The following function definition is accepted by Isabelle, so the termination checker is happy with it:

datatype 'a List = N | C 'a "'a List"

fun dequeue' :: "'a List × 'a List ⇒ ('a option × 'a queue)" where
  "dequeue' (N, N) = (None, AQueue N N)"
 |"dequeue' (xs, C y ys) = (Some y, AQueue xs ys)"
 |"dequeue' (xs, N) = dequeue' (N, reverse xs)"

This seemingly equivalent definition, using a custom, but isomorphic data type instead of a pair, is rejected:

fun dequeue :: "'a queue ⇒ ('a option × 'a queue)" where
  "dequeue (AQueue N N) = (None, AQueue N N)"
 |"dequeue (AQueue xs (C y ys)) = (Some y, AQueue xs ys)"
 |"dequeue (AQueue xs N) = dequeue (AQueue N (reverse xs))"

Why is that? Is there some special setup for pairs here, and if so, can I extend that setup to my custom data type? Should maybe datatype do that automatically?


I might be able to answer that myself. After digging through some code, I found this in HOL/Fun_Def.thy:

lemma measure_fst[measure_function]: "is_measure f ⟹ is_measure (λp. f (fst p))"
by (rule is_measure_trivial)
lemma measure_snd[measure_function]: "is_measure f ⟹ is_measure (λp. f (snd p))"
by (rule is_measure_trivial)

and indeed by duplicating that setup using

datatype 'a queue = AQueue (young: "'a List") (old: "'a List")

lemma [measure_function]: "is_measure f ⟹ is_measure (f ∘ young)" ..

The second function definition in the code above goes through as well.


Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.