{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# OPTIONS_GHC -Wall #-}
module Dhall.TypeCheck (
typeWith
, typeOf
, typeWithA
, checkContext
, Typer
, X(..)
, TypeError(..)
, DetailedTypeError(..)
, TypeMessage(..)
) where
import Control.Exception (Exception)
import Data.Data (Data(..))
import Data.Foldable (forM_, toList)
import Data.List.NonEmpty (NonEmpty(..))
import Data.Sequence (Seq, ViewL(..))
import Data.Semigroup (Semigroup(..))
import Data.Set (Set)
import Data.Text (Text)
import Data.Text.Prettyprint.Doc (Doc, Pretty(..))
import Data.Traversable (forM)
import Data.Typeable (Typeable)
import Dhall.Core (Binding(..), Const(..), Chunks(..), Expr(..), Var(..))
import Dhall.Context (Context)
import Dhall.Pretty (Ann, layoutOpts)
import qualified Data.Foldable
import qualified Data.Sequence
import qualified Data.Set
import qualified Data.Text as Text
import qualified Data.Text.Prettyprint.Doc as Pretty
import qualified Data.Text.Prettyprint.Doc.Render.String as Pretty
import qualified Dhall.Context
import qualified Dhall.Core
import qualified Dhall.Diff
import qualified Dhall.Map
import qualified Dhall.Set
import qualified Dhall.Pretty.Internal
import qualified Dhall.Util
traverseWithIndex_ :: Applicative f => (Int -> a -> f b) -> Seq a -> f ()
traverseWithIndex_ k xs =
Data.Foldable.sequenceA_ (Data.Sequence.mapWithIndex k xs)
axiom :: Const -> Either (TypeError s a) Const
axiom Type = return Kind
axiom Kind = return Sort
axiom Sort = Left (TypeError Dhall.Context.empty (Const Sort) Untyped)
rule :: Const -> Const -> Either () Const
rule Type Type = return Type
rule Kind Type = return Type
rule Sort Type = return Type
rule Kind Kind = return Kind
rule Sort Kind = return Sort
rule Sort Sort = return Sort
rule _ _ = Left ()
typeWith :: Context (Expr s X) -> Expr s X -> Either (TypeError s X) (Expr s X)
typeWith ctx expr = do
checkContext ctx
typeWithA absurd ctx expr
type Typer a = forall s. a -> Expr s a
typeWithA
:: Eq a
=> Typer a
-> Context (Expr s a)
-> Expr s a
-> Either (TypeError s a) (Expr s a)
typeWithA tpa = loop
where
loop _ (Const c ) = do
fmap Const (axiom c)
loop ctx e@(Var (V x n) ) = do
case Dhall.Context.lookup x n ctx of
Nothing -> Left (TypeError ctx e (UnboundVariable x))
Just a -> do
return a
loop ctx (Lam x _A b ) = do
_ <- loop ctx _A
let ctx' = fmap (Dhall.Core.shift 1 (V x 0)) (Dhall.Context.insert x (Dhall.Core.normalize _A) ctx)
_B <- loop ctx' b
let p = Pi x _A _B
_t <- loop ctx p
return p
loop ctx e@(Pi x _A _B ) = do
tA <- fmap Dhall.Core.normalize (loop ctx _A)
kA <- case tA of
Const k -> return k
_ -> Left (TypeError ctx e (InvalidInputType _A))
let ctx' = fmap (Dhall.Core.shift 1 (V x 0)) (Dhall.Context.insert x (Dhall.Core.normalize _A) ctx)
tB <- fmap Dhall.Core.normalize (loop ctx' _B)
kB <- case tB of
Const k -> return k
_ -> Left (TypeError ctx' e (InvalidOutputType _B))
case rule kA kB of
Left () -> Left (TypeError ctx e (NoDependentTypes _A _B))
Right k -> Right (Const k)
loop ctx e@(App f a ) = do
tf <- fmap Dhall.Core.normalize (loop ctx f)
(x, _A, _B) <- case tf of
Pi x _A _B -> return (x, _A, _B)
_ -> Left (TypeError ctx e (NotAFunction f tf))
_A' <- loop ctx a
if Dhall.Core.judgmentallyEqual _A _A'
then do
let a' = Dhall.Core.shift 1 (V x 0) a
let _B' = Dhall.Core.subst (V x 0) a' _B
let _B'' = Dhall.Core.shift (-1) (V x 0) _B'
return _B''
else do
let nf_A = Dhall.Core.normalize _A
let nf_A' = Dhall.Core.normalize _A'
Left (TypeError ctx e (TypeMismatch f nf_A a nf_A'))
loop ctx e@(Let (Binding x mA a0 :| ls) b0) = do
_A1 <- loop ctx a0
case mA of
Just _A0 -> do
_ <- loop ctx _A0
let nf_A0 = Dhall.Core.normalize _A0
let nf_A1 = Dhall.Core.normalize _A1
if Dhall.Core.judgmentallyEqual _A0 _A1
then return ()
else Left (TypeError ctx e (AnnotMismatch a0 nf_A0 nf_A1))
Nothing -> return ()
t <- loop ctx _A1
let a1 = Dhall.Core.normalize a0
let a2 = Dhall.Core.shift 1 (V x 0) a1
let rest = case ls of
[] -> b0
l' : ls' -> Let (l' :| ls') b0
case Dhall.Core.normalize t of
Const Type -> do
let ctx' = fmap (Dhall.Core.shift 1 (V x 0)) (Dhall.Context.insert x (Dhall.Core.normalize _A1) ctx)
_B0 <- loop ctx' rest
let _B1 = Dhall.Core.subst (V x 0) a2 _B0
let _B2 = Dhall.Core.shift (-1) (V x 0) _B1
return _B2
_ -> do
let b1 = Dhall.Core.subst (V x 0) a2 rest
let b2 = Dhall.Core.shift (-1) (V x 0) b1
loop ctx b2
loop ctx e@(Annot x t ) = do
_ <- loop ctx t
t' <- loop ctx x
if Dhall.Core.judgmentallyEqual t t'
then do
return t
else do
let nf_t = Dhall.Core.normalize t
let nf_t' = Dhall.Core.normalize t'
Left (TypeError ctx e (AnnotMismatch x nf_t nf_t'))
loop _ Bool = do
return (Const Type)
loop _ (BoolLit _ ) = do
return Bool
loop ctx e@(BoolAnd l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Bool -> return ()
_ -> Left (TypeError ctx e (CantAnd l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Bool -> return ()
_ -> Left (TypeError ctx e (CantAnd r tr))
return Bool
loop ctx e@(BoolOr l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Bool -> return ()
_ -> Left (TypeError ctx e (CantOr l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Bool -> return ()
_ -> Left (TypeError ctx e (CantOr r tr))
return Bool
loop ctx e@(BoolEQ l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Bool -> return ()
_ -> Left (TypeError ctx e (CantEQ l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Bool -> return ()
_ -> Left (TypeError ctx e (CantEQ r tr))
return Bool
loop ctx e@(BoolNE l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Bool -> return ()
_ -> Left (TypeError ctx e (CantNE l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Bool -> return ()
_ -> Left (TypeError ctx e (CantNE r tr))
return Bool
loop ctx e@(BoolIf x y z ) = do
tx <- fmap Dhall.Core.normalize (loop ctx x)
case tx of
Bool -> return ()
_ -> Left (TypeError ctx e (InvalidPredicate x tx))
ty <- fmap Dhall.Core.normalize (loop ctx y )
tty <- fmap Dhall.Core.normalize (loop ctx ty)
case tty of
Const Type -> return ()
_ -> Left (TypeError ctx e (IfBranchMustBeTerm True y ty tty))
tz <- fmap Dhall.Core.normalize (loop ctx z)
ttz <- fmap Dhall.Core.normalize (loop ctx tz)
case ttz of
Const Type -> return ()
_ -> Left (TypeError ctx e (IfBranchMustBeTerm False z tz ttz))
if Dhall.Core.judgmentallyEqual ty tz
then return ()
else Left (TypeError ctx e (IfBranchMismatch y z ty tz))
