{-# LANGUAGE GeneralizedNewtypeDeriving #-}
{-# LANGUAGE NamedFieldPuns #-}
module Language.PureScript.Errors
( module Language.PureScript.AST
, module Language.PureScript.Errors
) where
import Prelude.Compat
import Protolude (ordNub)
import Control.Arrow ((&&&))
import Control.Monad
import Control.Monad.Error.Class (MonadError(..))
import Control.Monad.Trans.State.Lazy
import Control.Monad.Writer
import Data.Char (isSpace)
import Data.Either (partitionEithers)
import Data.Foldable (fold)
import Data.Functor.Identity (Identity(..))
import Data.List (transpose, nubBy, sort, partition, dropWhileEnd)
import qualified Data.List.NonEmpty as NEL
import Data.Maybe (maybeToList, fromMaybe, mapMaybe)
import qualified Data.Map as M
import qualified Data.Set as S
import qualified Data.Text as T
import Data.Text (Text)
import Language.PureScript.AST
import qualified Language.PureScript.Bundle as Bundle
import qualified Language.PureScript.Constants as C
import Language.PureScript.Crash
import Language.PureScript.Environment
import Language.PureScript.Label (Label(..))
import Language.PureScript.Names
import Language.PureScript.Pretty
import Language.PureScript.Pretty.Common (endWith)
import Language.PureScript.PSString (decodeStringWithReplacement)
import Language.PureScript.Traversals
import Language.PureScript.Types
import qualified Language.PureScript.Publish.BoxesHelpers as BoxHelpers
import qualified System.Console.ANSI as ANSI
import qualified Text.Parsec as P
import qualified Text.Parsec.Error as PE
import Text.Parsec.Error (Message(..))
import qualified Text.PrettyPrint.Boxes as Box
newtype ErrorSuggestion = ErrorSuggestion Text
errorSpan :: ErrorMessage -> Maybe (NEL.NonEmpty SourceSpan)
errorSpan = findHint matchSpan
where
matchSpan (PositionedError ss) = Just ss
matchSpan _ = Nothing
errorModule :: ErrorMessage -> Maybe ModuleName
errorModule = findHint matchModule
where
matchModule (ErrorInModule mn) = Just mn
matchModule _ = Nothing
findHint :: (ErrorMessageHint -> Maybe a) -> ErrorMessage -> Maybe a
findHint f (ErrorMessage hints _) = getLast . foldMap (Last . f) $ hints
stripModuleAndSpan :: ErrorMessage -> ErrorMessage
stripModuleAndSpan (ErrorMessage hints e) = ErrorMessage (filter (not . shouldStrip) hints) e
where
shouldStrip (ErrorInModule _) = True
shouldStrip (PositionedError _) = True
shouldStrip _ = False
errorCode :: ErrorMessage -> Text
errorCode em = case unwrapErrorMessage em of
ModuleNotFound{} -> "ModuleNotFound"
ErrorParsingFFIModule{} -> "ErrorParsingFFIModule"
ErrorParsingModule{} -> "ErrorParsingModule"
MissingFFIModule{} -> "MissingFFIModule"
UnnecessaryFFIModule{} -> "UnnecessaryFFIModule"
MissingFFIImplementations{} -> "MissingFFIImplementations"
UnusedFFIImplementations{} -> "UnusedFFIImplementations"
InvalidFFIIdentifier{} -> "InvalidFFIIdentifier"
CannotGetFileInfo{} -> "CannotGetFileInfo"
CannotReadFile{} -> "CannotReadFile"
CannotWriteFile{} -> "CannotWriteFile"
InfiniteType{} -> "InfiniteType"
InfiniteKind{} -> "InfiniteKind"
MultipleValueOpFixities{} -> "MultipleValueOpFixities"
MultipleTypeOpFixities{} -> "MultipleTypeOpFixities"
OrphanTypeDeclaration{} -> "OrphanTypeDeclaration"
RedefinedIdent{} -> "RedefinedIdent"
OverlappingNamesInLet -> "OverlappingNamesInLet"
UnknownName{} -> "UnknownName"
UnknownImport{} -> "UnknownImport"
UnknownImportDataConstructor{} -> "UnknownImportDataConstructor"
UnknownExport{} -> "UnknownExport"
UnknownExportDataConstructor{} -> "UnknownExportDataConstructor"
ScopeConflict{} -> "ScopeConflict"
ScopeShadowing{} -> "ScopeShadowing"
DeclConflict{} -> "DeclConflict"
ExportConflict{} -> "ExportConflict"
DuplicateModule{} -> "DuplicateModule"
DuplicateTypeClass{} -> "DuplicateTypeClass"
DuplicateInstance{} -> "DuplicateInstance"
DuplicateTypeArgument{} -> "DuplicateTypeArgument"
InvalidDoBind -> "InvalidDoBind"
InvalidDoLet -> "InvalidDoLet"
CycleInDeclaration{} -> "CycleInDeclaration"
CycleInTypeSynonym{} -> "CycleInTypeSynonym"
CycleInModules{} -> "CycleInModules"
NameIsUndefined{} -> "NameIsUndefined"
UndefinedTypeVariable{} -> "UndefinedTypeVariable"
PartiallyAppliedSynonym{} -> "PartiallyAppliedSynonym"
EscapedSkolem{} -> "EscapedSkolem"
TypesDoNotUnify{} -> "TypesDoNotUnify"
KindsDoNotUnify{} -> "KindsDoNotUnify"
ConstrainedTypeUnified{} -> "ConstrainedTypeUnified"
OverlappingInstances{} -> "OverlappingInstances"
NoInstanceFound{} -> "NoInstanceFound"
AmbiguousTypeVariables{} -> "AmbiguousTypeVariables"
UnknownClass{} -> "UnknownClass"
PossiblyInfiniteInstance{} -> "PossiblyInfiniteInstance"
CannotDerive{} -> "CannotDerive"
InvalidNewtypeInstance{} -> "InvalidNewtypeInstance"
MissingNewtypeSuperclassInstance{} -> "MissingNewtypeSuperclassInstance"
UnverifiableSuperclassInstance{} -> "UnverifiableSuperclassInstance"
InvalidDerivedInstance{} -> "InvalidDerivedInstance"
ExpectedTypeConstructor{} -> "ExpectedTypeConstructor"
CannotFindDerivingType{} -> "CannotFindDerivingType"
DuplicateLabel{} -> "DuplicateLabel"
DuplicateValueDeclaration{} -> "DuplicateValueDeclaration"
ArgListLengthsDiffer{} -> "ArgListLengthsDiffer"
OverlappingArgNames{} -> "OverlappingArgNames"
MissingClassMember{} -> "MissingClassMember"
ExtraneousClassMember{} -> "ExtraneousClassMember"
ExpectedType{} -> "ExpectedType"
IncorrectConstructorArity{} -> "IncorrectConstructorArity"
ExprDoesNotHaveType{} -> "ExprDoesNotHaveType"
PropertyIsMissing{} -> "PropertyIsMissing"
AdditionalProperty{} -> "AdditionalProperty"
TypeSynonymInstance -> "TypeSynonymInstance"
OrphanInstance{} -> "OrphanInstance"
InvalidNewtype{} -> "InvalidNewtype"
InvalidInstanceHead{} -> "InvalidInstanceHead"
TransitiveExportError{} -> "TransitiveExportError"
TransitiveDctorExportError{} -> "TransitiveDctorExportError"
ShadowedName{} -> "ShadowedName"
ShadowedTypeVar{} -> "ShadowedTypeVar"
UnusedTypeVar{} -> "UnusedTypeVar"
WildcardInferredType{} -> "WildcardInferredType"
HoleInferredType{} -> "HoleInferredType"
MissingTypeDeclaration{} -> "MissingTypeDeclaration"
OverlappingPattern{} -> "OverlappingPattern"
IncompleteExhaustivityCheck{} -> "IncompleteExhaustivityCheck"
MisleadingEmptyTypeImport{} -> "MisleadingEmptyTypeImport"
ImportHidingModule{} -> "ImportHidingModule"
UnusedImport{} -> "UnusedImport"
UnusedExplicitImport{} -> "UnusedExplicitImport"
UnusedDctorImport{} -> "UnusedDctorImport"
UnusedDctorExplicitImport{} -> "UnusedDctorExplicitImport"
DuplicateSelectiveImport{} -> "DuplicateSelectiveImport"
DuplicateImport{} -> "DuplicateImport"
DuplicateImportRef{} -> "DuplicateImportRef"
DuplicateExportRef{} -> "DuplicateExportRef"
IntOutOfRange{} -> "IntOutOfRange"
ImplicitQualifiedImport{} -> "ImplicitQualifiedImport"
ImplicitQualifiedImportReExport{} -> "ImplicitQualifiedImportReExport"
ImplicitImport{} -> "ImplicitImport"
HidingImport{} -> "HidingImport"
CaseBinderLengthDiffers{} -> "CaseBinderLengthDiffers"
IncorrectAnonymousArgument -> "IncorrectAnonymousArgument"
InvalidOperatorInBinder{} -> "InvalidOperatorInBinder"
CannotGeneralizeRecursiveFunction{} -> "CannotGeneralizeRecursiveFunction"
CannotDeriveNewtypeForData{} -> "CannotDeriveNewtypeForData"
ExpectedWildcard{} -> "ExpectedWildcard"
