Many Project Euler problems require manipulating integers and their digits, both in base10 and base2. While I have no problem with converting integers in lists of digits, or converting base10 into base2 (or lists of their digits), I often find that performance is poor when doing such conversions repeatedly.
Here's an example:
First, here are my typical conversions:
#lang racket (define (10->bin num) (define (10->bin-help num count) (define sq (expt 2 count)) (cond [(zero? count) (list num)] [else (cons (quotient num sq) (10->bin-help (remainder num sq) (sub1 count)))] ) ) (member 1 (10->bin-help num 19))) (define (integer->lon int) (cond [(zero? int) empty] [else (append (integer->lon (quotient int 10)) (list (remainder int 10)))] ) )
Next, I need a function to test whether a list of digits is a palindrome
(define (is-palindrome? lon) (equal? lon (reverse lon)))
Finally, I need to sum all base10 integers below some max that are palindromes in base2 and base10. Here's the accumulator-style function:
(define (sum-them max) (define (sum-acc count acc) (define base10 (integer->lon count)) (define base2 (10->bin count)) (cond [(= count max) acc] [(and (is-palindrome? base10) (is-palindrome? base2)) (sum-acc (add1 count) (+ acc count))] [else (sum-acc (add1 count) acc)])) (sum-acc 1 0))
And the regular recursive version:
(define (sum-them* max) (define base10 (integer->lon max)) (define base2 (10->bin max)) (cond [(zero? max) 0] [(and (is-palindrome? base10) (is-palindrome? base2)) (+ (sum-them* (sub1 max)) max)] [else (sum-them* (sub1 max))] ) )
When I apply either of these two last functions to 1000000, I takes well over 10 seconds to complete. The recursive version seems a bit quicker than the accumulator version, but the difference is negligible.
Is there any way I can improve this code, or do I just have to accept that this is the style of number-crunching for which Racket isn't particularly suited?
So far, I have considered the possibility of replacing integer->lon by a similar integer->vector as I expect vector-append to be faster than append, but then I'm stuck with the need to apply reverse later on.