Make a couple improvements in performance + add an example script to extract pages from a PDF

2020-05-28 18:54:15 +02:00 · 2020-05-28 18:54:15 +02:00 · d9f69014a0
parent f6664683c7
commit d9f69014a0
17 changed files with 448 additions and 258 deletions
--- a/Hufflepdf.cabal
+++ b/Hufflepdf.cabal
@ -59,7 +59,7 @@ executable             equivalent
  build-depends:       base
                     , bytestring
                     , Hufflepdf
-  ghc-options:         -Wall
+  ghc-options:         -Wall -rtsopts
  default-language:    Haskell2010
 executable             getObj
@ -69,7 +69,7 @@ executable             getObj
                     , containers
                     , Hufflepdf
                     , mtl
-  ghc-options:         -Wall
+  ghc-options:         -Wall -rtsopts
  default-language:    Haskell2010
 executable             getText
@ -77,9 +77,34 @@ executable             getText
  build-depends:       base
                     , bytestring
                     , containers
                     , ExceptIOH
                     , Hufflepdf
                     , mtl
                     , text
-  ghc-options:         -Wall
+  ghc-options:         -Wall -rtsopts
  default-language:    Haskell2010
 executable             pdfCut
  main-is:             examples/pdfCut.hs
  build-depends:       base
                     , bytestring
                     , containers
                     , ExceptIOH
                     , filepath
                     , Hufflepdf
                     , mtl
                     , text
  ghc-options:         -Wall -rtsopts
  default-language:    Haskell2010
 executable             fixMermoz
  main-is:             examples/fixMermoz.hs
  build-depends:       base
                     , bytestring
                     , ExceptIOH
                     , Hufflepdf
                     , mtl
  ghc-options:         -Wall -rtsopts
  default-language:    Haskell2010
 Test-Suite unitTests
--- a/examples/getObj.hs
+++ b/examples/getObj.hs
@ -1,8 +1,6 @@
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE GeneralizedNewtypeDeriving #-}
 import Control.Monad.Fail (MonadFail(..))
 import Control.Monad.Reader (ReaderT, runReaderT)
 import Data.ByteString.Lazy.Char8 (ByteString)
 import qualified Data.ByteString.Char8 as BS (readFile)
@ -13,7 +11,7 @@ import PDF.Box (Box(..))
 import PDF.Layer (Layer(..), unify)
 import PDF.Object (Object(..))
 import PDF.Object.Navigation (
-    Clear(..), Raw(..), (//), objectById, catalog
+    Nav(..), PPath(..), StreamContent(..), (//), objectById, catalog
  )
 import PDF.Output (Output)
 import qualified PDF.Output as Output (render)
@ -23,33 +21,27 @@ import System.Exit (die)
 import Text.Printf (printf)
 import Text.Read (readMaybe)
 newtype Error a = Error {
    runError :: Either String a
  } deriving (Functor, Applicative, Monad)
 instance MonadFail Error where
  fail = Error . Left
 decodedStream :: Object -> Object
 decodedStream object =
-  maybe object id $ r Clear object >>= flip (w Raw) object
+  either (const object) id $ r Clear object >>= flip (w Raw) object
-display :: Output a => ReaderT Layer Error a -> Document -> Either String ByteString
+display :: Functor m => Output a => ReaderT Layer m a -> Document -> m ByteString
 display getter (Document {eolStyle, layers}) =
-  Output.render eolStyle <$> runError (runReaderT getter (unify layers))
+  Output.render eolStyle <$> runReaderT getter (unify layers)
 parse :: [String] -> IO (FilePath, Document -> Either String ByteString)
-parse [inputFile] = return (inputFile, display catalog)
+parse [inputFile] = return (inputFile, display $ value <$> catalog)
 parse [inputFile, key] =
  return (inputFile, clear . maybe (byPath key) byId $ readMaybe key)
  where
    byId = objectById . Id
-    byPath path = catalog // (explode path)
+    byPath path = (catalog // PPath (explode path))
    explode "" = []
    explode path =
      case break (== '.') path of
        (name, "") -> [name]
        (name, rest) -> name : explode (drop 1 rest)
-    clear = display . fmap decodedStream
+    clear = display . fmap (decodedStream . value)
 parse _ =
  die . printf "Syntax: %s inputFile [OBJECT_ID | PATH_TO_OBJ]\n" =<< getProgName
--- a/examples/getText.hs
+++ b/examples/getText.hs
@ -1,5 +1,7 @@
 {-# LANGUAGE FlexibleContexts #-}
 import Control.Monad ((>=>))
 import Control.Monad.Except (ExceptT(..))
 import Control.Monad.Except.IOH (handle)
 import Control.Monad.IO.Class (liftIO)
 import qualified Data.ByteString.Char8 as BS (readFile)
 import Data.Id (Id(..), mapWithKey)
@ -9,7 +11,7 @@ import qualified Data.Text as Text (unpack)
 import PDF (UnifiedLayers(..), parseDocument)
 import PDF.Box (Box(..))
 import PDF.Content.Text (Chunks(..))
-import PDF.Layer (Layer)
+import PDF.Layer (Layer, LayerReader)
 import PDF.Pages (
      Contents(..), FontCache, Page(..), PageNumber(..), Pages(..), withFonts
    , withResources
@ -19,7 +21,7 @@ import System.Exit (die)
 import System.IO (BufferMode(..), hSetBuffering, stdout)
 import Text.Printf (printf)
-displayPage :: Int -> Page -> FontCache IO ()
+displayPage :: Int -> Page -> FontCache (LayerReader (ExceptT String IO)) ()
 displayPage n = withResources (
      r Contents
    >=> sequence_ . mapi (\objectId ->
@ -31,22 +33,22 @@ displayPage n = withResources (
      liftIO . putStrLn $
        printf "p#%d obj#%d instr#%d: %s" n (getId a) (getId b) (Text.unpack v)
-getAll :: Layer -> IO ()
+getAll :: Layer -> ExceptT String IO ()
 getAll = withFonts $ r Pages >=> sequence_ . Map.mapWithKey displayPage
-get :: Int -> Layer -> IO ()
+get :: Int -> Layer -> ExceptT String IO ()
 get n = withFonts $ r (P n) >=> displayPage n
-onDoc :: FilePath -> (Layer -> IO ()) -> IO ()
+onDoc :: FilePath -> (Layer -> ExceptT String IO ()) -> ExceptT String IO ()
-onDoc inputFile f = do
+onDoc inputFile f =
-    (parseDocument <$> BS.readFile inputFile)
+  ExceptT (parseDocument <$> BS.readFile inputFile) >>= r UnifiedLayers >>= f
  >>= either die (r UnifiedLayers >=> f)
 main :: IO ()
 main = do
  hSetBuffering stdout LineBuffering
  args <- getArgs
  case args of
-    [inputFile] -> onDoc inputFile getAll
+    [inputFile] -> onDoc inputFile getAll `handle` die
-    [inputFile, pageNumber] -> onDoc inputFile (get $ read pageNumber)
+    [inputFile, pageNumber] ->
      onDoc inputFile (get $ read pageNumber) `handle` die
    _ -> die "Syntax: getText INPUT_FILE [PAGE_NUMBER]"
--- a/examples/pdfCut.hs
+++ b/examples/pdfCut.hs
@ -0,0 +1,41 @@
 import Control.Monad.State (MonadState(..), evalStateT)
 import Control.Monad.Except.IOH (handle)
 import Control.Monad.Trans (lift)
 import qualified Data.ByteString.Char8 as BS (readFile)
 import qualified Data.ByteString.Lazy.Char8 as Lazy (writeFile)
 import Data.Map ((!), fromSet)
 import qualified Data.Set as Set (fromList)
 import PDF (Document, UnifiedLayers(..), parseDocument, render)
 import PDF.Box (at)
 import PDF.Pages (Pages(..))
