{-# LANGUAGE ForeignFunctionInterface, GeneralizedNewtypeDeriving #-}
-- glaexts needed for newtype deriving
-- Copyright (c) 2002-2004 John Meacham (john at repetae dot net)
-- Copyright (c) 2004 Don Stewart - http://www.cse.unsw.edu.au/~dons
-- Copyright (c) 2005-2011 Stefan Wehr - http://www.stefanwehr.de
--
-- This library is free software; you can redistribute it and/or
-- modify it under the terms of the GNU Lesser General Public
-- License as published by the Free Software Foundation; either
-- version 2.1 of the License, or (at your option) any later version.
--
-- This library 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
-- Lesser General Public License for more details.
--
-- You should have received a copy of the GNU Lesser General Public
-- License along with this library; if not, write to the Free Software
-- Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
--
-- | Binding to the [wn]curses library. From the ncurses man page:
--
-- > The curses library routines give the user a terminal-inde-
-- > pendent method of updating character screens with reason-
-- > able optimization.
--
-- Sections of the quoted documentation are from the OpenBSD man pages, which
-- are distributed under a BSD license.
--
-- A useful reference is:
-- /Writing Programs with NCURSES/, by Eric S. Raymond and Zeyd
-- M. Ben-Halim,
--
-- N.B attrs don't work with Irix curses.h. This should be fixed.
--
module UI.HSCurses.Curses (
-- * Basic Functions
stdScr, -- :: Window
initScr, -- :: IO Window
initCurses, -- :: IO ()
resetParams,
endWin, -- :: IO ()
scrSize, -- :: IO (Int, Int)
-- * Windows and Pads
Window, -- data Window deriving Eq
Border(..), -- data Border
touchWin,
newPad, pRefresh, delWin, newWin, wRefresh, wBorder, defaultBorder,
-- * Refresh Routines
refresh, -- :: IO ()
update,
resizeTerminal,
timeout, -- :: Int -> IO ()
noqiflush, -- :: IO ()
-- * Navigation
move, -- :: Int -> Int -> IO ()
getYX,
-- * Input
getCh, getch, decodeKey, ungetCh, keyResizeCode,
-- * Input Options
cBreak, -- :: Bool -> IO ()
raw, -- :: Bool -> IO ()
echo, -- :: Bool -> IO ()
intrFlush, -- :: Bool -> IO ()
keypad, -- :: Window -> Bool -> IO ()
noDelay, -- :: Window -> Bool -> IO ()
-- * Output
wAddStr, -- :: Window -> String -> IO ()
addLn, -- :: IO ()
mvWAddStr,
mvAddCh, -- :: Int -> Int -> ChType -> IO ()
wMove,
bkgrndSet, -- :: Attr -> Pair -> IO ()
erase, -- :: IO ()
wclear, -- :: Window -> IO ()
clrToEol, -- :: IO ()
wClrToEol,
beep,
waddch,
waddchnstr, -- :: Window -> CString -> CInt -> IO CInt
-- * Output Options
clearOk,
leaveOk,
nl, -- :: Bool -> IO ()
-- * Cursor Routines
CursorVisibility(..), cursSet,
-- * Color Support
hasColors, -- :: IO Bool
startColor, -- :: IO ()
useDefaultColors, -- :: IO ()
Pair(..), -- newtype Pair = Pair Int deriving (Eq, Ord, Ix)
colorPairs, -- :: IO Int
Color(..), -- newtype Color = Color Int deriving (Eq, Ord, Ix)
colors, -- :: IO Int
color, -- :: String -> Maybe Color
-- black, red, green, yellow, blue, magenta, cyan, white, -- :: Color
initPair, -- :: Pair -> Color -> Color -> IO ()
pairContent, -- :: Pair -> IO (Color, Color)
canChangeColor, -- :: IO Bool
initColor, -- :: Color -> (Int, Int, Int) -> IO ()
colorContent, -- :: Color -> IO (Int, Int, Int)
defaultBackground, defaultForeground,
-- * Attributes
attrPlus,
Attr,
attr0, -- :: Attr
isAltCharset, isBlink, isBold, isDim, isHorizontal, isInvis,
isLeft, isLow, isProtect, isReverse, isRight, isStandout, isTop,
isUnderline, isVertical,
-- :: Attr -> Bool
setAltCharset, setBlink, setBold, setDim, setHorizontal, setInvis,
setLeft, setLow, setProtect, setReverse, setRight, setStandout,
setTop, setUnderline, setVertical,
-- :: Attr -> Bool -> Attr
attrSet, -- :: Attr -> Pair -> IO ()
attrOn, attrOff,
standout,standend,
attrDim, attrBold,
attrDimOn, attrDimOff,
attrBoldOn, attrBoldOff,
wAttrOn,
wAttrOff,
wAttrSet, wAttrGet,
-- * Mouse Routines
withMouseEventMask,
ButtonEvent(..),
MouseEvent(..),
-- * Keys
Key(..),
cERR,
cKEY_UP,
cKEY_DOWN,
cKEY_LEFT,
cKEY_RIGHT,
cTRUE,
-- cACS_BLOCK,
-- * Lines
vline,
ulCorner, llCorner, urCorner, lrCorner, rTee, lTee, bTee, tTee, hLine,
vLine, plus, s1, s9, diamond, ckBoard, degree, plMinus, bullet,
lArrow, rArrow, dArrow, uArrow, board, lantern, block,
s3, s7, lEqual, gEqual, pi, nEqual, sterling,
-- * Signals
cursesSigWinch,
-- * Misc
cursesTest,
throwIfErr, throwIfErr_,
errI, -- :: IO CInt -> IO ()
flushinp,
recognize,
ChType,
NBool
) where
#include
#if HAVE_SIGNAL_H
# include
#endif
import UI.HSCurses.CWString ( withLCStringLen )
import UI.HSCurses.Logging
import Prelude hiding ( pi )
import Data.Char
import Data.List
import Data.Ix ( Ix )
import System.IO.Unsafe ( unsafePerformIO )
import Control.Monad ( when, liftM, void )
import Control.Monad.Trans
import Control.Concurrent
import Foreign hiding ( unsafePerformIO, void )
import Foreign.C.String
import Foreign.C.Types
import Foreign.C.Error
#ifndef mingw32_HOST_OS
import System.Posix.Signals
#endif
#if __GLASGOW_HASKELL__ < 603
import Data.Bits
#endif
------------------------------------------------------------------------
--
-- | @initCurses fn@ does all initialization necessary for a Curses
-- application.
