src/HOL/ex/Primes.thy

added read;

(*  Title:      HOL/ex/Primes.thy
    ID:         $Id$
    Author:     Christophe Tabacznyj and Lawrence C Paulson
    Copyright   1996  University of Cambridge

The Greatest Common Divisor and Euclid's algorithm

The "simpset" clause in the recdef declaration is omitted on purpose:
	in order to demonstrate the treatment of definitions that have
	unproved termination conditions.  Restoring the clause lets
	Isabelle prove those conditions.
*)

Primes = Divides + Recdef + Datatype +
consts
  is_gcd  :: [nat,nat,nat]=>bool          (*gcd as a relation*)
  gcd     :: "nat*nat=>nat"               (*Euclid's algorithm *)
  coprime :: [nat,nat]=>bool
  prime   :: nat set
  
recdef gcd "measure ((%(m,n).n) ::nat*nat=>nat)"
(*  simpset "!simpset addsimps [mod_less_divisor, zero_less_eq]" *)
    "gcd (m, n) = (if n=0 then m else gcd(n, m mod n))"

defs
  is_gcd_def  "is_gcd p m n == p dvd m  &  p dvd n  &
                               (ALL d. d dvd m & d dvd n --> d dvd p)"

  coprime_def "coprime m n == gcd(m,n) = 1"

  prime_def   "prime == {p. 1<p & (ALL m. m dvd p --> m=1 | m=p)}"

end