 import System.Environment (getArgs)
 import System.Exit (die)
 import System.FilePath (replaceBaseName, takeBaseName)
 import Text.Read (readEither)
 parseRange :: String -> Either String (Int, Int)
 parseRange = evalStateT $ do
  from <- lift . readEither =<< state (break (== '-'))
  get >>= makeRange from
  where
    makeRange from "" = return (from, from)
    makeRange from (_:to) = (,) from <$> lift (readEither to)
 cut :: (Int, Int) -> Document -> IO Document
 cut (p1, p2) doc = ((
      at UnifiedLayers .at Pages $ \pages ->
      return $ fromSet (pages!) $ Set.fromList [pMin .. pMax]
    ) doc) `handle` die
  where
    (pMin, pMax) = (min p1 p2, max p1 p2)
 main :: IO ()
 main = do
  [inputPath, inputRange] <- getArgs
  range <- catchLeft $ parseRange inputRange
  doc <- catchLeft =<< parseDocument <$> BS.readFile inputPath
  Lazy.writeFile (outputPath inputPath inputRange) . render =<< cut range doc
  where
    catchLeft = either die return
    outputPath fileName range =
      replaceBaseName fileName (takeBaseName fileName ++ "_p" ++ range)
--- a/src/Data/ByteString/Char8/Util.hs
+++ b/src/Data/ByteString/Char8/Util.hs
@ -14,7 +14,7 @@ module Data.ByteString.Char8.Util (
  ) where
 import Data.ByteString (ByteString, snoc)
-import qualified Data.ByteString as BS (empty, foldl, length, pack, singleton, splitAt)
+import qualified Data.ByteString as BS (empty, foldl', length, pack, singleton, splitAt)
 import qualified Data.ByteString.Char8 as Char8 (
    cons, drop, index, splitAt, take, uncons, unpack
  )
@ -43,7 +43,7 @@ intToB256 n
    B256Int $ begining `snoc` (toEnum (n `mod` 0x100))
 b256ToInt :: B256Int -> Int
-b256ToInt (B256Int n) = BS.foldl (\k w -> 0x100*k + fromEnum w) 0 n
+b256ToInt (B256Int n) = BS.foldl' (\k w -> 0x100*k + fromEnum w) 0 n
 toBytes :: Int -> Int -> ByteString
 toBytes 0 _ = BS.empty
--- a/src/Data/Id.hs
+++ b/src/Data/Id.hs
@ -8,6 +8,7 @@ module Data.Id (
    , at
    , delete
    , empty
    , filterWithKey
    , fromList
    , insert
    , keysSet
@ -21,11 +22,11 @@ module Data.Id (
    , union
  ) where
-import Control.Monad.State (MonadState, modify, gets)
+import Control.Monad.State.Strict (MonadState, modify, gets)
 import Data.IntMap (IntMap, (!))
 import qualified Data.IntMap as IntMap (
-      delete, empty, fromList, keysSet, insert, lookup, mapWithKey, maxViewWithKey
+      delete, empty, filterWithKey, fromList, keysSet, insert, lookup
-    , member, minViewWithKey, size, union
+    , mapWithKey, maxViewWithKey, member, minViewWithKey, size, union
  )
 import Data.IntSet (IntSet)
 import Prelude hiding (lookup)
@ -74,6 +75,9 @@ union (IdMap intMap1) (IdMap intMap2) =
 mapWithKey :: (Id a -> b -> c) -> IdMap a b -> IdMap a c
 mapWithKey f (IdMap idMap) = IdMap {intMap = IntMap.mapWithKey (f . Id) idMap}
 filterWithKey :: (Id a -> b -> Bool) -> IdMap a b -> IdMap a b
 filterWithKey f = IdMap . IntMap.filterWithKey (f . Id) . intMap
 fromList :: [(Id a, b)] -> IdMap a b
 fromList = IdMap . IntMap.fromList . fmap (\(key, b) -> (getId key, b))
--- a/src/PDF/Box.hs
+++ b/src/PDF/Box.hs
@ -1,7 +1,6 @@
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE FunctionalDependencies #-}
 {-# LANGUAGE FlexibleInstances #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE UndecidableInstances #-}
 {-# LANGUAGE ScopedTypeVariables #-}
 module PDF.Box (
@ -17,8 +16,8 @@ module PDF.Box (
 import Control.Monad.Except (ExceptT(..), runExceptT)
 import Control.Monad.Fail (MonadFail(..))
 import Control.Monad.State (MonadState(..))
 import Control.Monad.Reader (ReaderT, runReaderT)
 import Control.Monad.State (MonadState(..))
 import Data.Id (Id, IdMap)
 import qualified Data.Id as Id (insert, lookup)
 import Data.Map (Map)
--- a/src/PDF/CMap.hs
+++ b/src/PDF/CMap.hs
@ -1,15 +1,17 @@
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE OverloadedStrings #-}
 {-# LANGUAGE FlexibleContexts #-}
 module PDF.CMap (
      CMap
    , CMappers
    , CRange(..)
    , cMap
    , matches
    , parse
  ) where
 import Control.Applicative ((<|>), many)
-import Control.Monad.Fail (MonadFail(..))
+import Control.Monad.Except (MonadError(..))
 import Control.Monad.Fail (fail)
 import Control.Monad.State (modify)
 import Data.Attoparsec.ByteString.Char8 (count)
 import Data.ByteString (ByteString)
@ -18,6 +20,7 @@ import Data.ByteString.Char8 (unpack)
 import Data.ByteString.Char8.Util (
    B16Int(..), b16ToBytes, b16ToInt, toBytes, utf16BEToutf8
  )
 import Data.Foldable (foldl', foldr')
 import Data.Map (Map, mapWithKey, union)
 import qualified Data.Map as Map (
    adjust, empty, fromList, insert, insertWith, lookup, toList
@ -75,7 +78,7 @@ encoder :: Map Size FromUnicode -> Encoder
 encoder fromUnicodes input
  | Text.null input = Right ""
  | otherwise =
-    foldl (<>) (Left "No encoding found") $ mapWithKey tryOn fromUnicodes
+    foldr' (<>) (Left "No encoding found") $ mapWithKey tryOn fromUnicodes
    where
      tryOn size fromUnicode =
        let (prefix, end) = Text.splitAt size input in
@ -87,8 +90,8 @@ matches :: ByteString -> CRange -> Bool
 matches code (CRange {fromSequence, toSequence}) =
  fromSequence <= code && code <= toSequence
-cMap :: MonadFail m => ByteString -> m Font
+parse :: MonadError String m => ByteString -> m Font
-cMap = either fail (return . toFont . snd) . runParser
+parse = either throwError (return . toFont . snd) . runParser
  (many (codeRanges <|> cMapRange <|> cMapChar <|> ignoredLine))
  emptyCMap
  where
@ -148,7 +151,7 @@ saveToUnicodeBySize assoc@((code, _):_) = Map.adjust insertCRange (BS.length cod
      )
 saveFromUnicodeBySize :: [(Text, ByteString)] -> Map Size FromUnicode -> Map Size FromUnicode
-saveFromUnicodeBySize = flip (foldl insertFromUnicode)
+saveFromUnicodeBySize = flip (foldl' insertFromUnicode)
  where
    insertFromUnicode :: Map Size FromUnicode -> (Text, ByteString) -> Map Size FromUnicode
    insertFromUnicode tmpFromUnicodeBySize (unicodeSequence, code) =
--- a/src/PDF/Content.hs
+++ b/src/PDF/Content.hs
@ -9,54 +9,77 @@ module PDF.Content (
      Content(..)
