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-- | This is the module which binds it all together
--
{-# LANGUAGE GeneralizedNewtypeDeriving #-}
module Hakyll.Core.Run where
import Control.Applicative
import Control.Monad.Reader
import Control.Monad.State
import Control.Monad.Trans
import Control.Arrow ((&&&))
import Control.Monad (foldM, forM_, forM, filterM)
import Data.Map (Map)
import qualified Data.Map as M
import Data.Monoid (mempty)
import Data.Typeable (Typeable)
import Data.Binary (Binary)
import System.FilePath ((</>))
import Control.Applicative ((<$>))
import Data.Set (Set)
import qualified Data.Set as S
import Hakyll.Core.Route
import Hakyll.Core.Identifier
import Hakyll.Core.Util.File
import Hakyll.Core.Compiler
import Hakyll.Core.Compiler.Internal
import Hakyll.Core.ResourceProvider
import Hakyll.Core.ResourceProvider.FileResourceProvider
import Hakyll.Core.Rules
import Hakyll.Core.DirectedGraph
import Hakyll.Core.DirectedGraph.Dot
import Hakyll.Core.DirectedGraph.DependencySolver
import Hakyll.Core.DirectedGraph.ObsoleteFilter
import Hakyll.Core.Writable
import Hakyll.Core.Store
import Hakyll.Core.CompiledItem
hakyll :: Rules -> IO ()
hakyll rules = do
store <- makeStore "_store"
provider <- fileResourceProvider
let ruleSet = runRules rules provider
compilers = rulesCompilers ruleSet
runReaderT (unHakyll (addNewCompilers [] compilers)) $
env ruleSet provider store
where
env ruleSet provider store = HakyllEnvironment
{ hakyllRoute = rulesRoute ruleSet
, hakyllResourceProvider = provider
, hakyllStore = store
, hakyllModified = S.empty
}
data HakyllEnvironment = HakyllEnvironment
{ hakyllRoute :: Route
, hakyllResourceProvider :: ResourceProvider
, hakyllStore :: Store
, hakyllModified :: Set Identifier
}
newtype Hakyll a = Hakyll
{ unHakyll :: ReaderT HakyllEnvironment IO a
} deriving (Functor, Applicative, Monad)
-- | Return a set of modified identifiers
--
modified :: ResourceProvider -- ^ Resource provider
-> Store -- ^ Store
-> [Identifier] -- ^ Identifiers to check
-> IO (Set Identifier) -- ^ Modified resources
modified provider store ids = fmap S.fromList $ flip filterM ids $ \id' ->
if resourceExists provider id' then resourceModified provider id' store
else return False
-- | Add a number of compilers and continue using these compilers
--
addNewCompilers :: [(Identifier, Compiler () CompileRule)]
-- ^ Remaining compilers yet to be run
-> [(Identifier, Compiler () CompileRule)]
-- ^ Compilers to add
-> Hakyll ()
addNewCompilers oldCompilers newCompilers = Hakyll $ do
-- Get some information
provider <- hakyllResourceProvider <$> ask
store <- hakyllStore <$> ask
let -- All compilers
compilers = oldCompilers ++ newCompilers
-- Get all dependencies for the compilers
dependencies = flip map compilers $ \(id', compiler) ->
let deps = runCompilerDependencies compiler provider
in (id', deps)
-- Create a compiler map (Id -> Compiler)
compilerMap = M.fromList compilers
-- Create the dependency graph
graph = fromList dependencies
-- Check which items are up-to-date. This only needs to happen for the new
-- compilers
modified' <- liftIO $ modified provider store $ map fst compilers
let -- Try to reduce the graph using this modified information
reducedGraph = filterObsolete modified' graph
let -- Solve the graph
ordered = solveDependencies reducedGraph
-- Join the order with the compilers again
orderedCompilers = map (id &&& (compilerMap M.!)) ordered
-- Now run the ordered list of compilers
local (updateModified modified') $ unHakyll $ runCompilers orderedCompilers
where
-- Add the modified information for the new compilers
updateModified modified' env = env
{ hakyllModified = hakyllModified env `S.union` modified'
}
runCompilers :: [(Identifier, Compiler () CompileRule)]
-- ^ Ordered list of compilers
-> Hakyll ()
-- ^ No result
runCompilers [] = return ()
runCompilers ((id', compiler) : compilers) = Hakyll $ do
-- Obtain information
route' <- hakyllRoute <$> ask
provider <- hakyllResourceProvider <$> ask
store <- hakyllStore <$> ask
modified' <- hakyllModified <$> ask
let -- Determine the URL
url = runRoute route' id'
-- Check if the resource was modified
isModified = id' `S.member` modified'
-- Run the compiler
result <- liftIO $ runCompiler compiler id' provider url store isModified
liftIO $ putStrLn $ "Generated target: " ++ show id'
case result of
-- Compile rule for one item, easy stuff
CompileRule compiled -> do
case url of
Nothing -> return ()
Just r -> liftIO $ do
putStrLn $ "Routing " ++ show id' ++ " to " ++ r
let path = "_site" </> r
makeDirectories path
write path compiled
liftIO $ putStrLn ""
-- Continue for the remaining compilers
unHakyll $ runCompilers compilers
-- Metacompiler, slightly more complicated
MetaCompileRule newCompilers -> do
-- Actually I was just kidding, it's not hard at all
unHakyll $ addNewCompilers compilers newCompilers
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