Proof of Nuprl Lemma : evalall-sqequal

Step * 1 1 of Lemma evalall-sqequal

1. F : Base
2. (λevalall,t. eval x = t in
                if x is a pair then let a,b = x
                                    in eval a' = evalall a in
                                       eval b' = evalall b in

                                         <a', b'> otherwise if x is inl then eval y = evalall outl(x) in

                                                                             inl y

                                                            else if x is inr then eval y = evalall outr(x) in

                                                                                  inr y

                                                                 else x)

= F
∈ Base
3. j : ℤ
4. 0 < j
5. ∀x:Base. ((F^j - 1 ⊥ x)↓ ⇒ ((fix(F) x)↓ ∧ (fix(F) x ~ x)))
6. x : Base
7. (F^j ⊥ x)↓
⊢ (fix(F) x)↓ ∧ (fix(F) x ~ x)
BY
{ (Assert (F (F^j - 1 ⊥) x)↓ BY

         ((InstLemma `fun_exp_unroll_1` [⌜j⌝;⌜F⌝]⋅ THENA Auto) THEN RWO "-1" (-2) THEN Reduce (-2) THEN Auto)) }

1
1. F : Base
2. (λevalall,t. eval x = t in
                if x is a pair then let a,b = x
                                    in eval a' = evalall a in
                                       eval b' = evalall b in

                                         <a', b'> otherwise if x is inl then eval y = evalall outl(x) in

                                                                             inl y

                                                            else if x is inr then eval y = evalall outr(x) in

                                                                                  inr y

                                                                 else x)

= F
∈ Base
3. j : ℤ
4. 0 < j
5. ∀x:Base. ((F^j - 1 ⊥ x)↓ ⇒ ((fix(F) x)↓ ∧ (fix(F) x ~ x)))
6. x : Base
7. (F^j ⊥ x)↓
8. (F (F^j - 1 ⊥) x)↓
⊢ (fix(F) x)↓ ∧ (fix(F) x ~ x)

Latex:

Latex:
1. F : Base 2. (\mlambda{}evalall,t. eval x = t in if x is a pair then let a,b = x in eval a' = evalall a in eval b' = evalall b in <a', b'> otherwise if x is inl then eval y = evalall outl(x) in inl y else if x is inr then eval y = evalall outr(x) in inr y else x) = F 3. j : \mBbbZ{} 4. 0 < j 5. \mforall{}x:Base. ((F\^{}j - 1 \mbot{} x)\mdownarrow{} {}\mRightarrow{} ((fix(F) x)\mdownarrow{} \mwedge{} (fix(F) x \msim{} x))) 6. x : Base 7. (F\^{}j \mbot{} x)\mdownarrow{} \mvdash{} (fix(F) x)\mdownarrow{} \mwedge{} (fix(F) x \msim{} x) By Latex: (Assert (F (F\^{}j - 1 \mbot{}) x)\mdownarrow{} BY ((InstLemma `fun\_exp\_unroll\_1` [\mkleeneopen{}j\mkleeneclose{};\mkleeneopen{}F\mkleeneclose{}]\mcdot{} THENA Auto) THEN RWO "-1" (-2) THEN Reduce (-2) THEN Auto)) Home Index