    , ContentUnit(..)
    , GraphicContextUnit(..)
    , IdContentUnit
    , IdGraphicContextUnit
    , IdTextContext
    , Instructions(..)
    , TextContext
    , parse
  ) where
 import Control.Applicative ((<|>))
 import Control.Monad.Fail (MonadFail)
 import Control.Monad.Reader (asks, runReader)
-import Control.Monad.State (evalStateT, modify)
+import Control.Monad.State.Strict (runState, evalStateT, modify)
 import Data.Attoparsec.ByteString.Char8 (sepBy)
 import qualified Data.Attoparsec.ByteString.Char8 as Atto (Parser, parseOnly)
 import Data.ByteString (ByteString)
 import Data.Id (Id(..), Indexed, at, empty, register)
 import PDF.Box (Box(..))
 import PDF.Content.Operator (Instruction, operator)
 import PDF.Object (blank, directObject)
 import PDF.Output (Output(..), line)
-import PDF.Parser (Parser, runParser, string)
+import PDF.Parser (string)
 data Instructions = Instructions
-data GraphicContextUnit =
+data GraphicContextUnit a =
-    GraphicInstruction (Id Instruction)
+    GraphicInstruction a
-  | ContentUnit ContentUnit
+  | ContentUnit (ContentUnit a)
  deriving Show
-type TextContext = [Id Instruction]
+type TextContext a = [a]
-data ContentUnit =
+data ContentUnit a =
-    GraphicContext [GraphicContextUnit]
+    GraphicContext [GraphicContextUnit a]
-  | TextContext TextContext
+  | TextContext (TextContext a)
  deriving Show
 data Content = Content {
-      contentUnits :: [ContentUnit]
+      contentUnits :: [IdContentUnit]
    , indexedInstructions :: Indexed Instruction
    , firstError :: Maybe String
  } deriving Show
-type InstructionParser = Parser (Indexed Instruction)
+type TmpContentUnit = ContentUnit Instruction
 type TmpGraphicContextUnit = GraphicContextUnit Instruction
 type TmpTextContext = TextContext Instruction
 type IdContentUnit = ContentUnit (Id Instruction)
 type IdGraphicContextUnit = GraphicContextUnit (Id Instruction)
 type IdTextContext = TextContext (Id Instruction)
 instance Monad m => Box m Instructions Content (Indexed Instruction) where
  r Instructions = return . indexedInstructions
  w Instructions indexedInstructions someContent =
    return $ someContent {indexedInstructions}
-parse :: MonadFail m => ByteString -> m Content
+parse :: ByteString -> Content
-parse =
+parse input =
-  either fail (return . uncurry Content) . runParser contentUnits empty
+  let result = Atto.parseOnly (contentUnit `sepBy` blank) input in
-  where
+  let (contentUnits, indexedInstructions) = either (const ([], empty)) buildContent result in
-    contentUnits = contentUnit `sepBy` blank
+  let firstError = either Just (const Nothing) result in
  Content {contentUnits, indexedInstructions, firstError}
-contentUnit :: InstructionParser ContentUnit
+buildContent :: [TmpContentUnit] -> ([IdContentUnit], Indexed Instruction)
 buildContent instructionContentUnits =
  runState (mapM registerContentUnit instructionContentUnits) empty
  where
    registerContentUnit (GraphicContext gc) =
      GraphicContext <$> (mapM registerGraphicContext gc)
    registerContentUnit (TextContext tc) = TextContext <$> (mapM register tc)
    registerGraphicContext (GraphicInstruction gi) =
      GraphicInstruction <$> (register gi)
    registerGraphicContext (ContentUnit cu) =
      ContentUnit <$> (registerContentUnit cu)
 contentUnit :: Atto.Parser TmpContentUnit
 contentUnit =
    (GraphicContext <$> graphicContext)
  <|> (TextContext <$> textContext)
@ -64,18 +87,18 @@ contentUnit =
    graphicContext =
      string "q" *> blank *> graphicContextUnit `sepBy` blank <* blank <* string "Q"
-graphicContextUnit :: InstructionParser GraphicContextUnit
+graphicContextUnit :: Atto.Parser TmpGraphicContextUnit
 graphicContextUnit =
    (GraphicInstruction <$> instruction)
  <|> (ContentUnit <$> contentUnit)
-instruction :: InstructionParser (Id Instruction)
+instruction :: Atto.Parser Instruction
-instruction = evalStateT stackParser [] >>= register
+instruction = evalStateT stackParser []
  where
    stackParser = ((directObject <* blank) >>= push) <|> operator
    push arg = modify (arg:) *> stackParser
-textContext :: InstructionParser TextContext
+textContext :: Atto.Parser TmpTextContext
 textContext =
  string "BT" *> blank *> instruction `sepBy` blank <* blank <* string "ET"
--- a/src/PDF/Content/Text.hs
+++ b/src/PDF/Content/Text.hs
@ -1,24 +1,22 @@
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE OverloadedStrings #-}
 {-# LANGUAGE ConstraintKinds #-}
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE TypeSynonymInstances #-}
 {-# LANGUAGE FlexibleInstances #-}
 {-# LANGUAGE MultiParamTypeClasses #-}
 module PDF.Content.Text (
      Chunks(..)
    , chunk
    , format
    , renderText
  ) where
 import Control.Monad (foldM)
 import Control.Monad.Fail (MonadFail(..))
-import Control.Monad.Reader (MonadReader(..), ReaderT, asks, runReaderT)
+import Control.Monad.Reader (ReaderT, asks, runReaderT)
 import Control.Monad.State (
    MonadState(..), StateT, evalStateT, gets, modify, runStateT
  )
 import Control.Monad.Trans (lift)
 import qualified Data.ByteString.Char8 as BS (concatMap, singleton)
 import Data.Id (Id(..), Indexed, at, empty, singleton)
 import qualified Data.Id as Id (delete, lookup, register)
 import Data.Map ((!))