--
initCurses :: IO ()
initCurses = do
initScr
b <- hasColors
when b $ startColor >> useDefaultColors
resetParams :: IO ()
resetParams = do
raw True -- raw mode please
echo False
nl False
intrFlush True
leaveOk False
keypad stdScr True
#ifdef NCURSES_EXT_FUNCS
defineKey (#const KEY_UP) "\x1b[1;2A"
defineKey (#const KEY_DOWN) "\x1b[1;2B"
defineKey (#const KEY_SLEFT) "\x1b[1;2D"
defineKey (#const KEY_SRIGHT) "\x1b[1;2C"
defineKey (#const KEY_B2) "\x1b[E" -- xterm seems to emit B2, not BEG
defineKey (#const KEY_END) "\x1b[F"
defineKey (#const KEY_END) "\x1b[4~"
defineKey (#const KEY_HOME) "\x1b[H"
defineKey (#const KEY_HOME) "\x1b[1~"
#endif
------------------------------------------------------------------------
fi :: (Integral a, Num b) => a -> b
fi = fromIntegral
throwIfErr :: (Eq a, Show a, Num a) => String -> IO a -> IO a
--throwIfErr name act = do
-- res <- act
-- if res == (cERR)
-- then ioError (userError ("Curses: "++name++" failed"))
-- else return res
throwIfErr s = throwIf (== (#const ERR)) (\a -> "Curses[" ++ show a ++ "]:" ++ s)
throwIfErr_ :: (Eq a, Show a, Num a) => String -> IO a -> IO ()
throwIfErr_ name act = void $ throwIfErr name act
errI :: IO CInt -> IO ()
errI f = do r <- f
if r == cERR then do _ <- endwin
error "curses returned an error"
else return ()
------------------------------------------------------------------------
type WindowTag = ()
type Window = Ptr WindowTag
type ChType = #type chtype
type NBool = #type bool
--
-- | The standard screen
--
stdScr :: Window
stdScr = unsafePerformIO (peek stdscr)
foreign import ccall "static HSCurses.h &stdscr"
stdscr :: Ptr Window
--
-- | initscr is normally the first curses routine to call when
-- initializing a program. curs_initscr(3):
--
-- > To initialize the routines, the routine initscr or newterm
-- > must be called before any of the other routines that deal
-- > with windows and screens are used.
--
-- > The initscr code determines the terminal type and initial-
-- > izes all curses data structures. initscr also causes the
-- > first call to refresh to clear the screen. If errors
-- > occur, initscr writes an appropriate error message to
-- > standard error and exits; otherwise, a pointer is returned
-- > to stdscr.
--
initScr :: IO Window
initScr = throwIfNull "initscr" initscr
foreign import ccall unsafe "HSCurses.h initscr" initscr :: IO Window
--
-- | > The cbreak routine
-- > disables line buffering and erase/kill character-process-
-- > ing (interrupt and flow control characters are unaf-
-- > fected), making characters typed by the user immediately
-- > available to the program. The nocbreak routine returns
-- > the terminal to normal (cooked) mode.
--
cBreak :: Bool -> IO ()
cBreak True = throwIfErr_ "cbreak" cbreak
cBreak False = throwIfErr_ "nocbreak" nocbreak
foreign import ccall unsafe "HSCurses.h cbreak" cbreak :: IO CInt
foreign import ccall unsafe "HSCurses.h nocbreak" nocbreak :: IO CInt
--
-- |> The raw and noraw routines place the terminal into or out
-- > of raw mode. Raw mode is similar to cbreak mode, in that
-- > characters typed are immediately passed through to the
-- > user program. The differences are that in raw mode, the
-- > interrupt, quit, suspend, and flow control characters are
-- > all passed through uninterpreted, instead of generating a
-- > signal. The behavior of the BREAK key depends on other
-- > bits in the tty driver that are not set by curses.
--
raw :: Bool -> IO ()
raw False = throwIfErr_ "noraw" noraw
raw True = throwIfErr_ "raw" raw_c
foreign import ccall unsafe "HSCurses.h noraw" noraw :: IO CInt
foreign import ccall unsafe "HSCurses.h raw" raw_c :: IO CInt
--
-- |> The echo and noecho routines control whether characters
-- > typed by the user are echoed by getch as they are typed.
-- > Echoing by the tty driver is always disabled, but ini-
-- > tially getch is in echo mode, so characters typed are
-- > echoed. Authors of most interactive programs prefer to do
-- > their own echoing in a controlled area of the screen, or
-- > not to echo at all, so they disable echoing by calling
-- > noecho. [See curs_getch(3) for a discussion of how these
-- > routines interact with cbreak and nocbreak.]
-- >
--
echo :: Bool -> IO ()
echo False = throwIfErr_ "noecho" noecho
echo True = throwIfErr_ "echo" echo_c
foreign import ccall unsafe "HSCurses.h noecho" noecho :: IO CInt
foreign import ccall unsafe "HSCurses.h echo" echo_c :: IO CInt
--
-- |> The nl and nonl routines control whether the underlying
-- > display device translates the return key into newline on
-- > input, and whether it translates newline into return and
-- > line-feed on output (in either case, the call addch('\n')
-- > does the equivalent of return and line feed on the virtual
-- > screen). Initially, these translations do occur. If you
-- > disable them using nonl, curses will be able to make bet-
-- > ter use of the line-feed capability, resulting in faster
-- > cursor motion. Also, curses will then be able to detect
-- > the return key.
-- >
nl :: Bool -> IO ()
nl True = throwIfErr_ "nl" nl_c
nl False = throwIfErr_ "nonl" nonl
foreign import ccall unsafe "HSCurses.h nl" nl_c :: IO CInt
foreign import ccall unsafe "HSCurses.h nonl" nonl :: IO CInt
-- |> If the intrflush option is enabled, (bf is TRUE), when an
-- > interrupt key is pressed on the keyboard (interrupt,
-- > break, quit) all output in the tty driver queue will be
-- > flushed, giving the effect of faster response to the
-- > interrupt, but causing curses to have the wrong idea of
-- > what is on the screen. Disabling (bf is FALSE), the
-- > option prevents the flush.
-- >
intrFlush :: Bool -> IO ()
intrFlush bf =
throwIfErr_ "intrflush" $ intrflush stdScr (if bf then 1 else 0)
foreign import ccall unsafe "HSCurses.h intrflush" intrflush :: Window -> (#type bool) -> IO CInt
--
-- | Enable the keypad of the user's terminal.
--
keypad :: Window -> Bool -> IO ()
keypad win bf = throwIfErr_ "keypad" $ keypad_c win (if bf then 1 else 0)
foreign import ccall unsafe "HSCurses.h keypad"
keypad_c :: Window -> (#type bool) -> IO CInt
noDelay :: Window -> Bool -> IO ()
noDelay win bf =
throwIfErr_ "nodelay" $ nodelay win (if bf then 1 else 0)
foreign import ccall unsafe "HSCurses.h nodelay"
nodelay :: Window -> (#type bool) -> IO CInt
--
-- | Normally, the hardware cursor is left at the location of
-- the window cursor being refreshed. The leaveok option
-- allows the cursor to be left wherever the update happens
-- to leave it. It is useful for applications where the cur-
-- sor is not used, since it reduces the need for cursor
-- motions. If possible, the cursor is made invisible when
-- this option is enabled.