CannotUseBindWithDo{} -> "CannotUseBindWithDo"
ClassInstanceArityMismatch{} -> "ClassInstanceArityMismatch"
UserDefinedWarning{} -> "UserDefinedWarning"
UnusableDeclaration{} -> "UnusableDeclaration"
CannotDefinePrimModules{} -> "CannotDefinePrimModules"
MixedAssociativityError{} -> "MixedAssociativityError"
NonAssociativeError{} -> "NonAssociativeError"
newtype MultipleErrors = MultipleErrors
{ runMultipleErrors :: [ErrorMessage]
} deriving (Show, Monoid)
nonEmpty :: MultipleErrors -> Bool
nonEmpty = not . null . runMultipleErrors
errorMessage :: SimpleErrorMessage -> MultipleErrors
errorMessage err = MultipleErrors [ErrorMessage [] err]
errorMessage' :: SourceSpan -> SimpleErrorMessage -> MultipleErrors
errorMessage' ss err = MultipleErrors [ErrorMessage [positionedError ss] err]
errorMessage'' :: NEL.NonEmpty SourceSpan -> SimpleErrorMessage -> MultipleErrors
errorMessage'' sss err = MultipleErrors [ErrorMessage [PositionedError sss] err]
singleError :: ErrorMessage -> MultipleErrors
singleError = MultipleErrors . pure
onErrorMessages :: (ErrorMessage -> ErrorMessage) -> MultipleErrors -> MultipleErrors
onErrorMessages f = MultipleErrors . map f . runMultipleErrors
addHint :: ErrorMessageHint -> MultipleErrors -> MultipleErrors
addHint hint = addHints [hint]
addHints :: [ErrorMessageHint] -> MultipleErrors -> MultipleErrors
addHints hints = onErrorMessages $ \(ErrorMessage hints' se) -> ErrorMessage (hints ++ hints') se
data TypeMap = TypeMap
{ umSkolemMap :: M.Map Int (String, Int, Maybe SourceSpan)
, umUnknownMap :: M.Map Int Int
, umNextIndex :: Int
} deriving Show
defaultUnknownMap :: TypeMap
defaultUnknownMap = TypeMap M.empty M.empty 0
data Level = Error | Warning deriving Show
unwrapErrorMessage :: ErrorMessage -> SimpleErrorMessage
unwrapErrorMessage (ErrorMessage _ se) = se
replaceUnknowns :: Type -> State TypeMap Type
replaceUnknowns = everywhereOnTypesM replaceTypes where
replaceTypes :: Type -> State TypeMap Type
replaceTypes (TUnknown u) = do
m <- get
case M.lookup u (umUnknownMap m) of
Nothing -> do
let u' = umNextIndex m
put $ m { umUnknownMap = M.insert u u' (umUnknownMap m), umNextIndex = u' + 1 }
return (TUnknown u')
Just u' -> return (TUnknown u')
replaceTypes (Skolem name s sko ss) = do
m <- get
case M.lookup s (umSkolemMap m) of
Nothing -> do
let s' = umNextIndex m
put $ m { umSkolemMap = M.insert s (T.unpack name, s', ss) (umSkolemMap m), umNextIndex = s' + 1 }
return (Skolem name s' sko ss)
Just (_, s', _) -> return (Skolem name s' sko ss)
replaceTypes other = return other
onTypesInErrorMessage :: (Type -> Type) -> ErrorMessage -> ErrorMessage
onTypesInErrorMessage f = runIdentity . onTypesInErrorMessageM (Identity . f)
onTypesInErrorMessageM :: Applicative m => (Type -> m Type) -> ErrorMessage -> m ErrorMessage
onTypesInErrorMessageM f (ErrorMessage hints simple) = ErrorMessage <$> traverse gHint hints <*> gSimple simple
where
gSimple (InfiniteType t) = InfiniteType <$> f t
gSimple (TypesDoNotUnify t1 t2) = TypesDoNotUnify <$> f t1 <*> f t2
gSimple (ConstrainedTypeUnified t1 t2) = ConstrainedTypeUnified <$> f t1 <*> f t2
gSimple (ExprDoesNotHaveType e t) = ExprDoesNotHaveType e <$> f t
gSimple (InvalidInstanceHead t) = InvalidInstanceHead <$> f t
gSimple (NoInstanceFound con) = NoInstanceFound <$> overConstraintArgs (traverse f) con
gSimple (AmbiguousTypeVariables t con) = AmbiguousTypeVariables <$> f t <*> pure con
gSimple (OverlappingInstances cl ts insts) = OverlappingInstances cl <$> traverse f ts <*> pure insts
gSimple (PossiblyInfiniteInstance cl ts) = PossiblyInfiniteInstance cl <$> traverse f ts
gSimple (CannotDerive cl ts) = CannotDerive cl <$> traverse f ts
gSimple (InvalidNewtypeInstance cl ts) = InvalidNewtypeInstance cl <$> traverse f ts
gSimple (MissingNewtypeSuperclassInstance cl1 cl2 ts) = MissingNewtypeSuperclassInstance cl1 cl2 <$> traverse f ts
gSimple (UnverifiableSuperclassInstance cl1 cl2 ts) = UnverifiableSuperclassInstance cl1 cl2 <$> traverse f ts
gSimple (InvalidDerivedInstance cl ts n) = InvalidDerivedInstance cl <$> traverse f ts <*> pure n
gSimple (ExpectedTypeConstructor cl ts ty) = ExpectedTypeConstructor cl <$> traverse f ts <*> f ty
gSimple (ExpectedType ty k) = ExpectedType <$> f ty <*> pure k
gSimple (OrphanInstance nm cl noms ts) = OrphanInstance nm cl noms <$> traverse f ts
gSimple (WildcardInferredType ty ctx) = WildcardInferredType <$> f ty <*> traverse (sndM f) ctx
gSimple (HoleInferredType name ty ctx env) = HoleInferredType name <$> f ty <*> traverse (sndM f) ctx <*> onTypeSearchTypesM f env
gSimple (MissingTypeDeclaration nm ty) = MissingTypeDeclaration nm <$> f ty
gSimple (CannotGeneralizeRecursiveFunction nm ty) = CannotGeneralizeRecursiveFunction nm <$> f ty
gSimple other = pure other
gHint (ErrorInSubsumption t1 t2) = ErrorInSubsumption <$> f t1 <*> f t2
gHint (ErrorUnifyingTypes t1 t2) = ErrorUnifyingTypes <$> f t1 <*> f t2
gHint (ErrorCheckingType e t) = ErrorCheckingType e <$> f t
gHint (ErrorCheckingKind t) = ErrorCheckingKind <$> f t
gHint (ErrorInApplication e1 t1 e2) = ErrorInApplication e1 <$> f t1 <*> pure e2
gHint (ErrorInInstance cl ts) = ErrorInInstance cl <$> traverse f ts
gHint (ErrorSolvingConstraint con) = ErrorSolvingConstraint <$> overConstraintArgs (traverse f) con
gHint other = pure other
errorDocUri :: ErrorMessage -> Text
errorDocUri e = "https://github.com/purescript/documentation/blob/master/errors/" <> errorCode e <> ".md"
errorSuggestion :: SimpleErrorMessage -> Maybe ErrorSuggestion
errorSuggestion err =
case err of
UnusedImport{} -> emptySuggestion
DuplicateImport{} -> emptySuggestion
UnusedExplicitImport mn _ qual refs -> suggest $ importSuggestion mn refs qual
UnusedDctorImport mn _ qual refs -> suggest $ importSuggestion mn refs qual
UnusedDctorExplicitImport mn _ _ qual refs -> suggest $ importSuggestion mn refs qual
ImplicitImport mn refs -> suggest $ importSuggestion mn refs Nothing
ImplicitQualifiedImport mn asModule refs -> suggest $ importSuggestion mn refs (Just asModule)
ImplicitQualifiedImportReExport mn asModule refs -> suggest $ importSuggestion mn refs (Just asModule)
HidingImport mn refs -> suggest $ importSuggestion mn refs Nothing
MissingTypeDeclaration ident ty -> suggest $ showIdent ident <> " :: " <> T.pack (prettyPrintSuggestedType ty)
WildcardInferredType ty _ -> suggest $ T.pack (prettyPrintSuggestedType ty)
_ -> Nothing
where
emptySuggestion = Just $ ErrorSuggestion ""
suggest = Just . ErrorSuggestion
importSuggestion :: ModuleName -> [ DeclarationRef ] -> Maybe ModuleName -> Text
importSuggestion mn refs qual =
"import " <> runModuleName mn <> " (" <> T.intercalate ", " (mapMaybe prettyPrintRef refs) <> ")" <> qstr qual
qstr :: Maybe ModuleName -> Text
qstr (Just mn) = " as " <> runModuleName mn
qstr Nothing = ""
suggestionSpan :: ErrorMessage -> Maybe SourceSpan
suggestionSpan e =
getSpan (unwrapErrorMessage e) . NEL.head <$> errorSpan e
where
startOnly SourceSpan{spanName, spanStart} = SourceSpan {spanName, spanStart, spanEnd = spanStart}
getSpan simple ss =
case simple of
MissingTypeDeclaration{} -> startOnly ss
_ -> ss
showSuggestion :: SimpleErrorMessage -> Text
