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;;; set.el --- Working with mathematical sets -*- lexical-binding: t -*-
;; Author: William Carroll <wpcarro@gmail.com>
;; Version: 0.0.1
;; Package-Requires: ((emacs "24.3"))
;;; Commentary:
;; The set data structure is a collection that deduplicates its elements.
;;; Code:
(require 'ht) ;; friendlier API for hash-tables
(require 'dotted)
(require 'struct)
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;; Wish List
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; - TODO: Support enum protocol for set.
;; - TODO: Prefer a different hash-table library that doesn't rely on mutative
;; code.
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;; Library
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(cl-defstruct set xs)
(defconst set-enable-testing? t
"Run tests when t.")
(defun set-from-list (xs)
"Create a new set from the list XS."
(make-set :xs (->> xs
(list-map #'dotted-new)
ht-from-alist)))
(defun set-new (&rest args)
"Create a new set from ARGS."
(set-from-list args))
(defun set-to-list (xs)
"Map set XS into a list."
(->> xs
set-xs
ht-keys))
(defun set-add (x xs)
"Add X to set XS."
(struct-update set
xs
(lambda (table)
(let ((table-copy (ht-copy table)))
(ht-set table-copy x nil)
table-copy))
xs))
;; TODO: Ensure all `*/reduce' functions share the same API.
(defun set-reduce (acc f xs)
"Return a new set by calling F on each element of XS and ACC."
(->> xs
set-to-list
(list-reduce acc f)))
(defun set-intersection (a b)
"Return the set intersection between A and B."
(set-reduce (set-new)
(lambda (x acc)
(if (set-contains? x b)
(set-add x acc)
acc))
a))
(defun set-count (xs)
"Return the number of elements in XS."
(->> xs
set-xs
ht-size))
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;; Predicates
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(defun set-empty? (xs)
"Return t if XS has no elements in it."
(= 0 (set-count xs)))
(defun set-contains? (x xs)
"Return t if set XS has X."
(ht-contains? (set-xs xs) x))
;; TODO: Prefer using `ht.el' functions for this.
(defun set-equal? (a b)
"Return t if A and B share the name members."
(ht-equal? (set-xs a)
(set-xs b)))
(defun set-distinct? (a b)
"Return t if A and B have no shared members."
(set-empty? (set-intersection a b)))
(defun set-superset? (a b)
"Return t if A has all of the members of B."
(->> b
set-to-list
(list-all? (lambda (x) (set-contains? x a)))))
(defun set-subset? (a b)
"Return t if each member of set A is present in set B."
(set-superset? b a))
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;; Tests
;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
(when set-enable-testing?
;; set-distinct?
(prelude-assert
(set-distinct? (set-new 'one 'two 'three)
(set-new 'a 'b 'c)))
(prelude-refute
(set-distinct? (set-new 1 2 3)
(set-new 3 4 5)))
(prelude-refute
(set-distinct? (set-new 1 2 3)
(set-new 1 2 3)))
;; set-equal?
(prelude-refute
(set-equal? (set-new 'a 'b 'c)
(set-new 'x 'y 'z)))
(prelude-refute
(set-equal? (set-new 'a 'b 'c)
(set-new 'a 'b)))
(prelude-assert
(set-equal? (set-new 'a 'b 'c)
(set-new 'a 'b 'c)))
;; set-intersection
(prelude-assert
(set-equal? (set-new 2 3)
(set-intersection (set-new 1 2 3)
(set-new 2 3 4))))
;; set-{from,to}-list
(prelude-assert (equal '(1 2 3)
(->> '(1 1 2 2 3 3)
set-from-list
set-to-list)))
(let ((primary-colors (set-new "red" "green" "blue")))
;; set-subset?
(prelude-refute
(set-subset? (set-new "black" "grey")
primary-colors))
(prelude-assert
(set-subset? (set-new "red")
primary-colors))
;; set-superset?
(prelude-refute
(set-superset? primary-colors
(set-new "black" "grey")))
(prelude-assert
(set-superset? primary-colors
(set-new "red" "green" "blue")))
(prelude-assert
(set-superset? primary-colors
(set-new "red" "blue"))))
;; set-empty?
(prelude-assert (set-empty? (set-new)))
(prelude-refute (set-empty? (set-new 1 2 3)))
;; set-count
(prelude-assert (= 0 (set-count (set-new))))
(prelude-assert (= 2 (set-count (set-new 1 1 2 2)))))
(provide 'set)
;;; set.el ends here
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