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Possible Duplicate:
multiplicative inverse of modulo m in scheme

I have written a code for finding to solve x and y as a pair. I need to write a modular-inverse code that finds the multiplicative inverse of e modulo n, using ax + by = 1.

Blockquote

(define (ax+by=1 a b)
        (if (= b 0)
            (cons 1 0)
            (let* ((q (quotient a b))
                   (r (remainder a b))
                   (e (ax+by=1 b r))
                   (s (car e))
                   (t (cdr e)))
           (cons t (- s (* q t))))))

Edit : Problem Solved with the function below.

Blockquote

 (define inverse-mod (lambda (a m) 
                  (if (not (= 1 (gcd a m)))
                      (display "**Error** No inverse exists.")
                      (if (> 0(car (ax+by=1 a m)))
                          (+ (car (ax+by=1 a m)) m)
                          (car (ax+by=1 a m))))))
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marked as duplicate by Óscar López, Kjuly, Eitan T, Linger, Ryan Bigg Oct 30 '12 at 3:03

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
What do you need help with? – robert king Oct 29 '12 at 11:33
    
In here they did the same thing but i'm new to scheme. i did not get how they did it in the confirmed answer. – Dr.Oz Oct 29 '12 at 12:59
    
after examining more, 'egcd' in the link I have given is an equivalent process to my 'ax+by=1' , but i still did not get the logic of this statement. ` (let-values (((g x y) (egcd a m)))` . – Dr.Oz Oct 29 '12 at 13:17
    
@Dr.Oz let-values binds to multiple variables the result of evaluating a procedure that returns multiple values, egcd in this case – Óscar López Oct 29 '12 at 19:28

Consider the Extended Euclidean Algorithm

share|improve this answer

This uses the extended euclidean algorithm to find the modular inverse:

(define (inverse x m)
  (let loop ((x x) (b m) (a 0) (u 1))
    (if (zero? x)
        (if (= b 1) (modulo a m)
          (error 'inverse "must be coprime"))
        (let* ((q (quotient b x)))
          (loop (modulo b x) x u (- a (* u q)))))))
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