src/problems/lia.lisp @ 97dda08645b3 default tip
SCSP
| author | Steve Losh <steve@stevelosh.com> |
|---|---|
| date | Mon, 08 Aug 2022 19:26:18 -0400 |
| parents | 2735aa6aab79 |
| children | (none) |
(defpackage :rosalind/lia (:use :cl :rosalind :losh :iterate)) (in-package :rosalind/lia) ;; When a heterozygous organism mates, its offspring have a 50% chance to be ;; heterozygous themselves, *regardless of what the other mate happens to be*: ;; ;; A a A a A a ;; A AA Aa A AA Aa a aA aa ;; A AA Aa a Aa aa a aA aa ;; ;; Because everyone breeds with an Aa Bb mate, we don't need to worry about ;; tracking populations along the way. Every child has a 1/2 chance of being ;; Aa, and likewise a 1/2 chance of being Bb. ;; ;; Because A's and B's are independent, this means there's a 1/2 * 1/2 = 1/4 ;; chance of any given child being Aa Bb. (defun bernoulli-exactly (successes trials success-probability) "Return the probability of exactly `successes` in `trials` Bernoulli trials. Returns the probability of getting exactly `n` successes out of `trials` Bernoulli trials with `success-probability`. " ;; For a group of N trials with success/failure probabilities s/f, any given ;; ordering of exactly S successes and F failures will have probability: ;; ;; s * s * s * … * f * f * f ;; ;; There are N choose S possible orderings (or N choose F, it doesn't matter), ;; so we just sum up the probabilities of all of them. (let ((failures (- trials successes)) (failure-probability (- 1 success-probability))) (* (u:binomial-coefficient trials successes) (expt success-probability successes) (expt failure-probability failures)))) (defun bernoulli-at-least (successes trials success-probability) "Return the probability of at least `successes` in `trials` Bernoulli trials. Returns the probability of getting at least `n` successes out of `trials` Bernoulli trials with `success-probability`. " ;; P(≥S) = P(=S) + P(=S+1) + … + P(N) (u:Σ (n successes trials) (bernoulli-exactly n trials success-probability))) (define-problem lia (data stream) "2 1" "0.684" (let* ((generations (read data)) (target (read data)) (population (expt 2 generations))) (u:float-string (bernoulli-at-least target population 1/4))))