src/huffman-trees.lisp @ 0ac280dfa75f
primes -> euler
author |
Steve Losh <steve@stevelosh.com> |
date |
Sun, 13 Aug 2017 00:06:58 -0400 |
parents |
184af4c4e8fc |
children |
6eccaf72df12 |
(in-package :sand.huffman-trees)
;;;; Data ---------------------------------------------------------------------
;;; Interface:
;;; Constructors: make-leaf make-node
;;; Generic: tree-symbols tree-weight
;;; Leaves: leaf-symbol leaf-weight
;;; Nodes: node-left node-right
;;;
;;; SICP's abstraction layer is a little wonky in this example:
;;;
;;; (define (make-leaf symbol weight) (list 'leaf symbol weight))
;;; (define (leaf? object) (eq? (car object) 'leaf))
;;;
;;; (define (symbol-leaf x) (cadr x))
;;; (define (weight-leaf x) (caddr x))
;;;
;;; (define (make-code-tree left right) ...)
;;;
;;; (define (left-branch tree) (car tree))
;;; (define (right-branch tree) (cadr tree))
;;;
;;; (define (symbols tree)
;;; (if (leaf? tree) ...))
;;;
;;; (define (weight tree)
;;; (if (leaf? tree) ...))
;;;
;;; Okay, so `symbols` and `weight` are generic functions that operate on either
;;; kind of tree component (leaves and code trees), cool. Their argument is
;;; just called `tree` so that must mean "either kind of component".
;;;
;;; But wait, `left-branch` takes a "tree" argument, but it only works on code
;;; trees, not leaves. Same for `right-branch`.
;;;
;;; Sometimes I just want to drop everything and go write OCaml.
(defstruct huffman-tree)
(defstruct (leaf (:include huffman-tree)
(:constructor make-leaf (symbol weight)))
(symbol (required-argument))
(weight (required-argument) :type real))
(defstruct (node (:include huffman-tree)
(:constructor %make-node))
(left (required-argument) :type huffman-tree)
(right (required-argument) :type huffman-tree)
(symbols (required-argument) :type list)
(weight (required-argument) :type real))
(define-with-macro node left right)
(defun tree-symbols (tree)
(etypecase tree
(leaf (list (leaf-symbol tree)))
(node (node-symbols tree))))
(defun tree-weight (tree)
(etypecase tree
(leaf (leaf-weight tree))
(node (node-weight tree))))
(defun make-node (left right)
(%make-node :left left
:right right
:weight (+ (tree-weight left)
(tree-weight right))
:symbols (append (tree-symbols left)
(tree-symbols right))))
(defun length1p (list)
"Return whether `list` has length 1, without traversing it all the way."
(and (consp list) (null (cdr list))))
;;;; External Interface -------------------------------------------------------
(defun decode (bits tree)
(flet ((choose-branch (bit tree)
(ecase bit
(0 (node-left tree))
(1 (node-right tree)))))
(recursively ((bits bits)
(current tree))
(when bits
(let ((next-branch (choose-branch (first bits) current)))
(etypecase next-branch
(leaf (cons (leaf-symbol next-branch)
(recur (rest bits) tree)))
(node (recur (rest bits) next-branch))))))))
(defun encode (message tree)
(labels
((fail (symbol)
(error "Unknown symbol ~S" symbol))
(encode-symbol (symbol tree)
(recursively ((tree tree))
(etypecase tree
(leaf
(if (eql symbol (leaf-symbol tree))
'()
(fail symbol)))
(node
(with-node (tree)
(cond
((member symbol (tree-symbols left)) (cons 0 (recur left)))
((member symbol (tree-symbols right)) (cons 1 (recur right)))
(t (fail symbol)))))))))
(if (null message)
'()
(append (encode-symbol (first message) tree)
(encode (rest message) tree)))))
(defun encode (message tree)
;; Alternate version
(flet ((encode-symbol (symbol tree)
(recursively ((tree tree))
(etypecase tree
(leaf (if (eql symbol (leaf-symbol tree))
'()
(error "Unknown symbol ~S" symbol)))
(node (with-node (tree)
;; If it's not in the left, assume it's in the right. If
;; it's not present at all we'll just recur all the way
;; down to the rightmost leaf and let that handle the
;; error.
;;
;; This saves a member check at each level, but doesn't
;; bail early on garbage data. One would hope garbage
;; data is rare.
(if (member symbol (tree-symbols left))
(cons 0 (recur left))
(cons 1 (recur right)))))))))
(if (null message)
'()
(append (encode-symbol (first message) tree)
(encode (rest message) tree)))))
(defun adjoin-set (tree set)
(cond
((null set)
(list tree))
((< (tree-weight tree) (tree-weight (first set)))
(cons tree set))
(t
(cons (first set)
(adjoin-set tree (rest set))))))
(defun make-leaf-set (pairs)
(if (null pairs)
'()
(destructuring-bind (symbol . weight)
(first pairs)
(adjoin-set (make-leaf symbol weight)
(make-leaf-set (rest pairs))))))
(defun generate-huffman-tree (data)
(check-type data cons)
(labels ((successive-merge (trees)
(if (length1p trees)
(first trees)
(destructuring-bind (a b . rest) trees
(successive-merge
(adjoin-set (make-node a b) rest))))))
(successive-merge (make-leaf-set (hash-table-alist (frequencies data))))))
;;;; Scratch ------------------------------------------------------------------
(defparameter *sample-tree*
(make-node (make-leaf 'a 4)
(make-node (make-leaf 'b 2)
(make-node (make-leaf 'D 1)
(make-leaf 'C 1)))))
(defparameter *song*
'(Well she was just seventeen
You know what I mean
And the way she looked was way beyond compare
So how could I dance with another
When I saw her standing there
Well she looked at me and I I could see
That before too long Id fall in love with her
She wouldnt dance with another
When I saw her standing there))
(defparameter *song-tree* (generate-huffman-tree *song*))
; (decode '(0 1 1 0 0 1 0 1 0 1 1 1 0) *sample-tree*)
; (encode '(A D A B B C A) *sample-tree*)
; (decode (encode '(d a b c a b) *sample-tree*) *sample-tree*)
; (decode (encode *song* *song-tree*) *song-tree*)