Proof of Nuprl Lemma : sqle-list

Step * 2 of Lemma sqle-list_ind

1. F : Base
2. strict1(λx.F[x])
3. G : Base
4. strict1(λx.G[x])
5. H : Base
6. J : Base
7. ∀x,y,r1,r2:Base.  ((F[r1] ≤ G[r2]) ⇒ (F[H[x;y;r1]] ≤ G[J[x;y;r2]]))
8. as : Base@i
9. b1 : Base@i
10. b2 : Base@i
11. F[b1] ≤ G[b2]
12. ∀j:ℕ. ∀as,b1,b2:Base.
      ((F[b1] ≤ G[b2])
      ⇒ (F[λlist_ind,L. eval v = L in
                         if v is a pair then let h,t = v

                                             in H[h;t;list_ind t] otherwise if v = Ax then b1 otherwise ⊥^j

            ⊥
            as] ≤ G[λlist_ind,L. eval v = L in
                                 if v is a pair then let h,t = v

                                                     in J[h;t;list_ind t] otherwise if v = Ax then b2 otherwise ⊥^j

                    ⊥
                    as]))
⊢ F[rec-case(as) of
    [] => b1
    h::t =>
     r.H[h;t;r]] ≤ G[rec-case(as) of
                     [] => b2
                     h::t =>
                      r.J[h;t;r]]
BY
{ (RW (AddrC [1;2] UnfoldTopAbC) 0
   THEN OneFixpointLeast⋅
   THEN (InstHyp [⌜j⌝;⌜as⌝;⌜b1⌝;⌜b2⌝] (-2)⋅ THENA Auto)
   THEN SqLeTrans (-1)
   THEN Try (Trivial)
   THEN SqLeCD
   THEN Try (SqLeCD)
   THEN All Thin
   THEN Unfold `list_ind` 0
   THEN NatInd (-1)
   THEN Reduce 0
   THEN Strictness
   THEN Auto) }

Latex:

Latex:
1. F : Base 2. strict1(\mlambda{}x.F[x]) 3. G : Base 4. strict1(\mlambda{}x.G[x]) 5. H : Base 6. J : Base 7. \mforall{}x,y,r1,r2:Base. ((F[r1] \mleq{} G[r2]) {}\mRightarrow{} (F[H[x;y;r1]] \mleq{} G[J[x;y;r2]])) 8. as : Base@i 9. b1 : Base@i 10. b2 : Base@i 11. F[b1] \mleq{} G[b2] 12. \mforall{}j:\mBbbN{}. \mforall{}as,b1,b2:Base. ((F[b1] \mleq{} G[b2]) {}\mRightarrow{} (F[\mlambda{}list$_{ind}$,L. eval v = L in if v is a pair then let h,t = v in H[h;t;list$_{ind}$ t] otherwise if v = Ax then b1 otherwise \mbot{}\^{}j \mbot{} as] \mleq{} G[\mlambda{}list$_{ind}$,L. eval v = L in if v is a pair then let h,t = v in J[h;t;list$_{ind}$ t] otherwise if v = Ax then b2 otherwise \mbot{}\^{}j \mbot{} as])) \mvdash{} F[rec-case(as) of [] => b1 h::t => r.H[h;t;r]] \mleq{} G[rec-case(as) of [] => b2 h::t => r.J[h;t;r]] By Latex: (RW (AddrC [1;2] UnfoldTopAbC) 0 THEN OneFixpointLeast\mcdot{} THEN (InstHyp [\mkleeneopen{}j\mkleeneclose{};\mkleeneopen{}as\mkleeneclose{};\mkleeneopen{}b1\mkleeneclose{};\mkleeneopen{}b2\mkleeneclose{}] (-2)\mcdot{} THENA Auto) THEN SqLeTrans (-1) THEN Try (Trivial) THEN SqLeCD THEN Try (SqLeCD) THEN All Thin THEN Unfold `list\_ind` 0 THEN NatInd (-1) THEN Reduce 0 THEN Strictness THEN Auto) Home Index