To add IO functions to a programming language interpreter written in Haskell, I have basically two options:

  • Modify the entire interpreter to run inside the IO monad
  • Have the runtime functions that can be invoked by interpreted programs use unsafePerformIO.

The former feels like a bad idea to me -- this effectively negates any purity benefits by having IO reach practically everywhere in the program. I also currently use ST heavily, and would have to modify large quantities of the program to achieve this, as there is no way I can see to use both ST and IO at the same time (?).

The latter makes me nervous -- as the function name states, it is unsafe, but I think in this situation it may be justified. Particularly:

  • The amount of code touched by this change would be very small.
  • The points at which IO may be performed are explicitly sequenced already by the use of seq at control points during evaluation of interpreted expressions.
  • Perhaps more importantly, values returned by IO actions would only be used within interpreted sections of code, where I can guarantee referential transparency by the fact that the interpreter cannot be called multiple times with the same arguments, as an operation counter will be threaded through the entire system as part of the same change, and is always passed with a unique value to every function that would use unsafePerformIO.

In this circumstance, is there a good reason not to use unsafePerformIO?


I was asked why I want to retain purity in the interpreter. There are a number of reasons, but perhaps the most pressing is that I intend to later build a compiler for this language, and the language will include a variety of metaprogramming techniques that will require the compiler to include the interpreter, but I want to be able to guarantee purity of the results of compilation. The language will have a pure subset for this purpose, and I would like the interpreter to be pure when executing that subset.

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    assuming your interpreter will interact with the user - wouldn't it run in IO anyway? Why not just wrap IO in values in the representation of your interpreted language as well? – Carsten Jun 25 '16 at 10:02
  • What @Carsten said. If you are already manipulating values of different types, then perhaps one of those types could hold an IO value. – Paul Johnson Jun 25 '16 at 10:04
  • This is how I intend to model user interaction, as well as other forms of IO. At present, IO is involved only during the initial module loading phase (which happens and is completed prior to execution). At this point, it seems like the change to use IO during interpretation as well would lose at least some of the benefits of working in a pure system. Avoiding IO when I don't need it seems like a useful goal, and if I can separate out a subsystem that does need it and prove that that subsystem is still referentially transparent, is there a good reason not to do so? – Jules Jun 25 '16 at 10:15
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    Predicting when exactly thunks are forced in a lazy language can be very tricky -- this is why there are virtually no lazy impure functional languages. Adding seqs at the right spots might be less trivial than it looks. Further -- could you write a mock type for the interpreter? Is it int :: Program -> Result or something similar? – chi Jun 25 '16 at 10:16
  • The overall type of the interpreter is essentially Scope s -> Expr -> ST s (Either ErrorMessage Value), where Scope s contains a description of both global (mutable) variables and functions/classes defined in the program, and the Expr is basically a simple bootstrap expression that calls a function in the program. – Jules Jun 25 '16 at 10:21

If I understand it correctly, you want to add IO actions to interpreted language (impure primops), while the interpreter itself is pure.

The first option is abstract primops from interpreter. For example, the interpreter could run in some unspecified monad, while priops are injected:

data Primops m = Primops
  { putChar :: Char -> m ()
  , getChar :: m Char
  , ...

interpret :: Monad m => Primops m -> Program -> m ()

Now interpreter can't perform any IO action except the closed list of primops. (You can achieve similar result using custom monad instead of passing primops as an argument.)

But I'd consider it over-engineering until you say exactly why you need pure interpreter. Probably you don't? If you just want to make pure parts of the interpreter easy to test, then it is probably better to extract those parts into separate pure functions. That way the top level entry point will be impure, but small, yet all the interpreter's logic will be testable.

  • This is an option I thought about briefly, but figured would be too complex. That said, it's probably worth considering a little longer, if only because it has some useful applications (e.g. recording a trace of IO operations so that programs can be tested more easily). As to the reason I want a pure interpreter, I'll add an edit to the question. – Jules Jun 25 '16 at 14:54
  • OK, you need different sets of primops, so injecting them looks reasonable. Anyway, don't let overthinking prevent you from trying -- you'll probably redesign and refactor everything a number of times anyway. – Yuras Jun 25 '16 at 15:30

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