idris-0.9.9.3: src/Idris/REPLParser.hs
module Idris.REPLParser(parseCmd) where
import System.FilePath ((</>))
import System.Console.ANSI (Color(..))
import Idris.Colours
import Idris.AbsSyntax
import Core.TT
import qualified Idris.Parser as P
import Control.Applicative
import Control.Monad.State.Strict
import Text.Parser.Combinators
import Text.Parser.Char(anyChar)
import Text.Trifecta(Result, parseString)
import Text.Trifecta.Delta
import Debug.Trace
import Data.List
import Data.List.Split(splitOn)
import Data.Char(toLower)
import qualified Data.ByteString.UTF8 as UTF8
parseCmd :: IState -> String -> String -> Result Command
parseCmd i inputname = parseString (P.runInnerParser (evalStateT pCmd i)) (Directed (UTF8.fromString inputname) 0 0 0 0)
cmd :: [String] -> P.IdrisParser ()
cmd xs = do P.lchar ':'; docmd (sortBy (\x y -> compare (length y) (length x)) xs)
where docmd [] = fail "No such command"
docmd (x:xs) = try (discard (P.symbol x)) <|> docmd xs
pCmd :: P.IdrisParser Command
pCmd = do P.whiteSpace; try (do cmd ["q", "quit"]; eof; return Quit)
<|> try (do cmd ["h", "?", "help"]; eof; return Help)
<|> try (do cmd ["r", "reload"]; eof; return Reload)
<|> try (do cmd ["m", "module"]; f <- P.identifier; eof;
return (ModImport (toPath f)))
<|> try (do cmd ["e", "edit"]; eof; return Edit)
<|> try (do cmd ["exec", "execute"]; eof; return Execute)
<|> try (do cmd ["ttshell"]; eof; return TTShell)
<|> try (do cmd ["c", "compile"]; f <- P.identifier; eof; return (Compile ViaC f))
<|> try (do cmd ["jc", "newcompile"]; f <- P.identifier; eof; return (Compile ViaJava f))
<|> try (do cmd ["js", "javascript"]; f <- P.identifier; eof; return (Compile ViaJavaScript f))
<|> try (do cmd ["m", "metavars"]; eof; return Metavars)
<|> try (do cmd ["proofs"]; eof; return Proofs)
<|> try (do cmd ["p", "prove"]; n <- P.name; eof; return (Prove n))
<|> try (do cmd ["a", "addproof"]; do n <- option Nothing (do x <- P.name;
return (Just x))
eof; return (AddProof n))
<|> try (do cmd ["rmproof"]; n <- P.name; eof; return (RmProof n))
<|> try (do cmd ["showproof"]; n <- P.name; eof; return (ShowProof n))
<|> try (do cmd ["log"]; i <- P.natural; eof; return (LogLvl (fromIntegral i)))
<|> try (do cmd ["l", "load"]; f <- many anyChar; return (Load f))
<|> try (do cmd ["cd"]; f <- many anyChar; return (ChangeDirectory f))
<|> try (do cmd ["spec"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (Spec t))
<|> try (do cmd ["hnf"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (HNF t))
<|> try (do cmd ["inline"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (TestInline t))
<|> try (do cmd ["doc"]; n <- P.fnName; eof; return (DocStr n))
<|> try (do cmd ["d", "def"]; some (P.char ' ') ; n <- P.fnName; eof; return (Defn n))
<|> try (do cmd ["total"]; do n <- P.fnName; eof; return (TotCheck n))
<|> try (do cmd ["t", "type"]; do P.whiteSpace; t <- P.fullExpr defaultSyntax; return (Check t))
<|> try (do cmd ["u", "universes"]; eof; return Universes)
<|> try (do cmd ["di", "dbginfo"]; n <- P.fnName; eof; return (DebugInfo n))
<|> try (do cmd ["i", "info"]; n <- P.fnName; eof; return (Info n))
<|> try (do cmd ["miss", "missing"]; n <- P.fnName; eof; return (Missing n))
<|> try (do cmd ["dynamic"]; eof; return ListDynamic)
<|> try (do cmd ["dynamic"]; l <- many anyChar; return (DynamicLink l))
<|> try (do cmd ["color", "colour"]; pSetColourCmd)
<|> try (do cmd ["set"]; o <-pOption; return (SetOpt o))
<|> try (do cmd ["unset"]; o <-pOption; return (UnsetOpt o))
<|> try (do cmd ["s", "search"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (Search t))
<|> try (do cmd ["x"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (ExecVal t))
<|> try (do cmd ["patt"]; P.whiteSpace; t <- P.fullExpr defaultSyntax; return (Pattelab t))
<|> do P.whiteSpace; do eof; return NOP
<|> do t <- P.fullExpr defaultSyntax; return (Eval t)
where toPath n = foldl1' (</>) $ splitOn "." n
pOption :: P.IdrisParser Opt
pOption = do discard (P.symbol "errorcontext"); return ErrContext
<|> do discard (P.symbol "showimplicits"); return ShowImpl
colours :: [(String, Color)]
colours = [ ("black", Black)
, ("red", Red)
, ("green", Green)
, ("yellow", Yellow)
, ("blue", Blue)
, ("magenta", Magenta)
, ("cyan", Cyan)
, ("white", White)
]
pColour :: P.IdrisParser Color
pColour = doColour colours
where doColour [] = fail "Unknown colour"
doColour ((s, c):cs) = (try (P.symbol s) >> return c) <|> doColour cs
pColourMod :: P.IdrisParser (IdrisColour -> IdrisColour)
pColourMod = try (P.symbol "vivid" >> return doVivid)
<|> try (P.symbol "dull" >> return doDull)
<|> try (P.symbol "underline" >> return doUnderline)
<|> try (P.symbol "nounderline" >> return doNoUnderline)
<|> try (P.symbol "bold" >> return doBold)
<|> try (P.symbol "nobold" >> return doNoBold)
<|> try (P.symbol "italic" >> return doItalic)
<|> try (P.symbol "noitalic" >> return doNoItalic)
<|> try (pColour >>= return . doSetColour)
where doVivid i = i { vivid = True }
doDull i = i { vivid = False }
doUnderline i = i { underline = True }
doNoUnderline i = i { underline = False }
doBold i = i { bold = True }
doNoBold i = i { bold = False }
doItalic i = i { italic = True }
doNoItalic i = i { italic = False }
doSetColour c i = i { colour = c }
colourTypes :: [(String, ColourType)]
colourTypes = map (\x -> ((map toLower . reverse . drop 6 . reverse . show) x, x)) $
enumFromTo minBound maxBound
pColourType :: P.IdrisParser ColourType
pColourType = doColourType colourTypes
where doColourType [] = fail $ "Unknown colour category. Options: " ++
(concat . intersperse ", " . map fst) colourTypes
doColourType ((s,ct):cts) = (try (P.symbol s) >> return ct) <|> doColourType cts
pSetColourCmd :: P.IdrisParser Command
pSetColourCmd = (do c <- pColourType
let defaultColour = IdrisColour Black True False False False
opts <- sepBy pColourMod (P.whiteSpace)
let colour = foldr ($) defaultColour $ reverse opts
return $ SetColour c colour)
<|> try (P.symbol "on" >> return ColourOn)
<|> try (P.symbol "off" >> return ColourOff)