Inspired by this StackOverflow question, I'd like to ask the community about the best practice regarding
Binary. When I noticed that my large list of
Hyperedges (a simple algebraic data structure) would not be streamed but rather loaded at once, I wrote the
myPut functions that use chunks of 10000 elements. As stated in the answers to said StackOverflow question, my implementation does not work with Binary >= 0.5. (I missed that.)
However, what I also noticed was that while loading
Int32 in their type parameters, a lot of
Word64s got allocated only to be converted later. That was a massive space leak. I "fixed" it applying
get as early as possible, as you can see. I would have preferred a more refined approach, maybe with
Strategy, but then again, I could not use the
Binary typeclass any more because the strategy would have to be an additional parameter.
Summary: right now, it is a mess. Can you offer "best practice" advice?
instance (NFData v, NFData l, NFData i, B.Binary v, B.Binary l, B.Binary i, Ord v) => B.Binary (Hyperedge v l i) where put e = do B.put (to e) B.put (from e) B.put (label e) B.put (ident e) -- get = mkHyperedge <$> B.get <*> B.get <*> B.get <*> B.get get = do x1 <- B.get x2 <- x1 `deepseq` B.get x3 <- x2 `deepseq` B.get x4 <- x3 `deepseq` B.get x4 `deepseq` return (mkHyperedge x1 x2 x3 x4) myGet :: (NFData v, NFData l, NFData i, B.Binary v, B.Binary l, B.Binary i, Ord v) => B.Get [Hyperedge v l i] myGet = do es1 <- B.get if null es1 then return  else do es2 <- myGet return (es1 ++ es2) myPut :: (NFData v, NFData l, NFData i, B.Binary v, B.Binary l, B.Binary i, Ord v) => [Hyperedge v l i] -> B.Put myPut es@ = B.put es -- ( :: [Hyperedge v l i]) myPut es = do B.put (take 10000 es) myPut (drop 10000 es)