--
leaveOk :: Bool -> IO CInt
leaveOk True = leaveok_c stdScr 1
leaveOk False = leaveok_c stdScr 0
foreign import ccall unsafe "HSCurses.h leaveok"
leaveok_c :: Window -> (#type bool) -> IO CInt
clearOk :: Bool -> IO CInt
clearOk True = clearok_c stdScr 1
clearOk False = clearok_c stdScr 0
foreign import ccall unsafe "HSCurses.h clearok"
clearok_c :: Window -> (#type bool) -> IO CInt
------------------------------------------------------------------------
foreign import ccall unsafe "HSCurses.h use_default_colors"
useDefaultColors :: IO ()
defaultBackground, defaultForeground :: Color
defaultBackground = Color (-1)
defaultForeground = Color (-1)
------------------------------------------------------------------------
#ifdef NCURSES_EXT_FUNCS
defineKey :: CInt -> String -> IO ()
defineKey k s = withCString s (\s' -> define_key s' k) >> return ()
foreign import ccall unsafe "HSCurses.h define_key"
define_key :: Ptr CChar -> CInt -> IO ()
#endif
--
-- | > The program must call endwin for each terminal being used before
-- > exiting from curses.
--
endWin :: IO ()
endWin = throwIfErr_ "endwin" endwin
foreign import ccall unsafe "HSCurses.h endwin" endwin :: IO CInt
------------------------------------------------------------------------
--
-- | get the dimensions of the screen
--
scrSize :: IO (Int, Int)
scrSize = do
lnes <- peek linesPtr
cols <- peek colsPtr
return (fromIntegral lnes, fromIntegral cols)
foreign import ccall "HSCurses.h &LINES" linesPtr :: Ptr CInt
foreign import ccall "HSCurses.h &COLS" colsPtr :: Ptr CInt
--
-- | refresh curses windows and lines. curs_refresh(3)
--
refresh :: IO ()
refresh = throwIfErr_ "refresh" refresh_c
foreign import ccall unsafe "HSCurses.h refresh"
refresh_c :: IO CInt
--
-- | wRefresh refreshes the specified window, copying the data
-- | from the virtual screen to the physical screen.
--
wRefresh :: Window -> IO ()
wRefresh w = throwIfErr_ "wrefresh" $ wrefresh_c w
foreign import ccall unsafe "HSCurses.h wrefresh"
wrefresh_c :: Window -> IO CInt
--
-- | Do an actual update. Used after endWin on linux to restore the terminal
--
update :: IO ()
update = throwIfErr_ "update" update_c
foreign import ccall unsafe "HSCurses.h doupdate" update_c :: IO CInt
foreign import ccall unsafe "static curses.h timeout" timeout_c :: CInt -> IO ()
-- | Set a delay in milliseconds.
timeout :: Int -> IO ()
timeout = timeout_c . fromIntegral
------------------------------------------------------------------------
hasColors :: IO Bool
hasColors = liftM (/= 0) has_colors
foreign import ccall unsafe "HSCurses.h has_colors" has_colors :: IO (#type bool)
--
-- | Initialise the color settings, also sets the screen to the
-- default colors (white on black)
--
startColor :: IO ()
startColor = throwIfErr_ "start_color" start_color
foreign import ccall unsafe start_color :: IO CInt
newtype Pair = Pair Int deriving (Eq, Ord, Ix, Show)
--
-- | colorPairs defines the maximum number of color-pairs the terminal
-- can support).
--
colorPairs :: IO Int
colorPairs = fmap fromIntegral $ peek colorPairsPtr
foreign import ccall "HSCurses.h &COLOR_PAIRS"
colorPairsPtr :: Ptr CInt
newtype Color = Color Int deriving (Eq, Ord, Ix)
colors :: IO Int
colors = liftM fromIntegral $ peek colorsPtr
foreign import ccall "HSCurses.h &COLORS" colorsPtr :: Ptr CInt
--black, red, green, yellow, blue, magenta, cyan, white :: Color
color :: String -> Maybe Color
color "default" = Just $ Color (-1)
color "black" = Just $ Color (#const COLOR_BLACK)
color "red" = Just $ Color (#const COLOR_RED)
color "green" = Just $ Color (#const COLOR_GREEN)
color "yellow" = Just $ Color (#const COLOR_YELLOW)
color "blue" = Just $ Color (#const COLOR_BLUE)
color "magenta" = Just $ Color (#const COLOR_MAGENTA)
color "cyan" = Just $ Color (#const COLOR_CYAN)
color "white" = Just $ Color (#const COLOR_WHITE)
color _ = Nothing
--
-- | curses support color attributes on terminals with that
-- capability. To use these routines start_color must be
-- called, usually right after initscr. Colors are always
-- used in pairs (referred to as color-pairs). A color-pair
-- consists of a foreground color (for characters) and a
-- background color (for the blank field on which the charac-
-- ters are displayed). A programmer initializes a color-
-- pair with the routine init_pair. After it has been ini-
-- tialized, COLOR_PAIR(n), a macro defined in ,
-- can be used as a new video attribute.
--
-- If a terminal is capable of redefining colors, the pro-
-- grammer can use the routine init_color to change the defi-
-- nition of a color.
--
-- The init_pair routine changes the definition of a color-
-- pair. It takes three arguments: the number of the color-
-- pair to be changed, the foreground color number, and the
-- background color number. For portable applications:
--
-- - The value of the first argument must be between 1 and
-- COLOR_PAIRS-1.
--
-- - The value of the second and third arguments must be
-- between 0 and COLORS (the 0 color pair is wired to
-- white on black and cannot be changed).
