Proof of Nuprl Lemma : hdf-compose1-ap

Step * of Lemma hdf-compose1-ap

∀[A,B,C:Type]. ∀[X:hdataflow(A;B)]. ∀[f:B ⟶ C]. ∀[a:A].
  f o X(a) ~ <f o (fst(X(a))), bag-map(f;snd(X(a)))> supposing valueall-type(C)
BY
{ (Auto
   THEN RepUR ``hdf-compose1 hdf-ap`` 0⋅
   THEN RW (AddrC [1] (RecUnfoldC `mk-hdf`)) 0
   THEN (Reduce 0
         THEN Fold `hdf-ap` 0
         THEN Repeat (AutoSplit)
         THEN HDataflowHDAll
         THEN Try (Complete ((RecUnfold `mk-hdf` 0 THEN Reduce 0 THEN Auto)))
         THEN (CallByValueReduceAtAddr [1;1] 0 THENA Auto)
         THEN Reduce 0
         THEN Auto)⋅) }

Latex:

Latex:
\mforall{}[A,B,C:Type]. \mforall{}[X:hdataflow(A;B)]. \mforall{}[f:B {}\mrightarrow{} C]. \mforall{}[a:A]. f o X(a) \msim{} <f o (fst(X(a))), bag-map(f;snd(X(a)))> supposing valueall-type(C) By Latex: (Auto THEN RepUR ``hdf-compose1 hdf-ap`` 0\mcdot{} THEN RW (AddrC [1] (RecUnfoldC `mk-hdf`)) 0 THEN (Reduce 0 THEN Fold `hdf-ap` 0 THEN Repeat (AutoSplit) THEN HDataflowHDAll THEN Try (Complete ((RecUnfold `mk-hdf` 0 THEN Reduce 0 THEN Auto))) THEN (CallByValueReduceAtAddr [1;1] 0 THENA Auto) THEN Reduce 0 THEN Auto)\mcdot{}) Home Index