showSuggestion suggestion = case errorSuggestion suggestion of
Just (ErrorSuggestion x) -> x
_ -> ""
ansiColor :: (ANSI.ColorIntensity, ANSI.Color) -> String
ansiColor (intesity, color) =
ANSI.setSGRCode [ANSI.SetColor ANSI.Foreground intesity color]
ansiColorReset :: String
ansiColorReset =
ANSI.setSGRCode [ANSI.Reset]
colorCode :: Maybe (ANSI.ColorIntensity, ANSI.Color) -> Text -> Text
colorCode codeColor code = case codeColor of
Nothing -> code
Just cc -> T.pack (ansiColor cc) <> code <> T.pack ansiColorReset
colorCodeBox :: Maybe (ANSI.ColorIntensity, ANSI.Color) -> Box.Box -> Box.Box
colorCodeBox codeColor b = case codeColor of
Nothing -> b
Just cc
| Box.rows b == 1 ->
Box.text (ansiColor cc) Box.<> b `endWith` Box.text ansiColorReset
| otherwise -> Box.hcat Box.left
[ Box.vcat Box.top $ replicate (Box.rows b) $ Box.text $ ansiColor cc
, b
, Box.vcat Box.top $ replicate (Box.rows b) $ Box.text ansiColorReset
]
defaultCodeColor :: (ANSI.ColorIntensity, ANSI.Color)
defaultCodeColor = (ANSI.Dull, ANSI.Yellow)
data PPEOptions = PPEOptions
{ ppeCodeColor :: Maybe (ANSI.ColorIntensity, ANSI.Color)
, ppeFull :: Bool
, ppeLevel :: Level
, ppeShowDocs :: Bool
, ppeRelativeDirectory :: FilePath
}
defaultPPEOptions :: PPEOptions
defaultPPEOptions = PPEOptions
{ ppeCodeColor = Just defaultCodeColor
, ppeFull = False
, ppeLevel = Error
, ppeShowDocs = True
, ppeRelativeDirectory = mempty
}
prettyPrintSingleError :: PPEOptions -> ErrorMessage -> Box.Box
prettyPrintSingleError (PPEOptions codeColor full level showDocs relPath) e = flip evalState defaultUnknownMap $ do
em <- onTypesInErrorMessageM replaceUnknowns (if full then e else simplifyErrorMessage e)
um <- get
return (prettyPrintErrorMessage um em)
where
(markCode, markCodeBox) = (colorCode &&& colorCodeBox) codeColor
prettyPrintErrorMessage :: TypeMap -> ErrorMessage -> Box.Box
prettyPrintErrorMessage typeMap (ErrorMessage hints simple) =
paras $
[ foldr renderHint (indent (renderSimpleErrorMessage simple)) hints
] ++
maybe [] (return . Box.moveDown 1) typeInformation ++
[ Box.moveDown 1 $ paras
[ line $ "See " <> errorDocUri e <> " for more information, "
, line $ "or to contribute content related to this " <> levelText <> "."
]
| showDocs
]
where
typeInformation :: Maybe Box.Box
typeInformation | not (null types) = Just $ Box.hsep 1 Box.left [ line "where", paras types ]
| otherwise = Nothing
where
types :: [Box.Box]
types = map skolemInfo (M.elems (umSkolemMap typeMap)) ++
map unknownInfo (M.elems (umUnknownMap typeMap))
skolemInfo :: (String, Int, Maybe SourceSpan) -> Box.Box
skolemInfo (name, s, ss) =
paras $
line (markCode (T.pack (name <> show s)) <> " is a rigid type variable")
: foldMap (return . line . (" bound at " <>) . displayStartEndPos) ss
unknownInfo :: Int -> Box.Box
unknownInfo u = line $ markCode ("t" <> T.pack (show u)) <> " is an unknown type"
renderSimpleErrorMessage :: SimpleErrorMessage -> Box.Box
renderSimpleErrorMessage (ModuleNotFound mn) =
paras [ line $ "Module " <> markCode (runModuleName mn) <> " was not found."
, line "Make sure the source file exists, and that it has been provided as an input to the compiler."
]
renderSimpleErrorMessage (CannotGetFileInfo path) =
paras [ line "Unable to read file info: "
, indent . lineS $ path
]
renderSimpleErrorMessage (CannotReadFile path) =
paras [ line "Unable to read file: "
, indent . lineS $ path
]
renderSimpleErrorMessage (CannotWriteFile path) =
paras [ line "Unable to write file: "
, indent . lineS $ path
]
renderSimpleErrorMessage (ErrorParsingFFIModule path extra) =
paras $ [ line "Unable to parse foreign module:"
, indent . lineS $ path
] ++
map (indent . lineS) (concatMap Bundle.printErrorMessage (maybeToList extra))
renderSimpleErrorMessage (ErrorParsingModule err) =
paras [ line "Unable to parse module: "
, prettyPrintParseError err
]
renderSimpleErrorMessage (MissingFFIModule mn) =
line $ "The foreign module implementation for module " <> markCode (runModuleName mn) <> " is missing."
renderSimpleErrorMessage (UnnecessaryFFIModule mn path) =
paras [ line $ "An unnecessary foreign module implementation was provided for module " <> markCode (runModuleName mn) <> ": "
, indent . lineS $ path
, line $ "Module " <> markCode (runModuleName mn) <> " does not contain any foreign import declarations, so a foreign module is not necessary."
]
renderSimpleErrorMessage (MissingFFIImplementations mn idents) =
paras [ line $ "The following values are not defined in the foreign module for module " <> markCode (runModuleName mn) <> ": "
, indent . paras $ map (line . runIdent) idents
]
renderSimpleErrorMessage (UnusedFFIImplementations mn idents) =
paras [ line $ "The following definitions in the foreign module for module " <> markCode (runModuleName mn) <> " are unused: "
, indent . paras $ map (line . runIdent) idents
]
renderSimpleErrorMessage (InvalidFFIIdentifier mn ident) =
paras [ line $ "In the FFI module for " <> markCode (runModuleName mn) <> ":"
, indent . paras $
[ line $ "The identifier " <> markCode ident <> " is not valid in PureScript."
, line "Note that exported identifiers in FFI modules must be valid PureScript identifiers."
]
]
renderSimpleErrorMessage InvalidDoBind =
line "The last statement in a 'do' block must be an expression, but this block ends with a binder."
renderSimpleErrorMessage InvalidDoLet =
line "The last statement in a 'do' block must be an expression, but this block ends with a let binding."
renderSimpleErrorMessage OverlappingNamesInLet =
line "The same name was used more than once in a let binding."
renderSimpleErrorMessage (InfiniteType ty) =
paras [ line "An infinite type was inferred for an expression: "
, markCodeBox $ indent $ typeAsBox ty
]
renderSimpleErrorMessage (InfiniteKind ki) =
paras [ line "An infinite kind was inferred for a type: "
, indent $ line $ markCode $ prettyPrintKind ki
]
renderSimpleErrorMessage (MultipleValueOpFixities op) =
line $ "There are multiple fixity/precedence declarations for operator " <> markCode (showOp op)
renderSimpleErrorMessage (MultipleTypeOpFixities op) =
line $ "There are multiple fixity/precedence declarations for type operator " <> markCode (showOp op)
renderSimpleErrorMessage (OrphanTypeDeclaration nm) =
line $ "The type declaration for " <> markCode (showIdent nm) <> " should be followed by its definition."
renderSimpleErrorMessage (RedefinedIdent name) =
line $ "The value " <> markCode (showIdent name) <> " has been defined multiple times"
renderSimpleErrorMessage (UnknownName name@(Qualified Nothing (IdentName (Ident i)))) | i `elem` [ C.bind, C.discard ] =
line $ "Unknown " <> printName name <> ". You're probably using do-notation, which the compiler replaces with calls to the " <> markCode i <> " function. Please import " <> markCode i <> " from module " <> markCode "Prelude"
renderSimpleErrorMessage (UnknownName name) =
line $ "Unknown " <> printName name
renderSimpleErrorMessage (UnknownImport mn name) =
paras [ line $ "Cannot import " <> printName (Qualified Nothing name) <> " from module " <> markCode (runModuleName mn)
, line "It either does not exist or the module does not export it."
