Fusion does kick in here.

Given the following program:

```
import Data.Vector
import Prelude hiding (zip)
zipMe :: [a] -> Vector b -> Vector (a, b)
zipMe xs ys = zip (fromList xs) ys
```

the following Core is generated:

```
Foo.$wzipMe
:: forall a_auS b_auT.
[a_auS]
-> GHC.Prim.Int#
-> GHC.Prim.Int#
-> GHC.Prim.Array# b_auT
-> Data.Vector.Vector (a_auS, b_auT)
[GblId,
Arity=4,
Str=DmdType LLLL,
Unf=Unf{Src=<vanilla>, TopLvl=True, Arity=4, Value=True,
ConLike=True, Cheap=True, Expandable=True,
Guidance=IF_ARGS [0 0 0 0] 302 0}]
Foo.$wzipMe =
\ (@ a_auS)
(@ b_auT)
(w_sW7 :: [a_auS])
(ww_sWa :: GHC.Prim.Int#)
(ww1_sWb :: GHC.Prim.Int#)
(ww2_sWc :: GHC.Prim.Array# b_auT) ->
GHC.ST.runSTRep
@ (Data.Vector.Vector (a_auS, b_auT))
(\ (@ s_aBU) (s_aBV :: GHC.Prim.State# s_aBU) ->
case GHC.Prim.newArray#
@ (a_auS, b_auT)
@ (Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
ww1_sWb
(Data.Vector.Mutable.uninitialised @ (a_auS, b_auT))
(s_aBV
`cast` (GHC.Prim.State#
(Sym (Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>))
:: GHC.Prim.State# (Control.Monad.Primitive.R:PrimStateST s_aBU)
~
GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))))
of _ { (# s'#_aSF, arr#_aSG #) ->
letrec {
$s$wa_sX0 [Occ=LoopBreaker]
:: GHC.Prim.Int#
-> [a_auS]
-> GHC.Prim.Int#
-> GHC.Prim.State# (Control.Monad.Primitive.R:PrimStateST s_aBU)
-> (# GHC.Prim.State# s_aBU, GHC.Types.Int #)
[LclId, Arity=4, Str=DmdType LLLL]
$s$wa_sX0 =
\ (sc_sWB :: GHC.Prim.Int#)
(sc1_sWC :: [a_auS])
(sc2_sWD :: GHC.Prim.Int#)
(sc3_sWE
:: GHC.Prim.State#
(Control.Monad.Primitive.R:PrimStateST s_aBU)) ->
case sc1_sWC of _ {
[] -> (# sc3_sWE, GHC.Types.I# sc_sWB #);
: x_aGx xs1_aGy ->
case GHC.Prim.indexArray#
@ b_auT ww2_sWc (GHC.Prim.+# ww_sWa sc2_sWD)
of _ { (# x1_sWp #) ->
case GHC.Prim.>=# sc2_sWD ww1_sWb of _ {
GHC.Types.False ->
$s$wa_sX0
(GHC.Prim.+# sc_sWB 1)
xs1_aGy
(GHC.Prim.+# sc2_sWD 1)
((GHC.Prim.writeArray#
@ (Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
@ (a_auS, b_auT)
arr#_aSG
sc_sWB
(x_aGx, x1_sWp)
(sc3_sWE
`cast` (GHC.Prim.State#
(Sym (Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>))
:: GHC.Prim.State#
(Control.Monad.Primitive.R:PrimStateST s_aBU)
~
GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU)))))
`cast` (GHC.Prim.State#
(Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>)
:: GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
~
GHC.Prim.State#
(Control.Monad.Primitive.R:PrimStateST s_aBU)));
GHC.Types.True -> (# sc3_sWE, GHC.Types.I# sc_sWB #)
}
}
}; } in
case $s$wa_sX0
0
w_sW7
0
(s'#_aSF
`cast` (GHC.Prim.State#
(Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>)
:: GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
~
GHC.Prim.State# (Control.Monad.Primitive.R:PrimStateST s_aBU)))
of _ { (# new_s1_aDv, r1_aDw #) ->
case r1_aDw of _ { GHC.Types.I# tpl1_aU1 ->
case GHC.Prim.unsafeFreezeArray#
@ (Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
@ (a_auS, b_auT)
arr#_aSG
(new_s1_aDv
`cast` (GHC.Prim.State#
(Sym (Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>))
:: GHC.Prim.State# (Control.Monad.Primitive.R:PrimStateST s_aBU)
~
GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))))
of _ { (# s'#1_aV8, arr'#_aV9 #) ->
(# s'#1_aV8
`cast` (GHC.Prim.State#
(Control.Monad.Primitive.TFCo:R:PrimStateST <s_aBU>)
:: GHC.Prim.State#
(Control.Monad.Primitive.PrimState (GHC.ST.ST s_aBU))
~
GHC.Prim.State# (Control.Monad.Primitive.R:PrimStateST s_aBU)),
Data.Vector.Vector @ (a_auS, b_auT) 0 tpl1_aU1 arr'#_aV9 #)
}
}
}
})
```

which does only one allocation, and fuses those loops. (I believe it takes advantage of the fact that the length of the zipped vector is at most the length of the initial `Vector`

, and allocates a vector that large initially.)

`Data.Vector.Storable.toList`

inlines to something that has a rewrite rule, and`zipWith`

has a rewrite rule, but I didn't look closely enough to see whether those rewrite rules work together to result in fusion. It seems plausible to my (relatively inexperienced) mind. – dave4420 Feb 10 '12 at 16:21