.

If for whatever reason you are using strcpy or copying the string by hand then yes, you can save yourself the loop because all standard string operations (strlen, strcpy, etc) will stop at the first \0 anyway.

share|improve this answer
add comment

The short answer is yes you are right. You should really only need one null pointer that goes right after the last char in the array.

The typical answer would be, why not just use char pointers? A string-like char* takes care of the whole headache for you and there are libraries designed around manipulating these more easily. You don't need to allocate memory directly this way. Why do you have a specific reason for needed buffers of exactly 100?

share|improve this answer
    
Thanks - the example here is contrived for simplicity's sake. In my actual project, the buffer is a char*. I'm not simply copying a string into it, I'm constructing a string character-by-character as I parse input. –  Bryan Apr 4 at 2:50
    
What do you mean by "why not just use char pointers?" He is using a char* already, that's what malloc returned. Are you suggesting he uses a string literal? And what do you mean by "A string-like char* takes care of the whole headache for you?" String management is one of the most PITA aspects of C, nothing is just "taken care of for you.", unless you're using a string literal which cannot be modified. –  Ed S. Apr 4 at 3:59
    
His comment cleared up what he is trying to do. I thought he was straight out mallocing an array of 100 chars instead of making a char*. And no, I am not suggesting using a string literal. –  Ryan Cori Apr 5 at 4:49
add comment

For all practical purposes, you only need to NUL terminate the first position after the last position filled. That's all that's needed for any function to know where to stop when manipulation your string.

share|improve this answer
add comment

Use Calloc() function instead. It will automatically initialize the block of memory to zeros(i.e is equivalent of assigning NULL's, as ASCII code for NULL is 0).Then you will not need to explicitly assign each slot to Null.

share|improve this answer
    
Yea, I'm aware of Calloc. But it's going to do the same thing behind the scenes, which makes it slower. The emphasis is on SPEED because this code gets hammered. –  Bryan May 7 at 0:50
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.