I have a small test framework. It executes a loop which does the following:
Generate a small Haskell source file.
Execute this with
runhaskell. The program generates various disk files.
Process the disk files just generated.
This happens a few dozen times. It turns out that
runhaskell is taking up the vast majority of the program's execution time.
On one hand, the fact that
runhaskell manages to load a file from disk, tokenise it, parse it, do dependency analysis, load 20KB more text from disk, tokenise and parse all of this, perform complete type inference, check types, desugar to Core, link against compiled machine code, and execute the thing in an interpreter, all inside of 2 seconds of wall time, is actually pretty damned impressive when you think about it. On the other hand, I still want to make it go faster. ;-)
Compiling the tester (the program that runs the above loop) produced a tiny performance difference. Compiling the 20KB of library code that the scripts link against produced a rather more noticeable improvement. But it's still taking about 1 second per invocation of
The generated Haskell files are just over 1KB each, but only one part of the file actually changes. Perhaps compiling the file and using GHC's
-e switch would be faster?
Alternatively, maybe it's the overhead of repeatedly creating and destroying many OS processes which is slowing this down? Every invocation of
runhaskell presumably causes the OS to explore the system search path, locate the necessary binary file, load it into memory (surely this is already in the disk cache?), link it against whatever DLLs, and fire it up. Is there some way I can (easily) keep one instance of GHC running, rather than having to constantly create and destroy the OS process?
Ultimately, I suppose there's always the GHC API. But as I understand it, that's nightmarishly difficult to use, highly undocumented, and prone to radical changes at every minor point release of GHC. The task I'm trying to perform is only very simple, so I don't really want to make things more complex than necessary.
Update: Switching to
GHC -e (i.e., now everything is compiled except the one expression being executed) made no measurable performance difference. It seems pretty clear at this point that it's all OS overhead. I'm wondering if I could maybe create a pipe from the tester to GHCi and thus make use of just one OS process...