mirror of
https://github.com/ilyakooo0/vty.git
synced 2024-11-29 08:49:40 +03:00
perf: Use ByteString
instead of [Char]
for input parsing.
NOTE: This breaks lots of internal APIs, many of which are actually exposed as public API. `brick` does not break, but client code that depends on constants containing escape sequences will need to adapt. There's really no point in using `[Char]` here. The first thing the code did was convert all the bytes individually to `Char` and putting them into a linked list. Then, when actually parsing utf-8, it turns those `Char`s back into `Word8`s. All the other code is generally concerned with bytes and goes out of its way to deal with `[Char]` instead. The code is now simpler and much faster. Overall this gives another order of magnitude speedup over the previous speedup totalling roughly a 200x speedup over 2 commits ago for the 300KB case (it's less for smaller cases and much more for larger cases, because we already made one `n^2` algorithm `n`). This does not fix the polynomial time complexity, but at this point we can comfortably paste a low number of megabytes into the terminal and process it reasonably quickly. This is sufficient to support small file uploads via bracketed paste. Some timing: * 100KB: unmeasurable by hand (basically instant) * 1000KB: 2 seconds * 1500KB: 3 seconds * 2000KB: 5 seconds * 3000KB: 10 seconds * 4000KB: 17 seconds
This commit is contained in:
parent
ecee2cd2fc
commit
98b2a83da7
@ -1,5 +1,5 @@
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{-# OPTIONS_HADDOCK hide #-}
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-- This makes a kind of tri. Has space efficiency issues with large
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-- This makes a kind of trie. Has space efficiency issues with large
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-- input blocks. Likely building a parser and just applying that would
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-- be better.
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module Graphics.Vty.Input.Classify
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@ -16,25 +16,28 @@ import Graphics.Vty.Input.Classify.Types
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import Codec.Binary.UTF8.Generic (decode)
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import Data.List (inits)
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import Control.Arrow (first)
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import qualified Data.Map as M( fromList, lookup )
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import Data.Maybe ( mapMaybe )
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import qualified Data.Set as S( fromList, member )
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import Data.Char
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import Data.Word
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compile :: ClassifyMap -> String -> KClass
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import qualified Data.ByteString as BS
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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compile :: ClassifyMap -> ByteString -> KClass
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compile table = cl' where
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-- take all prefixes and create a set of these
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prefixSet = S.fromList $ concatMap (init . inits . fst) table
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prefixSet = S.fromList $ concatMap (init . BS.inits . BS8.pack . fst) table
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maxValidInputLength = maximum (map (length . fst) table)
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eventForInput = M.fromList table
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cl' [] = Prefix
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eventForInput = M.fromList $ map (first BS8.pack) table
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cl' inputBlock | BS8.null inputBlock = Prefix
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cl' inputBlock = case M.lookup inputBlock eventForInput of
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-- if the inputBlock is exactly what is expected for an
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-- event then consume the whole block and return the event
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Just e -> Valid e []
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Just e -> Valid e BS8.empty
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Nothing -> case S.member inputBlock prefixSet of
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True -> Prefix
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-- look up progressively smaller tails of the input
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@ -45,40 +48,40 @@ compile table = cl' where
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-- H: There will always be one match. The prefixSet
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-- contains, by definition, all prefixes of an event.
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False ->
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let inputPrefixes = reverse $ take maxValidInputLength $ tail $ inits inputBlock
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let inputPrefixes = reverse . take maxValidInputLength . tail . BS8.inits $ inputBlock
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in case mapMaybe (\s -> (,) s `fmap` M.lookup s eventForInput) inputPrefixes of
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(s,e) : _ -> Valid e (drop (length s) inputBlock)
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(s,e) : _ -> Valid e (BS8.drop (BS8.length s) inputBlock)
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-- neither a prefix or a full event.
