Proof of Nuprl Lemma : sq-decider-list-deq

Step * 1 1 1 1 2 of Lemma sq-decider-list-deq

1. eq : Base
2. sq-decider(eq)
3. j : ℤ
4. 0 < j
5. ∀x,y:Base.
((λlist_ind,L. eval v = L in
if v is a pair then let a,as' = v

                                        in λL.(fix((λlist_ind@0,L. eval v = L in

                                                                   if v is a pair then let b,bs' = v

                                                                                       in (eq a b) ∧_b (list_ind as' bs')

                                                                   otherwise if v = Ax then ff otherwise ⊥))

                                               L) otherwise if v = Ax then λL.null(L) otherwise ⊥^j - 1

       ⊥
       x
       y)↓
     ⇒ (∀z:Base. ((list-deq(eq) x y ~ inl z) ⇒ (Ax ∈ x ~ y))))
6. x : Base
7. y : Base
8. (if x = Ax then λL.null(L) otherwise ⊥ y)↓
9. z : Base
10. list-deq(eq) x y ~ inl z
11. (x)↓
12. ∀a,b:Top.  (if x is a pair then a otherwise b ~ b)
⊢ x ~ y
BY
{ HVimplies2(-5) [1;1] }

1
1. eq : Base
2. sq-decider(eq)
3. j : ℤ
4. 0 < j
5. ∀x,y:Base.
     ((λlist_ind,L. eval v = L in
                    if v is a pair then let a,as' = v

                                        in λL.(fix((λlist_ind@0,L. eval v = L in

                                                                   if v is a pair then let b,bs' = v

                                                                                       in (eq a b) ∧_b (list_ind as' bs')

                                                                   otherwise if v = Ax then ff otherwise ⊥))

                                               L) otherwise if v = Ax then λL.null(L) otherwise ⊥^j - 1

       ⊥
       x
       y)↓
     ⇒ (∀z:Base. ((list-deq(eq) x y ~ inl z) ⇒ (Ax ∈ x ~ y))))
6. x : Base
7. y : Base
8. (null(y))↓
9. z : Base
10. list-deq(eq) Ax y ~ inl z
11. 0 ≤ 0
12. ∀a,b:Top.  (b ~ b)
13. x ~ Ax
⊢ Ax ~ y

2
1. eq : Base
2. sq-decider(eq)
3. j : ℤ
4. 0 < j
5. ∀x,y:Base.
     ((λlist_ind,L. eval v = L in
                    if v is a pair then let a,as' = v

                                        in λL.(fix((λlist_ind@0,L. eval v = L in

                                                                   if v is a pair then let b,bs' = v

                                                                                       in (eq a b) ∧_b (list_ind as' bs')

                                                                   otherwise if v = Ax then ff otherwise ⊥))

                                               L) otherwise if v = Ax then λL.null(L) otherwise ⊥^j - 1

       ⊥
       x
       y)↓
     ⇒ (∀z:Base. ((list-deq(eq) x y ~ inl z) ⇒ (Ax ∈ x ~ y))))
6. x : Base
7. y : Base
8. (⊥ y)↓
9. z : Base
10. list-deq(eq) x y ~ inl z
11. (x)↓
12. ∀a,b:Top.  (if x is a pair then a otherwise b ~ b)
13. ∀a,b:Top.  (if x = Ax then a otherwise b ~ b)
⊢ x ~ y

Latex:

Latex:
1. eq : Base 2. sq-decider(eq) 3. j : \mBbbZ{} 4. 0 < j 5. \mforall{}x,y:Base. ((\mlambda{}list$_{ind}$,L. eval v = L in if v is a pair then let a,as' = v in \mlambda{}L.(fix((\mlambda{}list$_{ind@0}$,L. eval v = L\000C in if v is a pair then let b,bs' = v in (eq a b) \mwedge{}\msubb{} (list\mbackslash{}ff2\000C4_{ind}$ as' bs') otherwise if v = Ax then ff otherwise \mbot{})) L) otherwise if v = Ax then \mlambda{}L.null(L) otherwise \mbot{}\^{}j -\000C 1 \mbot{} x y)\mdownarrow{} {}\mRightarrow{} (\mforall{}z:Base. ((list-deq(eq) x y \msim{} inl z) {}\mRightarrow{} (Ax \mmember{} x \msim{} y)))) 6. x : Base 7. y : Base 8. (if x = Ax then \mlambda{}L.null(L) otherwise \mbot{} y)\mdownarrow{} 9. z : Base 10. list-deq(eq) x y \msim{} inl z 11. (x)\mdownarrow{} 12. \mforall{}a,b:Top. (if x is a pair then a otherwise b \msim{} b) \mvdash{} x \msim{} y By Latex: HVimplies2(-5) [1;1] Home Index