@ -26,27 +24,20 @@ import Data.Text (Text, breakOn)
 import qualified Data.Text as Text (drop)
 import PDF.Box (Box(..))
 import PDF.Content (
-      Content, ContentUnit(..), GraphicContextUnit(..), contentUnits
+      Content(..), ContentUnit(..), GraphicContextUnit(..), IdContentUnit
    , IdGraphicContextUnit
  )
 import qualified PDF.Content as Content (Content(..))
 import PDF.Content.Operator (Instruction, Operator(..))
 import PDF.Content.Operator.Text (Operator(..))
 import PDF.Font (Font(..), FontSet, emptyFont)
 import PDF.Object (DirectObject(..), StringObject(..), toByteString)
 import Prelude hiding (fail)
-data ROContext = ROContext {
+type TmpFont = StateT Font
-      indexedInstructions :: Indexed Instruction
+type Renderer m = ReaderT (Indexed Instruction) (ReaderT FontSet m)
    , fontSet :: FontSet
  }
 type TextContent m = ReaderT ROContext m
 type FontContext m = StateT Font (TextContent m)
 type Updater m = StateT (Indexed Instruction) (ReaderT (Indexed Text) (ReaderT FontSet m))
 type TextUpdater m = StateT Font (Updater m)
-decodeString :: MonadFail m => StringObject -> FontContext m Text
+decodeString :: MonadFail m => StringObject -> TmpFont (Renderer m) Text
 decodeString input = do
  Font {decode} <- get
  either fail return . decode $ toByteString input
@ -57,56 +48,53 @@ chunk :: Int -> Id Text
 chunk = Id
 instance MonadFail m => Box (ReaderT FontSet m) Chunks Content (Indexed Text) where
-  r Chunks content = do
+  r Chunks content =
-    fontSet <- ask
+    runReaderT (mconcat <$> renderer) $ indexedInstructions content
-    renderText fontSet content
+    where
      renderer = mapM renderContentUnit (contentUnits content)
-  w Chunks indexedText (Content.Content {contentUnits, Content.indexedInstructions}) =
+  w Chunks indexedText content = do
-    uncurry Content.Content <$> runReaderT (
+    (contentUnits, indexedInstructions) <- runReaderT readerUpdate indexedText
-        runStateT (mapM updateContentUnit contentUnits) indexedInstructions
+    return $ content {contentUnits, indexedInstructions}
-      ) indexedText
+    where
      stateUpdate = mapM updateContentUnit (contentUnits content)
      readerUpdate = runStateT stateUpdate (indexedInstructions content)
-renderText :: MonadFail m => FontSet -> Content -> m (Indexed Text)
+renderContentUnit :: MonadFail m => IdContentUnit -> Renderer m (Indexed Text)
 renderText fontSet (Content.Content {contentUnits, Content.indexedInstructions}) =
  runReaderT (mconcat <$> mapM renderContentUnit contentUnits) roContext
  where
    roContext = ROContext {indexedInstructions, fontSet}
 renderContentUnit :: MonadFail m => ContentUnit -> TextContent m (Indexed Text)
 renderContentUnit (GraphicContext graphicContextUnits) =
  mconcat <$> mapM renderGraphicContextUnit graphicContextUnits
 renderContentUnit (TextContext instructionIds) =
  evalStateT (mconcat <$> mapM renderInstructionId instructionIds) emptyFont
-updateContentUnit :: MonadFail m => ContentUnit -> Updater m ContentUnit
+updateContentUnit :: MonadFail m => IdContentUnit -> Updater m IdContentUnit
 updateContentUnit (GraphicContext graphicContextUnits) = GraphicContext <$>
  mapM updateGraphicContextUnit graphicContextUnits
 updateContentUnit (TextContext instructionIds) = TextContext . concat <$>
  evalStateT (mapM updateInstructionId instructionIds) emptyFont
-renderGraphicContextUnit :: MonadFail m => GraphicContextUnit -> TextContent m (Indexed Text)
+renderGraphicContextUnit :: MonadFail m => IdGraphicContextUnit -> Renderer m (Indexed Text)
 renderGraphicContextUnit (GraphicInstruction _) = return empty
 renderGraphicContextUnit (ContentUnit contentUnit) =
  renderContentUnit contentUnit
-updateGraphicContextUnit :: MonadFail m => GraphicContextUnit -> Updater m GraphicContextUnit
+updateGraphicContextUnit :: MonadFail m => IdGraphicContextUnit -> Updater m IdGraphicContextUnit
 updateGraphicContextUnit gI@(GraphicInstruction _) = return gI
 updateGraphicContextUnit (ContentUnit contentUnit) =
  ContentUnit <$> updateContentUnit contentUnit
-renderInstructionId :: MonadFail m => Id Instruction -> FontContext m (Indexed Text)
+renderInstructionId :: MonadFail m => Id Instruction -> TmpFont (Renderer m) (Indexed Text)
 renderInstructionId instructionId@(Id n) = toMap <$>
-  (asks ((`at` instructionId) . indexedInstructions) >>= renderInstruction)
+  (asks ((`at` instructionId)) >>= renderInstruction)
  where
    toMap = maybe empty (singleton (Id n))
-updateInstructionId :: MonadFail m => Id Instruction -> TextUpdater m [Id Instruction]
+updateInstructionId :: MonadFail m => Id Instruction -> TmpFont (Updater m) [Id Instruction]
 updateInstructionId instructionId =
  lift (gets (`at` instructionId)) >>= updateInstruction instructionId
-renderInstruction :: MonadFail m => Instruction -> FontContext m (Maybe Text)
+renderInstruction :: MonadFail m => Instruction -> TmpFont (Renderer m) (Maybe Text)
 renderInstruction (Text Tf, [NameObject fontName, _]) =
-  asks ((! fontName) . fontSet) >>= put >> return Nothing
+  lift (lift $ asks (! fontName)) >>= put >> return Nothing
 renderInstruction (Text Tstar, []) = return $ Just "\n"
@ -128,7 +116,7 @@ renderInstruction (Text DQuote, [_, _, StringObject outputString]) =
 renderInstruction _ = return Nothing
-updateInstruction :: MonadFail m => Id Instruction -> Instruction -> TextUpdater m [Id Instruction]
+updateInstruction :: MonadFail m => Id Instruction -> Instruction -> TmpFont (Updater m) [Id Instruction]
 updateInstruction instructionId (Text Tf, [NameObject fontName, _]) =
  (lift . lift . lift $ asks (!fontName)) >>= put >> return [instructionId]
@ -155,5 +143,9 @@ format input = do
    (line, left) -> (:) <$> tj line <*> format left
  where
    tj t = do
-      literal <- either fail (return . Literal) =<< gets (($t) . encode)
+      encoded <- either fail return =<< gets (($t) . encode)
-      return (Text Tj, [StringObject literal])
+      return (Text Tj, [StringObject . Literal $ BS.concatMap escape encoded])
    escape '\\' = "\\\\"
    escape '(' = "\\("
    escape ')' = "\\)"
    escape c = BS.singleton c
--- a/src/PDF/Encoding.hs
+++ b/src/PDF/Encoding.hs
@ -1,12 +1,13 @@
 {-# LANGUAGE FlexibleContexts #-}
 module PDF.Encoding (
    encoding
  ) where
-import Control.Monad.Fail (MonadFail(..))
+import Control.Monad.Except (MonadError(..))
 import PDF.Encoding.MacRoman (macRomanEncoding)
 import PDF.Font (Font)
 import Prelude hiding (fail)
-encoding :: MonadFail m => String -> m Font
+encoding :: MonadError String m => String -> m Font
 encoding "MacRomanEncoding" = return macRomanEncoding
-encoding s = fail $ "Unknown encoding " ++ s
+encoding s = throwError $ "Unknown encoding " ++ s
--- a/src/PDF/Encoding/MacRoman.hs
+++ b/src/PDF/Encoding/MacRoman.hs
@ -3,6 +3,7 @@ module PDF.Encoding.MacRoman (
  ) where
 import qualified Data.ByteString.Char8 as BS (pack, unpack)
 import Data.Foldable (foldl')
 import Data.Map (Map)
 import qualified Data.Map as Map (empty, insert, lookup)
 import qualified Data.Text as Text (pack, unpack)
@ -24,7 +25,7 @@ macRomanEncoding = Font {
          | otherwise -> Left ("Character '" ++ k :"' unavailable in MacRoman")
 mappers :: (Mapper, Mapper)
-mappers = foldl generateMapers (Map.empty, Map.empty) [
+mappers = foldl' generateMapers (Map.empty, Map.empty) [
      ('\x80', '\x00C4') -- LATIN CAPITAL LETTER A WITH DIAERESIS
    , ('\x81', '\x00C5') -- LATIN CAPITAL LETTER A WITH RING ABOVE
    , ('\x82', '\x00C7') -- LATIN CAPITAL LETTER C WITH CEDILLA
--- a/src/PDF/Layer.hs
+++ b/src/PDF/Layer.hs
@ -1,21 +1,26 @@
 {-# LANGUAGE NamedFieldPuns #-}
 {-# LANGUAGE FlexibleInstances #-}
 {-# LANGUAGE MultiParamTypeClasses #-}
 {-# LANGUAGE FlexibleContexts #-}
 module PDF.Layer (
      Layer(..)