]
renderSimpleErrorMessage (UnknownImportDataConstructor mn tcon dcon) =
line $ "Module " <> runModuleName mn <> " does not export data constructor " <> markCode (runProperName dcon) <> " for type " <> markCode (runProperName tcon)
renderSimpleErrorMessage (UnknownExport name) =
line $ "Cannot export unknown " <> printName (Qualified Nothing name)
renderSimpleErrorMessage (UnknownExportDataConstructor tcon dcon) =
line $ "Cannot export data constructor " <> markCode (runProperName dcon) <> " for type " <> markCode (runProperName tcon) <> ", as it has not been declared."
renderSimpleErrorMessage (ScopeConflict nm ms) =
paras [ line $ "Conflicting definitions are in scope for " <> printName (Qualified Nothing nm) <> " from the following modules:"
, indent $ paras $ map (line . markCode . runModuleName) ms
]
renderSimpleErrorMessage (ScopeShadowing nm exmn ms) =
paras [ line $ "Shadowed definitions are in scope for " <> printName (Qualified Nothing nm) <> " from the following open imports:"
, indent $ paras $ map (line . markCode . ("import " <>) . runModuleName) ms
, line $ "These will be ignored and the " <> case exmn of
Just exmn' -> "declaration from " <> markCode (runModuleName exmn') <> " will be used."
Nothing -> "local declaration will be used."
]
renderSimpleErrorMessage (DeclConflict new existing) =
line $ "Declaration for " <> printName (Qualified Nothing new) <> " conflicts with an existing " <> nameType existing <> " of the same name."
renderSimpleErrorMessage (ExportConflict new existing) =
line $ "Export for " <> printName new <> " conflicts with " <> runName existing
renderSimpleErrorMessage (DuplicateModule mn) =
line $ "Module " <> markCode (runModuleName mn) <> " has been defined multiple times"
renderSimpleErrorMessage (DuplicateTypeClass pn ss) =
paras [ line ("Type class " <> markCode (runProperName pn) <> " has been defined multiple times:")
, indent $ line $ displaySourceSpan relPath ss
]
renderSimpleErrorMessage (DuplicateInstance pn ss) =
paras [ line ("Instance " <> markCode (showIdent pn) <> " has been defined multiple times:")
, indent $ line $ displaySourceSpan relPath ss
]
renderSimpleErrorMessage (CycleInDeclaration nm) =
line $ "The value of " <> markCode (showIdent nm) <> " is undefined here, so this reference is not allowed."
renderSimpleErrorMessage (CycleInModules mns) =
paras [ line "There is a cycle in module dependencies in these modules: "
, indent $ paras (map (line . markCode . runModuleName) mns)
]
renderSimpleErrorMessage (CycleInTypeSynonym name) =
paras [ line $ case name of
Just pn -> "A cycle appears in the definition of type synonym " <> markCode (runProperName pn)
Nothing -> "A cycle appears in a set of type synonym definitions."
, line "Cycles are disallowed because they can lead to loops in the type checker."
, line "Consider using a 'newtype' instead."
]
renderSimpleErrorMessage (NameIsUndefined ident) =
line $ "Value " <> markCode (showIdent ident) <> " is undefined."
renderSimpleErrorMessage (UndefinedTypeVariable name) =
line $ "Type variable " <> markCode (runProperName name) <> " is undefined."
renderSimpleErrorMessage (PartiallyAppliedSynonym name) =
paras [ line $ "Type synonym " <> markCode (showQualified runProperName name) <> " is partially applied."
, line "Type synonyms must be applied to all of their type arguments."
]
renderSimpleErrorMessage (EscapedSkolem name Nothing ty) =
paras [ line $ "The type variable " <> markCode name <> " has escaped its scope, appearing in the type"
, markCodeBox $ indent $ typeAsBox ty
]
renderSimpleErrorMessage (EscapedSkolem name (Just srcSpan) ty) =
paras [ line $ "The type variable " <> markCode name <> ", bound at"
, indent $ line $ displaySourceSpan relPath srcSpan
, line "has escaped its scope, appearing in the type"
, markCodeBox $ indent $ typeAsBox ty
]
renderSimpleErrorMessage (TypesDoNotUnify u1 u2)
= let (sorted1, sorted2) = sortRows u1 u2
sortRows :: Type -> Type -> (Type, Type)
sortRows r1@RCons{} r2@RCons{} = sortRows' (rowToList r1) (rowToList r2)
sortRows t1 t2 = (t1, t2)
sortRows' :: ([(Label, Type)], Type) -> ([(Label, Type)], Type) -> (Type, Type)
sortRows' (s1, r1) (s2, r2) =
let (common1, unique1) = partition (flip elem s2) s1
(common2, unique2) = partition (flip elem s1) s2
in ( rowFromList (sort unique1 ++ sort common1, r1)
, rowFromList (sort unique2 ++ sort common2, r2)
)
in paras [ line "Could not match type"
, markCodeBox $ indent $ typeAsBox sorted1
, line "with type"
, markCodeBox $ indent $ typeAsBox sorted2
]
renderSimpleErrorMessage (KindsDoNotUnify k1 k2) =
paras [ line "Could not match kind"
, indent $ line $ markCode $ prettyPrintKind k1
, line "with kind"
, indent $ line $ markCode $ prettyPrintKind k2
]
renderSimpleErrorMessage (ConstrainedTypeUnified t1 t2) =
paras [ line "Could not match constrained type"
, markCodeBox $ indent $ typeAsBox t1
, line "with type"
, markCodeBox $ indent $ typeAsBox t2
]
renderSimpleErrorMessage (OverlappingInstances _ _ []) = internalError "OverlappingInstances: empty instance list"
renderSimpleErrorMessage (OverlappingInstances nm ts ds) =
paras [ line "Overlapping type class instances found for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line "The following instances were found:"
, indent $ paras (map (line . showQualified showIdent) ds)
]
renderSimpleErrorMessage (UnknownClass nm) =
paras [ line "No type class instance was found for class"
, markCodeBox $ indent $ line (showQualified runProperName nm)
, line "because the class was not in scope. Perhaps it was not exported."
]
renderSimpleErrorMessage (NoInstanceFound (Constraint C.Fail [ ty ] _)) | Just box <- toTypelevelString ty =
paras [ line "A custom type error occurred while solving type class constraints:"
, indent box
]
renderSimpleErrorMessage (NoInstanceFound (Constraint C.Partial
_
(Just (PartialConstraintData bs b)))) =
paras [ line "A case expression could not be determined to cover all inputs."
, line "The following additional cases are required to cover all inputs:"
, indent $ paras $
Box.hsep 1 Box.left
(map (paras . map (line . markCode)) (transpose bs))
: [line "..." | not b]
, line "Alternatively, add a Partial constraint to the type of the enclosing value."
]
renderSimpleErrorMessage (NoInstanceFound (Constraint C.Discard [ty] _)) =
paras [ line "A result of type"
, markCodeBox $ indent $ typeAsBox ty
, line "was implicitly discarded in a do notation block."
, line ("You can use " <> markCode "_ <- ..." <> " to explicitly discard the result.")
]
renderSimpleErrorMessage (NoInstanceFound (Constraint nm ts _)) =
paras [ line "No type class instance was found for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, paras [ line "The instance head contains unknown type variables. Consider adding a type annotation."
| any containsUnknowns ts
]
]
where
containsUnknowns :: Type -> Bool
containsUnknowns = everythingOnTypes (||) go
where
go TUnknown{} = True
go _ = False
renderSimpleErrorMessage (AmbiguousTypeVariables t _) =
paras [ line "The inferred type"
, markCodeBox $ indent $ typeAsBox t
, line "has type variables which are not mentioned in the body of the type. Consider adding a type annotation."
]
renderSimpleErrorMessage (PossiblyInfiniteInstance nm ts) =
paras [ line "Type class instance for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line "is possibly infinite."
