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==================== Tidy Core ====================
Result size of Tidy Core = {terms: 29, types: 15, coercions: 0, joins: 0/0}
-- RHS size: {terms: 2, types: 0, coercions: 0, joins: 0/0}
F0.f1 :: Int
[GblId, Unf=Unf{Src=<vanilla>, TopLvl=True, Value=True, ConLike=True, WorkFree=True, Expandable=True, Guidance=IF_ARGS [] 10 10}]
F0.f1 = GHC.Types.I# 1#
-- RHS size: {terms: 25, types: 10, coercions: 0, joins: 0/0}
f0 :: Int -> Int -> Int -> Int
[GblId,
Arity=3,
Str=<S,1*U(U)><L,1*U(U)><L,1*U(U)>,
Cpr=m1,
Unf=Unf{Src=InlineStable, TopLvl=True, Value=True, ConLike=True, WorkFree=True, Expandable=True, Guidance=ALWAYS_IF(arity=3,unsat_ok=True,boring_ok=False)
Tmpl= \ (x [Occ=Once1!] :: Int) (y [Occ=Once1!] :: Int) (eta [Occ=Once1!] :: Int) ->
case x of { GHC.Types.I# x1 ->
case GHC.Prim.># x1 0# of {
__DEFAULT -> F0.f1;
1# -> case y of { GHC.Types.I# y1 [Occ=Once1] -> case eta of { GHC.Types.I# y2 [Occ=Once1] -> GHC.Types.I# (GHC.Prim.+# (GHC.Prim.+# x1 y1) y2) } }
}
}}]
f0
= \ (x :: Int) (y :: Int) (eta :: Int) ->
case x of { GHC.Types.I# x1 ->
case GHC.Prim.># x1 0# of {
__DEFAULT -> F0.f1;
1# -> case y of { GHC.Types.I# y1 -> case eta of { GHC.Types.I# y2 -> GHC.Types.I# (GHC.Prim.+# (GHC.Prim.+# x1 y1) y2) } }
}
}
|