I've written an iterative deepening algorithm, it works except when I add cycle checking, the algorithm returns a deeper solution than it should. But when I don't check for cycles it does work correctly, but it takes too long. Can anyone please spot the bug?
(defun rec-depth-limited (problem node cutoff closed) (if (= cutoff 0) (if (funcall (problem-goalp problem) node) node) (if (visited-p node closed) nil (progn ;; when i remove the next line, it works correctly (setf (gethash (node-state node) closed) t) (loop for child in (expand node (problem-actions problem)) do (let ((result (rec-depth-limited problem child (1- cutoff) closed))) (if result (return result)))))))) (defun iterative-deepening (problem) "Iterative deepening search" (let ((cutoff 0)) (loop (format t "~%cut-off: ~A" cutoff) (let ((solution (rec-depth-limited problem (make-node :state (problem-state problem)) cutoff (make-hash-table :test #'equalp)))) ;solve problem up to cutoff (if (null solution) (incf cutoff);if solution is not found, increment the depth (return solution)))))) (defun visited-p (node table) "Checks if state in node was visited before by checking if it exists in the table" (nth-value 1 (gethash (node-state node) table)))
Edit: here is the expand function
(defun expand (node actions) "Expands a node, returns a list of the new nodes" (remove-if #'null (apply-actions node actions)));apply all actions on all nodes (defun apply-actions (node actions) "Applies all actions to a state, returns a list of new states" (mapcan #'(lambda (action) (mapcar #'(lambda (tile) (funcall action tile node)) (node-state node))) actions))
This is one of the actions, they are all the same except for minor changes
(defun slide-right (tile node) "slide the tile one cell to the right. returns nil if not possible, otherwise returns a node with the new state" (when (can-slide-right-p tile (node-state node));if can slide right (and visualize (format t "~%slide ~A to the right" (tile-label tile))) (let* ((newstate (mapcar #'copy-tile (node-state node)));copy the current state (depth (node-depth node)) (newcol (incf (tile-col (find tile newstate :test #'equalp))));update state (cost (1+ (node-cost node)))) (make-node :state newstate ;create new node with the new state :parent node :depth (1+ depth) :action (concatenate 'string "slide " (tile-label tile) " right" ) :cost cost))))
(defun can-slide-right-p (tile state) "returns T if the specified tile can be sled one cell to the right" (let ((row (tile-row tile)) (end (+ (tile-col tile) (tile-length tile))) ;col at which tile ends after being sled (orient (tile-orientation tile))) (and (equal orient 'H) (or (tile-is-mouse tile) (< end *board-w*)) (empty-cell-p row end state)))) (defun spans-cell-p (row col tile) "returns T if the specified tile spans the specified cell" (if (equal (tile-orientation tile) 'H) (horizontally-spans-cell-p row col tile) (vertically-spans-cell-p row col tile))) (defun horizontally-spans-cell-p (row col tile) "Tests if the specified horizontal tile spans the specified cell" (let ((tile-col (tile-col tile)) (tile-row (tile-row tile)) (tile-len (tile-length tile))) (and (= tile-row row) (>= col tile-col) (< col (+ tile-col tile-len))))) (defun vertically-spans-cell-p (row col tile) "Tests if the specified vertical tile spans the specified cell" (let ((tile-col (tile-col tile)) (tile-row (tile-row tile)) (tile-len (tile-length tile))) (and (= tile-col col) (>= row tile-row) (< row (+ tile-row tile-len)))))