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[] -> Invalid
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classify :: ClassifyMap -> String -> KClass
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classify :: ClassifyMap -> ByteString -> KClass
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classify table =
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let standardClassifier = compile table
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in \s -> case s of
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in \s -> case BS.uncons s of
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_ | bracketedPasteStarted s ->
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if bracketedPasteFinished s
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then parseBracketedPaste s
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else Prefix
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_ | isMouseEvent s -> classifyMouseEvent s
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_ | isFocusEvent s -> classifyFocusEvent s
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c:cs | ord c >= 0xC2 -> classifyUtf8 c cs
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_ -> standardClassifier s
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_ | isMouseEvent s -> classifyMouseEvent s
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_ | isFocusEvent s -> classifyFocusEvent s
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Just (c,cs) | c >= 0xC2 -> classifyUtf8 c cs
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_ -> standardClassifier s
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classifyUtf8 :: Char -> String -> KClass
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classifyUtf8 :: Word8 -> ByteString -> KClass
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classifyUtf8 c cs =
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let n = utf8Length (ord c)
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(codepoint,rest) = splitAt n (c:cs)
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let n = utf8Length c
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(codepoint,rest) = BS8.splitAt (n - 1) cs
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codepoint8 :: [Word8]
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codepoint8 = map (fromIntegral . ord) codepoint
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codepoint8 = c:BS.unpack codepoint
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in case decode codepoint8 of
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_ | n < length codepoint -> Prefix
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Just (unicodeChar, _) -> Valid (EvKey (KChar unicodeChar) []) rest
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_ | n < BS.length codepoint + 1 -> Prefix
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Just (unicodeChar, _) -> Valid (EvKey (KChar unicodeChar) []) rest
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-- something bad happened; just ignore and continue.
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Nothing -> Invalid
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Nothing -> Invalid
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utf8Length :: (Num t, Ord a, Num a) => a -> t
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utf8Length :: Word8 -> Int
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utf8Length c
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| c < 0x80 = 1
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| c < 0xE0 = 2
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@ -16,12 +16,15 @@ import Graphics.Vty.Input.Classify.Types
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import Control.Monad.Trans.Maybe
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import Control.Monad.State
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type Parser a = MaybeT (State String) a
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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type Parser a = MaybeT (State ByteString) a
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-- | Run a parser on a given input string. If the parser fails, return
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-- 'Invalid'. Otherwise return the valid event ('Valid') and the
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-- remaining unparsed characters.
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runParser :: String -> Parser Event -> KClass
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runParser :: ByteString -> Parser Event -> KClass
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runParser s parser =
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case runState (runMaybeT parser) s of
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(Nothing, _) -> Invalid
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@ -36,9 +39,9 @@ failParse = fail "invalid parse"
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-- return '123' and consume those characters.
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readInt :: Parser Int
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readInt = do
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s <- get
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s <- BS8.unpack <$> get
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case (reads :: ReadS Int) s of
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[(i, rest)] -> put rest >> return i
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[(i, rest)] -> put (BS8.pack rest) >> return i
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_ -> failParse
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-- | Read a character from the input stream. If one cannot be read (e.g.
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@ -46,9 +49,9 @@ readInt = do
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readChar :: Parser Char
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readChar = do
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s <- get
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case s of
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c:rest -> put rest >> return c
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_ -> failParse
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case BS8.uncons s of
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Just (c,rest) -> put rest >> return c
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Nothing -> failParse
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-- | Read a character from the input stream and fail parsing if it is
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-- not the specified character.
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@ -8,8 +8,10 @@ where
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import Graphics.Vty.Input.Events
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import Data.ByteString.Char8 (ByteString)
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data KClass
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= Valid Event String
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= Valid Event ByteString
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-- ^ A valid event was parsed. Any unused characters from the input
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-- stream are also provided.
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| Invalid
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@ -11,30 +11,32 @@ import Graphics.Vty.Input.Classify.Types
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import Graphics.Vty.Input.Classify.Parse
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import Control.Monad.State
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import Data.List (isPrefixOf)
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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-- | These sequences set xterm-based terminals to send focus event
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-- sequences.
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requestFocusEvents :: String
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requestFocusEvents = "\ESC[?1004h"
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requestFocusEvents :: ByteString
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requestFocusEvents = BS8.pack "\ESC[?1004h"
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-- | These sequences disable focus events.
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disableFocusEvents :: String
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disableFocusEvents = "\ESC[?1004l"
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disableFocusEvents :: ByteString
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disableFocusEvents = BS8.pack "\ESC[?1004l"
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-- | Does the specified string begin with a focus event?
