ghcide-1.6.0.0: src/Development/IDE/Plugin/CodeAction.hs
-- Copyright (c) 2019 The DAML Authors. All rights reserved.
-- SPDX-License-Identifier: Apache-2.0
{-# LANGUAGE CPP #-}
{-# LANGUAGE DuplicateRecordFields #-}
{-# LANGUAGE GADTs #-}
-- | Go to the definition of a variable.
module Development.IDE.Plugin.CodeAction
(
iePluginDescriptor,
typeSigsPluginDescriptor,
bindingsPluginDescriptor,
fillHolePluginDescriptor,
newImport,
newImportToEdit
-- * For testing
, matchRegExMultipleImports
) where
import Control.Applicative ((<|>))
import Control.Arrow (second,
(>>>))
import Control.Concurrent.STM.Stats (atomically)
import Control.Monad (guard, join,
msum)
import Control.Monad.IO.Class
import Data.Char
import qualified Data.DList as DL
import Data.Function
import Data.Functor
import qualified Data.HashMap.Strict as Map
import qualified Data.HashSet as Set
import Data.List.Extra
import Data.List.NonEmpty (NonEmpty ((:|)))
import qualified Data.List.NonEmpty as NE
import qualified Data.Map as M
import Data.Maybe
import qualified Data.Rope.UTF16 as Rope
import qualified Data.Set as S
import qualified Data.Text as T
import Data.Tuple.Extra (fst3)
import Development.IDE.Core.RuleTypes
import Development.IDE.Core.Rules
import Development.IDE.Core.Service
import Development.IDE.GHC.Compat
import Development.IDE.GHC.Compat.Util
import Development.IDE.GHC.Error
import Development.IDE.GHC.ExactPrint
import Development.IDE.GHC.Util (prettyPrint,
printRdrName,
traceAst,
unsafePrintSDoc)
import Development.IDE.Plugin.CodeAction.Args
import Development.IDE.Plugin.CodeAction.ExactPrint
import Development.IDE.Plugin.CodeAction.PositionIndexed
import Development.IDE.Plugin.TypeLenses (suggestSignature)
import Development.IDE.Spans.Common
import Development.IDE.Types.Exports
import Development.IDE.Types.Location
import Development.IDE.Types.Options
import qualified GHC.LanguageExtensions as Lang
import Ide.PluginUtils (subRange)
import Ide.Types
import qualified Language.LSP.Server as LSP
import Language.LSP.Types (CodeAction (..),
CodeActionContext (CodeActionContext, _diagnostics),
CodeActionKind (CodeActionQuickFix, CodeActionUnknown),
CodeActionParams (CodeActionParams),
Command,
Diagnostic (..),
List (..),
ResponseError,
SMethod (STextDocumentCodeAction),
TextDocumentIdentifier (TextDocumentIdentifier),
TextEdit (TextEdit),
UInt,
WorkspaceEdit (WorkspaceEdit, _changeAnnotations, _changes, _documentChanges),
type (|?) (InR),
uriToFilePath)
import Language.LSP.VFS
import Text.Regex.TDFA (mrAfter,
(=~), (=~~))
-------------------------------------------------------------------------------------------------
-- | Generate code actions.
codeAction
:: IdeState
-> PluginId
-> CodeActionParams
-> LSP.LspM c (Either ResponseError (List (Command |? CodeAction)))
codeAction state _ (CodeActionParams _ _ (TextDocumentIdentifier uri) _range CodeActionContext{_diagnostics=List xs}) = do
contents <- LSP.getVirtualFile $ toNormalizedUri uri
liftIO $ do
let text = Rope.toText . (_text :: VirtualFile -> Rope.Rope) <$> contents
mbFile = toNormalizedFilePath' <$> uriToFilePath uri
diag <- atomically $ fmap (\(_, _, d) -> d) . filter (\(p, _, _) -> mbFile == Just p) <$> getDiagnostics state
(join -> parsedModule) <- runAction "GhcideCodeActions.getParsedModule" state $ getParsedModule `traverse` mbFile
let
actions = caRemoveRedundantImports parsedModule text diag xs uri
<> caRemoveInvalidExports parsedModule text diag xs uri
pure $ Right $ List actions
-------------------------------------------------------------------------------------------------
iePluginDescriptor :: PluginId -> PluginDescriptor IdeState
iePluginDescriptor plId =
let old =
mkGhcideCAsPlugin [
wrap suggestExtendImport
, wrap suggestImportDisambiguation
, wrap suggestNewOrExtendImportForClassMethod
, wrap suggestNewImport
, wrap suggestModuleTypo
, wrap suggestFixConstructorImport
, wrap suggestHideShadow
, wrap suggestExportUnusedTopBinding
]
plId
in old {pluginHandlers = pluginHandlers old <> mkPluginHandler STextDocumentCodeAction codeAction}
typeSigsPluginDescriptor :: PluginId -> PluginDescriptor IdeState
typeSigsPluginDescriptor =
mkGhcideCAsPlugin [
wrap $ suggestSignature True
, wrap suggestFillTypeWildcard
, wrap removeRedundantConstraints
, wrap suggestAddTypeAnnotationToSatisfyContraints
, wrap suggestConstraint
]
bindingsPluginDescriptor :: PluginId -> PluginDescriptor IdeState
bindingsPluginDescriptor =
mkGhcideCAsPlugin [
wrap suggestReplaceIdentifier
, wrap suggestImplicitParameter
, wrap suggestNewDefinition
, wrap suggestDeleteUnusedBinding
]
fillHolePluginDescriptor :: PluginId -> PluginDescriptor IdeState
fillHolePluginDescriptor = mkGhcideCAPlugin $ wrap suggestFillHole
-------------------------------------------------------------------------------------------------
findSigOfDecl :: p ~ GhcPass p0 => (IdP p -> Bool) -> [LHsDecl p] -> Maybe (Sig p)
findSigOfDecl pred decls =
listToMaybe
[ sig
| L _ (SigD _ sig@(TypeSig _ idsSig _)) <- decls,
any (pred . unLoc) idsSig
]
findSigOfDeclRanged :: forall p p0 . p ~ GhcPass p0 => Range -> [LHsDecl p] -> Maybe (Sig p)
findSigOfDeclRanged range decls = do
dec <- findDeclContainingLoc (_start range) decls
case dec of
L _ (SigD _ sig@TypeSig {}) -> Just sig
L _ (ValD _ (bind :: HsBind p)) -> findSigOfBind range bind
_ -> Nothing
findSigOfBind :: forall p p0. p ~ GhcPass p0 => Range -> HsBind p -> Maybe (Sig p)
findSigOfBind range bind =
case bind of
FunBind {} -> findSigOfLMatch (unLoc $ mg_alts (fun_matches bind))
_ -> Nothing
where
findSigOfLMatch :: [LMatch p (LHsExpr p)] -> Maybe (Sig p)
findSigOfLMatch ls = do
match <- findDeclContainingLoc (_start range) ls
let grhs = m_grhss $ unLoc match
#if !MIN_VERSION_ghc(9,2,0)
span = getLoc $ reLoc $ grhssLocalBinds grhs
if _start range `isInsideSrcSpan` span
then findSigOfBinds range (unLoc (grhssLocalBinds grhs)) -- where clause
else do
grhs <- findDeclContainingLoc (_start range) (map reLocA $ grhssGRHSs grhs)
case unLoc grhs of
GRHS _ _ bd -> findSigOfExpr (unLoc bd)
_ -> Nothing
#else
msum
[findSigOfBinds range (grhssLocalBinds grhs) -- where clause
, do
grhs <- findDeclContainingLoc (_start range) (map reLocA $ grhssGRHSs grhs)
case unLoc grhs of
GRHS _ _ bd -> findSigOfExpr (unLoc bd)
]
#endif
findSigOfExpr :: HsExpr p -> Maybe (Sig p)
findSigOfExpr = go
where
go (HsLet _ binds _) = findSigOfBinds range binds
go (HsDo _ _ stmts) = do
stmtlr <- unLoc <$> findDeclContainingLoc (_start range) (unLoc stmts)
case stmtlr of
LetStmt _ lhsLocalBindsLR -> findSigOfBinds range lhsLocalBindsLR
_ -> Nothing
go _ = Nothing
findSigOfBinds :: p ~ GhcPass p0 => Range -> HsLocalBinds p -> Maybe (Sig p)
findSigOfBinds range = go
where
go (HsValBinds _ (ValBinds _ binds lsigs)) =
case unLoc <$> findDeclContainingLoc (_start range) lsigs of
Just sig' -> Just sig'
Nothing -> do
lHsBindLR <- findDeclContainingLoc (_start range) (bagToList binds)
findSigOfBind range (unLoc lHsBindLR)
go _ = Nothing
findInstanceHead :: (Outputable (HsType p), p ~ GhcPass p0) => DynFlags -> String -> [LHsDecl p] -> Maybe (LHsType p)
findInstanceHead df instanceHead decls =
listToMaybe
#if !MIN_VERSION_ghc(9,2,0)
[ hsib_body
| L _ (InstD _ (ClsInstD _ ClsInstDecl {cid_poly_ty = HsIB {hsib_body}})) <- decls,
showSDoc df (ppr hsib_body) == instanceHead
]
#else
[ hsib_body
| L _ (InstD _ (ClsInstD _ ClsInstDecl {cid_poly_ty = (unLoc -> HsSig {sig_body = hsib_body})})) <- decls,
showSDoc df (ppr hsib_body) == instanceHead
]
#endif
#if MIN_VERSION_ghc(9,2,0)
findDeclContainingLoc :: Foldable t => Position -> t (GenLocated (SrcSpanAnn' a) e) -> Maybe (GenLocated (SrcSpanAnn' a) e)
#else
-- TODO populate this type signature for GHC versions <9.2
#endif
findDeclContainingLoc loc = find (\(L l _) -> loc `isInsideSrcSpan` locA l)
-- Single:
-- This binding for ‘mod’ shadows the existing binding
-- imported from ‘Prelude’ at haskell-language-server/ghcide/src/Development/IDE/Plugin/CodeAction.hs:10:8-40
-- (and originally defined in ‘GHC.Real’)typecheck(-Wname-shadowing)
-- Multi:
--This binding for ‘pack’ shadows the existing bindings
-- imported from ‘Data.ByteString’ at B.hs:6:1-22
-- imported from ‘Data.ByteString.Lazy’ at B.hs:8:1-27
-- imported from ‘Data.Text’ at B.hs:7:1-16
suggestHideShadow :: ParsedSource -> T.Text -> Maybe TcModuleResult -> Maybe HieAstResult -> Diagnostic -> [(T.Text, [Either TextEdit Rewrite])]
suggestHideShadow ps@(L _ HsModule {hsmodImports}) fileContents mTcM mHar Diagnostic {_message, _range}
| Just [identifier, modName, s] <-
matchRegexUnifySpaces
_message
"This binding for ‘([^`]+)’ shadows the existing binding imported from ‘([^`]+)’ at ([^ ]*)" =
suggests identifier modName s
| Just [identifier] <-
matchRegexUnifySpaces
_message
"This binding for ‘([^`]+)’ shadows the existing bindings",