    , LayerReader
    , Objects(..)
    , unify
  ) where
 import Control.Monad.Except (MonadError(..))
 import Control.Monad.Reader (ReaderT)
 import Data.Foldable (foldl')
 import Data.Id (Id(..), Indexed, keysSet, mapWithKey, member)
-import qualified Data.Id as Id (empty, union)
+import qualified Data.Id as Id (empty, insert, lookup, union)
 import Data.Map (Map, (!))
-import qualified Data.Map as Map (empty, union)
+import qualified Data.Map as Map (empty, lookup, union)
 import qualified Data.IntSet as IntSet (delete, toList)
 import PDF.Box (Box(..))
 import PDF.Object (
-      IndirectObjCoordinates(..), Object, Occurrence(..)
+      IndirectObjCoordinates(..), Object, Occurrence(..), Structure(..)
-    , Structure(..), XRefEntry(..), XRefSection, eofMarker, outputBody
+    , XRefEntry(..), XRefSection, eofMarker, outputBody
  )
 import qualified PDF.Output as Output (line)
 import PDF.Output (
@ -26,24 +31,28 @@ import Text.Printf (printf)
 data Layer = Layer {
      occurrences :: [Occurrence]
-    , objects :: (Indexed Object)
+    , objects :: Indexed Object
    , docStructure :: Structure
  } deriving Show
 type LayerReader m = ReaderT Layer m
-updateXrefs :: XRefSection -> Map Resource Offset -> (XRefSection, Offset)
+updateXRefs :: XRefSection -> Map Resource Offset -> (XRefSection, Offset)
-updateXrefs xRef offsets = (mapWithKey updateEntry xRef, offsets ! StartXRef)
+updateXRefs xRef offsets = (mapWithKey updateEntry xRef, offsets ! StartXRef)
  where
-    updateEntry objectId e@(InUse {}) =
+    updateEntry objectId e@(InUse {offset}) =
-      e {offset = offsets ! (ObjectId $ getId objectId)}
+      case Map.lookup (ObjectId $ getId objectId) offsets of
        Nothing -> Free {nextFree = Id $ getOffset offset, generation = 65535}
        Just newOffset -> e {offset = newOffset}
    updateEntry _ e = e
 instance Output Layer where
-  output (Layer {occurrences, objects, docStructure}) =
+  output (Layer {occurrences, objects, docStructure}) = do
-    fmap (updateXrefs xRef) <$> getOffsets (outputBody (occurrences, objects))
+    (body, savedOffsets) <- getOffsets (outputBody (occurrences, objects))
-    >>= \(body, (xref, startXRef)) -> mconcat [
+    let (newXRef, startXRef) = updateXRefs xRef savedOffsets
-          body
+    mconcat [
          return body
        , Output.line "xref"
-        , output xref
+        , output newXRef
        , Output.line "trailer"
        , output trailer, newLine
        , Output.line "startxref"
@ -76,6 +85,14 @@ instance Monad m => Box m Objects Layer (Indexed Object) where
        Indirect (IndirectObjCoordinates {objectId, versionNumber = 0})
      newOccurrences = (makeOccurrence . Id) <$> IntSet.toList newObjectIds
 instance MonadError String m => Box m (Id Object) Layer Object where
  r objectId =
    maybe (throwError "Unknown key") return . Id.lookup objectId . objects
  w objectId a layer@(Layer {objects})
    | member objectId objects = return $
      layer {objects = Id.insert objectId a objects}
    | otherwise = throwError "Unknown key"
 emptyLayer :: Layer
 emptyLayer = Layer {
      docStructure = Structure {xRef = Id.empty, trailer = Map.empty}
@ -84,7 +101,7 @@ emptyLayer = Layer {
  }
 unify :: [Layer] -> Layer
-unify = foldl complete emptyLayer
+unify = foldl' complete emptyLayer
  where
    complete tmpLayer older =
      let mergedObjects = Id.union (objects tmpLayer) (objects older) in
--- a/src/PDF/Object.hs
+++ b/src/PDF/Object.hs
@ -34,6 +34,7 @@ module PDF.Object (
  ) where
 import Control.Applicative ((<|>), many)
 import Control.Monad.Reader (asks)
 import Data.Attoparsec.ByteString.Char8 (choice, count, option, sepBy)
 import Data.ByteString (ByteString)
 import qualified Data.ByteString as BS (concat)
@ -48,11 +49,11 @@ import qualified Data.Id as Id (
 import Data.Map (Map)
 import qualified Data.Map as Map (fromList, toList)
 import qualified Data.Set as Set (fromList, member)
-import qualified PDF.EOL as EOL (charset, parser)
+import qualified PDF.EOL as EOL (Style(..), charset, parser)
 import qualified PDF.Output as Output (line, string)
 import PDF.Output (
-      OBuilder, Offset(..), Output(..), Resource(..)
+      OBuilder, OContext(..), Offset(..), Output(..), Resource(..), byteString
-    , byteString, getOffset, join, newLine, saveOffset
+    , getOffset, join, newLine, saveOffset
  )
 import PDF.Parser (MonadParser(..), Parser, (<?>), octDigit, oneOf)
 import Text.Printf (printf)
@ -190,8 +191,8 @@ nullObject = string "null" *> return () <?> "null object"
 -- Reference
 --
 data IndirectObjCoordinates = IndirectObjCoordinates {
-      objectId :: (Id Object)
+      objectId :: {-# UNPACK #-} !(Id Object)
-    , versionNumber :: Int
+    , versionNumber :: {-# UNPACK #-} !Int
  } deriving Show
 reference :: MonadParser m => m IndirectObjCoordinates
@ -202,14 +203,14 @@ reference = IndirectObjCoordinates
 -- DirectObject
 --
 data DirectObject =
-    Boolean Bool
+    Boolean !Bool
-  | NumberObject Number
+  | NumberObject !Number
-  | StringObject StringObject
+  | StringObject !StringObject
-  | NameObject Name
+  | NameObject !Name
-  | Array [DirectObject]
+  | Array ![DirectObject]
-  | Dictionary Dictionary
+  | Dictionary !Dictionary
  | Null
-  | Reference IndirectObjCoordinates
+  | Reference !IndirectObjCoordinates
  deriving Show
 instance Output DirectObject where
@ -294,10 +295,15 @@ data XRefEntry = InUse {
  } deriving Show
 instance Output XRefEntry where
-  output (InUse {offset, generation}) =
+  output xRefEntry = Output.string (build xRefEntry) `mappend` endXRefEntryLine
-      Output.line (printf "%010d %05d n " (getOffset offset) generation)
+    where
-  output (Free {nextFree, generation}) =
+      build (InUse {offset, generation}) =
-      Output.line (printf "%010d %05d f " (getId nextFree) generation)
+        printf "%010d %05d n" (getOffset offset) generation
      build (Free {nextFree, generation}) =
        printf "%010d %05d f" (getId nextFree) generation
      endXRefEntryLine = OContext (asks padEOLToTwoBytes) >>= Output.line
      padEOLToTwoBytes EOL.CRLF = ("" :: String)
      padEOLToTwoBytes _ = " "
 entry :: Parser u XRefEntry
 entry = do
--- a/src/PDF/Object/Navigation.hs
+++ b/src/PDF/Object/Navigation.hs
@ -3,98 +3,162 @@
 {-# LANGUAGE FlexibleContexts #-}
 {-# LANGUAGE MultiParamTypeClasses #-}
 {-# LANGUAGE FlexibleInstances #-}
 {-# LANGUAGE BangPatterns #-}
 {-# LANGUAGE DeriveFunctor #-}
 module PDF.Object.Navigation (
-      Clear(..)
