rerefined: Refinement types, again

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Versions [RSS]	0.1.0, 0.2.0, 0.3.0, 0.4.0
Change log	CHANGELOG.md
Dependencies	base (>=4.17 && <5), mono-traversable (>=1.0.17.0 && <1.1), QuickCheck (>=2.14 && <2.16), template-haskell (>=2.19.0.0 && <2.22), text (>=2.0 && <2.2), text-builder-linear (>=0.1.2 && <0.2), type-level-show (>=0.1.0 && <0.2) [details]
License	MIT
Author	Ben Orchard
Maintainer	Ben Orchard <thefirstmuffinman@gmail.com>
Category	Types, Data
Home page	https://github.com/raehik/rerefined#readme
Bug tracker	https://github.com/raehik/rerefined/issues
Source repo	head: git clone https://github.com/raehik/rerefined
Uploaded	by raehik at 2024-05-11T16:23:32Z
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Reverse Dependencies	1 direct, 2 indirect [details]
Downloads	45 total (45 in the last 30 days)
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Readme for rerefined-0.4.0

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rerefined

Rewrite of Nikita Volkov's refined library.

same concept
same performance
more instances
better ergonomics (no insidious Typeable constraints)
internals: fewer dependencies (no aeson), better errors, more concise

Why?

I used the original refined library fairly extensively to power other libraries (see strongweak, binrep), though I moved to a fork refined1 some time ago to provide a feature I needed. I think the library has some flaws and I want to contribute, but my tiny tweaks are still pending after a few years. A good excuse to rewrite from the ground up.

All source code is original.

Major changes from original refined

Simplified errors

refined encoded the logical predicates in its error type. This doesn't enable any further analysis, just turns a non-sum type into a sum type and complicates consumption. Furthermore, this error type is first transformed into another recursive ADT, which is then pretty printed. This is unnecessary (even mentioned in the code).

rerefined has a single-constructor error type which can be easily and efficiently turned into a String in a single pass.

No insidious `Typeable` contexts

See refined#101. Typeable is useful, but the way it is used brings lots of Typeable contexts.

rerefined asks that you do a bit more work upfront, but gives you tools and grants much more power. Predicates declare their "predicate name" explicitly as a type-level Symbol. Precedence is supported and infix operators are welcomed. (For now, the logical operators primarily look like their propositional logic counterparts.)

Cleaner design

What do LessThan, GreaterThan, EqualTo etc. have in common? They're all relational binary operators where one value is a pre-filled Natural. rerefined packs all of these into a single predicate that takes a type-level relational operator. Only one instance for the same amount of code, and much easier to reason about.

We take this even further and allow passing a type-level sign, to enable comparing negative values.

We take this even further and use the same relational operator definitions to define length comparisons, where the other value is taken from the input's length (rather than its numeric value). This does not take a sign, since length must be non-negative.

More instances

You know that length comparison predicate above? It has a single instance for each of Refined1 and Refined:

-- | Compare the length of a 'Foldable' to a type-level 'Natural' using the
--   given 'RelOp'.
instance (KnownNat n, Foldable f, ReifyRelOp op)
  => Refine1 (CompareLength op n) f where
    validate1 p = validateCompareLength p . length

-- | Compare the length of a 'MonoFoldable' to a type-level 'Natural' using the
--   given 'RelOp'.
instance (KnownNat n, MonoFoldable a, ReifyRelOp op)
  => Refine (CompareLength op n) a where
    validate p = validateCompareLength p . olength

We get a ton more instances for a ton less code. (Note that mono-foldable has a surprisingly small footprint, as most of its transitive dependencies are core libraries.)

License

Provided under the MIT license. See LICENSE for license text.