{-# LANGUAGE GeneralizedNewtypeDeriving, DeriveDataTypeable, ScopedTypeVariables #-} {-# LANGUAGE TypeFamilies, ConstraintKinds #-} module Development.Shake.Internal.Rules.Oracle( addOracle, addOracleCache, addOracleHash, askOracle, askOracles ) where import Development.Shake.Internal.Core.Types import Development.Shake.Internal.Core.Rules import Development.Shake.Internal.Options import Development.Shake.Internal.Core.Build import Development.Shake.Internal.Value import Development.Shake.Classes import qualified Data.ByteString as BS import qualified Data.ByteString.Lazy as LBS import Control.Monad import Data.Binary import General.Binary import General.Extra -- Use short type names, since the names appear in the Haddock, and are too long if they are in full newtype OracleQ question = OracleQ question deriving (Show,Typeable,Eq,Hashable,Binary,NFData) newtype OracleA answer = OracleA answer deriving (Show,Typeable,Eq,Hashable,Binary,NFData) fromOracleA :: OracleA a -> a fromOracleA (OracleA x) = x type instance RuleResult (OracleQ a) = OracleA (RuleResult a) data Flavor = Norm | Cache | Hash deriving Eq addOracleFlavor :: (Located, RuleResult q ~ a, ShakeValue q, ShakeValue a) => Flavor -> (q -> Action a) -> Rules (q -> Action a) addOracleFlavor flavor act = do -- rebuild is automatic for oracles, skip just means we don't rebuild opts <- getShakeOptionsRules let skip = shakeRebuildApply opts "" == RebuildLater addBuiltinRule noLint (\_ v -> Just $ runBuilder $ putEx $ hash v) $ \(OracleQ q) old mode -> case old of Just old | (flavor /= Hash && skip) || (flavor == Cache && mode == RunDependenciesSame) -> return $ RunResult ChangedNothing old $ decode' old _ -> do -- can only use cmpHash if flavor == Hash let cmpValue new = if fmap decode' old == Just new then ChangedRecomputeSame else ChangedRecomputeDiff let cmpHash newHash = if old == Just newHash then ChangedRecomputeSame else ChangedRecomputeDiff cache <- if flavor == Cache then historyLoad 0 else return Nothing case cache of Just newEncode -> do let new = decode' newEncode return $ RunResult (cmpValue new) newEncode new Nothing -> do new <- OracleA <$> act q let newHash = encodeHash new let newEncode = encode' new when (flavor == Cache) $ historySave 0 newEncode return $ if flavor == Hash then RunResult (cmpHash newHash) newHash new else RunResult (cmpValue new) newEncode new return askOracle where encodeHash :: Hashable a => a -> BS.ByteString encodeHash = runBuilder . putEx . hash encode' :: Binary a => a -> BS.ByteString encode' = BS.concat . LBS.toChunks . encode decode' :: Binary a => BS.ByteString -> a decode' = decode . LBS.fromChunks . return -- | Add extra information which rules can depend on. -- An oracle is a function from a question type @q@, to an answer type @a@. -- As an example, we can define an oracle allowing you to depend on the current version of GHC: -- -- @ -- newtype GhcVersion = GhcVersion () deriving (Show,Typeable,Eq,Hashable,Binary,NFData) -- type instance RuleResult GhcVersion = String -- rules = do -- 'addOracle' $ \\(GhcVersion _) -> 'Development.Shake.fromStdout' \<$\> 'Development.Shake.cmd' \"ghc --numeric-version\" :: Action String -- ... rules ... -- @ -- -- If a rule calls @'askOracle' (GhcVersion ())@, that rule will be rerun whenever the GHC version changes. -- Some notes: -- -- * We define @GhcVersion@ with a @newtype@ around @()@, allowing the use of @GeneralizedNewtypeDeriving@. -- All the necessary type classes are exported from "Development.Shake.Classes". -- -- * The @type instance@ requires the extension @TypeFamilies@. -- -- * Each call to 'addOracle' must use a different type of question. -- -- * Actions passed to 'addOracle' will be run in every build they are required, even if nothing else changes, -- so be careful of slow actions. -- If the result of an oracle does not change it will not invalidate any rules depending on it. -- To always rerun files rules see 'Development.Shake.alwaysRerun'. -- -- As a more complex example, consider tracking Haskell package versions: -- -- @ -- newtype GhcPkgList = GhcPkgList () deriving (Show,Typeable,Eq,Hashable,Binary,NFData) -- type instance RuleResult GhcPkgList = [(String, String)] -- newtype GhcPkgVersion = GhcPkgVersion String deriving (Show,Typeable,Eq,Hashable,Binary,NFData) -- type instance RuleResult GhcPkgVersion = Maybe String -- -- rules = do -- getPkgList \<- 'addOracle' $ \\GhcPkgList{} -> do -- Stdout out <- 'Development.Shake.cmd' \"ghc-pkg list --simple-output\" -- return [(reverse b, reverse a) | x <- words out, let (a,_:b) = break (== \'-\') $ reverse x] -- -- getPkgVersion \<- 'addOracle' $ \\(GhcPkgVersion pkg) -> do -- pkgs <- getPkgList $ GhcPkgList () -- return $ lookup pkg pkgs -- -- \"myrule\" %> \\_ -> do -- getPkgVersion $ GhcPkgVersion \"shake\" -- ... rule using the shake version ... -- @ -- -- Using these definitions, any rule depending on the version of @shake@ -- should call @getPkgVersion $ GhcPkgVersion \"shake\"@ to rebuild when @shake@ is upgraded. -- -- If you apply 'versioned' to an oracle it will cause that oracle result to be discarded, and not do early-termination. addOracle :: (RuleResult q ~ a, ShakeValue q, ShakeValue a, Partial) => (q -> Action a) -> Rules (q -> Action a) addOracle = withFrozenCallStack $ addOracleFlavor Norm -- | An alternative to to 'addOracle' that relies on the 'hash' function providing a perfect equality, -- doesn't support @--skip@, but requires less storage. addOracleHash :: (RuleResult q ~ a, ShakeValue q, ShakeValue a, Partial) => (q -> Action a) -> Rules (q -> Action a) addOracleHash = withFrozenCallStack $ addOracleFlavor Hash -- | A combination of 'addOracle' and 'newCache' - an action that only runs when its dependencies change, -- whose result is stored in the database. -- -- * Does the information need recomputing every time? e.g. looking up stuff in the environment? -- If so, use 'addOracle' instead. -- -- * Is the action mostly deserisalising some file? If so, use 'newCache'. -- -- * Is the operation expensive computation from other results? If so, use 'addOracleCache'. -- -- An alternative to using 'addOracleCache' is introducing an intermediate file containing the result, -- which requires less storage in the Shake database and can be inspected by existing file-system viewing -- tools. addOracleCache ::(RuleResult q ~ a, ShakeValue q, ShakeValue a, Partial) => (q -> Action a) -> Rules (q -> Action a) addOracleCache = withFrozenCallStack $ addOracleFlavor Cache -- | Get information previously added with 'addOracle' or 'addOracleCache'. -- The question/answer types must match those provided previously. askOracle :: (RuleResult q ~ a, ShakeValue q, ShakeValue a) => q -> Action a askOracle = fmap fromOracleA . apply1 . OracleQ -- | A parallel version of 'askOracle'. askOracles :: (RuleResult q ~ a, ShakeValue q, ShakeValue a) => [q] -> Action [a] askOracles = fmap (map fromOracleA) . apply . map OracleQ