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module Main where
import Test.HUnit
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import Encoding.Base91 ( enc91 , dec91 )
import Encoding.Base85 ( enc85 , dec85 )
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import Encoding.Base64 ( enc64 , dec64 )
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import Encoding.Base45 ( enc45 , dec45 )
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import Encoding.Base32 ( enc32 , dec32 )
import Encoding.Base16 ( enc16 , dec16 )
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import Encoding.Base8 ( enc8 , dec8 )
import Encoding.Base2 ( enc2 , dec2 )
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import Encoding.QuotedPrintable ( encqp , decqp )
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import Encoding.UnixToUnix ( encuu , decuu )
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import System.Exit ( exitFailure , exitSuccess )
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testEnc91 :: Test
testEnc91 = TestCase $ do
assertEqual " for (enc91 \ " Hello, World! \ " ), " " >OwJh>}AQ;r@@Y?F " ( enc91 " Hello, World! " )
assertEqual " for (enc91 \ " Haskell \ " ), " " 3D8=d,[*G " ( enc91 " Haskell " )
assertEqual " for (enc91 \ " 😂 \ " ), " " =~m6g " ( enc91 " 😂 " )
testDec91 :: Test
testDec91 = TestCase $ do
assertEqual " for (dec91 \ " >OwJh>}AQ;r@@Y?F \ " ), " " Hello, World! " ( dec91 " >OwJh>}AQ;r@@Y?F " )
assertEqual " for (dec91 \ " 3D8=d,[*G \ " ), " " Haskell " ( dec91 " 3D8=d,[*G " )
assertEqual " for (dec91 \ " =~m6g \ " ), " " 😂 " ( dec91 " =~m6g " )
testEnc85 :: Test
testEnc85 = TestCase $ do
assertEqual " for (enc85 \ " Hello, World! \ " ), " " 87cURD_*#4DfTZ)+T " ( enc85 " Hello, World! " )
assertEqual " for (enc85 \ " Haskell \ " ), " " 87?RTASc/ " ( enc85 " Haskell " )
assertEqual " for (enc85 \ " 😂 \ " ), " " n=Q) \ " " ( enc85 " 😂 " )
testDec85 :: Test
testDec85 = TestCase $ do
assertEqual " for (dec85 \ " 87cURD_*#4DfTZ)+T \ " ), " " Hello, World! " ( dec85 " 87cURD_*#4DfTZ)+T " )
assertEqual " for (dec85 \ " 87?RTASc/ \ " ), " " Haskell " ( dec85 " 87?RTASc/ " )
assertEqual " for (dec85 \ " n=Q) \ " \ " ), " " 😂 " ( dec85 " n=Q) \ " " )
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testEnc64 :: Test
testEnc64 = TestCase $ do
assertEqual " for (enc64 \ " hello \ " ), " " aGVsbG8= " ( enc64 " hello " )
assertEqual " for (enc64 \ " Haskell \ " ), " " SGFza2VsbA== " ( enc64 " Haskell " )
assertEqual " for (enc64 \ " \ x00 \ x01 \ x02 \ " ), " " AAEC " ( enc64 " \ x00 \ x01 \ x02 " )
assertEqual " for (enc64 \ " 😂 \ " ), " " 8J+Ygg== " ( enc64 " 😂 " )
testDec64 :: Test
testDec64 = TestCase $ do
assertEqual " for (dec64 \ " aGVsbG8= \ " ), " " hello " ( dec64 " aGVsbG8= " )
assertEqual " for (dec64 \ " SGFza2VsbA== \ " ), " " Haskell " ( dec64 " SGFza2VsbA== " )
assertEqual " for (dec64 \ " AAEC \ " ), " " \ x00 \ x01 \ x02 " ( dec64 " AAEC " )
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assertEqual " for (dec64 \ " 8J+Ygg== \ " ), " " 😂 " ( dec64 " 8J+Ygg== " )
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testEnc45 :: Test
testEnc45 = TestCase $ do
assertEqual " for (enc45 \ " Hello, World! \ " ), " " %69 VDK2E:3404ESVDX0 " ( enc45 " Hello, World! " )
assertEqual " for (enc45 \ " Haskell \ " ), " " Y69RQE: CI2 " ( enc45 " Haskell " )
assertEqual " for (enc45 \ " 😂 \ " ), " " *IURCJ " ( enc45 " 😂 " )
testDec45 :: Test
testDec45 = TestCase $ do
assertEqual " for (dec45 \ " %69 VDK2E:3404ESVDX0 \ " ), " " Hello, World! " ( dec45 " %69 VDK2E:3404ESVDX0 " )
assertEqual " for (dec45 \ " Y69RQE: CI2 \ " ), " " Haskell " ( dec45 " Y69RQE: CI2 " )
assertEqual " for (dec45 \ " *IURCJ \ " ), " " 😂 " ( dec45 " *IURCJ " )
