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; emirps (define-syntax fold-of (syntax-rules (range in is) ((_ "z" f b e) (set! b (f b e))) ((_ "z" f b e (v range fst pst stp) c ...) (let* ((x fst) (p pst) (s stp) (le? (if (positive? s) <= >=))) (do ((v x (+ v s))) ((le? p v) b) (fold-of "z" f b e c ...)))) ((_ "z" f b e (v range fst pst) c ...) (let* ((x fst) (p pst) (s (if (< x p) 1 -1))) (fold-of "z" f b e (v range x p s) c ...))) ((_ "z" f b e (v range pst) c ...) (fold-of "z" f b e (v range 0 pst) c ...)) ((_ "z" f b e (x in xs) c ...) (do ((t xs (cdr t))) ((null? t) b) (let ((x (car t))) (fold-of "z" f b e c ...)))) ((_ "z" f b e (x is y) c ...) (let ((x y)) (fold-of "z" f b e c ...))) ((_ "z" f b e p? c ...) (if p? (fold-of "z" f b e c ...))) ((_ f i e c ...) (let ((b i)) (fold-of "z" f b e c ...))))) (define-syntax list-of (syntax-rules () ((_ arg ...) (reverse (fold-of (lambda (d a) (cons a d)) '() arg ...))))) (define (digits n . args) (let ((b (if (null? args) 10 (car args)))) (let loop ((n n) (d '())) (if (zero? n) d (loop (quotient n b) (cons (modulo n b) d)))))) (define (undigits ds . args) (let ((b (if (null? args) 10 (car args)))) (let loop ((ds ds) (n 0)) (if (null? ds) n (loop (cdr ds) (+ (* n b) (car ds))))))) (define (prime? n) (define (expm b e m) (define (m* x y) (modulo (* x y) m)) (cond ((zero? e) 1) ((even? e) (expm (m* b b) (/ e 2) m)) (else (m* b (expm (m* b b) (/ (- e 1) 2) m))))) (define (digits n . args) (let ((b (if (null? args) 10 (car args)))) (let loop ((n n) (d '())) (if (zero? n) d (loop (quotient n b) (cons (modulo n b) d)))))) (define (isqrt n) (let loop ((x n) (y (quotient (+ n 1) 2))) (if (<= 0 (- y x) 1) x (loop y (quotient (+ y (quotient n y)) 2))))) (define (square? n) (let ((n2 (isqrt n))) (= n (* n2 n2)))) (define (jacobi a n) (if (not (and (integer? a) (integer? n) (positive? n) (odd? n))) (error 'jacobi "modulus must be positive odd integer") (let jacobi ((a a) (n n)) (cond ((= a 0) 0) ((= a 1) 1) ((= a 2) (case (modulo n 8) ((1 7) 1) ((3 5) -1))) ((even? a) (* (jacobi 2 n) (jacobi (quotient a 2) n))) ((< n a) (jacobi (modulo a n) n)) ((and (= (modulo a 4) 3) (= (modulo n 4) 3)) (- (jacobi n a))) (else (jacobi n a)))))) (define legendre jacobi) (define (inverse x n) (let loop ((x (modulo x n)) (a 1)) (cond ((zero? x) (error 'inverse "division by zero")) ((= x 1) a) (else (let ((q (- (quotient n x)))) (loop (+ n (* q x)) (modulo (* q a) n))))))) (define (miller? n a) (let loop ((r 0) (s (- n 1))) (if (even? s) (loop (+ r 1) (/ s 2)) (if (= (expm a s n) 1) #t (let loop ((r r) (s s)) (cond ((zero? r) #f) ((= (expm a s n) (- n 1)) #t) (else (loop (- r 1) (* s 2))))))))) (define (chain m f g x0 x1) (let loop ((ms (digits m 2)) (u x0) (v x1)) (cond ((null? ms) (values u v)) ((zero? (car ms)) (loop (cdr ms) (f u) (g u v))) (else (loop (cdr ms) (g u v) (f v)))))) (define (lucas? n) (let loop ((a 11) (b 7)) (let ((d (- (* a a) (* 4 b)))) (cond ((square? d) (loop (+ a 2) (+ b 1))) ((not (= (gcd n (* 2 a b d)) 1)) (loop (+ a 2) (+ b 2))) (else (let* ((x1 (modulo (- (* a a (inverse b n)) 2) n)) (m (quotient (- n (legendre d n)) 2)) (f (lambda (u) (modulo (- (* u u) 2) n))) (g (lambda (u v) (modulo (- (* u v) x1) n)))) (let-values (((xm xm1) (chain m f g 2 x1))) (zero? (modulo (- (* x1 xm) (* 2 xm1)) n))))))))) (cond ((or (not (integer? n)) (< n 2)) (error 'prime? "must be integer greater than one")) ((even? n) (= n 2)) ((zero? (modulo n 3)) (= n 3)) (else (and (miller? n 2) (miller? n 3) (lucas? n))))) (define (emirp? n) (let ((rev (undigits (reverse (digits n))))) (and (prime? n) (prime? rev)))) (display (list-of n (n range 10 1000) (emirp? n)))
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