return ty
loop _ Natural = do
return (Const Type)
loop _ (NaturalLit _ ) = do
return Natural
loop _ NaturalFold = do
return
(Pi "_" Natural
(Pi "natural" (Const Type)
(Pi "succ" (Pi "_" "natural" "natural")
(Pi "zero" "natural" "natural") ) ) )
loop _ NaturalBuild = do
return
(Pi "_"
(Pi "natural" (Const Type)
(Pi "succ" (Pi "_" "natural" "natural")
(Pi "zero" "natural" "natural") ) )
Natural )
loop _ NaturalIsZero = do
return (Pi "_" Natural Bool)
loop _ NaturalEven = do
return (Pi "_" Natural Bool)
loop _ NaturalOdd = do
return (Pi "_" Natural Bool)
loop _ NaturalToInteger = do
return (Pi "_" Natural Integer)
loop _ NaturalShow = do
return (Pi "_" Natural Text)
loop ctx e@(NaturalPlus l r) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Natural -> return ()
_ -> Left (TypeError ctx e (CantAdd l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Natural -> return ()
_ -> Left (TypeError ctx e (CantAdd r tr))
return Natural
loop ctx e@(NaturalTimes l r) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Natural -> return ()
_ -> Left (TypeError ctx e (CantMultiply l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Natural -> return ()
_ -> Left (TypeError ctx e (CantMultiply r tr))
return Natural
loop _ Integer = do
return (Const Type)
loop _ (IntegerLit _ ) = do
return Integer
loop _ IntegerShow = do
return (Pi "_" Integer Text)
loop _ IntegerToDouble = do
return (Pi "_" Integer Double)
loop _ Double = do
return (Const Type)
loop _ (DoubleLit _ ) = do
return Double
loop _ DoubleShow = do
return (Pi "_" Double Text)
loop _ Text = do
return (Const Type)
loop ctx e@(TextLit (Chunks xys _)) = do
let process (_, y) = do
ty <- fmap Dhall.Core.normalize (loop ctx y)
case ty of
Text -> return ()
_ -> Left (TypeError ctx e (CantInterpolate y ty))
mapM_ process xys
return Text
loop ctx e@(TextAppend l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
case tl of
Text -> return ()
_ -> Left (TypeError ctx e (CantTextAppend l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
case tr of
Text -> return ()
_ -> Left (TypeError ctx e (CantTextAppend r tr))
return Text
loop _ TextShow = do
return (Pi "_" Text Text)
loop _ List = do
return (Pi "_" (Const Type) (Const Type))
loop ctx e@(ListLit Nothing xs) = do
case Data.Sequence.viewl xs of
x0 :< _ -> do
t <- loop ctx x0
s <- fmap Dhall.Core.normalize (loop ctx t)
case s of
Const Type -> return ()
_ -> Left (TypeError ctx e (InvalidListType t))
flip traverseWithIndex_ xs (\i x -> do
t' <- loop ctx x
if Dhall.Core.judgmentallyEqual t t'
then return ()
else do
let nf_t = Dhall.Core.normalize t
let nf_t' = Dhall.Core.normalize t'
let err = MismatchedListElements i nf_t x nf_t'
Left (TypeError ctx x err) )
return (App List t)
_ -> Left (TypeError ctx e MissingListType)
loop ctx e@(ListLit (Just t ) xs) = do
s <- fmap Dhall.Core.normalize (loop ctx t)
case s of
Const Type -> return ()
_ -> Left (TypeError ctx e (InvalidListType t))
flip traverseWithIndex_ xs (\i x -> do
t' <- loop ctx x
if Dhall.Core.judgmentallyEqual t t'
then return ()
else do
let nf_t = Dhall.Core.normalize t
let nf_t' = Dhall.Core.normalize t'
Left (TypeError ctx x (InvalidListElement i nf_t x nf_t')) )
return (App List t)
loop ctx e@(ListAppend l r ) = do
tl <- fmap Dhall.Core.normalize (loop ctx l)
el <- case tl of
App List el -> return el
_ -> Left (TypeError ctx e (CantListAppend l tl))
tr <- fmap Dhall.Core.normalize (loop ctx r)
er <- case tr of
App List er -> return er
_ -> Left (TypeError ctx e (CantListAppend r tr))
if Dhall.Core.judgmentallyEqual el er
then return (App List el)
else Left (TypeError ctx e (ListAppendMismatch el er))
loop _ ListBuild = do
return
(Pi "a" (Const Type)
(Pi "_"
(Pi "list" (Const Type)
(Pi "cons" (Pi "_" "a" (Pi "_" "list" "list"))
(Pi "nil" "list" "list") ) )
(App List "a") ) )
loop _ ListFold = do
return
(Pi "a" (Const Type)
(Pi "_" (App List "a")
(Pi "list" (Const Type)
(Pi "cons" (Pi "_" "a" (Pi "_" "list" "list"))
(Pi "nil" "list" "list")) ) ) )
loop _ ListLength = do
return (Pi "a" (Const Type) (Pi "_" (App List "a") Natural))
loop _ ListHead = do
return (Pi "a" (Const Type) (Pi "_" (App List "a") (App Optional "a")))
loop _ ListLast = do
return (Pi "a" (Const Type) (Pi "_" (App List "a") (App Optional "a")))
loop _ ListIndexed = do
let kts = [("index", Natural), ("value", "a")]
return
(Pi "a" (Const Type)
(Pi "_" (App List "a")
(App List (Record (Dhall.Map.fromList kts))) ) )
loop _ ListReverse = do
return (Pi "a" (Const Type) (Pi "_" (App List "a") (App List "a")))
loop _ Optional = do
return (Pi "_" (Const Type) (Const Type))
loop _ None = do
return (Pi "A" (Const Type) (App Optional "A"))
loop ctx e@(OptionalLit t xs) = do
s <- fmap Dhall.Core.normalize (loop ctx t)
case s of
Const Type -> return ()
_ -> Left (TypeError ctx e (InvalidOptionalType t))
forM_ xs (\x -> do
t' <- loop ctx x
if Dhall.Core.judgmentallyEqual t t'
then return ()
else do
let nf_t = Dhall.Core.normalize t
let nf_t' = Dhall.Core.normalize t'
Left (TypeError ctx e (InvalidOptionalElement nf_t x nf_t')) )
return (App Optional t)
loop ctx e@(Some a) = do
_A <- loop ctx a
s <- fmap Dhall.Core.normalize (loop ctx _A)
case s of
Const Type -> return ()
_ -> Left (TypeError ctx e (InvalidSome a _A s))
return (App Optional _A)
loop _ OptionalFold = do
return
(Pi "a" (Const Type)
(Pi "_" (App Optional "a")
(Pi "optional" (Const Type)
(Pi "just" (Pi "_" "a" "optional")
(Pi "nothing" "optional" "optional") ) ) ) )
loop _ OptionalBuild = do
return
(Pi "a" (Const Type)
(Pi "_" f (App Optional "a") ) )
where f = Pi "optional" (Const Type)
(Pi "just" (Pi "_" "a" "optional")
(Pi "nothing" "optional" "optional") )
loop ctx e@(Record kts ) = do
case Dhall.Map.uncons kts of
Nothing -> return (Const Type)
Just (k0, t0, rest) -> do
s0 <- fmap Dhall.Core.normalize (loop ctx t0)
c <- case s0 of
Const Type ->
return Type
Const Kind ->
return Kind
Const Sort
| Dhall.Core.judgmentallyEqual t0 (Const Kind) ->
return Sort
_ -> Left (TypeError ctx e (InvalidFieldType k0 t0))
let process k t = do
s <- fmap Dhall.Core.normalize (loop ctx t)
case s of
Const Type ->
if c == Type
then return ()
else Left (TypeError ctx e (FieldAnnotationMismatch k t c k0 t0 Type))
Const Kind ->
if c == Kind
then return ()
else Left (TypeError ctx e (FieldAnnotationMismatch k t c k0 t0 Kind))
Const Sort ->