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isFocusEvent :: String -> Bool
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isFocusEvent s = isPrefixOf focusIn s ||
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isPrefixOf focusOut s
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isFocusEvent :: ByteString -> Bool
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isFocusEvent s = BS8.isPrefixOf focusIn s ||
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BS8.isPrefixOf focusOut s
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focusIn :: String
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focusIn = "\ESC[I"
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focusIn :: ByteString
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focusIn = BS8.pack "\ESC[I"
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focusOut :: String
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focusOut = "\ESC[O"
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focusOut :: ByteString
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focusOut = BS8.pack "\ESC[O"
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-- | Attempt to classify an input string as a focus event.
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classifyFocusEvent :: String -> KClass
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classifyFocusEvent :: ByteString -> KClass
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classifyFocusEvent s = runParser s $ do
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when (not $ isFocusEvent s) failParse
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@ -33,12 +33,15 @@ import Control.Monad.Trans.State (StateT(..), evalStateT)
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import Control.Monad.State.Class (MonadState, modify)
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import Control.Monad.Trans.Reader (ReaderT(..))
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import Data.Char
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import qualified Data.ByteString.Char8 as BS8
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import qualified Data.ByteString as BS
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import Data.ByteString.Char8 (ByteString)
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import Data.IORef
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import Data.Word (Word8)
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import Foreign ( allocaArray, peekArray, Ptr )
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import Foreign (allocaArray)
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import Foreign.C.Types (CInt(..))
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import Foreign.Ptr (Ptr, castPtr)
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import System.IO
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import System.Posix.IO (fdReadBuf, setFdOption, FdOption(..))
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@ -76,10 +79,10 @@ data InputBuffer = InputBuffer
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makeLenses ''InputBuffer
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data InputState = InputState
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{ _unprocessedBytes :: String
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{ _unprocessedBytes :: ByteString
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, _appliedConfig :: Config
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, _inputBuffer :: InputBuffer
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, _classifier :: String -> KClass
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, _classifier :: ByteString -> KClass
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}
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makeLenses ''InputState
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@ -104,7 +107,7 @@ loopInputProcessor = do
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dropInvalid
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loopInputProcessor
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addBytesToProcess :: String -> InputM ()
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addBytesToProcess :: ByteString -> InputM ()
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addBytesToProcess block = unprocessedBytes <>= block
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emit :: Event -> InputM ()
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@ -117,7 +120,7 @@ emit event = do
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--
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-- Precondition: Under the threaded runtime. Only current use is from a
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-- forkOS thread. That case satisfies precondition.
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readFromDevice :: InputM String
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readFromDevice :: InputM ByteString
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readFromDevice = do
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newConfig <- view configRef >>= liftIO . readIORef
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oldConfig <- use appliedConfig
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@ -137,9 +140,10 @@ readFromDevice = do
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threadWaitRead fd
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bytesRead <- fdReadBuf fd bufferPtr (fromIntegral maxBytes)
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if bytesRead > 0
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then map (chr . fromIntegral) <$> peekArray (fromIntegral bytesRead) bufferPtr
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else return []
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when (not $ null stringRep) $ logMsg $ "input bytes: " ++ show stringRep
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then BS.packCStringLen (castPtr bufferPtr, fromIntegral bytesRead)
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else return BS.empty
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when (not $ BS.null stringRep) $
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logMsg $ "input bytes: " ++ show (BS8.unpack stringRep)
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return stringRep
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applyConfig :: Fd -> Config -> IO ()
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@ -165,15 +169,16 @@ dropInvalid = do
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b <- use unprocessedBytes
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when (c b == Invalid) $ do
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logMsg "dropping input bytes"
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unprocessedBytes .= []
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unprocessedBytes .= BS8.empty
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runInputProcessorLoop :: ClassifyMap -> Input -> IO ()
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runInputProcessorLoop classifyTable input = do
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let bufferSize = 1024
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allocaArray bufferSize $ \(bufferPtr :: Ptr Word8) -> do
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s0 <- InputState [] <$> readIORef (_configRef input)
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<*> pure (InputBuffer bufferPtr bufferSize)
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<*> pure (classify classifyTable)
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s0 <- InputState BS8.empty
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<$> readIORef (_configRef input)
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<*> pure (InputBuffer bufferPtr bufferSize)
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<*> pure (classify classifyTable)
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runReaderT (evalStateT loopInputProcessor s0) input
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-- | Construct two IO actions: one to configure the terminal for Vty and
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@ -15,10 +15,12 @@ import Graphics.Vty.Input.Classify.Types
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import Graphics.Vty.Input.Classify.Parse
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import Control.Monad.State
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import Data.List (isPrefixOf)
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import Data.Maybe (catMaybes)
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import Data.Bits ((.&.))
