blob: 6ffdbd4de04a644982d4b4489ea57f1f698d59f2 (
plain) (
tree)
|
|
;;; random.el --- Functions for working with randomness -*- lexical-binding: t -*-
;; Author: William Carroll <wpcarro@gmail.com>
;; Version: 0.0.1
;; Package-Requires: ((emacs "24"))
;; Homepage: https://user.git.corp.google.com/wpcarro/briefcase
;;; Commentary:
;; Functions for working with randomness. Some of this code is not as
;; functional as I'd like from.
;;; Code:
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Dependencies
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(require 'prelude)
(require 'number)
(require 'math)
(require 'series)
(require 'list)
(require 'set)
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Library
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(defun random-int (x)
"Return a random integer from 0 to `X'."
(random x))
;; TODO: Make this work with sequences instead of lists.
(defun random-choice (xs)
"Return a random element of `XS'."
(let ((ct (list/length xs)))
(list/get
(random-int ct)
xs)))
(defun random-boolean? ()
"Randonly return t or nil."
(random-choice (list t nil)))
;; TODO: This may not work if any of these generate numbers like 0, 1, etc.
(defun random-uuid ()
"Return a generated UUID string."
(let ((eight (number/dec (math/triangle-of-power :base 16 :power 8)))
(four (number/dec (math/triangle-of-power :base 16 :power 4)))
(twelve (number/dec (math/triangle-of-power :base 16 :power 12))))
(format "%x-%x-%x-%x-%x"
(random-int eight)
(random-int four)
(random-int four)
(random-int four)
(random-int twelve))))
(defun random-token (length)
"Return a randomly generated hexadecimal string of LENGTH."
(->> (series/range 0 (number/dec length))
(list/map (lambda (_) (format "%x" (random-int 15))))
(list/join "")))
;; TODO: Support random-sample
;; (defun random-sample (n xs)
;; "Return a randomly sample of list XS of size N."
;; (prelude/assert (and (>= n 0) (< n (list/length xs))))
;; (cl-labels ((do-sample
;; (n xs y ys)
;; (if (= n (set/count ys))
;; (->> ys
;; set/to-list
;; (list/map (lambda (i)
;; (list/get i xs))))
;; (if (set/contains? y ys)
;; (do-sample n xs (random-int (list/length xs)) ys)
;; (do-sample n xs y (set/add y ys))))))
;; (do-sample n xs (random-int (list/length xs)) (set/new))))
(provide 'random)
;;; random.el ends here
|