For top level declarations, it's not too hard. Local definitions can be harder to recognize as their names get mangled and they are likely to get inlined.
Let's see what happens when we compile this simple module.
module Example where
add :: Int -> Int -> Int
add x y = x + y
.type Example_add_closure, @object
.type Example_add_info, @object
.type __stginit_Example_, @object
.type __stginit_Example, @object
.ident "GHC 7.0.2"
You can see that our function
Example.add resulted in the generation of
_closure part, as the name suggests, has to do with closures. The
_info part contains the actual instructions of the function. In this case, this is simply a jump to the built-in function
Note that assembly generated from Haskell code looks quite different from what you might get from other languages. The calling conventions are different, and things can get reordered a lot.
In most cases you don't want to jump straight to assembly. It is usually much easier to understand core, a simplified version of Haskell. (Simpler to compile, not necessarily to read). To get at the core, compile with the
Example.add :: GHC.Types.Int -> GHC.Types.Int -> GHC.Types.Int
\ (x_abt :: GHC.Types.Int) (y_abu :: GHC.Types.Int) ->
GHC.Num.+ @ GHC.Types.Int GHC.Num.$fNumInt x_abt y_abu
For some good resources on how to read core, see this question.