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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-- A mouse event in SGR extended mode is
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--
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-- '\ESC' '[' '<' B ';' X ';' Y ';' ('M'|'m')
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@ -32,28 +34,28 @@ import Data.Bits ((.&.))
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-- | These sequences set xterm-based terminals to send mouse event
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-- sequences.
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requestMouseEvents :: String
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requestMouseEvents = "\ESC[?1000h\ESC[?1002h\ESC[?1006h"
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requestMouseEvents :: ByteString
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requestMouseEvents = BS8.pack "\ESC[?1000h\ESC[?1002h\ESC[?1006h"
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-- | These sequences disable mouse events.
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disableMouseEvents :: String
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disableMouseEvents = "\ESC[?1000l\ESC[?1002l\ESC[?1006l"
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disableMouseEvents :: ByteString
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disableMouseEvents = BS8.pack "\ESC[?1000l\ESC[?1002l\ESC[?1006l"
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-- | Does the specified string begin with a mouse event?
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isMouseEvent :: String -> Bool
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isMouseEvent :: ByteString -> Bool
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isMouseEvent s = isSGREvent s || isNormalEvent s
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isSGREvent :: String -> Bool
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isSGREvent = isPrefixOf sgrPrefix
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isSGREvent :: ByteString -> Bool
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isSGREvent = BS8.isPrefixOf sgrPrefix
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sgrPrefix :: String
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sgrPrefix = "\ESC[M"
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sgrPrefix :: ByteString
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sgrPrefix = BS8.pack "\ESC[M"
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isNormalEvent :: String -> Bool
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isNormalEvent = isPrefixOf normalPrefix
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isNormalEvent :: ByteString -> Bool
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isNormalEvent = BS8.isPrefixOf normalPrefix
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normalPrefix :: String
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normalPrefix = "\ESC[<"
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normalPrefix :: ByteString
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normalPrefix = BS8.pack "\ESC[<"
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-- Modifier bits:
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shiftBit :: Int
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@ -88,7 +90,7 @@ hasBitSet :: Int -> Int -> Bool
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hasBitSet val bit = val .&. bit > 0
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-- | Attempt to lassify an input string as a mouse event.
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classifyMouseEvent :: String -> KClass
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classifyMouseEvent :: ByteString -> KClass
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classifyMouseEvent s = runParser s $ do
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when (not $ isMouseEvent s) failParse
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@ -9,34 +9,33 @@ module Graphics.Vty.Input.Paste
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where
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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import Graphics.Vty.Input.Events
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import Graphics.Vty.Input.Classify.Types
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import Data.List (isPrefixOf, isInfixOf)
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bracketedPasteStart :: ByteString
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bracketedPasteStart = BS8.pack "\ESC[200~"
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bracketedPasteStart :: String
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bracketedPasteStart = "\ESC[200~"
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bracketedPasteEnd :: String
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bracketedPasteEnd = "\ESC[201~"
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bracketedPasteEnd :: ByteString
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bracketedPasteEnd = BS8.pack "\ESC[201~"
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-- | Does the input start a bracketed paste?
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bracketedPasteStarted :: String -> Bool
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bracketedPasteStarted = isPrefixOf bracketedPasteStart
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bracketedPasteStarted :: ByteString -> Bool
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bracketedPasteStarted = BS8.isPrefixOf bracketedPasteStart
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-- | Does the input contain a complete bracketed paste?
