include "supremum.ma".
-(* Definition 2.13 *)
-definition square_bishop_set : bishop_set → bishop_set.
-intro S; apply (mk_bishop_set (pair S S));
-[1: intros (x y); apply ((fst x # fst y) ∨ (snd x # snd y));
-|2: intro x; simplify; intro; cases H (X X); clear H; apply (bs_coreflexive ?? X);
-|3: intros 2 (x y); simplify; intro H; cases H (X X); clear H; [left|right] apply (bs_symmetric ??? X);
-|4: intros 3 (x y z); simplify; intro H; cases H (X X); clear H;
- [1: cases (bs_cotransitive ??? (fst z) X); [left;left|right;left]assumption;
- |2: cases (bs_cotransitive ??? (snd z) X); [left;right|right;right]assumption;]]
-qed.
-
-definition subset ≝ λO:bishop_set.λP,Q:O→Prop.∀x:O.P x → Q x.
-
-notation "a \subseteq u" left associative with precedence 70
- for @{ 'subset $a $u }.
-interpretation "Bishop subset" 'subset a b = (subset _ a b).
-
-notation < "s 2 \atop \neq" non associative with precedence 90
- for @{ 'square2 $s }.
-notation > "s 'square'" non associative with precedence 90
- for @{ 'square $s }.
-interpretation "bishop set square" 'square x = (square_bishop_set x).
-interpretation "bishop set square" 'square2 x = (square_bishop_set x).
+(* Definition 2.13 *)
+alias symbol "square" = "bishop set square".
+alias symbol "pair" = "pair".
alias symbol "exists" = "exists".
alias symbol "and" = "logical and".
-definition compose_relations ≝
+definition compose_bs_relations ≝
λC:bishop_set.λU,V:C square → Prop.
λx:C square.∃y:C. U 〈fst x,y〉 ∧ V 〈y,snd x〉.
-notation "a \circ b" left associative with precedence 70
- for @{'compose $a $b}.
-interpretation "relations composition" 'compose a b = (compose_relations _ a b).
+definition compose_os_relations ≝
+ λC:ordered_set.λU,V:C square → Prop.
+ λx:C square.∃y:C. U 〈fst x,y〉 ∧ V 〈y,snd x〉.
+
+interpretation "bishop set relations composition" 'compose a b = (compose_bs_relations _ a b).
+interpretation "ordered set relations composition" 'compose a b = (compose_os_relations _ a b).
-definition invert_relation ≝
+definition invert_bs_relation ≝
λC:bishop_set.λU:C square → Prop.
λx:C square. U 〈snd x,fst x〉.
-notation < "s \sup (-1)" left associative with precedence 70
- for @{ 'invert $s }.
-notation < "s \sup (-1) x" left associative with precedence 70
- for @{ 'invert2 $s $x}.
-notation > "'inv'" right associative with precedence 70
- for @{ 'invert0 }.
-interpretation "relation invertion" 'invert a = (invert_relation _ a).
-interpretation "relation invertion" 'invert0 = (invert_relation _).
-interpretation "relation invertion" 'invert2 a x = (invert_relation _ a x).
+notation < "s \sup (-1)" with precedence 70 for @{ 'invert $s }.
+notation < "s \sup (-1) x" with precedence 70
+ for @{ 'invert_appl $s $x}.
+notation > "'inv'" with precedence 70 for @{ 'invert_symbol }.
+interpretation "relation invertion" 'invert a = (invert_bs_relation _ a).
+interpretation "relation invertion" 'invert_symbol = (invert_bs_relation _).
+interpretation "relation invertion" 'invert_appl a x = (invert_bs_relation _ a x).
alias symbol "exists" = "CProp exists".
+alias symbol "compose" = "bishop set relations composition".
alias symbol "and" (instance 21) = "constructive and".
alias symbol "and" (instance 16) = "constructive and".
alias symbol "and" (instance 9) = "constructive and".
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