Start taking some notes
author |
Steve Losh <steve@stevelosh.com> |
date |
Sat, 03 Nov 2018 18:20:48 -0400 |
parents |
11df545d1a41 |
children |
2735aa6aab79 |
(in-package :rosalind)
(define-problem fib (data stream)
"5 3"
"19"
(let ((months (read data))
(litter-size (read data)))
;; The problem description is written incorrectly. They say "total number
;; of rabbit pairs … after n months", but if we list out the values for
;; their sample parameters, we can see their answer is wrong:
;;
;; MONTHS | BREEDING | TOTAL
;; ELAPSED | PAIRS | PAIRS
;; ---------------------------
;; 0 | 0 | 1
;; 1 | 1 | 1
;; 2 | 1 | 4
;; 3 | 4 | 7
;; 4 | 7 | 19 <-- their answer
;; 5 | 19 | 40 <-- actual answer
;;
;; Their problem is they're treating the Fibonacci numbers Fₙ as "number
;; of rabbits after n months", but really Fₙ means "number of rabbits at
;; the beginning of the nth (ordinal) month". This can even be seen in
;; their own diagram at the top of the page -- months 1 and 2 both have
;; 1 pair each. If we start in month 1, and let 2 months elapse, we end up
;; at F₃, not F₂.
;;
;; So we'll just decrement months by one. Sigh.
(iterate
(with breeding = 0)
(with total = 1)
(repeat (1- months))
(psetf breeding total
total (+ total (* breeding litter-size)))
(finally (return total)))))
;; (problem-fib "5 3")
;; (solve fib)