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Instead, look through expandable unfoldings in `cprTransform`. See the new Note [CPR for expandable unfoldings]: ``` Long static data structures (whether top-level or not) like xs = x1 : xs1 xs1 = x2 : xs2 xs2 = x3 : xs3 should not get CPR signatures, because they * Never get WW'd, so their CPR signature should be irrelevant after analysis (in fact the signature might even be harmful for that reason) * Would need to be inlined/expanded to see their constructed product * Recording CPR on them blows up interface file sizes and is redundant with their unfolding. In case of Nested CPR, this blow-up can be quadratic! But we can't just stop giving DataCon application bindings the CPR property, for example fac 0 = 1 fac n = n * fac (n-1) fac certainly has the CPR property and should be WW'd! But FloatOut will transform the first clause to lvl = 1 fac 0 = lvl If lvl doesn't have the CPR property, fac won't either. But lvl doesn't have a CPR signature to extrapolate into a CPR transformer ('cprTransform'). So instead we keep on cprAnal'ing through *expandable* unfoldings for these arity 0 bindings via 'cprExpandUnfolding_maybe'. In practice, GHC generates a lot of (nested) TyCon and KindRep bindings, one for each data declaration. It's wasteful to attach CPR signatures to each of them (and intractable in case of Nested CPR). ``` Fixes #18154.
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