]
renderSimpleErrorMessage (CannotDerive nm ts) =
paras [ line "Cannot derive a type class instance for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line "since instances of this type class are not derivable."
]
renderSimpleErrorMessage (InvalidNewtypeInstance nm ts) =
paras [ line "Cannot derive newtype instance for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line "Make sure this is a newtype."
]
renderSimpleErrorMessage (MissingNewtypeSuperclassInstance su cl ts) =
paras [ line "The derived newtype instance for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName cl)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line $ "does not include a derived superclass instance for " <> markCode (showQualified runProperName su) <> "."
]
renderSimpleErrorMessage (UnverifiableSuperclassInstance su cl ts) =
paras [ line "The derived newtype instance for"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName cl)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line $ "implies an superclass instance for " <> markCode (showQualified runProperName su) <> " which could not be verified."
]
renderSimpleErrorMessage (InvalidDerivedInstance nm ts argCount) =
paras [ line "Cannot derive the type class instance"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, line $ fold $
[ "because the "
, markCode (showQualified runProperName nm)
, " type class has "
, T.pack (show argCount)
, " type "
, if argCount == 1 then "argument" else "arguments"
, ", but the declaration specifies " <> T.pack (show (length ts)) <> "."
]
]
renderSimpleErrorMessage (ExpectedTypeConstructor nm ts ty) =
paras [ line "Cannot derive the type class instance"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, "because the type"
, markCodeBox $ indent $ typeAsBox ty
, line "is not of the required form T a_1 ... a_n, where T is a type constructor defined in the same module."
]
renderSimpleErrorMessage (CannotFindDerivingType nm) =
line $ "Cannot derive a type class instance, because the type declaration for " <> markCode (runProperName nm) <> " could not be found."
renderSimpleErrorMessage (DuplicateLabel l expr) =
paras $ [ line $ "Label " <> markCode (prettyPrintLabel l) <> " appears more than once in a row type." ]
<> foldMap (\expr' -> [ line "Relevant expression: "
, markCodeBox $ indent $ prettyPrintValue valueDepth expr'
]) expr
renderSimpleErrorMessage (DuplicateTypeArgument name) =
line $ "Type argument " <> markCode name <> " appears more than once."
renderSimpleErrorMessage (DuplicateValueDeclaration nm) =
line $ "Multiple value declarations exist for " <> markCode (showIdent nm) <> "."
renderSimpleErrorMessage (ArgListLengthsDiffer ident) =
line $ "Argument list lengths differ in declaration " <> markCode (showIdent ident)
renderSimpleErrorMessage (OverlappingArgNames ident) =
line $ "Overlapping names in function/binder" <> foldMap ((" in declaration " <>) . showIdent) ident
renderSimpleErrorMessage (MissingClassMember ident) =
line $ "Type class member " <> markCode (showIdent ident) <> " has not been implemented."
renderSimpleErrorMessage (ExtraneousClassMember ident className) =
line $ "" <> markCode (showIdent ident) <> " is not a member of type class " <> markCode (showQualified runProperName className)
renderSimpleErrorMessage (ExpectedType ty kind) =
paras [ line $ "In a type-annotated expression " <> markCode "x :: t" <> ", the type " <> markCode "t" <> " must have kind " <> markCode (prettyPrintKind kindType) <> "."
, line "The error arises from the type"
, markCodeBox $ indent $ typeAsBox ty
, line "having the kind"
, indent $ line $ markCode $ prettyPrintKind kind
, line "instead."
]
renderSimpleErrorMessage (IncorrectConstructorArity nm expected actual) =
paras [ line $ "Data constructor " <> markCode (showQualified runProperName nm) <> " was given " <> T.pack (show actual) <> " arguments in a case expression, but expected " <> T.pack (show expected) <> " arguments."
, line $ "This problem can be fixed by giving " <> markCode (showQualified runProperName nm) <> " " <> T.pack (show expected) <> " arguments."
]
renderSimpleErrorMessage (ExprDoesNotHaveType expr ty) =
paras [ line "Expression"
, markCodeBox $ indent $ prettyPrintValue valueDepth expr
, line "does not have type"
, markCodeBox $ indent $ typeAsBox ty
]
renderSimpleErrorMessage (PropertyIsMissing prop) =
line $ "Type of expression lacks required label " <> markCode (prettyPrintLabel prop) <> "."
renderSimpleErrorMessage (AdditionalProperty prop) =
line $ "Type of expression contains additional label " <> markCode (prettyPrintLabel prop) <> "."
renderSimpleErrorMessage TypeSynonymInstance =
line "Type class instances for type synonyms are disallowed."
renderSimpleErrorMessage (OrphanInstance nm cnm nonOrphanModules ts) =
paras [ line $ "Orphan instance " <> markCode (showIdent nm) <> " found for "
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName cnm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
, Box.vcat Box.left $ case modulesToList of
[] -> [ line "There is nowhere this instance can be placed without being an orphan."
, line "A newtype wrapper can be used to avoid this problem."
]
_ -> [ Box.text $ "This problem can be resolved by declaring the instance in "
<> T.unpack formattedModules
<> ", or by defining the instance on a newtype wrapper."
]
]
where
modulesToList = S.toList $ S.delete (moduleNameFromString "Prim") nonOrphanModules
formattedModules = T.intercalate " or " ((markCode . runModuleName) <$> modulesToList)
renderSimpleErrorMessage (InvalidNewtype name) =
paras [ line $ "Newtype " <> markCode (runProperName name) <> " is invalid."
, line "Newtypes must define a single constructor with a single argument."
]
renderSimpleErrorMessage (InvalidInstanceHead ty) =
paras [ line "Type class instance head is invalid due to use of type"
, markCodeBox $ indent $ typeAsBox ty
, line "All types appearing in instance declarations must be of the form T a_1 .. a_n, where each type a_i is of the same form, unless the type is fully determined by other type class arguments via functional dependencies."
]
renderSimpleErrorMessage (TransitiveExportError x ys) =
paras [ line $ "An export for " <> markCode (prettyPrintExport x) <> " requires the following to also be exported: "
, indent $ paras $ map (line . markCode . prettyPrintExport) ys
]
renderSimpleErrorMessage (TransitiveDctorExportError x ctor) =
paras [ line $ "An export for " <> markCode (prettyPrintExport x) <> " requires the following data constructor to also be exported: "
, indent $ line $ markCode $ runProperName ctor
]
renderSimpleErrorMessage (ShadowedName nm) =
line $ "Name " <> markCode (showIdent nm) <> " was shadowed."
renderSimpleErrorMessage (ShadowedTypeVar tv) =
line $ "Type variable " <> markCode tv <> " was shadowed."
renderSimpleErrorMessage (UnusedTypeVar tv) =
line $ "Type variable " <> markCode tv <> " is ambiguous, since it is unused in the polymorphic type which introduces it."
renderSimpleErrorMessage (MisleadingEmptyTypeImport mn name) =
line $ "Importing type " <> markCode (runProperName name <> "(..)") <> " from " <> markCode (runModuleName mn) <> " is misleading as it has no exported data constructors."
renderSimpleErrorMessage (ImportHidingModule name) =
paras [ line "hiding imports cannot be used to hide modules."
, line $ "An attempt was made to hide the import of " <> markCode (runModuleName name)
]
renderSimpleErrorMessage (WildcardInferredType ty ctx) =
paras $ [ line "Wildcard type definition has the inferred type "
, markCodeBox $ indent $ typeAsBox ty
] <> renderContext ctx
renderSimpleErrorMessage (HoleInferredType name ty ctx ts) =
let
maxTSResults = 15
tsResult = case ts of
(TSAfter{tsAfterIdentifiers=idents}) | not (null idents) ->
let
formatTS (names, types) =
let
idBoxes = Box.text . T.unpack . showQualified id <$> names
tyBoxes = (\t -> BoxHelpers.indented
(Box.text ":: " Box.<> typeAsBox t)) <$> types
longestId = maximum (map Box.cols idBoxes)
in
Box.vcat Box.top $
zipWith (Box.<>)
(Box.alignHoriz Box.left longestId <$> idBoxes)
tyBoxes
in [ line "You could substitute the hole with one of these values:"
, markCodeBox (indent (formatTS (unzip (take maxTSResults idents))))
]
_ -> []
in
paras $ [ line $ "Hole '" <> markCode name <> "' has the inferred type "
, markCodeBox (indent (typeAsBox ty))
] ++ tsResult ++ renderContext ctx
renderSimpleErrorMessage (MissingTypeDeclaration ident ty) =
paras [ line $ "No type declaration was provided for the top-level declaration of " <> markCode (showIdent ident) <> "."
, line "It is good practice to provide type declarations as a form of documentation."