Just matched <- allMatchRegexUnifySpaces _message "imported from ‘([^’]+)’ at ([^ ]*)",
mods <- [(modName, s) | [_, modName, s] <- matched],
result <- nubOrdBy (compare `on` fst) $ mods >>= uncurry (suggests identifier),
hideAll <- ("Hide " <> identifier <> " from all occurence imports", concat $ snd <$> result) =
result <> [hideAll]
| otherwise = []
where
suggests identifier modName s
| Just tcM <- mTcM,
Just har <- mHar,
[s'] <- [x | (x, "") <- readSrcSpan $ T.unpack s],
isUnusedImportedId tcM har (T.unpack identifier) (T.unpack modName) (RealSrcSpan s' Nothing),
mDecl <- findImportDeclByModuleName hsmodImports $ T.unpack modName,
title <- "Hide " <> identifier <> " from " <> modName =
if modName == "Prelude" && null mDecl
then maybeToList $ (\(_, te) -> (title, [Left te])) <$> newImportToEdit (hideImplicitPreludeSymbol identifier) ps fileContents
else maybeToList $ (title,) . pure . pure . hideSymbol (T.unpack identifier) <$> mDecl
| otherwise = []
findImportDeclByModuleName :: [LImportDecl GhcPs] -> String -> Maybe (LImportDecl GhcPs)
findImportDeclByModuleName decls modName = flip find decls $ \case
(L _ ImportDecl {..}) -> modName == moduleNameString (unLoc ideclName)
_ -> error "impossible"
isTheSameLine :: SrcSpan -> SrcSpan -> Bool
isTheSameLine s1 s2
| Just sl1 <- getStartLine s1,
Just sl2 <- getStartLine s2 =
sl1 == sl2
| otherwise = False
where
getStartLine x = srcLocLine . realSrcSpanStart <$> realSpan x
isUnusedImportedId :: TcModuleResult -> HieAstResult -> String -> String -> SrcSpan -> Bool
isUnusedImportedId
TcModuleResult {tmrTypechecked = TcGblEnv {tcg_imports = ImportAvails {imp_mods}}}
HAR {refMap}
identifier
modName
importSpan
| occ <- mkVarOcc identifier,
impModsVals <- importedByUser . concat $ moduleEnvElts imp_mods,
Just rdrEnv <-
listToMaybe
[ imv_all_exports
| ImportedModsVal {..} <- impModsVals,
imv_name == mkModuleName modName,
isTheSameLine imv_span importSpan
],
[GRE {gre_name = name}] <- lookupGlobalRdrEnv rdrEnv occ,
importedIdentifier <- Right name,
refs <- M.lookup importedIdentifier refMap =
maybe True (not . any (\(_, IdentifierDetails {..}) -> identInfo == S.singleton Use)) refs
| otherwise = False
suggestRemoveRedundantImport :: ParsedModule -> Maybe T.Text -> Diagnostic -> [(T.Text, [TextEdit])]
suggestRemoveRedundantImport ParsedModule{pm_parsed_source = L _ HsModule{hsmodImports}} contents Diagnostic{_range=_range,..}
-- The qualified import of ‘many’ from module ‘Control.Applicative’ is redundant
| Just [_, bindings] <- matchRegexUnifySpaces _message "The( qualified)? import of ‘([^’]*)’ from module [^ ]* is redundant"
, Just (L _ impDecl) <- find (\(L (locA -> l) _) -> _start _range `isInsideSrcSpan` l && _end _range `isInsideSrcSpan` l ) hsmodImports
, Just c <- contents
, ranges <- map (rangesForBindingImport impDecl . T.unpack) (T.splitOn ", " bindings)
, ranges' <- extendAllToIncludeCommaIfPossible False (indexedByPosition $ T.unpack c) (concat ranges)
, not (null ranges')
= [( "Remove " <> bindings <> " from import" , [ TextEdit r "" | r <- ranges' ] )]
-- File.hs:16:1: warning:
-- The import of `Data.List' is redundant
-- except perhaps to import instances from `Data.List'
-- To import instances alone, use: import Data.List()
| _message =~ ("The( qualified)? import of [^ ]* is redundant" :: String)
= [("Remove import", [TextEdit (extendToWholeLineIfPossible contents _range) ""])]
| otherwise = []
caRemoveRedundantImports :: Maybe ParsedModule -> Maybe T.Text -> [Diagnostic] -> [Diagnostic] -> Uri -> [Command |? CodeAction]
caRemoveRedundantImports m contents digs ctxDigs uri
| Just pm <- m,
r <- join $ map (\d -> repeat d `zip` suggestRemoveRedundantImport pm contents d) digs,
allEdits <- [ e | (_, (_, edits)) <- r, e <- edits],
caRemoveAll <- removeAll allEdits,
ctxEdits <- [ x | x@(d, _) <- r, d `elem` ctxDigs],
not $ null ctxEdits,
caRemoveCtx <- map (\(d, (title, tedit)) -> removeSingle title tedit d) ctxEdits
= caRemoveCtx ++ [caRemoveAll]
| otherwise = []
where
removeSingle title tedit diagnostic = mkCA title (Just CodeActionQuickFix) Nothing [diagnostic] WorkspaceEdit{..} where
_changes = Just $ Map.singleton uri $ List tedit
_documentChanges = Nothing
_changeAnnotations = Nothing
removeAll tedit = InR $ CodeAction{..} where
_changes = Just $ Map.singleton uri $ List tedit
_title = "Remove all redundant imports"
_kind = Just CodeActionQuickFix
_diagnostics = Nothing
_documentChanges = Nothing
_edit = Just WorkspaceEdit{..}
_isPreferred = Nothing
_command = Nothing
_disabled = Nothing
_xdata = Nothing
_changeAnnotations = Nothing
caRemoveInvalidExports :: Maybe ParsedModule -> Maybe T.Text -> [Diagnostic] -> [Diagnostic] -> Uri -> [Command |? CodeAction]
caRemoveInvalidExports m contents digs ctxDigs uri
| Just pm <- m,
Just txt <- contents,
txt' <- indexedByPosition $ T.unpack txt,
r <- mapMaybe (groupDiag pm) digs,
r' <- map (\(t,d,rs) -> (t,d,extend txt' rs)) r,
caRemoveCtx <- mapMaybe removeSingle r',
allRanges <- nubOrd $ [ range | (_,_,ranges) <- r, range <- ranges],
allRanges' <- extend txt' allRanges,
Just caRemoveAll <- removeAll allRanges',
ctxEdits <- [ x | x@(_, d, _) <- r, d `elem` ctxDigs],
not $ null ctxEdits
= caRemoveCtx ++ [caRemoveAll]
| otherwise = []
where
extend txt ranges = extendAllToIncludeCommaIfPossible True txt ranges
groupDiag pm dig
| Just (title, ranges) <- suggestRemoveRedundantExport pm dig
= Just (title, dig, ranges)
| otherwise = Nothing
removeSingle (_, _, []) = Nothing
removeSingle (title, diagnostic, ranges) = Just $ InR $ CodeAction{..} where
tedit = concatMap (\r -> [TextEdit r ""]) $ nubOrd ranges
_changes = Just $ Map.singleton uri $ List tedit
_title = title
_kind = Just CodeActionQuickFix
_diagnostics = Just $ List [diagnostic]
_documentChanges = Nothing
_edit = Just WorkspaceEdit{..}
_command = Nothing
_isPreferred = Nothing
_disabled = Nothing
_xdata = Nothing
_changeAnnotations = Nothing
removeAll [] = Nothing
removeAll ranges = Just $ InR $ CodeAction{..} where
tedit = concatMap (\r -> [TextEdit r ""]) ranges
_changes = Just $ Map.singleton uri $ List tedit
_title = "Remove all redundant exports"
_kind = Just CodeActionQuickFix
_diagnostics = Nothing
_documentChanges = Nothing
_edit = Just WorkspaceEdit{..}
_command = Nothing
_isPreferred = Nothing
_disabled = Nothing
_xdata = Nothing
_changeAnnotations = Nothing
suggestRemoveRedundantExport :: ParsedModule -> Diagnostic -> Maybe (T.Text, [Range])
suggestRemoveRedundantExport ParsedModule{pm_parsed_source = L _ HsModule{..}} Diagnostic{..}
| msg <- unifySpaces _message
, Just export <- hsmodExports
, Just exportRange <- getLocatedRange $ reLoc export
, exports <- unLoc export
, Just (removeFromExport, !ranges) <- fmap (getRanges exports . notInScope) (extractNotInScopeName msg)
<|> (,[_range]) <$> matchExportItem msg
<|> (,[_range]) <$> matchDupExport msg
, subRange _range exportRange
= Just ("Remove ‘" <> removeFromExport <> "’ from export", ranges)
where
matchExportItem msg = regexSingleMatch msg "The export item ‘([^’]+)’"
matchDupExport msg = regexSingleMatch msg "Duplicate ‘([^’]+)’ in export list"
getRanges exports txt = case smallerRangesForBindingExport exports (T.unpack txt) of
[] -> (txt, [_range])
ranges -> (txt, ranges)
suggestRemoveRedundantExport _ _ = Nothing
suggestDeleteUnusedBinding :: ParsedModule -> Maybe T.Text -> Diagnostic -> [(T.Text, [TextEdit])]
suggestDeleteUnusedBinding
ParsedModule{pm_parsed_source = L _ HsModule{hsmodDecls}}
contents
Diagnostic{_range=_range,..}
-- Foo.hs:4:1: warning: [-Wunused-binds] Defined but not used: ‘f’
| Just [name] <- matchRegexUnifySpaces _message ".*Defined but not used: ‘([^ ]+)’"
, Just indexedContent <- indexedByPosition . T.unpack <$> contents
= let edits = flip TextEdit "" <$> relatedRanges indexedContent (T.unpack name)
in ([("Delete ‘" <> name <> "’", edits) | not (null edits)])
| otherwise = []
where
relatedRanges indexedContent name =
concatMap (findRelatedSpans indexedContent name . reLoc) hsmodDecls
toRange = realSrcSpanToRange
extendForSpaces = extendToIncludePreviousNewlineIfPossible
findRelatedSpans :: PositionIndexedString -> String -> Located (HsDecl GhcPs) -> [Range]
findRelatedSpans
indexedContent
name
(L (RealSrcSpan l _) (ValD _ (extractNameAndMatchesFromFunBind -> Just (lname, matches)))) =
case lname of
(L nLoc _name) | isTheBinding nLoc ->
let findSig (L (RealSrcSpan l _) (SigD _ sig)) = findRelatedSigSpan indexedContent name l sig
findSig _ = []
in
extendForSpaces indexedContent (toRange l) :
concatMap (findSig . reLoc) hsmodDecls
_ -> concatMap (findRelatedSpanForMatch indexedContent name) matches
findRelatedSpans _ _ _ = []
extractNameAndMatchesFromFunBind
:: HsBind GhcPs
-> Maybe (Located (IdP GhcPs), [LMatch GhcPs (LHsExpr GhcPs)])