--
--
initPair :: Pair -> Color -> Color -> IO ()
initPair (Pair p) (Color f) (Color b) =
throwIfErr_ "init_pair" $
init_pair (fromIntegral p) (fromIntegral f) (fromIntegral b)
foreign import ccall unsafe
init_pair :: CShort -> CShort -> CShort -> IO CInt
pairContent :: Pair -> IO (Color, Color)
pairContent (Pair p) =
alloca $ \fPtr ->
alloca $ \bPtr -> do
throwIfErr "pair_content" $ pair_content (fromIntegral p) fPtr bPtr
f <- peek fPtr
b <- peek bPtr
return (Color (fromIntegral f), Color (fromIntegral b))
foreign import ccall unsafe pair_content :: CShort -> Ptr CShort -> Ptr CShort -> IO CInt
canChangeColor :: IO Bool
canChangeColor = liftM (/= 0) can_change_color
foreign import ccall unsafe can_change_color :: IO (#type bool)
initColor :: Color -> (Int, Int, Int) -> IO ()
initColor (Color c) (r, g, b) =
throwIfErr_ "init_color" $
init_color (fromIntegral c) (fromIntegral r) (fromIntegral g) (fromIntegral b)
foreign import ccall unsafe init_color :: CShort -> CShort -> CShort -> CShort -> IO CInt
colorContent :: Color -> IO (Int, Int, Int)
colorContent (Color c) =
alloca $ \rPtr ->
alloca $ \gPtr ->
alloca $ \bPtr -> do
throwIfErr "color_content" $ color_content (fromIntegral c) rPtr gPtr bPtr
r <- peek rPtr
g <- peek gPtr
b <- peek bPtr
return (fromIntegral r, fromIntegral g, fromIntegral b)
foreign import ccall unsafe
color_content :: CShort -> Ptr CShort -> Ptr CShort -> Ptr CShort -> IO CInt
foreign import ccall unsafe "HSCurses.h hs_curses_color_pair" colorPair :: Pair -> ChType
-------------
-- Attributes
-------------
foreign import ccall unsafe "HSCurses.h attr_set"
attr_set :: Attr -> CShort -> Ptr a -> IO Int
-- foreign import ccall unsafe "HSCurses.h attr_get" :: Attr -> CShort -> Ptr a -> IO Int
foreign import ccall unsafe "HSCurses.h wattr_set"
wattr_set :: Window -> Attr -> CInt -> Ptr a -> IO CInt
foreign import ccall unsafe "HSCurses.h wattr_get"
wattr_get :: Window -> Ptr Attr -> Ptr CShort -> Ptr a -> IO CInt
foreign import ccall "HSCurses.h attr_on" attr_on :: (#type attr_t) -> Ptr a -> IO Int
foreign import ccall "HSCurses.h attr_off" attr_off :: (#type attr_t) -> Ptr a -> IO Int
foreign import ccall "HSCurses.h attron" attron :: Int -> IO Int
foreign import ccall "HSCurses.h attroff" attroff :: Int -> IO Int
foreign import ccall unsafe "HSCurses.h wattron" wattron :: Window -> CInt -> IO CInt
foreign import ccall unsafe "HSCurses.h wattroff" wattroff :: Window -> CInt -> IO CInt
foreign import ccall standout :: IO Int
foreign import ccall standend :: IO Int
--
-- |
--
wAttrSet :: Window -> (Attr,Pair) -> IO ()
wAttrSet w (a,(Pair p)) = throwIfErr_ "wattr_set" $
wattr_set w a (fromIntegral p) nullPtr
--
-- | manipulate the current attributes of the named window. see curs_attr(3)
--
wAttrGet :: Window -> IO (Attr,Pair)
wAttrGet w =
alloca $ \pa ->
alloca $ \pp -> do
throwIfErr_ "wattr_get" $ wattr_get w pa pp nullPtr
a <- peek pa
p <- peek pp
return (a,Pair $ fromIntegral p)
newtype Attr = Attr (#type attr_t) deriving (Eq,Storable,Bits, Num, Show)
--
-- | Normal display (no highlight)
--
attr0 :: Attr
#ifdef WA_NORMAL
attr0 = Attr (#const WA_NORMAL)
#else
attr0 = Attr (#const A_NORMAL)
#endif
isAltCharset, isBlink, isBold, isDim, isHorizontal, isInvis, isLeft,
isLow, isProtect, isReverse, isRight, isStandout, isTop,
isUnderline, isVertical :: Attr -> Bool
isAltCharset = isAttr (#const WA_ALTCHARSET)
isBlink = isAttr (#const WA_BLINK)
isBold = isAttr (#const WA_BOLD)
isDim = isAttr (#const WA_DIM)
isHorizontal = isAttr (#const WA_HORIZONTAL)
isInvis = isAttr (#const WA_INVIS)
isLeft = isAttr (#const WA_LEFT)
isLow = isAttr (#const WA_LOW)
isProtect = isAttr (#const WA_PROTECT)
isReverse = isAttr (#const WA_REVERSE)
isRight = isAttr (#const WA_RIGHT)
isStandout = isAttr (#const WA_STANDOUT)
isTop = isAttr (#const WA_TOP)
isUnderline = isAttr (#const WA_UNDERLINE)
isVertical = isAttr (#const WA_VERTICAL)
isAttr :: (#type attr_t) -> Attr -> Bool
isAttr b (Attr a) = a .&. b /= 0
--
-- | Setting attributes
--
setAltCharset, setBlink, setBold, setDim, setHorizontal, setInvis,
setLeft, setLow, setProtect, setReverse, setRight, setStandout,
setTop, setUnderline, setVertical :: Attr -> Bool -> Attr
setAltCharset = setAttr (#const WA_ALTCHARSET)
setBlink = setAttr (#const WA_BLINK)
setBold = setAttr (#const WA_BOLD)
setDim = setAttr (#const WA_DIM)
setHorizontal = setAttr (#const WA_HORIZONTAL)
setInvis = setAttr (#const WA_INVIS)
setLeft = setAttr (#const WA_LEFT)
setLow = setAttr (#const WA_LOW)
setProtect = setAttr (#const WA_PROTECT)
setReverse = setAttr (#const WA_REVERSE)
setRight = setAttr (#const WA_RIGHT)
setStandout = setAttr (#const WA_STANDOUT)
setTop = setAttr (#const WA_TOP)
setUnderline = setAttr (#const WA_UNDERLINE)
setVertical = setAttr (#const WA_VERTICAL)
setAttr :: (#type attr_t) -> Attr -> Bool -> Attr
setAttr b (Attr a) False = Attr (a .&. complement b)
setAttr b (Attr a) True = Attr (a .|. b)
attrPlus :: Attr -> Attr -> Attr
attrPlus (Attr a) (Attr b) = Attr (a .|. b)
attrSet :: Attr -> Pair -> IO ()
attrSet attr (Pair p) = throwIfErr_ "attrset" $
attr_set attr (fromIntegral p) nullPtr
attrOn :: Attr -> IO ()
attrOn (Attr attr) = throwIfErr_ "attr_on" $
attr_on attr nullPtr
attrOff :: Attr -> IO ()
attrOff (Attr attr) = throwIfErr_ "attr_off" $
attr_off attr nullPtr
wAttrOn :: Window -> Int -> IO ()
wAttrOn w x = throwIfErr_ "wattron" $ wattron w (fi x)
wAttrOff :: Window -> Int -> IO ()
wAttrOff w x = throwIfErr_ "wattroff" $ wattroff w (fi x)
attrDimOn :: IO ()
attrDimOn = throwIfErr_ "attron A_DIM" $
attron (#const A_DIM)
attrDimOff :: IO ()
attrDimOff = throwIfErr_ "attroff A_DIM" $
attroff (#const A_DIM)
attrBoldOn :: IO ()
attrBoldOn = throwIfErr_ "attron A_BOLD" $
attron (#const A_BOLD)
attrBoldOff :: IO ()
attrBoldOff = throwIfErr_ "attroff A_BOLD" $
attroff (#const A_BOLD)
attrDim :: Int
attrDim = (#const A_DIM)
attrBold :: Int
attrBold = (#const A_BOLD)
------------------------------------------------------------------------
foreign import ccall safe
waddch :: Window -> ChType -> IO CInt
foreign import ccall safe
waddchnstr :: Window -> CString -> CInt -> IO CInt
foreign import ccall safe "static curses.h mvaddch" mvaddch_c :: CInt -> CInt -> ChType -> IO ()
mvWAddStr :: Window -> Int -> Int -> String -> IO ()
mvWAddStr w y x str = wMove w y x >> wAddStr w str
mvAddCh :: Int -> Int -> ChType -> IO ()
mvAddCh l m n = mvaddch_c (fromIntegral l) (fromIntegral m) (fromIntegral n)
addLn :: IO ()
addLn = wAddStr stdScr "\n"
--
-- | normalise the string, stripping \\r and making control chars
-- printable. Called over all output(?)