, line $ "The inferred type of " <> markCode (showIdent ident) <> " was:"
, markCodeBox $ indent $ typeAsBox ty
]
renderSimpleErrorMessage (OverlappingPattern bs b) =
paras $ [ line "A case expression contains unreachable cases:\n"
, Box.hsep 1 Box.left (map (paras . map (line . prettyPrintBinderAtom)) (transpose bs))
] ++
[ line "..." | not b ]
renderSimpleErrorMessage IncompleteExhaustivityCheck =
paras [ line "An exhaustivity check was abandoned due to too many possible cases."
, line "You may want to decompose your data types into smaller types."
]
renderSimpleErrorMessage (UnusedImport name) =
line $ "The import of module " <> markCode (runModuleName name) <> " is redundant"
renderSimpleErrorMessage msg@(UnusedExplicitImport mn names _ _) =
paras [ line $ "The import of module " <> markCode (runModuleName mn) <> " contains the following unused references:"
, indent $ paras $ map (line . markCode . runName . Qualified Nothing) names
, line "It could be replaced with:"
, indent $ line $ markCode $ showSuggestion msg ]
renderSimpleErrorMessage msg@(UnusedDctorImport mn name _ _) =
paras [line $ "The import of type " <> markCode (runProperName name)
<> " from module " <> markCode (runModuleName mn) <> " includes data constructors but only the type is used"
, line "It could be replaced with:"
, indent $ line $ markCode $ showSuggestion msg ]
renderSimpleErrorMessage msg@(UnusedDctorExplicitImport mn name names _ _) =
paras [ line $ "The import of type " <> markCode (runProperName name)
<> " from module " <> markCode (runModuleName mn) <> " includes the following unused data constructors:"
, indent $ paras $ map (line . markCode . runProperName) names
, line "It could be replaced with:"
, indent $ line $ markCode $ showSuggestion msg ]
renderSimpleErrorMessage (DuplicateSelectiveImport name) =
line $ "There is an existing import of " <> markCode (runModuleName name) <> ", consider merging the import lists"
renderSimpleErrorMessage (DuplicateImport name imp qual) =
line $ "Duplicate import of " <> markCode (prettyPrintImport name imp qual)
renderSimpleErrorMessage (DuplicateImportRef name) =
line $ "Import list contains multiple references to " <> printName (Qualified Nothing name)
renderSimpleErrorMessage (DuplicateExportRef name) =
line $ "Export list contains multiple references to " <> printName (Qualified Nothing name)
renderSimpleErrorMessage (IntOutOfRange value backend lo hi) =
paras [ line $ "Integer value " <> markCode (T.pack (show value)) <> " is out of range for the " <> backend <> " backend."
, line $ "Acceptable values fall within the range " <> markCode (T.pack (show lo)) <> " to " <> markCode (T.pack (show hi)) <> " (inclusive)." ]
renderSimpleErrorMessage msg@(ImplicitQualifiedImport importedModule asModule _) =
paras [ line $ "Module " <> markCode (runModuleName importedModule) <> " was imported as " <> markCode (runModuleName asModule) <> " with unspecified imports."
, line $ "As there are multiple modules being imported as " <> markCode (runModuleName asModule) <> ", consider using the explicit form:"
, indent $ line $ markCode $ showSuggestion msg
]
renderSimpleErrorMessage msg@(ImplicitQualifiedImportReExport importedModule asModule _) =
paras [ line $ "Module " <> markCode (runModuleName importedModule) <> " was imported as " <> markCode (runModuleName asModule) <> " with unspecified imports."
, line $ "As this module is being re-exported, consider using the explicit form:"
, indent $ line $ markCode $ showSuggestion msg
]
renderSimpleErrorMessage msg@(ImplicitImport mn _) =
paras [ line $ "Module " <> markCode (runModuleName mn) <> " has unspecified imports, consider using the explicit form: "
, indent $ line $ markCode $ showSuggestion msg
]
renderSimpleErrorMessage msg@(HidingImport mn _) =
paras [ line $ "Module " <> markCode (runModuleName mn) <> " has unspecified imports, consider using the inclusive form: "
, indent $ line $ markCode $ showSuggestion msg
]
renderSimpleErrorMessage (CaseBinderLengthDiffers l bs) =
paras [ line "Binder list length differs in case alternative:"
, indent $ line $ T.intercalate ", " $ fmap prettyPrintBinderAtom bs
, line $ "Expecting " <> T.pack (show l) <> " binder" <> (if l == 1 then "" else "s") <> "."
]
renderSimpleErrorMessage IncorrectAnonymousArgument =
line "An anonymous function argument appears in an invalid context."
renderSimpleErrorMessage (InvalidOperatorInBinder op fn) =
paras [ line $ "Operator " <> markCode (showQualified showOp op) <> " cannot be used in a pattern as it is an alias for function " <> showQualified showIdent fn <> "."
, line "Only aliases for data constructors may be used in patterns."
]
renderSimpleErrorMessage (CannotGeneralizeRecursiveFunction ident ty) =
paras [ line $ "Unable to generalize the type of the recursive function " <> markCode (showIdent ident) <> "."
, line $ "The inferred type of " <> markCode (showIdent ident) <> " was:"
, markCodeBox $ indent $ typeAsBox ty
, line "Try adding a type signature."
]
renderSimpleErrorMessage (CannotDeriveNewtypeForData tyName) =
paras [ line $ "Cannot derive an instance of the " <> markCode "Newtype" <> " class for non-newtype " <> markCode (runProperName tyName) <> "."
]
renderSimpleErrorMessage (ExpectedWildcard tyName) =
paras [ line $ "Expected a type wildcard (_) when deriving an instance for " <> markCode (runProperName tyName) <> "."
]
renderSimpleErrorMessage (CannotUseBindWithDo name) =
paras [ line $ "The name " <> markCode (showIdent name) <> " cannot be brought into scope in a do notation block, since do notation uses the same name."
]
renderSimpleErrorMessage (ClassInstanceArityMismatch dictName className expected actual) =
paras [ line $ "The type class " <> markCode (showQualified runProperName className) <>
" expects " <> T.pack (show expected) <> " " <> argsMsg <> "."
, line $ "But the instance " <> markCode (showIdent dictName) <> mismatchMsg <> T.pack (show actual) <> "."
]
where
mismatchMsg = if actual > expected then " provided " else " only provided "
argsMsg = if expected > 1 then "arguments" else "argument"
renderSimpleErrorMessage (UserDefinedWarning msgTy) =
let msg = fromMaybe (typeAsBox msgTy) (toTypelevelString msgTy) in
paras [ line "A custom warning occurred while solving type class constraints:"
, indent msg
]
renderSimpleErrorMessage (UnusableDeclaration ident unexplained) =
paras $
[ line $ "The declaration " <> markCode (showIdent ident) <> " contains arguments that couldn't be determined."
] <>
case unexplained of
[required] ->
[ line $ "These arguments are: { " <> T.intercalate ", " required <> " }"
]
options ->
[ line "To fix this, one of the following sets of variables must be determined:"
, Box.moveRight 2 . Box.vsep 0 Box.top $
map (\set -> line $ "{ " <> T.intercalate ", " set <> " }") options
]
renderSimpleErrorMessage (CannotDefinePrimModules mn) =
paras $
[ line $ "The module name " <> markCode (runModuleName mn) <> " is in the Prim namespace."
, line $ "The Prim namespace is reserved for compiler-defined terms."
]
renderSimpleErrorMessage (MixedAssociativityError opsWithAssoc) =
paras
[ line "Cannot parse an expression that uses operators of the same precedence but mixed associativity:"
, indent $ paras $ map (\(name, assoc) -> line $ markCode (showQualified showOp name) <> " is " <> markCode (T.pack (showAssoc assoc))) (NEL.toList opsWithAssoc)
, line "Use parentheses to resolve this ambiguity."
]
renderSimpleErrorMessage (NonAssociativeError ops) =
if NEL.length ops == 1
then
paras
[ line $ "Cannot parse an expression that uses multiple instances of the non-associative operator " <> markCode (showQualified showOp (NEL.head ops)) <> "."
, line "Use parentheses to resolve this ambiguity."
]
else
paras
[ line "Cannot parse an expression that uses multiple non-associative operators of the same precedence:"
, indent $ paras $ map (line . markCode . showQualified showOp) (NEL.toList ops)
, line "Use parentheses to resolve this ambiguity."