if c == Sort
then
if Dhall.Core.judgmentallyEqual t (Const Kind)
then return ()
else Left (TypeError ctx e (InvalidFieldType k t))
else Left (TypeError ctx e (FieldAnnotationMismatch k t c k0 t0 Sort))
_ ->
Left (TypeError ctx e (InvalidFieldType k t))
Dhall.Map.unorderedTraverseWithKey_ process rest
return (Const c)
loop ctx e@(RecordLit kvs ) = do
case Dhall.Map.toList kvs of
[] -> return (Record mempty)
(k0, v0):_ -> do
t0 <- loop ctx v0
s0 <- fmap Dhall.Core.normalize (loop ctx t0)
c <- case s0 of
Const Type ->
return Type
Const Kind ->
return Kind
Const Sort
| Dhall.Core.judgmentallyEqual t0 (Const Kind) ->
return Sort
_ -> Left (TypeError ctx e (InvalidField k0 v0))
let process k v = do
t <- loop ctx v
s <- fmap Dhall.Core.normalize (loop ctx t)
case s of
Const Type ->
if c == Type
then return ()
else Left (TypeError ctx e (FieldMismatch k v c k0 v0 Type))
Const Kind ->
if c == Kind
then return ()
else Left (TypeError ctx e (FieldMismatch k v c k0 v0 Kind))
Const Sort ->
if c == Sort
then
if Dhall.Core.judgmentallyEqual t (Const Kind)
then return ()
else Left (TypeError ctx e (InvalidField k t))
else Left (TypeError ctx e (FieldMismatch k v c k0 v0 Sort))
_ ->
Left (TypeError ctx e (InvalidField k t))
return t
kts <- Dhall.Map.traverseWithKey process kvs
return (Record kts)
loop ctx e@(Union kts ) = do
case Dhall.Map.uncons kts of
Nothing -> do
return (Const Type)
Just (k0, t0, rest) -> do
s0 <- fmap Dhall.Core.normalize (loop ctx t0)
c0 <- case s0 of
Const c0 -> do
return c0
_ -> do
Left (TypeError ctx e (InvalidAlternativeType k0 t0))
let process k t = do
s <- fmap Dhall.Core.normalize (loop ctx t)
c <- case s of
Const c -> do
return c
_ -> do
Left (TypeError ctx e (InvalidAlternativeType k t))
if c0 == c
then return ()
else Left (TypeError ctx e (AlternativeAnnotationMismatch k t c k0 t0 c0))
Dhall.Map.unorderedTraverseWithKey_ process rest
return (Const c0)
loop ctx e@(UnionLit k v kts) = do
case Dhall.Map.lookup k kts of
Just _ -> Left (TypeError ctx e (DuplicateAlternative k))
Nothing -> return ()
t <- loop ctx v
let union = Union (Dhall.Map.insert k (Dhall.Core.normalize t) kts)
_ <- loop ctx union
return union
loop ctx e@(Combine kvsX kvsY) = do
tKvsX <- fmap Dhall.Core.normalize (loop ctx kvsX)
ktsX <- case tKvsX of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustCombineARecord '∧' kvsX tKvsX))
tKvsY <- fmap Dhall.Core.normalize (loop ctx kvsY)
ktsY <- case tKvsY of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustCombineARecord '∧' kvsY tKvsY))
ttKvsX <- fmap Dhall.Core.normalize (loop ctx tKvsX)
constX <- case ttKvsX of
Const constX -> return constX
_ -> Left (TypeError ctx e (MustCombineARecord '∧' kvsX tKvsX))
ttKvsY <- fmap Dhall.Core.normalize (loop ctx tKvsY)
constY <- case ttKvsY of
Const constY -> return constY
_ -> Left (TypeError ctx e (MustCombineARecord '∧' kvsY tKvsY))
if constX == constY
then return ()
else Left (TypeError ctx e (RecordMismatch '∧' kvsX kvsY constX constY))
let combineTypes ktsL ktsR = do
let ksL =
Data.Set.fromList (Dhall.Map.keys ktsL)
let ksR =
Data.Set.fromList (Dhall.Map.keys ktsR)
let ks = Data.Set.union ksL ksR
kts <- forM (toList ks) (\k -> do
case (Dhall.Map.lookup k ktsL, Dhall.Map.lookup k ktsR) of
(Just (Record ktsL'), Just (Record ktsR')) -> do
t <- combineTypes ktsL' ktsR'
return (k, t)
(Nothing, Just t) -> do
return (k, t)
(Just t, Nothing) -> do
return (k, t)
_ -> do
Left (TypeError ctx e (FieldCollision k)) )
return (Record (Dhall.Map.fromList kts))
combineTypes ktsX ktsY
loop ctx e@(CombineTypes l r) = do
tL <- loop ctx l
let l' = Dhall.Core.normalize l
cL <- case tL of
Const cL -> return cL
_ -> Left (TypeError ctx e (CombineTypesRequiresRecordType l l'))
tR <- loop ctx r
let r' = Dhall.Core.normalize r
cR <- case tR of
Const cR -> return cR
_ -> Left (TypeError ctx e (CombineTypesRequiresRecordType r r'))
let decide Type Type =
return Type
decide Kind Kind =
return Kind
decide x y =
Left (TypeError ctx e (RecordTypeMismatch x y l r))
c <- decide cL cR
ktsL0 <- case l' of
Record kts -> return kts
_ -> Left (TypeError ctx e (CombineTypesRequiresRecordType l l'))
ktsR0 <- case r' of
Record kts -> return kts
_ -> Left (TypeError ctx e (CombineTypesRequiresRecordType r r'))
let combineTypes ktsL ktsR = do
let ksL =
Data.Set.fromList (Dhall.Map.keys ktsL)
let ksR =
Data.Set.fromList (Dhall.Map.keys ktsR)
let ks = Data.Set.union ksL ksR
forM_ (toList ks) (\k -> do
case (Dhall.Map.lookup k ktsL, Dhall.Map.lookup k ktsR) of
(Just (Record ktsL'), Just (Record ktsR')) -> do
combineTypes ktsL' ktsR'
(Nothing, Just _) -> do
return ()
(Just _, Nothing) -> do
return ()
_ -> do
Left (TypeError ctx e (FieldCollision k)) )
combineTypes ktsL0 ktsR0
return (Const c)
loop ctx e@(Prefer kvsX kvsY) = do
tKvsX <- fmap Dhall.Core.normalize (loop ctx kvsX)
ktsX <- case tKvsX of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustCombineARecord '⫽' kvsX tKvsX))
tKvsY <- fmap Dhall.Core.normalize (loop ctx kvsY)
ktsY <- case tKvsY of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustCombineARecord '⫽' kvsY tKvsY))
ttKvsX <- fmap Dhall.Core.normalize (loop ctx tKvsX)
constX <- case ttKvsX of
Const constX -> return constX
_ -> Left (TypeError ctx e (MustCombineARecord '⫽' kvsX tKvsX))
ttKvsY <- fmap Dhall.Core.normalize (loop ctx tKvsY)
constY <- case ttKvsY of
Const constY -> return constY
_ -> Left (TypeError ctx e (MustCombineARecord '⫽' kvsY tKvsY))
if constX == constY
then return ()
else Left (TypeError ctx e (RecordMismatch '⫽' kvsX kvsY constX constY))
return (Record (Dhall.Map.union ktsY ktsX))
loop ctx e@(Merge kvsX kvsY (Just t)) = do
_ <- loop ctx t
tKvsX <- fmap Dhall.Core.normalize (loop ctx kvsX)
ktsX <- case tKvsX of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustMergeARecord kvsX tKvsX))
let ksX = Data.Set.fromList (Dhall.Map.keys ktsX)
tKvsY <- fmap Dhall.Core.normalize (loop ctx kvsY)
ktsY <- case tKvsY of
Union kts -> return kts
_ -> Left (TypeError ctx e (MustMergeUnion kvsY tKvsY))
let ksY = Data.Set.fromList (Dhall.Map.keys ktsY)
let diffX = Data.Set.difference ksX ksY
let diffY = Data.Set.difference ksY ksX
if Data.Set.null diffX
then return ()
else Left (TypeError ctx e (UnusedHandler diffX))
let process (kY, tY) = do
case Dhall.Map.lookup kY ktsX of
Nothing -> Left (TypeError ctx e (MissingHandler diffY))
