I'm curious how to optimize this code :
fun n = (sum l, f $ f0 l, g $ g0 l) where l = map h [1..n]
h are all costly, but the creation and storage of
l is extremely expensive.
l is stored until the returned tuple is fully evaluated or garbage collected. Instead,
f0 l, and
g0 l should all be executed whenever any one of them is executed, but
g should be delayed.
It appears this behavior could be fixed by writing :
fun n = a `seq` b `seq` c `seq` (a, f b, g c) where l = map h [1..n] a = sum l b = inline f0 $ l c = inline g0 $ l
Or the very similar :
fun n = (a,b,c) `deepSeq` (a, f b, g c) where ...
We could perhaps specify a bunch of internal types to achieve the same effects as well, which looks painful. Are there any other options?
Also, I'm obviously hoping with my
inlines that the compiler fuses
g0 into a single loop that constructs and consumes
l term by term. I could make this explicit through manual inlining, but that'd suck. Are there ways to explicitly prevent the list
l from ever being created and/or compel inlining? Pragmas that produce warnings or errors if inlining or fusion fail during compilation perhaps?
As an aside, I'm curious about why
lazy, etc. are all defined to by
let x = x in x in the Prelude. Is this simply to give them a definition for the compiler to override?