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fprog2021WS/code/Test5.hs

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module Test5 where
import Angabe5
import Data.List
import Test.Tasty
import Test.Tasty.HUnit
import Test.Tasty.Ingredients (composeReporters)
import Test.Tasty.Ingredients.ConsoleReporter (consoleTestReporter)
import Control.Exception (ErrorCall(ErrorCallWithLocation), try, evaluate)
main :: IO ()
main = defaultMainWithIngredients [consoleTestReporter] spec
{-----TESTDATEN BEGINN-----}
zahlraum010_liste = [N,I,II,III,IV,V,VI,VII,VIII,IX,X,F] :: [] Zahlraum_0_10
intMenge_1 = [0,2,3,4] :: [] Int
intMenge_2 = [0,2,3,5] :: [] Int
intMenge_3 = [3,2] :: [] Int
intMultimenge = [1,2,2,3] :: [] Int
zr010Menge_1 = [N,II,III,IV] :: [] Zahlraum_0_10
zr010Menge_2 = [N,II,III,V] :: [] Zahlraum_0_10
zr010Menge_3 = [III,II] :: [] Zahlraum_0_10
zr010Multimenge = [I,II,II,III] :: [] Zahlraum_0_10
fktMenge_1 = [Fkt abs, Fkt negate] :: [] Funktion
fktMenge_2 = [Fkt abs, Fkt signum] :: [] Funktion
fktMenge_3 = [Fkt absProxy] :: [] Funktion
fktMultimenge = [Fkt abs, Fkt absProxy, Fkt signum] :: [] Funktion
et010Multimenge_1 = [ET I, ET I, ET II, ET II, ET V] :: [] (ElemTyp Zahlraum_0_10)
et010Multimenge_2 = [ET II, ET V, ET I, ET I] :: [] (ElemTyp Zahlraum_0_10)
etFktMultimenge_1 = [ET (Fkt abs), ET (Fkt signum), ET (Fkt abs)] :: [] (ElemTyp Funktion)
etFktMultimenge_2 = [ET (Fkt absProxy), ET (Fkt signum), ET (Fkt negate), ET (Fkt signum)] :: [] (ElemTyp Funktion)
baum_1 = Knoten (Blatt V) II (Blatt V) :: (Baum Zahlraum_0_10)
baum_2 = Blatt V :: (Baum Zahlraum_0_10)
paar_1 = P (baum_1, N) :: (Paar (Baum Zahlraum_0_10) Zahlraum_0_10)
paar_2 = P (baum_2, V) :: (Paar (Baum Zahlraum_0_10) Zahlraum_0_10)
paar_3 = P (V,5) :: (Paar Zahlraum_0_10 Int)
phETMenge_1 = [A baum_1, B paar_1, A baum_2, D (Fkt abs), E paar_3] :: [] (PH_ElemTyp (Baum Zahlraum_0_10) (Paar (Baum Zahlraum_0_10) Zahlraum_0_10) c (Funktion) (Paar Zahlraum_0_10 Int))
phETMenge_2 = [C baum_1, B paar_1] :: [] (PH_ElemTyp a (Paar (Baum Zahlraum_0_10) Zahlraum_0_10) (Baum Zahlraum_0_10) d e)
phETMenge_3 = [A baum_1] :: [] (PH_ElemTyp (Baum Zahlraum_0_10) b c d e)
phETMenge_4 = [B paar_1] :: [] (PH_ElemTyp a (Paar (Baum Zahlraum_0_10) Zahlraum_0_10) c d e)
phETMultiMenge_1 = [R fktMenge_1, R fktMenge_2, S X, S X] :: [] (PH_ElemTyp' q ([Funktion]) (Zahlraum_0_10))
phETMultiMenge_2 = [Q fktMenge_1, R fktMenge_2] :: [] (PH_ElemTyp' ([Funktion]) ([Funktion]) s)
phETMultiMenge_3 = [R et010Multimenge_1, S X, S X] :: [] (PH_ElemTyp' q ([ElemTyp Zahlraum_0_10]) (Zahlraum_0_10))
phETMultiMenge_4 = [S X, R et010Multimenge_1, S X] :: [] (PH_ElemTyp' q ([ElemTyp Zahlraum_0_10]) (Zahlraum_0_10))
