I would consider using the cereal or blaze-builder packages from Haskell to define your own binary serialisation format, and then writing code to manually unpack it in Python (e.g. using struct). This is likely to be a pain if you have a lot of structures to transfer, but if there's only one or two, then this is likely to be more compact and simpler than finding a binary serialisation format that's well-supported in both languages.
cereal handles both serialisation and deserialisation, but blaze-builder only does serialisation; on the other hand, I think blaze-builder is faster. cereal's primary purpose is serialising something in a format you're not particularly picky about so you can read it back later with Haskell, meaning it uses a type-class extensively, so you have to be careful about using standard serialisations which do undesirable things like serialise arbitrary bignum Integer
s rather than fixed-size integers, while blaze-builder is more about custom formats. Still, it's pretty easy to use cereal with a custom format, and if you want to deserialise the structures from Haskell too, it's the obvious choice.
A quick glance at Hackage shows a well-maintained BSON package; that might be a good option if your structures are complex, but otherwise might be overkill.
I think using JSON for the Python→Haskell transport is probably the best idea; while you lose the nicety of having the same serialisation format being used both ways, JSON is very standard, and well-supported in Haskell by aeson. If you choose BSON for the Haskell→Python route, that could work too.
Other options I can think of:
- There's two confusingly-named bindings for Apache Thrift on Hackage: Thrift and thrift; it seems like the former is being deprecated in favour of the latter. I don't really know anything about Thrift, though, so I can't say whether this would be helpful or not.
- You could embed the Python code within the Haskell process using cpython or MissingPy (though the latter seems to be unmaintained).
- You could use the FFI to export functions from Haskell, and then import them from Python using ctypes.