(* Title: ZF/Order.thy
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1994 University of Cambridge
Orders in Zermelo-Fraenkel Set Theory
*)
Order = WF + Perm +
consts
part_ord :: [i,i]=>o (*Strict partial ordering*)
linear, tot_ord :: [i,i]=>o (*Strict total ordering*)
well_ord :: [i,i]=>o (*Well-ordering*)
mono_map :: [i,i,i,i]=>i (*Order-preserving maps*)
ord_iso :: [i,i,i,i]=>i (*Order isomorphisms*)
pred :: [i,i,i]=>i (*Set of predecessors*)
ord_iso_map :: [i,i,i,i]=>i (*Construction for linearity theorem*)
defs
part_ord_def "part_ord(A,r) == irrefl(A,r) & trans[A](r)"
linear_def "linear(A,r) == (ALL x:A. ALL y:A. <x,y>:r | x=y | <y,x>:r)"
tot_ord_def "tot_ord(A,r) == part_ord(A,r) & linear(A,r)"
well_ord_def "well_ord(A,r) == tot_ord(A,r) & wf[A](r)"
mono_map_def "mono_map(A,r,B,s) ==
{f: A->B. ALL x:A. ALL y:A. <x,y>:r --> <f`x,f`y>:s}"
ord_iso_def "ord_iso(A,r,B,s) ==
{f: bij(A,B). ALL x:A. ALL y:A. <x,y>:r <-> <f`x,f`y>:s}"
pred_def "pred(A,x,r) == {y:A. <y,x>:r}"
ord_iso_map_def
"ord_iso_map(A,r,B,s) ==
UN x:A. UN y:B. UN f: ord_iso(pred(A,x,r), r, pred(B,y,s), s).
{<x,y>}"
end