Just tX ->
case tX of
Pi y tY' t' -> do
if Dhall.Core.judgmentallyEqual tY tY'
then return ()
else Left (TypeError ctx e (HandlerInputTypeMismatch kY tY tY'))
let t'' = Dhall.Core.shift (-1) (V y 0) t'
if Dhall.Core.judgmentallyEqual t t''
then return ()
else Left (TypeError ctx e (InvalidHandlerOutputType kY t t''))
_ -> Left (TypeError ctx e (HandlerNotAFunction kY tX))
mapM_ process (Dhall.Map.toList ktsY)
return t
loop ctx e@(Merge kvsX kvsY Nothing) = do
tKvsX <- fmap Dhall.Core.normalize (loop ctx kvsX)
ktsX <- case tKvsX of
Record kts -> return kts
_ -> Left (TypeError ctx e (MustMergeARecord kvsX tKvsX))
let ksX = Data.Set.fromList (Dhall.Map.keys ktsX)
tKvsY <- fmap Dhall.Core.normalize (loop ctx kvsY)
ktsY <- case tKvsY of
Union kts -> return kts
_ -> Left (TypeError ctx e (MustMergeUnion kvsY tKvsY))
let ksY = Data.Set.fromList (Dhall.Map.keys ktsY)
let diffX = Data.Set.difference ksX ksY
let diffY = Data.Set.difference ksY ksX
if Data.Set.null diffX
then return ()
else Left (TypeError ctx e (UnusedHandler diffX))
(kX, t) <- case Dhall.Map.toList ktsX of
[] -> Left (TypeError ctx e MissingMergeType)
(kX, Pi y _ t):_ -> return (kX, Dhall.Core.shift (-1) (V y 0) t)
(kX, tX ):_ -> Left (TypeError ctx e (HandlerNotAFunction kX tX))
let process (kY, tY) = do
case Dhall.Map.lookup kY ktsX of
Nothing -> Left (TypeError ctx e (MissingHandler diffY))
Just tX ->
case tX of
Pi y tY' t' -> do
if Dhall.Core.judgmentallyEqual tY tY'
then return ()
else Left (TypeError ctx e (HandlerInputTypeMismatch kY tY tY'))
let t'' = Dhall.Core.shift (-1) (V y 0) t'
if Dhall.Core.judgmentallyEqual t t''
then return ()
else Left (TypeError ctx e (HandlerOutputTypeMismatch kX t kY t''))
_ -> Left (TypeError ctx e (HandlerNotAFunction kY tX))
mapM_ process (Dhall.Map.toList ktsY)
return t
loop ctx e@(Field r x ) = do
t <- fmap Dhall.Core.normalize (loop ctx r)
let text = Dhall.Pretty.Internal.docToStrictText (Dhall.Pretty.Internal.prettyLabel x)
case t of
Record kts -> do
_ <- loop ctx t
case Dhall.Map.lookup x kts of
Just t' -> return t'
Nothing -> Left (TypeError ctx e (MissingField x t))
Const Type -> do
case Dhall.Core.normalize r of
Union kts ->
case Dhall.Map.lookup x kts of
Just t' -> return (Pi x t' (Union kts))
Nothing -> Left (TypeError ctx e (MissingField x t))
r' -> Left (TypeError ctx e (CantAccess text r' t))
_ -> do
Left (TypeError ctx e (CantAccess text r t))
loop ctx e@(Project r xs ) = do
t <- fmap Dhall.Core.normalize (loop ctx r)
case t of
Record kts -> do
_ <- loop ctx t
let process k =
case Dhall.Map.lookup k kts of
Just t' -> return (k, t')
Nothing -> Left (TypeError ctx e (MissingField k t))
let adapt = Record . Dhall.Map.fromList
fmap adapt (traverse process (Dhall.Set.toList xs))
_ -> do
let text = Dhall.Pretty.Internal.docToStrictText (Dhall.Pretty.Internal.prettyLabels xs)
Left (TypeError ctx e (CantProject text r t))
loop ctx (Note s e' ) = case loop ctx e' of
Left (TypeError ctx' (Note s' e'') m) -> Left (TypeError ctx' (Note s' e'') m)
Left (TypeError ctx' e'' m) -> Left (TypeError ctx' (Note s e'') m)
Right r -> Right r
loop ctx (ImportAlt l _r ) =
fmap Dhall.Core.normalize (loop ctx l)
loop _ (Embed p ) = Right $ tpa p
typeOf :: Expr s X -> Either (TypeError s X) (Expr s X)
typeOf = typeWith Dhall.Context.empty
newtype X = X { absurd :: forall a . a }
instance Show X where
show = absurd
instance Eq X where
_ == _ = True
instance Data X where
dataTypeOf = absurd
gunfold _ _ _ = undefined
toConstr = absurd
instance Pretty X where
pretty = absurd
data TypeMessage s a
= UnboundVariable Text
| InvalidInputType (Expr s a)
| InvalidOutputType (Expr s a)
| NotAFunction (Expr s a) (Expr s a)
| TypeMismatch (Expr s a) (Expr s a) (Expr s a) (Expr s a)
| AnnotMismatch (Expr s a) (Expr s a) (Expr s a)
| Untyped
| MissingListType
| MismatchedListElements Int (Expr s a) (Expr s a) (Expr s a)
| InvalidListElement Int (Expr s a) (Expr s a) (Expr s a)
| InvalidListType (Expr s a)
| InvalidOptionalElement (Expr s a) (Expr s a) (Expr s a)
| InvalidOptionalType (Expr s a)
| InvalidSome (Expr s a) (Expr s a) (Expr s a)
| InvalidPredicate (Expr s a) (Expr s a)
| IfBranchMismatch (Expr s a) (Expr s a) (Expr s a) (Expr s a)
| IfBranchMustBeTerm Bool (Expr s a) (Expr s a) (Expr s a)
| InvalidField Text (Expr s a)
| InvalidFieldType Text (Expr s a)
| FieldAnnotationMismatch Text (Expr s a) Const Text (Expr s a) Const
| FieldMismatch Text (Expr s a) Const Text (Expr s a) Const
| InvalidAlternative Text (Expr s a)
| InvalidAlternativeType Text (Expr s a)
| AlternativeAnnotationMismatch Text (Expr s a) Const Text (Expr s a) Const
| ListAppendMismatch (Expr s a) (Expr s a)
| DuplicateAlternative Text
| MustCombineARecord Char (Expr s a) (Expr s a)
| RecordMismatch Char (Expr s a) (Expr s a) Const Const
| CombineTypesRequiresRecordType (Expr s a) (Expr s a)
| RecordTypeMismatch Const Const (Expr s a) (Expr s a)
| FieldCollision Text
| MustMergeARecord (Expr s a) (Expr s a)
| MustMergeUnion (Expr s a) (Expr s a)
| UnusedHandler (Set Text)
| MissingHandler (Set Text)
| HandlerInputTypeMismatch Text (Expr s a) (Expr s a)
| HandlerOutputTypeMismatch Text (Expr s a) Text (Expr s a)
| InvalidHandlerOutputType Text (Expr s a) (Expr s a)
| MissingMergeType
| HandlerNotAFunction Text (Expr s a)
| ConstructorsRequiresAUnionType (Expr s a) (Expr s a)
| CantAccess Text (Expr s a) (Expr s a)
| CantProject Text (Expr s a) (Expr s a)
| MissingField Text (Expr s a)
| CantAnd (Expr s a) (Expr s a)
| CantOr (Expr s a) (Expr s a)
| CantEQ (Expr s a) (Expr s a)
| CantNE (Expr s a) (Expr s a)
| CantInterpolate (Expr s a) (Expr s a)
| CantTextAppend (Expr s a) (Expr s a)
| CantListAppend (Expr s a) (Expr s a)
| CantAdd (Expr s a) (Expr s a)
| CantMultiply (Expr s a) (Expr s a)
| NoDependentTypes (Expr s a) (Expr s a)
deriving (Show)
shortTypeMessage :: (Eq a, Pretty a) => TypeMessage s a -> Doc Ann
shortTypeMessage msg =
"\ESC[1;31mError\ESC[0m: " <> short <> "\n"
where
ErrorMessages {..} = prettyTypeMessage msg
longTypeMessage :: (Eq a, Pretty a) => TypeMessage s a -> Doc Ann
longTypeMessage msg =
"\ESC[1;31mError\ESC[0m: " <> short <> "\n"
<> "\n"
<> long
where
ErrorMessages {..} = prettyTypeMessage msg
data ErrorMessages = ErrorMessages
{ short :: Doc Ann
, long :: Doc Ann
}
_NOT :: Doc ann
_NOT = "\ESC[1mnot\ESC[0m"
