{-# LANGUAGE DeriveGeneric, OverloadedStrings, TypeSynonymInstances, FlexibleInstances #-}
module Graphics.Text.Font.Choose.Pattern (Pattern(..), Binding(..), equalSubset,
normalizePattern, filter, defaultSubstitute, nameParse, nameUnparse, format,
Pattern_, withPattern, thawPattern, thawPattern_, patternAsPointer) where
import Prelude hiding (filter)
import Data.List (nub)
import Graphics.Text.Font.Choose.Value
import Graphics.Text.Font.Choose.ObjectSet (ObjectSet, ObjectSet_, withObjectSet)
import Data.Hashable (Hashable(..))
import GHC.Generics (Generic)
import Graphics.Text.Font.Choose.Result (throwFalse, throwNull, throwInt)
import Foreign.Ptr (Ptr)
import Foreign.Marshal.Alloc (alloca, allocaBytes, free)
import Foreign.Storable (Storable(..))
import Foreign.C.String (CString, withCString, peekCString)
import Debug.Trace (trace) -- For reporting internal errors!
import System.IO.Unsafe (unsafePerformIO)
import Control.Monad (forM, join)
import Data.Maybe (catMaybes, fromMaybe)
import Control.Exception (bracket)
-- Imported for CSS bindings
import Data.CSS.Syntax.Tokens (Token(..), NumericValue(..))
import Data.Text (unpack, Text)
import Stylist (PropertyParser(..))
import Data.Scientific (toRealFloat)
import Data.List (intercalate)
type Pattern = [(String, [(Binding, Value)])]
data Binding = Strong | Weak | Same deriving (Eq, Ord, Enum, Show, Generic)
instance Hashable Binding where
hash Strong = 0
hash Weak = 1
hash Same = 2
setValue :: ToValue x => String -> Binding -> x -> Pattern -> Pattern
setValue key b value pat = (key, [(b, toValue value)]):unset key pat
setValues :: ToValue x => String -> Binding -> [x] -> Pattern -> Pattern
setValues key b values pat = (key, [(b, toValue v) | v <- values]):unset key pat
getValue :: String -> Pattern -> Value
getValue key pat | Just ((_, ret):_) <- lookup key pat = ret
| otherwise = ValueVoid
unset key mapping = [(key', val') | (key', val') <- mapping, key' /= key]
normalizePattern :: Pattern -> Pattern
normalizePattern pat =
[(key, [val | (key', vals) <- pat, key' == key, val <- vals]) | key <- nub $ map fst pat]
equalSubset :: Pattern -> Pattern -> ObjectSet -> Bool
equalSubset a b objs = unsafePerformIO $ withPattern a $ \a' -> withPattern b $ \b' ->
withObjectSet objs $ fcPatternEqualSubset a' b'
foreign import ccall "FcPatternEqualSubset" fcPatternEqualSubset ::
Pattern_ -> Pattern_ -> ObjectSet_ -> IO Bool
filter :: Pattern -> ObjectSet -> Pattern
filter pat objs =
unsafePerformIO $ withPattern pat $ \pat' -> withObjectSet objs $ \objs' ->
thawPattern_ $ fcPatternFilter pat' objs'
foreign import ccall "FcPatternFilter" fcPatternFilter ::
Pattern_ -> ObjectSet_ -> IO Pattern_
defaultSubstitute :: Pattern -> Pattern
defaultSubstitute pat = unsafePerformIO $ withPattern pat $ \pat' -> do
ret <- fcDefaultSubstitute pat'
thawPattern pat'
foreign import ccall "FcDefaultSubstitute" fcDefaultSubstitute :: Pattern_ -> IO ()
-- Is this correct memory management?
nameParse :: String -> Pattern
nameParse name = unsafePerformIO $ withCString name $ \name' ->
thawPattern_ $ fcNameParse name'
foreign import ccall "FcNameParse" fcNameParse :: CString -> IO Pattern_
nameUnparse :: Pattern -> String
nameUnparse pat = unsafePerformIO $ withPattern pat $ \pat' ->
bracket (throwNull <$> fcNameUnparse pat') free peekCString
foreign import ccall "FcNameUnparse" fcNameUnparse :: Pattern_ -> IO CString
format :: Pattern -> String -> String
format pat fmt =
unsafePerformIO $ withPattern pat $ \pat' -> withCString fmt $ \fmt' -> do
bracket (throwNull <$> fcPatternFormat pat' fmt') free peekCString
foreign import ccall "FcPatternFormat" fcPatternFormat ::
Pattern_ -> CString -> IO CString
------
--- Low-level
------
data Pattern'
type Pattern_ = Ptr Pattern'
withPattern :: Pattern -> (Pattern_ -> IO a) -> IO a
withPattern pat cb = withNewPattern $ \pat' -> do
forM pat $ \(obj, vals) -> withCString obj $ \obj' -> do
forM vals $ \(strength, val) -> throwFalse <$> withValue val
(fcPatternAdd_ pat' obj' (strength == Strong) True)
cb pat'
-- Does Haskell FFI support unboxed structs? Do I really need to write a C wrapper?
