{-# LANGUAGE CPP #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE OverloadedStrings #-}
module Codec.Picture.Png.Metadata( extractMetadatas
, encodeMetadatas
) where
#if !MIN_VERSION_base(4,8,0)
import Control.Applicative( (<$>), (<*>), pure )
import Data.Monoid( Monoid, mempty )
import Data.Foldable( foldMap )
#endif
import Data.Maybe( fromMaybe )
import Data.Binary( Binary( get, put ), encode )
import Data.Binary.Get( getLazyByteStringNul )
import Data.Binary.Put( putLazyByteString, putWord8 )
import qualified Data.ByteString.Lazy.Char8 as L
import Data.Monoid( (<>) )
import Codec.Picture.InternalHelper
import qualified Codec.Picture.Metadata as Met
import Codec.Picture.Metadata ( Metadatas
, dotsPerMeterToDotPerInch
, Elem( (:=>) ) )
import Codec.Picture.Png.Type
#if !MIN_VERSION_base(4,7,0)
eitherFoldMap :: Monoid m => (a -> m) -> Either e a -> m
eitherFoldMap f v = case v of
Left _ -> mempty
Right a -> f a
#else
eitherFoldMap :: Monoid m => (a -> m) -> Either e a -> m
eitherFoldMap = foldMap
#endif
getGamma :: [L.ByteString] -> Metadatas
getGamma [] = mempty
getGamma (g:_) = eitherFoldMap unpackGamma $ runGet get g
where
unpackGamma gamma = Met.singleton Met.Gamma (getPngGamma gamma)
getDpis :: [L.ByteString] -> Metadatas
getDpis [] = mempty
getDpis (b:_) = eitherFoldMap unpackPhys $ runGet get b
where
unpackPhys PngPhysicalDimension { pngUnit = PngUnitUnknown } =
Met.insert Met.DpiX 72 $ Met.singleton Met.DpiY 72
unpackPhys phy@PngPhysicalDimension { pngUnit = PngUnitMeter } =
Met.insert Met.DpiX dpx $ Met.singleton Met.DpiY dpy
where
dpx = dotsPerMeterToDotPerInch . fromIntegral $ pngDpiX phy
dpy = dotsPerMeterToDotPerInch . fromIntegral $ pngDpiY phy
data PngText = PngText
{ pngKeyword :: !L.ByteString
, pngData :: !L.ByteString
}
deriving Show
instance Binary PngText where
get = PngText <$> getLazyByteStringNul <*> getRemainingLazyBytes
put (PngText kw pdata) = do
putLazyByteString kw
putWord8 0
putLazyByteString pdata
textToMetadata :: PngText -> Metadatas
textToMetadata ptext = case pngKeyword ptext of
"Title" -> strValue Met.Title
"Author" -> strValue Met.Author
"Description" -> strValue Met.Description
"Copyright" -> strValue Met.Copyright
"Software" -> strValue Met.Software
"Disclaimer" -> strValue Met.Disclaimer
"Warning" -> strValue Met.Warning
"Source" -> strValue Met.Source
"Comment" -> strValue Met.Comment
other ->
Met.singleton
(Met.Unknown $ L.unpack other)
(Met.String . L.unpack $ pngData ptext)
where
strValue k = Met.singleton k . L.unpack $ pngData ptext
getTexts :: [L.ByteString] -> Metadatas
getTexts = foldMap (eitherFoldMap textToMetadata . runGet get) where
extractMetadatas :: PngRawImage -> Metadatas
extractMetadatas img = getDpis (chunksOf pHYsSignature)
<> getGamma (chunksOf gammaSignature)
<> getTexts (chunksOf tEXtSignature)
where
chunksOf = chunksWithSig img
encodePhysicalMetadata :: Metadatas -> [PngRawChunk]
encodePhysicalMetadata metas = fromMaybe [] $ do
dx <- Met.lookup Met.DpiX metas
dy <- Met.lookup Met.DpiY metas
let to = fromIntegral . Met.dotPerInchToDotsPerMeter
dim = PngPhysicalDimension (to dx) (to dy) PngUnitMeter
pure [mkRawChunk pHYsSignature $ encode dim]
encodeSingleMetadata :: Metadatas -> [PngRawChunk]
encodeSingleMetadata = Met.foldMap go where
go :: Elem Met.Keys -> [PngRawChunk]
go v = case v of
Met.Exif _ :=> _ -> mempty
Met.DpiX :=> _ -> mempty
Met.DpiY :=> _ -> mempty
Met.Width :=> _ -> mempty
Met.Height :=> _ -> mempty
Met.Format :=> _ -> mempty
Met.Gamma :=> g ->
pure $ mkRawChunk gammaSignature . encode $ PngGamma g
Met.Title :=> tx -> txt "Title" (L.pack tx)
Met.Description :=> tx -> txt "Description" (L.pack tx)
Met.Author :=> tx -> txt "Author" (L.pack tx)
Met.Copyright :=> tx -> txt "Copyright" (L.pack tx)
Met.Software :=> tx -> txt "Software" (L.pack tx)
Met.Comment :=> tx -> txt "Comment" (L.pack tx)
Met.Disclaimer :=> tx -> txt "Disclaimer" (L.pack tx)
Met.Source :=> tx -> txt "Source" (L.pack tx)
Met.Warning :=> tx -> txt "Warning" (L.pack tx)
Met.Unknown k :=> Met.String tx -> txt (L.pack k) (L.pack tx)
Met.Unknown _ :=> _ -> mempty
txt k c = pure . mkRawChunk tEXtSignature . encode $ PngText k c
encodeMetadatas :: Metadatas -> [PngRawChunk]
encodeMetadatas m = encodePhysicalMetadata m <> encodeSingleMetadata m