+      Nav(..)
-    , PDFContent
+    , PPath(..)
-    , Raw(..)
+    , ROLayer
    , RWLayer
    , StreamContent(..)
    , (./)
    , (//)
    , (>./)
    , (>//)
    , castObject
    , catalog
    , getDictionary
    , getKey
    , objectById
-    , catalog
+    , save
  ) where
 import Codec.Compression.Zlib (compress, decompress)
 import Control.Monad.Except (MonadError(..))
 import Control.Monad.Reader (MonadReader(..))
-import Control.Monad.Fail (MonadFail(..))
+import Control.Monad.State (MonadState)
 import Data.ByteString (ByteString)
 import qualified Data.ByteString as BS (length)
 import qualified Data.ByteString.Lazy as Lazy (ByteString, fromStrict, toStrict)
-import Data.Id (Id, at)
+import Data.Id (Id)
-import qualified Data.Map as Map (lookup)
+import qualified Data.Id as Id (at)
-import PDF.Box (Box(..))
+import qualified Data.Map as Map (adjust, insert, lookup)
 import PDF.Box (Box(..), at, edit{-, runRO-})
 import PDF.Layer (Layer(..))
 import PDF.Object (
      Dictionary, DirectObject(..), IndirectObjCoordinates(..)
-    , Name(..), Object(..), Structure(..)
+    , Name(..), Number(..), Object(..), Structure(..)
  )
 import Prelude hiding (fail)
 import Text.Printf (printf)
-type PDFContent m = (MonadReader Layer m, MonadFail m)
+newtype PPath = PPath [Component]
 data DPath = DPath {
      root :: Id Object
    , offset :: [Component]
  } deriving Show
 push :: Component -> DPath -> DPath
 push component dPath = dPath {offset = (offset dPath) ++ [component]}
 data Nav a = Nav {
      dPath :: DPath
    , value :: a
  } deriving (Functor)
 instance Show a => Show (Nav a) where
  show (Nav {dPath, value}) = "Nav {dPath = " ++ show dPath ++ ", value = " ++ show value ++ "}"
 type ROLayer m = (MonadReader Layer m, MonadError String m)
 type RWLayer m = (MonadState Layer m, MonadError String m)
 type Component = String
-getDictionary :: PDFContent m => Object -> m Dictionary
+getDictionary :: ROLayer m => Nav Object -> m (Nav Dictionary)
-getDictionary (Direct (Dictionary aDict)) = return aDict
+getDictionary (Nav {dPath, value}) =
-getDictionary (Direct (Reference ref)) =
+  case value of
-  objectById (objectId ref) >>= getDictionary
+    (Direct (Dictionary aDict)) -> return $ Nav {dPath, value = aDict}
-getDictionary (Stream {header}) = return header
+    (Direct (Reference ref)) -> objectById (objectId ref) >>= getDictionary
-getDictionary obj = expected "dictionary : " obj
+    (Stream {header}) -> return $ Nav {dPath, value = header}
    obj -> expected "dictionary : " obj
-expected :: (MonadFail m, Show a) => String -> a -> m b
+expected :: (MonadError String m, Show a) => String -> a -> m b
-expected name = fail . printf "Not a %s: %s" name . show
+expected name = throwError . printf "Not a %s: %s" name . show
-getKey :: PDFContent m => String -> Object -> m DirectObject
+getKey :: ROLayer m => String -> Nav Object -> m (Nav DirectObject)
-getKey key object = getDictionary object >>= catchMaybe . Map.lookup (Name key)
+getKey key navObject = getDictionary navObject >>= f
  where
    errorMessage =
-      printf "Key %s not found in object %s" key (show object)
+      printf "Key %s not found in object %s" key (show navObject)
-    catchMaybe = maybe (fail errorMessage) return
+    f (Nav {dPath, value}) =
      case Map.lookup (Name key) value of
        Nothing -> throwError errorMessage
        Just dObj -> return $ Nav {dPath = push key dPath, value = dObj}
-objectById :: PDFContent m => (Id Object) -> m Object
+objectById :: ROLayer m => (Id Object) -> m (Nav Object)
 objectById objectId = do
  layer <- ask
-  return (objects layer `at` objectId)
+  return $ Nav {
        dPath = DPath {root = objectId, offset = []}
      , value = objects layer `Id.at` objectId
    }
-(./) :: PDFContent m => m Object -> Component -> m Object
+castObject :: ROLayer m => Nav DirectObject -> m (Nav Object)
-(./) object key = (object >>= getKey key >>= castObject)
+castObject (Nav {value = !(Reference (IndirectObjCoordinates {objectId}))}) =
 castObject :: PDFContent m => DirectObject -> m Object
 castObject (Reference (IndirectObjCoordinates {objectId})) =
  objectById objectId
-castObject directObject = return $ Direct directObject
+castObject (Nav {dPath, value}) = return $ Nav {dPath, value = Direct value}
-(//) :: PDFContent m => m Object -> [Component] -> m Object
+(./) :: ROLayer m => m (Nav Object) -> Component -> m (Nav Object)
-(//) object [] = object
+(./) navObject key = (navObject >>= getKey key >>= castObject)
 (//) object (key:keys) = object ./ key // keys
-(>./) :: PDFContent m => Object -> Component -> m Object
+(//) :: ROLayer m => m (Nav Object) -> PPath -> m (Nav Object)
-(>./) object = (return object ./)
+(//) navObject (PPath []) = navObject
 (//) navObject (PPath (key:keys)) = navObject ./ key // (PPath keys)
-(>//) :: PDFContent m => Object -> [Component] -> m Object
+(>./) :: ROLayer m => Nav Object -> Component -> m (Nav Object)
-(>//) object = (return object //)
+(>./) navObject = (return navObject ./)
-catalog :: PDFContent m => m Object
+(>//) :: ROLayer m => Nav Object -> PPath -> m (Nav Object)
-catalog = Direct . Dictionary . trailer . docStructure <$> ask
+(>//) navObject = (return navObject //)
-data Clear = Clear
+catalog :: ROLayer m => m (Nav Object)
-data Raw = Raw
+catalog = do
  value <- Direct . Dictionary . trailer . docStructure <$> ask