extractNameAndMatchesFromFunBind
FunBind
{ fun_id=lname
, fun_matches=MG {mg_alts=L _ matches}
} = Just (reLoc lname, matches)
extractNameAndMatchesFromFunBind _ = Nothing
findRelatedSigSpan :: PositionIndexedString -> String -> RealSrcSpan -> Sig GhcPs -> [Range]
findRelatedSigSpan indexedContent name l sig =
let maybeSpan = findRelatedSigSpan1 name sig
in case maybeSpan of
Just (_span, True) -> pure $ extendForSpaces indexedContent $ toRange l -- a :: Int
Just (RealSrcSpan span _, False) -> pure $ toRange span -- a, b :: Int, a is unused
_ -> []
-- Second of the tuple means there is only one match
findRelatedSigSpan1 :: String -> Sig GhcPs -> Maybe (SrcSpan, Bool)
findRelatedSigSpan1 name (TypeSig _ lnames _) =
let maybeIdx = findIndex (\(L _ id) -> isSameName id name) lnames
in case maybeIdx of
Nothing -> Nothing
Just _ | length lnames == 1 -> Just (getLoc $ reLoc $ head lnames, True)
Just idx ->
let targetLname = getLoc $ reLoc $ lnames !! idx
startLoc = srcSpanStart targetLname
endLoc = srcSpanEnd targetLname
startLoc' = if idx == 0
then startLoc
else srcSpanEnd . getLoc . reLoc $ lnames !! (idx - 1)
endLoc' = if idx == 0 && idx < length lnames - 1
then srcSpanStart . getLoc . reLoc $ lnames !! (idx + 1)
else endLoc
in Just (mkSrcSpan startLoc' endLoc', False)
findRelatedSigSpan1 _ _ = Nothing
-- for where clause
findRelatedSpanForMatch
:: PositionIndexedString
-> String
-> LMatch GhcPs (LHsExpr GhcPs)
-> [Range]
findRelatedSpanForMatch
indexedContent
name
(L _ Match{m_grhss=GRHSs{grhssLocalBinds}}) = do
let go bag lsigs =
if isEmptyBag bag
then []
else concatMap (findRelatedSpanForHsBind indexedContent name lsigs) bag
#if !MIN_VERSION_ghc(9,2,0)
case grhssLocalBinds of
(L _ (HsValBinds _ (ValBinds _ bag lsigs))) -> go bag lsigs
_ -> []
#else
case grhssLocalBinds of
(HsValBinds _ (ValBinds _ bag lsigs)) -> go bag lsigs
_ -> []
#endif
findRelatedSpanForMatch _ _ _ = []
findRelatedSpanForHsBind
:: PositionIndexedString
-> String
-> [LSig GhcPs]
-> LHsBind GhcPs
-> [Range]
findRelatedSpanForHsBind
indexedContent
name
lsigs
(L (locA -> (RealSrcSpan l _)) (extractNameAndMatchesFromFunBind -> Just (lname, matches))) =
if isTheBinding (getLoc lname)
then
let findSig (L (RealSrcSpan l _) sig) = findRelatedSigSpan indexedContent name l sig
findSig _ = []
in extendForSpaces indexedContent (toRange l) : concatMap (findSig . reLoc) lsigs
else concatMap (findRelatedSpanForMatch indexedContent name) matches
findRelatedSpanForHsBind _ _ _ _ = []
isTheBinding :: SrcSpan -> Bool
isTheBinding span = srcSpanToRange span == Just _range
isSameName :: IdP GhcPs -> String -> Bool
isSameName x name = showSDocUnsafe (ppr x) == name
data ExportsAs = ExportName | ExportPattern | ExportFamily | ExportAll
deriving (Eq)
getLocatedRange :: Located a -> Maybe Range
getLocatedRange = srcSpanToRange . getLoc
suggestExportUnusedTopBinding :: Maybe T.Text -> ParsedModule -> Diagnostic -> [(T.Text, TextEdit)]
suggestExportUnusedTopBinding srcOpt ParsedModule{pm_parsed_source = L _ HsModule{..}} Diagnostic{..}
-- Foo.hs:4:1: warning: [-Wunused-top-binds] Defined but not used: ‘f’
-- Foo.hs:5:1: warning: [-Wunused-top-binds] Defined but not used: type constructor or class ‘F’
-- Foo.hs:6:1: warning: [-Wunused-top-binds] Defined but not used: data constructor ‘Bar’
| Just source <- srcOpt
, Just [name] <- matchRegexUnifySpaces _message ".*Defined but not used: ‘([^ ]+)’"
<|> matchRegexUnifySpaces _message ".*Defined but not used: type constructor or class ‘([^ ]+)’"
<|> matchRegexUnifySpaces _message ".*Defined but not used: data constructor ‘([^ ]+)’"
, Just (exportType, _) <- find (matchWithDiagnostic _range . snd)
. mapMaybe
(\(L (locA -> l) b) -> if maybe False isTopLevel $ srcSpanToRange l
then exportsAs b else Nothing)
$ hsmodDecls
, Just pos <- (fmap _end . getLocatedRange) . reLoc =<< hsmodExports
, Just needComma <- needsComma source <$> fmap reLoc hsmodExports
, let exportName = (if needComma then ", " else "") <> printExport exportType name
insertPos = pos {_character = pred $ _character pos}
= [("Export ‘" <> name <> "’", TextEdit (Range insertPos insertPos) exportName)]
| otherwise = []
where
-- we get the last export and the closing bracket and check for comma in that range
needsComma :: T.Text -> Located [LIE GhcPs] -> Bool
needsComma _ (L _ []) = False
needsComma source (L (RealSrcSpan l _) exports) =
let closeParan = _end $ realSrcSpanToRange l
lastExport = fmap _end . getLocatedRange $ last $ fmap reLoc exports
in case lastExport of
Just lastExport -> not $ T.isInfixOf "," $ textInRange (Range lastExport closeParan) source
_ -> False
needsComma _ _ = False
opLetter :: String
opLetter = ":!#$%&*+./<=>?@\\^|-~"
parenthesizeIfNeeds :: Bool -> T.Text -> T.Text
parenthesizeIfNeeds needsTypeKeyword x
| T.head x `elem` opLetter = (if needsTypeKeyword then "type " else "") <> "(" <> x <>")"
| otherwise = x
matchWithDiagnostic :: Range -> Located (IdP GhcPs) -> Bool
matchWithDiagnostic Range{_start=l,_end=r} x =
let loc = fmap _start . getLocatedRange $ x
in loc >= Just l && loc <= Just r
printExport :: ExportsAs -> T.Text -> T.Text
printExport ExportName x = parenthesizeIfNeeds False x
printExport ExportPattern x = "pattern " <> x
printExport ExportFamily x = parenthesizeIfNeeds True x
printExport ExportAll x = parenthesizeIfNeeds True x <> "(..)"
isTopLevel :: Range -> Bool
isTopLevel l = (_character . _start) l == 0
exportsAs :: HsDecl GhcPs -> Maybe (ExportsAs, Located (IdP GhcPs))
exportsAs (ValD _ FunBind {fun_id}) = Just (ExportName, reLoc fun_id)
exportsAs (ValD _ (PatSynBind _ PSB {psb_id})) = Just (ExportPattern, reLoc psb_id)
exportsAs (TyClD _ SynDecl{tcdLName}) = Just (ExportName, reLoc tcdLName)
exportsAs (TyClD _ DataDecl{tcdLName}) = Just (ExportAll, reLoc tcdLName)
exportsAs (TyClD _ ClassDecl{tcdLName}) = Just (ExportAll, reLoc tcdLName)
exportsAs (TyClD _ FamDecl{tcdFam}) = Just (ExportFamily, reLoc $ fdLName tcdFam)
exportsAs _ = Nothing
suggestAddTypeAnnotationToSatisfyContraints :: Maybe T.Text -> Diagnostic -> [(T.Text, [TextEdit])]
suggestAddTypeAnnotationToSatisfyContraints sourceOpt Diagnostic{_range=_range,..}
-- File.hs:52:41: warning:
-- * Defaulting the following constraint to type ‘Integer’
-- Num p0 arising from the literal ‘1’
-- * In the expression: 1
-- In an equation for ‘f’: f = 1
-- File.hs:52:41: warning:
-- * Defaulting the following constraints to type ‘[Char]’
-- (Show a0)
-- arising from a use of ‘traceShow’
-- at A.hs:228:7-25
-- (IsString a0)
-- arising from the literal ‘"debug"’
-- at A.hs:228:17-23
-- * In the expression: traceShow "debug" a
-- In an equation for ‘f’: f a = traceShow "debug" a
-- File.hs:52:41: warning:
-- * Defaulting the following constraints to type ‘[Char]’
-- (Show a0)
-- arising from a use of ‘traceShow’
-- at A.hs:255:28-43
-- (IsString a0)
-- arising from the literal ‘"test"’
-- at /Users/serhiip/workspace/ghcide/src/Development/IDE/Plugin/CodeAction.hs:255:38-43
-- * In the fourth argument of ‘seq’, namely ‘(traceShow "test")’
-- In the expression: seq "test" seq "test" (traceShow "test")
-- In an equation for ‘f’:
-- f = seq "test" seq "test" (traceShow "test")
| Just [ty, lit] <- matchRegexUnifySpaces _message (pat False False True False)
<|> matchRegexUnifySpaces _message (pat False False False True)
<|> matchRegexUnifySpaces _message (pat False False False False)
= codeEdit ty lit (makeAnnotatedLit ty lit)
| Just source <- sourceOpt
, Just [ty, lit] <- matchRegexUnifySpaces _message (pat True True False False)
= let lit' = makeAnnotatedLit ty lit;
tir = textInRange _range source
in codeEdit ty lit (T.replace lit lit' tir)
| otherwise = []
where
makeAnnotatedLit ty lit = "(" <> lit <> " :: " <> ty <> ")"
pat multiple at inArg inExpr = T.concat [ ".*Defaulting the following constraint"
, if multiple then "s" else ""
, " to type ‘([^ ]+)’ "
, ".*arising from the literal ‘(.+)’"
, if inArg then ".+In the.+argument" else ""
, if at then ".+at" else ""
, if inExpr then ".+In the expression" else ""
, ".+In the expression"
]
codeEdit ty lit replacement =
let title = "Add type annotation ‘" <> ty <> "’ to ‘" <> lit <> "’"
edits = [TextEdit _range replacement]
in [( title, edits )]
suggestReplaceIdentifier :: Maybe T.Text -> Diagnostic -> [(T.Text, [TextEdit])]
suggestReplaceIdentifier contents Diagnostic{_range=_range,..}
-- File.hs:52:41: error:
-- * Variable not in scope:
-- suggestAcion :: Maybe T.Text -> Range -> Range
-- * Perhaps you meant ‘suggestAction’ (line 83)
-- File.hs:94:37: error:
-- Not in scope: ‘T.isPrfixOf’
-- Perhaps you meant one of these:
-- ‘T.isPrefixOf’ (imported from Data.Text),
-- ‘T.isInfixOf’ (imported from Data.Text),
-- ‘T.isSuffixOf’ (imported from Data.Text)
-- Module ‘Data.Text’ does not export ‘isPrfixOf’.
