module Idris.Completion (replCompletion, proverCompletion) where
import Idris.Core.Evaluate (ctxtAlist)
import Idris.Core.TT
import Idris.AbsSyntax (runIO)
import Idris.AbsSyntaxTree
import Idris.Help
import Idris.Imports (installedPackages)
import Idris.Colours
import Idris.ParseHelpers(opChars)
import qualified Idris.ParseExpr (constants, tactics)
import Idris.ParseExpr (TacticArg (..))
import Idris.REPLParser (allHelp, setOptions)
import Control.Monad.State.Strict
import Data.List
import Data.Maybe
import Data.Char(toLower)
import System.Console.Haskeline
import System.Console.ANSI (Color)
commands = [ n | (names, _, _) <- allHelp ++ extraHelp, n <- names ]
tacticArgs :: [(String, Maybe TacticArg)]
tacticArgs = [ (name, args) | (names, args, _) <- Idris.ParseExpr.tactics
, name <- names ]
tactics = map fst tacticArgs
nameString :: Name -> Maybe String
nameString (UN nm)
| not (tnull nm) && (thead nm == '@' || thead nm == '#') = Nothing
nameString (UN n) = Just (str n)
nameString (NS n _) = nameString n
nameString _ = Nothing
names :: Idris [String]
names = do i <- get
let ctxt = tt_ctxt i
return . nub $
mapMaybe (nameString . fst) (ctxtAlist ctxt) ++
"Type" : map fst Idris.ParseExpr.constants
metavars :: Idris [String]
metavars = do i <- get
return . map (show . nsroot) $ map fst (filter (\(_, (_,_,_,t)) -> not t) (idris_metavars i)) \\ primDefs
modules :: Idris [String]
modules = do i <- get
return $ map show $ imported i
completeWith :: [String] -> String -> [Completion]
completeWith ns n = if uniqueExists
then [simpleCompletion n]
else map simpleCompletion prefixMatches
where prefixMatches = filter (isPrefixOf n) ns
uniqueExists = [n] == prefixMatches
completeName :: [String] -> String -> Idris [Completion]
completeName extra n = do ns <- names
return $ completeWith (extra ++ ns) n
completeExpr :: [String] -> CompletionFunc Idris
completeExpr extra = completeWord Nothing (" \t(){}:" ++ opChars) (completeName extra)
completeMetaVar :: CompletionFunc Idris
completeMetaVar = completeWord Nothing (" \t(){}:" ++ opChars) completeM
where completeM m = do mvs <- metavars
return $ completeWith mvs m
completeOption :: CompletionFunc Idris
completeOption = completeWord Nothing " \t" completeOpt
where completeOpt = return . completeWith (map fst setOptions)
completeConsoleWidth :: CompletionFunc Idris
completeConsoleWidth = completeWord Nothing " \t" completeW
where completeW = return . completeWith ["auto", "infinite", "80", "120"]
isWhitespace :: Char -> Bool
isWhitespace = (flip elem) " \t\n"
lookupInHelp :: String -> Maybe CmdArg
lookupInHelp cmd = lookupInHelp' cmd allHelp
where lookupInHelp' cmd ((cmds, arg, _):xs) | elem cmd cmds = Just arg
| otherwise = lookupInHelp' cmd xs
lookupInHelp' cmd [] = Nothing
completeColour :: CompletionFunc Idris
completeColour (prev, next) = case words (reverse prev) of
[c] | isCmd c -> do cmpls <- completeColourOpt next
return (reverse $ c ++ " ", cmpls)
[c, o] | o `elem` opts -> let correct = (c ++ " " ++ o) in
return (reverse correct, [simpleCompletion ""])
| o `elem` colourTypes -> completeColourFormat (prev, next)
| otherwise -> let cmpls = completeWith (opts ++ colourTypes) o in
let sofar = (c ++ " ") in
return (reverse sofar, cmpls)
cmd@(c:o:_) | isCmd c && o `elem` colourTypes ->
completeColourFormat (prev, next)
_ -> noCompletion (prev, next)
where completeColourOpt :: String -> Idris [Completion]
completeColourOpt = return . completeWith (opts ++ colourTypes)
opts = ["on", "off"]
colourTypes = map (map toLower . reverse . drop 6 . reverse . show) $
enumFromTo (minBound::ColourType) maxBound
isCmd ":colour" = True
isCmd ":color" = True
isCmd _ = False
colours = map (map toLower . show) $ enumFromTo (minBound::Color) maxBound
formats = ["vivid", "dull", "underline", "nounderline", "bold", "nobold", "italic", "noitalic"]
completeColourFormat = let getCmpl = completeWith (colours ++ formats) in
completeWord Nothing " \t" (return . getCmpl)
completeCmd :: String -> CompletionFunc Idris
completeCmd cmd (prev, next) = fromMaybe completeCmdName $ fmap completeArg $ lookupInHelp cmd
where completeArg FileArg = completeFilename (prev, next)
completeArg NameArg = completeExpr [] (prev, next)
completeArg OptionArg = completeOption (prev, next)
completeArg ModuleArg = noCompletion (prev, next)
completeArg NamespaceArg = noCompletion (prev, next)
completeArg ExprArg = completeExpr [] (prev, next)
completeArg MetaVarArg = completeMetaVar (prev, next)
completeArg ColourArg = completeColour (prev, next)
completeArg NoArg = noCompletion (prev, next)
completeArg ConsoleWidthArg = completeConsoleWidth (prev, next)
completeArg DeclArg = completeExpr [] (prev, next)
completeArg PkgArgs = completePkg (prev, next)
completeArg (ManyArgs a) = completeArg a
completeArg (OptionalArg a) = completeArg a
completeArg (SeqArgs a b) = completeArg a
completeArg _ = noCompletion (prev, next)
completeCmdName = return $ ("", completeWith commands cmd)
replCompletion :: CompletionFunc Idris
replCompletion (prev, next) = case firstWord of
':':cmdName -> completeCmd (':':cmdName) (prev, next)
_ -> completeExpr [] (prev, next)
where firstWord = fst $ break isWhitespace $ dropWhile isWhitespace $ reverse prev
completePkg :: CompletionFunc Idris
completePkg = completeWord Nothing " \t()" completeP
where completeP p = do pkgs <- runIO installedPackages
return $ completeWith pkgs p
completeTactic :: [String] -> String -> CompletionFunc Idris
completeTactic as tac (prev, next) = fromMaybe completeTacName . fmap completeArg $
lookup tac tacticArgs
where completeTacName = return $ ("", completeWith tactics tac)
completeArg Nothing = noCompletion (prev, next)
completeArg (Just NameTArg) = noCompletion (prev, next)
completeArg (Just ExprTArg) = completeExpr as (prev, next)
completeArg (Just StringLitTArg) = noCompletion (prev, next)
completeArg (Just AltsTArg) = noCompletion (prev, next)
proverCompletion :: [String]
-> CompletionFunc Idris
proverCompletion assumptions (prev, next) = completeTactic assumptions firstWord (prev, next)
where firstWord = fst $ break isWhitespace $ dropWhile isWhitespace $ reverse prev