{-
normalise :: String -> String
normalise [] = []
normalise ('\r':cs) = normalise cs
normalise (c:cs) | isControl c = '@' : normalise cs
| otherwise = c : normalise cs
{-# INLINE normalise #-}
-}
{-
normalise s = map f . filter (/= '\r') s
where
f c | isPrint c = c
f c = '@'
-}
------------------------------------------------------------------------
#if defined(HAVE_WCHAR_H) && (defined(HAVE_LIBNCURSESW) || defined(HAVE_LIBPDCURSESW))
--wAddStr :: Window -> String -> IO ()
--wAddStr w str = throwIfErr_ ("waddnwstr: " ++ show str) $ withCWStringLen (normalise str) (\(ws,len) -> waddnwstr w ws (fi len))
foreign import ccall unsafe
waddnwstr :: Window -> CWString -> CInt -> IO CInt
wAddStr :: Window -> String -> IO ()
wAddStr win str = do
let
convStr f = case f [] of
[] -> return ()
s -> throwIfErr_ "waddnstr" $
withCWStringLen (s) (\(ws,len) -> (waddnwstr win ws (fi len)))
loop [] acc = convStr acc
loop (ch:str') acc = recognize
ch
(loop str' (acc . (ch:)))
(\ch' -> do
convStr acc
throwIfErr "waddch" $ waddch win ch'
loop str' id)
loop str id
#else
--
-- This is heavily called, and does a lot of allocs. We walk over all
-- the string accumulating a list of characters to be drawn.
--
-- Got it down to:
--
-- wAddStr Yi.Curses 20.0 38.1
-- wAddStr Yi.Curses 10.0 32.5
--
-- TODO make this way less expensive. That accum sucks.
-- use difference lists for O(1) append
--
wAddStr :: Window -> [Char] -> IO ()
wAddStr _ [] = return ()
wAddStr win s = throwIfErr_ ("waddnstr: <" ++ s ++ ">") $
withLCStringLen (s) (\(ws,len) -> waddnstr win ws (fi len))
foreign import ccall safe
waddnstr :: Window -> CString -> CInt -> IO CInt
#endif
foreign import ccall safe
vline :: Char -> Int -> IO ()
------------------------------------------------------------------------
--
-- what ?
--
#let translate_attr attr = \
"(if a .&. %lu /= 0 then %lu else 0) .|.", \
(unsigned long) WA_##attr, (unsigned long) A_##attr
bkgrndSet :: Attr -> Pair -> IO ()
bkgrndSet (Attr a) p = bkgdset $
fromIntegral (ord ' ') .|.
#translate_attr ALTCHARSET
#translate_attr BLINK
#translate_attr BOLD
#translate_attr DIM
#translate_attr INVIS
#translate_attr PROTECT
#translate_attr REVERSE
#translate_attr STANDOUT
#translate_attr UNDERLINE
colorPair p
foreign import ccall unsafe bkgdset :: ChType -> IO ()
erase :: IO ()
erase = throwIfErr_ "erase" $ werase_c stdScr
foreign import ccall unsafe "werase" werase_c :: Window -> IO CInt
wclear :: Window -> IO ()
wclear w = throwIfErr_ "wclear" $ wclear_c w
foreign import ccall unsafe "wclear" wclear_c :: Window -> IO CInt
clrToEol :: IO ()
clrToEol = throwIfErr_ "clrtoeol" clrtoeol
foreign import ccall unsafe clrtoeol :: IO CInt
--
-- | > move the cursor associated with the window
-- > to line y and column x. This routine does not move the
-- > physical cursor of the terminal until refresh is called.
-- > The position specified is relative to the upper left-hand
-- > corner of the window, which is (0,0).
--
-- Note that 'move_c' may be a macro.
--
move :: Int -> Int -> IO ()
move y x = throwIfErr_ "move" $ move_c (fromIntegral y) (fromIntegral x)
foreign import ccall unsafe "move"
move_c :: CInt -> CInt -> IO CInt
--
-- | > move the cursor associated with the window
-- > to line y and column x. This routine does not move the
-- > physical cursor of the terminal until refresh is called.
-- > The position specified is relative to the upper left-hand
-- > corner of the window, which is (0,0).
--
wMove :: Window -> Int -> Int -> IO ()
wMove w y x = throwIfErr_ "wmove" $ wmove w (fi y) (fi x)
foreign import ccall unsafe
wmove :: Window -> CInt -> CInt -> IO CInt
------------------
-- Cursor routines
------------------
data CursorVisibility = CursorInvisible | CursorVisible | CursorVeryVisible
vis_c :: CursorVisibility -> CInt
vis_c vis = case vis of
CursorInvisible -> 0
CursorVisible -> 1
CursorVeryVisible -> 2
c_vis :: CInt -> CursorVisibility
c_vis 0 = CursorInvisible
c_vis 1 = CursorVisible
c_vis 2 = CursorVeryVisible
c_vis n = error ("Illegal C value for cursor visibility: " ++ show n)
--
-- | Set the cursor state
--
-- > The curs_set routine sets the cursor state is set to
-- > invisible, normal, or very visible for visibility equal to
-- > 0, 1, or 2 respectively. If the terminal supports the
-- > visibility requested, the previous cursor state is
-- > returned; otherwise, ERR is returned.
--
cursSet :: CursorVisibility -> IO CursorVisibility
cursSet CursorInvisible =
do leaveOk True
old <- curs_set 0
return $ c_vis old
cursSet v =
do leaveOk False
old <- curs_set (vis_c v)
return $ c_vis old
foreign import ccall unsafe "HSCurses.h curs_set"
curs_set :: CInt -> IO CInt
--
-- | Get the current cursor coordinates
--
getYX :: Window -> IO (Int, Int)
getYX w =
alloca $ \py -> -- allocate two ints on the stack
alloca $ \px -> do
nomacro_getyx w py px -- writes current cursor coords
y <- peek py
x <- peek px
return (fromIntegral y, fromIntegral x)
--
-- | Get the current cursor coords, written into the two argument ints.
