I've been trying to build something similar to a breadth-first tree-like structure for a graph, which contains all possible paths from a given node. I didn't have problem with the algorithm as much as I do with some sort of error that pops up. Here's the relevant code below:
(set 'my-graph '((A (B C)) (B (D E)) (C (F G)) (D (E)) (E (H)) (F (H I)) (G (I)) (H (J)) (I (J)) (J ()))) (defun search-tree(graph traversed visited) (cond ((null traversed) NIL) (:else (let* ((new-visited (append visited (list (car traversed)))) (children (add-children graph (car traversed) (append (cdr traversed) new-visited)))) (cond ((null children) (list (car traversed))) (:else (cons (car traversed) (mapcar (lambda(x) (search-tree graph (list x) new-visited)) children))) ) ) ) ) ) ;;; Selects the node to pick returned children from (defun add-children(graph node visited) (cond ((null graph) NIL) ((equal (caar graph) node) (new-nodes (cadar graph) visited)) (:else (add-children (cdr graph) node visited)) ) ) ;;; Returns new, unvisited nodes from the children of a node (defun new-nodes(children visited) (cond ((null children) NIL) ((member (car children) visited) (new-nodes (cdr children) visited)) (:else (cons (car children) (new-nodes (cdr children) visited))) ) )
Function search tree is called as (search-tree my-graph '(A) '()) and it returns almost everything as I want correctly, but the first terminal node which is replaced with a # symbol (it should be (J)). What could be the problem in here?
That's the returned value.
(A (B (D (E (H #))) (E (H (J)))) (C (F (H (J)) (I (J))) (G (I (J)))))
I've tried tracing the code, but I still don't understand why is the (J) list swapped in mid-recursion with a # symbol.