fitspec: refining property sets for testing Haskell programs

[ bsd3, library, testing ] [ Propose Tags ]

FitSpec provides automated assistance in the task of refining test properties for Haskell functions.

FitSpec tests mutant variations of functions under test against a given property set, recording any surviving mutants that pass all tests. FitSpec then reports:

  • surviving mutants: indicating incompleteness of properties, prompting the user to amend a property or to add a new one;

  • conjectures: indicating redundancy in the property set, prompting the user to remove properties so to reduce the cost of testing.


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Versions [RSS] 0.2.0, 0.2.1, 0.2.2, 0.3.0, 0.3.1, 0.4.0, 0.4.1, 0.4.2, 0.4.3, 0.4.4, 0.4.5, 0.4.6, 0.4.7, 0.4.8, 0.4.10
Dependencies base (>=4 && <5), cmdargs, leancheck (>=0.6), template-haskell [details]
License BSD-3-Clause
Author Rudy Matela, Colin Runciman
Maintainer Rudy Matela <rudy@matela.com.br>
Category Testing
Home page https://github.com/rudymatela/fitspec#readme
Source repo head: git clone https://github.com/rudymatela/fitspec
this: git clone https://github.com/rudymatela/fitspec(tag v0.4.3)
Uploaded by rudymatela at 2017-08-10T15:23:48Z
Distributions LTSHaskell:0.4.10, NixOS:0.4.10, Stackage:0.4.10
Reverse Dependencies 1 direct, 0 indirect [details]
Downloads 9380 total (32 in the last 30 days)
Rating 2.0 (votes: 1) [estimated by Bayesian average]
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Readme for fitspec-0.4.3

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FitSpec

FitSpec Build Status FitSpec on Hackage

FitSpec provides automated assistance in the task of refining test properties for Haskell functions. FitSpec tests mutant variations of functions under test against a given property set, recording any surviving mutants that pass all tests. FitSpec then reports:

  • surviving mutants: indicating incompleteness of properties, prompting the user to amend a property or to add a new one;
  • conjectures: indicating redundancy in the property set, prompting the user to remove properties so to reduce the cost of testing.

Installing FitSpec

To install the latest FitSpec version from Hackage, just:

$ cabal install fitspec

Pre-requisites are cmdargs and leancheck. They should be automatically resolved and installed by Cabal.

Using FitSpec

As an example, consider the following properties describing a sort function:

prop_ordered xs = ordered (sort xs)
prop_length xs = length (sort xs) == length xs
prop_elem x xs = elem x (sort xs) == elem x xs
prop_notElem x xs = notElem x (sort xs) == notElem x xs
prop_min x xs = head (sort (x:xs)) == minimum (x:xs)

We provide the above properties to FitSpec in the following program:

import Test.FitSpec
import Data.List

properties sort =
  [ property $ \xs -> ordered (sort xs)
  , property $ \xs -> length (sort xs) == length xs
  , property $ \x xs -> elem x (sort xs) == elem x xs
  , property $ \x xs -> notElem x (sort xs) == notElem x xs
  , property $ \x xs -> head (sort (x:xs)) == minimum (x:xs)
  ]
  where
  ordered (x:y:xs) = x <= y && ordered (y:xs)
  ordered _        = True

main = mainWith args { names = ["sort xs"]
                     , nMutants = 4000
                     , nTests = 4000
                     , timeout = 0
                     }
                (sort::[Word2]->[Word2])
                properties

The above program reports, after a few seconds, that our property set is apparently neither minimal nor complete.

$ ./fitspec-sort
Apparent incomplete and non-minimal specification based on
4000 test cases for each of properties 1, 2, 3, 4 and 5
for each of 4000 mutant variations.

3 survivors (99% killed), smallest:
  \xs -> case xs of
           [0,0,1] -> [0,1,1]
           _ -> sort xs

apparent minimal property subsets:  {1,2,3} {1,2,4}
conjectures:  {3}    =  {4}     96% killed (weak)
              {1,3} ==> {5}     98% killed (weak)

Completeness: Of 4000 mutants, 3 survive testing against our 5 properties. The surviving mutant is clearly not a valid implementation of sort, but indeed satisfies those properties. As a specification, the property set is incomplete as it omits to require that sorting preserves the number of occurrences of each element value: \x xs -> count x (sort xs) == count x xs

Minimality: So far as testing has revealed, properties 3 and 4 are equivalent and property 5 follows from 1 and 3 (conjectures). It is up to the user to check whether these conjectures are true. Indeed they are, so in future testing we could safely omit properties 4 and 5.

Refinement: If we omit redundant properties, and add a property to kill the surviving mutant, our refined properties are:

properties sort =
  [ \xs ->   ordered (sort xs)
  , \xs ->    length (sort xs) == length xs
  , \x xs ->  elem x (sort xs) == elem x xs
  , \x xs -> count x (sort xs) == count x xs
  ]

(The implementation of count is left as an exercise to the reader.)

FitSpec now reports:

Apparent complete but non-minimal specification based on
4000 test cases for each of properties 1, 2, 3 and 4
for each of 4000 mutant variations.

0 survivors (100% killed).

apparent minimal property subsets:  {1,4}
conjectures:  {4} ==> {2,3}     99% killed (weak)

As reported, properties 2 and 3 are implied by property 4, since that is true, we can safely remove properties 2 and 3 to arrive at a minimal and complete propety set.

User-defined datatypes

If you want to use FitSpec to analyse functions over user-defined datatypes, those datatypes should be made instances of the Listable, Mutable and ShowMutable typeclasses. Check the Haddock documentation of each class for how to define instances manually. If datatypes do not follow a data invariant, instances can be automatically derived using TH by:

deriveMutable ''DataType

More documentation

For more examples, see the eg and bench folders.

For further documentation, consult the doc folder and FitSpec API documentation on Hackage.

FitSpec has been subject to a paper, see the FitSpec paper on Haskell Symposium 2016