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testEnc32 :: Test
testEnc32 = TestCase $ do
assertEqual " for (enc32 \ " Hello, World! \ " ), " " JBSWY3DPFQQFO33SNRSCC=== " ( enc32 " Hello, World! " )
assertEqual " for (enc32 \ " Haskell \ " ), " " JBQXG23FNRWA==== " ( enc32 " Haskell " )
assertEqual " for (enc32 \ " 😂 \ " ), " " 6CPZRAQ= " ( enc32 " 😂 " )
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testDec32 :: Test
testDec32 = TestCase $ do
assertEqual " for (dec32 \ " JBSWY3DPFQQFO33SNRSCC=== \ " ), " " Hello, World! " ( dec32 " JBSWY3DPFQQFO33SNRSCC=== " )
assertEqual " for (dec32 \ " JBQXG23FNRWA==== \ " ), " " Haskell " ( dec32 " JBQXG23FNRWA==== " )
-- assertEqual "for (dec32 \"AAEC\")," "\x00\x01\x02" (dec32 "AAEC")
assertEqual " for (dec32 \ " 6CPZRAQ= \ " ), " " 😂 " ( dec32 " 6CPZRAQ= " )
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testEnc16 :: Test
testEnc16 = TestCase $ do
assertEqual " for (enc16 \ " Hello, World! \ " ), " " 48656C6C6F2C20576F726C6421 " ( enc16 " Hello, World! " )
assertEqual " for (enc16 \ " Haskell \ " ), " " 4861736B656C6C " ( enc16 " Haskell " )
assertEqual " for (enc16 \ " 😂 \ " ), " " F09F9882 " ( enc16 " 😂 " )
testDec16 :: Test
testDec16 = TestCase $ do
assertEqual " for (dec16 \ " 48656C6C6F2C20576F726C6421 \ " ), " " Hello, World! " ( dec16 " 48656C6C6F2C20576F726C6421 " )
assertEqual " for (dec16 \ " 4861736B656C6C \ " ), " " Haskell " ( dec16 " 4861736B656C6C " )
assertEqual " for (dec16 \ " F09F9882 \ " ), " " 😂 " ( dec16 " F09F9882 " )
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testEnc8 :: Test
testEnc8 = TestCase $ do
assertEqual " for (enc8 \ " Hello, World! \ " ), " " 110 145 154 154 157 54 40 127 157 162 154 144 41 " ( enc8 " Hello, World! " )
assertEqual " for (enc8 \ " Haskell \ " ), " " 110 141 163 153 145 154 154 " ( enc8 " Haskell " )
assertEqual " for (enc8 \ " 😂 \ " ), " " 360 237 230 202 " ( enc8 " 😂 " )
testDec8 :: Test
testDec8 = TestCase $ do
assertEqual " for (dec8 \ " 110 145 154 154 157 54 40 127 157 162 154 144 41 \ " ), " " Hello, World! " ( dec8 " 110 145 154 154 157 54 40 127 157 162 154 144 41 " )
assertEqual " for (dec8 \ " 110 141 163 153 145 154 154 \ " ), " " Haskell " ( dec8 " 110 141 163 153 145 154 154 " )
assertEqual " for (dec8 \ " 360 237 230 202 \ " ), " " 😂 " ( dec8 " 360 237 230 202 " )
testEnc2 :: Test
testEnc2 = TestCase $ do
assertEqual " for (enc2 \ " Hello, World! \ " ), " " 01001000 01100101 01101100 01101100 01101111 00101100 00100000 01010111 01101111 01110010 01101100 01100100 00100001 " ( enc2 " Hello, World! " )
assertEqual " for (enc2 \ " Haskell \ " ), " " 01001000 01100001 01110011 01101011 01100101 01101100 01101100 " ( enc2 " Haskell " )
assertEqual " for (enc2 \ " 😂 \ " ), " " 11110000 10011111 10011000 10000010 " ( enc2 " 😂 " )
testDec2 :: Test
testDec2 = TestCase $ do
assertEqual " for (dec2 \ " 01001000 01100101 01101100 01101100 01101111 00101100 00100000 01010111 01101111 01110010 01101100 01100100 00100001 \ " ), " " Hello, World! " ( dec2 " 01001000 01100101 01101100 01101100 01101111 00101100 00100000 01010111 01101111 01110010 01101100 01100100 00100001 " )
assertEqual " for (dec2 \ " 01001000 01100001 01110011 01101011 01100101 01101100 01101100 \ " ), " " Haskell " ( dec2 " 01001000 01100001 01110011 01101011 01100101 01101100 01101100 " )
assertEqual " for (dec2 \ " 11110000 10011111 10011000 10000010 \ " ), " " 😂 " ( dec2 " 11110000 10011111 10011000 10000010 " )
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testEncQp :: Test
testEncQp = TestCase $ do
assertEqual " for (encqp \ " Hello, World! \ " ), " " Hello,=20World! " ( encqp " Hello, World! " )
