Personal tools

GHC optimisations

From HaskellWiki

(Difference between revisions)
Jump to: navigation, search
(Initial version; still working on this...)

Revision as of 10:31, 11 August 2007


1 Introduction

This page collects together information about the optimisations that GHC does and does not perform.

  • GHC experts: Please check that the info in this page is correct.
  • Everybody else: Feel free to add questions!

2 General optimisations

2.1 Common subexpression elimination

First of all, common subexpression elemination (CSE) means that if an expression appears in several places, the code is rearranged so that the value of that expression is computed only once. For example:

  foo x = (bar x) * (bar x)

might be transformed into

  foo x = let x' = bar x in x' * x'
thus, the
function is only called once. (And if
is a particularly expensive function, this might save quite a lot of work.)

GHC doesn't actually perform CSE as often as you might expect. The trouble is, performing CSE can affect the strictness/lazyness of the program. So GHC does do CSE, but only in specific circumstances --- see the GHC manual. (Section??)

Long story short: "If you care about CSE, do it by hand."

2.2 Inlining

Inlining is where a function call is replaced by that function's definition. For example, the standard
function can be defined as
  map :: (a -> b) -> [a] -> [b]
  map f [] = []
  map f (x:xs) = f x : map f xs

Now if you write something like

  foo = map bar
it's possible that the compiler might inline the definition of
, yielding something like
  foo [] = []
  foo (x:xs) = bar x : foo xs
which is (hopefully!) faster, because it doesn't involve a call to the
function any more, it just does the work directly. (This might also expose new optimisations opportunities;
works for any types, whereas
probably works for only one type.)

So, that's what inlining is. By default, GHC will inline things if they are 'small enough'. Every time you inline a function, you are in a sense making a (customised) copy of that function. Do too much of this and the compiled program will be enormous. So it's only worth it for 'small' functions.

(How does GHC determine 'small'? Isn't there a switch that adjusts this?)