For "big" codecs, the Scala phase typer takes forever (we're talking minutes) when creating a codec directly from HLists and applying .dropUnits

( ignore(6) ::
  uint(2) ::
  uint(30) ::
  int(4) ::
  int(8) ::
  uint(10) ::
  bool(1) ::
  int(28) ::
  int(27) ::
  uint(12) ::
  uint(9) ::
  uint(6) ::
  int(2) ::
  ignore(3) ::
  bool(1) ::

And it seems to be way faster to create a codec with ~, and then applying .hlist like such:

( ignore(6) ~
  uint(2) ~

But this doesn't seem work.

Could not prove that this.Out can be converted to/from reports.SomeBigCaseClass.

The simplest solution I've found, which is good enough for me is omitting Unit values inline.

( (ignore(6) dropLeft 
   uint(2)) :: 

For codecs with many ignores, this feature would be highly welcome. What am I doing wrong? Am I totally missing the point of .hlist?

  • It seems that .hlist only wraps the codec in a HList, and that's ok, but that doesn't really solve the issue of the slow phase typer when .dropUnits on a sized HList is invoked. – kareblak Jan 23 '15 at 14:44
  • And also, since ~> takes precedence over ::, the parantheses surrounding the .dropLeft statement can be ommitted when using the ~> – kareblak Jan 28 '15 at 9:27
up vote 1 down vote accepted

The hlist combinator converts a Codec[A] in to a Codec[A :: HNil]. This is typically used with other combinators, like flatZip, which require an HList based codec.

Repeated use of the ~ operator creates a left-associated Tuple2 based structure. For example, int8 ~ bool ~ int8 has type Codec[((Int, Boolean), Int)]. The latest scodec snapshot, 1.7.0-SNAPSHOT (though not 1.7.0-RC1), has the flattenLeftPairs method, which converts a left associated tuple codec to an equivalent HList codec.

A future version of scodec will have a combinator like ~ but rather than nesting Tuple2 instances, it will create TupleN instances. For example: int8 ~~ bool ~~ int8 would have type Codec[(Int, Boolean, Int)]. This has not been integrated yet though. This has both a performance advantage, by reducing the number of tuples allocated, as well as a convenience advantage, because it allows binding to case classes via widenOpt(SomeBigCaseClass.apply, SomeBigCaseClass.unapply).

Finally, the observed compiler performance problem with dropUnits is indeed a problem with the way that combinator is defined. This has been fixed in scodec-core 1.7.0-SNAPSHOT (not 1.7.0-RC1 though). See

  • Yes, it was rather unobservant of me to fail to the type signature of the .hlist before posting the questing. Thanks for the clarifications on the performance issue! - And massive thanks for a great job on the lib, btw. – kareblak Jan 28 '15 at 9:24

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.