Proof of Nuprl Lemma : rec-process

Step * of Lemma rec-process_wf

∀[S,M,E:Type ⟶ Type].
(∀[s0:S[process(P.M[P];P.E[P])]]. ∀[next:⋂T:{T:Type| process(P.M[P];P.E[P]) ⊆r T}

                                             (S[M[T] ⟶ (T × E[T])] ⟶ M[T] ⟶ (S[T] × E[T]))].

     (RecProcess(s0;s,m.next[s;m]) ∈ process(P.M[P];P.E[P]))) supposing
     (Continuous+(T.E[T]) and
     Continuous+(T.M[T]) and
     Continuous+(T.S[T]))
BY
{ WithCumulativity((Auto
                    THEN Unfolds ``rec-process process`` 0
                    THEN Using [`A',⌜S⌝] (BLemma `fix_wf_corec_parameter3`)⋅
                    THEN Try (Complete (Auto)))) }

Latex:

Latex:
\mforall{}[S,M,E:Type {}\mrightarrow{} Type]. (\mforall{}[s0:S[process(P.M[P];P.E[P])]]. \mforall{}[next:\mcap{}T:\{T:Type| process(P.M[P];P.E[P]) \msubseteq{}r T\} (S[M[T] {}\mrightarrow{} (T \mtimes{} E[T])] {}\mrightarrow{} M[T] {}\mrightarrow{} (S[T] \mtimes{} E[T]))]. (RecProcess(s0;s,m.next[s;m]) \mmember{} process(P.M[P];P.E[P]))) supposing (Continuous+(T.E[T]) and Continuous+(T.M[T]) and Continuous+(T.S[T])) By Latex: WithCumulativity((Auto THEN Unfolds ``rec-process process`` 0 THEN Using [`A',\mkleeneopen{}S\mkleeneclose{}] (BLemma `fix\_wf\_corec\_parameter3`)\mcdot{} THEN Try (Complete (Auto)))) Home Index