foreign import ccall "my_FcPatternAdd" fcPatternAdd_ ::
Pattern_ -> CString -> Bool -> Bool -> Value_ -> IO Bool
patternAsPointer :: Pattern -> IO Pattern_
patternAsPointer = flip withPattern $ \ret -> do
fcPatternReference ret
return ret
foreign import ccall "FcPatternReference" fcPatternReference :: Pattern_ -> IO ()
data PatternIter'
type PatternIter_ = Ptr PatternIter'
foreign import ccall "size_PatternIter" patIter'Size :: Int
thawPattern :: Pattern_ -> IO Pattern
thawPattern pat' = allocaBytes patIter'Size $ \iter' -> do
fcPatternIterStart pat' iter'
ret <- go iter'
return $ normalizePattern ret
where
go :: PatternIter_ -> IO Pattern
go iter' = do
ok <- fcPatternIterIsValid pat' iter'
if ok then do
x <- thawPattern' pat' iter'
ok' <- fcPatternIterNext pat' iter'
xs <- if ok' then go iter' else return []
return (x : xs)
else return []
foreign import ccall "FcPatternIterStart" fcPatternIterStart ::
Pattern_ -> PatternIter_ -> IO ()
foreign import ccall "FcPatternIterIsValid" fcPatternIterIsValid ::
Pattern_ -> PatternIter_ -> IO Bool
foreign import ccall "FcPatternIterNext" fcPatternIterNext ::
Pattern_ -> PatternIter_ -> IO Bool
thawPattern' :: Pattern_ -> PatternIter_ -> IO (String, [(Binding, Value)])
thawPattern' pat' iter' = do
obj <- peekCString =<< throwNull <$> fcPatternIterGetObject pat' iter'
count <- fcPatternIterValueCount pat' iter'
values <- forM [0..pred count] $ \i ->
allocaBytes value'Size $ \val' -> alloca $ \binding' -> do
res <- fcPatternIterGetValue pat' iter' i val' binding'
throwInt res $ do
binding <- peek binding'
val' <- thawValue val'
return $ case val' of
Just val | binding >= 0 && binding <= 2 -> Just (toEnum binding, val)
Just val -> Just (Same, val)
Nothing -> Nothing
return (obj, catMaybes $ map join values)
foreign import ccall "FcPatternIterGetObject" fcPatternIterGetObject ::
Pattern_ -> PatternIter_ -> IO CString
foreign import ccall "FcPatternIterValueCount" fcPatternIterValueCount ::
Pattern_ -> PatternIter_ -> IO Int
foreign import ccall "FcPatternIterGetValue" fcPatternIterGetValue ::
Pattern_ -> PatternIter_ -> Int -> Value_ -> Ptr Int -> IO Int
thawPattern_ cb = bracket (throwNull <$> cb) fcPatternDestroy thawPattern
withNewPattern cb = bracket (throwNull <$> fcPatternCreate) fcPatternDestroy cb
foreign import ccall "FcPatternCreate" fcPatternCreate :: IO Pattern_
foreign import ccall "FcPatternDestroy" fcPatternDestroy :: Pattern_ -> IO ()
------
--- Pattern
------
parseFontFamily :: [Token] -> ([String], Bool, [Token])
parseFontFamily (String font:Comma:tail) = let (fonts, b, tail') = parseFontFamily tail
in (unpack font:fonts, b, tail')
parseFontFamily (Ident font:Comma:tail) = let (fonts, b, tail') = parseFontFamily tail
in (unpack font:fonts, b, tail')
parseFontFamily (String font:tail) = ([unpack font], True, tail)
parseFontFamily (Ident font:tail) = ([unpack font], True, tail)
parseFontFamily toks = ([], False, toks) -- Invalid syntax!
parseFontFeatures :: [Token] -> ([(String, Int)], Bool, [Token])
parseFontFeatures (String feat:toks) | feature@(_:_:_:_:[]) <- unpack feat = case toks of
Comma:tail -> let (feats, b, tail') = parseFontFeatures tail in ((feature, 1):feats, b, tail')
Ident "on":Comma:tail -> let (f, b, t) = parseFontFeatures tail in ((feature, 1):f, b, t)
Ident "on":tail -> ([(feature, 1)], True, tail)
Ident "off":Comma:tail -> let (f, b, t) = parseFontFeatures tail in ((feature, 1):f, b, t)
Ident "off":tail -> ([(feature, 1)], True, tail)
Number _ (NVInteger x):Comma:tail ->
let (feats, b, tail') = parseFontFeatures tail in ((feature, fromEnum x):feats, b, tail')
Number _ (NVInteger x):tail -> ([(feature, fromEnum x)], True, tail)
parseFontFeatures toks = ([], False, toks)
parseLength :: Double -> NumericValue -> Text -> Double
parseLength super length unit = convert (nv2double length) unit
where
convert = c
c x "pt" = x -- Unit FontConfig expects!
