import Test.QuickCheck.Batch
import qualified Test.HUnit as HU
import Test.HUnit.Utils
-import qualified Data.Map as Map
import Data.List
-import Data.Maybe(catMaybes)
import System.IO(stderr)
+import Data.Word
-import Data.Syncable
import TestInfrastructure
-prop_empty :: Bool
-prop_empty =
- syncBiDir (emptymap::Map.Map Int ()) emptymap emptymap == ([], []) -- ([DeleteItem 5], [], [])
+import qualified TestSyncable
+import qualified TestConnection
+import qualified TestParser
-prop_delAllFromChild :: SyncCollection Int -> Result
-prop_delAllFromChild inp =
- let (resMaster, resChild) = syncBiDir emptymap inp inp
- expectedResChild = sort . map DeleteItem . Map.keys $ inp
- in ([], expectedResChild) @=?
- (resMaster, sort resChild)
-
-prop_delAllFromMaster :: SyncCollection Int -> Result
-prop_delAllFromMaster inp =
- let (resMaster, resChild) = syncBiDir inp emptymap inp
- expectedResMaster = sort . map DeleteItem . Map.keys $ inp
- in (expectedResMaster, []) @=?
- (sort resMaster, resChild)
-
-prop_addFromMaster :: SyncCollection Int -> Result
-prop_addFromMaster inp =
- let (resMaster, resChild) = syncBiDir inp emptymap emptymap
- expectedResChild = sort . map CopyItem . Map.keys $ inp
- in ([], expectedResChild) @=?
- (resMaster, sort resChild)
+q :: Testable a => String -> a -> HU.Test
+q = qccheck (defaultConfig {configMaxTest = 250})
-prop_allChangesToChild :: SyncCollection Int -> SyncCollection Int -> Result
-prop_allChangesToChild master child =
- let (resMaster, resChild) = syncBiDir master child child
- expectedResChild = sort $
- (map CopyItem . Map.keys . Map.difference master $ child) ++
- (map DeleteItem . Map.keys . Map.difference child $ master)
- in ([], expectedResChild) @=?
- (resMaster, sort resChild)
+tl msg t = HU.TestLabel msg $ HU.TestList t
-prop_allChangesToMaster :: SyncCollection Int -> SyncCollection Int -> Result
-prop_allChangesToMaster master child =
- let (resMaster, resChild) = syncBiDir master child master
- expectedResMaster = sort $
- (map CopyItem . Map.keys . Map.difference child $ master) ++
- (map DeleteItem . Map.keys . Map.difference master $ child)
- in (expectedResMaster, []) @=?
- (sort resMaster, resChild)
-
-prop_allChanges :: SyncCollection Int -> SyncCollection Int -> SyncCollection Int -> Result
-prop_allChanges master child lastchild =
- let (resMaster, resChild) = syncBiDir master child lastchild
- expectedResMaster = sort $
- (map CopyItem . Map.keys . Map.difference child $ Map.union master lastchild) ++
- (map DeleteItem . Map.keys . Map.intersection master $ Map.difference lastchild child)
- expectedResChild = sort $
- (map CopyItem . Map.keys . Map.difference master $ Map.union child lastchild) ++
- (map DeleteItem . Map.keys . Map.intersection child $ Map.difference lastchild master)
- in (expectedResMaster, expectedResChild) @=?
- (sort resMaster, sort resChild)
-
-{- | Basic validation that unaryApplyChanges works -}
-prop_unaryApplyChanges :: SyncCollection Int -> [(Bool, Int)] -> Result
-prop_unaryApplyChanges collection randcommands =
- let -- We use nubBy to make sure we don't get input that has reference
- -- to the same key more than once. We then convert True/False to
- -- commands.
- commands = map toCommand . nubBy (\x y -> snd x == snd y) $ randcommands
- toCommand (True, x) = CopyItem x
- toCommand (False, x) = DeleteItem x
-
- addedKeys = catMaybes . map (\x -> case x of CopyItem y -> Just y; _ -> Nothing) $ commands
- deletedKeys = catMaybes . map (\x -> case x of DeleteItem y -> Just y; _ -> Nothing) $ commands
-
- collection' = Map.difference collection (keysToMap deletedKeys)
- expectedCollection =
- Map.union collection' (keysToMap addedKeys)
- in (sort . Map.keys $ expectedCollection) @=?
- (sort . Map.keys $ unaryApplyChanges collection commands)
-
-{- | Should validate both that unaryApplyChanges works, and that it is
-an identify -}
-prop_unaryApplyChangesId :: SyncCollection Int -> SyncCollection Int -> Result
-prop_unaryApplyChangesId master child =
- let (resMaster, resChild) = syncBiDir master child child
- newMaster = unaryApplyChanges master resMaster
- newChild = unaryApplyChanges child resChild
- newMasterKeys = sort . Map.keys $ newMaster
- newChildKeys = sort . Map.keys $ newChild
- in (True, sort (Map.keys master), sort (Map.keys master)) @=?
- (newMasterKeys == newChildKeys, newMasterKeys, newChildKeys)
-
-prop_unaryApplyChanges3 :: SyncCollection Int -> SyncCollection Int -> SyncCollection Int -> Result
-prop_unaryApplyChanges3 master child lastChild =
- let (resMaster, resChild) = syncBiDir master child lastChild
- newMaster = unaryApplyChanges master resMaster
- newChild = unaryApplyChanges child resChild
- in newMaster @=? newChild
-
-allt = [qctest "Empty" prop_empty,
- qctest "Del all from child" prop_delAllFromChild,
- qctest "Del all from master" prop_delAllFromMaster,
- qctest "Add from master" prop_addFromMaster,
- qctest "All changes to child" prop_allChangesToChild,
- qctest "All changes to master" prop_allChangesToMaster,
- qctest "All changes" prop_allChanges,
- qctest "unaryApplyChanges" prop_unaryApplyChanges,
- qctest "unaryApplyChangesId" prop_unaryApplyChangesId,
- qctest "unaryApplyChanges3" prop_unaryApplyChanges3
- ]
+allt = [tl "TestSyncable" TestSyncable.allt,
+ tl "TestConnection" TestConnection.allt,
+ tl "TestParser" TestParser.allt]
testh = HU.runTestTT $ HU.TestList allt
testv = runVerbTestText (HU.putTextToHandle stderr True) $ HU.TestList allt