Tiny example of building a intermediate language that JIT compiles Haskell DSL into x86-64 machine code.
The factorial function can be written in assembly, taking the input value in
%rcx
and computing the resulting value in %rax
.
.global main
main:
mov rcx, 5
mov rax, 1
.factor:
mul rcx
loop .factor
ret
In our Haskell logic we compose these operations inside of the X86
monad.
factorial :: Int64 -> X86 ()
factorial n = do
mov rcx (I n)
mov rax (I 1)
l1 <- label
mul rcx
loop l1
ret
The resulting logic can be JIT compiled inside of Haskell and invoked from inside the Haskell runtime by calling out to the JIT'd memory.
main :: IO ()
main = do
let jitsize = 256*1024
mem <- allocateMemory jitsize
let jitm = assemble mem (factorial 5)
case jitm of
Left err -> putStrLn err
Right jitst -> do
let machCode = _mach jitst
fn <- jit mem machCode
res <- fn
putStrLn $ "Result: " <> show res
The machine code is generated.
48 c7 c1 05 00 00 00 48 c7 c0 01 00 00 00 48 f7 e1 e2 fc c3
And executed to yield the result:
Result: 120
Released under the MIT License. Copyright (c) 2016, Stephen Diehl