# `seq` on partially applied functions

Lets say I have the following:

``````f :: a -> b -> c
g :: b -> c
g = f 10
``````

Now lets say `f` is actually:

``````f x y = f1 x + y
``````

Would:

``````g `seq` ...
``````

actually evaluate `f1 10`, so later when running

``````g 9
``````

it's actually just a simple addition?

If not, is there a way to "evaluate" parts of a partially applied function?

I'm looking for a generic solution, one that doesn't depend on knowing how `f` and `g` work.

-

`seq` is shallow:

``````Prelude> let f1 = undefined
Prelude> let f = \x -> \y -> f1 x + y
Prelude> let g = f 10
Prelude> g `seq` 1
1
Prelude> g 9
*** Exception: Prelude.undefined
Prelude>
``````

I'd take a look at `Control.DeepSeq`: http://hackage.haskell.org/packages/archive/deepseq/1.2.0.1/doc/html/Control-DeepSeq.html

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I doesn't look like I can apply `deepseq` to functions. –  Clinton Apr 16 '12 at 8:35
No, it looks like it only applies to data structures that take DeepSeq into account. Not a solution to your problem as stated. –  Deestan Apr 16 '12 at 8:54

No, it will not, because in general, the choice of right hand side for `f` might depend on `y`. If you want to share the result of `f1 x` between calls to `g`, you would have to write `f` like this:

``````f x = let z = f1 x in \y -> z + y
``````

Of course, due to laziness this will not evaluate `f1 x` until the first time `g` is called. To have `g `seq` ...` force evaluation of `f1 x`, you would have to write:

``````f x = let z = f1 x in z `seq` (\y -> z + y)
``````
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