  return $ Nav {dPath = undefined, value}
 setAt :: [Component] -> DirectObject -> Dictionary -> Dictionary
 setAt [] _ dict = dict
 setAt [component] directObject dict =
  Map.insert (Name component) directObject dict
 setAt (component:components) directObject dict =
  Map.adjust setDirObj (Name component) dict
  where
    setDirObj (Dictionary subDict) =
      Dictionary $ setAt components directObject subDict
    setDirObj x = x
 save :: RWLayer m => Nav Object -> m ()
 save nav@(Nav {dPath, value = Direct dObj}) =
  edit .at (root dPath) $ return . setObj
  where
    setObj obj@(Stream {header}) =
      obj {header = setAt (offset dPath) dObj header}
    setObj (Direct (Dictionary dict)) =
      Direct . Dictionary $ setAt (offset dPath) dObj dict
    setObj _ = value nav
 save (Nav {dPath = DPath {root, offset = []}, value}) = edit $ w root value
 save _ = throwError "Streams can't be properties of PDF objects"
 data StreamContent = Clear | Raw
 onLazy :: (Lazy.ByteString -> Lazy.ByteString) -> ByteString -> ByteString
 onLazy f = Lazy.toStrict . f . Lazy.fromStrict
 contains :: String -> DirectObject -> Bool
-contains needle (NameObject (Name n)) = needle == n
+contains needle !(NameObject (Name n)) = needle == n
-contains needle (Array directObjects) = oneOf directObjects (contains needle)
+contains needle !(Array directObjects) = oneOf directObjects (contains needle)
  where
    oneOf [] _ = False
    oneOf (x:xs) p = p x || oneOf xs p
 contains _ _ = False
-instance MonadFail m => Box m Clear Object ByteString where
+instance MonadError String m => Box m StreamContent (Nav Object) ByteString where
  r sc = r sc . value
  w sc newStreamContent nav = setValue <$> w sc newStreamContent (value nav)
    where
      setValue value = nav {value}
 instance MonadError String m => Box m StreamContent Object ByteString where
  r Raw (Stream {streamContent}) = return streamContent
  r Clear (Stream {header, streamContent}) = return $
    case Map.lookup (Name "Filter") header of
      Just directObject
@ -102,17 +166,15 @@ instance MonadFail m => Box m Clear Object ByteString where
      _ -> streamContent
  r _ obj = expected "stream" obj
  w Clear streamContent obj@(Stream {header}) = return $
    case Map.lookup (Name "Filter") header of
      Just directObject
        | contains "FlateDecode" directObject ->
          obj {streamContent = onLazy compress streamContent}
      _ -> obj {streamContent}
  w _ _ obj = expected "stream" obj
 instance MonadFail m => Box m Raw Object ByteString where
  r Raw (Stream {streamContent}) = return streamContent
  r _ obj = expected "stream" obj
  w Raw streamContent obj@(Stream {}) = return $ obj {streamContent}
  w Clear newStreamContent (Stream {header}) =
    let streamContent = getStreamContent (Map.lookup (Name "Filter") header) in
    return $ Stream {header = fixLength streamContent, streamContent}
    where
      getStreamContent (Just directObject)
        | contains "FlateDecode" directObject = onLazy compress newStreamContent
      getStreamContent _ = newStreamContent
      fixLength sc =
        let newLength = NumberObject . Number . fromIntegral $ BS.length sc in
        Map.insert (Name "Length") newLength header
  w _ _ obj = expected "stream" obj
--- a/src/PDF/Output.hs
+++ b/src/PDF/Output.hs
@ -55,9 +55,8 @@ saveOffset resource = OContext $
 lift :: (a -> Builder) -> a -> OBuilder
 lift f a = return (f a)
-getOffsets :: OBuilder -> OContext (OBuilder, Map Resource Offset)
+getOffsets :: OBuilder -> OContext (Builder, Map Resource Offset)
-getOffsets (OContext builder) =
+getOffsets (OContext builder) = OContext $ listen builder
  OContext (listen builder >>= \(a, w) -> return (return a, w))
 append :: OBuilder -> OBuilder -> OBuilder
 append (OContext a) (OContext b) = OContext (mappend <$> a <*> b)
--- a/src/PDF/Pages.hs
+++ b/src/PDF/Pages.hs
@ -13,63 +13,62 @@ module PDF.Pages (
    , withResources
  ) where
-import Control.Applicative (Alternative, (<|>))
+import Control.Applicative (Alternative)
 import Control.Applicative ((<|>))
 import Control.Monad (foldM)
-import Control.Monad.Fail (MonadFail(..))
+import Control.Monad.Except (MonadError(..))
 import Control.Monad.Reader (ReaderT, runReaderT)
 import Control.Monad.State (StateT(..), evalStateT, execStateT, gets, modify)
 import Control.Monad.Trans (lift)
 import Data.ByteString (ByteString)
 import Data.ByteString.Lazy (toStrict)
-import Data.Id (Id, IdMap)
+import Data.Id (Id(..), IdMap)
 import qualified Data.Id as Id (empty, insert, lookup)
 import Data.Map (Map)
-import qualified Data.Map as Map (empty, fromList, insert, toList)
+import qualified Data.Map as Map (empty, elems, fromList, insert, toList)
 import Data.Maybe (listToMaybe)
 import Data.OrderedMap (OrderedMap, build, mapi)
-import PDF.Box (Box(..), at, edit)
+import PDF.Box (Box(..), at, edit, runRO)
-import PDF.CMap (cMap)
+import qualified PDF.CMap as CMap (parse)
 import PDF.Content (Content(..))
 import qualified PDF.Content as Content (parse)
 import PDF.Encoding (encoding)
 import PDF.EOL (Style(..))
 import PDF.Font (Font, FontSet)
-import PDF.Layer (Layer(..), Objects(..))
+import PDF.Layer (Layer(..), LayerReader)
 import PDF.Object (
      Dictionary, DirectObject(..), IndirectObjCoordinates(..)
-    , Name(..), Object(..)
+    , Name(..), Number(..), Object(..)
