# UVa 10120 Gift?! in Common Lisp?

I'm learning common lisp I've been given a problem out of the uVA database (http://acm.uva.es/p/v101/10120.html) and a breadth search function (which takes in a start point, goal point and a legal move generator), i've got the theory down as to how i'm meant to get the answer but Lisp just isn't agreeing with me. Can i have some advice on how to proceed from this point onwards? Below is a link to the given problem and my two of my attempted solutions with lisp source code. Any help would be greatly appreciated! Thanks!

1.

``````(defun gift (N G)
(setq CR 9)
(setq i 3)
(cond ((= N G) "N and G equal")
((< N G) "Gift it on a rock outside limits")
((> N 49) "number of rocks is bigger than 49 - it will work")
((< N 9) "number of rocks is less than 9, it wont work")
((= N 0) "number of rocks is 0, it wont work")
((= G 0) "gift isn't on a rock, it wont work"))
(loop
(setq I (+ I 1))
(setq I (-(* I 2) 1))
(setq CR 9)
(when (= CR G) (return "Let me Try!"))
(when (> CR N) (return "Don't laugh at me!"))
))

(defun lmg-moves (I)
(list (+ 9 I)
(- 9 I)
))
``````

2.

``````(defvar *currentRock* 9)
(defvar *iterator* 3)

(setq *iterator* (+ *iterator* 1))
)

(defun LMG (a)
(+ a (-(* *iterator* 2) 1))
)
``````

As can be seen above, the general idea is to simply apply a breadth-search function with the given legal move generator and hopefully, by analizing it's output we can determine whether we can reach the goal state or not. I will be glad to answer any questions if the code above is too confusing, thanks again!.

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you need to declare variables –  Rainer Joswig Feb 1 '12 at 22:19

Among other potential issues:

You're using LOOP wrong. See PCL for info on loop. I've rehacked it a bit, but I don't know what you are attempting.

SETF is recommended over SETQ, as SETF is more general.

INCF increments a place by 1.

Your indentation is bad; if you fixed that you would notice that you're falling off the end of COND into the LOOP. I'd recommend an auto-indenting editor for using Lisp here. (Emacs is the standby).

``````(defun gift (N G)
(setq CR 9)
(setq i 3)
(cond ((= N G) "N and G equal")
((< N G) "Gift it on a rock outside limits")
((> N 49) "number of rocks is bigger than 49 - it will work")
((< N 9) "number of rocks is less than 9, it wont work")
((= N 0) "number of rocks is 0, it wont work")
((= G 0) "gift isn't on a rock, it wont work")) )
(loop
while t
do
(setq I (+ I 1))
(setq I (-(* I 2) 1))
(setq CR 9)
(when (= CR G)
(return "Let me Try!"))
(when (> CR N)
(return "Don't laugh at me!"))))
``````
-

There are some things that are immediately obvious:

• You have exactly two legal return values, "Let me try!", and "Don't make fun of me!". You misspelt the first, rephrased the second, and added a lot of strings that do not have a use for the problem (are they meant as comments?).
• The description calls the variables `N` and `M`, but your attempts take parameters `N` and `G`. Why confuse yourself? Either call them `N` and `M`, or (better) use meaningful names, like `rock-number` and `gift-place`.

Now, let's see your program structure.

``````(defun gift (N G)
(setq CR 9)
(setq i 3))
``````

These `setq` instructions have undefined behaviour at this point, because `CR` and `I` are not defined yet. Many Lisp implementations will implicitly create globally special variables of these names, but it is bad style to depend on it. I have the impression that you want to use `let` here, like this:

``````(defun gift (rock-number gift-place)
(let ((current-rock 0)
(jump-number 0))
;; ...
))
``````

Note that you should really start from the beginning, because you would miss the solution when the gift is on rock 1 or 4.

Next up, that `cond` form: it is dead code, because it has no side effects, and you throw away its return value immediately. It is thus at best a comment, and you should use a comment for that.

Finally, we have this funny loop:

``````(loop
(setq I (+ I 1))
(setq I (-(* I 2) 1))
(setq CR 9)
(when (= CR G) (return "Let me Try!"))
(when (> CR N) (return "Don't laugh at me!"))))
``````

I don't know what `breadth-search` does, but it seems that you really depend on the manipulation of globally special variables. I cannot say what might happen here. However, I can see several problems:

• You can have up to two locations when jumping a certain distance from a given rock. It cannot be right to check only a single variable after each jump.
• You seem to confuse the jump number with its jump distance. `I` goes in the sequence 1, 3, 7, 15 …, but the jump number sequence would be 1, 2, 3, 4 … while the jump distance sequence would be 1, 3, 5, 7 …. Even the rocks visited when always jumping right are a different sequence (1, 4, 9, 16 …).
• You reset `CR` to 9 each time through the loop. I do not see how that could be right.

Stylistically, you should keep your variables as local as possible, using for example `let`, `do`, or the extended `loop` keywords `:for` and `:with`, then pass them into the functions that need them as arguments. This makes it much easier to reason about what is happening.

I think that your mental model of the solution algorithm is a bit confused. I would structure this in such a way that you loop over the jumps and keep a set of rocks that you can possibly be on after exactly this number of jumps. A special treatment for small `N` does not seem to really give a lot of efficiency gain. If you have a proof that `N` > 49 always has a solution, on the other hand, you should have a guard clause and a comment that outlines the proof.

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