| renameSuggestions@(_:_) <- extractRenamableTerms _message
= [ ("Replace with ‘" <> name <> "’", [mkRenameEdit contents _range name]) | name <- renameSuggestions ]
| otherwise = []
suggestNewDefinition :: IdeOptions -> ParsedModule -> Maybe T.Text -> Diagnostic -> [(T.Text, [TextEdit])]
suggestNewDefinition ideOptions parsedModule contents Diagnostic{_message, _range}
-- * Variable not in scope:
-- suggestAcion :: Maybe T.Text -> Range -> Range
| Just [name, typ] <- matchRegexUnifySpaces message "Variable not in scope: ([^ ]+) :: ([^*•]+)"
= newDefinitionAction ideOptions parsedModule _range name typ
| Just [name, typ] <- matchRegexUnifySpaces message "Found hole: _([^ ]+) :: ([^*•]+) Or perhaps"
, [(label, newDefinitionEdits)] <- newDefinitionAction ideOptions parsedModule _range name typ
= [(label, mkRenameEdit contents _range name : newDefinitionEdits)]
| otherwise = []
where
message = unifySpaces _message
newDefinitionAction :: IdeOptions -> ParsedModule -> Range -> T.Text -> T.Text -> [(T.Text, [TextEdit])]
newDefinitionAction IdeOptions{..} parsedModule Range{_start} name typ
| Range _ lastLineP : _ <-
[ realSrcSpanToRange sp
| (L (locA -> l@(RealSrcSpan sp _)) _) <- hsmodDecls
, _start `isInsideSrcSpan` l]
, nextLineP <- Position{ _line = _line lastLineP + 1, _character = 0}
= [ ("Define " <> sig
, [TextEdit (Range nextLineP nextLineP) (T.unlines ["", sig, name <> " = error \"not implemented\""])]
)]
| otherwise = []
where
colon = if optNewColonConvention then " : " else " :: "
sig = name <> colon <> T.dropWhileEnd isSpace typ
ParsedModule{pm_parsed_source = L _ HsModule{hsmodDecls}} = parsedModule
suggestFillTypeWildcard :: Diagnostic -> [(T.Text, TextEdit)]
suggestFillTypeWildcard Diagnostic{_range=_range,..}
-- Foo.hs:3:8: error:
-- * Found type wildcard `_' standing for `p -> p1 -> p'
| "Found type wildcard" `T.isInfixOf` _message
, " standing for " `T.isInfixOf` _message
, typeSignature <- extractWildCardTypeSignature _message
= [("Use type signature: ‘" <> typeSignature <> "’", TextEdit _range typeSignature)]
| otherwise = []
{- Handles two variants with different formatting
1. Could not find module ‘Data.Cha’
Perhaps you meant Data.Char (from base-4.12.0.0)
2. Could not find module ‘Data.I’
Perhaps you meant
Data.Ix (from base-4.14.3.0)
Data.Eq (from base-4.14.3.0)
Data.Int (from base-4.14.3.0)
-}
suggestModuleTypo :: Diagnostic -> [(T.Text, TextEdit)]
suggestModuleTypo Diagnostic{_range=_range,..}
| "Could not find module" `T.isInfixOf` _message =
case T.splitOn "Perhaps you meant" _message of
[_, stuff] ->
[ ("replace with " <> modul, TextEdit _range modul)
| modul <- mapMaybe extractModule (T.lines stuff)
]
_ -> []
| otherwise = []
where
extractModule line = case T.words line of
[modul, "(from", _] -> Just modul
_ -> Nothing
suggestFillHole :: Diagnostic -> [(T.Text, TextEdit)]
suggestFillHole Diagnostic{_range=_range,..}
| Just holeName <- extractHoleName _message
, (holeFits, refFits) <- processHoleSuggestions (T.lines _message) =
let isInfixHole = _message =~ addBackticks holeName :: Bool in
map (proposeHoleFit holeName False isInfixHole) holeFits
++ map (proposeHoleFit holeName True isInfixHole) refFits
| otherwise = []
where
extractHoleName = fmap head . flip matchRegexUnifySpaces "Found hole: ([^ ]*)"
addBackticks text = "`" <> text <> "`"
addParens text = "(" <> text <> ")"
proposeHoleFit holeName parenthise isInfixHole name =
let isInfixOperator = T.head name == '('
name' = getOperatorNotation isInfixHole isInfixOperator name in
( "replace " <> holeName <> " with " <> name
, TextEdit _range (if parenthise then addParens name' else name')
)
getOperatorNotation True False name = addBackticks name
getOperatorNotation True True name = T.drop 1 (T.dropEnd 1 name)
getOperatorNotation _isInfixHole _isInfixOperator name = name
processHoleSuggestions :: [T.Text] -> ([T.Text], [T.Text])
processHoleSuggestions mm = (holeSuggestions, refSuggestions)
{-
• Found hole: _ :: LSP.Handlers
Valid hole fits include def
Valid refinement hole fits include
fromMaybe (_ :: LSP.Handlers) (_ :: Maybe LSP.Handlers)
fromJust (_ :: Maybe LSP.Handlers)
haskell-lsp-types-0.22.0.0:Language.LSP.Types.Window.$sel:_value:ProgressParams (_ :: ProgressParams
LSP.Handlers)
T.foldl (_ :: LSP.Handlers -> Char -> LSP.Handlers)
(_ :: LSP.Handlers)
(_ :: T.Text)
T.foldl' (_ :: LSP.Handlers -> Char -> LSP.Handlers)
(_ :: LSP.Handlers)
(_ :: T.Text)
-}
where
t = id @T.Text
holeSuggestions = do
-- get the text indented under Valid hole fits
validHolesSection <-
getIndentedGroupsBy (=~ t " *Valid (hole fits|substitutions) include") mm
-- the Valid hole fits line can contain a hole fit
holeFitLine <-
mapHead
(mrAfter . (=~ t " *Valid (hole fits|substitutions) include"))
validHolesSection
let holeFit = T.strip $ T.takeWhile (/= ':') holeFitLine
guard (not $ T.null holeFit)
return holeFit
refSuggestions = do -- @[]
-- get the text indented under Valid refinement hole fits
refinementSection <-
getIndentedGroupsBy (=~ t " *Valid refinement hole fits include") mm
-- get the text for each hole fit
holeFitLines <- getIndentedGroups (tail refinementSection)
let holeFit = T.strip $ T.unwords holeFitLines
guard $ not $ holeFit =~ t "Some refinement hole fits suppressed"
return holeFit
mapHead f (a:aa) = f a : aa
mapHead _ [] = []
-- > getIndentedGroups [" H1", " l1", " l2", " H2", " l3"] = [[" H1,", " l1", " l2"], [" H2", " l3"]]
getIndentedGroups :: [T.Text] -> [[T.Text]]
getIndentedGroups [] = []
getIndentedGroups ll@(l:_) = getIndentedGroupsBy ((== indentation l) . indentation) ll
-- |
-- > getIndentedGroupsBy (" H" `isPrefixOf`) [" H1", " l1", " l2", " H2", " l3"] = [[" H1", " l1", " l2"], [" H2", " l3"]]
getIndentedGroupsBy :: (T.Text -> Bool) -> [T.Text] -> [[T.Text]]
getIndentedGroupsBy pred inp = case dropWhile (not.pred) inp of
(l:ll) -> case span (\l' -> indentation l < indentation l') ll of
(indented, rest) -> (l:indented) : getIndentedGroupsBy pred rest
_ -> []
indentation :: T.Text -> Int
indentation = T.length . T.takeWhile isSpace
suggestExtendImport :: ExportsMap -> ParsedSource -> Diagnostic -> [(T.Text, CodeActionKind, Rewrite)]
suggestExtendImport exportsMap (L _ HsModule {hsmodImports}) Diagnostic{_range=_range,..}
| Just [binding, mod, srcspan] <-
matchRegexUnifySpaces _message
"Perhaps you want to add ‘([^’]*)’ to the import list in the import of ‘([^’]*)’ *\\((.*)\\).$"
= suggestions hsmodImports binding mod srcspan
| Just (binding, mod_srcspan) <-
matchRegExMultipleImports _message
= mod_srcspan >>= uncurry (suggestions hsmodImports binding)
| otherwise = []
where
canUseDatacon = case extractNotInScopeName _message of
Just NotInScopeTypeConstructorOrClass{} -> False
_ -> True
suggestions decls binding mod srcspan
| range <- case [ x | (x,"") <- readSrcSpan (T.unpack srcspan)] of
[s] -> let x = realSrcSpanToRange s
in x{_end = (_end x){_character = succ (_character (_end x))}}
_ -> error "bug in srcspan parser",
Just decl <- findImportDeclByRange decls range,
Just ident <- lookupExportMap binding mod
= [ ( "Add " <> renderImportStyle importStyle <> " to the import list of " <> mod
, quickFixImportKind' "extend" importStyle
, uncurry extendImport (unImportStyle importStyle) decl
)
| importStyle <- NE.toList $ importStyles ident
]
| otherwise = []
lookupExportMap binding mod
| Just match <- Map.lookup binding (getExportsMap exportsMap)
-- Only for the situation that data constructor name is same as type constructor name,
-- let ident with parent be in front of the one without.
