(* Title: FOL/ex/Nat.thy
ID: $Id: Nat.thy,v 1.6 2005/09/03 15:15:51 wenzelm Exp $
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1992 University of Cambridge
*)
header {* Theory of the natural numbers: Peano's axioms, primitive recursion *}
theory Nat
imports FOL
begin
typedecl nat
arities nat :: "term"
consts
0 :: nat ("0")
Suc :: "nat => nat"
rec :: "[nat, 'a, [nat,'a]=>'a] => 'a"
add :: "[nat, nat] => nat" (infixl "+" 60)
axioms
induct: "[| P(0); !!x. P(x) ==> P(Suc(x)) |] ==> P(n)"
Suc_inject: "Suc(m)=Suc(n) ==> m=n"
Suc_neq_0: "Suc(m)=0 ==> R"
rec_0: "rec(0,a,f) = a"
rec_Suc: "rec(Suc(m), a, f) = f(m, rec(m,a,f))"
add_def: "m+n == rec(m, n, %x y. Suc(y))"
ML {* use_legacy_bindings (the_context ()) *}
end
theorem Suc_n_not_n:
Suc(k) ≠ k
theorem add_0:
0 + n = n
theorem add_Suc:
Suc(m) + n = Suc(m + n)
theorem add_assoc:
k + m + n = k + (m + n)
theorem add_0_right:
m + 0 = m
theorem add_Suc_right:
m + Suc(n) = Suc(m + n)