I am trying to rewrite an environment using autorewrite. For simplicity we can assume it is a list (but in reality the type is more complex, has multiple cons constructors, and rewrite rules use equivalence rather than equality).

The normal form I want to get to is a concatenation of variables or singleton lists, i.e. x1 :: x2 :: xs ++ y :: ys to [x1] ++ [x2] ++ xs ++ [y] ++ ys. So far I had success rewriting other stuff by defining hints for autorewrite. However, the hint forall x xs, xs :: x = xs ++ [x] does not work, since [x] = x : [] which then can be rewritten to [x] ++ [] which gives an endless loop.

I don't have too much experience with writing custom Ltac expressions, but it seems like I would be able to define something like:

Ltac norm_cons :=
  match goal with
  | H: ?X : [] => idtac
  | H: ?X : ?XS => (* actual rewrite *)

This way we catch the [] in the first pattern and skip rewriting, and otherwise perform the rewrite. Maybe this needs a falltrough case, but this is not the point: how do I give (something like) this as a hint to autorewrite? I have tried to define the above as a separate tactic (where maybe I can define normalize as (norm_cons; autorewrite with blablabla).) but it then complains about none of the branches in the match matching to my goal. Does this do a recursive search? Or do I have to add this myself (i.e. matching ?XS ++ ?YS and recursively rewriting the lhs and rhs?)


It seems like you only want to rewrite lists with at least two elements. Perhaps you could rewrite with

forall x y xs, x :: y :: xs = [x] ++ y::xs

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