Proof of Nuprl Lemma : fpf-union-compatible-property

Step * of Lemma fpf-union-compatible-property

∀[T,V:Type].
  ∀eq:EqDecider(T)
    ∀[X:T ⟶ Type]
      ∀R:(V List) ⟶ V ⟶ 𝔹
        (∀A,B,C:t:T fp-> X[t] List.
           (fpf-union-compatible(T;V;t.X[t];eq;R;A;B)
           ⇒ fpf-union-compatible(T;V;t.X[t];eq;R;C;A)
           ⇒ fpf-union-compatible(T;V;t.X[t];eq;R;C;B)
           ⇒ fpf-union-compatible(T;V;t.X[t];eq;R;C;fpf-union-join(eq;R;A;B)))) supposing

           ((∀L1,L2:V List. ∀x:V.  (↑(R (L1 @ L2) x)) supposing ((↑(R L2 x)) and (↑(R L1 x)))) and

           (∀L1,L2:V List. ∀x:V.  (L1 ⊆ L2 ⇒ ↑(R L1 x) supposing ↑(R L2 x))))
      supposing ∀t:T. (X[t] ⊆r V)
BY
{ (Auto
   THEN All (Unfold `fpf-union-compatible`)
   THEN (D 0 THENA Auto)
   THEN (Assert X[t] ⊆r V BY
               Auto)
   THEN RepeatFor 2 (Auto)
   THEN Try ((DoSubsume THEN Auto))
   THEN MoveToConcl (-1)
   THEN (((RWO "fpf-union-join-dom" (-3) THENA Auto)
          THEN (RWO "fpf-union-join-ap" (0) THENA Auto)
          THEN RepUR ``fpf-cap fpf-union`` 0)
         THEN AutoBoolCase ⌜t ∈ dom(A)⌝⋅
         THEN AutoBoolCase ⌜t ∈ dom(B)⌝⋅
         THEN Try ((SplitOrHyps ⋅ THEN Complete (Auto)))
         THEN RepeatFor 2 (Auto)⋅)⋅) }

1
1. [T] : Type
2. [V] : Type
3. eq : EqDecider(T)@i
4. [X] : T ⟶ Type
5. ∀t:T. (X[t] ⊆r V)
6. R : (V List) ⟶ V ⟶ 𝔹@i
7. ∀L1,L2:V List. ∀x:V.  (L1 ⊆ L2 ⇒ ↑(R L1 x) supposing ↑(R L2 x))
8. ∀L1,L2:V List. ∀x:V.  (↑(R (L1 @ L2) x)) supposing ((↑(R L2 x)) and (↑(R L1 x)))
9. A : t:T fp-> X[t] List@i
10. B : t:T fp-> X[t] List@i
11. C : t:T fp-> X[t] List@i
12. ∀t:T
      ((↑t ∈ dom(B))
      ⇒ (↑t ∈ dom(A))
      ⇒ (∀a:V
            ((((a ∈ B(t)) ∧ (¬↑(R A(t) a))) ∨ ((a ∈ A(t)) ∧ (¬↑(R B(t) a))))
            ⇒ (∃a':X[t]. ((a' = a ∈ V) ∧ (a' ∈ A(t)) ∧ (a' ∈ B(t)))))))@i
13. ∀t:T
      ((↑t ∈ dom(A))
      ⇒ (↑t ∈ dom(C))
      ⇒ (∀a:V
            ((((a ∈ A(t)) ∧ (¬↑(R C(t) a))) ∨ ((a ∈ C(t)) ∧ (¬↑(R A(t) a))))
            ⇒ (∃a':X[t]. ((a' = a ∈ V) ∧ (a' ∈ C(t)) ∧ (a' ∈ A(t)))))))@i
14. ∀t:T
      ((↑t ∈ dom(B))
      ⇒ (↑t ∈ dom(C))
      ⇒ (∀a:V
            ((((a ∈ B(t)) ∧ (¬↑(R C(t) a))) ∨ ((a ∈ C(t)) ∧ (¬↑(R B(t) a))))
            ⇒ (∃a':X[t]. ((a' = a ∈ V) ∧ (a' ∈ C(t)) ∧ (a' ∈ B(t)))))))@i
15. t : T@i
16. X[t] ⊆r V
17. (↑t ∈ dom(A)) ∨ (↑t ∈ dom(B))
18. ↑t ∈ dom(C)@i
19. a : V@i
20. ↑t ∈ dom(A)
21. ↑t ∈ dom(B)

22. ((a ∈ A(t) @ filter(R A(t);B(t))) ∧ (¬↑(R C(t) a))) ∨ ((a ∈ C(t)) ∧ (¬↑(R (A(t) @ filter(R A(t);B(t))) a)))@i

⊢ ∃a':X[t]. ((a' = a ∈ V) ∧ (a' ∈ C(t)) ∧ (a' ∈ A(t) @ filter(R A(t);B(t))))

Latex:

Latex:
\mforall{}[T,V:Type]. \mforall{}eq:EqDecider(T) \mforall{}[X:T {}\mrightarrow{} Type] \mforall{}R:(V List) {}\mrightarrow{} V {}\mrightarrow{} \mBbbB{} (\mforall{}A,B,C:t:T fp-> X[t] List. (fpf-union-compatible(T;V;t.X[t];eq;R;A;B) {}\mRightarrow{} fpf-union-compatible(T;V;t.X[t];eq;R;C;A) {}\mRightarrow{} fpf-union-compatible(T;V;t.X[t];eq;R;C;B) {}\mRightarrow{} fpf-union-compatible(T;V;t.X[t];eq;R;C;fpf-union-join(eq;R;A;B)))) supposing ((\mforall{}L1,L2:V List. \mforall{}x:V. (\muparrow{}(R (L1 @ L2) x)) supposing ((\muparrow{}(R L2 x)) and (\muparrow{}(R L1 x)))) and (\mforall{}L1,L2:V List. \mforall{}x:V. (L1 \msubseteq{} L2 {}\mRightarrow{} \muparrow{}(R L1 x) supposing \muparrow{}(R L2 x)))) supposing \mforall{}t:T. (X[t] \msubseteq{}r V) By Latex: (Auto THEN All (Unfold `fpf-union-compatible`) THEN (D 0 THENA Auto) THEN (Assert X[t] \msubseteq{}r V BY Auto) THEN RepeatFor 2 (Auto) THEN Try ((DoSubsume THEN Auto)) THEN MoveToConcl (-1) THEN (((RWO "fpf-union-join-dom" (-3) THENA Auto) THEN (RWO "fpf-union-join-ap" (0) THENA Auto) THEN RepUR ``fpf-cap fpf-union`` 0) THEN AutoBoolCase \mkleeneopen{}t \mmember{} dom(A)\mkleeneclose{}\mcdot{} THEN AutoBoolCase \mkleeneopen{}t \mmember{} dom(B)\mkleeneclose{}\mcdot{} THEN Try ((SplitOrHyps \mcdot{} THEN Complete (Auto))) THEN RepeatFor 2 (Auto)\mcdot{})\mcdot{}) Home Index