--
-- > The getyx macro places the current cursor position of the given
-- > window in the two integer variables y and x.
--
-- void getyx(WINDOW *win, int y, int x);
--
foreign import ccall unsafe "HSCursesUtils.h hscurses_nomacro_getyx"
nomacro_getyx :: Window -> Ptr CInt -> Ptr CInt -> IO ()
------------------------------------------------------------------------
touchWin :: Window -> IO ()
touchWin w = throwIfErr_ "touchwin" $ touchwin w
foreign import ccall touchwin :: Window -> IO CInt
newPad :: Int -> Int -> IO Window
newPad nlines ncols = throwIfNull "newpad" $
newpad (fromIntegral nlines) (fromIntegral ncols)
pRefresh :: Window -> Int -> Int -> Int -> Int -> Int -> Int -> IO ()
pRefresh pad pminrow pmincol sminrow smincol smaxrow smaxcol =
throwIfErr_ "prefresh" $
prefresh pad (fromIntegral pminrow)
(fromIntegral pmincol)
(fromIntegral sminrow)
(fromIntegral smincol)
(fromIntegral smaxrow)
(fromIntegral smaxcol)
delWin :: Window -> IO ()
delWin w = throwIfErr_ "delwin" $ delwin w
data Border = Border {
ls :: Char
, rs :: Char
, ts :: Char
, bs :: Char
, tl :: Char
, tr :: Char
, bl :: Char
, br :: Char
}
defaultBorder :: Border
defaultBorder = Border '\0' '\0' '\0' '\0' '\0' '\0' '\0' '\0'
--
-- | > Draw a border around the edges of a window. defaultBorder is
-- > a record representing all 0 parameters to wrecord.
--
wBorder :: Window -> Border -> IO ()
wBorder w (Border ls rs ts bs tl tr bl br) = throwIfErr_ "wborder" $
wborder w ls' rs' ts' bs' tl' tr' bl' br'
where ls' = castCharToCChar ls
rs' = castCharToCChar rs
ts' = castCharToCChar ts
bs' = castCharToCChar bs
tl' = castCharToCChar tl
tr' = castCharToCChar tr
bl' = castCharToCChar bl
br' = castCharToCChar br
foreign import ccall unsafe
prefresh :: Window -> CInt -> CInt -> CInt -> CInt -> CInt -> CInt -> IO CInt
foreign import ccall unsafe
newpad :: CInt -> CInt -> IO Window
foreign import ccall unsafe
delwin :: Window -> IO CInt
foreign import ccall unsafe
wborder :: Window -> CChar -> CChar -> CChar -> CChar -> CChar -> CChar -> CChar -> CChar -> IO CInt
newWin :: Int -> Int -> Int -> Int -> IO Window
newWin nlines ncolumn begin_y begin_x = throwIfNull "newwin" $
newwin (fi nlines) (fi ncolumn) (fi begin_y) (fi begin_x)
foreign import ccall unsafe
newwin :: CInt -> CInt -> CInt -> CInt -> IO Window
wClrToEol :: Window -> IO ()
wClrToEol w = throwIfErr_ "wclrtoeol" $ wclrtoeol w
foreign import ccall unsafe wclrtoeol :: Window -> IO CInt
--
-- | > The getch, wgetch, mvgetch and mvwgetch, routines read a
-- > character from the window.
--
#if defined(HAVE_LIBPDCURSES) || defined (HAVE_LIBPDCURSESW)
foreign import ccall unsafe "HSCurses.h hscurses_nomacro_getch" getch :: IO CInt
#else
foreign import ccall unsafe "HSCurses.h getch" getch :: IO CInt
#endif
--foreign import ccall unsafe def_prog_mode :: IO CInt
--foreign import ccall unsafe reset_prog_mode :: IO CInt
foreign import ccall unsafe flushinp :: IO CInt
foreign import ccall unsafe "HSCurses.h noqiflush" noqiflush :: IO ()
foreign import ccall unsafe "HSCurses.h beep" c_beep :: IO CInt
foreign import ccall unsafe "HSCurses.h flash" c_flash :: IO CInt
beep :: IO ()
beep = do
br <- c_beep
when (br /= (#const OK)) (c_flash >> return ())
------------------------------------------------------------------------
--
-- | Map curses keys to key abstraction
--
data Key
= KeyChar Char | KeyBreak | KeyDown | KeyUp | KeyLeft | KeyRight
| KeyHome | KeyBackspace | KeyF Int | KeyDL | KeyIL | KeyDC
| KeyIC | KeyEIC | KeyClear | KeyEOS | KeyEOL | KeySF | KeySR
| KeyNPage | KeyPPage | KeySTab | KeyCTab | KeyCATab | KeyEnter
| KeySReset | KeyReset | KeyPrint | KeyLL | KeyA1 | KeyA3
| KeyB2 | KeyC1 | KeyC3 | KeyBTab | KeyBeg | KeyCancel | KeyClose
| KeyCommand | KeyCopy | KeyCreate | KeyEnd | KeyExit | KeyFind
| KeyHelp | KeyMark | KeyMessage | KeyMove | KeyNext | KeyOpen
| KeyOptions | KeyPrevious | KeyRedo | KeyReference | KeyRefresh
| KeyReplace | KeyRestart | KeyResume | KeySave | KeySBeg
| KeySCancel | KeySCommand | KeySCopy | KeySCreate | KeySDC
| KeySDL | KeySelect | KeySEnd | KeySEOL | KeySExit | KeySFind
| KeySHelp | KeySHome | KeySIC | KeySLeft | KeySMessage | KeySMove
| KeySNext | KeySOptions | KeySPrevious | KeySPrint | KeySRedo
| KeySReplace | KeySRight | KeySRsume | KeySSave | KeySSuspend
| KeySUndo | KeySuspend | KeyUndo | KeyResize | KeyMouse | KeyUnknown Int
deriving (Eq,Show)
decodeKey :: CInt -> Key
decodeKey key = case key of
_ | key >= 0 && key <= 255 -> KeyChar (chr (fromIntegral key))
(#const KEY_BREAK) -> KeyBreak
(#const KEY_DOWN) -> KeyDown
(#const KEY_UP) -> KeyUp
(#const KEY_LEFT) -> KeyLeft
(#const KEY_RIGHT) -> KeyRight
(#const KEY_HOME) -> KeyHome
(#const KEY_BACKSPACE) -> KeyBackspace
_ | key >= (#const KEY_F0) && key <= (#const KEY_F(63))
-> KeyF (fromIntegral (key - #const KEY_F0))
(#const KEY_DL) -> KeyDL
(#const KEY_IL) -> KeyIL
(#const KEY_DC) -> KeyDC
(#const KEY_IC) -> KeyIC
(#const KEY_EIC) -> KeyEIC
(#const KEY_CLEAR) -> KeyClear
(#const KEY_EOS) -> KeyEOS
(#const KEY_EOL) -> KeyEOL