insert :: Pretty a => a -> Doc Ann
insert = Dhall.Util.insert
prettyDiff :: (Eq a, Pretty a) => Expr s a -> Expr s a -> Doc Ann
prettyDiff exprL exprR = Dhall.Diff.diffNormalized exprL exprR
prettyTypeMessage :: (Eq a, Pretty a) => TypeMessage s a -> ErrorMessages
prettyTypeMessage (UnboundVariable x) = ErrorMessages {..}
where
short = "Unbound variable: " <> Pretty.pretty x
long =
"Explanation: Expressions can only reference previously introduced (i.e. “bound”)\n\
\variables that are still “in scope” \n\
\ \n\
\For example, the following valid expressions introduce a “bound” variable named \n\
\❰x❱: \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ λ(x : Bool) → x │ Anonymous functions introduce “bound” variables \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This is the bound variable \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ let x = 1 in x │ ❰let❱ expressions introduce “bound” variables \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This is the bound variable \n\
\ \n\
\ \n\
\However, the following expressions are not valid because they all reference a \n\
\variable that has not been introduced yet (i.e. an “unbound” variable): \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ λ(x : Bool) → y │ The variable ❰y❱ hasn't been introduced yet \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This is the unbound variable \n\
\ \n\
\ \n\
\ ┌──────────────────────────┐ \n\
\ │ (let x = True in x) && x │ ❰x❱ is undefined outside the parentheses \n\
\ └──────────────────────────┘ \n\
\ ⇧ \n\
\ This is the unbound variable \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ let x = x in x │ The definition for ❰x❱ cannot reference itself \n\
\ └────────────────┘ \n\
\ ⇧ \n\
\ This is the unbound variable \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You misspell a variable name, like this: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────────────────────┐ \n\
\ │ λ(empty : Bool) → if emty then \"Empty\" else \"Full\" │ \n\
\ └────────────────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Typo \n\
\ \n\
\ \n\
\● You misspell a reserved identifier, like this: \n\
\ \n\
\ \n\
\ ┌──────────────────────────┐ \n\
\ │ foral (a : Type) → a → a │ \n\
\ └──────────────────────────┘ \n\
\ ⇧ \n\
\ Typo \n\
\ \n\
\ \n\
\● You tried to define a recursive value, like this: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ let x = x + 1 in x │ \n\
\ └────────────────────┘ \n\
\ ⇧ \n\
\ Recursive definitions are not allowed \n\
\ \n\
\ \n\
\● You accidentally forgot a ❰λ❱ or ❰∀❱/❰forall❱ \n\
\ \n\
\ \n\
\ Unbound variable \n\
\ ⇩ \n\
\ ┌─────────────────┐ \n\
\ │ (x : Bool) → x │ \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ A ❰λ❱ here would transform this into a valid anonymous function \n\
\ \n\
\ \n\
\ Unbound variable \n\
\ ⇩ \n\
\ ┌────────────────────┐ \n\
\ │ (x : Bool) → Bool │ \n\
\ └────────────────────┘ \n\
\ ⇧ \n\
\ A ❰∀❱ or ❰forall❱ here would transform this into a valid function type \n\
\ \n\
\ \n\
\● You forgot to prefix a file path with ❰./❱: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ path/to/file.dhall │ \n\
\ └────────────────────┘ \n\
\ ⇧ \n\
\ This should be ❰./path/to/file.dhall❱ \n"
prettyTypeMessage (InvalidInputType expr) = ErrorMessages {..}
where
short = "Invalid function input"
long =
"Explanation: A function can accept an input “term” that has a given “type”, like\n\
\this: \n\
\ \n\
\ \n\
\ This is the input term that the function accepts \n\
\ ⇩ \n\
\ ┌───────────────────────┐ \n\
\ │ ∀(x : Natural) → Bool │ This is the type of a function that accepts an \n\
\ └───────────────────────┘ input term named ❰x❱ that has type ❰Natural❱ \n\
\ ⇧ \n\
\ This is the type of the input term \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ Bool → Natural │ This is the type of a function that accepts an anonymous\n\
\ └────────────────┘ input term that has type ❰Bool❱ \n\
\ ⇧ \n\
\ This is the type of the input term \n\
\ \n\
\ \n\
\... or a function can accept an input “type” that has a given “kind”, like this:\n\
\ \n\
\ \n\
\ This is the input type that the function accepts \n\
\ ⇩ \n\
\ ┌────────────────────┐ \n\
\ │ ∀(a : Type) → Type │ This is the type of a function that accepts an input\n\
\ └────────────────────┘ type named ❰a❱ that has kind ❰Type❱ \n\
\ ⇧ \n\
\ This is the kind of the input type \n\
\ \n\
\ \n\
\ ┌──────────────────────┐ \n\
\ │ (Type → Type) → Type │ This is the type of a function that accepts an \n\
\ └──────────────────────┘ anonymous input type that has kind ❰Type → Type❱ \n\
\ ⇧ \n\
\ This is the kind of the input type \n\
\ \n\
\ \n\
\Other function inputs are " <> _NOT <> " valid, like this: \n\
\ \n\
\ \n\
\ ┌──────────────┐ \n\
\ │ ∀(x : 1) → x │ ❰1❱ is a “term” and not a “type” nor a “kind” so ❰x❱ \n\
\ └──────────────┘ cannot have “type” ❰1❱ or “kind” ❰1❱ \n\
\ ⇧ \n\
\ This is not a type or kind \n\
\ \n\
\ \n\
\ ┌──────────┐ \n\
\ │ True → x │ ❰True❱ is a “term” and not a “type” nor a “kind” so the \n\
\ └──────────┘ anonymous input cannot have “type” ❰True❱ or “kind” ❰True❱ \n\
\ ⇧ \n\
\ This is not a type or kind \n\
\ \n\
\ \n\
\You annotated a function input with the following expression: \n\
\ \n\
\" <> txt <> "\n\
\ \n\
\... which is neither a type nor a kind \n"
where
txt = insert expr
prettyTypeMessage (InvalidOutputType expr) = ErrorMessages {..}
where
short = "Invalid function output"
long =
"Explanation: A function can return an output “term” that has a given “type”, \n\
\like this: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ ∀(x : Text) → Bool │ This is the type of a function that returns an \n\
\ └────────────────────┘ output term that has type ❰Bool❱ \n\
\ ⇧ \n\
\ This is the type of the output term \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ Bool → Natural │ This is the type of a function that returns an output \n\
\ └────────────────┘ term that has type ❰Natural❱ \n\
\ ⇧ \n\
\ This is the type of the output term \n\
\ \n\
\ \n\
\... or a function can return an output “type” that has a given “kind”, like \n\
\this: \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ ∀(a : Type) → Type │ This is the type of a function that returns an \n\
\ └────────────────────┘ output type that has kind ❰Type❱ \n\
\ ⇧ \n\
\ This is the kind of the output type \n\
\ \n\
