I'm asking this question in hopes of refining the answer that Simon Marlow gave to a previous question about
INLINABLE, linked here:
I realize that this is almost a duplicate of that question, except that Simon Marlow didn't answer the key question that matters the most to many library authors: is it safe from a purely performance perspective to just add
INLINABLE pragmas to everything?
As far as I can tell, the only disadvantages are:
Slower compile times
Larger interface files (i.e.
But what I really want to know is whether code will ever run slower as a result of adding
INLINABLE pragmas? In other words, can an
INLINABLE pragma ever cause GHC to choose a less optimal optimization?
The reason I ask is that many library authors, myself included, don't care about the size of interface files and we don't observe a significant slowdown in compilation when adding
INLINABLE pragmas, so it's tempting to just reflexively add them everywhere, since there seems to be no cost to doing so.
Conversely, the cost of leaving them out is that when modules get very large
ghc starts selectively omitting some functions from the interface file to save space, which does result in worse optimizations sometimes, and it is very difficult to predict at what point this will occur and which functions it will omit.
I've personally never witnessed a function running slower as a result of an
INLINABLE annotation, but that could be entirely due to luck. If there are cases where
INLINABLE slows things down, I'd like to know why it does so that I can reason better about when to add the pragma rather than tediously benchmarking every permutation of compiler pragmas.