(#const KEY_SF) -> KeySF
(#const KEY_SR) -> KeySR
(#const KEY_NPAGE) -> KeyNPage
(#const KEY_PPAGE) -> KeyPPage
(#const KEY_STAB) -> KeySTab
(#const KEY_CTAB) -> KeyCTab
(#const KEY_CATAB) -> KeyCATab
(#const KEY_ENTER) -> KeyEnter
(#const KEY_SRESET) -> KeySReset
(#const KEY_RESET) -> KeyReset
(#const KEY_PRINT) -> KeyPrint
(#const KEY_LL) -> KeyLL
(#const KEY_A1) -> KeyA1
(#const KEY_A3) -> KeyA3
(#const KEY_B2) -> KeyB2
(#const KEY_C1) -> KeyC1
(#const KEY_C3) -> KeyC3
(#const KEY_BTAB) -> KeyBTab
(#const KEY_BEG) -> KeyBeg
(#const KEY_CANCEL) -> KeyCancel
(#const KEY_CLOSE) -> KeyClose
(#const KEY_COMMAND) -> KeyCommand
(#const KEY_COPY) -> KeyCopy
(#const KEY_CREATE) -> KeyCreate
(#const KEY_END) -> KeyEnd
(#const KEY_EXIT) -> KeyExit
(#const KEY_FIND) -> KeyFind
(#const KEY_HELP) -> KeyHelp
(#const KEY_MARK) -> KeyMark
(#const KEY_MESSAGE) -> KeyMessage
(#const KEY_MOVE) -> KeyMove
(#const KEY_NEXT) -> KeyNext
(#const KEY_OPEN) -> KeyOpen
(#const KEY_OPTIONS) -> KeyOptions
(#const KEY_PREVIOUS) -> KeyPrevious
(#const KEY_REDO) -> KeyRedo
(#const KEY_REFERENCE) -> KeyReference
(#const KEY_REFRESH) -> KeyRefresh
(#const KEY_REPLACE) -> KeyReplace
(#const KEY_RESTART) -> KeyRestart
(#const KEY_RESUME) -> KeyResume
(#const KEY_SAVE) -> KeySave
(#const KEY_SBEG) -> KeySBeg
(#const KEY_SCANCEL) -> KeySCancel
(#const KEY_SCOMMAND) -> KeySCommand
(#const KEY_SCOPY) -> KeySCopy
(#const KEY_SCREATE) -> KeySCreate
(#const KEY_SDC) -> KeySDC
(#const KEY_SDL) -> KeySDL
(#const KEY_SELECT) -> KeySelect
(#const KEY_SEND) -> KeySEnd
(#const KEY_SEOL) -> KeySEOL
(#const KEY_SEXIT) -> KeySExit
(#const KEY_SFIND) -> KeySFind
(#const KEY_SHELP) -> KeySHelp
(#const KEY_SHOME) -> KeySHome
(#const KEY_SIC) -> KeySIC
(#const KEY_SLEFT) -> KeySLeft
(#const KEY_SMESSAGE) -> KeySMessage
(#const KEY_SMOVE) -> KeySMove
(#const KEY_SNEXT) -> KeySNext
(#const KEY_SOPTIONS) -> KeySOptions
(#const KEY_SPREVIOUS) -> KeySPrevious
(#const KEY_SPRINT) -> KeySPrint
(#const KEY_SREDO) -> KeySRedo
(#const KEY_SREPLACE) -> KeySReplace
(#const KEY_SRIGHT) -> KeySRight
(#const KEY_SRSUME) -> KeySRsume
(#const KEY_SSAVE) -> KeySSave
(#const KEY_SSUSPEND) -> KeySSuspend
(#const KEY_SUNDO) -> KeySUndo
(#const KEY_SUSPEND) -> KeySuspend
(#const KEY_UNDO) -> KeyUndo
#ifdef KEY_RESIZE
(#const KEY_RESIZE) -> KeyResize
#endif
#ifdef KEY_MOUSE
(#const KEY_MOUSE) -> KeyMouse
#endif
_ -> KeyUnknown (fromIntegral key)
keyResizeCode :: Maybe CInt
#ifdef KEY_RESIZE
keyResizeCode = Just (#const KEY_RESIZE)
#else
keyResizeCode = Nothing
#endif
cERR :: CInt
cERR = #const ERR
cKEY_UP, cKEY_DOWN, cKEY_LEFT, cKEY_RIGHT :: ChType
cKEY_UP = #const KEY_UP
cKEY_DOWN = #const KEY_DOWN
cKEY_LEFT = #const KEY_LEFT
cKEY_RIGHT = #const KEY_RIGHT
-- cACS_BLOCK :: ChType
-- cACS_BLOCK = #const ACS_BLOCK
cTRUE :: NBool
cTRUE = #const TRUE
-- ---------------------------------------------------------------------
-- get char
--
-- ncurses ungetch and Haskell's threadWaitRead do not work together well.
-- So I decided to implement my own input queue.
ungetCh :: (Integral a) => a -> IO ()
ungetCh i =
do debug "ungetCh called"
writeChan inputBuf (BufDirect (fi i))
data BufData = BufDirect CInt -- data directly available
| DataViaGetch -- data can be obtained by calling getch
inputBuf :: Chan BufData
inputBuf = unsafePerformIO newChan
{-# NOINLINE inputBuf #-}
getchToInputBuf :: IO ()
getchToInputBuf =
do threadWaitRead (fi (0::Int))
{- From the (n)curses manpage:
Programmers concerned about portability should be prepared for either
of two cases: (a) signal receipt does not interrupt getch; (b) signal
receipt interrupts getch and causes it to return ERR with errno set to
EINTR. Under the ncurses implementation, handled signals never inter‐
rupt getch.
-}
-- we only signalize that getch can now called without getting blocked.
-- directly calling `getch' might result in losing the character just
-- read (race condition).
debug "now input available on stdin"
writeChan inputBuf DataViaGetch
--
-- | read a character from the window
--
getCh :: IO Key
getCh =
do debug "getCh called"
tid <- forkIO getchToInputBuf
d <- readChan inputBuf
killThread tid -- we can kill the thread savely, because the thread does
-- not read any data via getch
v <- case d of
BufDirect x ->
do debug "getCh: getting data directly from buffer"
return x
DataViaGetch ->
do debug "getCh: getting data via getch"
getch -- won't block!
case v of
(#const ERR) -> -- NO CODE IN THIS LINE
do e <- getErrno
if e `elem` [eAGAIN, eINTR]
then do debug "Curses.getCh returned eAGAIN or eINTR"
getCh
else throwErrno "HSCurses.Curses.getch"
k -> let k' = decodeKey k
in do debug ("getCh: result = " ++ show k')
return k'
resizeTerminal :: Int -> Int -> IO ()
#ifdef HAVE_RESIZETERM
resizeTerminal a b = throwIfErr_ "resizeterm" $ resizeterm (fi a) (fi b)
foreign import ccall unsafe "HSCurses.h resizeterm"
resizeterm :: CInt -> CInt -> IO CInt
#else
resizeTerminal _ _ = return ()
#endif
--
-- | The SIGWINCH signal is sent whenever the terminal size changes.