]
renderHint :: ErrorMessageHint -> Box.Box -> Box.Box
renderHint (ErrorUnifyingTypes t1 t2) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while trying to match type"
, markCodeBox $ typeAsBox t1
]
, Box.moveRight 2 $ Box.hsep 1 Box.top [ line "with type"
, markCodeBox $ typeAsBox t2
]
]
renderHint (ErrorInExpression expr) detail =
paras [ detail
, Box.hsep 1 Box.top [ Box.text "in the expression"
, markCodeBox $ markCodeBox $ prettyPrintValue valueDepth expr
]
]
renderHint (ErrorInModule mn) detail =
paras [ line $ "in module " <> markCode (runModuleName mn)
, detail
]
renderHint (ErrorInSubsumption t1 t2) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while checking that type"
, markCodeBox $ typeAsBox t1
]
, Box.moveRight 2 $ Box.hsep 1 Box.top [ line "is at least as general as type"
, markCodeBox $ typeAsBox t2
]
]
renderHint (ErrorInInstance nm ts) detail =
paras [ detail
, line "in type class instance"
, markCodeBox $ indent $ Box.hsep 1 Box.top
[ line $ showQualified runProperName nm
, Box.vcat Box.left (map typeAtomAsBox ts)
]
]
renderHint (ErrorCheckingKind ty) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while checking the kind of"
, markCodeBox $ typeAsBox ty
]
]
renderHint ErrorCheckingGuard detail =
paras [ detail
, line "while checking the type of a guard clause"
]
renderHint (ErrorInferringType expr) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while inferring the type of"
, markCodeBox $ prettyPrintValue valueDepth expr
]
]
renderHint (ErrorCheckingType expr ty) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while checking that expression"
, markCodeBox $ prettyPrintValue valueDepth expr
]
, Box.moveRight 2 $ Box.hsep 1 Box.top [ line "has type"
, markCodeBox $ typeAsBox ty
]
]
renderHint (ErrorCheckingAccessor expr prop) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while checking type of property accessor"
, markCodeBox $ prettyPrintValue valueDepth (Accessor prop expr)
]
]
renderHint (ErrorInApplication f t a) detail =
paras [ detail
, Box.hsep 1 Box.top [ line "while applying a function"
, markCodeBox $ prettyPrintValue valueDepth f
]
, Box.moveRight 2 $ Box.hsep 1 Box.top [ line "of type"
, markCodeBox $ typeAsBox t
]
, Box.moveRight 2 $ Box.hsep 1 Box.top [ line "to argument"
, markCodeBox $ prettyPrintValue valueDepth a
]
]
renderHint (ErrorInDataConstructor nm) detail =
paras [ detail
, line $ "in data constructor " <> markCode (runProperName nm)
]
renderHint (ErrorInTypeConstructor nm) detail =
paras [ detail
, line $ "in type constructor " <> markCode (runProperName nm)
]
renderHint (ErrorInBindingGroup nms) detail =
paras [ detail
, line $ "in binding group " <> T.intercalate ", " (NEL.toList (fmap showIdent nms))
]
renderHint (ErrorInDataBindingGroup nms) detail =
paras [ detail
, line $ "in data binding group " <> T.intercalate ", " (map runProperName nms)
]
renderHint (ErrorInTypeSynonym name) detail =
paras [ detail
, line $ "in type synonym " <> markCode (runProperName name)
]
renderHint (ErrorInValueDeclaration n) detail =
paras [ detail
, line $ "in value declaration " <> markCode (showIdent n)
]
renderHint (ErrorInTypeDeclaration n) detail =
paras [ detail
, line $ "in type declaration for " <> markCode (showIdent n)
]
renderHint (ErrorInTypeClassDeclaration name) detail =
paras [ detail
, line $ "in type class declaration for " <> markCode (runProperName name)
]
renderHint (ErrorInForeignImport nm) detail =
paras [ detail
, line $ "in foreign import " <> markCode (showIdent nm)
]
renderHint (ErrorSolvingConstraint (Constraint nm ts _)) detail =
paras [ detail
, line "while solving type class constraint"
, markCodeBox $ indent $ Box.hsep 1 Box.left
[ line (showQualified runProperName nm)
, Box.vcat Box.left (map typeAtomAsBox ts)
]
]
renderHint (PositionedError srcSpan) detail =
paras [ line $ "at " <> displaySourceSpan relPath (NEL.head srcSpan)
, detail
]
renderContext :: Context -> [Box.Box]
renderContext [] = []
renderContext ctx =
[ line "in the following context:"
, indent $ paras
[ Box.hcat Box.left [ Box.text (T.unpack (showIdent ident) ++ " :: ")
, markCodeBox $ typeAsBox ty'
]
| (ident, ty') <- take 5 ctx
]
]
printName :: Qualified Name -> Text
printName qn = nameType (disqualify qn) <> " " <> markCode (runName qn)
nameType :: Name -> Text
nameType (IdentName _) = "value"
nameType (ValOpName _) = "operator"
nameType (TyName _) = "type"
nameType (TyOpName _) = "type operator"
nameType (DctorName _) = "data constructor"
nameType (TyClassName _) = "type class"
nameType (ModName _) = "module"
nameType (KiName _) = "kind"
runName :: Qualified Name -> Text
runName (Qualified mn (IdentName name)) =
showQualified showIdent (Qualified mn name)
runName (Qualified mn (ValOpName op)) =
showQualified showOp (Qualified mn op)
runName (Qualified mn (TyName name)) =
showQualified runProperName (Qualified mn name)
runName (Qualified mn (TyOpName op)) =
showQualified showOp (Qualified mn op)
runName (Qualified mn (DctorName name)) =
showQualified runProperName (Qualified mn name)
runName (Qualified mn (TyClassName name)) =
showQualified runProperName (Qualified mn name)
runName (Qualified mn (KiName name)) =
showQualified runProperName (Qualified mn name)
runName (Qualified Nothing (ModName name)) =
runModuleName name
runName (Qualified _ ModName{}) =
internalError "qualified ModName in runName"
valueDepth :: Int
valueDepth | full = 1000
| otherwise = 3
levelText :: Text
levelText = case level of
Error -> "error"
Warning -> "warning"
paras :: [Box.Box] -> Box.Box
paras = Box.vcat Box.left
simplifyErrorMessage :: ErrorMessage -> ErrorMessage
simplifyErrorMessage (ErrorMessage hints simple) = ErrorMessage (simplifyHints hints) simple
where
simplifyHints :: [ErrorMessageHint] -> [ErrorMessageHint]
simplifyHints = reverse . nubBy categoriesEqual . stripRedudantHints simple . reverse
categoriesEqual :: ErrorMessageHint -> ErrorMessageHint -> Bool
categoriesEqual x y =
case (hintCategory x, hintCategory y) of
(OtherHint, _) -> False
(_, OtherHint) -> False
(c1, c2) -> c1 == c2
stripRedudantHints :: SimpleErrorMessage -> [ErrorMessageHint] -> [ErrorMessageHint]
stripRedudantHints ExprDoesNotHaveType{} = stripFirst isCheckHint
where
isCheckHint ErrorCheckingType{} = True
isCheckHint _ = False
stripRedudantHints TypesDoNotUnify{} = stripFirst isUnifyHint
where
isUnifyHint ErrorUnifyingTypes{} = True
isUnifyHint _ = False
stripRedudantHints NoInstanceFound{} = stripFirst isSolverHint
where
isSolverHint ErrorSolvingConstraint{} = True
isSolverHint _ = False
stripRedudantHints _ = id
stripFirst :: (ErrorMessageHint -> Bool) -> [ErrorMessageHint] -> [ErrorMessageHint]
stripFirst p (PositionedError pos : hs) = PositionedError pos : stripFirst p hs
stripFirst p (ErrorInModule mn : hs) = ErrorInModule mn : stripFirst p hs
stripFirst p (hint : hs)
| p hint = hs
| otherwise = hint : hs
stripFirst _ [] = []
hintCategory :: ErrorMessageHint -> HintCategory
hintCategory ErrorCheckingType{} = ExprHint
hintCategory ErrorInferringType{} = ExprHint
hintCategory ErrorInExpression{} = ExprHint
hintCategory ErrorUnifyingTypes{} = CheckHint
hintCategory ErrorInSubsumption{} = CheckHint
hintCategory ErrorInApplication{} = CheckHint
hintCategory ErrorCheckingKind{} = CheckHint
hintCategory ErrorSolvingConstraint{} = SolverHint
hintCategory PositionedError{} = PositionHint
hintCategory _ = OtherHint
prettyPrintExport :: DeclarationRef -> Text
prettyPrintExport (TypeRef _ pn _) = runProperName pn
prettyPrintExport ref =
fromMaybe
(internalError "prettyPrintRef returned Nothing in prettyPrintExport")
(prettyPrintRef ref)
prettyPrintImport :: ModuleName -> ImportDeclarationType -> Maybe ModuleName -> Text
prettyPrintImport mn idt qual =
let i = case idt of
Implicit -> runModuleName mn
Explicit refs -> runModuleName mn <> " (" <> T.intercalate ", " (mapMaybe prettyPrintRef refs) <> ")"
Hiding refs -> runModuleName mn <> " hiding (" <> T.intercalate "," (mapMaybe prettyPrintRef refs) <> ")"
in i <> maybe "" (\q -> " as " <> runModuleName q) qual
prettyPrintRef :: DeclarationRef -> Maybe Text
prettyPrintRef (TypeRef _ pn Nothing) =
Just $ runProperName pn <> "(..)"