absProxy :: Zahlraum_0_10 -> Zahlraum_0_10
absProxy x = abs x
{-----TESTDATEN ENDE-----}
-- Error Handling
getMsg :: ErrorCall -> String
getMsg (ErrorCallWithLocation msg _) = msg
assertError :: (Show a) => String -> a -> IO ()
assertError errorMsg action = do
r <- try (evaluate action)
case r of
Left e -> if (getMsg e == errorMsg) then return()
else assertFailure $ "Received unexpected error: " ++ (show e) ++ "\ninstead of: " ++ errorMsg
Right _ -> assertFailure $ "Expected error: " ++ errorMsg
{--BEGINN TESTTREE--}
spec :: TestTree
spec =
testGroup
"Test5 Spec"
[
zahlraum_0_10_tests,
funktion_tests,
menge_von_int_tests,
menge_von_zahlraum_0_10_tests,
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menge_von_funktion_tests
-- menge_von_ElemTyp_tests,
-- ph_elemtyp_tests,
-- ph_elemtyp'_tests
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]
zahlraum_0_10_tests :: TestTree
zahlraum_0_10_tests =
testGroup
"-Zahlraum_0_10 instance Num Tests----------"
[
testCase "plus: I + II -> III" $
I + II @?= III,
testCase "plus: I + X -> F" $
I + X @?= F,
testCase "minus: I - I -> N" $
I - I @?= N,
testCase "minus: N - V -> F" $
N - V @?= F,
testCase "mal: N * V -> N" $
N * V @?= N,
testCase "mal: V * V -> F" $
V * V @?= F,
testCase "mal: V * II -> X" $
V * II @?= X,
testCase "negate: [N,I..X,F] -> [N,F..F]" $
[negate n | n <- zahlraum010_liste] @?= [N,F,F,F,F,F,F,F,F,F,F,F],
testCase "abs: [N,I..X,F] -> [N,I..X,F]" $
[abs n | n <- zahlraum010_liste] @?= zahlraum010_liste,
testCase "signum: [N,I..X,F] -> [N,I..I,F]" $
[signum n | n <- zahlraum010_liste] @?= [N,I,I,I,I,I,I,I,I,I,I,F],
testCase "fromInteger: [0..11] -> [N,I..X,F]" $
[fromInteger i | i <- [0..11]] @?= zahlraum010_liste
]
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funktion_tests :: TestTree
funktion_tests =
testGroup
"-Funktion instance Eq, Show Tests----------"
[
testCase "abs == absProxy -> True" $
Fkt abs == Fkt absProxy @?= True,
testCase "signum == negate -> False" $
Fkt signum == Fkt negate @?= False,
testCase "abs /= abs -> False" $
Fkt abs /= Fkt abs @?= False,
testCase "show (Fkt signum)" $
show (Fkt signum) @?= "{(N,N),(I,I),(II,I),(III,I),(IV,I),(V,I),(VI,I),(VII,I),(VIII,I),(IX,I),(X,I),(F,F)}"
]
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menge_von_int_tests :: TestTree
menge_von_int_tests =
testGroup
"-Menge von Int Tests----------"
[
testCase "vereinige: intMenge_1 intMenge_2" $
(vereinige intMenge_1 intMenge_2) \\ (union intMenge_2 intMenge_1) @?= [],
testCase "schneide: intMenge_1 intMenge_2" $
(schneide intMenge_1 intMenge_2) \\ (nub (intersect intMenge_2 intMenge_1)) @?= [],