, sortedMatch <- sortBy (\ident1 ident2 -> parent ident2 `compare` parent ident1) (Set.toList match)
, idents <- filter (\ident -> moduleNameText ident == mod && (canUseDatacon || not (isDatacon ident))) sortedMatch
, (not . null) idents -- Ensure fallback while `idents` is empty
, ident <- head idents
= Just ident
-- fallback to using GHC suggestion even though it is not always correct
| otherwise
= Just IdentInfo
{ name = mkVarOcc $ T.unpack binding
, rendered = binding
, parent = Nothing
, isDatacon = False
, moduleNameText = mod}
data HidingMode
= HideOthers [ModuleTarget]
| ToQualified
Bool
-- ^ Parenthesised?
ModuleName
data ModuleTarget
= ExistingImp (NonEmpty (LImportDecl GhcPs))
| ImplicitPrelude [LImportDecl GhcPs]
targetImports :: ModuleTarget -> [LImportDecl GhcPs]
targetImports (ExistingImp ne) = NE.toList ne
targetImports (ImplicitPrelude xs) = xs
oneAndOthers :: [a] -> [(a, [a])]
oneAndOthers = go
where
go [] = []
go (x : xs) = (x, xs) : map (second (x :)) (go xs)
isPreludeImplicit :: DynFlags -> Bool
isPreludeImplicit = xopt Lang.ImplicitPrelude
-- | Suggests disambiguation for ambiguous symbols.
suggestImportDisambiguation ::
DynFlags ->
Maybe T.Text ->
ParsedSource ->
T.Text ->
Diagnostic ->
[(T.Text, [Either TextEdit Rewrite])]
suggestImportDisambiguation df (Just txt) ps@(L _ HsModule {hsmodImports}) fileContents diag@Diagnostic {..}
| Just [ambiguous] <-
matchRegexUnifySpaces
_message
"Ambiguous occurrence ‘([^’]+)’"
, Just modules <-
map last
<$> allMatchRegexUnifySpaces _message "imported from ‘([^’]+)’"
, local <- matchRegexUnifySpaces _message "defined at .+:[0-9]+:[0-9]+" =
suggestions ambiguous modules (isJust local)
| otherwise = []
where
locDic =
fmap (NE.fromList . DL.toList) $
Map.fromListWith (<>) $
map
( \i@(L _ idecl) ->
( T.pack $ moduleNameString $ unLoc $ ideclName idecl
, DL.singleton i
)
)
hsmodImports
toModuleTarget "Prelude"
| isPreludeImplicit df
= Just $ ImplicitPrelude $
maybe [] NE.toList (Map.lookup "Prelude" locDic)
toModuleTarget mName = ExistingImp <$> Map.lookup mName locDic
parensed =
"(" `T.isPrefixOf` T.strip (textInRange _range txt)
-- > removeAllDuplicates [1, 1, 2, 3, 2] = [3]
removeAllDuplicates = map head . filter ((==1) <$> length) . group . sort
hasDuplicate xs = length xs /= length (S.fromList xs)
suggestions symbol mods local
| hasDuplicate mods = case mapM toModuleTarget (removeAllDuplicates mods) of
Just targets -> suggestionsImpl symbol (map (, []) targets) local
Nothing -> []
| otherwise = case mapM toModuleTarget mods of
Just targets -> suggestionsImpl symbol (oneAndOthers targets) local
Nothing -> []
suggestionsImpl symbol targetsWithRestImports local =
sortOn fst
[ ( renderUniquify mode modNameText symbol False
, disambiguateSymbol ps fileContents diag symbol mode
)
| (modTarget, restImports) <- targetsWithRestImports
, let modName = targetModuleName modTarget
modNameText = T.pack $ moduleNameString modName
, mode <-
[ ToQualified parensed qual
| ExistingImp imps <- [modTarget]
#if MIN_VERSION_ghc(9,0,0)
{- HLINT ignore suggestImportDisambiguation "Use nubOrd" -}
-- TODO: The use of nub here is slow and maybe wrong for UnhelpfulLocation
-- nubOrd can't be used since SrcSpan is intentionally no Ord
, L _ qual <- nub $ mapMaybe (ideclAs . unLoc)
#else
, L _ qual <- nubOrd $ mapMaybe (ideclAs . unLoc)
#endif
$ NE.toList imps
]
++ [ToQualified parensed modName
| any (occursUnqualified symbol . unLoc)
(targetImports modTarget)
|| case modTarget of
ImplicitPrelude{} -> True
_ -> False
]
++ [HideOthers restImports | not (null restImports)]
] ++ [ ( renderUniquify mode T.empty symbol True
, disambiguateSymbol ps fileContents diag symbol mode
) | local, not (null targetsWithRestImports)
, let mode = HideOthers (uncurry (:) (head targetsWithRestImports))
]
renderUniquify HideOthers {} modName symbol local =
"Use " <> (if local then "local definition" else modName) <> " for " <> symbol <> ", hiding other imports"
renderUniquify (ToQualified _ qual) _ symbol _ =
"Replace with qualified: "
<> T.pack (moduleNameString qual)
<> "."
<> symbol
suggestImportDisambiguation _ _ _ _ _ = []
occursUnqualified :: T.Text -> ImportDecl GhcPs -> Bool
occursUnqualified symbol ImportDecl{..}
| isNothing ideclAs = Just False /=
-- I don't find this particularly comprehensible,
-- but HLint suggested me to do so...
(ideclHiding <&> \(isHiding, L _ ents) ->
let occurs = any ((symbol `symbolOccursIn`) . unLoc) ents
in isHiding && not occurs || not isHiding && occurs
)
occursUnqualified _ _ = False
symbolOccursIn :: T.Text -> IE GhcPs -> Bool
symbolOccursIn symb = any ((== symb). showNameWithoutUniques) . ieNames
targetModuleName :: ModuleTarget -> ModuleName
targetModuleName ImplicitPrelude{} = mkModuleName "Prelude"
targetModuleName (ExistingImp (L _ ImportDecl{..} :| _)) =
unLoc ideclName
targetModuleName (ExistingImp _) =
error "Cannot happen!"
disambiguateSymbol ::
ParsedSource ->
T.Text ->
Diagnostic ->
T.Text ->
HidingMode ->
[Either TextEdit Rewrite]
disambiguateSymbol pm fileContents Diagnostic {..} (T.unpack -> symbol) = \case
(HideOthers hiddens0) ->
[ Right $ hideSymbol symbol idecl
| ExistingImp idecls <- hiddens0
, idecl <- NE.toList idecls
]
++ mconcat
[ if null imps
then maybeToList $ Left . snd <$> newImportToEdit (hideImplicitPreludeSymbol $ T.pack symbol) pm fileContents
else Right . hideSymbol symbol <$> imps
| ImplicitPrelude imps <- hiddens0
]
(ToQualified parensed qualMod) ->
let occSym = mkVarOcc symbol
rdr = Qual qualMod occSym
in Right <$> [ if parensed
then Rewrite (rangeToSrcSpan "<dummy>" _range) $ \df ->
liftParseAST @(HsExpr GhcPs) df $
prettyPrint $
HsVar @GhcPs noExtField $
reLocA $ L (mkGeneralSrcSpan "") rdr
else Rewrite (rangeToSrcSpan "<dummy>" _range) $ \df ->
liftParseAST @RdrName df $
prettyPrint $ L (mkGeneralSrcSpan "") rdr
]
findImportDeclByRange :: [LImportDecl GhcPs] -> Range -> Maybe (LImportDecl GhcPs)
findImportDeclByRange xs range = find (\(L (locA -> l) _)-> srcSpanToRange l == Just range) xs
suggestFixConstructorImport :: Diagnostic -> [(T.Text, TextEdit)]
suggestFixConstructorImport Diagnostic{_range=_range,..}
-- ‘Success’ is a data constructor of ‘Result’
-- To import it use
-- import Data.Aeson.Types( Result( Success ) )
-- or
-- import Data.Aeson.Types( Result(..) ) (lsp-ui)
| Just [constructor, typ] <-
matchRegexUnifySpaces _message
"‘([^’]*)’ is a data constructor of ‘([^’]*)’ To import it use"
= let fixedImport = typ <> "(" <> constructor <> ")"
in [("Fix import of " <> fixedImport, TextEdit _range fixedImport)]
| otherwise = []
-- | Suggests a constraint for a declaration for which a constraint is missing.
suggestConstraint :: DynFlags -> ParsedSource -> Diagnostic -> [(T.Text, Rewrite)]
suggestConstraint df (makeDeltaAst -> parsedModule) diag@Diagnostic {..}
| Just missingConstraint <- findMissingConstraint _message
= let codeAction = if _message =~ ("the type signature for:" :: String)
then suggestFunctionConstraint df parsedModule
else suggestInstanceConstraint df parsedModule
in codeAction diag missingConstraint
| otherwise = []
where
findMissingConstraint :: T.Text -> Maybe T.Text
findMissingConstraint t =
let regex = "(No instance for|Could not deduce) \\((.+)\\) arising from" -- a use of / a do statement
regexImplicitParams = "Could not deduce: (\\?.+) arising from a use of"
match = matchRegexUnifySpaces t regex
matchImplicitParams = matchRegexUnifySpaces t regexImplicitParams
in match <|> matchImplicitParams <&> last
-- | Suggests a constraint for an instance declaration for which a constraint is missing.
suggestInstanceConstraint :: DynFlags -> ParsedSource -> Diagnostic -> T.Text -> [(T.Text, Rewrite)]
suggestInstanceConstraint df (L _ HsModule {hsmodDecls}) Diagnostic {..} missingConstraint
| Just instHead <- instanceHead
= [(actionTitle missingConstraint , appendConstraint (T.unpack missingConstraint) instHead)]
| otherwise = []
where
instanceHead
-- Suggests a constraint for an instance declaration with no existing constraints.
-- • No instance for (Eq a) arising from a use of ‘==’
-- Possible fix: add (Eq a) to the context of the instance declaration
-- • In the expression: x == y
-- In an equation for ‘==’: (Wrap x) == (Wrap y) = x == y
-- In the instance declaration for ‘Eq (Wrap a)’
| Just [instanceDeclaration] <- matchRegexUnifySpaces _message "In the instance declaration for ‘([^`]*)’"
, Just instHead <- findInstanceHead df (T.unpack instanceDeclaration) hsmodDecls
= Just instHead
-- Suggests a constraint for an instance declaration with one or more existing constraints.
