Yes, the polymorphic type signature means it's being recomputed at each stage. The core produced by ghc-7.4.2 with `-O2`

:

```
lvl_rcZ :: GHC.Integer.Type.Integer
[GblId, Str=DmdType]
lvl_rcZ = __integer 1
Rec {
PolyFib.fib [Occ=LoopBreaker]
:: forall a_a9W. GHC.Num.Num a_a9W => [a_a9W]
[GblId, Arity=1, Str=DmdType L]
PolyFib.fib =
\ (@ a_aal) ($dNum_aam :: GHC.Num.Num a_aal) ->
GHC.Types.:
@ a_aal
(GHC.Num.fromInteger @ a_aal $dNum_aam lvl_rcZ)
(GHC.Types.:
@ a_aal
(GHC.Num.fromInteger @ a_aal $dNum_aam lvl_rcZ)
(GHC.List.zipWith
@ a_aal
@ a_aal
@ a_aal
(GHC.Num.+ @ a_aal $dNum_aam)
(PolyFib.fib @ a_aal $dNum_aam)
(case PolyFib.fib @ a_aal $dNum_aam of _ {
[] -> GHC.List.tail1 @ a_aal;
: _ xs_abD -> xs_abD
})))
end Rec }
```

The reason is that it's not feasible to cache a list of Fibonacci numbers for each type belonging to `Num`

, and `fib`

is explicitly a polymorphic value, hence it doesn't get cached at all.

If you want to cache it at least for the computation at each type, use a local list

```
pfibs :: Num a => [a]
pfibs = res
where
res = 1 : 1 : zipWith (+) res (tail res)
```

does the caching for each computation (so `pfibs !! 500`

e.g. is fast) since now the list is monomorphic in each computation. It will still be recomputed for each query (unless you bind it to a monomorphic name), but not for each single list element.

```
*PolyFib> pfibs !! 999999 :: Int
-4249520595888827205
(0.31 secs, 137462088 bytes)
```