module Text.Printf(
printf, hPrintf,
PrintfType, HPrintfType, PrintfArg, IsChar
) where
import Prelude
import Data.Char
import Data.Int
import Data.Word
import Numeric(showEFloat, showFFloat, showGFloat)
import System.IO
printf :: (PrintfType r) => String -> r
printf fmts = spr fmts []
hPrintf :: (HPrintfType r) => Handle -> String -> r
hPrintf hdl fmts = hspr hdl fmts []
class PrintfType t where
spr :: String -> [UPrintf] -> t
class HPrintfType t where
hspr :: Handle -> String -> [UPrintf] -> t
instance (IsChar c) => PrintfType [c] where
spr fmts args = map fromChar (uprintf fmts (reverse args))
instance PrintfType (IO a) where
spr fmts args = do
putStr (uprintf fmts (reverse args))
return (error "PrintfType (IO a): result should not be used.")
instance HPrintfType (IO a) where
hspr hdl fmts args = do
hPutStr hdl (uprintf fmts (reverse args))
return (error "HPrintfType (IO a): result should not be used.")
instance (PrintfArg a, PrintfType r) => PrintfType (a -> r) where
spr fmts args = \ a -> spr fmts (toUPrintf a : args)
instance (PrintfArg a, HPrintfType r) => HPrintfType (a -> r) where
hspr hdl fmts args = \ a -> hspr hdl fmts (toUPrintf a : args)
class PrintfArg a where
toUPrintf :: a -> UPrintf
instance PrintfArg Char where
toUPrintf c = UChar c
instance (IsChar c) => PrintfArg [c] where
toUPrintf = UString . map toChar
instance PrintfArg Int where
toUPrintf = uInteger
instance PrintfArg Int8 where
toUPrintf = uInteger
instance PrintfArg Int16 where
toUPrintf = uInteger
instance PrintfArg Int32 where
toUPrintf = uInteger
instance PrintfArg Int64 where
toUPrintf = uInteger
#ifndef __NHC__
instance PrintfArg Word where
toUPrintf = uInteger
#endif
instance PrintfArg Word8 where
toUPrintf = uInteger
instance PrintfArg Word16 where
toUPrintf = uInteger
instance PrintfArg Word32 where
toUPrintf = uInteger
instance PrintfArg Word64 where
toUPrintf = uInteger
instance PrintfArg Integer where
toUPrintf = UInteger 0
instance PrintfArg Float where
toUPrintf = UFloat
instance PrintfArg Double where
toUPrintf = UDouble
uInteger :: (Integral a, Bounded a) => a -> UPrintf
uInteger x = UInteger (toInteger $ minBound `asTypeOf` x) (toInteger x)
class IsChar c where
toChar :: c -> Char
fromChar :: Char -> c
instance IsChar Char where
toChar c = c
fromChar c = c
data UPrintf = UChar Char | UString String | UInteger Integer Integer | UFloat Float | UDouble Double
uprintf :: String -> [UPrintf] -> String
uprintf "" [] = ""
uprintf "" (_:_) = fmterr
uprintf ('%':'%':cs) us = '%':uprintf cs us
uprintf ('%':_) [] = argerr
uprintf ('%':cs) us@(_:_) = fmt cs us
uprintf (c:cs) us = c:uprintf cs us
fmt :: String -> [UPrintf] -> String
fmt cs us =
let (width, prec, ladj, zero, plus, cs', us') = getSpecs False False False cs us
adjust (pre, str) =
let lstr = length str
lpre = length pre
fill = if lstr+lpre < width then take (width(lstr+lpre)) (repeat (if zero then '0' else ' ')) else ""
in if ladj then pre ++ str ++ fill else if zero then pre ++ fill ++ str else fill ++ pre ++ str
adjust' ("", str) | plus = adjust ("+", str)
adjust' ps = adjust ps
in
case cs' of
[] -> fmterr
c:cs'' ->
case us' of
[] -> argerr
u:us'' ->
(case c of
'c' -> adjust ("", [toEnum (toint u)])
'd' -> adjust' (fmti prec u)
