I'm trying to write a Lisp program that implements a board game very similar to dots and boxes, meaning that I have two players who compete against each other but who can make consecutive moves. I am trying to implement the simplest minimax algorithm to achieve this, without alpha beta pruning and assuming that the moves are alternate. Since I'm new to Common Lisp, I would appreciate any feed back you could give me, but particularly why the following error occurs when I try to compile my file:

```
caught ERROR:
; during macroexpansion of (LOOP FOR A ...).
; Use *BREAK-ON-SIGNALS* to intercept.
```

Here is the code I have so far. A problem is a game. The `initial-state`

I this it's self-explanatory. The `terminal-test-p`

receives the current game state and indicates if this is a terminal one. The `player`

function receives the current game state and indicates which player's turn it is to play. The `actions`

function receives the current game state and returns a list of all actions available in that state. The `result`

function receives the current game state and an action and returns the game state that results of applying that action to the state. Finally, the `utility-function`

receives the current game state and the id of the player and returns the number of points expected for that player.

```
(defstruct problem
initial-state
player
actions
result
terminal-test-p
utility-function)
```

This is the minimax I have so far. I know it's still pretty poor, but I really can't advance much since I'm not understanding much of this language.

```
(defparameter *infinity* 999999999)
(defun minimax (prob int)
(let ((action nil)
(utility nil)
(current-state (problem-initial-state prob)))
(loop for a in (funcall (problem-actions prob) current-state)
(setq next-prob (make-problem
:initial-state (funcall (problem-result prob)
current-state a)))
(if (> (min-value next-prob int) utility)
(progn
(setf action a)
(setf utility (min-value next-prob int)))))
(values action utility)))
```

Function `MAX-VALUE`

:

```
(defun max-value (prob int)
(if (funcall (problem-terminal-test-p prob))
(return-from max-value (funcall (problem-utility-function prob)
(problem-initial-state prob))))
(let ((utility (- *infinity*)))
(loop for a in (funcall (problem-actions prob)
(problem-initial-state prob))
(let ((next-prob (make-problem
:initial-state (funcall (problem-result prob)
(problem-initial-state prob)
a))))
(setf utility (max utility (min-value next-prob int)))))
utility))
```

Function `MIN-VALUE`

:

```
(defun min-value (prob int)
(if (fun call (problem-terminal-test-p prob))
(return-from min-value (funcall (problem-utility-function prob)
(problem-initial-state prob))))
(let ((utility *infinity*))
(loop for a in (funcall (problem-actions prob) (problem-initial-state prob))
(let ((next-prob (make-problema
:initial-state (fun call
(problem-result prob)
(problem-initial-state prob)
a))))
(setf utility (min utility (max-value next-prob int)))))
utility))
```

`(SETQ …)`

found where`LOOP`

keyword expected \ current`LOOP`

context:`FOR A IN … (SETQ …)`

." which seems to point out exactly what and where the error is… – Joshua Taylor Nov 24 '13 at 4:01