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Could someone please explain (or give me some examples or the process) on why are these conditions necessary for the termination of the instance resolution process in Haskell? Or at least a link where this algorithm is described.

For example, I tried to find some lecture about it, but I only can find stuff about type inference and not this instance resolution process.

I quote from Haskell User Guide

The rules are these:

  1. The Paterson Conditions: for each class constraint (C t1 ... tn) in the context
    1. No type variable has more occurrences in the constraint than in the head
    2. The constraint has fewer constructors and variables (taken together and counting repetitions) than the head
    3. The constraint mentions no type functions. A type function application can in principle expand to a type of arbitrary size, and so are rejected out of hand
  2. The Coverage Condition. For each functional dependency, ⟨tvs⟩left -> ⟨tvs⟩ right, of the class, every type variable in S(⟨tvs⟩right) must appear in S(⟨tvs⟩left), where S is the substitution mapping each type variable in the class declaration to the corresponding type in the instance head.

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  • I don't think these conditions are necessary, but rather that they are sufficient, i.e. they imply termination. You could write a set of instances which violate the Paterson conditions, yet they lead to termination. Further, consider migration to StackOverflow for more visibility: the Haskell community there (which includes myself) often deals with such questions. – chi Feb 21 at 10:57
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    Indeed there is even a proposal to replace them with a better condition github.com/ghc-proposals/ghc-proposals/pull/114 – Li-yao Xia Feb 21 at 14:03
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    The 'lecture about it' is the paper linked from the Users Guide: 'Understanding ... via Constraint Handling Rules'. There is no simpler detailed explanation.The wording you quote is quite clear, isn't it? You can switch off the conditions with UndecidableInstances. Then as @chi says, type inference might terminate. (GHC uses a simple stack depth limit to avoid infinite loop.) The conditions are there to make sure that each constraint in the context (and the constraint's context, etc) makes the problem smaller. – AntC Feb 21 at 22:37
  • @Li-yau Xia, yes excellent catch. There's lots of examples and discussions in the comments. o.p. "I only can find stuff about type inference": instance resolution is type inference; type inference needs instance resolution; because resolving to an instance then gives improved types using the Functional Dependencies. – AntC Feb 21 at 22:41

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