model

Derive a model of a data type using Generics http://github.com/tittoassini/model

Version on this page:0.3
LTS Haskell 9.18:0.3
Stackage Nightly 2017-12-15:0.4.4
Latest on Hackage:0.4.4
BSD3 licensed by Pasqualino `Titto` Assini

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With model you can easily derive models of Haskell data types.

Let's see some code.

We need a couple of GHC extensions:

{-# LANGUAGE DeriveGeneric, DeriveAnyClass #-}

Import the library:

import Data.Model

To derive a model of a data type we need to make it an instance of the Generic and Model classes.

For data types without parameters, we can do it directly in the deriving clause of the definition:

data Direction = North | South | Center | East | West deriving (Show,Generic,Model)

For data types with parameters we currently need a separate instance declaration for Model:

data Couple a b = Couple a b deriving (Show,Generic)
instance (Model a,Model b) => Model (Couple a b)

Instances for a few common types (Bool,Maybe,Either..) are already predefined.

We use typeModel to get the model for the given type plus its full environment, that's to say the models of all the data types referred to, directly or indirectly by the data type.

We pass the type using a Proxy.

typeModel (Proxy:: Proxy (Couple Direction Bool))
-> TypeModel
->   { typeName =
->       TypeApp
->         (TypeApp
->            (TypeCon
->               QualName
->                 { pkgName = "main" , mdlName = "Main" , locName = "Couple" })
->            (TypeCon
->               QualName
->                 { pkgName = "main" , mdlName = "Main" , locName = "Direction" }))
->         (TypeCon
->            QualName
->              { pkgName = "ghc-prim"
->              , mdlName = "GHC.Types"
->              , locName = "Bool"
->              })
->   , typeEnv =
->       fromList
->         [ ( QualName
->               { pkgName = "ghc-prim" , mdlName = "GHC.Types" , locName = "Bool" }
->           , ADT
->               { declName = "Bool"
->               , declNumParameters = 0
->               , declCons =
->                   Just
->                     (ConTree
->                        Con { constrName = "False" , constrFields = Left [] }
->                        Con { constrName = "True" , constrFields = Left [] })
->               }
->           )
->         , ( QualName
->               { pkgName = "main" , mdlName = "Main" , locName = "Couple" }
->           , ADT
->               { declName = "Couple"
->               , declNumParameters = 2
->               , declCons =
->                   Just
->                     Con
->                       { constrName = "Couple"
->                       , constrFields = Left [ TypeCon (TypVar 0) , TypeCon (TypVar 1) ]
->                       }
->               }
->           )
->         , ( QualName
->               { pkgName = "main" , mdlName = "Main" , locName = "Direction" }
->           , ADT
->               { declName = "Direction"
->               , declNumParameters = 0
->               , declCons =
->                   Just
->                     (ConTree
->                        (ConTree
->                           Con { constrName = "North" , constrFields = Left [] }
->                           Con { constrName = "South" , constrFields = Left [] })
->                        (ConTree
->                           Con { constrName = "Center" , constrFields = Left [] }
->                           (ConTree
->                              Con { constrName = "East" , constrFields = Left [] }
->                              Con { constrName = "West" , constrFields = Left [] })))
->               }
->           )
->         ]
->   }

That's a lot of information, let's show it in a prettier and more compact way:

pPrint $ typeModel (Proxy:: Proxy (Couple Direction Bool))
-> Type:
-> main.Main.Couple main.Main.Direction
->                  ghc-prim.GHC.Types.Bool -> Couple Direction Bool
-> Environment:
-> ghc-prim.GHC.Types.Bool ->  Bool ≡   False
->         | True
-> main.Main.Couple ->  Couple a b ≡   Couple a b
-> main.Main.Direction ->  Direction ≡   North
->              | South
->              | Center
->              | East
->              | West

Data types with symbolic names are also supported:

instance (Model a) => Model [a]
pPrint $ typeModel (Proxy:: Proxy [Bool])
-> Type:
-> ghc-prim.GHC.Types.[] ghc-prim.GHC.Types.Bool -> [] Bool
-> Environment:
-> ghc-prim.GHC.Types.Bool ->  Bool ≡   False
->         | True
-> ghc-prim.GHC.Types.[] ->  [] a ≡   []
->         | : a (ghc-prim.GHC.Types.[] a)

Installation

Get the latest stable version from hackage.

Compatibility

Tested with ghc 7.10.3, 8.0.1, 8.0.2 and 8.2.1.

Known Bugs and Infelicities

  • No support for variables of higher kind.

    For example, we cannot define a Model instance for Higher:

    data Higher f a = Higher (f a) deriving Generic

    as f has kind *->*:

  • Parametric data types cannot derive Model in the deriving clause and need to define an instance separately

    For example:

    data Couple a b = Couple a b Bool deriving (Generic,Model)

    won't work, we need a separate instance:

    instance (Model a,Model b) => Model (Couple a b)

  • Works incorrectly with data types with more than 9 type variables.

Changes

Significant and compatibility-breaking changes.

Version 0.4.4:
- minor cabal and documentation fixes

Version 0.4.2:
- model.cabal: added upper bounds for dependencies
- Data.Model.Util: added error handling utilities

Version 0.4.1: Cosmetic changes to documentation

Version 0.4:
- Data.Model.Types:
- Modified type of 'constructors' and 'constructorInfo'
- Removed instances of StringLike (replaced with Convertible)
- Modified behaviour of conversion from String to QualName
- Data.Model.Util:
- modified type of 'mutualGroups' and 'transitiveClosure'
- added some error handling utilities

Version 0.3:
- Data.Model.Util:
- Removed 'dependencies', added (similar but not identical) 'transitiveClosure'


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