{-# LANGUAGE MultiWayIf #-} {-# LANGUAGE CPP #-} {-# LANGUAGE GADTs#-} #include "ghc-api-version.h" -- Mostly taken from "haskell-ide-engine" module Development.IDE.Plugin.Completions.Logic ( CachedCompletions , cacheDataProducer , localCompletionsForParsedModule , WithSnippets(..) , getCompletions ) where import Control.Applicative import Data.Char (isUpper) import Data.Generics import Data.List.Extra as List hiding (stripPrefix) import qualified Data.Map as Map import Data.Maybe (fromMaybe, isJust, listToMaybe, mapMaybe) import qualified Data.Text as T import qualified Text.Fuzzy as Fuzzy import HscTypes import Name import RdrName import Type #if MIN_GHC_API_VERSION(8,10,0) import Predicate (isDictTy) import Pair import Coercion #endif import Language.LSP.Types import Language.LSP.Types.Capabilities import qualified Language.LSP.VFS as VFS import Development.IDE.Core.Compile import Development.IDE.Core.PositionMapping import Development.IDE.Plugin.Completions.Types import Development.IDE.Spans.Documentation import Development.IDE.Spans.LocalBindings import Development.IDE.GHC.Compat as GHC import Development.IDE.GHC.Error import Development.IDE.Types.Options import Development.IDE.Spans.Common import Development.IDE.GHC.Util import Outputable (Outputable) import qualified Data.Set as Set import ConLike import GhcPlugins ( flLabel, unpackFS) import Data.Either (fromRight) import Data.Aeson (ToJSON (toJSON)) import Data.Functor import Ide.PluginUtils (mkLspCommand) import Ide.Types (CommandId (..), PluginId, WithSnippets (..)) import Control.Monad import Development.IDE.Types.HscEnvEq -- From haskell-ide-engine/hie-plugin-api/Haskell/Ide/Engine/Context.hs -- | A context of a declaration in the program -- e.g. is the declaration a type declaration or a value declaration -- Used for determining which code completions to show -- TODO: expand this with more contexts like classes or instances for -- smarter code completion data Context = TypeContext | ValueContext | ModuleContext String -- ^ module context with module name | ImportContext String -- ^ import context with module name | ImportListContext String -- ^ import list context with module name | ImportHidingContext String -- ^ import hiding context with module name | ExportContext -- ^ List of exported identifiers from the current module deriving (Show, Eq) -- | Generates a map of where the context is a type and where the context is a value -- i.e. where are the value decls and the type decls getCContext :: Position -> ParsedModule -> Maybe Context getCContext pos pm | Just (L r modName) <- moduleHeader , pos `isInsideSrcSpan` r = Just (ModuleContext (moduleNameString modName)) | Just (L r _) <- exportList , pos `isInsideSrcSpan` r = Just ExportContext | Just ctx <- something (Nothing `mkQ` go `extQ` goInline) decl = Just ctx | Just ctx <- something (Nothing `mkQ` importGo) imports = Just ctx | otherwise = Nothing where decl = hsmodDecls $ unLoc $ pm_parsed_source pm moduleHeader = hsmodName $ unLoc $ pm_parsed_source pm exportList = hsmodExports $ unLoc $ pm_parsed_source pm imports = hsmodImports $ unLoc $ pm_parsed_source pm go :: LHsDecl GhcPs -> Maybe Context go (L r SigD {}) | pos `isInsideSrcSpan` r = Just TypeContext | otherwise = Nothing go (L r GHC.ValD {}) | pos `isInsideSrcSpan` r = Just ValueContext | otherwise = Nothing go _ = Nothing goInline :: GHC.LHsType GhcPs -> Maybe Context goInline (GHC.L r _) | pos `isInsideSrcSpan` r = Just TypeContext goInline _ = Nothing importGo :: GHC.LImportDecl GhcPs -> Maybe Context importGo (L r impDecl) | pos `isInsideSrcSpan` r = importInline importModuleName (ideclHiding impDecl) <|> Just (ImportContext importModuleName) | otherwise = Nothing where importModuleName = moduleNameString $ unLoc $ ideclName impDecl importInline :: String -> Maybe (Bool, GHC.Located [LIE GhcPs]) -> Maybe Context importInline modName (Just (True, L r _)) | pos `isInsideSrcSpan` r = Just $ ImportHidingContext modName | otherwise = Nothing importInline modName (Just (False, L r _)) | pos `isInsideSrcSpan` r = Just $ ImportListContext modName | otherwise = Nothing importInline _ _ = Nothing occNameToComKind :: Maybe T.Text -> OccName -> CompletionItemKind occNameToComKind ty oc | isVarOcc oc = case occNameString oc of i:_ | isUpper i -> CiConstructor _ -> CiFunction | isTcOcc oc = case ty of Just t | "Constraint" `T.isSuffixOf` t -> CiClass _ -> CiStruct | isDataOcc oc = CiConstructor | otherwise = CiVariable showModName :: ModuleName -> T.Text showModName = T.pack . moduleNameString -- mkCompl :: IdeOptions -> CompItem -> CompletionItem -- mkCompl IdeOptions{..} CI{compKind,insertText, importedFrom,typeText,label,docs} = -- CompletionItem label kind (List []) ((colon <>) <$> typeText) -- (Just $ CompletionDocMarkup $ MarkupContent MkMarkdown $ T.intercalate sectionSeparator docs') -- Nothing Nothing Nothing Nothing (Just insertText) (Just Snippet) -- Nothing Nothing Nothing Nothing Nothing mkCompl :: PluginId -> IdeOptions -> CompItem -> IO CompletionItem mkCompl pId IdeOptions {..} CI { compKind, isInfix, insertText, importedFrom, typeText, label, docs, additionalTextEdits } = do mbCommand <- mkAdditionalEditsCommand pId `traverse` additionalTextEdits let ci = CompletionItem {_label = label, _kind = kind, _tags = Nothing, _detail = (colon <>) <$> typeText, _documentation = documentation, _deprecated = Nothing, _preselect = Nothing, _sortText = Nothing, _filterText = Nothing, _insertText = Just insertText, _insertTextFormat = Just Snippet, _textEdit = Nothing, _additionalTextEdits = Nothing, _commitCharacters = Nothing, _command = mbCommand, _xdata = Nothing} return $ removeSnippetsWhen (isJust isInfix) ci where kind = Just compKind docs' = imported : spanDocToMarkdown docs imported = case importedFrom of Left pos -> "*Defined at '" <> ppr pos <> "'*\n'" Right mod -> "*Defined in '" <> mod <> "'*\n" colon = if optNewColonConvention then ": " else ":: " documentation = Just $ CompletionDocMarkup $ MarkupContent MkMarkdown $ T.intercalate sectionSeparator docs' mkAdditionalEditsCommand :: PluginId -> ExtendImport -> IO Command mkAdditionalEditsCommand pId edits = pure $ mkLspCommand pId (CommandId extendImportCommandId) "extend import" (Just [toJSON edits]) mkNameCompItem :: Uri -> Maybe T.Text -> OccName -> ModuleName -> Maybe Type -> Maybe Backtick -> SpanDoc -> Maybe (LImportDecl GhcPs) -> CompItem mkNameCompItem doc thingParent origName origMod thingType isInfix docs !imp = CI {..