prettyPrintRef (TypeRef _ pn (Just [])) =
Just $ runProperName pn
prettyPrintRef (TypeRef _ pn (Just dctors)) =
Just $ runProperName pn <> "(" <> T.intercalate ", " (map runProperName dctors) <> ")"
prettyPrintRef (TypeOpRef _ op) =
Just $ "type " <> showOp op
prettyPrintRef (ValueRef _ ident) =
Just $ showIdent ident
prettyPrintRef (ValueOpRef _ op) =
Just $ showOp op
prettyPrintRef (TypeClassRef _ pn) =
Just $ "class " <> runProperName pn
prettyPrintRef (TypeInstanceRef _ ident) =
Just $ showIdent ident
prettyPrintRef (ModuleRef _ name) =
Just $ "module " <> runModuleName name
prettyPrintRef (KindRef _ pn) =
Just $ "kind " <> runProperName pn
prettyPrintRef ReExportRef{} =
Nothing
prettyPrintMultipleErrors :: PPEOptions -> MultipleErrors -> String
prettyPrintMultipleErrors ppeOptions = unlines . map renderBox . prettyPrintMultipleErrorsBox ppeOptions
prettyPrintMultipleWarnings :: PPEOptions -> MultipleErrors -> String
prettyPrintMultipleWarnings ppeOptions = unlines . map renderBox . prettyPrintMultipleWarningsBox ppeOptions
prettyPrintMultipleWarningsBox :: PPEOptions -> MultipleErrors -> [Box.Box]
prettyPrintMultipleWarningsBox ppeOptions = prettyPrintMultipleErrorsWith (ppeOptions { ppeLevel = Warning }) "Warning found:" "Warning"
prettyPrintMultipleErrorsBox :: PPEOptions -> MultipleErrors -> [Box.Box]
prettyPrintMultipleErrorsBox ppeOptions = prettyPrintMultipleErrorsWith (ppeOptions { ppeLevel = Error }) "Error found:" "Error"
prettyPrintMultipleErrorsWith :: PPEOptions -> String -> String -> MultipleErrors -> [Box.Box]
prettyPrintMultipleErrorsWith ppeOptions intro _ (MultipleErrors [e]) =
let result = prettyPrintSingleError ppeOptions e
in [ Box.vcat Box.left [ Box.text intro
, result
]
]
prettyPrintMultipleErrorsWith ppeOptions _ intro (MultipleErrors es) =
let result = map (prettyPrintSingleError ppeOptions) es
in concat $ zipWith withIntro [1 :: Int ..] result
where
withIntro i err = [ Box.text (intro ++ " " ++ show i ++ " of " ++ show (length es) ++ ":")
, Box.moveRight 2 err
]
prettyPrintParseError :: P.ParseError -> Box.Box
prettyPrintParseError = prettyPrintParseErrorMessages "or" "unknown parse error" "expecting" "unexpected" "end of input" . PE.errorMessages
prettyPrintParseErrorMessages :: String -> String -> String -> String -> String -> [Message] -> Box.Box
prettyPrintParseErrorMessages msgOr msgUnknown msgExpecting msgUnExpected msgEndOfInput msgs
| null msgs = Box.text msgUnknown
| otherwise = Box.vcat Box.left $ map Box.text $ clean [showSysUnExpect,showUnExpect,showExpect,showMessages]
where
(sysUnExpect,msgs1) = span (SysUnExpect "" ==) msgs
(unExpect,msgs2) = span (UnExpect "" ==) msgs1
(expect,messages) = span (Expect "" ==) msgs2
showExpect = showMany msgExpecting expect
showUnExpect = showMany msgUnExpected unExpect
showSysUnExpect | not (null unExpect) ||
null sysUnExpect = ""
| null firstMsg = msgUnExpected ++ " " ++ msgEndOfInput
| otherwise = msgUnExpected ++ " " ++ firstMsg
where
firstMsg = PE.messageString (head sysUnExpect)
showMessages = showMany "" messages
showMany pre msgs' = case clean (map PE.messageString msgs') of
[] -> ""
ms | null pre -> commasOr ms
| otherwise -> pre ++ " " ++ commasOr ms
commasOr [] = ""
commasOr [m] = m
commasOr ms = commaSep (init ms) ++ " " ++ msgOr ++ " " ++ last ms
commaSep = separate ", " . clean
separate _ [] = ""
separate _ [m] = m
separate sep (m:ms) = m ++ sep ++ separate sep ms
clean = ordNub . filter (not . null)
indent :: Box.Box -> Box.Box
indent = Box.moveUp 1 . Box.moveDown 1 . Box.moveRight 2
line :: Text -> Box.Box
line = Box.text . T.unpack
lineS :: String -> Box.Box
lineS = Box.text
renderBox :: Box.Box -> String
renderBox = unlines
. map (dropWhileEnd isSpace)
. dropWhile whiteSpace
. dropWhileEnd whiteSpace
. lines
. Box.render
where
whiteSpace = all isSpace
toTypelevelString :: Type -> Maybe Box.Box
toTypelevelString (TypeLevelString s) =
Just . Box.text $ decodeStringWithReplacement s
toTypelevelString (TypeApp (TypeConstructor f) x)
| f == primSubName C.typeError "Text" = toTypelevelString x
toTypelevelString (TypeApp (TypeConstructor f) x)
| f == primSubName C.typeError "Quote" = Just (typeAsBox x)
toTypelevelString (TypeApp (TypeApp (TypeConstructor f) x) ret)
| f == primSubName C.typeError "Beside" =
(Box.<>) <$> toTypelevelString x <*> toTypelevelString ret
toTypelevelString (TypeApp (TypeApp (TypeConstructor f) x) ret)
| f == primSubName C.typeError "Above" =
(Box.//) <$> toTypelevelString x <*> toTypelevelString ret
toTypelevelString _ = Nothing
rethrow :: (MonadError e m) => (e -> e) -> m a -> m a
rethrow f = flip catchError (throwError . f)
reifyErrors :: (MonadError e m) => m a -> m (Either e a)
reifyErrors ma = catchError (fmap Right ma) (return . Left)
reflectErrors :: (MonadError e m) => m (Either e a) -> m a
reflectErrors ma = ma >>= either throwError return
warnAndRethrow :: (MonadError e m, MonadWriter e m) => (e -> e) -> m a -> m a
warnAndRethrow f = rethrow f . censor f
rethrowWithPosition :: (MonadError MultipleErrors m) => SourceSpan -> m a -> m a
rethrowWithPosition pos = rethrow (onErrorMessages (withPosition pos))
warnWithPosition :: (MonadWriter MultipleErrors m) => SourceSpan -> m a -> m a
warnWithPosition pos = censor (onErrorMessages (withPosition pos))
warnAndRethrowWithPosition :: (MonadError MultipleErrors m, MonadWriter MultipleErrors m) => SourceSpan -> m a -> m a
warnAndRethrowWithPosition pos = rethrowWithPosition pos . warnWithPosition pos
withPosition :: SourceSpan -> ErrorMessage -> ErrorMessage
withPosition pos (ErrorMessage hints se) = ErrorMessage (positionedError pos : hints) se
positionedError :: SourceSpan -> ErrorMessageHint
positionedError = PositionedError . pure
escalateWarningWhen
:: (MonadWriter MultipleErrors m, MonadError MultipleErrors m)
=> (ErrorMessage -> Bool)
-> m a
-> m a
escalateWarningWhen isError ma = do
(a, w) <- censor (const mempty) $ listen ma
let (errors, warnings) = partition isError (runMultipleErrors w)
tell $ MultipleErrors warnings
unless (null errors) $ throwError $ MultipleErrors errors
return a
parU
:: forall m a b
. MonadError MultipleErrors m
=> [a]
-> (a -> m b)
-> m [b]
parU xs f =
forM xs (withError . f) >>= collectErrors
where
withError :: m b -> m (Either MultipleErrors b)
withError u = catchError (Right <$> u) (return . Left)
collectErrors :: [Either MultipleErrors b] -> m [b]
collectErrors es = case partitionEithers es of
([], rs) -> return rs
(errs, _) -> throwError $ fold errs