algebra-checkers: Model and test API surfaces algebraically
Please see the README on GitHub at https://github.com/isovector/algebra-checkers#readme
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| Versions [RSS] | 0.1.0.0, 0.1.0.1 |
|---|---|
| Change log | ChangeLog.md |
| Dependencies | ansi-terminal (>=0.10.3), base (>=4.7 && <5), checkers (>=0.5.5), containers (>=0.5.10.2), groups (>=0.4.1.0), mtl (>=2.2.2 && <3), pretty (>=1.1.3.3 && <2), QuickCheck (>=2.10.1 && <3), syb (>=0.7), template-haskell (>=2.12.0.0 && <3), th-instance-reification (>=0.1.5), transformers (>=0.5.2.0) [details] |
| License | BSD-3-Clause |
| Copyright | 2020 Sandy Maguire |
| Author | Sandy Maguire |
| Maintainer | sandy@sandymaguire.me |
| Category | Model |
| Home page | https://github.com/isovector/algebra-checkers#readme |
| Bug tracker | https://github.com/isovector/algebra-checkers/issues |
| Source repo | head: git clone https://github.com/isovector/algebra-checkers |
| Uploaded | by isovector at 2020-03-19T22:07:45Z |
| Distributions | |
| Downloads | 406 total (10 in the last 30 days) |
| Rating | (no votes yet) [estimated by Bayesian average] |
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| Status | Docs available [build log] Last success reported on 2020-03-20 [all 1 reports] |
Readme for algebra-checkers-0.1.0.0
[back to package description]algebra-checkers
Dedication
"Any fool can make a rule, and any fool will mind it."
Henry David Thoreau
Overview
algebra-checkers is a little library for testing algebraic laws. For example,
imagine we're writing an ADT:
data Foo a
instance Semigroup (Foo a)
instance Monoid (Foo a)
data Key
get :: Key -> Foo a -> a
get = undefined
set :: Key -> a -> Foo a -> Foo a
set = undefined
Let's say we expect the lens laws to hold for get and set, as well for set
to be a monoid homomorphism. We can express those facts to algebra-checkers
and have it generate tests for us:
lawTests :: [Property]
lawTests = $(testModel [e| do
law "set/set"
(set i x' (set i x s) == set i x' s)
law "set/get"
(set i (get i s) s == s)
law "get/set"
(get i (set i x s) == x)
homo @Monoid
(\s -> set i x s)
|])
Furthermore, algebra-checkers will generate tests to show that these laws are
confluent. We can run these tests via quickCheck lawTests.
If we use the theoremsOf function instead of testModel, algebra-checkers
will dump out all the additional theorems it has proven about our algebra. This
serves as a good sanity check:
Theorems:
• set i x' (set i x s) = set i x' s (definition of "set/set")
• set i (get i s) s = s (definition of "set/get")
• get i (set i x s) = x (definition of "get/set")
• set i x mempty = mempty (definition of "set:Monoid:mempty")
• set i x (s1 <> s2) = set i x s1 <> set i x s2
(definition of "set:Monoid:<>")
• set i1 (get i1 (set i1 x1 s1)) s1 = set i1 x1 s1
(implied by "set/get" and "set/set")
• set i1 (get i1 (s12 <> s22)) s12 <> set i1 (get i1 (s12 <> s22)) s22
= s12 <> s22
(implied by "set/get" and "set:Monoid:<>")
• set i1 x'2 (set i1 x1 s11 <> set i1 x1 s21)
= set i1 x'2 (s11 <> s21)
(implied by "set/set" and "set:Monoid:<>")
• get i1 (set i1 x1 s11 <> set i1 x1 s21) = x1
(implied by "get/set" and "set:Monoid:<>")
Contradictions:
• get i1 mempty = x1
the variable x1 is undetermined
(implied by "get/set" and "set:Monoid:mempty")
Uh oh! Look at that! This contradiction is clearly a bogus theorem, which lets us know that "get/set" and "set mempty" are nonconfluent with one another!