--- a/src/HOL/Integ/Relation.ML Thu Mar 23 15:39:13 1995 +0100
+++ b/src/HOL/Integ/Relation.ML Fri Mar 24 12:30:35 1995 +0100
@@ -12,18 +12,18 @@
open Relation;
-goalw Relation.thy [converse_def] "!!a b r. <a,b>:r ==> <b,a>:converse(r)";
+goalw Relation.thy [converse_def] "!!a b r. (a,b):r ==> (b,a):converse(r)";
by (simp_tac prod_ss 1);
by (fast_tac set_cs 1);
qed "converseI";
-goalw Relation.thy [converse_def] "!!a b r. <a,b> : converse(r) ==> <b,a> : r";
+goalw Relation.thy [converse_def] "!!a b r. (a,b) : converse(r) ==> (b,a) : r";
by (fast_tac comp_cs 1);
qed "converseD";
qed_goalw "converseE" Relation.thy [converse_def]
"[| yx : converse(r); \
-\ !!x y. [| yx=<y,x>; <x,y>:r |] ==> P \
+\ !!x y. [| yx=(y,x); (x,y):r |] ==> P \
\ |] ==> P"
(fn [major,minor]=>
[ (rtac (major RS CollectE) 1),
@@ -35,23 +35,23 @@
addSEs [converseD,converseE];
qed_goalw "Domain_iff" Relation.thy [Domain_def]
- "a: Domain(r) = (EX y. <a,y>: r)"
+ "a: Domain(r) = (EX y. (a,y): r)"
(fn _=> [ (fast_tac comp_cs 1) ]);
-qed_goal "DomainI" Relation.thy "!!a b r. <a,b>: r ==> a: Domain(r)"
+qed_goal "DomainI" Relation.thy "!!a b r. (a,b): r ==> a: Domain(r)"
(fn _ => [ (etac (exI RS (Domain_iff RS iffD2)) 1) ]);
qed_goal "DomainE" Relation.thy
- "[| a : Domain(r); !!y. <a,y>: r ==> P |] ==> P"
+ "[| a : Domain(r); !!y. (a,y): r ==> P |] ==> P"
(fn prems=>
[ (rtac (Domain_iff RS iffD1 RS exE) 1),
(REPEAT (ares_tac prems 1)) ]);
-qed_goalw "RangeI" Relation.thy [Range_def] "!!a b r.<a,b>: r ==> b : Range(r)"
+qed_goalw "RangeI" Relation.thy [Range_def] "!!a b r.(a,b): r ==> b : Range(r)"
(fn _ => [ (etac (converseI RS DomainI) 1) ]);
qed_goalw "RangeE" Relation.thy [Range_def]
- "[| b : Range(r); !!x. <x,b>: r ==> P |] ==> P"
+ "[| b : Range(r); !!x. (x,b): r ==> P |] ==> P"
(fn major::prems=>
[ (rtac (major RS DomainE) 1),
(resolve_tac prems 1),
@@ -60,23 +60,23 @@
(*** Image of a set under a function/relation ***)
qed_goalw "Image_iff" Relation.thy [Image_def]
- "b : r^^A = (? x:A. <x,b>:r)"
+ "b : r^^A = (? x:A. (x,b):r)"
(fn _ => [ fast_tac (comp_cs addIs [RangeI]) 1 ]);
qed_goal "Image_singleton_iff" Relation.thy
- "(b : r^^{a}) = (<a,b>:r)"
+ "(b : r^^{a}) = ((a,b):r)"
(fn _ => [ rtac (Image_iff RS trans) 1,
fast_tac comp_cs 1 ]);
qed_goalw "ImageI" Relation.thy [Image_def]
- "!!a b r. [| <a,b>: r; a:A |] ==> b : r^^A"
+ "!!a b r. [| (a,b): r; a:A |] ==> b : r^^A"
(fn _ => [ (REPEAT (ares_tac [CollectI,RangeI,bexI] 1)),
(resolve_tac [conjI ] 1),
(resolve_tac [RangeI] 1),
(REPEAT (fast_tac set_cs 1))]);
qed_goalw "ImageE" Relation.thy [Image_def]
- "[| b: r^^A; !!x.[| <x,b>: r; x:A |] ==> P |] ==> P"
+ "[| b: r^^A; !!x.[| (x,b): r; x:A |] ==> P |] ==> P"
(fn major::prems=>
[ (rtac (major RS CollectE) 1),
(safe_tac set_cs),