Proof of Nuprl Lemma : fset-ac-le-distributive

Step * 3 1 1 1 1 1 1 1 of Lemma fset-ac-le-distributive

.....assertion.....
1. T : Type
2. eq : EqDecider(T)
3. a : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
4. b : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
5. c : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
6. fset-ac-le(eq;fset-ac-glb(eq;a;c);fset-ac-glb(eq;a;fset-ac-lub(eq;b;c)))
7. x : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
8. ∀a1:fset(T). (a1 ∈ fset-ac-glb(eq;a;b) ⇒ (¬({y ∈ x | deq-f-subset(eq) y a1} = {} ∈ fset(fset(T)))))
9. ∀a1:fset(T). (a1 ∈ fset-ac-glb(eq;a;c) ⇒ (¬({y ∈ x | deq-f-subset(eq) y a1} = {} ∈ fset(fset(T)))))
10. xx : fset(T)
11. as : fset(T)
12. as ∈ a
13. bs : fset(T)
14. bs ∈ fset-ac-lub(eq;b;c)
15. xx = as ⋃ bs ∈ fset(T)
16. ∀[ys:fset(T)]
      ↑¬_bf-proper-subset-dec(eq;ys;xx)
      supposing ys ∈ f-union(deq-fset(eq);deq-fset(eq);a;as.λbs.as ⋃ bs"(fset-ac-lub(eq;b;c)))
17. {y ∈ x | deq-f-subset(eq) y xx} = {} ∈ fset(fset(T))
18. ∀[ys:fset(T)]. ¬ys ⋃ bs ⊆≠ xx supposing ys ∈ a
19. bs ∈ b
20. ∀[ys:fset(T)]. ¬ys ⊆≠ bs supposing ys ∈ b ⋃ c
21. ¬xx ∈ fset-ac-glb(eq;a;b)
⊢ ↓∃z:fset(T). (z ∈ fset-ac-glb(eq;a;b) ∧ z ⊆≠ xx)
BY
{ (Assert xx ∈ f-union(deq-fset(eq);deq-fset(eq);a;as.λbs.as ⋃ bs"(b)) BY
         ((BLemma `member-f-union` THEN Auto)
          THEN D 0
          THEN (With ⌜as⌝ (D 0)⋅ THEN Auto)
          THEN BLemma `member-fset-image-iff`
          THEN Auto)) }

1
1. T : Type
2. eq : EqDecider(T)
3. a : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
4. b : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
5. c : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
6. fset-ac-le(eq;fset-ac-glb(eq;a;c);fset-ac-glb(eq;a;fset-ac-lub(eq;b;c)))
7. x : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
8. ∀a1:fset(T). (a1 ∈ fset-ac-glb(eq;a;b) ⇒ (¬({y ∈ x | deq-f-subset(eq) y a1} = {} ∈ fset(fset(T)))))
9. ∀a1:fset(T). (a1 ∈ fset-ac-glb(eq;a;c) ⇒ (¬({y ∈ x | deq-f-subset(eq) y a1} = {} ∈ fset(fset(T)))))
10. xx : fset(T)
11. as : fset(T)
12. as ∈ a
13. bs : fset(T)
14. bs ∈ fset-ac-lub(eq;b;c)
15. xx = as ⋃ bs ∈ fset(T)
16. ∀[ys:fset(T)]
      ↑¬_bf-proper-subset-dec(eq;ys;xx)
      supposing ys ∈ f-union(deq-fset(eq);deq-fset(eq);a;as.λbs.as ⋃ bs"(fset-ac-lub(eq;b;c)))
17. {y ∈ x | deq-f-subset(eq) y xx} = {} ∈ fset(fset(T))
18. ∀[ys:fset(T)]. ¬ys ⋃ bs ⊆≠ xx supposing ys ∈ a
19. bs ∈ b
20. ∀[ys:fset(T)]. ¬ys ⊆≠ bs supposing ys ∈ b ⋃ c
21. ¬xx ∈ fset-ac-glb(eq;a;b)
22. xx ∈ f-union(deq-fset(eq);deq-fset(eq);a;as.λbs.as ⋃ bs"(b))
⊢ ↓∃z:fset(T). (z ∈ fset-ac-glb(eq;a;b) ∧ z ⊆≠ xx)

Latex:

Latex:
.....assertion..... 1. T : Type 2. eq : EqDecider(T) 3. a : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 4. b : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 5. c : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 6. fset-ac-le(eq;fset-ac-glb(eq;a;c);fset-ac-glb(eq;a;fset-ac-lub(eq;b;c))) 7. x : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 8. \mforall{}a1:fset(T). (a1 \mmember{} fset-ac-glb(eq;a;b) {}\mRightarrow{} (\mneg{}(\{y \mmember{} x | deq-f-subset(eq) y a1\} = \{\}))) 9. \mforall{}a1:fset(T). (a1 \mmember{} fset-ac-glb(eq;a;c) {}\mRightarrow{} (\mneg{}(\{y \mmember{} x | deq-f-subset(eq) y a1\} = \{\}))) 10. xx : fset(T) 11. as : fset(T) 12. as \mmember{} a 13. bs : fset(T) 14. bs \mmember{} fset-ac-lub(eq;b;c) 15. xx = as \mcup{} bs 16. \mforall{}[ys:fset(T)] \muparrow{}\mneg{}\msubb{}f-proper-subset-dec(eq;ys;xx) supposing ys \mmember{} f-union(deq-fset(eq);deq-fset(eq);a;as.\mlambda{}bs.as \mcup{} bs"(fset-ac-lub(eq;b;c))) 17. \{y \mmember{} x | deq-f-subset(eq) y xx\} = \{\} 18. \mforall{}[ys:fset(T)]. \mneg{}ys \mcup{} bs \msubseteq{}\mneq{} xx supposing ys \mmember{} a 19. bs \mmember{} b 20. \mforall{}[ys:fset(T)]. \mneg{}ys \msubseteq{}\mneq{} bs supposing ys \mmember{} b \mcup{} c 21. \mneg{}xx \mmember{} fset-ac-glb(eq;a;b) \mvdash{} \mdownarrow{}\mexists{}z:fset(T). (z \mmember{} fset-ac-glb(eq;a;b) \mwedge{} z \msubseteq{}\mneq{} xx) By Latex: (Assert xx \mmember{} f-union(deq-fset(eq);deq-fset(eq);a;as.\mlambda{}bs.as \mcup{} bs"(b)) BY ((BLemma `member-f-union` THEN Auto) THEN D 0 THEN (With \mkleeneopen{}as\mkleeneclose{} (D 0)\mcdot{} THEN Auto) THEN BLemma `member-fset-image-iff` THEN Auto)) Home Index