assertEqual " for (encqp \ " QP works by using the equals sign = as an escape character. It also limits line length to 76, as some software has limits on line length. \ " ), " " QP=20works=20by=20using=20the=20equals=20sign=20=3D=20as=20an=20escape=20= \ r \ n character.=20It=20also=20limits=20line=20length=20to=2076,=20as=20some=20= \ r \ n software=20has=20limits=20on=20line=20length. " ( encqp " QP works by using the equals sign = as an escape character. It also limits line length to 76, as some software has limits on line length. " )
assertEqual " for (encqp \ " 😂 \ " ), " " =F0=9F=98=82 " ( encqp " 😂 " )
testDecQp :: Test
testDecQp = TestCase $ do
assertEqual " for (decqp \ " Hello,=20World! \ " ), " " Hello, World! " ( decqp " Hello,=20World! " )
assertEqual " for (decqp \ " QP=20works=20by=20using=20the=20equals=20sign=20=3D=20as=20an=20escape=20= \ r \ n character.=20It=20also=20limits=20line=20length=20to=2076,=20as=20some=20= \ r \ n software=20has=20limits=20on=20line=20length. \ " ), " " QP works by using the equals sign = as an escape character. It also limits line length to 76, as some software has limits on line length. " ( decqp " QP=20works=20by=20using=20the=20equals=20sign=20=3D=20as=20an=20escape=20= \ n character.=20It=20also=20limits=20line=20length=20to=2076,=20as=20some=20= \ n software=20has=20limits=20on=20line=20length. " )
assertEqual " for (decqp \ " =F0=9F=98=82 \ " ), " " 😂 " ( decqp " =F0=9F=98=82 " )
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testEnUu :: Test
testEnUu = TestCase $ do
assertEqual " for (encuu \ " Hello, World! \ " ), " " 110 145 154 154 157 54 40 127 157 162 154 144 41 " ( encuu " Hello, World! " )
assertEqual " for (encuu \ " Haskell \ " ), " " 110 141 163 153 145 154 154 " ( encuu " Haskell " )
assertEqual " for (encuu \ " 😂 \ " ), " " 360 237 230 202 " ( encuu " 😂 " )
testDecUu :: Test
testDecUu = TestCase $ do
assertEqual " for (decuu \ " 110 145 154 154 157 54 40 127 157 162 154 144 41 \ " ), " " Hello, World! " ( decuu " 110 145 154 154 157 54 40 127 157 162 154 144 41 " )
assertEqual " for (decuu \ " 110 141 163 153 145 154 154 \ " ), " " Haskell " ( decuu " 110 141 163 153 145 154 154 " )
assertEqual " for (decuu \ " 360 237 230 202 \ " ), " " 😂 " ( decuu " 360 237 230 202 " )
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tests :: Test
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tests = TestList [ TestLabel " Test enc91 " testEnc91 ,
TestLabel " Test dec91 " testDec91 ,
TestLabel " Test enc85 " testEnc85 ,
TestLabel " Test dec85 " testDec85 ,
TestLabel " Test enc64 " testEnc64 ,
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TestLabel " Test dec64 " testDec64 ,
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TestLabel " Test enc45 " testEnc45 ,
TestLabel " Test dec45 " testDec45 ,
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TestLabel " Test enc32 " testEnc32 ,
TestLabel " Test dec32 " testDec32 ,
TestLabel " Test enc16 " testEnc16 ,
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TestLabel " Test dec16 " testDec16 ,
TestLabel " Test enc8 " testEnc8 ,
TestLabel " Test dec8 " testDec8 ,
TestLabel " Test dec2 " testDec2 ,
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TestLabel " Test enc2 " testEnc2 ,
TestLabel " Test decqp " testDecQp ,
TestLabel " Test encqp " testEncQp ]
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-- main :: IO Counts
-- main = runTestTT tests >>= \counts -> print counts >> runTestTTAndExit tests
-- runAndPrint :: Test -> IO Counts
-- runAndPrint t = do
-- counts <- runTestTT t
-- let label = case t of
-- TestLabel l _ -> l
-- _ -> "Unnamed test."
-- putStrLn $ label ++ ": " ++ if errors counts + failures counts == 0 then "[OK]" else "[FAIL]"
-- return counts
main :: IO ()
main = do
counts <- runTestTT tests
print counts
if errors counts + failures counts == 0
then exitSuccess
else exitFailure