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|
{-# LANGUAGE OverloadedStrings, ScopedTypeVariables #-}
{-
Copyright (C) 2011-2014 John MacFarlane <jgm@berkeley.edu>
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc., 59
Temple Place, Suite 330, Boston, MA 02111-1307 USA
-}
{- |
Module : Text.Pandoc.ImageSize
Copyright : Copyright (C) 2011-2014 John MacFarlane
License : GNU GPL, version 2 or above
Maintainer : John MacFarlane <jgm@berkeley.edu>
Stability : alpha
Portability : portable
Functions for determining the size of a PNG, JPEG, or GIF image.
-}
module Text.Pandoc.ImageSize ( ImageType(..), imageType, imageSize,
sizeInPixels, sizeInPoints ) where
import Data.ByteString (ByteString, unpack)
import qualified Data.ByteString.Char8 as B
import qualified Data.ByteString.Lazy as BL
import Control.Applicative
import Control.Monad
import Data.Bits
import Data.Binary
import Data.Binary.Get
import Text.Pandoc.Shared (safeRead)
import qualified Data.Map as M
-- quick and dirty functions to get image sizes
-- algorithms borrowed from wwwis.pl
data ImageType = Png | Gif | Jpeg | Pdf | Eps deriving Show
data ImageSize = ImageSize{
pxX :: Integer
, pxY :: Integer
, dpiX :: Integer
, dpiY :: Integer
} deriving (Read, Show, Eq)
imageType :: ByteString -> Maybe ImageType
imageType img = case B.take 4 img of
"\x89\x50\x4e\x47" -> return Png
"\x47\x49\x46\x38" -> return Gif
"\xff\xd8\xff\xe0" -> return Jpeg -- JFIF
"\xff\xd8\xff\xe1" -> return Jpeg -- Exif
"%PDF" -> return Pdf
"%!PS"
| (B.take 4 $ B.drop 1 $ B.dropWhile (/=' ') img) == "EPSF"
-> return Eps
_ -> fail "Unknown image type"
imageSize :: ByteString -> Maybe ImageSize
imageSize img = do
t <- imageType img
case t of
Png -> pngSize img
Gif -> gifSize img
Jpeg -> jpegSize img
Eps -> epsSize img
Pdf -> Nothing -- TODO
defaultSize :: (Integer, Integer)
defaultSize = (72, 72)
sizeInPixels :: ImageSize -> (Integer, Integer)
sizeInPixels s = (pxX s, pxY s)
sizeInPoints :: ImageSize -> (Integer, Integer)
sizeInPoints s = (pxX s * 72 `div` dpiX s, pxY s * 72 `div` dpiY s)
epsSize :: ByteString -> Maybe ImageSize
epsSize img = do
let ls = takeWhile ("%" `B.isPrefixOf`) $ B.lines img
let ls' = dropWhile (not . ("%%BoundingBox:" `B.isPrefixOf`)) ls
case ls' of
[] -> mzero
(x:_) -> case B.words x of
(_:_:_:ux:uy:[]) -> do
ux' <- safeRead $ B.unpack ux
uy' <- safeRead $ B.unpack uy
return ImageSize{
pxX = ux'
, pxY = uy'
, dpiX = 72
, dpiY = 72 }
_ -> mzero
pngSize :: ByteString -> Maybe ImageSize
pngSize img = do
let (h, rest) = B.splitAt 8 img
guard $ h == "\x8a\x4d\x4e\x47\x0d\x0a\x1a\x0a" ||
h == "\x89\x50\x4e\x47\x0d\x0a\x1a\x0a"
let (i, rest') = B.splitAt 4 $ B.drop 4 rest
guard $ i == "MHDR" || i == "IHDR"
let (sizes, rest'') = B.splitAt 8 rest'
(x,y) <- case map fromIntegral $ unpack $ sizes of
([w1,w2,w3,w4,h1,h2,h3,h4] :: [Integer]) -> return
((shift w1 24) + (shift w2 16) + (shift w3 8) + w4,
(shift h1 24) + (shift h2 16) + (shift h3 8) + h4)
_ -> fail "PNG parse error"
let (dpix, dpiy) = findpHYs rest''
return $ ImageSize { pxX = x, pxY = y, dpiX = dpix, dpiY = dpiy }
findpHYs :: ByteString -> (Integer, Integer)
findpHYs x =
if B.null x || "IDAT" `B.isPrefixOf` x
then (72,72) -- default, no pHYs
else if "pHYs" `B.isPrefixOf` x
then let [x1,x2,x3,x4,y1,y2,y3,y4,u] = map fromIntegral
$ unpack $ B.take 9 $ B.drop 4 x
factor = if u == 1 -- dots per meter
then \z -> z * 254 `div` 10000
else const 72
in ( factor $ (shift x1 24) + (shift x2 16) + (shift x3 8) + x4,
factor $ (shift y1 24) + (shift y2 16) + (shift y3 8) + y4 )
else findpHYs $ B.drop 1 x -- read another byte
gifSize :: ByteString -> Maybe ImageSize
gifSize img = do
let (h, rest) = B.splitAt 6 img
guard $ h == "GIF87a" || h == "GIF89a"
case map fromIntegral $ unpack $ B.take 4 rest of
