Occasionally, a piece of code I want to write isn't legal without at least one language extension. This is particularly true when trying to implement ideas in research papers, which tend to use whichever spiffy, super-extended version of GHC was available at the time the paper was written, without making it clear which extensions are actually required.

The result is that I often end up with something like this at the top of my .hs files:

{-# LANGUAGE TypeFamilies
           , MultiParamTypeClasses
           , FunctionalDependencies
           , FlexibleContexts
           , FlexibleInstances
           , UndecidableInstances
           , OverlappingInstances #-}

I don't mind that, but often I feel as though I'm making blind sacrifices to appease the Great God of GHC. It complains that a certain piece of code isn't valid without language extension X, so I add a pragma for X. Then it demands that I enable Y, so I add a pragma for Y. By the time this finishes, I've enable three or four language extensions that I don't really understand, and I have no idea which ones are 'safe'.

To explain what I mean by 'safe':

  • I understand that UndecidableInstances is safe, because although it may cause the compiler to not terminate, as long as the code compiles it won't have unexpected side effects.

  • On the other hand, OverlappingInstances is clearly unsafe, because it makes it very easy for me to accidentally write code that gives runtime errors.

Is there a list of GHCextensions which are considered 'safe' and which are 'unsafe'?


1 Answer 1


It's probably best to look at what SafeHaskell allows:

Safe Language

The Safe Language (enabled through -XSafe) restricts things in two different ways:

  1. Certain GHC LANGUAGE extensions are disallowed completely.
  2. Certain GHC LANGUAGE extensions are restricted in functionality.

Below is precisely what flags and extensions fall into each category:

  • Disallowed completely: GeneralizedNewtypeDeriving, TemplateHaskell
  • Restricted functionality: OverlappingInstances, ForeignFunctionInterface, RULES, Data.Typeable
    • See Restricted Features below
  • Doesn't Matter: all remaining flags.

Restricted and Disabled GHC Haskell Features

In the Safe language dialect we restrict the following Haskell language features:

  • ForeignFunctionInterface: This is mostly safe, but foreign import declarations that import a function with a non-IO type are be disallowed. All FFI imports must reside in the IO Monad.
  • RULES: As they can change the behaviour of trusted code in unanticipated ways, violating semantic consistency they are restricted in function. Specifically any RULES defined in a module M compiled with -XSafe are dropped. RULES defined in trustworthy modules that M imports are still valid and will fire as usual.
  • OverlappingInstances: This extension can be used to violate semantic consistency, because malicious code could redefine a type instance (by containing a more specific instance definition) in a way that changes the behaviour of code importing the untrusted module. The extension is not disabled for a module M compiled with -XSafe but restricted. While M can define overlapping instance declarations, they can only be used in M. If in a module N that imports M, at a call site that uses a type-class function there is a choice of which instance to use (i.e overlapping) and the most specific choice is from M (or any other Safe compiled module), then compilation will fail. It is irrelevant if module N is considered Safe, or Trustworthy or neither.
  • Data.Typeable: We allow instances of Data.Typeable to be derived but we don't allow hand crafted instances. Derived instances are machine generated by GHC and should be perfectly safe but hand crafted ones can lie about their type and allow unsafe coercions between types. This is in the spirit of the original design of SYB.

In the Safe language dialect we disable completely the following Haskell language features:

  • GeneralizedNewtypeDeriving: It can be used to violate constructor access control, by allowing untrusted code to manipulate protected data types in ways the data type author did not intend. I.e can be used to break invariants of data structures.
  • TemplateHaskell: Is particularly dangerous, as it can cause side effects even at compilation time and can be used to access abstract data types. It is very easy to break module boundaries with TH.

I recall having read that the interaction of FunctionalDependencies and UndecidableInstances can also be unsafe, because beyond allowing an unlimited context stack depth UndecidableInstances also lifts the so-called coverage condition (section, but I can't find a cite for this at the moment.

EDIT 2015-10-27: Ever since GHC gained support for type roles, GeneralizedNewtypeDeriving is no longer unsafe. (I'm not sure what else might have changed.)

  • I'm not sure this is entirely fair. GeneralizedNewtypeDeriving is easy to use in a safe way, and most uses of it, I'm willing to bet, are manifestly safe. You have to create and instantiate some quite devious classes for it to be unsafe. Jun 14, 2012 at 11:47
  • 1
    It's true that it's probably easier with GNTD than many of the others, but it's possible to avoid doing unsafe things with any of the extensions would that allow you to do unsafe things. At that point the question becomes a little bit meaningless.
    – glaebhoerl
    Jun 14, 2012 at 22:53
  • 2
    I disagree. The fact that GNTD is unsafe is really a bug, and quite an obscure one at that. Plus, I think that the concept of "safe" in the question is different in nontrivial ways from the one implied in the question. Jun 19, 2012 at 9:39
  • 2
    If the meaning of the question is "almost never a good idea" rather than "makes it possible to do bad things", then I think the only extensions which really qualify for that are Overlapping and IncoherentInstances. I mean, just like GNTDs, so TH, RULES, FFI, etc. can also be used in entirely safe and legitimate ways.
    – glaebhoerl
    Jun 20, 2012 at 15:34
  • 1
    I suppose I understood the original question to be "things you shouldn't enable unless you know what you're doing"; I think TH, RULES and FFI are all easy to get wrong, and back when Impredicative Polymorphism existed, it was very much a case of "if GHC suggests this and you don't know what it is, you're probably doing things wrong". Jun 20, 2012 at 16:37

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