  ,)
 import PDF.Object.Navigation (
-      Clear(..), (//), (>./), (>//), getDictionary
+      Nav(..), PPath(..), ROLayer, RWLayer, StreamContent(..), (//), (>./)
-    , getKey, objectById, origin
+    , (>//), catalog, getDictionary, getKey, objectById, save
  )
 import PDF.Output (render)
 import Prelude hiding (fail)
 import Text.Printf (printf)
 type Except m = (Alternative m, MonadFail m)
 type InLayer m = ReaderT Layer m
 type CachedFonts = IdMap Object Font
-type FontCache m = StateT CachedFonts (InLayer m)
+type FontCache m = StateT CachedFonts m
 data Page = Page {
-      contents :: OrderedMap (Id Object) Content
+      byteContents :: OrderedMap (Id Object) ByteString
    , resources :: Dictionary
    , source :: (Id Object)
  }
-loadContents :: Except m => DirectObject -> InLayer m (OrderedMap (Id Object) Content)
+loadByteContents :: ROLayer m => DirectObject -> m (OrderedMap (Id Object) ByteString)
-loadContents directObject =
+loadByteContents directObject = do
-  sequenceA . build loadContent $ objectIds directObject
+  objs <- sequence . build objectById $ objectIds directObject
  mapM (r Clear) objs
  where
    loadContent :: Except m => (Id Object) -> InLayer m Content
    loadContent objectId = objectById objectId >>= r Clear >>= Content.parse
    objectIds (Array l) = l >>= getReference
    objectIds dirObj = getReference dirObj
-getFontDictionary :: Except m => Object -> InLayer m Dictionary
+getFontDictionary :: (Alternative m, ROLayer m) => Nav Object -> m Dictionary
 getFontDictionary pageObj =
-  (pageObj >// ["Resources", "Font"] >>= getDictionary) <|> return Map.empty
+    (pageObj >// PPath ["Resources", "Font"] >>= fmap value . getDictionary)
  <|> return Map.empty
-cache :: Except m => ((Id Object) -> FontCache m Font) -> (Id Object) -> FontCache m Font
+cache :: ROLayer m => (Id Object -> FontCache m Font) -> Id Object -> FontCache m Font
 cache loader objectId =
  gets (Id.lookup objectId) >>= maybe load return
  where
@ -78,81 +77,105 @@ cache loader objectId =
      modify $ Id.insert objectId value
      return value
-loadFont :: Except m => (Id Object) -> FontCache m Font
+loadFont :: (Alternative m, ROLayer m) => Id Object -> FontCache m Font
 loadFont objectId = lift $ objectById objectId >>= tryMappings
  where
    tryMappings object =
-        (object >./ "ToUnicode" >>= r Clear >>= cMap)
+        (object >./ "ToUnicode" >>= r Clear >>= CMap.parse)
-      <|> (object >./ "Encoding" >>= loadEncoding)
+      <|> (object >./ "Encoding" >>= loadEncoding . value)
-      <|> (fail $ unknownFormat (show objectId) (show object))
+      <|> (throwError $ unknownFormat (show objectId) (show object))
    unknownFormat = printf "Unknown font format for object #%s : %s"
-    loadEncoding :: MonadFail m => Object -> m Font
+    loadEncoding :: MonadError String m => Object -> m Font
    loadEncoding (Direct (NameObject (Name name))) = encoding name
    loadEncoding object =
-      fail $ printf "Encoding must be a name, not that : %s" $ show object
+      throwError $ printf "Encoding must be a name, not that : %s" $ show object
-loadResources :: Except m => Dictionary -> FontCache m FontSet
+loadResources :: (Alternative m, ROLayer m) => Dictionary -> FontCache m FontSet
 loadResources = foldM addFont Map.empty . Map.toList
  where
    addFont output (name, Reference (IndirectObjCoordinates {objectId})) =
      flip (Map.insert name) output <$> cache loadFont objectId
    addFont output _ = return output
-getReference :: DirectObject -> [(Id Object)]
+getReference :: DirectObject -> [Id Object]
 getReference (Reference (IndirectObjCoordinates {objectId})) = [objectId]
 getReference _ = []
-loadPage :: Except m => (Id Object) -> InLayer m Page
+loadPage :: (Alternative m, ROLayer m) => Id Object -> m Page
 loadPage source = do
  page <- objectById source
-  contents <- getKey "Contents" page >>= loadContents
+  byteContents <- loadByteContents . value =<< getKey "Contents" page
  resources <- getFontDictionary page
-  return $ Page {contents, resources, source}
+  return $ Page {byteContents, resources, source}
-pagesList :: Except m => InLayer m [(Id Object)]
+pagesList :: (Alternative m, ROLayer m) => m [Id Object]
 pagesList =
-    (origin // ["Root", "Pages"] >>= getKey "Kids" >>= return . getReferences)
+    (catalog // PPath ["Root", "Pages", "Kids"] >>= getReferences . value)
  <|> return []
  where
-    getReferences (Array kids) = kids >>= getReference
+    getReferences (Direct (Array kids)) = return $ getReference =<< kids
-    getReferences _ = fail "Not a pages array"
+    getReferences _ = throwError "Not a pages array"
-updatePage :: MonadFail m => Page -> StateT Layer m ()
+editPagesList :: RWLayer m => ([DirectObject] -> [DirectObject]) -> m ()
-updatePage (Page {contents}) = sequence_ $ mapi updateContent contents
+editPagesList f = do
  pages <- runRO (catalog // PPath ["Root", "Pages"])
  kids <- runRO (pages >./ "Kids")
  count <- runRO (pages >./ "Count")
  (newSize, newKids) <- editKids (value kids)
  save $ kids {value = newKids}
  save $ count {value = Direct $ NumberObject newSize}
  where
-    updateContent source content =
+    editKids (Direct (Array pageRefs)) =
-      edit . at Objects . at source . at Clear $ setContent content
+      let result = f pageRefs in
-    setContent content _ = return . toStrict $ render LF content
+      return (Number . fromIntegral $ length result, Direct $ Array result)
    editKids _ = throwError "Invalid format for Root.Pages.Kids (not an array)"
 updatePage :: RWLayer m => Page -> m ()
 updatePage (Page {byteContents}) = sequence_ $ mapi updateByteContent byteContents
  where
    updateByteContent source byteContent =
      edit .at source .at Clear $ \_ -> return byteContent
 data Pages = Pages
 newtype PageNumber = P Int
 data Contents = Contents
-instance (Alternative m, MonadFail m) => Box m Pages Layer (Map Int Page) where
+instance (Alternative m, MonadError String m) => Box m Pages Layer (Map Int Page) where
-  r Pages layer = runReaderT (numbered <$> (mapM loadPage =<< pagesList)) layer
+  r Pages = runReaderT (numbered <$> pagesList >>= mapM loadPage)
    where
-      numbered :: [Page] -> Map Int Page
+      numbered :: [Id Object] -> Map Int (Id Object)
      numbered = Map.fromList . zip [1..]
-  w Pages pages = execStateT $ mapM_ updatePage pages
+  w Pages pages = execStateT $ do
-
+    mapM_ updatePage pages
-instance (Alternative m, MonadFail m) => Box m PageNumber Layer Page where
+    setPagesList $ Map.elems (source <$> pages)
  r (P i) layer
    | i < 1 = fail "Pages start at 1"
    | otherwise = runReaderT (drop (i - 1) <$> pagesList >>= firstPage) layer
    where
-      firstPage [] = fail "Page is out of bounds"
+      setPagesList =
-      firstPage (p:_) = loadPage p
+        editPagesList . const . fmap (Reference . flip IndirectObjCoordinates 0)
-  w _ page = execStateT $ updatePage page
+instance (Alternative m, MonadError String m) => Box m PageNumber Layer Page where
  r (P p) layer
    | p < 1 = throwError "Pages start at 1"
    | otherwise = runReaderT (drop (p - 1) <$> pagesList >>= firstPage) layer
      where
        firstPage =
          maybe (throwError "Page is out of bounds") loadPage . listToMaybe
  w (P p) page = execStateT $ do
    updatePage page
    editPagesList $ setPage (Reference $ IndirectObjCoordinates (source page) 0)
    where
      setPage ref l = take (p-1) l ++ ref : drop p l
 instance Monad m => Box m Contents Page (OrderedMap (Id Object) Content) where
-  r Contents = return . contents
+  r Contents = return . fmap Content.parse . byteContents
-  w _ contents page = return $ page {contents}
+  w Contents contents page = return $ page {byteContents}
    where
      byteContents = toStrict . render LF <$> contents
-withFonts :: Monad m => (Layer -> FontCache m a) -> Layer -> m a
+withFonts :: MonadError String m => (Layer -> FontCache (LayerReader m) a) -> Layer -> m a
 withFonts f layer = runReaderT (evalStateT (f layer) Id.empty) layer
-withResources :: Except m => (Page -> ReaderT FontSet m b) -> Page -> FontCache m b
+withResources :: (Alternative m, MonadError String m) => (Page -> ReaderT FontSet m b) -> Page -> FontCache (LayerReader m) b
 withResources f p =
  loadResources (resources p) >>= lift . lift . runReaderT (f p)