c x "pc" = x/6 `c` "in"
c x "in" = x/72 `c` "pt"
c x "Q" = x/40 `c` "cm"
c x "mm" = x/10 `c` "cm"
c x "cm" = x/2.54 `c` "in"
c x "px" = x/96 `c` "in" -- Conversion factor during early days of CSS, got entrenched.
c x "em" = x * super
c x "%" = x/100 `c` "em"
c _ _ = 0/0 -- NaN
nv2double (NVInteger x) = fromInteger x
nx2double (NVNumber x) = toRealFloat x
sets a b c d = Just $ setValues a b c d
set a b c d = Just $ setValue a b c d
seti a b c d = Just $ setValue a b (c :: Int) d
getSize pat | ValueDouble x <- getValue "size" pat = x
| otherwise = 10
instance PropertyParser Pattern where
temp = []
longhand _ self "font-family" toks
| (fonts, True, []) <- parseFontFamily toks = sets "family" Strong fonts self
-- font-size: initial should be configurable!
longhand super self "font-size" [Dimension _ x unit]
| let y = parseLength (getSize super) x unit, not $ isNaN y =
set "size" Strong y self
longhand super self "font-size" [Percentage x y] =
longhand super self "font-size" [Dimension x y "%"]
longhand _ self "font-style" [Ident "initial"] = seti "slant" Strong 0 self
longhand _ self "font-style" [Ident "normal"] = seti "slant" Strong 0 self
longhand _ self "font-style" [Ident "italic"] = seti "slant" Strong 100 self
longhand _ self "font-style" [Ident "oblique"] = seti "slant" Strong 110 self
-- Conversion between CSS scale & FontConfig scale is non-trivial, use lookuptable.
longhand _ self "font-weight" [Ident "initial"] = seti "weight" Strong 80 self
longhand _ self "font-weight" [Ident "normal"] = seti "weight" Strong 80 self
longhand _ self "font-weight" [Ident "bold"] = seti "weight" Strong 200 self
longhand _ s "font-weight" [Number _ (NVInteger 100)] = seti "weight" Strong 0 s
longhand _ s "font-weight" [Number _ (NVInteger 200)] = seti "weight" Strong 40 s
longhand _ s "font-weight" [Number _ (NVInteger 300)] = seti "weight" Strong 50 s
longhand _ s "font-weight" [Number _ (NVInteger 400)] = seti "weight" Strong 80 s
longhand _ s "font-weight" [Number _ (NVInteger 500)] = seti "weight" Strong 100 s
longhand _ s "font-weight" [Number _ (NVInteger 600)] = seti "weight" Strong 180 s
longhand _ s "font-weight" [Number _ (NVInteger 700)] = seti "weight" Strong 200 s
longhand _ s "font-weight" [Number _ (NVInteger 800)] = seti "weight" Strong 205 s
longhand _ s "font-weight" [Number _ (NVInteger 900)] = seti "weight" Strong 210 s
longhand _ s "font-weight" [Number _ (NVInteger 950)] = seti "weight" Strong 215 s
longhand super self "font-weight" [Number _ (NVInteger x)]
| x > 920 = longhand super self "font-weight" [Number "" $ NVInteger 950]
| otherwise = longhand super self "font-weight" [Number "" $ NVInteger $ (x `div` 100) * 100]
longhand _ self "font-weight" [Ident "lighter"]
| ValueInt x <- getValue "weight" self, x > 200 = seti "weight" Strong 200 self
-- minus 100 adhears to the CSS standard awefully well in this new scale.
| ValueInt x <- getValue "weight" self = seti "weight" Strong (max (x - 100) 0) self
| otherwise = seti "weight" Strong 0 self
longhand _ self "font-weight" [Ident "bolder"]
| ValueInt x <- getValue "weight" self, x <= 65 = seti "weight" Strong 80 self
| ValueInt x <- getValue "weight" self, x <= 150 = seti "weight" Strong 200 self
| ValueInt x <- getValue "weight" self, x < 210 = seti "weight" Strong 210 self
| ValueInt _ <- getValue "weight" self = Just self -- As bold as it goes...
| otherwise = seti "weight" Strong 200 self
longhand _ self "font-feature-settings" [Ident k] | k `elem` ["initial", "normal"] = Just self
longhand _ self "font-feature-settings" toks
| (features, True, []) <- parseFontFeatures toks =
set "fontfeatures" Strong (intercalate "," $ map fst features) self
longhand _ _ _ _ = Nothing