Proof of Nuprl Lemma : KozenSilva-lemma

Step * 1 1 of Lemma KozenSilva-lemma

1. r : CRng
2. x : Atom
3. y : Atom
4. h : PowerSeries(r)
5. n : ℕ
6. m : ℕ
7. n ≤ m
8. ¬(x = y ∈ Atom)
⊢ fps-ucont(Atom;AtomDeq;r;f.[([f]_n(y:=1)*Δ(x,y))]_m)
BY

{ xxx(InstLemma `fps-ucont-composition` [⌜Atom⌝;⌜AtomDeq⌝;⌜r⌝;⌜λ₂f.[f]_m⌝;⌜λ₂f.([f]_n(y:=1)*Δ(x,y))⌝]⋅

      THEN Auto
      THEN Try ((BLemma `fps-slice-ucont` THEN Auto))
      THEN RepUR ``compose so_apply so_lambda`` (-1)
      THEN Auto)⋅xxx }

1
.....antecedent.....
1. r : CRng
2. x : Atom
3. y : Atom
4. h : PowerSeries(r)
5. n : ℕ
6. m : ℕ
7. n ≤ m
8. ¬(x = y ∈ Atom)
⊢ fps-ucont(Atom;AtomDeq;r;f.([f]_n(y:=1)*Δ(x,y)))

Latex:

Latex:
1. r : CRng 2. x : Atom 3. y : Atom 4. h : PowerSeries(r) 5. n : \mBbbN{} 6. m : \mBbbN{} 7. n \mleq{} m 8. \mneg{}(x = y) \mvdash{} fps-ucont(Atom;AtomDeq;r;f.[([f]\_n(y:=1)*\mDelta{}(x,y))]\_m) By Latex: xxx(InstLemma `fps-ucont-composition` [\mkleeneopen{}Atom\mkleeneclose{};\mkleeneopen{}AtomDeq\mkleeneclose{};\mkleeneopen{}r\mkleeneclose{};\mkleeneopen{}\mlambda{}\msubtwo{}f.[f]\_m\mkleeneclose{};\mkleeneopen{}\mlambda{}\msubtwo{}f.([f]\_n(y:=1)*\mDelta{}(x,y))\mkleeneclose{}]\mcdot{} THEN Auto THEN Try ((BLemma `fps-slice-ucont` THEN Auto)) THEN RepUR ``compose so\_apply so\_lambda`` (-1) THEN Auto)\mcdot{}xxx Home Index