} where compKind = occNameToComKind typeText origName importedFrom = Right $ showModName origMod isTypeCompl = isTcOcc origName label = stripPrefix $ showGhc origName insertText = case isInfix of Nothing -> case getArgText <$> thingType of Nothing -> label Just argText -> label <> " " <> argText Just LeftSide -> label <> "`" Just Surrounded -> label typeText | Just t <- thingType = Just . stripForall $ showGhc t | otherwise = Nothing additionalTextEdits = imp <&> \x -> ExtendImport { doc, thingParent, importName = showModName $ unLoc $ ideclName $ unLoc x, importQual = getImportQual x, newThing = showNameWithoutUniques origName } stripForall :: T.Text -> T.Text stripForall t | T.isPrefixOf "forall" t = -- We drop 2 to remove the '.' and the space after it T.drop 2 (T.dropWhile (/= '.') t) | otherwise = t getArgText :: Type -> T.Text getArgText typ = argText where argTypes = getArgs typ argText :: T.Text argText = mconcat $ List.intersperse " " $ zipWithFrom snippet 1 argTypes snippet :: Int -> Type -> T.Text snippet i t = "${" <> T.pack (show i) <> ":" <> showGhc t <> "}" getArgs :: Type -> [Type] getArgs t | isPredTy t = [] | isDictTy t = [] | isForAllTy t = getArgs $ snd (splitForAllTys t) | isFunTy t = let (args, ret) = splitFunTys t in if isForAllTy ret then getArgs ret else Prelude.filter (not . isDictTy) args | isPiTy t = getArgs $ snd (splitPiTys t) #if MIN_GHC_API_VERSION(8,10,0) | Just (Pair _ t) <- coercionKind <$> isCoercionTy_maybe t = getArgs t #else | isCoercionTy t = maybe [] (getArgs . snd) (splitCoercionType_maybe t) #endif | otherwise = [] mkModCompl :: T.Text -> CompletionItem mkModCompl label = CompletionItem label (Just CiModule) Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing mkImportCompl :: T.Text -> T.Text -> CompletionItem mkImportCompl enteredQual label = CompletionItem m (Just CiModule) Nothing (Just label) Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing where m = fromMaybe "" (T.stripPrefix enteredQual label) mkExtCompl :: T.Text -> CompletionItem mkExtCompl label = CompletionItem label (Just CiKeyword) Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing Nothing mkPragmaCompl :: T.Text -> T.Text -> CompletionItem mkPragmaCompl label insertText = CompletionItem label (Just CiKeyword) Nothing Nothing Nothing Nothing Nothing Nothing Nothing (Just insertText) (Just Snippet) Nothing Nothing Nothing Nothing Nothing cacheDataProducer :: Uri -> HscEnvEq -> Module -> GlobalRdrEnv-> GlobalRdrEnv -> [LImportDecl GhcPs] -> IO CachedCompletions cacheDataProducer uri env curMod globalEnv inScopeEnv limports = do let packageState = hscEnv env curModName = moduleName curMod importMap = Map.fromList [ (getLoc imp, imp) | imp <- limports ] iDeclToModName :: ImportDecl name -> ModuleName iDeclToModName = unLoc . ideclName asNamespace :: ImportDecl name -> ModuleName asNamespace imp = maybe (iDeclToModName imp) GHC.unLoc (ideclAs imp) -- Full canonical names of imported modules importDeclerations = map unLoc limports -- The given namespaces for the imported modules (ie. full name, or alias if used) allModNamesAsNS = map (showModName . asNamespace) importDeclerations rdrElts = globalRdrEnvElts globalEnv foldMapM :: (Foldable f, Monad m, Monoid b) => (a -> m b) -> f a -> m b foldMapM f xs = foldr step return xs mempty where step x r z = f x >>= \y -> r $! z `mappend` y getCompls :: [GlobalRdrElt] -> IO ([CompItem],QualCompls) getCompls = foldMapM getComplsForOne getComplsForOne :: GlobalRdrElt -> IO ([CompItem],QualCompls) getComplsForOne (GRE n par True _) = (, mempty) <$> toCompItem par curMod curModName n Nothing getComplsForOne (GRE n par False prov) = flip foldMapM (map is_decl prov) $ \spec -> do -- we don't want to extend import if it's already in scope let originalImportDecl = if null $ lookupGRE_Name inScopeEnv n then Map.lookup (is_dloc spec) importMap else Nothing compItem <- toCompItem par curMod (is_mod spec) n originalImportDecl let unqual | is_qual spec = [] | otherwise = compItem qual | is_qual spec = Map.singleton asMod compItem | otherwise = Map.fromList [(asMod,compItem),(origMod,compItem)] asMod = showModName (is_as spec) origMod = showModName (is_mod spec) return (unqual,QualCompls qual) toCompItem :: Parent -> Module -> ModuleName -> Name -> Maybe (LImportDecl GhcPs) -> IO [CompItem] toCompItem par m mn n imp' = do docs <- getDocumentationTryGhc packageState curMod n let (mbParent, originName) = case par of NoParent -> (Nothing, nameOccName n) ParentIs n' -> (Just $ showNameWithoutUniques n', nameOccName n) FldParent n' lbl -> (Just $ showNameWithoutUniques n', maybe (nameOccName n) mkVarOccFS lbl) tys <- catchSrcErrors (hsc_dflags packageState) "completion" $ do name' <- lookupName packageState m n return ( name' >>= safeTyThingType , guard (isJust mbParent) >> name' >>= safeTyThingForRecord ) let (ty, record_ty) = fromRight (Nothing, Nothing) tys let recordCompls = case record_ty of Just (ctxStr, flds) | not (null flds) -> [mkRecordSnippetCompItem uri mbParent ctxStr flds (ppr mn) docs imp'] _ -> [] return $ mkNameCompItem uri mbParent originName mn ty Nothing docs imp' : recordCompls (unquals,quals) <- getCompls rdrElts -- The list of all importable Modules from all packages moduleNames <- maybe [] (map showModName) <$> envVisibleModuleNames env return $ CC { allModNamesAsNS = allModNamesAsNS , unqualCompls = unquals , qualCompls = quals , importableModules = moduleNames } -- | Produces completions from the top level declarations of a module. localCompletionsForParsedModule :: Uri -> ParsedModule -> CachedCompletions localCompletionsForParsedModule uri pm@ParsedModule{pm_parsed_source = L _ HsModule{hsmodDecls, hsmodName}} = CC { allModNamesAsNS = mempty , unqualCompls = compls , qualCompls = mempty , importableModules = mempty } where typeSigIds = Set.fromList [ id | L _ (SigD _ (TypeSig _ ids _)) <- hsmodDecls , L _ id <- ids ] hasTypeSig = (`Set.member` typeSigIds) . unLoc compls = concat [ case decl of SigD _ (TypeSig _ ids typ) -> [mkComp id CiFunction (Just $ ppr typ) | id <- ids] ValD _ FunBind{fun_id} -> [ mkComp fun_id CiFunction Nothing | not (hasTypeSig fun_id) ] ValD _ PatBind{pat_lhs} -> [mkComp id CiVariable Nothing | VarPat _ id <- listify (\(_ :: Pat GhcPs) -> True) pat_lhs] TyClD _ ClassDecl{tcdLName, tcdSigs} -> mkComp tcdLName CiClass Nothing : [ mkComp id CiFunction (Just $ ppr typ) | L _ (TypeSig _ ids typ) <- tcdSigs , id <- ids] TyClD _ x -> let generalCompls = [mkComp id cl Nothing | id <- listify (\(_ :: Located(IdP GhcPs)) -> True) x , let cl = occNameToComKind Nothing (rdrNameOcc $ unLoc id)] -- here we only have to look at the outermost type recordCompls = findRecordCompl uri pm thisModName x in -- the constructors and snippets will be duplicated here giving the user 2 choices. generalCompls ++ recordCompls ForD _ ForeignImport{fd_name,fd_sig_ty} -> [mkComp fd_name CiVariable (Just $ ppr fd_sig_ty)] ForD _ ForeignExport{fd_name,fd_sig_ty} -> [mkComp fd_name CiVariable (Just $ ppr fd_sig_ty)] _ -> [] | L _ decl <- hsmodDecls ] mkComp n ctyp ty = CI ctyp pn (Right