\ \n\
\ ┌──────────────────────┐ \n\
\ │ (Type → Type) → Type │ This is the type of a function that returns an \n\
\ └──────────────────────┘ output type that has kind ❰Type❱ \n\
\ ⇧ \n\
\ This is the kind of the output type \n\
\ \n\
\ \n\
\Other outputs are " <> _NOT <> " valid, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ ∀(x : Bool) → x │ ❰x❱ is a “term” and not a “type” nor a “kind” so the \n\
\ └─────────────────┘ output cannot have “type” ❰x❱ or “kind” ❰x❱ \n\
\ ⇧ \n\
\ This is not a type or kind \n\
\ \n\
\ \n\
\ ┌─────────────┐ \n\
\ │ Text → True │ ❰True❱ is a “term” and not a “type” nor a “kind” so the \n\
\ └─────────────┘ output cannot have “type” ❰True❱ or “kind” ❰True❱ \n\
\ ⇧ \n\
\ This is not a type or kind \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You use ❰∀❱ instead of ❰λ❱ by mistake, like this: \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ ∀(x: Bool) → x │ \n\
\ └────────────────┘ \n\
\ ⇧ \n\
\ Using ❰λ❱ here instead of ❰∀❱ would transform this into a valid function \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You specified that your function outputs a: \n\
\ \n\
\" <> txt <> "\n\
\ \n\
\... which is neither a type nor a kind: \n"
where
txt = insert expr
prettyTypeMessage (NotAFunction expr0 expr1) = ErrorMessages {..}
where
short = "Not a function"
long =
"Explanation: Expressions separated by whitespace denote function application, \n\
\like this: \n\
\ \n\
\ \n\
\ ┌─────┐ \n\
\ │ f x │ This denotes the function ❰f❱ applied to an argument named ❰x❱ \n\
\ └─────┘ \n\
\ \n\
\ \n\
\A function is a term that has type ❰a → b❱ for some ❰a❱ or ❰b❱. For example, \n\
\the following expressions are all functions because they have a function type: \n\
\ \n\
\ \n\
\ The function's input type is ❰Bool❱ \n\
\ ⇩ \n\
\ ┌───────────────────────────────┐ \n\
\ │ λ(x : Bool) → x : Bool → Bool │ User-defined anonymous function \n\
\ └───────────────────────────────┘ \n\
\ ⇧ \n\
\ The function's output type is ❰Bool❱ \n\
\ \n\
\ \n\
\ The function's input type is ❰Natural❱ \n\
\ ⇩ \n\
\ ┌───────────────────────────────┐ \n\
\ │ Natural/even : Natural → Bool │ Built-in function \n\
\ └───────────────────────────────┘ \n\
\ ⇧ \n\
\ The function's output type is ❰Bool❱ \n\
\ \n\
\ \n\
\ The function's input kind is ❰Type❱ \n\
\ ⇩ \n\
\ ┌───────────────────────────────┐ \n\
\ │ λ(a : Type) → a : Type → Type │ Type-level functions are still functions \n\
\ └───────────────────────────────┘ \n\
\ ⇧ \n\
\ The function's output kind is ❰Type❱ \n\
\ \n\
\ \n\
\ The function's input kind is ❰Type❱ \n\
\ ⇩ \n\
\ ┌────────────────────┐ \n\
\ │ List : Type → Type │ Built-in type-level function \n\
\ └────────────────────┘ \n\
\ ⇧ \n\
\ The function's output kind is ❰Type❱ \n\
\ \n\
\ \n\
\ Function's input has kind ❰Type❱ \n\
\ ⇩ \n\
\ ┌─────────────────────────────────────────────────┐ \n\
\ │ List/head : ∀(a : Type) → (List a → Optional a) │ A function can return \n\
\ └─────────────────────────────────────────────────┘ another function \n\
\ ⇧ \n\
\ Function's output has type ❰List a → Optional a❱\n\
\ \n\
\ \n\
\ The function's input type is ❰List Text❱ \n\
\ ⇩ \n\
\ ┌────────────────────────────────────────────┐ \n\
\ │ List/head Text : List Text → Optional Text │ A function applied to an \n\
\ └────────────────────────────────────────────┘ argument can be a function \n\
\ ⇧ \n\
\ The function's output type is ❰Optional Text❱\n\
\ \n\
\ \n\
\An expression is not a function if the expression's type is not of the form \n\
\❰a → b❱. For example, these are " <> _NOT <> " functions: \n\
\ \n\
\ \n\
\ ┌─────────────┐ \n\
\ │ 1 : Natural │ ❰1❱ is not a function because ❰Natural❱ is not the type of \n\
\ └─────────────┘ a function \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ Natural/even 2 : Bool │ ❰Natural/even 2❱ is not a function because \n\
\ └───────────────────────┘ ❰Bool❱ is not the type of a function \n\
\ \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ List Text : Type │ ❰List Text❱ is not a function because ❰Type❱ is not \n\
\ └──────────────────┘ the type of a function \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You tried to add two ❰Natural❱s without a space around the ❰+❱, like this: \n\
\ \n\
\ \n\
\ ┌─────┐ \n\
\ │ 2+2 │ \n\
\ └─────┘ \n\
\ \n\
\ \n\
\ The above code is parsed as: \n\
\ \n\
\ \n\
\ ┌────────┐ \n\
\ │ 2 (+2) │ \n\
\ └────────┘ \n\
\ ⇧ \n\
\ The compiler thinks that this ❰2❱ is a function whose argument is ❰+2❱ \n\
\ \n\
\ \n\
\ This is because the ❰+❱ symbol has two meanings: you use ❰+❱ to add two \n\
\ numbers, but you also can prefix ❰Natural❱ literals with a ❰+❱ to turn them \n\
\ into ❰Integer❱ literals (like ❰+2❱) \n\
\ \n\
\ To fix the code, you need to put spaces around the ❰+❱, like this: \n\
\ \n\
\ \n\
\ ┌───────┐ \n\
\ │ 2 + 2 │ \n\
\ └───────┘ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to use the following expression as a function: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... but this expression's type is: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not a function type \n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (TypeMismatch expr0 expr1 expr2 expr3) = ErrorMessages {..}
where
short = "Wrong type of function argument\n"
<> "\n"
<> prettyDiff expr1 expr3
long =
"Explanation: Every function declares what type or kind of argument to accept \n\
\ \n\
\For example: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────┐ \n\
\ │ λ(x : Bool) → x : Bool → Bool │ This anonymous function only accepts \n\
\ └───────────────────────────────┘ arguments that have type ❰Bool❱ \n\
\ ⇧ \n\
\ The function's input type \n\
\ \n\
\ \n\
\ ┌───────────────────────────────┐ \n\
\ │ Natural/even : Natural → Bool │ This built-in function only accepts \n\
\ └───────────────────────────────┘ arguments that have type ❰Natural❱ \n\
\ ⇧ \n\
\ The function's input type \n\
\ \n\
\ \n\
\ ┌───────────────────────────────┐ \n\
\ │ λ(a : Type) → a : Type → Type │ This anonymous function only accepts \n\
\ └───────────────────────────────┘ arguments that have kind ❰Type❱ \n\
\ ⇧ \n\
\ The function's input kind \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ List : Type → Type │ This built-in function only accepts arguments that \n\
\ └────────────────────┘ have kind ❰Type❱ \n\
\ ⇧ \n\
