Proof of Nuprl Lemma : C_LVALUE-proper-Index

Step * of Lemma C_LVALUE-proper-Index

∀env:C_TYPE_env(). ∀lval:C_LVALUE().
  ((↑LV_Index?(lval))
  ⇒ (↑C_LVALUE-proper(env;lval))
  ⇒ let lval' = LV_Index-lval(lval) in
      let i = LV_Index-idx(lval) in
      let typ = outl(C_TYPE-of-LVALUE(env;lval')) in
      (↑C_LVALUE-proper(env;lval')) ∧ (↑C_Array?(typ)) ∧ (0 ≤ i) ∧ i < C_Array-length(typ))
BY
{ ((D 0 THENA Auto)
   THEN BLemma `C_LVALUE-induction`
   THEN RepUR ``let`` 0
   THEN Auto
   THEN OnMaybeHyp 6 (\h. ((RepUR ``C_LVALUE-proper C_TYPE-of-LVALUE`` h
                            THEN Fold `C_TYPE-of-LVALUE` h
                            THEN Fold `C_LVALUE-proper` h)
                           THEN RepeatFor 3 ((SplitOnHypITE h  THEN Auto))
                           ))) }

Latex:

Latex:
\mforall{}env:C\_TYPE\_env(). \mforall{}lval:C\_LVALUE(). ((\muparrow{}LV\_Index?(lval)) {}\mRightarrow{} (\muparrow{}C\_LVALUE-proper(env;lval)) {}\mRightarrow{} let lval' = LV\_Index-lval(lval) in let i = LV\_Index-idx(lval) in let typ = outl(C\_TYPE-of-LVALUE(env;lval')) in (\muparrow{}C\_LVALUE-proper(env;lval')) \mwedge{} (\muparrow{}C\_Array?(typ)) \mwedge{} (0 \mleq{} i) \mwedge{} i < C\_Array-length(typ)) By Latex: ((D 0 THENA Auto) THEN BLemma `C\_LVALUE-induction` THEN RepUR ``let`` 0 THEN Auto THEN OnMaybeHyp 6 (\mbackslash{}h. ((RepUR ``C\_LVALUE-proper C\_TYPE-of-LVALUE`` h THEN Fold `C\_TYPE-of-LVALUE` h THEN Fold `C\_LVALUE-proper` h) THEN RepeatFor 3 ((SplitOnHypITE h THEN Auto)) ))) Home Index