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Hey there, this is my first post so please don't be too hard on me.

I wrote an "insert" function to insert an integer into an array of integers. It works, but I don't know if it's the best algorithm.

Here's my code:

int* insert(int *dest, size_t len, unsigned int index, int value)
{
int x = 0, i = 0;
int *stackp = calloc(len+1, sizeof(int));

if(index > (len-1)) return dest;

while(x < len) {
    if(x == index) {
        ++x;
    } else {
        *(stackp+x) = *(dest+i);
        ++x, ++i;
    }

}


*(stackp+index) = value;
free(dest);
dest = stackp;

return dest;

}

Thanks in advance,

Alex.

share|improve this question
    
I wouldn't suggest returning allocated memory (as the below answers have suggested), because it is an easy way to leak memory. –  Alexander Rafferty Oct 3 '10 at 3:22
    
@Alex, I suggested it as one possibility, along with letting the caller allocate. I think both are fine as long as the function documentation clearly specifies it. –  Matthew Flaschen Oct 3 '10 at 3:24
    
true, but it seems that all standard functions, and winAPI functions, prefer the latter. –  Alexander Rafferty Oct 3 '10 at 3:28
    
@Alex, strdup (and Microsoft's non-standard _strdup equivalent) and getline, both part of the POSIX standard, all allocate memory. –  Matthew Flaschen Oct 3 '10 at 4:09
    
no, getline() stores its result in a buffer provided by the programmer. Don't know about strdup, never used it. –  Alexander Rafferty Oct 3 '10 at 4:25

2 Answers 2

up vote 5 down vote accepted

There is a major bug in your memory allocation. stackp is an automatic (stack) array, which means its lifetime ends as soon as insert returns. You have to use another allocation method. You can have the caller allocate a new array and pass in both pointers, or you can do it yourself with malloc (don't forget to free).

However, the rest looks all right. That's pretty much the only algorithm for a non in-place insert. You may be able to do it a bit faster with special tricks (e.g. copying two ints at once). memmove and memcopy may use such optimizations on some architectures.

Also, many algorithms would write stackp[index] when the position is found, rather than at the end. But the core algorithm is basically the same.

An alternative would be to do the insert in-place (shifting only elements after the insert position), rather than using a new array. You would often expand with realloc. This would be preferred in many situations as it saves copying time and avoids mallocing a new memory location (which may also fragment the heap).

Finally, an alternative data structure entirely is a linked list. This totally eliminates the need for copying elements, but uses more memory and prevents random access.

share|improve this answer
    
Thanks for the answer, and the opinion! Performance is not a (critical) issue in this case, so I won't try to optimize my brains out. –  Alex Oct 3 '10 at 3:16

There is a serious error here. The array stackp is a local variable, and you are returning it as the result. You will probably get a segmentation fault if you want to read/write that array again, outside the "insert" function.

To correct it, you need to allocate a dynamic array like:

int *stackp;

stackp = (int*)malloc(size(int)*(len+1));

share|improve this answer
    
True, I hadn't noticed that! (It's very, very late here. :P) Also, I believe it's sizeof(int) rather than size(int). Thanks! –  Alex Oct 3 '10 at 3:28
    
Right, it should be sizeof :) –  emrea Oct 3 '10 at 3:33
    
Do not cast the return value of malloc! –  R.. Oct 3 '10 at 4:08
    
You can cast the value of malloc, but the Standard deems it unnecessary. In the old days, though, you had to cast it. Nowadays, it's just a habit. Don't say stuff like this based on a religious basis (Religious as in goto is bad, K&R indent is bad, etc.). –  Alex Oct 3 '10 at 4:15

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