The bug tracker lists bugs that have been reported in GHC but not yet fixed: see the GHC Trac. In addition to those, GHC also has the following known bugs or infelicities. These bugs are more permanent; it is unlikely that any of them will be fixed in the short term.
GHC can warn about non-exhaustive or overlapping patterns (see Section 4.8, “Warnings and sanity-checking”), and usually does so correctly. But not always. It gets confused by string patterns, and by guards, and can then emit bogus warnings. The entire overlap-check code needs an overhaul really.
GHC does not allow you to have a data type with a context that mentions type variables that are not data type parameters. For example:
data C a b => T a = MkT a
MkT's type is
MkT :: forall a b. C a b => a -> T a
In principle, with a suitable class declaration with a functional dependency, it's possible that this type is not ambiguous; but GHC nevertheless rejects it. The type variables mentioned in the context of the data type declaration must be among the type parameters of the data type.
GHC's inliner can be persuaded into non-termination using the standard way to encode recursion via a data type:
data U = MkU (U -> Bool) russel :: U -> Bool russel u@(MkU p) = not $ p u x :: Bool x = russel (MkU russel)
We have never found another class of programs, other than this contrived one, that makes GHC diverge, and fixing the problem would impose an extra overhead on every compilation. So the bug remains un-fixed. There is more background in Secrets of the GHC inliner.
GHC does not keep careful track of
what instance declarations are 'in scope' if they come from other packages.
Instead, all instance declarations that GHC has seen in other
packages are all in scope everywhere, whether or not the
module from that package is used by the command-line
expression. This bug affects only the
--make mode and
GHCi does not respect the
declaration in the module whose scope you are in. Instead,
for expressions typed at the command line, you always get the
default default-type behaviour; that is,
It would be better for GHCi to record what the default settings in each module are, and use those of the 'current' module (whatever that is).
On Windows, there's a GNU ld/BFD bug whereby it emits bogus PE object files that have more than 0xffff relocations. When GHCi tries to load a package affected by this bug, you get an error message of the form
Loading package javavm ... linking ... WARNING: Overflown relocation field (# relocs found: 30765)
The last time we looked, this bug still wasn't fixed in the BFD codebase, and there wasn't any noticeable interest in fixing it when we reported the bug back in 2001 or so.
The workaround is to split up the .o files that make up your package into two or more .o's, along the lines of how the "base" package does it.