-- • Could not deduce (Eq b) arising from a use of ‘==’
-- from the context: Eq a
-- bound by the instance declaration at /path/to/Main.hs:7:10-32
-- Possible fix: add (Eq b) to the context of the instance declaration
-- • In the second argument of ‘(&&)’, namely ‘x' == y'’
-- In the expression: x == y && x' == y'
-- In an equation for ‘==’:
-- (Pair x x') == (Pair y y') = x == y && x' == y'
| Just [instanceLineStr, constraintFirstCharStr]
<- matchRegexUnifySpaces _message "bound by the instance declaration at .+:([0-9]+):([0-9]+)"
#if !MIN_VERSION_ghc(9,2,0)
, Just (L _ (InstD _ (ClsInstD _ ClsInstDecl {cid_poly_ty = HsIB{hsib_body}})))
#else
, Just (L _ (InstD _ (ClsInstD _ ClsInstDecl {cid_poly_ty = (unLoc -> HsSig{sig_body = hsib_body})})))
#endif
<- findDeclContainingLoc (Position (readPositionNumber instanceLineStr) (readPositionNumber constraintFirstCharStr)) hsmodDecls
= Just hsib_body
| otherwise
= Nothing
readPositionNumber :: T.Text -> UInt
readPositionNumber = T.unpack >>> read @Integer >>> fromIntegral
actionTitle :: T.Text -> T.Text
actionTitle constraint = "Add `" <> constraint
<> "` to the context of the instance declaration"
suggestImplicitParameter ::
ParsedSource ->
Diagnostic ->
[(T.Text, Rewrite)]
suggestImplicitParameter (L _ HsModule {hsmodDecls}) Diagnostic {_message, _range}
| Just [implicitT] <- matchRegexUnifySpaces _message "Unbound implicit parameter \\(([^:]+::.+)\\) arising",
Just (L _ (ValD _ FunBind {fun_id = L _ funId})) <- findDeclContainingLoc (_start _range) hsmodDecls,
#if !MIN_VERSION_ghc(9,2,0)
Just (TypeSig _ _ HsWC {hswc_body = HsIB {hsib_body}})
#else
Just (TypeSig _ _ HsWC {hswc_body = (unLoc -> HsSig {sig_body = hsib_body})})
#endif
<- findSigOfDecl (== funId) hsmodDecls
=
[( "Add " <> implicitT <> " to the context of " <> T.pack (printRdrName funId)
, appendConstraint (T.unpack implicitT) hsib_body)]
| otherwise = []
findTypeSignatureName :: T.Text -> Maybe T.Text
findTypeSignatureName t = matchRegexUnifySpaces t "([^ ]+) :: " <&> head
-- | Suggests a constraint for a type signature with any number of existing constraints.
suggestFunctionConstraint :: DynFlags -> ParsedSource -> Diagnostic -> T.Text -> [(T.Text, Rewrite)]
suggestFunctionConstraint df (L _ HsModule {hsmodDecls}) Diagnostic {..} missingConstraint
-- • No instance for (Eq a) arising from a use of ‘==’
-- Possible fix:
-- add (Eq a) to the context of
-- the type signature for:
-- eq :: forall a. a -> a -> Bool
-- • In the expression: x == y
-- In an equation for ‘eq’: eq x y = x == y
-- • Could not deduce (Eq b) arising from a use of ‘==’
-- from the context: Eq a
-- bound by the type signature for:
-- eq :: forall a b. Eq a => Pair a b -> Pair a b -> Bool
-- at Main.hs:5:1-42
-- Possible fix:
-- add (Eq b) to the context of
-- the type signature for:
-- eq :: forall a b. Eq a => Pair a b -> Pair a b -> Bool
-- • In the second argument of ‘(&&)’, namely ‘y == y'’
-- In the expression: x == x' && y == y'
-- In an equation for ‘eq’:
-- eq (Pair x y) (Pair x' y') = x == x' && y == y'
| Just typeSignatureName <- findTypeSignatureName _message
#if !MIN_VERSION_ghc(9,2,0)
, Just (TypeSig _ _ HsWC{hswc_body = HsIB {hsib_body = sig}})
#else
, Just (TypeSig _ _ HsWC{hswc_body = (unLoc -> HsSig {sig_body = sig})})
#endif
<- findSigOfDecl ((T.unpack typeSignatureName ==) . showSDoc df . ppr) hsmodDecls
, title <- actionTitle missingConstraint typeSignatureName
= [(title, appendConstraint (T.unpack missingConstraint) sig)]
| otherwise
= []
where
actionTitle :: T.Text -> T.Text -> T.Text
actionTitle constraint typeSignatureName = "Add `" <> constraint
<> "` to the context of the type signature for `" <> typeSignatureName <> "`"
-- | Suggests the removal of a redundant constraint for a type signature.
removeRedundantConstraints :: DynFlags -> ParsedSource -> Diagnostic -> [(T.Text, Rewrite)]
removeRedundantConstraints df (L _ HsModule {hsmodDecls}) Diagnostic{..}
-- • Redundant constraint: Eq a
-- • In the type signature for:
-- foo :: forall a. Eq a => a -> a
-- • Redundant constraints: (Monoid a, Show a)
-- • In the type signature for:
-- foo :: forall a. (Num a, Monoid a, Eq a, Show a) => a -> Bool
-- Account for both "Redundant constraint" and "Redundant constraints".
| "Redundant constraint" `T.isInfixOf` _message
, Just typeSignatureName <- findTypeSignatureName _message
#if !MIN_VERSION_ghc(9,2,0)
, Just (TypeSig _ _ HsWC{hswc_body = HsIB {hsib_body = sig}})
#else
, Just (TypeSig _ _ HsWC{hswc_body = (unLoc -> HsSig {sig_body = sig})})
#endif
<- fmap(traceAst "redundantConstraint") $ findSigOfDeclRanged _range hsmodDecls
, Just redundantConstraintList <- findRedundantConstraints _message
, rewrite <- removeConstraint (toRemove df redundantConstraintList) sig
= [(actionTitle redundantConstraintList typeSignatureName, rewrite)]
| otherwise = []
where
toRemove df list a = showSDoc df (ppr a) `elem` (T.unpack <$> list)
parseConstraints :: T.Text -> [T.Text]
parseConstraints t = t
& (T.strip >>> stripConstraintsParens >>> T.splitOn ",")
<&> T.strip
stripConstraintsParens :: T.Text -> T.Text
stripConstraintsParens constraints =
if "(" `T.isPrefixOf` constraints
then constraints & T.drop 1 & T.dropEnd 1 & T.strip
else constraints
{-
9.2: "message": "/private/var/folders/4m/d38fhm3936x_gy_9883zbq8h0000gn/T/extra-dir-53173393699/Testing.hs:4:1: warning:
⢠Redundant constraints: (Eq a, Show a)
⢠In the type signature for:
foo :: forall a. (Eq a, Show a) => a -> Bool",
9.0: "message": "⢠Redundant constraints: (Eq a, Show a)
⢠In the type signature for:
foo :: forall a. (Eq a, Show a) => a -> Bool",
-}
findRedundantConstraints :: T.Text -> Maybe [T.Text]
findRedundantConstraints t = t
& T.lines
-- In <9.2 it's the first line, in 9.2 it' the second line
& take 2
& mapMaybe ((`matchRegexUnifySpaces` "Redundant constraints?: (.+)") . T.strip)
& listToMaybe
<&> (head >>> parseConstraints)
formatConstraints :: [T.Text] -> T.Text
formatConstraints [] = ""
formatConstraints [constraint] = constraint
formatConstraints constraintList = constraintList
& T.intercalate ", "
& \cs -> "(" <> cs <> ")"
actionTitle :: [T.Text] -> T.Text -> T.Text
actionTitle constraintList typeSignatureName =
"Remove redundant constraint" <> (if length constraintList == 1 then "" else "s") <> " `"
<> formatConstraints constraintList
<> "` from the context of the type signature for `" <> typeSignatureName <> "`"
-------------------------------------------------------------------------------------------------
suggestNewOrExtendImportForClassMethod :: ExportsMap -> ParsedSource -> T.Text -> Diagnostic -> [(T.Text, CodeActionKind, [Either TextEdit Rewrite])]
suggestNewOrExtendImportForClassMethod packageExportsMap ps fileContents Diagnostic {_message}
| Just [methodName, className] <-
matchRegexUnifySpaces
_message
"‘([^’]*)’ is not a \\(visible\\) method of class ‘([^’]*)’",
idents <-
maybe [] (Set.toList . Set.filter (\x -> parent x == Just className)) $
Map.lookup methodName $ getExportsMap packageExportsMap =
mconcat $ suggest <$> idents
| otherwise = []
where
suggest identInfo@IdentInfo {moduleNameText}
| importStyle <- NE.toList $ importStyles identInfo,
mImportDecl <- findImportDeclByModuleName (hsmodImports $ unLoc ps) (T.unpack moduleNameText) =
case mImportDecl of
-- extend
Just decl ->
[ ( "Add " <> renderImportStyle style <> " to the import list of " <> moduleNameText,
quickFixImportKind' "extend" style,
[Right $ uncurry extendImport (unImportStyle style) decl]
)
| style <- importStyle
]
-- new
_
| Just (range, indent) <- newImportInsertRange ps fileContents
->
(\(kind, unNewImport -> x) -> (x, kind, [Left $ TextEdit range (x <> "\n" <> T.replicate indent " ")])) <$>
[ (quickFixImportKind' "new" style, newUnqualImport moduleNameText rendered False)
| style <- importStyle,
let rendered = renderImportStyle style
]
<> [(quickFixImportKind "new.all", newImportAll moduleNameText)]
| otherwise -> []
suggestNewImport :: ExportsMap -> ParsedSource -> T.Text -> Diagnostic -> [(T.Text, CodeActionKind, TextEdit)]
suggestNewImport packageExportsMap ps@(L _ HsModule {..}) fileContents Diagnostic{_message}
| msg <- unifySpaces _message
, Just thingMissing <- extractNotInScopeName msg
, qual <- extractQualifiedModuleName msg
, qual' <-
extractDoesNotExportModuleName msg
>>= (findImportDeclByModuleName hsmodImports . T.unpack)
>>= ideclAs . unLoc
<&> T.pack . moduleNameString . unLoc
, Just (range, indent) <- newImportInsertRange ps fileContents
, extendImportSuggestions <- matchRegexUnifySpaces msg
"Perhaps you want to add ‘[^’]*’ to the import list in the import of ‘([^’]*)’"
= sortOn fst3 [(imp, kind, TextEdit range (imp <> "\n" <> T.replicate indent " "))
| (kind, unNewImport -> imp) <- constructNewImportSuggestions packageExportsMap (qual <|> qual', thingMissing) extendImportSuggestions
]
suggestNewImport _ _ _ _ = []
constructNewImportSuggestions
:: ExportsMap -> (Maybe T.Text, NotInScope) -> Maybe [T.Text] -> [(CodeActionKind, NewImport)]
constructNewImportSuggestions exportsMap (qual, thingMissing) notTheseModules = nubOrdOn snd
[ suggestion
| Just name <- [T.stripPrefix (maybe "" (<> ".") qual) $ notInScope thingMissing]
, identInfo <- maybe [] Set.toList $ Map.lookup name (getExportsMap exportsMap)
, canUseIdent thingMissing identInfo
, moduleNameText identInfo `notElem` fromMaybe [] notTheseModules
, suggestion <- renderNewImport identInfo
]
where
renderNewImport :: IdentInfo -> [(CodeActionKind, NewImport)]
renderNewImport identInfo
| Just q <- qual
= [(quickFixImportKind "new.qualified", newQualImport m q)]
| otherwise
= [(quickFixImportKind' "new" importStyle, newUnqualImport m (renderImportStyle importStyle) False)
| importStyle <- NE.toList $ importStyles identInfo] ++
[(quickFixImportKind "new.all", newImportAll m)]
where
m = moduleNameText identInfo
newtype NewImport = NewImport {unNewImport :: T.Text}
deriving (Show, Eq, Ord)
newImportToEdit :: NewImport -> ParsedSource -> T.Text -> Maybe (T.Text, TextEdit)
newImportToEdit (unNewImport -> imp) ps fileContents
| Just (range, indent) <- newImportInsertRange ps fileContents
= Just (imp, TextEdit range (imp <> "\n" <> T.replicate indent " "))
| otherwise = Nothing
-- | Finds the next valid position for inserting a new import declaration
-- * If the file already has existing imports it will be inserted under the last of these,
-- it is assumed that the existing last import declaration is in a valid position
-- * If the file does not have existing imports, but has a (module ... where) declaration,
-- the new import will be inserted directly under this declaration (accounting for explicit exports)
-- * If the file has neither existing imports nor a module declaration,
-- the import will be inserted at line zero if there are no pragmas,
-- * otherwise inserted one line after the last file-header pragma
newImportInsertRange :: ParsedSource -> T.Text -> Maybe (Range, Int)
newImportInsertRange (L _ HsModule {..}) fileContents
| Just ((l, c), col) <- case hsmodImports of
[] -> findPositionNoImports (fmap reLoc hsmodName) (fmap reLoc hsmodExports) fileContents
_ -> findPositionFromImportsOrModuleDecl (map reLoc hsmodImports) last True
, let insertPos = Position (fromIntegral l) (fromIntegral c)
= Just (Range insertPos insertPos, col)
| otherwise = Nothing
-- | Insert the import under the Module declaration exports if they exist, otherwise just under the module declaration.