[w2,w1,h2,h1] -> return ImageSize {
pxX = shift w1 8 + w2,
pxY = shift h1 8 + h2,
dpiX = 72,
dpiY = 72
}
_ -> fail "GIF parse error"
jpegSize :: ByteString -> Maybe ImageSize
jpegSize img = do
let (hdr, rest) = B.splitAt 4 img
guard $ B.length rest >= 14
case hdr of
"\xff\xd8\xff\xe0" -> jfifSize rest
"\xff\xd8\xff\xe1" -> exifSize $ B.takeWhile (/= '\xff') rest
_ -> mzero
jfifSize :: ByteString -> Maybe ImageSize
jfifSize rest = do
let [dpiDensity,dpix1,dpix2,dpiy1,dpiy2] = map fromIntegral
$ unpack $ B.take 5 $ B.drop 9 $ rest
let factor = case dpiDensity of
1 -> id
2 -> \x -> (x * 254 `div` 10)
_ -> const 72
let dpix = factor (shift dpix1 8 + dpix2)
let dpiy = factor (shift dpiy1 8 + dpiy2)
(w,h) <- findJfifSize rest
return $ ImageSize { pxX = w, pxY = h, dpiX = dpix, dpiY = dpiy }
findJfifSize :: ByteString -> Maybe (Integer,Integer)
findJfifSize bs = do
let bs' = B.dropWhile (=='\xff') $ B.dropWhile (/='\xff') bs
case B.uncons bs' of
Just (c,bs'') | c >= '\xc0' && c <= '\xc3' -> do
case map fromIntegral $ unpack $ B.take 4 $ B.drop 3 bs'' of
[h1,h2,w1,w2] -> return (shift w1 8 + w2, shift h1 8 + h2)
_ -> fail "JPEG parse error"
Just (_,bs'') -> do
case map fromIntegral $ unpack $ B.take 2 bs'' of
[c1,c2] -> do
let len = shift c1 8 + c2
-- skip variables
findJfifSize $ B.drop len bs''
_ -> fail "JPEG parse error"
Nothing -> fail "Did not find length record"
exifSize :: ByteString -> Maybe ImageSize
exifSize bs = runGet (Just <$> exifHeader bl) bl
where bl = BL.fromChunks [bs]
-- NOTE: It would be nicer to do
-- runGet ((Just <$> exifHeader) <|> return Nothing)
-- which would prevent pandoc from raising an error when an exif header can't
-- be parsed. But we only get an Alternative instance for Get in binary 0.6,
-- and binary 0.5 ships with ghc 7.6.
exifHeader :: BL.ByteString -> Get ImageSize
exifHeader hdr = do
_app1DataSize <- getWord16be
exifHdr <- getWord32be
unless (exifHdr == 0x45786966) $ fail "Did not find exif header"
zeros <- getWord16be
unless (zeros == 0) $ fail "Expected zeros after exif header"
-- beginning of tiff header -- we read whole thing to use
-- in getting data from offsets:
let tiffHeader = BL.drop 8 hdr
byteAlign <- getWord16be
let bigEndian = byteAlign == 0x4d4d
let (getWord16, getWord32, getWord64) =
if bigEndian
then (getWord16be, getWord32be, getWord64be)
else (getWord16le, getWord32le, getWord64le)
let getRational = do
num <- getWord32
den <- getWord32
return $ fromIntegral num / fromIntegral den
tagmark <- getWord16
unless (tagmark == 0x002a) $ fail "Failed alignment sanity check"
ifdOffset <- getWord32
skip (fromIntegral ifdOffset - 8) -- skip to IDF
numentries <- getWord16
let ifdEntry = do
tag <- getWord16 >>= \t ->
maybe (return UnknownTagType) return
(M.lookup t tagTypeTable)
dataFormat <- getWord16
numComponents <- getWord32
(fmt, bytesPerComponent) <-
case dataFormat of
1 -> return (UnsignedByte . runGet getWord8, 1)
2 -> return (AsciiString, 1)
3 -> return (UnsignedShort . runGet getWord16, 2)
4 -> return (UnsignedLong . runGet getWord32, 4)
5 -> return (UnsignedRational . runGet getRational, 8)
6 -> return (SignedByte . runGet getWord8, 1)
7 -> return (Undefined . runGet getWord8, 1)
8 -> return (SignedShort . runGet getWord16, 2)
9 -> return (SignedLong . runGet getWord32, 4)
10 -> return (SignedRational . runGet getRational, 8)
11 -> return (SingleFloat . runGet getWord32 {- TODO -}, 4)
12 -> return (DoubleFloat . runGet getWord64 {- TODO -}, 8)
_ -> fail $ "Unknown data format " ++ show dataFormat
let totalBytes = fromIntegral $ numComponents * bytesPerComponent
payload <- if totalBytes <= 4 -- data is right here
then fmt <$>
(getLazyByteString (fromIntegral totalBytes) <*
skip (4 - totalBytes))
