src/number-letters.lisp @ 326c2d62fceb
Get this shit compiling with the new cl-losh
author |
Steve Losh <steve@stevelosh.com> |
date |
Thu, 26 Jan 2017 22:54:28 +0000 |
parents |
184af4c4e8fc |
children |
bc8ed2a9b4c0 |
(in-package :sand.number-letters)
; https://www.youtube.com/watch?v=LYKn0yUTIU4
;;;; Slow/Reference Implementation --------------------------------------------
(defun number-string (n)
(format nil "~R" n))
(defun slow-letter-count (n)
(count-if #'alpha-char-p (number-string n)))
;;;; Fast Version -------------------------------------------------------------
(defparameter *small-counts*
(make-array 1000
:element-type 'fixnum
:initial-contents (iterate (for i :from 0 :below 1000)
(collect (slow-letter-count i)))))
(defparameter *suffixes*
(cons ""
(iterate (for i :from 1 :to 21)
(collect (subseq (format nil "~R" (expt 1000 i)) 4)))))
(defparameter *suffix-lengths* (mapcar #'length *suffixes*))
(declaim (ftype (function ((integer 0)) fixnum)
fast-letter-count))
(defun fast-letter-count (n)
(declare (optimize (debug 0) (safety 0) (speed 3)))
(if (zerop n)
4
(iterate
(for i :first n :then (floor i 1000))
(for sl :in *suffix-lengths*)
(while (not (zerop i)))
(for part = (mod i 1000))
(when (not (zerop part))
(sum sl)
(sum (aref *small-counts* part))))))
(defun sanity-check ()
(iterate (for i :from 1 :to 10000000)
(finding i :such-that (not (= (fast-letter-count i)
(slow-letter-count i))))))
;;;; Chains -------------------------------------------------------------------
(defun chain-length (n)
(if (= n 4)
1
(1+ (chain-length (fast-letter-count n)))))
(defun print-chain (n)
(let ((lc (letter-count n)))
(format t "~D - ~R -> ~D~%" n n lc)
(when (not (= n 4))
(print-chain lc))))
(defparameter *cache-size* 1000)
(defparameter *cache*
(make-array *cache-size*
:element-type 'fixnum
:initial-contents (iterate (for i :from 0 :below *cache-size*)
(collect (chain-length i)))))
(defun chain-length% (n)
(iterate
(for i :first n :then (fast-letter-count i))
(summing 1 :into result)
(declare (type fixnum result))
(when (< i *cache-size*)
(return (the fixnum (* result (aref *cache+ i)))))))
(defun longest-chain (max)
(iterate
(for i :from 1 :to max)
(finding i :maximizing (chain-length% i))))
; (time
; (print-chain (longest-chain (expt 10 9))))