Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I got my code working, but i feel as if there is a faster way to do this especially in my function copy. here is my code. can this be any faster? this is in C btw. Also when i return cpy from the function does it delete the dynamic memory since its out of scope? I don't want to have memory leaks :P

#include <stdio.h>
#include <stdlib.h>
double *copy(double a[], unsigned ele);
int main(){
    double arr[8], *ptr;
    unsigned i=0;
        scanf_s("%lf", &arr[i]);
    ptr=copy(arr, 8);
    for(i=0;i<7; i++)
        printf("%f", ptr[i]);


double *copy(double a[], unsigned ele){
    double *cpy= malloc(sizeof(double)*ele);
    int i=0;
    for(;i<ele; i++)
    return cpy;
share|improve this question

3 Answers 3

up vote 5 down vote accepted

You can replace your for with a memcpy.

memcpy(cpy, a, ele * sizeof *cpy);

Other than that what you're doing it pretty okay: you're returning a pointer, thus the caller has a chance to free it.

Also I consider it good practice NOT to call free if you're going to exit - the OS will collect the memory anyway.

share|improve this answer
oh thats good to know thanks :). My professor however wants us to do it manually to see what's happening. Oh ok so i dont need to call free in this situation. –  Painguy May 14 '12 at 5:17
@NimaGanjehloo Well, the OS doesn't really care about malloc. It will take the memory back anyway. –  cnicutar May 14 '12 at 5:19
Seems we posted the same solution. :-) I am very curious about why you say its a good practice to NOT call free before an exit though Cnicutar. While obviously it doesn't matter in trivial programs like this in my business a good cleanup routine is important. If you don't cleanup its much harder to track bugs down in Valgrind. What's your reasoning behind this best practice? Perhaps I should post a question on this... –  David Mokon Bond May 14 '12 at 5:23
@DavidMokonBond Some time ago I read a post from R.. about this. The post detailed how the useless free can actually slow down things a lot. But yes, a "correct" malloc/free scenario is required for the sake of memory leak checkers. And it's not just trivial programs: if you're going to exit the free won't do anyone any good. –  cnicutar May 14 '12 at 5:26
I consider good practice exactly the opposite: always call explicit free! (just wrote it, otherwise it wouldn't be worth mentioning it). It is a good "memory exercise", and you won't be accustomed to leave it "since the program is going to exit"... If it slows the exit, I wonder if there are optimizers who are able to remove free when they recognize the only flow/path the program can go from there is an exit... However, it is worth mentioning the fact that not all OSs are able to free automatically the memory allocated by a program!! So, after all, it's good practice always to free memory. –  ShinTakezou May 14 '12 at 5:30

Use Memcpy. It might be able to take advantage of your underlying hardware etc... No need to reinvent the wheel. :-)

void * memcpy ( void * destination, const void * source, size_t num );

double *copy(double a[], unsigned ele){
    size_t size = sizeof(double)*ele ;
    double *cpy= malloc(size);
    memcpy( cpy, a, size ) ;
    return cpy;
share|improve this answer
int size = sizeof(double)*ele You might want to change it to size_t. –  cnicutar May 14 '12 at 5:18

does it delete the dynamic memory since its out of scope

No, it doesn't: the only memory that goes out of scope is the one holding the pointer; you return the value of that pointer, and it's the only thing you need to access the memory you malloc-ed and which stays malloc-ed until you free it explicitly.

I don't want to have memory leaks

Memory leaks happen when you get memory that you won't release. Indeed, your code have a memory leak: you do not free the memory the pointer is returned by copy: free(ptr); at the end of your code. In this case, it does not matter too much, but it's a good practice to avoid to forget it.

Note also that if the memory would be freed automatically when a pointer to it goes out of scope, it would be freed from inside the copy function itself and you would return an invalid pointer; and then there would be a lot of double free and alike, each time a pointer goes out of scope! Fortunately this does not happen since memory you got using malloc must be explicitly freed with free.

share|improve this answer

Your Answer


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.