1
#define SWAP_PTRS(a, b) do { void *t = (a); (a) = (b); (b) = t; } while (0)

Node* MergeLists(Node* list1, Node* list2) 
{
  Node *list = NULL, **pnext = &list;

  if (list2 == NULL)
    return list1;

  while (list1 != NULL)
  {
    if (list1->data > list2->data)
      SWAP_PTRS(list1, list2);

    *pnext = list1;
    pnext = &list1->next;
    list1 = *pnext;
  }

  *pnext = list2;
  return list;
}

This code is from here, the chosen answer of this question.

I cannot understand 3 lines here:

*pnext = list1;
pnext = &list1->next;
list1 = *pnext;

Can anyone kindly help me? Explain it for me?

Edited: Can I change these 2 lines:

pnext = &list1->next;
list1 = *pnext;

to

 list = list-> next; 
2
  • This isn't C++; the SWAP_PTRS macro won't work in C++. (It counts on the implicit conversion of void* to any pointer type, which isn't present in C++.) Mar 21, 2011 at 9:30
  • thank you for reminding. I've changed tag to C Mar 21, 2011 at 9:34

4 Answers 4

3

From the start: You have two lists and a new list head which you will be returning. pnext points to that initially.

The code aims to do as few pointer reassignments as possible, so tries to keep the initial 'next' pointers of the input lists intact.

list1          pnext->list->Null
|
V
o->o->o...

list2
|
V
o->o->o...

Swap is there to ensure that the smaller element is the first of list1. What those lines does is:

Going step by step:

*pnext = list1;

Gets *pnext (which is list before the first iteration) to point to the node containing the smallest element:

list1
|
V
o->o->o...
^
|
list<-pnext

list2
|
V
o->o->o...

.

pnext = &list1->next;

Is the tricky part, as noted before & operator has low precedence. It's also hard to display graphically for it actually looks into part of a Node construct. Something like this though:

list1
|
V
o---->o->o...
^     ^
|     |
list  x<-pnext

list2
|
V
o->o->o...

where x is the next pointer of the o which list1 points to.

list1 = *pnext;

Advances the list1 head, as its first element is processed.

   list1<-pnext
   |
   V
o->o->o->...
^
|
list

list2
|
V
o->o->o->...

You have nothing to do with list from here on, for you want to return it as the head of the merged list.

The invariant there is pnext points to where the last processed element's next points to, which is where the smallest element from list1-2 should go. The interesting stuff happens with swaps, try to work out the exact proceedings yourself (hard to draw like this, and good exercise to understand what ** does). I might add it if I find a good way to draw it.

You cannot use list = list-> next; for it would do something like this:

   list1
   |
   V
o->o->o->...
   ^
   |
   list

list2
|
V
o->o->o->...

Which means you lose that lonely o (and everything else eventually as the loop progresses).

edit: The *pnext = list2; at the end does this:

Loop termination (state before the said statement):

         list1<-pnext
         |
         V
o->o->o->null
^
|
list

      o->o->o->...
      ^
      |
      list2

After the statement:

         list1
         |
         V              
o->o->o  Null
^     |
|     |
list  |
      V
      o->o->o->...
      ^
      |
      list2<-pnext

That statement appends the remaining list to the end of the list. Then Node* list is returned, pointing to the head of the merged list.

edit2:

And all the way, pnext would be better represented like this:

         list1
         |
         V              
o->o->o  Null
^     |
|     |<-pnext
list  |
      V
      o->o->o->...
      ^
      |
      list2

Which means it points to the next pointer of the last processed node.

5
  • than you @mcyalcin so much! This is a damn good explanation. Thanks a lot! I got it Mar 21, 2011 at 17:28
  • hi @mcyalcin, one more question, what about "*pnext = list2;"? Is this line modify the "list" pointer? little confused here now. thanks! Mar 21, 2011 at 17:52
  • 2
    @Josh You mean the pnext=list2; at the end I guess. That is after the loop terminates, which means one of the lists is empty, so the remaining list will be appended to the end of the list. That assignment has nothing to do with the Node list (you are presumably quite far away from that). I'll try drawing that in an edit.
    – mcyalcin
    Mar 22, 2011 at 0:07
  • 2
    @Josh Now that I think about it pnext should actually point to the arrow for clarity's sake (which is what I had meant when I was saying it was actually pointing to a part of node construct. Think of it as pointing to the arrow. Ah well, another tiny edit.
    – mcyalcin
    Mar 22, 2011 at 0:18
  • thank you mcyaclin. I think I finally understand this code. :) Mar 22, 2011 at 4:46
2

pnext is a pointer to a pointer to a Node.

"*pnext" means you are working with the value pointed to by pnext. Thus:

*pnext = list1;

means that whatever pointer pnext was pointing to is now pointing to the same thing as list1.


The next line should be bracketed for clarity to this:

pnext = &(list1->next);

list1->next means you are accessing the next attribute of what list1 is pointing too, and the & means to take the address of that element. The essentially means you are making pnext point to a pointer to the next element.


The last line:

list1 = *pnext;

means that you taking the value pointed to by pnext and assigning it to list1.

1
  • can I change these 2 lines: pnext = &list1->next; list1 = *pnext; to list = list-> next; Mar 21, 2011 at 9:29
1

list1 is of type Node* and pnext is of type Node** meaning it should hold the address of a variable whose type is Node*.

*pnext = list1;

When you dereference pnext, you get Node*. So, this assignment is correct.

pnext = &list1->next;

Here -> has a higher precedence over &. So, it returns a pointer's address( i.e., address of a Node* type )

list1 = *pnext;

This is just the opposite of the first statement. Dereferencing pnext gives Node* which can be assigned to list1.


Yes, you can change this( i.e., logically they does the same thing ) -

pnext = &list1->next;
list1 = *pnext;

to

list1 = list1->next ;

But, you have a statement -

 *pnext = list2;

If pnext wasn't initialized as in the two step sequence, dereferencing an uninitialized pointer( i.e., *pnext ) would result segmentation fault. That is the reason.

3
  • can I change these 2 lines: pnext = &list1->next; list1 = *pnext; to list = list-> next;? Mar 21, 2011 at 9:32
  • so why the coder in that post gave such a mysterious code??? And you can check that post, other solution also followed this style... I am not sure I was right about this change. Mar 21, 2011 at 9:38
  • @Josh No, you cannot! You'd lose the pointer to the head of the list which you are returning, which is the whole point of the code. The code is actually quite elegant there. I'll write up an explanation (I reckon it would require some figures to be clear).
    – mcyalcin
    Mar 21, 2011 at 9:49
0

Try to install visual studio express edition. Once you debug the program in VS-2012, you can simply hover the mouse on the pointer and it'll show you the contents by dereferencing the address.

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