-- This signal is not available on all platforms, so it is a |Maybe| value.
--
#ifdef mingw32_HOST_OS
type Signal = CInt
#endif
cursesSigWinch :: Maybe Signal
#ifdef SIGWINCH
cursesSigWinch = Just (#const SIGWINCH)
#else
cursesSigWinch = Nothing
#endif
------------
-- Test case
------------
cursesTest :: IO ()
cursesTest = do
initScr
hc <- hasColors
when hc startColor
ccc <- canChangeColor
(ys,xs) <- scrSize
cp <- colorPairs
cs <- colors
endWin
putStrLn $ "ScreenSize: " ++ show (xs,ys)
putStrLn $ "hasColors: " ++ show hc
putStrLn $ "canChangeColor: " ++ show ccc
putStrLn $ "colorPairs: " ++ show cp
putStrLn $ "colors: " ++ show cs
-----------------
-- Mouse Routines
-----------------
data MouseEvent = MouseEvent {
mouseEventId :: Int,
mouseEventX :: Int,
mouseEventY :: Int,
mouseEventZ :: Int,
mouseEventButton :: [ButtonEvent]
} deriving(Show)
data ButtonEvent = ButtonPressed Int | ButtonReleased Int | ButtonClicked Int |
ButtonDoubleClicked Int | ButtonTripleClicked Int | ButtonShift | ButtonControl | ButtonAlt
deriving(Eq,Show)
withMouseEventMask :: MonadIO m => [ButtonEvent] -> m a -> m a
#ifdef KEY_MOUSE
foreign import ccall unsafe "HSCurses.h mousemask"
mousemask :: (#type mmask_t) -> Ptr (#type mmask_t) -> IO (#type mmask_t)
withMouseEventMask bes action = do
ov <- liftIO $ alloca (\a -> mousemask (besToMouseMask bes) a >> peek a)
r <- action
liftIO $ mousemask ov nullPtr
return r
besToMouseMask :: [ButtonEvent] -> (#type mmask_t)
besToMouseMask bes = foldl' (.|.) 0 (map cb bes) where
cb (ButtonPressed 1) = (#const BUTTON1_PRESSED)
cb (ButtonPressed 2) = (#const BUTTON2_PRESSED)
cb (ButtonPressed 3) = (#const BUTTON3_PRESSED)
cb (ButtonPressed 4) = (#const BUTTON4_PRESSED)
cb (ButtonReleased 1) = (#const BUTTON1_RELEASED)
cb (ButtonReleased 2) = (#const BUTTON2_RELEASED)
cb (ButtonReleased 3) = (#const BUTTON3_RELEASED)
cb (ButtonReleased 4) = (#const BUTTON4_RELEASED)
cb (ButtonClicked 1) = (#const BUTTON1_CLICKED)
cb (ButtonClicked 2) = (#const BUTTON2_CLICKED)
cb (ButtonClicked 3) = (#const BUTTON3_CLICKED)
cb (ButtonClicked 4) = (#const BUTTON4_CLICKED)
cb ButtonShift = (#const BUTTON_SHIFT)
cb ButtonAlt = (#const BUTTON_ALT)
#ifdef BUTTON_CTRL
cb ButtonControl = (#const BUTTON_CTRL)
#else
cb ButtonControl = (#const BUTTON_CONTROL)
#endif
cb _ = 0
#else
withMouseEventMask _ a = a
#endif
ulCorner, llCorner, urCorner, lrCorner, rTee, lTee, bTee, tTee, hLine,
vLine, plus, s1, s9, diamond, ckBoard, degree, plMinus, bullet,
lArrow, rArrow, dArrow, uArrow, board, lantern, block,
s3, s7, lEqual, gEqual, pi, nEqual, sterling
:: Char
ulCorner = chr 0x250C
llCorner = chr 0x2514
urCorner = chr 0x2510
lrCorner = chr 0x2518
rTee = chr 0x2524
lTee = chr 0x251C
bTee = chr 0x2534
tTee = chr 0x252C
hLine = chr 0x2500
vLine = chr 0x2502
plus = chr 0x253C
s1 = chr 0x23BA -- was: 0xF800
s9 = chr 0x23BD -- was: 0xF804
diamond = chr 0x25C6
ckBoard = chr 0x2592
degree = chr 0x00B0
plMinus = chr 0x00B1
bullet = chr 0x00B7
lArrow = chr 0x2190
rArrow = chr 0x2192
dArrow = chr 0x2193
uArrow = chr 0x2191
board = chr 0x2591
lantern = chr 0x256C
block = chr 0x2588
s3 = chr 0x23BB -- was: 0xF801
s7 = chr 0x23BC -- was: 0xF803
lEqual = chr 0x2264
gEqual = chr 0x2265
pi = chr 0x03C0
nEqual = chr 0x2260
sterling = chr 0x00A3
{-
-- haddock doesn't like these commented out with --
#if defined(__STDC_ISO_10646__) && defined(HAVE_WADDNWSTR)
#else
-}
recognize :: Char -> IO a -> (ChType -> IO a) -> IO a
recognize _ch noConvert _convert = noConvert -- Handle the most common case first.
-- ---------------------------------------------------------------------
-- code graveyard
--
{-
addStr :: String -> IO ()
addStr str =
throwIfErr_ "addstr" $
withCStringConv (readIORef cursesOutConv) str addstr
foreign import ccall unsafe addstr :: Ptr CChar -> IO CInt
addStrLn :: String -> IO ()
addStrLn str = addStr str >> addLn
--
-- | add a string of characters to a curses window and advance cursor
-- curs_addstr(3)
--
wAddStr :: Window -> String -> IO ()
wAddStr w str = throwIfErr_ "waddstr" $
withCStringConv (readIORef cursesOutConv) str (waddstr w)
foreign import ccall unsafe waddstr :: Window -> Ptr CChar -> IO CInt
addGraphStr :: String -> IO ()
addGraphStr str = do
conv <- readIORef cursesOutConv
let
convStr f = case f [] of
[] -> return ()
s -> throwIfErr_ "addstr" $
withCStringConv (return conv) s addstr
loop [] acc = convStr acc
loop (ch:str') acc = recognize
ch
(loop str' (acc . (ch:)))
(\ch' -> do
convStr acc
throwIfErr "addch" $ addch ch'
loop str' id)
loop str id
addGraphStrLn :: String -> IO ()
addGraphStrLn str = do addGraphStr str; addLn
-}
-- vim: sw=4 ts=4