testCase "ziehe_ab: intMenge_1 intMenge_2" $
(ziehe_ab intMenge_1 intMenge_2) \\ (intMenge_1 \\ intMenge_2) @?= [],
testCase "ist_obermenge: intMenge_1 intMenge_3" $
ist_obermenge intMenge_1 intMenge_3 @?= True,
testCase "ist_obermenge: intMenge_3 intMenge_1" $
ist_obermenge intMenge_3 intMenge_1 @?= False,
testCase "anzahl: 2 intMultimenge -> Fehler" $
assertError "Fehler" (anzahl 2 intMultimenge),
testCase "anzahl: 9 intMenge_1" $
anzahl 9 intMenge_1 @?= 0
]
menge_von_zahlraum_0_10_tests :: TestTree
menge_von_zahlraum_0_10_tests =
testGroup
"-Menge von Zahlraum_0_10 Tests----------"
[
testCase "vereinige: zr010Menge_1 zr010Menge_2" $
(vereinige zr010Menge_1 zr010Menge_2) \\ (union zr010Menge_2 zr010Menge_1) @?= [],
testCase "schneide: zr010Menge_1 zr010Menge_2" $
(schneide zr010Menge_1 zr010Menge_2) \\ (nub (intersect zr010Menge_2 zr010Menge_1)) @?= [],
testCase "ziehe_ab: zr010Menge_1 zr010Menge_2" $
(ziehe_ab zr010Menge_1 zr010Menge_2) \\ (zr010Menge_1 \\ zr010Menge_2) @?= [],
testCase "ist_obermenge: zr010Menge_1 zr010Menge_3" $
ist_obermenge zr010Menge_1 zr010Menge_3 @?= True,
testCase "ist_obermenge: zr010Menge_3 zr010Menge_1" $
ist_obermenge zr010Menge_3 zr010Menge_1 @?= False,
testCase "anzahl: II zr010Multimenge -> Fehler" $
assertError "Fehler" (anzahl II zr010Multimenge),
testCase "anzahl: N zr010Menge_1" $
anzahl N zr010Menge_1 @?= 1
]
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menge_von_funktion_tests :: TestTree
menge_von_funktion_tests =
testGroup
"-Menge von Funktion Tests----------"
[
testCase "vereinige: fktMenge_1 fktMenge_2" $
(vereinige fktMenge_1 fktMenge_2) \\ (union fktMenge_2 fktMenge_1) @?= [],
testCase "schneide: fktMenge_1 fktMenge_2" $
(schneide fktMenge_1 fktMenge_2) \\ (nub (intersect fktMenge_2 fktMenge_1)) @?= [],
testCase "ziehe_ab: fktMenge_1 fktMenge_3" $
ziehe_ab fktMenge_1 fktMenge_3 @?= [Fkt negate],
testCase "ist_obermenge: fktMenge_1 fktMenge_3" $
ist_obermenge fktMenge_1 fktMenge_3 @?= True,
testCase "ist_obermenge: fktMenge_1 fktMenge_2" $
ist_obermenge fktMenge_1 fktMenge_2 @?= False,
testCase "anzahl: abs fktMultimenge" $
assertError "Fehler" (anzahl (Fkt abs) fktMultimenge),
testCase "anzahl: abs fktMenge_1" $
anzahl (Fkt abs) fktMenge_1 @?= 1
]
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menge_von_ElemTyp_tests :: TestTree
menge_von_ElemTyp_tests =
testGroup
"-Menge von ElemTyp Tests----------"
[
testCase "vereinige ET 010: et010Multimenge_1 et010Multimenge_2" $
vereinige et010Multimenge_1 et010Multimenge_2 @?= et010Multimenge_1 ++ et010Multimenge_2,
testCase "vereinige ET Fkt: etFktMultimenge_1 etFktMultimenge_2" $
