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I'm not sure if this question has been asked before ( searched through SOF and couldn't find an answer)

I wrote a LinkedList class and a function to reverse it.The function as follows,

    struct LinkedList::element* LinkedList::recurrsiveReverseList(element* head){
     element* tempList;
     if(head->next == NULL){
        return head;
        tempList = recurrsiveReverseList(head->next);
        head->next->next = head;
        head->next = NULL;
        return tempList;        

here I am declaring a local pointer variable and making some changes to it and returning it back to the caller. In C++, when I declare a local variable inside a function the scope exists only inside the function. Now when I return the pointer from the function how does it work? I am able to understand the logic and get the result (luckily) but I am not able to completely understand the working here.

Can somebody clear my doubt?

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As a side note, the first struct keyword in your code snippet is completely unnecessary. –  Seth Carnegie Aug 23 '11 at 3:36
Nice function. I would put if(head == NULL || head->next == NULL) { –  sje397 Aug 23 '11 at 3:47
@seth Carnegie: Yes you are right. The struct was not needed. But how does the compiler ignore it? I mean when I am returning an object/pointer to a class I don't mention the keyword 'class' in the function definition (if I do, wouldn't it throw an error? ). But how come it ignores the struct keyword? –  Ajai Aug 23 '11 at 3:52
@sje397: I think to check the head with NULL wouldn't be necessary. When I am iterating through and reach the last node I would only want to check if the next node is NULL or not to pass on the recurrsion to it. No need to check if Head is NULL. –  Ajai Aug 23 '11 at 3:57
@Ajai yes you do need to check that head is NULL and not just head->next because people could call the function with NULL in the first place and cause a segfault. –  Seth Carnegie Aug 23 '11 at 3:58

5 Answers 5

up vote 2 down vote accepted

The scope of tempList terminates when you exit the function but tempList is a pointer to a block of memory whose scope does not terminate there because it's been undoubtedly allocated by new. Memory allocated in such a way is valid right up until the point you delete it, regardless of how many functions you go in to or out of.

By passing the pointer back to the caller, it preserves said pointer elsewhere, where you can use it.

A simple example:

static char *fn (void) {
    char *rv = new char[42];
    return rv;

int main (void) {
    char *x = fn();
    delete [] x;
    return 0;

In the code above, the scope of rv is limited to the fn function after it's declared.

The scope of x is limited to the main function after it's declared.

However the memory allocated by new comes into existence within fn and continues to exist after returning to main. The address of said memory, initially stored in rv, is transferred to x by the assignment of the fn return value to x.

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That's interesting. So you are saying that if I allocate a new object inside a function through MyClass *obj = new MyClass(), and return obj from the function, obj will still be valid all through the program until someone deletes it, just because it was assigned through new? Won't the same hold if I create it like MyClass obj inside and return as return &obj? –  Cupidvogel Jan 7 at 21:41

Not sure if someone else explained it this way, but the pointer itself is nothing more than a number, like... 0x12345678. That number in turn addresses a position in the memory of a computer that contains the actual value you are looking for, which is the linked list node.

So when you return that address, it's okay that the original variable was destroyed. Like copying down a street address to a different piece of paper, then throwing away the original paper. The house that is at the address you have is still there.

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Nice example. Thanks! Could have upvoted but SOF wouldn't let me until I have 15 reputations. –  Ajai Aug 23 '11 at 3:55
Thanks! And that's no problem~ –  Clairvoire Aug 23 '11 at 5:19

The pointer object tempList ceases to exist when you leave the function. But that's ok; you're returning (a copy of) the value that was stored in the object, not the object itself. It's just like

int n = 42;
return n;

(Returning the address of a local variable is what gets you into trouble.)

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The scope of usage of tempList variable is limited within the method as its local, but it holds a memory address which is what is returned. The code that call its will receive this memory address, not the variable tempList.

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I assume your linked list nodes are allocated on the free store (i.e. with new).

When you create an object with new, it is created on the free store and exists until you call delete on it. You can make as many pointers to that location as you want, and it exists independent of any function calls it may have been made in. So in this function, you are just returning a pointer by value to that location on the free store. The pointer is just a number which is the address of the object, like returning an int by value.

tl;dr: You obviously know you can return local objects by value because a copy is made. In this function, it returns a copy of the pointer which points to a location on the free store which is only destroyed when delete is called with a pointer to that memory location.

As another note, you probably should not return a pointer to the new head of the list but rather take a pointer to the head of the list by reference and change the list through that, so if someone forgets to assign their old head pointer to the one returned by recurrsiveReverseList, things aren't messed up.

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Nice suggestions, but my idea was to generate a temporary reverse list and give it to the user without affecting the existing list (list stored inside the class). –  Ajai Aug 23 '11 at 4:03
@Ajai that would be pretty inefficient :) If I were you (which I'm not so) I would make efficiency the default and make people work a tiny bit more for inefficiency (something like newlist = oldlist; newlist.reverse()) –  Seth Carnegie Aug 23 '11 at 4:13
Hhhhmm make sense.. The user would think that I'm reversing the current whereas in the back I'm creating a new list and giving the user a new one. Either I should separate this function from the class or should make the function record the changes to the list inside the class. Thanks for the note! –  Ajai Aug 23 '11 at 4:23

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