I've been struggling with low-level manual loop optimization in GHC. My program contains some loops that perform numerical computation. The real data is wrapped in other data structures, and the program is broken down into "looping control flow functions" and "computation functions" in such a way that some data structure fields end up being read inside inner loops. I want GHC to move those reads out of the inner loops. Here's a simplified version of the code, to show what's going on.
data D = D !Double !C data C = C Double -- This function is called in every loop iteration. -- Parameter 'c' is loop-invariant. exampleLoopBody i a c = case c of C b -> a + b * fromIntegral i -- The body of this function is a counted loop that should be optimized foo x = case x of D acc0 c -> let loop i acc = if i > 100 then acc else loop (i+1) (exampleLoopBody i acc c) in loop 0 acc0
Every loop iteration evaluates
case c of C b, but that is redundant computation because
c is loop-invariant. I can make GHC lift it out by putting a redundant case expression outside the loop:
foo x = case x of D acc0 c -> case c -- This case statement inserted for optimization purposes of C b -> b `seq` -- It will read 'b' outside of the loop let loop i acc = if i > 100 then acc else loop (i+1) (exampleLoopBody i acc c) in loop 0 acc0
The compiler inlines
exampleLoopBody. Afterward, the inner case statement is redundant and gets eliminated:
foo x = case x of D acc0 c -> case c of C b -> b `seq` let loop i acc = if i > 100 then acc else loop (i+1) (acc + b * fromIntegral i) -- The inlined case expression disappears in loop 0 acc0
The purpose of
seq is to ensure that the case expression is not dead code. The
seq checks whether
_|_. GHC notices that, since
b has been computed, it is useful to reuse that value in the loop body.
Now, here is the problem: I really want all the relevant data fields to be strict. If I insert strictness annotations in the data definition, like this,
data C = C !Double
case c of C b have no effect as far as GHC is concerned. GHC deletes them, and I get this:
foo x = case x of D acc0 c -> let loop i acc = if i > 100 then acc else loop (i+1) (case c of C b -> acc + b * fromIntegral i) -- Evaluate the case in every iteration in loop 0 acc0
This code evaluates
case c of C b in every iteration, which is just what I was trying to avoid.
If I can't rely on
seq, I don't know how else to force
b to be computed outside the loop body. Is there some trick I can use in this case?