From: agl Date: Sun, 20 Jan 2008 19:33:57 +0000 (+0530) Subject: Update README.txt with details on Haskell testing/documentation etc X-Git-Url: https://git.rkrishnan.org/vdrive/%22news.html/simplejson/htmlfontify-example.html?a=commitdiff_plain;h=b662e55525ac6a2125f1c7eab1087813542d1900;p=tahoe-lafs%2Fzfec.git Update README.txt with details on Haskell testing/documentation etc darcs-hash:6e1ebc9c4af1cdb252325b9353a35d20d2e02185 --- diff --git a/zfec/README.txt b/zfec/README.txt index 6e4ed97..e563ab6 100644 --- a/zfec/README.txt +++ b/zfec/README.txt @@ -40,7 +40,13 @@ Python installed, you can run "trial zfec" for nicer output and test options.) This will run the tests of the C API, the Python API, and the command-line tools. -To run the tests of the Haskell API, do XYZ. +To run the tests of the Haskell API: + % runhaskell haskell/test/FECTest.hs + +Note that you must have installed the library first in order for this to work +due to the fact that the interpreter cannot process FEC.hs as it takes a +reference to an FFI function. + * Community @@ -205,7 +211,8 @@ objects (e.g. Python strings) to hold the data that you pass to zfec. ** Haskell API -XYZ +The Haskell code is fully Haddocked, to generate the documentation, run + % runhaskell Setup.lhs haddock * Utilities @@ -219,7 +226,7 @@ command-line tools from the bin/ directory. A C compiler is required. To use the Python API or the command-line tools a Python interpreter is also required. We have tested it with Python v2.4 and -v2.5. For the Haskell interface, a Haskell compiler is required XYZ. +v2.5. For the Haskell interface, GHC >= 6.8.1 is required. * Acknowledgements diff --git a/zfec/haskell/FECTest.hs b/zfec/haskell/FECTest.hs deleted file mode 100644 index 0f5a353..0000000 --- a/zfec/haskell/FECTest.hs +++ /dev/null @@ -1,57 +0,0 @@ -module Main where - -import qualified Data.ByteString as B -import qualified Codec.FEC as FEC -import System.IO (withFile, IOMode(..)) -import System.Random -import Data.List (sortBy) - -import Test.QuickCheck - --- | Return true if the given @k@ and @n@ values are valid -isValidConfig :: Int -> Int -> Bool -isValidConfig k n - | k >= n = False - | k < 1 = False - | n < 1 = False - | otherwise = True - -randomTake :: Int -> Int -> [a] -> [a] -randomTake seed n values = map snd $ take n sortedValues where - sortedValues = sortBy (\a b -> compare (fst a) (fst b)) taggedValues - taggedValues = zip rnds values - rnds :: [Float] - rnds = randoms gen - gen = mkStdGen seed - -testFEC k n len seed = FEC.decode fec someTaggedBlocks == origBlocks where - origBlocks = map (\i -> B.replicate len $ fromIntegral i) [0..(k - 1)] - fec = FEC.fec k n - secondaryBlocks = FEC.encode fec origBlocks - taggedBlocks = zip [0..] (origBlocks ++ secondaryBlocks) - someTaggedBlocks = randomTake seed k taggedBlocks - -prop_FEC :: Int -> Int -> Int -> Int -> Property -prop_FEC k n len seed = - isValidConfig k n && n < 256 && len < 1024 ==> testFEC k n len seed - -checkDivide :: Int -> IO () -checkDivide n = do - let input = B.replicate 1024 65 - parts <- FEC.secureDivide n input - if FEC.secureCombine parts == input - then return () - else fail "checkDivide failed" - -checkEnFEC :: Int -> IO () -checkEnFEC len = do - testdata <- withFile "/dev/urandom" ReadMode (\handle -> B.hGet handle len) - let [a, b, c, d, e] = FEC.enFEC 3 5 testdata - if FEC.deFEC 3 5 [b, e, d] == testdata - then return () - else fail "deFEC failure" - -main = do - mapM_ (check (defaultConfig { configMaxTest = 1000, configMaxFail = 10000 })) [prop_FEC] - mapM_ checkDivide [1, 2, 3, 4, 10] - mapM_ checkEnFEC [1, 2, 3, 4, 5, 1024 * 1024] diff --git a/zfec/haskell/test/FECTest.hs b/zfec/haskell/test/FECTest.hs new file mode 100644 index 0000000..0f5a353 --- /dev/null +++ b/zfec/haskell/test/FECTest.hs @@ -0,0 +1,57 @@ +module Main where + +import qualified Data.ByteString as B +import qualified Codec.FEC as FEC +import System.IO (withFile, IOMode(..)) +import System.Random +import Data.List (sortBy) + +import Test.QuickCheck + +-- | Return true if the given @k@ and @n@ values are valid +isValidConfig :: Int -> Int -> Bool +isValidConfig k n + | k >= n = False + | k < 1 = False + | n < 1 = False + | otherwise = True + +randomTake :: Int -> Int -> [a] -> [a] +randomTake seed n values = map snd $ take n sortedValues where + sortedValues = sortBy (\a b -> compare (fst a) (fst b)) taggedValues + taggedValues = zip rnds values + rnds :: [Float] + rnds = randoms gen + gen = mkStdGen seed + +testFEC k n len seed = FEC.decode fec someTaggedBlocks == origBlocks where + origBlocks = map (\i -> B.replicate len $ fromIntegral i) [0..(k - 1)] + fec = FEC.fec k n + secondaryBlocks = FEC.encode fec origBlocks + taggedBlocks = zip [0..] (origBlocks ++ secondaryBlocks) + someTaggedBlocks = randomTake seed k taggedBlocks + +prop_FEC :: Int -> Int -> Int -> Int -> Property +prop_FEC k n len seed = + isValidConfig k n && n < 256 && len < 1024 ==> testFEC k n len seed + +checkDivide :: Int -> IO () +checkDivide n = do + let input = B.replicate 1024 65 + parts <- FEC.secureDivide n input + if FEC.secureCombine parts == input + then return () + else fail "checkDivide failed" + +checkEnFEC :: Int -> IO () +checkEnFEC len = do + testdata <- withFile "/dev/urandom" ReadMode (\handle -> B.hGet handle len) + let [a, b, c, d, e] = FEC.enFEC 3 5 testdata + if FEC.deFEC 3 5 [b, e, d] == testdata + then return () + else fail "deFEC failure" + +main = do + mapM_ (check (defaultConfig { configMaxTest = 1000, configMaxFail = 10000 })) [prop_FEC] + mapM_ checkDivide [1, 2, 3, 4, 10] + mapM_ checkEnFEC [1, 2, 3, 4, 5, 1024 * 1024]