Proof of Nuprl Lemma : evalall-int

Step * 1 of Lemma evalall-int

1. x : ℤ
⊢ 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
= x
∈ ℤ
BY
{ ((Assert ⌜(x)↓⌝⋅ THENA (Unfold `has-value` 0 THEN Refine_callbyvalueInt THEN Auto))
   THEN Repeat (HVimplies 0 [2])
   THEN (Assert ⌜False⌝⋅ THEN Auto)
   THEN (Assert ⌜isint(x) ~ tt⌝⋅ THENA (Reduce 0 THEN Auto))
   THEN HypSubst (-2) (-1)
   THEN Reduce (-1)
   THEN InstLemma `not-btrue-sqeq-bfalse` []
   THEN Auto)⋅ }

Latex:

Latex:
1. x : \mBbbZ{} \mvdash{} 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 = x By Latex: ((Assert \mkleeneopen{}(x)\mdownarrow{}\mkleeneclose{}\mcdot{} THENA (Unfold `has-value` 0 THEN Refine\_callbyvalueInt THEN Auto)) THEN Repeat (HVimplies 0 [2]) THEN (Assert \mkleeneopen{}False\mkleeneclose{}\mcdot{} THEN Auto) THEN (Assert \mkleeneopen{}isint(x) \msim{} tt\mkleeneclose{}\mcdot{} THENA (Reduce 0 THEN Auto)) THEN HypSubst (-2) (-1) THEN Reduce (-1) THEN InstLemma `not-btrue-sqeq-bfalse` [] THEN Auto)\mcdot{} Home Index