-- If no module declaration exists, then no exports will exist either, in that case
-- insert the import after any file-header pragmas or at position zero if there are no pragmas
findPositionNoImports :: Maybe (Located ModuleName) -> Maybe (Located [LIE name]) -> T.Text -> Maybe ((Int, Int), Int)
findPositionNoImports Nothing _ fileContents = findNextPragmaPosition fileContents
findPositionNoImports _ (Just hsmodExports) _ = findPositionFromImportsOrModuleDecl hsmodExports id False
findPositionNoImports (Just hsmodName) _ _ = findPositionFromImportsOrModuleDecl hsmodName id False
findPositionFromImportsOrModuleDecl :: HasSrcSpan a => t -> (t -> a) -> Bool -> Maybe ((Int, Int), Int)
findPositionFromImportsOrModuleDecl hsField f hasImports = case getLoc (f hsField) of
RealSrcSpan s _ ->
let col = calcCol s
in Just ((srcLocLine (realSrcSpanEnd s), col), col)
_ -> Nothing
where calcCol s = if hasImports then srcLocCol (realSrcSpanStart s) - 1 else 0
-- | Find the position one after the last file-header pragma
-- Defaults to zero if there are no pragmas in file
findNextPragmaPosition :: T.Text -> Maybe ((Int, Int), Int)
findNextPragmaPosition contents = Just ((lineNumber, 0), 0)
where
lineNumber = afterLangPragma . afterOptsGhc $ afterShebang
afterLangPragma = afterPragma "LANGUAGE" contents'
afterOptsGhc = afterPragma "OPTIONS_GHC" contents'
afterShebang = lastLineWithPrefix (T.isPrefixOf "#!") contents' 0
contents' = T.lines contents
afterPragma :: T.Text -> [T.Text] -> Int -> Int
afterPragma name contents lineNum = lastLineWithPrefix (checkPragma name) contents lineNum
lastLineWithPrefix :: (T.Text -> Bool) -> [T.Text] -> Int -> Int
lastLineWithPrefix p contents lineNum = max lineNum next
where
next = maybe lineNum succ $ listToMaybe . reverse $ findIndices p contents
checkPragma :: T.Text -> T.Text -> Bool
checkPragma name = check
where
check l = isPragma l && getName l == name
getName l = T.take (T.length name) $ T.dropWhile isSpace $ T.drop 3 l
isPragma = T.isPrefixOf "{-#"
-- | Construct an import declaration with at most one symbol
newImport
:: T.Text -- ^ module name
-> Maybe T.Text -- ^ the symbol
-> Maybe T.Text -- ^ qualified name
-> Bool -- ^ the symbol is to be imported or hidden
-> NewImport
newImport modName mSymbol mQual hiding = NewImport impStmt
where
symImp
| Just symbol <- mSymbol
, symOcc <- mkVarOcc $ T.unpack symbol =
" (" <> T.pack (unsafePrintSDoc (parenSymOcc symOcc $ ppr symOcc)) <> ")"
| otherwise = ""
impStmt =
"import "
<> maybe "" (const "qualified ") mQual
<> modName
<> (if hiding then " hiding" else "")
<> symImp
<> maybe "" (\qual -> if modName == qual then "" else " as " <> qual) mQual
newQualImport :: T.Text -> T.Text -> NewImport
newQualImport modName qual = newImport modName Nothing (Just qual) False
newUnqualImport :: T.Text -> T.Text -> Bool -> NewImport
newUnqualImport modName symbol = newImport modName (Just symbol) Nothing
newImportAll :: T.Text -> NewImport
newImportAll modName = newImport modName Nothing Nothing False
hideImplicitPreludeSymbol :: T.Text -> NewImport
hideImplicitPreludeSymbol symbol = newUnqualImport "Prelude" symbol True
canUseIdent :: NotInScope -> IdentInfo -> Bool
canUseIdent NotInScopeDataConstructor{} = isDatacon
canUseIdent NotInScopeTypeConstructorOrClass{} = not . isDatacon
canUseIdent _ = const True
data NotInScope
= NotInScopeDataConstructor T.Text
| NotInScopeTypeConstructorOrClass T.Text
| NotInScopeThing T.Text
deriving Show
notInScope :: NotInScope -> T.Text
notInScope (NotInScopeDataConstructor t) = t
notInScope (NotInScopeTypeConstructorOrClass t) = t
notInScope (NotInScopeThing t) = t
extractNotInScopeName :: T.Text -> Maybe NotInScope
extractNotInScopeName x
| Just [name] <- matchRegexUnifySpaces x "Data constructor not in scope: ([^ ]+)"
= Just $ NotInScopeDataConstructor name
| Just [name] <- matchRegexUnifySpaces x "Not in scope: data constructor [^‘]*‘([^’]*)’"
= Just $ NotInScopeDataConstructor name
| Just [name] <- matchRegexUnifySpaces x "ot in scope: type constructor or class [^‘]*‘([^’]*)’"
= Just $ NotInScopeTypeConstructorOrClass name
| Just [name] <- matchRegexUnifySpaces x "ot in scope: \\(([^‘ ]+)\\)"
= Just $ NotInScopeThing name
| Just [name] <- matchRegexUnifySpaces x "ot in scope: ([^‘ ]+)"
= Just $ NotInScopeThing name
| Just [name] <- matchRegexUnifySpaces x "ot in scope:[^‘]*‘([^’]*)’"
= Just $ NotInScopeThing name
| otherwise
= Nothing
extractQualifiedModuleName :: T.Text -> Maybe T.Text
extractQualifiedModuleName x
| Just [m] <- matchRegexUnifySpaces x "module named [^‘]*‘([^’]*)’"
= Just m
| otherwise
= Nothing
-- | If a module has been imported qualified, and we want to ues the same qualifier for other modules
-- which haven't been imported, 'extractQualifiedModuleName' won't work. Thus we need extract the qualifier
-- from the imported one.
--
-- For example, we write f = T.putStrLn, where putStrLn comes from Data.Text.IO, with the following import(s):
-- 1.
-- import qualified Data.Text as T
--
-- Module ‘Data.Text’ does not export ‘putStrLn’.
--
-- 2.
-- import qualified Data.Text as T
-- import qualified Data.Functor as T
--
-- Neither ‘Data.Functor’ nor ‘Data.Text’ exports ‘putStrLn’.
--
-- 3.
-- import qualified Data.Text as T
-- import qualified Data.Functor as T
-- import qualified Data.Function as T
--
-- Neither ‘Data.Function’,
-- ‘Data.Functor’ nor ‘Data.Text’ exports ‘putStrLn’.
extractDoesNotExportModuleName :: T.Text -> Maybe T.Text
extractDoesNotExportModuleName x
| Just [m] <-
matchRegexUnifySpaces x "Module ‘([^’]*)’ does not export"
<|> matchRegexUnifySpaces x "nor ‘([^’]*)’ exports"
= Just m
| otherwise
= Nothing
-------------------------------------------------------------------------------------------------
mkRenameEdit :: Maybe T.Text -> Range -> T.Text -> TextEdit
mkRenameEdit contents range name =
if maybeIsInfixFunction == Just True
then TextEdit range ("`" <> name <> "`")
else TextEdit range name
where
maybeIsInfixFunction = do
curr <- textInRange range <$> contents
pure $ "`" `T.isPrefixOf` curr && "`" `T.isSuffixOf` curr
extractWildCardTypeSignature :: T.Text -> T.Text
extractWildCardTypeSignature =
-- inferring when parens are actually needed around the type signature would
-- require understanding both the precedence of the context of the _ and of
-- the signature itself. Inserting them unconditionally is ugly but safe.
("(" `T.append`) . (`T.append` ")") .
