I fixed it!
As I expected, it was a combination of two really silly, really easy to fix, errors.
1. In the line of the error, I was trying to give it a type annotation to make it easier for the type checker, but I forgot to replace the type variable "uv" with the actual type I want it to be using: "UnifVariable".
2. When I fixed this, I got the actual error that was producing this: It was not finding the instance I was expecting it to find. The reason is that I have two types "UnifSystem" and "FullUnifSystem", the latter of which is a wrapper with some extra info for the previous one. The instance is for UnifSystem, but I was feeding it FullUnifSystem to the function, so of course it was not finding the instance (and instead going into some infinite reduction trying to find an instance by replacing the variable "uv" with some magic type that didn't exist).
Change FullUnifSystem to UnifSystem (which is what I wanted since the beginning anyway) and now it works.
As a reflection, I know these are some of the dangers of using UndecidableInstances, but I found some interesting suggestions for the GHC compiler when trying to debug this, that I wish were already implemented:
https://gitlab.haskell.org/ghc/ghc/-/issues/15613
#15613: GHCi command, tracing steps of instance resolution for Constraint or expression · Issues · Glasgow Haskell Compiler / GHC · GitLabhttps://gitlab.haskell.org/ghc/ghc/-/issues/15613
Another GHCi command (#15610 (closed)), :elab <constraint> traces instance resolution for <constraint>.This is already something people do by hand (ticket:10318# ...
gitlab.haskell.org
And I found this blog post quite exactly a description of my experience with type classes:
https://mgsloan.com/posts/inspecting-haskell-instance-resolution/
[https://mgsloan.com/images/haskell-placeholder-banner.jpg]https://mgsloan.com/posts/inspecting-haskell-instance-resolution/
Inspecting Haskell Instance Resolutionhttps://mgsloan.com/posts/inspecting-haskell-instance-resolution/
An old prototype: explain-instance. I've wanted a solution to this for a long time. 5 years ago, I wrote a prototype, in the form of a Template Haskell library which takes a rather wild approach.It would be much better to implement it directly in GHC, but at the time I was much more familiar with Template Haskell, and the perverse cleverness of the approach has some appeal.
mgsloan.com
I even downloaded Michael Sloan's ExplainInstances extension to try to help me figure this out, but I couldn't get it to work due to some module version issues.
If Michael reads this, I fully support your interest in sorting out this problem. This is not the first time I lose a lot of time trying to debug silly errors like this because I need to reverse engineer what the type checker is trying to do.
Thanks to Viktor for the reply again, and to anyone who may have dedicated more than 10 seconds thinking about this.
Juan Casanova.
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From: Haskell-Cafe
The following function I have is the one that throws the error:
resolve_to_constraints_metacnf :: SOMetaSignature -> SOMetaCNF -> Computation (Maybe SOMetaUnifSystem) resolve_to_constraints_metacnf sig cnf = result where f1 = (ADDirect <$>) :: SOMetaliteral -> SOMetaUnifLiteral; f2 = (f1 <$>) :: [SOMetaliteral] -> [SOMetaUnifLiteral]; f3 = (f2 <$>) :: [[SOMetaliteral]] -> [[SOMetaUnifLiteral]]; ucnf = f3 cnf :: [[SOMetaUnifLiteral]]; resolved = res_computeresolve SOResGreedyFactorH ucnf :: StateT uv Computation (Maybe SOMetaUnifSystem); runstated = runStateT resolved (UnifVar 0); result = fst <$> runstated
The error starts as follows:
Reduction stack overflow; size = 201 When simplifying the following type: Eq OFunction
This error is reported by: solverDepthErrorTcS :: CtLoc -> TcType -> TcM a solverDepthErrorTcS loc ty = setCtLocM loc $ do { ty <- zonkTcType ty ; env0 <- tcInitTidyEnv ; let tidy_env = tidyFreeTyCoVars env0 (tyCoVarsOfTypeList ty) tidy_ty = tidyType tidy_env ty msg = vcat [ text "Reduction stack overflow; size =" <+> ppr depth , hang (text "When simplifying the following type:") 2 (ppr tidy_ty) , note ] ; failWithTcM (tidy_env, msg) } where depth = ctLocDepth loc note = vcat [ text "Use -freduction-depth=0 to disable this check" , text "(any upper bound you could choose might fail unpredictably with" , text " minor updates to GHC, so disabling the check is recommended if" , text " you're sure that type checking should terminate)" ] Have you tried "-freduction-depth=0"? Does that "terminate"? -- Viktor. _______________________________________________ Haskell-Cafe mailing list To (un)subscribe, modify options or view archives go to: http://mail.haskell.org/cgi-bin/mailman/listinfo/haskell-cafe Only members subscribed via the mailman list are allowed to post. The University of Edinburgh is a charitable body, registered in Scotland, with registration number SC005336.