\ The function's input kind \n\
\ \n\
\ \n\
\For example, the following expressions are valid: \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ (λ(x : Bool) → x) True │ ❰True❱ has type ❰Bool❱, which matches the type \n\
\ └────────────────────────┘ of argument that the anonymous function accepts \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ Natural/even 2 │ ❰2❱ has type ❰Natural❱, which matches the type of \n\
\ └────────────────┘ argument that the ❰Natural/even❱ function accepts, \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ (λ(a : Type) → a) Bool │ ❰Bool❱ has kind ❰Type❱, which matches the kind \n\
\ └────────────────────────┘ of argument that the anonymous function accepts \n\
\ \n\
\ \n\
\ ┌───────────┐ \n\
\ │ List Text │ ❰Text❱ has kind ❰Type❱, which matches the kind of argument \n\
\ └───────────┘ that that the ❰List❱ function accepts \n\
\ \n\
\ \n\
\However, you can " <> _NOT <> " apply a function to the wrong type or kind of argument\n\
\ \n\
\For example, the following expressions are not valid: \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ (λ(x : Bool) → x) \"A\" │ ❰\"A\"❱ has type ❰Text❱, but the anonymous function\n\
\ └───────────────────────┘ expects an argument that has type ❰Bool❱ \n\
\ \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ Natural/even \"A\" │ ❰\"A\"❱ has type ❰Text❱, but the ❰Natural/even❱ function\n\
\ └──────────────────┘ expects an argument that has type ❰Natural❱ \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ (λ(a : Type) → a) True │ ❰True❱ has type ❰Bool❱, but the anonymous \n\
\ └────────────────────────┘ function expects an argument of kind ❰Type❱ \n\
\ \n\
\ \n\
\ ┌────────┐ \n\
\ │ List 1 │ ❰1❱ has type ❰Natural❱, but the ❰List❱ function expects an \n\
\ └────────┘ argument that has kind ❰Type❱ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You omit a function argument by mistake: \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ List/head [1, 2, 3] │ \n\
\ └───────────────────────┘ \n\
\ ⇧ \n\
\ ❰List/head❱ is missing the first argument, \n\
\ which should be: ❰Natural❱ \n\
\ \n\
\ \n\
\● You supply an ❰Integer❱ literal to a function that expects a ❰Natural❱ \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ Natural/even +2 │ \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This should be ❰2❱ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to invoke the following function: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which expects an argument of type or kind: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... on the following argument: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... which has a different type or kind: \n\
\ \n\
\" <> txt3 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
txt3 = insert expr3
prettyTypeMessage (AnnotMismatch expr0 expr1 expr2) = ErrorMessages {..}
where
short = "Expression doesn't match annotation\n"
<> "\n"
<> prettyDiff expr1 expr2
long =
"Explanation: You can annotate an expression with its type or kind using the \n\
\❰:❱ symbol, like this: \n\
\ \n\
\ \n\
\ ┌───────┐ \n\
\ │ x : t │ ❰x❱ is an expression and ❰t❱ is the annotated type or kind of ❰x❱\n\
\ └───────┘ \n\
\ \n\
\The type checker verifies that the expression's type or kind matches the \n\
\provided annotation \n\
\ \n\
\For example, all of the following are valid annotations that the type checker \n\
\accepts: \n\
\ \n\
\ \n\
\ ┌─────────────┐ \n\
\ │ 1 : Natural │ ❰1❱ is an expression that has type ❰Natural❱, so the type \n\
\ └─────────────┘ checker accepts the annotation \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ Natural/even 2 : Bool │ ❰Natural/even 2❱ has type ❰Bool❱, so the type \n\
\ └───────────────────────┘ checker accepts the annotation \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ List : Type → Type │ ❰List❱ is an expression that has kind ❰Type → Type❱,\n\
\ └────────────────────┘ so the type checker accepts the annotation \n\
\ \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ List Text : Type │ ❰List Text❱ is an expression that has kind ❰Type❱, so \n\
\ └──────────────────┘ the type checker accepts the annotation \n\
\ \n\
\ \n\
\However, the following annotations are " <> _NOT <> " valid and the type checker will\n\
\reject them: \n\
\ \n\
\ \n\
\ ┌──────────┐ \n\
\ │ 1 : Text │ The type checker rejects this because ❰1❱ does not have type \n\
\ └──────────┘ ❰Text❱ \n\
\ \n\
\ \n\
\ ┌─────────────┐ \n\
\ │ List : Type │ ❰List❱ does not have kind ❰Type❱ \n\
\ └─────────────┘ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● The Haskell Dhall interpreter implicitly inserts a top-level annotation \n\
\ matching the expected type \n\
\ \n\
\ For example, if you run the following Haskell code: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────┐ \n\
\ │ >>> input auto \"1\" :: IO Text │ \n\
\ └───────────────────────────────┘ \n\
\ \n\
\ \n\
\ ... then the interpreter will actually type check the following annotated \n\
\ expression: \n\
\ \n\
\ \n\
\ ┌──────────┐ \n\
\ │ 1 : Text │ \n\
\ └──────────┘ \n\
\ \n\
\ \n\
\ ... and then type-checking will fail \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You or the interpreter annotated this expression: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... with this type or kind: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but the inferred type or kind of the expression is actually: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
prettyTypeMessage Untyped = ErrorMessages {..}
where
short = "❰Sort❱ has no type, kind, or sort"
long =
"Explanation: There are five levels of expressions that form a hierarchy: \n\
\ \n\
\● terms \n\
\● types \n\
\● kinds \n\
\● sorts \n\
\● orders \n\
\ \n\
\The following example illustrates this hierarchy: \n\
\ \n\
\ ┌───────────────────────────────────┐ \n\
\ │ \"ABC\" : Text : Type : Kind : Sort │ \n\
\ └───────────────────────────────────┘ \n\
\ ⇧ ⇧ ⇧ ⇧ ⇧ \n\
\ term type kind sort order \n\
\ \n\
\There is nothing above ❰Sort❱ in this hierarchy, so if you try to type check any\n\
\expression containing ❰Sort❱ anywhere in the expression then type checking fails\n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You supplied a sort where a kind was expected \n\
\ \n\
