Proof of Nuprl Lemma : fset-ac-glb-is-glb

Step * 3 1 1 1 of Lemma fset-ac-glb-is-glb

1. T : Type
2. eq : EqDecider(T)
3. ac1 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
4. ac2 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
5. fset-ac-le(eq;fset-ac-glb(eq;ac1;ac2);ac2)
6. ac3 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
7. ∀a:fset(T). (a ∈ ac3 ⇒ (¬({y ∈ ac1 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
8. ∀a:fset(T). (a ∈ ac3 ⇒ (¬({y ∈ ac2 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
9. x : fset(T)
10. x ∈ ac3

11. {y ∈ f-union(deq-fset(eq);deq-fset(eq);ac1;as.λbs.as ⋃ bs"(ac2)) | deq-f-subset(eq) y x} = {} ∈ fset(fset(T))

12. a : fset(T)
13. a ∈ {y ∈ ac1 | deq-f-subset(eq) y x}
14. a ∈ ac1
15. a ⊆ x
⊢ False
BY
{ ((FHyp 8 [10] THENA Auto)
   THEN D -1
   THEN Using [`eq',⌜deq-fset(eq)⌝] (BLemma `fset-extensionality`)⋅
   THEN Reduce 0
   THEN Auto
   THEN (FLemma `member-fset-filter` [-1] THENA Auto)
   THEN D -1
   THEN Reduce (-1)
   THEN (RW assert_pushdownC (-1) THENA Auto)) }

1
1. T : Type
2. eq : EqDecider(T)
3. ac1 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
4. ac2 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
5. fset-ac-le(eq;fset-ac-glb(eq;ac1;ac2);ac2)
6. ac3 : {ac:fset(fset(T))| ↑fset-antichain(eq;ac)}
7. ∀a:fset(T). (a ∈ ac3 ⇒ (¬({y ∈ ac1 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
8. ∀a:fset(T). (a ∈ ac3 ⇒ (¬({y ∈ ac2 | deq-f-subset(eq) y a} = {} ∈ fset(fset(T)))))
9. x : fset(T)
10. x ∈ ac3

11. {y ∈ f-union(deq-fset(eq);deq-fset(eq);ac1;as.λbs.as ⋃ bs"(ac2)) | deq-f-subset(eq) y x} = {} ∈ fset(fset(T))

12. a : fset(T)
13. a ∈ {y ∈ ac1 | deq-f-subset(eq) y x}
14. a ∈ ac1
15. a ⊆ x
16. a1 : fset(T)
17. a1 ∈ {y ∈ ac2 | deq-f-subset(eq) y x}
18. a1 ∈ ac2
19. a1 ⊆ x
⊢ False

Latex:

Latex:
1. T : Type 2. eq : EqDecider(T) 3. ac1 : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 4. ac2 : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 5. fset-ac-le(eq;fset-ac-glb(eq;ac1;ac2);ac2) 6. ac3 : \{ac:fset(fset(T))| \muparrow{}fset-antichain(eq;ac)\} 7. \mforall{}a:fset(T). (a \mmember{} ac3 {}\mRightarrow{} (\mneg{}(\{y \mmember{} ac1 | deq-f-subset(eq) y a\} = \{\}))) 8. \mforall{}a:fset(T). (a \mmember{} ac3 {}\mRightarrow{} (\mneg{}(\{y \mmember{} ac2 | deq-f-subset(eq) y a\} = \{\}))) 9. x : fset(T) 10. x \mmember{} ac3 11. \{y \mmember{} f-union(deq-fset(eq);deq-fset(eq);ac1;as.\mlambda{}bs.as \mcup{} bs"(ac2)) | deq-f-subset(eq) y x\} = \{\} 12. a : fset(T) 13. a \mmember{} \{y \mmember{} ac1 | deq-f-subset(eq) y x\} 14. a \mmember{} ac1 15. a \msubseteq{} x \mvdash{} False By Latex: ((FHyp 8 [10] THENA Auto) THEN D -1 THEN Using [`eq',\mkleeneopen{}deq-fset(eq)\mkleeneclose{}] (BLemma `fset-extensionality`)\mcdot{} THEN Reduce 0 THEN Auto THEN (FLemma `member-fset-filter` [-1] THENA Auto) THEN D -1 THEN Reduce (-1) THEN (RW assert\_pushdownC (-1) THENA Auto)) Home Index