When releasing a library on Hackage, how can I determine reasonable bounds for my dependencies?

It's a very brief question - not sure what additional information I can provide.

It would also be helpful to know if this is handled differently depending on whether stack or cabal is used.


Essentially my question relates to the cabal constraints which currently is set as:

library
  hs-source-dirs: src
  default-language: Haskell2010
  exposed-modules: Data.ByteUnits
  build-depends:       base >=4.9 && <4.10
                       , safe == 0.3.15

I don't think the == is a good idea.

up vote 10 down vote accepted

This is a tricky question, since there are different opinions in the community on best practices, and there are trade-offs between ease of figuring out bounds and providing the most compatibility with versions of dependencies possible. As I see it, there are basically three approaches you can take:

  1. Look at the version of the dependencies you're currently using, e.g. safe-0.3.15. Assume that the package is following the PVP and will not release a breaking change before version 0.4, and add this: safe >= 0.3.15 && < 0.4
  2. The above is nice, but limits a lot of potentially valid build plans. You can spend time testing against other versions of the dependency. For example, if you test against about 0.2.12 and 0.4.3 and they both seem to work, you may want to expand to safe >= 0.2.12 && < 0.5.
    • NOTE: A common mistake that crops up is that in a future version of your package, you forget to check compatibility with older versions, and it turns out you're using a new featured introduced in say safe-0.4.1, making the old bounds invalid. There's unfortunately not much in the way of automated tooling to check for this.
  3. Just forget all of it: no version bounds at all, and make it the responsibility of the consumer of the package to ensure compatibility in a build plan. This has the downside that it's possible to create invalid build plans, but the upside that your bounds won't eliminate potentially good ones. (This is basically a false positive vs false negative tradeoff.)

The Stackage project runs nightly builds that can often let you know when your package is broken by new versions of dependencies, and make it easier for users to consume your package by providing pre-built snapshots that are known to work. This especially helps with case (3), and a little bit with the loose lower bounds in (2).

You may also want to consider using a Travis configuration the tests against old Stackage snapshots, e.g. https://github.com/commercialhaskell/stack/blob/master/doc/travis-complex.yml

I assume you're aware of the Haskell Package Versioning Policy (PVP). This provides some guidance, both implicitly in the meaning it assigns to the first three components of the version ("A.B.C") plus some explicit advice on Cabal version ranges.

Roughly speaking, future versions with the same "A.B" will not have introduced any breaking changes (including introducing orphan instances that might change the behavior of other code), but might have added new bindings, types, etc. Provided you have used only qualified imports or explicit import lists:

import qualified Something as S
import Something (foo, bar)

you can safely write a dependency of the form:

something >= 1.2.0 && < 1.6

where the assumption would be that you've tested 1.2.0 through 1.5.6, say, and you're confident that it'll continue to run with all future 1.5.xs (non-breaking changes) but could conceivably break on a future 1.6.

If you have imported a package unqualified (which you might very well do if you are re-exporting a big chunk of its API), you'll want a variant of:

the-package >= 1.2.0 && < 1.5.4   -- tested up to 1.5.3 API
the-package >= 1.5.3 && < 1.5.4   -- actually, this API precisely

There is also a caveat (see the PVP) if you define an orphan instance.

Finally, when importing some simple, stable packages where you've imported only the most obviously stable components, you could probably make the assumption that:

the-package >= 1.2.0 && < 2

is going to be pretty safe.

Looking at the Cabal file for a big, complex, well-written package might give you some sense of what's done in practice. The lens package, for example, extensively uses dependencies of the form:

array >= 0.3.0.2 && < 0.6

but has occasional dependencies like:

free >= 4 && < 6

(In many cases, these broader dependencies are on packages written by the same author, and he can obviously ensure that he doesn't break his own packages, so can be a little more lax.)

The purpose of the bounds is to ensure the version of the dependency you use has the feature(s) that you need. There is some earliest version X that introduces all those features, so you need a lower bound that is at least X. It's possible that a required feature is removed from a later version Y, in which case you would need to specify an upper bound that is less than Y:

build-depends:    foo >= X && < Y

Ideally, a feature you need never gets removed, in which case you can drop the upper bound. This means the upper bound is only needed if you know your feature disappears from a later version. Otherwise, assume that foo >= X is sufficient until you have evidence to the contrary.

foo == X should rarely be used; it is basically short for foo >= X && <= X, and states that you are using a feature that is only in version X; it wasn't in earlier versions, and it was removed in a later version. If you find yourself in such a situation, it would probably be better to try to rewrite your code to not rely on that feature anymore, so that you can return to using foo >= Z (by relaxing the requirement for version X exactly, you may be able to get by with an even earlier version Z < X of foo).

A “foolproof” answer would be: allow exactly those versions that you're sure will work successfully! If you've only ever compiled your project with safe-0.3.15, then technically speaking you don't know whether it'll also work with safe-0.3.15, thus the constraint that cabal offers is right. If you want compatibility with other versions, test them by successively going backwards. This can be done easiest by completely disabling the constraint in the .cabal file and then doing

$ cabal configure --constraint='safe==XYZ' && cabal test

For each version XYZ = 0.3.14 etc..

Practically speaking, that's a bit of a paranoid approach. In particular, it's good etiquette for packages to follow the Package Versioning Policy, which demands that new minor versions should never break any builds. I.e., if 0.3.15 works, then 0.3.16 etc. should at any rate work too. So the conservative constraint if you've only checked 0.3.15 would actually be safe >=0.3.15 && <0.4. Probably, safe >=0.3 && <0.4 would be safe too. The PVP also requires that you don't use looser major-version bounds than you can confirm to work, i.e. it mandates the <0.4 constraint.

Often, this is still needlessly strict. It depends on how tightly you work with some package. In particular, sometimes you'll need to explicitly depend on a package just for some extra configuration function of a type used by a more important dependency. In such a case, I tend to not give any bounds at all for the ancillary package. For an extreme example, if I depend on diagrams-lib, that there's no good reason to give any bounds to diagrams-core, because that is anyway coupled to diagrams-lib.

I also don't usually bother with bounds for very stable and standard packages like containers. The exception is of course base.


Did you have to pick the safe package as an example?

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