T.takeWhile (/='’') . T.dropWhile (=='‘') . T.dropWhile (/='‘') .
snd . T.breakOnEnd "standing for "
extractRenamableTerms :: T.Text -> [T.Text]
extractRenamableTerms msg
-- Account for both "Variable not in scope" and "Not in scope"
| "ot in scope:" `T.isInfixOf` msg = extractSuggestions msg
| otherwise = []
where
extractSuggestions = map getEnclosed
. concatMap singleSuggestions
. filter isKnownSymbol
. T.lines
singleSuggestions = T.splitOn "), " -- Each suggestion is comma delimited
isKnownSymbol t = " (imported from" `T.isInfixOf` t || " (line " `T.isInfixOf` t
getEnclosed = T.dropWhile (== '‘')
. T.dropWhileEnd (== '’')
. T.dropAround (\c -> c /= '‘' && c /= '’')
-- | If a range takes up a whole line (it begins at the start of the line and there's only whitespace
-- between the end of the range and the next newline), extend the range to take up the whole line.
extendToWholeLineIfPossible :: Maybe T.Text -> Range -> Range
extendToWholeLineIfPossible contents range@Range{..} =
let newlineAfter = maybe False (T.isPrefixOf "\n" . T.dropWhile (\x -> isSpace x && x /= '\n') . snd . splitTextAtPosition _end) contents
extend = newlineAfter && _character _start == 0 -- takes up an entire line, so remove the whole line
in if extend then Range _start (Position (_line _end + 1) 0) else range
splitTextAtPosition :: Position -> T.Text -> (T.Text, T.Text)
splitTextAtPosition (Position (fromIntegral -> row) (fromIntegral -> col)) x
| (preRow, mid:postRow) <- splitAt row $ T.splitOn "\n" x
, (preCol, postCol) <- T.splitAt col mid
= (T.intercalate "\n" $ preRow ++ [preCol], T.intercalate "\n" $ postCol : postRow)
| otherwise = (x, T.empty)
-- | Returns [start .. end[
textInRange :: Range -> T.Text -> T.Text
textInRange (Range (Position (fromIntegral -> startRow) (fromIntegral -> startCol)) (Position (fromIntegral -> endRow) (fromIntegral -> endCol))) text =
case compare startRow endRow of
LT ->
let (linesInRangeBeforeEndLine, endLineAndFurtherLines) = splitAt (endRow - startRow) linesBeginningWithStartLine
(textInRangeInFirstLine, linesBetween) = case linesInRangeBeforeEndLine of
[] -> ("", [])
firstLine:linesInBetween -> (T.drop startCol firstLine, linesInBetween)
maybeTextInRangeInEndLine = T.take endCol <$> listToMaybe endLineAndFurtherLines
in T.intercalate "\n" (textInRangeInFirstLine : linesBetween ++ maybeToList maybeTextInRangeInEndLine)
EQ ->
let line = fromMaybe "" (listToMaybe linesBeginningWithStartLine)
in T.take (endCol - startCol) (T.drop startCol line)
GT -> ""
where
linesBeginningWithStartLine = drop startRow (T.splitOn "\n" text)
-- | Returns the ranges for a binding in an import declaration
rangesForBindingImport :: ImportDecl GhcPs -> String -> [Range]
rangesForBindingImport ImportDecl{ideclHiding = Just (False, L _ lies)} b =
concatMap (mapMaybe srcSpanToRange . rangesForBinding' b') lies
where
b' = wrapOperatorInParens b
rangesForBindingImport _ _ = []
wrapOperatorInParens :: String -> String
wrapOperatorInParens x =
case uncons x of
Just (h, _t) -> if is_ident h then x else "(" <> x <> ")"
Nothing -> mempty
smallerRangesForBindingExport :: [LIE GhcPs] -> String -> [Range]
smallerRangesForBindingExport lies b =
concatMap (mapMaybe srcSpanToRange . ranges') lies
where
unqualify = snd . breakOnEnd "."
b' = wrapOperatorInParens . unqualify $ b
#if !MIN_VERSION_ghc(9,2,0)
ranges' (L _ (IEThingWith _ thing _ inners labels))
| showSDocUnsafe (ppr thing) == b' = []
| otherwise =
[ locA l' | L l' x <- inners, showSDocUnsafe (ppr x) == b']
++ [ l' | L l' x <- labels, showSDocUnsafe (ppr x) == b']
#else
ranges' (L _ (IEThingWith _ thing _ inners))
| showSDocUnsafe (ppr thing) == b' = []
| otherwise =
[ locA l' | L l' x <- inners, showSDocUnsafe (ppr x) == b']
#endif
ranges' _ = []
rangesForBinding' :: String -> LIE GhcPs -> [SrcSpan]
rangesForBinding' b (L (locA -> l) x@IEVar{}) | showSDocUnsafe (ppr x) == b = [l]
rangesForBinding' b (L (locA -> l) x@IEThingAbs{}) | showSDocUnsafe (ppr x) == b = [l]
rangesForBinding' b (L (locA -> l) (IEThingAll _ x)) | showSDocUnsafe (ppr x) == b = [l]
#if !MIN_VERSION_ghc(9,2,0)
rangesForBinding' b (L l (IEThingWith _ thing _ inners labels))
#else
rangesForBinding' b (L (locA -> l) (IEThingWith _ thing _ inners))
#endif
| showSDocUnsafe (ppr thing) == b = [l]
| otherwise =
[ locA l' | L l' x <- inners, showSDocUnsafe (ppr x) == b]
#if !MIN_VERSION_ghc(9,2,0)
++ [ l' | L l' x <- labels, showSDocUnsafe (ppr x) == b]
#endif
rangesForBinding' _ _ = []
-- | 'matchRegex' combined with 'unifySpaces'
matchRegexUnifySpaces :: T.Text -> T.Text -> Maybe [T.Text]
matchRegexUnifySpaces message = matchRegex (unifySpaces message)
-- | 'allMatchRegex' combined with 'unifySpaces'
allMatchRegexUnifySpaces :: T.Text -> T.Text -> Maybe [[T.Text]]
allMatchRegexUnifySpaces message =
allMatchRegex (unifySpaces message)
-- | Returns Just (the submatches) for the first capture, or Nothing.
matchRegex :: T.Text -> T.Text -> Maybe [T.Text]
matchRegex message regex = case message =~~ regex of
Just (_ :: T.Text, _ :: T.Text, _ :: T.Text, bindings) -> Just bindings
Nothing -> Nothing
-- | Returns Just (all matches) for the first capture, or Nothing.
allMatchRegex :: T.Text -> T.Text -> Maybe [[T.Text]]
allMatchRegex message regex = message =~~ regex
unifySpaces :: T.Text -> T.Text
unifySpaces = T.unwords . T.words
-- functions to help parse multiple import suggestions
-- | Returns the first match if found
regexSingleMatch :: T.Text -> T.Text -> Maybe T.Text
regexSingleMatch msg regex = case matchRegexUnifySpaces msg regex of
Just (h:_) -> Just h
_ -> Nothing
-- | Parses tuples like (‘Data.Map’, (app/ModuleB.hs:2:1-18)) and
-- | return (Data.Map, app/ModuleB.hs:2:1-18)
regExPair :: (T.Text, T.Text) -> Maybe (T.Text, T.Text)
regExPair (modname, srcpair) = do
x <- regexSingleMatch modname "‘([^’]*)’"
y <- regexSingleMatch srcpair "\\((.*)\\)"
return (x, y)
-- | Process a list of (module_name, filename:src_span) values
-- | Eg. [(Data.Map, app/ModuleB.hs:2:1-18), (Data.HashMap.Strict, app/ModuleB.hs:3:1-29)]
regExImports :: T.Text -> Maybe [(T.Text, T.Text)]
regExImports msg = result
where
parts = T.words msg
isPrefix = not . T.isPrefixOf "("
(mod, srcspan) = partition isPrefix parts
-- check we have matching pairs like (Data.Map, (app/src.hs:1:2-18))
result = if length mod == length srcspan then
regExPair `traverse` zip mod srcspan
else Nothing
matchRegExMultipleImports :: T.Text -> Maybe (T.Text, [(T.Text, T.Text)])
matchRegExMultipleImports message = do
let pat = T.pack "Perhaps you want to add ‘([^’]*)’ to one of these import lists: *(‘.*\\))$"
(binding, imports) <- case matchRegexUnifySpaces message pat of
Just [x, xs] -> Just (x, xs)
_ -> Nothing
imps <- regExImports imports
return (binding, imps)
-- | Possible import styles for an 'IdentInfo'.
--
-- The first 'Text' parameter corresponds to the 'rendered' field of the
-- 'IdentInfo'.
data ImportStyle
= ImportTopLevel T.Text
-- ^ Import a top-level export from a module, e.g., a function, a type, a
-- class.
--
-- > import M (?)
--
-- Some exports that have a parent, like a type-class method or an
-- associated type/data family, can still be imported as a top-level
-- import.
--
-- Note that this is not the case for constructors, they must always be
-- imported as part of their parent data type.
| ImportViaParent T.Text T.Text
-- ^ Import an export (first parameter) through its parent (second
-- parameter).
--
-- import M (P(?))
--
-- @P@ and @?@ can be a data type and a constructor, a class and a method,
-- a class and an associated type/data family, etc.
deriving Show
importStyles :: IdentInfo -> NonEmpty ImportStyle
importStyles IdentInfo {parent, rendered, isDatacon}
| Just p <- parent
-- Constructors always have to be imported via their parent data type, but
-- methods and associated type/data families can also be imported as
-- top-level exports.
= ImportViaParent rendered p :| [ImportTopLevel rendered | not isDatacon]
| otherwise
= ImportTopLevel rendered :| []
-- | Used for adding new imports
renderImportStyle :: ImportStyle -> T.Text
renderImportStyle (ImportTopLevel x) = x
renderImportStyle (ImportViaParent x p@(T.uncons -> Just ('(', _))) = "type " <> p <> "(" <> x <> ")"
renderImportStyle (ImportViaParent x p) = p <> "(" <> x <> ")"
-- | Used for extending import lists
unImportStyle :: ImportStyle -> (Maybe String, String)
unImportStyle (ImportTopLevel x) = (Nothing, T.unpack x)
unImportStyle (ImportViaParent x y) = (Just $ T.unpack y, T.unpack x)
quickFixImportKind' :: T.Text -> ImportStyle -> CodeActionKind
quickFixImportKind' x (ImportTopLevel _) = CodeActionUnknown $ "quickfix.import." <> x <> ".list.topLevel"
quickFixImportKind' x (ImportViaParent _ _) = CodeActionUnknown $ "quickfix.import." <> x <> ".list.withParent"
quickFixImportKind :: T.Text -> CodeActionKind
quickFixImportKind x = CodeActionUnknown $ "quickfix.import." <> x