vereinige etFktMultimenge_1 etFktMultimenge_2 @?= etFktMultimenge_1 ++ etFktMultimenge_2,
testCase "schneide ET 010: et010Multimenge_1 et010Multimenge_2" $
schneide et010Multimenge_1 et010Multimenge_2 @?= [ET I,ET I,ET II,ET V],
testCase "sind_gleich: (et010MM_1 n et010MM_2) (et010MM_2 n et010MM_1) -> True" $
sind_gleich (schneide et010Multimenge_1 et010Multimenge_2) (schneide et010Multimenge_2 et010Multimenge_1) @?= True,
testCase "schneide ET Fkt: etFktMultimenge_1 etFktMultimenge_2" $
schneide etFktMultimenge_1 etFktMultimenge_2 @?= [ET (Fkt signum),ET (Fkt abs)],
testCase "ziehe_ab ET Fkt: etFktMultimenge_1 etFktMultimenge_2" $
ziehe_ab etFktMultimenge_1 etFktMultimenge_2 @?= [ET (Fkt abs)],
testCase "ist_obermenge ET 010: et010Multimenge_1 et010Multimenge_2" $
ist_obermenge et010Multimenge_1 et010Multimenge_2 @?= True,
testCase "ist_obermenge ET Fkt: etFktMultimenge_1 etFktMultimenge_2" $
ist_obermenge etFktMultimenge_1 etFktMultimenge_2 @?= False,
testCase "anzahl ET Fkt: abs etFktMultimenge_2" $
anzahl (ET (Fkt abs)) etFktMultimenge_2 @?= 1,
testCase "anzahl ET Fkt: abs etFktMultimenge_1" $
anzahl (ET (Fkt abs)) etFktMultimenge_1 @?= 2
]
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ph_elemtyp_tests :: TestTree
ph_elemtyp_tests =
testGroup
"-Menge von PH_ElemTyp Tests----------"
[
testCase "vereinige: phETMenge_1 phETMenge_2" $
(vereinige phETMenge_1 phETMenge_2) \\ (union phETMenge_1 phETMenge_2) @?= [],
testCase "schneide: phETMenge_1 phETMenge_2" $
schneide phETMenge_1 phETMenge_2 @?= [B paar_1]
{-testCase "sind_gleich: phETMenge_3 phETMenge_4" $
sind_gleich phETMenge_3 phETMenge_4 @?= False,
testCase "ist_obermenge: phETMenge_1 phETMenge_3" $
ist_obermenge phETMenge_1 phETMenge_3 @?= True,
testCase "ist_obermenge: phETMenge_1 phETMenge_4" $
ist_obermenge phETMenge_1 phETMenge_4 @?= False-}
]
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ph_elemtyp'_tests :: TestTree
ph_elemtyp'_tests =
testGroup
"-Menge von PH_ElemTyp' Tests----------"
[
testCase "vereinige: phETMultiMenge_1 phETMultiMenge_2" $
vereinige phETMultiMenge_1 phETMultiMenge_2 @?= phETMultiMenge_1 ++ phETMultiMenge_2,
testCase "schneide: phETMultiMenge_1 phETMultiMenge_2" $
schneide phETMultiMenge_1 phETMultiMenge_2 @?= [R fktMenge_2],
testCase "ziehe_ab: phETMultiMenge_1 phETMultiMenge_2" $
ziehe_ab phETMultiMenge_1 phETMultiMenge_2 @?= [R fktMenge_1,S X,S X]
{-testCase "anzahl: (S X) phETMultiMenge_1" $
anzahl (S X) phETMultiMenge_1 @?= 2,
testCase "anzahl: (Q phETMenge_1) phETMultiMenge_1" $
anzahl (R fktMenge_1) phETMultiMenge_1 @?= 1,
testCase "sind_gleich: phETMultiMenge_3 phETMultiMenge_4" $
sind_gleich phETMultiMenge_3 phETMultiMenge_4 @?= True-}
]