'i' -> adjust' (fmti prec u)
'x' -> adjust ("", fmtu 16 prec u)
'X' -> adjust ("", map toUpper $ fmtu 16 prec u)
'o' -> adjust ("", fmtu 8 prec u)
'u' -> adjust ("", fmtu 10 prec u)
'e' -> adjust' (dfmt' c prec u)
'E' -> adjust' (dfmt' c prec u)
'f' -> adjust' (dfmt' c prec u)
'g' -> adjust' (dfmt' c prec u)
'G' -> adjust' (dfmt' c prec u)
's' -> adjust ("", tostr prec u)
_ -> perror ("bad formatting char " ++ [c])
) ++ uprintf cs'' us''
fmti :: Int -> UPrintf -> (String, String)
fmti prec (UInteger _ i) = if i < 0 then ("-", integral_prec prec (show (i))) else ("", integral_prec prec (show i))
fmti _ (UChar c) = fmti 0 (uInteger (fromEnum c))
fmti _ _ = baderr
fmtu :: Integer -> Int -> UPrintf -> String
fmtu b prec (UInteger l i) = integral_prec prec (itosb b (if i < 0 then 2*l + i else i))
fmtu b _ (UChar c) = itosb b (toInteger (fromEnum c))
fmtu _ _ _ = baderr
integral_prec :: Int -> String -> String
integral_prec prec integral = (replicate (prec (length integral)) '0') ++ integral
toint :: UPrintf -> Int
toint (UInteger _ i) = fromInteger i
toint (UChar c) = fromEnum c
toint _ = baderr
tostr :: Int -> UPrintf -> String
tostr n (UString s) = if n >= 0 then take n s else s
tostr _ _ = baderr
itosb :: Integer -> Integer -> String
itosb b n =
if n < b then
[intToDigit $ fromInteger n]
else
let (q, r) = quotRem n b in
itosb b q ++ [intToDigit $ fromInteger r]
stoi :: Int -> String -> (Int, String)
stoi a (c:cs) | isDigit c = stoi (a*10 + digitToInt c) cs
stoi a cs = (a, cs)
getSpecs :: Bool -> Bool -> Bool -> String -> [UPrintf] -> (Int, Int, Bool, Bool, Bool, String, [UPrintf])
getSpecs _ z s ('-':cs) us = getSpecs True z s cs us
getSpecs l z _ ('+':cs) us = getSpecs l z True cs us
getSpecs l _ s ('0':cs) us = getSpecs l True s cs us
getSpecs l z s ('*':cs) us =
let (us', n) = getStar us
((p, cs''), us'') =
case cs of
'.':'*':r -> let (us''', p') = getStar us'
in ((p', r), us''')
'.':r -> (stoi 0 r, us')
_ -> ((1, cs), us')
in (n, p, l, z, s, cs'', us'')
getSpecs l z s ('.':cs) us =
let ((p, cs'), us') =
case cs of
'*':cs'' -> let (us'', p') = getStar us in ((p', cs''), us'')
_ -> (stoi 0 cs, us)
in (0, p, l, z, s, cs', us')
getSpecs l z s cs@(c:_) us | isDigit c =
let (n, cs') = stoi 0 cs
((p, cs''), us') = case cs' of
'.':'*':r -> let (us'', p') = getStar us in ((p', r), us'')
'.':r -> (stoi 0 r, us)
_ -> ((1, cs'), us)
in (n, p, l, z, s, cs'', us')
getSpecs l z s cs us = (0, 1, l, z, s, cs, us)
getStar :: [UPrintf] -> ([UPrintf], Int)
getStar us =
case us of
[] -> argerr
nu : us' -> (us', toint nu)
dfmt' :: Char -> Int -> UPrintf -> (String, String)
dfmt' c p (UDouble d) = dfmt c p d
dfmt' c p (UFloat f) = dfmt c p f
dfmt' _ _ _ = baderr
dfmt :: (RealFloat a) => Char -> Int -> a -> (String, String)
dfmt c p d =
case (if isUpper c then map toUpper else id) $
(case toLower c of
'e' -> showEFloat
'f' -> showFFloat
'g' -> showGFloat
_ -> error "Printf.dfmt: impossible"
)
(if p < 0 then Nothing else Just p) d "" of
'-':cs -> ("-", cs)
cs -> ("" , cs)
perror :: String -> a
perror s = error ("Printf.printf: "++s)
fmterr, argerr, baderr :: a
fmterr = perror "formatting string ended prematurely"
argerr = perror "argument list ended prematurely"
baderr = perror "bad argument"