thisModName) ty pn Nothing doc (ctyp `elem` [CiStruct, CiClass]) Nothing where pn = ppr n doc = SpanDocText (getDocumentation [pm] n) (SpanDocUris Nothing Nothing) thisModName = ppr hsmodName findRecordCompl :: Uri -> ParsedModule -> T.Text -> TyClDecl GhcPs -> [CompItem] findRecordCompl uri pmod mn DataDecl {tcdLName, tcdDataDefn} = result where result = [mkRecordSnippetCompItem uri (Just $ showNameWithoutUniques $ unLoc tcdLName) (showGhc . unLoc $ con_name) field_labels mn doc Nothing | ConDeclH98{..} <- unLoc <$> dd_cons tcdDataDefn , Just con_details <- [getFlds con_args] , let field_names = mapMaybe extract con_details , let field_labels = showGhc . unLoc <$> field_names , (not . List.null) field_labels ] doc = SpanDocText (getDocumentation [pmod] tcdLName) (SpanDocUris Nothing Nothing) getFlds :: HsConDetails arg (Located [LConDeclField GhcPs]) -> Maybe [ConDeclField GhcPs] getFlds conArg = case conArg of RecCon rec -> Just $ unLoc <$> unLoc rec PrefixCon _ -> Just [] _ -> Nothing extract ConDeclField{..} -- TODO: Why is cd_fld_names a list? | Just fld_name <- rdrNameFieldOcc . unLoc <$> listToMaybe cd_fld_names = Just fld_name | otherwise = Nothing -- XConDeclField extract _ = Nothing findRecordCompl _ _ _ _ = [] ppr :: Outputable a => a -> T.Text ppr = T.pack . prettyPrint toggleSnippets :: ClientCapabilities -> WithSnippets -> CompletionItem -> CompletionItem toggleSnippets ClientCapabilities {_textDocument} (WithSnippets with) = removeSnippetsWhen (not $ with && supported) where supported = Just True == (_textDocument >>= _completion >>= _completionItem >>= _snippetSupport) removeSnippetsWhen :: Bool -> CompletionItem -> CompletionItem removeSnippetsWhen condition x = if condition then x { _insertTextFormat = Just PlainText, _insertText = Nothing } else x -- | Returns the cached completions for the given module and position. getCompletions :: PluginId -> IdeOptions -> CachedCompletions -> Maybe (ParsedModule, PositionMapping) -> (Bindings, PositionMapping) -> VFS.PosPrefixInfo -> ClientCapabilities -> WithSnippets -> IO [CompletionItem] getCompletions plId ideOpts CC {allModNamesAsNS, unqualCompls, qualCompls, importableModules} maybe_parsed (localBindings, bmapping) prefixInfo caps withSnippets = do let VFS.PosPrefixInfo { fullLine, prefixModule, prefixText } = prefixInfo enteredQual = if T.null prefixModule then "" else prefixModule <> "." fullPrefix = enteredQual <> prefixText {- correct the position by moving 'foo :: Int -> String -> ' ^ to 'foo :: Int -> String -> ' ^ -} pos = VFS.cursorPos prefixInfo filtModNameCompls = map mkModCompl $ mapMaybe (T.stripPrefix enteredQual) $ Fuzzy.simpleFilter fullPrefix allModNamesAsNS filtCompls = map Fuzzy.original $ Fuzzy.filter prefixText ctxCompls "" "" label False where mcc = case maybe_parsed of Nothing -> Nothing Just (pm, pmapping) -> let PositionMapping pDelta = pmapping position' = fromDelta pDelta pos lpos = lowerRange position' hpos = upperRange position' in getCContext lpos pm <|> getCContext hpos pm -- completions specific to the current context ctxCompls' = case mcc of Nothing -> compls Just TypeContext -> filter isTypeCompl compls Just ValueContext -> filter (not . isTypeCompl) compls Just _ -> filter (not . isTypeCompl) compls -- Add whether the text to insert has backticks ctxCompls = map (\comp -> comp { isInfix = infixCompls }) ctxCompls' infixCompls :: Maybe Backtick infixCompls = isUsedAsInfix fullLine prefixModule prefixText pos PositionMapping bDelta = bmapping oldPos = fromDelta bDelta $ VFS.cursorPos prefixInfo startLoc = lowerRange oldPos endLoc = upperRange oldPos localCompls = map (uncurry localBindsToCompItem) $ getFuzzyScope localBindings startLoc endLoc localBindsToCompItem :: Name -> Maybe Type -> CompItem localBindsToCompItem name typ = CI ctyp pn thisModName ty pn Nothing emptySpanDoc (not $ isValOcc occ) Nothing where occ = nameOccName name ctyp = occNameToComKind Nothing occ pn = ppr name ty = ppr <$> typ thisModName = case nameModule_maybe name of Nothing -> Left $ nameSrcSpan name Just m -> Right $ ppr m compls = if T.null prefixModule then localCompls ++ unqualCompls else Map.findWithDefault [] prefixModule $ getQualCompls qualCompls filtListWith f list = [ f label | label <- Fuzzy.simpleFilter fullPrefix list , enteredQual `T.isPrefixOf` label ] filtListWithSnippet f list suffix = [ toggleSnippets caps withSnippets (f label (snippet <> suffix)) | (snippet, label) <- list , Fuzzy.test fullPrefix label ] filtImportCompls = filtListWith (mkImportCompl enteredQual) importableModules filtPragmaCompls = filtListWithSnippet mkPragmaCompl validPragmas filtOptsCompls = filtListWith mkExtCompl filtKeywordCompls | T.null prefixModule = filtListWith mkExtCompl (optKeywords ideOpts) | otherwise = [] stripLeading :: Char -> String -> String stripLeading _ [] = [] stripLeading c (s:ss) | s == c = ss | otherwise = s:ss if | "import " `T.isPrefixOf` fullLine -> return filtImportCompls -- we leave this condition here to avoid duplications and return empty list -- since HLS implements this completion (#haskell-language-server/pull/662) | "{-# language" `T.isPrefixOf` T.toLower fullLine -> return [] | "{-# options_ghc" `T.isPrefixOf` T.toLower fullLine -> return $ filtOptsCompls (map (T.pack . stripLeading '-') $ flagsForCompletion False) | "{-# " `T.isPrefixOf` fullLine -> return $ filtPragmaCompls (pragmaSuffix fullLine) | otherwise -> do let uniqueFiltCompls = nubOrdOn insertText filtCompls compls <- mapM (mkCompl plId ideOpts) uniqueFiltCompls return $ filtModNameCompls ++ filtKeywordCompls ++ map ( toggleSnippets caps withSnippets) compls -- --------------------------------------------------------------------- -- helper functions for pragmas -- --------------------------------------------------------------------- validPragmas :: [(T.Text, T.Text)] validPragmas = [ ("LANGUAGE ${1:extension}" , "LANGUAGE") , ("OPTIONS_GHC -${1:option}" , "OPTIONS_GHC") , ("INLINE ${1:function}" , "INLINE") , ("NOINLINE ${1:function}" , "NOINLINE") , ("INLINABLE ${1:function}" , "INLINABLE") , ("WARNING ${1:message}" , "WARNING") , ("DEPRECATED ${1:message}" , "DEPRECATED") , ("ANN ${1:annotation}" , "ANN") , ("RULES" , "RULES") , ("SPECIALIZE ${1:function}" , "SPECIALIZE") , ("SPECIALIZE INLINE ${1:function}", "SPECIALIZE INLINE") ] pragmaSuffix :: T.Text -> T.Text pragmaSuffix fullLine | "}" `T.isSuffixOf` fullLine = mempty | otherwise = " #-}" -- --------------------------------------------------------------------- -- helper functions for infix backticks -- --------------------------------------------------------------------- hasTrailingBacktick :: T.Text -> Position -> Bool hasTrailingBacktick line Position { _character } | T.length line > _character = (line `T.index` _character) == '`' | otherwise = False isUsedAsInfix :: T.Text -> T.Text -> T.Text -> Position -> Maybe Backtick isUsedAsInfix line prefixMod prefixText pos | hasClosingBacktick && hasOpeningBacktick = Just Surrounded | hasOpeningBacktick = Just LeftSide | otherwise = Nothing where hasOpeningBacktick = openingBacktick line prefixMod prefixText pos hasClosingBacktick = hasTrailingBacktick line pos openingBacktick :: T.Text -> T.Text -> T.Text -> Position -> Bool openingBacktick line prefixModule prefixText Position { _character } | backtickIndex < 0 || backtickIndex > T.length line = False | otherwise = (line `T.index` backtickIndex) == '`' where backtickIndex :: Int backtickIndex = let prefixLength = T.length prefixText moduleLength = if prefixModule == "" then 0 else T.length prefixModule + 1 {- Because of "." -} in -- Points to the first letter of either the module or prefix text _character - (prefixLength + moduleLength) - 1 -- --------------------------------------------------------------------- -- | Under certain circumstance GHC generates some extra stuff that we -- don't want in the autocompleted symbols {- When e.g. DuplicateRecordFields is enabled, compiler generates names like "$sel:accessor:One" and "$sel:accessor:Two" to disambiguate record selectors https://ghc.haskell.org/trac/ghc/wiki/Records/OverloadedRecordFields/DuplicateRecordFields#Implementation -} -- TODO: Turn this into an alex lexer that discards prefixes as if they were whitespace. stripPrefix :: T.Text -> T.Text stripPrefix name = T.takeWhile (/=':') $ go prefixes where go [] = name go (p:ps) | T.isPrefixOf p name = T.drop (T.length p) name | otherwise = go ps -- | Prefixes that can occur in a GHC OccName prefixes :: [T.Text] prefixes = [ -- long ones "$con2tag_" , "$tag2con_" , "$maxtag_" -- four chars , "$sel:" , "$tc'" -- three chars , "$dm" , "$co" , "$tc" , "$cp" , "$fx" -- two chars , "$W" , "$w" , "$m" , "$b" , "$c" , "$d" , "$i" , "$s" , "$f" , "$r" , "C:" , "N:" , "D:" , "$p" , "$L" , "$f" , "$t" , "$c" , "$m" ] safeTyThingForRecord :: TyThing -> Maybe (T.Text, [T.Text]) safeTyThingForRecord (AnId _) = Nothing safeTyThingForRecord (AConLike dc) = let ctxStr = showGhc . occName . conLikeName $ dc field_names = T.pack . unpackFS . flLabel <$> conLikeFieldLabels dc in Just (ctxStr, field_names) safeTyThingForRecord _ = Nothing mkRecordSnippetCompItem :: Uri -> Maybe T.Text -> T.Text -> [T.Text] -> T.Text -> SpanDoc -> Maybe (LImportDecl GhcPs) -> CompItem mkRecordSnippetCompItem uri parent ctxStr compl mn docs imp = r where r = CI { compKind = CiSnippet , insertText = buildSnippet , importedFrom = importedFrom , typeText = Nothing , label = ctxStr , isInfix = Nothing , docs = docs , isTypeCompl = False , additionalTextEdits = imp <&> \x -> ExtendImport { doc = uri, thingParent = parent, importName = showModName $ unLoc $ ideclName $ unLoc x, importQual = getImportQual x, newThing = ctxStr } } placeholder_pairs = zip compl ([1..]::[Int]) snippet_parts = map (\(x, i) -> x <> "=${" <> T.pack (show i) <> ":_" <> x <> "}") placeholder_pairs snippet = T.intercalate (T.pack ", ") snippet_parts buildSnippet = ctxStr <> " {" <> snippet <> "}" importedFrom = Right mn getImportQual :: LImportDecl GhcPs -> Maybe T.Text getImportQual (L _ imp) | isQualifiedImport imp = Just $ T.pack $ moduleNameString $ maybe (unLoc $ ideclName imp) unLoc (ideclAs imp) | otherwise = Nothing