Proof of Nuprl Lemma : pRun-invariant2

Step * 1 1 1 1 of Lemma pRun-invariant2

1. [M] : Type ─→ Type
2. Continuous+(P.M[P])
3. n2m : ℕ ─→ pMsg(P.M[P])@i
4. l2m : Id ─→ pMsg(P.M[P])@i
5. S0 : System(P.M[P])@i
6. env : pEnvType(P.M[P])@i
7. r : fulpRunType(P.M[P])@i
8. pRun(S0;env;n2m;l2m) = r ∈ fulpRunType(P.M[P])@i
9. r ∈ pRunType(P.M[P])
10. ∀e:runEvents(r)
      sub-mset(Process(P.M[P]); map(λP.(fst(Process-apply(P;run-event-msg(r;e))));run-prior-state(S0;r;e));
               run-event-state(r;e))@i
11. t : ℤ@i
12. \\%5 : 0 < t@i
13. ∀e1,e2:runEvents(r).
      ((run-event-loc(e1) = run-event-loc(e2) ∈ Id)
      ⇒ (run-event-step(e1) ≤ run-event-step(e2))
      ⇒ run-event-step(e2) < t - 1
      ⇒ (∀P:Process(P.M[P])
            ((P ∈ run-prior-state(S0;r;e1))
            ⇒ (iterate-Process(P;map(λe.run-event-msg(r;e);run-event-interval(r;e1;e2))) ∈ run-event-state(r;e2)))))@i
14. e1 : runEvents(r)@i
15. e2 : runEvents(r)@i
16. run-event-loc(e1) = run-event-loc(e2) ∈ Id@i
17. run-event-step(e1) ≤ run-event-step(e2)@i
18. run-event-step(e2) < t@i
19. P : Process(P.M[P])@i
20. (P ∈ run-prior-state(S0;r;e1))@i
21. run-prior-state(S0;r;e2) = run-prior-state(S0;r;e1) ∈ (Process(P.M[P]) List)
22. run-event-interval(r;e1;e2) = [e2] ∈ (runEvents(r) List)
⊢ (iterate-Process(P;map(λe.run-event-msg(r;e);[e2]))
    ∈ map(λP.(fst(Process-apply(P;run-event-msg(r;e2))));run-prior-state(S0;r;e2)))
BY
{ (RepUR ``iterate-Process`` 0⋅
   THEN Unfold `dataflow-ap` 0
   THEN Fold `Process-apply` 0
   THEN (BLemma `member_map` THENM Reduce 0)
   THEN Auto
   THEN With ⌈P⌉ (D 0)⋅
   THEN Auto)⋅ }

Latex:

Latex:
1. [M] : Type {}\mrightarrow{} Type 2. Continuous+(P.M[P]) 3. n2m : \mBbbN{} {}\mrightarrow{} pMsg(P.M[P])@i 4. l2m : Id {}\mrightarrow{} pMsg(P.M[P])@i 5. S0 : System(P.M[P])@i 6. env : pEnvType(P.M[P])@i 7. r : fulpRunType(P.M[P])@i 8. pRun(S0;env;n2m;l2m) = r@i 9. r \mmember{} pRunType(P.M[P]) 10. \mforall{}e:runEvents(r) sub-mset(Process(P.M[P]); map(\mlambda{}P.(fst(Process-apply(P;run-event-msg(r;e)))); run-prior-state(S0;r;e)); run-event-state(r;e))@i 11. t : \mBbbZ{}@i 12. \mbackslash{}\mbackslash{}\%5 : 0 < t@i 13. \mforall{}e1,e2:runEvents(r). ((run-event-loc(e1) = run-event-loc(e2)) {}\mRightarrow{} (run-event-step(e1) \mleq{} run-event-step(e2)) {}\mRightarrow{} run-event-step(e2) < t - 1 {}\mRightarrow{} (\mforall{}P:Process(P.M[P]) ((P \mmember{} run-prior-state(S0;r;e1)) {}\mRightarrow{} (iterate-Process(P;map(\mlambda{}e.run-event-msg(r;e);run-event-interval(r;e1;e2))) \mmember{} run-event-state(r;e2)))))@i 14. e1 : runEvents(r)@i 15. e2 : runEvents(r)@i 16. run-event-loc(e1) = run-event-loc(e2)@i 17. run-event-step(e1) \mleq{} run-event-step(e2)@i 18. run-event-step(e2) < t@i 19. P : Process(P.M[P])@i 20. (P \mmember{} run-prior-state(S0;r;e1))@i 21. run-prior-state(S0;r;e2) = run-prior-state(S0;r;e1) 22. run-event-interval(r;e1;e2) = [e2] \mvdash{} (iterate-Process(P;map(\mlambda{}e.run-event-msg(r;e);[e2])) \mmember{} map(\mlambda{}P.(fst(Process-apply(P;run-event-msg(r;e2))));run-prior-state(S0;r;e2))) By Latex: (RepUR ``iterate-Process`` 0\mcdot{} THEN Unfold `dataflow-ap` 0 THEN Fold `Process-apply` 0 THEN (BLemma `member\_map` THENM Reduce 0) THEN Auto THEN With \mkleeneopen{}P\mkleeneclose{} (D 0)\mcdot{} THEN Auto)\mcdot{} Home Index