-- | This is the examples module accompanying the implementation of Dung's -- argumentation frameworks. -- -- This module contains a collection of examples, showing how to define -- arguments, argumentation frameworks and how to use the standard definitions. -- -- To run these examples, or your own: start GHCi and do the following: -- -- @\:l Language.Dung.Examples@ -- module Language.Dung.Examples ( -- * Example uses of the basic definitions -- |Given @a = \"A\"@, @b = \"B\"@, @c = \"C\"@ AbsArg, a, b, c, exampleAF, exampleAF2, -- * Example uses of the fixpoint definitions faf, -- * Example uses of the basic labelling definitions -- |Given @d = \"D\"@, @e = \"E\"@ d, e, exampleAF3, exampleAF4, -- * Example uses of the input functionality exampleAF5, -- * Example uses of the output functionality output, output2, output3, output4, output5 ) where import Language.Dung.AF import Language.Dung.Input import Language.Dung.Output -- | The simplest abstract argument is an argument identifiable by its name type AbsArg = String a, b, c :: AbsArg a = "A" b = "B" c = "C" -- |Example AF: A -> B -> C exampleAF :: DungAF AbsArg exampleAF = AF [a, b, c] [(a, b), (b, c)] -- |Example AF: A \<-> B -- -- Now follow a few example outputs using the above argumentation frameworks. -- -- [setAttacks:] -- -- @[a,b]@ 'setAttacks' @c@ in the argumentation framework 'exampleAF': -- -- >>> setAttacks exampleAF [a,b] c -- True -- -- >>> setAttacks exampleAF [b,c] a -- False -- -- >>> setAttacks exampleAF2 [] b -- False -- -- [conflictFree:] -- -- @\[a,c\]@ is 'conflictFree' in the argumentation framework 'exampleAF': -- -- >>> conflictFree exampleAF [a,c] -- True -- -- >>> conflictFree exampleAF [a,b,c] -- False -- -- >>> conflictFree exampleAF2 [a,b] -- False -- -- [acceptable:] -- -- @c@ is acceptable w.r.t. @\[a,b\]@ in the argumentation framework 'exampleAF': -- -- >>> acceptable exampleAF c [a,b] -- True -- -- >>> acceptable exampleAF c [] -- False -- -- >>> acceptable exampleAF b [a,b,c] -- False -- -- [admissible:] -- -- @\[a,b,c\]@ is admissible in the argumentation framework 'exampleAF': -- -- >>> admissible exampleAF [a,b,c] -- False -- -- >>> admissible exampleAF [a,c] -- True -- -- >>> admissible exampleAF [a] -- True -- -- [grounded:] -- -- The grounded labelling of the argumentation frameworks 'exampleAF' -- and 'exampleAF2': -- -- >>> grounded exampleAF -- [("A",In),("C",In),("B",Out)] -- -- >>> grounded exampleAF2 -- [("A",Undecided),("B",Undecided)] -- -- [groundedExt:] -- -- The grounded extension of the argumentation frameworks 'exampleAF' -- and 'exampleAF2': -- -- >>> groundedExt exampleAF -- ["A", "C"] -- >>> groundedExt exampleAF2 -- [] exampleAF2 :: DungAF AbsArg exampleAF2 = AF [a, b] [(a, b), (b, a)] -- |fixed point function for a specific argumentation framework, -- @faf = f exampleAF@. -- -- [groundedF:] -- -- The grounded extension of the argumentation framework 'exampleAF' using the -- fixpoint definition: -- -- >>> groundedF faf -- ["A","C"] -- -- >>> groundedF (f exampleAF2) -- [] faf :: [AbsArg] -> [AbsArg] faf = f exampleAF d, e :: AbsArg d = "D" e = "E" -- |Left hand side of Fig1. in Caminada. -- Arguments are: {a,b,c,d}. -- Attacks: {(a, a), (a, c), (b, c), (c, d)} exampleAF3 :: DungAF AbsArg exampleAF3 = AF [a, b, c, d] [(a, a), (a, c), (b, c), (c, d)] -- |Right hand side of Fig1. in Caminada. -- Arguments are: {a,b,c,d,e}. -- Attacks: {(a, b), (b, a), (b, c), (c, d), (d, e), (e, c)} -- -- [complete:] -- -- The complete labellings of the argumentation framework 'exampleAF3' -- and 'exampleAF4': -- -- >>> complete exampleAF3 -- [ -- [("A",Undecided),("B",In),("C",Out),("D",In)] -- ] -- -- >>> complete exampleAF4 -- [ -- [("A",Out),("B",In),("C",Out),("D",In),("E",Out)], -- [("A",In),("B",Out),("C",Undecided),("D",Undecided),("E",Undecided)], -- [("A",Out),("B",In),("C",Out),("D",Undecided),("E",Undecided)] -- ] -- -- [completeExt:] -- -- The complete extensions of the argumentation frameworks 'exampleAF3' -- and 'exampleAF4': -- -- >>> completeExt exampleAF3 -- [ -- ["B","D"] -- ] -- >>> completeExt exampleAF4 -- [ -- ["B","D"], -- ["A"], -- ["B"] -- ] -- -- [semiStable:] -- -- The semi-stable labellings of the argumentation framework 'exampleAF3' -- and 'exampleAF4': -- -- >>> semiStable exampleAF3 -- [ -- [("A",Undecided),("B",In),("C",Out),("D",In)] -- ] -- -- >>> semiStable exampleAF4 -- [ -- [("A",Out),("B",In),("C",Out),("D",In),("E",Out)], -- ] -- -- [semiStableExt:] -- -- The complete extensions of the argumentation frameworks 'exampleAF3' -- and 'exampleAF4': -- -- >>> semiStableExt exampleAF3 -- [ -- ["B","D"] -- ] -- >>> semiStableExt exampleAF4 -- [ -- ["B","D"], -- ] -- exampleAF4 :: DungAF AbsArg exampleAF4 = AF [a, b, c, d, e] [(a, b), (b, a), (b, c), (c, d), (d, e), (e, c)] -- |Parsed example as given on the CEGARTIX webpage: -- . -- -- @ -- arg(a). -- arg(b). -- arg(c). -- arg(d). -- arg(e). -- arg(f). -- arg(g). -- att(a,b). -- att(c,b). -- att(c,d). -- att(d,c). -- att(d,e). -- att(e,g). -- att(f,e). -- att(g,f). -- @ -- -- This is given as a literal string to 'parseAF'. exampleAF5 :: DungAF AbsArg exampleAF5 = case parseAF "arg(a).\ \arg(b).\ \arg(c).\ \arg(d).\ \arg(e).\ \arg(f).\ \arg(g).\ \att(a,b).\ \att(c,b).\ \att(c,d).\ \att(d,c).\ \att(d,e).\ \att(e,g).\ \att(f,e).\ \att(g,f)." of Left err -> error (show err) Right af -> af -- |Output 'String' corresponding to 'exampleAF', -- i.e. @toCegartix exampleAF@. -- -- >>> putStr output -- arg("A"). -- arg("B"). -- arg("C"). -- att("A","B"). -- att("B","C"). output :: String output = toCegartix exampleAF -- |Output 'String' corresponding to 'exampleAF2', -- i.e. @toCegartix exampleAF2@. -- -- >>> putStr output2 -- arg("A"). -- arg("B"). -- att("A","B"). -- att("B","A"). output2 :: String output2 = toCegartix exampleAF2 -- |Output 'String' corresponding to 'exampleAF3', -- i.e. @toCegartix exampleAF3@. -- -- >>> putStr output3 -- arg("A"). -- arg("B"). -- arg("C"). -- arg("D"). -- att("A","A"). -- att("A","C"). -- att("B","C"). -- att("C","D"). output3 :: String output3 = toCegartix exampleAF3 -- |Output 'String' corresponding to 'exampleAF4', -- i.e. @toCegartix exampleAF4@. -- -- >>> putStr output4 -- arg("A"). -- arg("B"). -- arg("C"). -- arg("D"). -- arg("E"). -- att("A","B"). -- att("B","A"). -- att("B","C"). -- att("C","D"). -- att("D","E"). -- att("E","C"). output4 :: String output4 = toCegartix exampleAF4 -- |Output 'String' corresponding to 'exampleAF5', -- i.e. @toCegartix exampleAF5@. output5 :: String output5 = toCegartix exampleAF5