1

Continuing my work on Software Foundations, I've reached the weak_pumping lemma. I managed to get through almost everything, but I can't find a solution for MStarApp case.

Here's the Lemma:

  s =~ re ->
  pumping_constant re <= length s ->
  exists s1 s2 s3,
    s = s1 ++ s2 ++ s3 /\
    s2 <> [] /\
    forall m, s1 ++ napp m s2 ++ s3 =~ re.

(** You are to fill in the proof. Several of the lemmas about
    [le] that were in an optional exercise earlier in this chapter
    may be useful. *)
Proof.
  intros T re s Hmatch.
  induction Hmatch
    as [ | x | s1 re1 s2 re2 Hmatch1 IH1 Hmatch2 IH2
       | s1 re1 re2 Hmatch IH | re1 s2 re2 Hmatch IH
       | re | s1 s2 re Hmatch1 IH1 Hmatch2 IH2 ].

I've managed to solve every case, except for the last one. Here's the current state:

1 subgoal (ID 918)
  
  T : Type
  s1, s2 : list T
  re : reg_exp T
  Hmatch1 : s1 =~ re
  Hmatch2 : s2 =~ Star re
  IH1 : pumping_constant re <= length s1 ->
        exists s2 s3 s4 : list T,
          s1 = s2 ++ s3 ++ s4 /\
          s3 <> [ ] /\ (forall m : nat, s2 ++ napp m s3 ++ s4 =~ re)
  IH2 : pumping_constant (Star re) <= length s2 ->
        exists s1 s3 s4 : list T,
          s2 = s1 ++ s3 ++ s4 /\
          s3 <> [ ] /\ (forall m : nat, s1 ++ napp m s3 ++ s4 =~ Star re)
  H : pumping_constant (Star re) <= length s1 + length s2
  ============================
  exists s0 s4 s5 : list T,
    s1 ++ s2 = s0 ++ s4 ++ s5 /\
    s4 <> [ ] /\ (forall m : nat, s0 ++ napp m s4 ++ s5 =~ Star re)

It looks to me that if I can find a way to split H into pumping_constant re <= length s1 \/ pumping_constant (Star re) <= length s2 then I have a way forward (by splitting H into H1 and H2 and applying the relevant IHk to the matching Hk then proceeding with a destruct, three exists, and so on).

But I can't find a lemma that allows me to split H as suggested.

Is there anything else I can do here?

Thanks

3
  • 1
    I haven't thought about your specific problem, but note that it is not true in general that a <= b + c implies a <= b \/ a <= c. For example, 3 <= 2 + 1. Either there is some fact about your specific case that you can use to reach that conclusion, or you need to think of a different strategy. Try to prove the result with pen and paper if your problem is being unsure about the direction of the proof and not how to implement a proof you already know will work.
    – ana-borges
    Oct 10 at 15:26
  • What is pumping constant for Star? Isn't it zero?
    – Andrey
    Oct 10 at 21:18
  • unfortunately not, pumping_constant for any RE is at least 1. Oct 11 at 6:49
1

Try to destruct s1 and look again on lemma napp_star in one of cases.

9
  • this helped a little, still missing some detail. Thanks :-) Oct 12 at 7:00
  • Try to see that in zero-case you can use IH. And in non-zero case you need napp_star. Or you can try to describe what is your question now.
    – Andrey
    Oct 12 at 12:30
  • Right, Andrey. I can see that I need that. The problem I have now is that I can't apply napp_star because I don't have hypothesis for the current lists. I'll try to explain a little better. I have these hypothesis in context: Hmatch1 : x :: s1' =~ re, Hmatch2 : [ ] =~ Star re, but the goal is: s2'' ++ napp m s3'' ++ s4'' =~ Star re. When I try napp_star, I get the expected "unable to unify" error. Oct 13 at 7:17
  • Perhaps my "exists" are incorrect :-) I'll keep trying :-) Oct 13 at 7:17
  • It looks to me like you have destructed s2 also. becuase you have [] ~= Star re. it works for me if I destruct s1 only.
    – Andrey
    Oct 13 at 7:29

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