X-Git-Url: http://gitweb.michael.orlitzky.com/?a=blobdiff_plain;f=src%2FOctet.hs;h=574edc435a90f4f50a860b118e96ef0f75c9a32f;hb=18a81546e7c4ad10574918efb08b2e104e911d73;hp=78413e619bf3035b33639aa78bf962d6ca5fea81;hpb=d32fe2f0a6c83ba3046a405eda40f83c794c000d;p=hath.git diff --git a/src/Octet.hs b/src/Octet.hs index 78413e6..574edc4 100644 --- a/src/Octet.hs +++ b/src/Octet.hs @@ -1,13 +1,17 @@ -module Octet +module Octet ( + Octet(..), + octet_from_int, + octet_properties, + octet_tests, + ) where import Data.Maybe (fromJust) - import Test.HUnit (assertEqual) import Test.Framework (Test, testGroup) import Test.Framework.Providers.HUnit (testCase) - -import Test.QuickCheck (Arbitrary(..), Gen) +import Test.Framework.Providers.QuickCheck2 (testProperty) +import Test.QuickCheck (Arbitrary(..), Gen, Property, (==>)) import Bit as B import Maskable @@ -29,7 +33,7 @@ data Octet = instance Show Octet where - show oct = show (octet_to_int oct) + show oct = show (fromEnum oct) instance Arbitrary Octet where @@ -78,19 +82,47 @@ instance Maskable Octet where apply_mask oct _ _ = oct --- | Convert each bit to its integer value, and multiply by the --- appropriate power of two. Sum them up, and we should get an integer --- between 0 and 255. -octet_to_int :: Octet -> Int -octet_to_int x = - 128 * (bit_to_int (b1 x)) + - 64 * (bit_to_int (b2 x)) + - 32 * (bit_to_int (b3 x)) + - 16 * (bit_to_int (b4 x)) + - 8 * (bit_to_int (b5 x)) + - 4 * (bit_to_int (b6 x)) + - 2 * (bit_to_int (b7 x)) + - 1 * (bit_to_int (b8 x)) +instance Ord Octet where + (Octet x1 x2 x3 x4 x5 x6 x7 x8) <= (Octet y1 y2 y3 y4 y5 y6 y7 y8) + | x1 > y1 = False + | x2 > y2 = False + | x3 > y3 = False + | x4 > y4 = False + | x5 > y5 = False + | x6 > y6 = False + | x7 > y7 = False + | x8 > y8 = False + | otherwise = True + + +instance Bounded Octet where + -- | The octet with the least possible value. + minBound = + Octet B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero + + -- | The octet with the greatest possible value. + maxBound = + Octet B.One B.One B.One B.One B.One B.One B.One B.One + + +instance Enum Octet where + -- We're supposed to throw a runtime error if you call (succ + -- maxBound), so the fromJust here doesn't introduce any additional + -- badness. + toEnum = fromJust . octet_from_int + + -- | Convert each bit to its integer value, and multiply by the + -- appropriate power of two. Sum them up, and we should get an integer + -- between 0 and 255. + fromEnum x = + 128 * (bit_to_int (b1 x)) + + 64 * (bit_to_int (b2 x)) + + 32 * (bit_to_int (b3 x)) + + 16 * (bit_to_int (b4 x)) + + 8 * (bit_to_int (b5 x)) + + 4 * (bit_to_int (b6 x)) + + 2 * (bit_to_int (b7 x)) + + 1 * (bit_to_int (b8 x)) @@ -109,25 +141,49 @@ octet_from_int x a8 = if ((x `mod` 2) == 1) then B.One else B.Zero -octet_from_string :: String -> Maybe Octet -octet_from_string s = - case (reads s :: [(Int, String)]) of - [] -> Nothing - x:_ -> octet_from_int (fst x) - - --- | The octet with the least possible value. -min_octet :: Octet -min_octet = - Octet B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero B.Zero +instance Read Octet where + readsPrec _ = \s -> + case (reads s :: [(Int, String)]) of + [] -> [] + (x,leftover):_ -> case (octet_from_int x) of + Nothing -> [] + Just oct -> [(oct, leftover)] --- | The octet with the greatest possible value. -max_octet :: Octet -max_octet = - Octet B.One B.One B.One B.One B.One B.One B.One B.One +-- Test lists. +octet_tests :: Test +octet_tests = + testGroup "Octet Tests" [ + test_octet_from_int1, + test_octet_mask1, + test_octet_mask2 ] +octet_properties :: Test +octet_properties = + testGroup + "Octet Properties " + [ testProperty + "fromEnum/toEnum are inverses" + prop_from_enum_to_enum_inverses, + testProperty + "read/show are inverses" + prop_read_show_inverses ] + +-- QuickCheck properties +prop_from_enum_to_enum_inverses :: Int -> Property +prop_from_enum_to_enum_inverses x = + (0 <= x) && (x <= 255) ==> + fromEnum (toEnum x :: Octet) == x + +prop_read_show_inverses :: Int -> Property +prop_read_show_inverses x = + (0 <= x) && (x <= 255) ==> x' == x + where + oct :: Octet + oct = read $ show x + x' :: Int + x' = read $ show oct -- HUnit Tests test_octet_from_int1 :: Test @@ -156,11 +212,3 @@ test_octet_mask2 = desc = "The network bits of 255/1 should equal 128" oct1 = fromJust $ octet_from_int 255 oct2 = fromJust $ octet_from_int 128 - - -octet_tests :: Test -octet_tests = - testGroup "Octet Tests" [ - test_octet_from_int1, - test_octet_mask1, - test_octet_mask2 ]