(defun range (min max) (loop for n from min below (+ max 1) by 1 collect n)) (defun sum (list) (apply '+ list)) (defun select (expr list) (remove-if-not expr list)) (defun filter (expr list) (remove-if expr list)) (defun empty (list) (eq list nil)) (defun partial (func &rest args1) (lambda (&rest args2) (apply func (append args1 args2))) ) (defun prime (n) (eq (length (member T (mapcar (lambda (a) (and (eq (mod n a) 0) (/= n a))) (range 2 (sqrt n))))) 0) ) (defun cartesian-helper (thing list) (if (empty list) nil (cons (list thing (first list)) (cartesian-helper thing (rest list))) ) ) (defun cartesian (list-one list-two) (if (empty list-one) nil (append (cartesian-helper (first list-one) list-two) (cartesian (rest list-one) list-two)) ) ) (defun number-to-digit-list (num) (if (< num 10) (list num) (append (number-to-digit-list (floor (/ num 10))) (list (mod num 10))) ) ) (defun digit-list-to-number (digit-list) (if (empty digit-list) 0 (+ (* (first digit-list) (expt 10 (- (length digit-list) 1))) (digit-list-to-number (rest digit-list))) ) ) (defun is-palindrome (num) (let* ((digit-list (number-to-digit-list num))) (equal (reverse digit-list) digit-list)) ) (defun resolve-tuple (expr tuple) (funcall expr (first tuple) (second tuple)) ) (defun resolve-tuples (expr tuple-list) (mapcar (partial #'resolve-tuple expr) tuple-list) ) (defun max-of (list) (reduce #'max list) ) (defun eratosthenes-helper (expr list-one list-two) (if (> (length list-one) 0) (eratosthenes-helper expr (filter (partial expr (first list-one)) (rest list-one)) (filter (partial expr (first list-one)) list-two)) list-two) ) (defun eratosthenes (n) (eratosthenes-helper (lambda (x a) (and (eq (mod a x) 0) (/= a x))) (range 2 (sqrt n)) (range 2 n)) ) (defun combinations (count list) (cond ((zerop count) '(())) ; one combination of zero element. ((endp list) '()) ; no combination from noe element. (t (nconc (mapcar (let ((item (first list))) (lambda (combi) (cons item combi))) (combinations (1- count) (rest list))) (combinations count (rest list))))))