else do -- get data from offset
offs <- getWord32
return $ fmt $ BL.take (fromIntegral totalBytes) $
BL.drop (fromIntegral offs) tiffHeader
return (tag, payload)
entries <- sequence $ replicate (fromIntegral numentries) ifdEntry
subentries <- case lookup ExifOffset entries of
Just (UnsignedLong offset) -> do
pos <- bytesRead
skip (fromIntegral offset - (fromIntegral pos - 8))
numsubentries <- getWord16
sequence $
replicate (fromIntegral numsubentries) ifdEntry
_ -> return []
let allentries = entries ++ subentries
(width, height) <- case (lookup ExifImageWidth allentries,
lookup ExifImageHeight allentries) of
(Just (UnsignedLong w), Just (UnsignedLong h)) ->
return (fromIntegral w, fromIntegral h)
_ -> return defaultSize
-- we return a default width and height when
-- the exif header doesn't contain these
let resfactor = case lookup ResolutionUnit allentries of
Just (UnsignedShort 1) -> (100 / 254)
_ -> 1
let xres = maybe 72 (\(UnsignedRational x) -> floor $ x * resfactor)
$ lookup XResolution allentries
let yres = maybe 72 (\(UnsignedRational x) -> floor $ x * resfactor)
$ lookup YResolution allentries
return $ ImageSize{
pxX = width
, pxY = height
, dpiX = xres
, dpiY = yres }
data DataFormat = UnsignedByte Word8
| AsciiString BL.ByteString
| UnsignedShort Word16
| UnsignedLong Word32
| UnsignedRational Rational
| SignedByte Word8
| Undefined Word8
| SignedShort Word16
| SignedLong Word32
| SignedRational Rational
| SingleFloat Word32
| DoubleFloat Word64
deriving (Show)
data TagType = ImageDescription
| Make
| Model
| Orientation
| XResolution
| YResolution
| ResolutionUnit
| Software
| DateTime
| WhitePoint
| PrimaryChromaticities
| YCbCrCoefficients
| YCbCrPositioning
| ReferenceBlackWhite
| Copyright
| ExifOffset
| ExposureTime
| FNumber
| ExposureProgram
| ISOSpeedRatings
| ExifVersion
| DateTimeOriginal
| DateTimeDigitized
| ComponentConfiguration
| CompressedBitsPerPixel
| ShutterSpeedValue
| ApertureValue
| BrightnessValue
| ExposureBiasValue
| MaxApertureValue
| SubjectDistance
| MeteringMode
| LightSource
| Flash
| FocalLength
| MakerNote
| UserComment
| FlashPixVersion
| ColorSpace
| ExifImageWidth
| ExifImageHeight
| RelatedSoundFile
| ExifInteroperabilityOffset
| FocalPlaneXResolution
| FocalPlaneYResolution
| FocalPlaneResolutionUnit
| SensingMethod
| FileSource
| SceneType
| UnknownTagType
deriving (Show, Eq, Ord)
tagTypeTable :: M.Map Word16 TagType
tagTypeTable = M.fromList
[ (0x010e, ImageDescription)
, (0x010f, Make)
, (0x0110, Model)
, (0x0112, Orientation)
, (0x011a, XResolution)
, (0x011b, YResolution)
, (0x0128, ResolutionUnit)
, (0x0131, Software)
, (0x0132, DateTime)
, (0x013e, WhitePoint)
, (0x013f, PrimaryChromaticities)
, (0x0211, YCbCrCoefficients)
, (0x0213, YCbCrPositioning)
, (0x0214, ReferenceBlackWhite)
, (0x8298, Copyright)
, (0x8769, ExifOffset)
, (0x829a, ExposureTime)
, (0x829d, FNumber)
, (0x8822, ExposureProgram)
, (0x8827, ISOSpeedRatings)
, (0x9000, ExifVersion)
, (0x9003, DateTimeOriginal)
, (0x9004, DateTimeDigitized)
, (0x9101, ComponentConfiguration)
, (0x9102, CompressedBitsPerPixel)
, (0x9201, ShutterSpeedValue)
, (0x9202, ApertureValue)
, (0x9203, BrightnessValue)
, (0x9204, ExposureBiasValue)
, (0x9205, MaxApertureValue)
, (0x9206, SubjectDistance)
, (0x9207, MeteringMode)
, (0x9208, LightSource)
, (0x9209, Flash)
, (0x920a, FocalLength)
, (0x927c, MakerNote)
, (0x9286, UserComment)
, (0xa000, FlashPixVersion)
, (0xa001, ColorSpace)
, (0xa002, ExifImageWidth)
, (0xa003, ExifImageHeight)
, (0xa004, RelatedSoundFile)
, (0xa005, ExifInteroperabilityOffset)
, (0xa20e, FocalPlaneXResolution)
, (0xa20f, FocalPlaneYResolution)
, (0xa210, FocalPlaneResolutionUnit)
, (0xa217, SensingMethod)
, (0xa300, FileSource)
, (0xa301, SceneType)
]
|