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bracketedPasteFinished :: String -> Bool
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bracketedPasteFinished = isInfixOf bracketedPasteEnd
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bracketedPasteFinished :: ByteString -> Bool
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bracketedPasteFinished = BS8.isInfixOf bracketedPasteEnd
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-- | Parse a bracketed paste. This should only be called on a string if
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-- both 'bracketedPasteStarted' and 'bracketedPasteFinished' return
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-- 'True'.
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parseBracketedPaste :: String -> KClass
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parseBracketedPaste :: ByteString -> KClass
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parseBracketedPaste s =
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Valid (EvPaste p) (BS8.unpack $ BS8.drop (BS8.length end) rest')
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Valid (EvPaste p) (BS8.drop endLen rest')
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where
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start = BS8.pack bracketedPasteStart
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end = BS8.pack bracketedPasteEnd
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(_, rest ) = BS8.breakSubstring start . BS8.pack $ s
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(p, rest') = BS8.breakSubstring end . BS8.drop (BS8.length start) $ rest
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startLen = BS8.length bracketedPasteStart
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endLen = BS8.length bracketedPasteEnd
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(_, rest ) = BS8.breakSubstring bracketedPasteStart s
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(p, rest') = BS8.breakSubstring bracketedPasteEnd . BS8.drop startLen $ rest
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@ -15,13 +15,17 @@ import qualified Graphics.Vty.Output.TerminfoBased as TerminfoBased
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import Blaze.ByteString.Builder (writeToByteString)
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import Blaze.ByteString.Builder.Word (writeWord8)
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import qualified Data.ByteString.Char8 as BS8
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import Data.ByteString.Char8 (ByteString)
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import Foreign.Ptr (castPtr)
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import Control.Monad (void, when)
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import Control.Monad.Trans
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import Data.Char (toLower)
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import Data.IORef
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import System.Posix.IO (fdWrite)
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import System.Posix.Types (Fd)
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import System.Posix.IO (fdWriteBuf)
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import System.Posix.Types (ByteCount, Fd)
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import System.Posix.Env (getEnv)
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import Data.List (isInfixOf)
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@ -31,6 +35,12 @@ import Data.Maybe (catMaybes)
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import Data.Monoid ((<>))
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#endif
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-- | Write a 'ByteString' to an 'Fd'.
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fdWrite :: Fd -> ByteString -> IO ByteCount
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fdWrite fd s =
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BS8.useAsCStringLen s $ \(buf,len) -> do
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fdWriteBuf fd (castPtr buf) (fromIntegral len)
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-- | Construct an Xterm output driver. Initialize the display to UTF-8.
|
||||
reserveTerminal :: ( Applicative m, MonadIO m ) => String -> Fd -> m Output
|
||||
reserveTerminal variant outFd = liftIO $ do
|
||||
@ -100,19 +110,19 @@ utf8Active = do
|
||||
|
||||
-- | Enable bracketed paste mode:
|
||||
-- http://cirw.in/blog/bracketed-paste
|
||||
enableBracketedPastes :: String
|
||||
enableBracketedPastes = "\ESC[?2004h"
|
||||
enableBracketedPastes :: ByteString
|
||||
enableBracketedPastes = BS8.pack "\ESC[?2004h"
|
||||
|
||||
-- | Disable bracketed paste mode:
|
||||
disableBracketedPastes :: String
|
||||
disableBracketedPastes = "\ESC[?2004l"
|
||||
disableBracketedPastes :: ByteString
|
||||
disableBracketedPastes = BS8.pack "\ESC[?2004l"
|
||||
|
||||
-- | These sequences set xterm based terminals to UTF-8 output.
|
||||
--
|
||||
-- There is no known terminfo capability equivalent to this.
|
||||
setUtf8CharSet, setDefaultCharSet :: String
|
||||
setUtf8CharSet = "\ESC%G"
|
||||
setDefaultCharSet = "\ESC%@"
|
||||
setUtf8CharSet, setDefaultCharSet :: ByteString
|
||||
setUtf8CharSet = BS8.pack "\ESC%G"
|
||||
setDefaultCharSet = BS8.pack "\ESC%@"
|
||||
|
||||
xtermInlineHack :: Output -> IO ()
|
||||
xtermInlineHack t = do
|
||||
|
Loading…
Reference in New Issue
Block a user