# Finding the maximum number of child nodes in a tree

First, I should make it clear that this is required for an academic project. I am trying to find the maximum number of child nodes for any node in a tree, using Common Lisp.

My current code is shown below - I'm not 100% on the logic of it, but I feel it should work, however it isn't giving me the required result.

``````(defun breadth (list y)
(setf l y)
(mapcar #'(lambda (element)
(when (listp element)
(when (> (breadth element (length element)) l)
(setf l (breadth element (length element)))
))) list)

l)

(defun max-breadth(list)
(breadth list (length list))
)
``````

As an example, running

``````(max-breadth '(a ( (b (c d)) e) (f g (h i) j)))
``````

should return 4.

Edit: Trace results and actual return values, forgot these:

``````CG-USER(13): (max-breadth '(a ( (b (c d)) e) (f g (h i) j)))
0[6]: (BREADTH (A ((B (C D)) E) (F G (H I) J)) 3)
1[6]: (BREADTH ((B (C D)) E) 2)
2[6]: (BREADTH (B (C D)) 2)
3[6]: (BREADTH (C D) 2)
3[6]: returned 2
2[6]: returned 2
1[6]: returned 2
1[6]: (BREADTH (F G (H I) J) 4)
2[6]: (BREADTH (H I) 2)
2[6]: returned 2
1[6]: returned 2
0[6]: returned 2
2
``````

Does anyone have any ideas where I'm going wrong? I suspect it's related to the second conditional, but I'm not sure.

-
If it doesn't return 4, what does it return? 6? –  FrustratedWithFormsDesigner Jan 14 '11 at 20:51
Sorry, missed that out, added a trace result. –  Jim Jan 14 '11 at 20:56
remember that you should not set variables you have not defined anywhere. (SETF l ...) is such a case. l is not introduced in your code. It is not a local variable, no global variable, it is no function parameter, ... –  Rainer Joswig Jan 14 '11 at 23:01
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## 3 Answers

First, standard formatting:

``````(defun breadth (list y)
(setf l y)
(mapcar #'(lambda (element)
(when (listp element)
(when (> (breadth element (length element)) l)
(setf l (breadth element (length element))))))
list)
l)

(defun max-breadth (list)
(breadth list (length list)))
``````

Your problem is the `(setf l y)`, which should give you a warning about `l` being undefined. `Setf` should not be used on unbound variables. Use `let` to make a lexical scope:

``````(defun breadth (list y)
(let ((l y))
(mapcar #'(lambda (element)
(when (listp element)
(when (> (breadth element (length element)) l)
(setf l (breadth element (length element))))))
list)
l))
``````

Then, instead of two nested `when`, use a single one and `and`:

``````              (when (and (listp element)
(> (breadth element (length element)) 1))
(setf l (breadth element (length element))))
``````

I find `dolist` more concise here:

``````  (dolist (element list)
(when (and (listp element)
(> (breadth element (length element)) l))
(setf l (breadth element (length element)))))
``````

The parameter `y` is always the length of the parameter `list`, so this call can be simplified. You also do not need to alias `y`:

``````(defun breadth (list &aux (y (length list)))
(dolist (element list)
(when (and (listp element)
(> (breadth element) y))
(setf y (breadth element))))
y)
``````

You could eliminate the double recursive call through a `let`, but we can use `max` here:

``````(defun breadth (list &aux (y (length list)))
(dolist (element list)
(when (listp element)
(setf y (max y (breadth element)))))
y)
``````

You could also use `reduce` for this:

``````(defun breadth (l)
(if (listp l)
(reduce #'max l
:key #'breadth
:initial-value (length l))
0))
``````
-
Excellent, thanks! I wasn't expecting so much detail. –  Jim Jan 14 '11 at 22:57
@Jiminizer: I just edited to answer the real issue, which I forgot initially ;). –  Svante Jan 14 '11 at 23:02
Why `(reduce ...)` instead of what to me looks simpler `(apply #'max (length L) (mapcar #'breadth L))` ? –  6502 Jan 15 '11 at 16:41
–  Svante Jan 15 '11 at 19:31
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L is not a local variable, so the function will return the last value assigned to it (ie, the breadth of the last subtree).

Use LET to declare a local variable:

``````(LET ((l y))
...
)
``````
-
Ah right, thanks for that. I find it quite annoying that nothing along those lines has been covered in lectures, and yet we're meant to find a solution without needing additional material. –  Jim Jan 14 '11 at 22:58
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Isn't the correct answer 6? Since e and j in your example are also technically child nodes? If that's how you're defining your problem, the following solution should get you there:

``````(defun max-breadth (lst)
(cond
((atom lst) 0)
((every #'atom lst) (length lst))
(t (+ (max-breadth (car lst)) (max-breadth (cdr lst))))))
``````

version 2:

``````(defun max-breadth (lst)
(cond
((atom lst) 0)
((every #'atom lst) (length lst))
(t (+
(max-breadth (car lst))
(max-breadth (remove-if-not #'consp (cdr lst)))))))
``````
-
I might not have explained the problem well enough - in the example given, the root node has three nodes beneath it, one of these nodes branches into 4 nodes (F G (H I) J). That's the largest number of child nodes for any parent node in the tree, which is what I'm after. If you look at the trace above, the y argument does represent the correct number of nodes, with 4 being the highest. The problem is, it seems to overwrite that value with 2 when that occurs subsequently. –  Jim Jan 14 '11 at 22:03
I'm not sure if I understand the problem better, but is this closer to what you're looking for? (edited original post, version 2) –  yan Jan 14 '11 at 22:43
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