\ For example, the following expression will fail to type check: \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ f : Type -> Kind │ \n\
\ └──────────────────┘ \n\
\ ⇧ \n\
\ ❰Kind❱ is a sort, not a kind \n"
prettyTypeMessage (InvalidPredicate expr0 expr1) = ErrorMessages {..}
where
short = "Invalid predicate for ❰if❱"
long =
"Explanation: Every ❰if❱ expression begins with a predicate which must have type \n\
\❰Bool❱ \n\
\ \n\
\For example, these are valid ❰if❱ expressions: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────┐ \n\
\ │ if True then \"Yes\" else \"No\" │ \n\
\ └──────────────────────────────┘ \n\
\ ⇧ \n\
\ Predicate \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────┐ \n\
\ │ λ(x : Bool) → if x then False else True │ \n\
\ └─────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Predicate \n\
\ \n\
\ \n\
\... but these are " <> _NOT <> " valid ❰if❱ expressions: \n\
\ \n\
\ \n\
\ ┌───────────────────────────┐ \n\
\ │ if 0 then \"Yes\" else \"No\" │ ❰0❱ does not have type ❰Bool❱ \n\
\ └───────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ if \"\" then False else True │ ❰\"\"❱ does not have type ❰Bool❱ \n\
\ └────────────────────────────┘ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You might be used to other programming languages that accept predicates other \n\
\ than ❰Bool❱ \n\
\ \n\
\ For example, some languages permit ❰0❱ or ❰\"\"❱ as valid predicates and treat\n\
\ them as equivalent to ❰False❱. However, the Dhall language does not permit \n\
\ this \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\Your ❰if❱ expression begins with the following predicate: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... that has type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but the predicate must instead have type ❰Bool❱ \n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (IfBranchMustBeTerm b expr0 expr1 expr2) =
ErrorMessages {..}
where
short = "❰if❱ branch is not a term"
long =
"Explanation: Every ❰if❱ expression has a ❰then❱ and ❰else❱ branch, each of which\n\
\is an expression: \n\
\ \n\
\ \n\
\ Expression for ❰then❱ branch \n\
\ ⇩ \n\
\ ┌────────────────────────────────┐ \n\
\ │ if True then \"Hello, world!\" │ \n\
\ │ else \"Goodbye, world!\" │ \n\
\ └────────────────────────────────┘ \n\
\ ⇧ \n\
\ Expression for ❰else❱ branch \n\
\ \n\
\ \n\
\These expressions must be a “term”, where a “term” is defined as an expression \n\
\that has a type thas has kind ❰Type❱ \n\
\ \n\
\For example, the following expressions are all valid “terms”: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ 1 : Natural : Type │ ❰1❱ is a term with a type (❰Natural❱) of kind ❰Type❱\n\
\ └────────────────────┘ \n\
\ ⇧ \n\
\ term \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────┐ \n\
\ │ Natural/odd : Natural → Bool : Type │ ❰Natural/odd❱ is a term with a type\n\
\ └─────────────────────────────────────┘ (❰Natural → Bool❱) of kind ❰Type❱ \n\
\ ⇧ \n\
\ term \n\
\ \n\
\ \n\
\However, the following expressions are " <> _NOT <> " valid terms: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ Text : Type : Kind │ ❰Text❱ has kind (❰Type❱) of sort ❰Kind❱ and is \n\
\ └────────────────────┘ therefore not a term \n\
\ ⇧ \n\
\ type \n\
\ \n\
\ \n\
\ ┌───────────────────────────┐ \n\
\ │ List : Type → Type : Kind │ ❰List❱ has kind (❰Type → Type❱) of sort \n\
\ └───────────────────────────┘ ❰Kind❱ and is therefore not a term \n\
\ ⇧ \n\
\ type-level function \n\
\ \n\
\ \n\
\This means that you cannot define an ❰if❱ expression that returns a type. For \n\
\example, the following ❰if❱ expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────┐ \n\
\ │ if True then Text else Bool │ Invalid ❰if❱ expression \n\
\ └─────────────────────────────┘ \n\
\ ⇧ ⇧ \n\
\ type type \n\
\ \n\
\ \n\
\Your ❰" <> txt0 <> "❱ branch of your ❰if❱ expression is: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which has kind: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... of sort: \n\
\ \n\
\" <> txt3 <> "\n\
\ \n\
\... and is not a term. Therefore your ❰if❱ expression is not valid \n"
where
txt0 = if b then "then" else "else"
txt1 = insert expr0
txt2 = insert expr1
txt3 = insert expr2
prettyTypeMessage (IfBranchMismatch expr0 expr1 expr2 expr3) =
ErrorMessages {..}
where
short = "❰if❱ branches must have matching types\n"
<> "\n"
<> prettyDiff expr1 expr3
long =
"Explanation: Every ❰if❱ expression has a ❰then❱ and ❰else❱ branch, each of which\n\
\is an expression: \n\
\ \n\
\ \n\
\ Expression for ❰then❱ branch \n\
\ ⇩ \n\
\ ┌────────────────────────────────┐ \n\
\ │ if True then \"Hello, world!\" │ \n\
\ │ else \"Goodbye, world!\" │ \n\
\ └────────────────────────────────┘ \n\
\ ⇧ \n\
\ Expression for ❰else❱ branch \n\
\ \n\
\ \n\
\These two expressions must have the same type. For example, the following ❰if❱ \n\
\expressions are all valid: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────┐ \n\
\ │ λ(b : Bool) → if b then 0 else 1 │ Both branches have type ❰Natural❱ \n\
\ └──────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ λ(b : Bool) → │ \n\
\ │ if b then Natural/even │ Both branches have type ❰Natural → Bool❱ \n\
\ │ else Natural/odd │ \n\
\ └────────────────────────────┘ \n\
\ \n\
\ \n\
\However, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ This branch has type ❰Natural❱ \n\
\ ⇩ \n\
\ ┌────────────────────────┐ \n\
\ │ if True then 0 │ \n\
\ │ else \"ABC\" │ \n\
\ └────────────────────────┘ \n\
\ ⇧ \n\
\ This branch has type ❰Text❱ \n\
\ \n\
\ \n\
\The ❰then❱ and ❰else❱ branches must have matching types, even if the predicate \n\
\is always ❰True❱ or ❰False❱ \n\
\ \n\
\Your ❰if❱ expression has the following ❰then❱ branch: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which has type: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... and the following ❰else❱ branch: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which has a different type: \n\
\ \n\
\" <> txt3 <> "\n\
\ \n\
\Fix your ❰then❱ and ❰else❱ branches to have matching types \n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
txt3 = insert expr3
prettyTypeMessage (InvalidListType expr0) = ErrorMessages {..}
where
short = "Invalid type for ❰List❱ elements"
long =
"Explanation: ❰List❱s can optionally document the type of their elements with a \n\
\type annotation, like this: \n\
\ \n\
\ \n\
\ ┌──────────────────────────┐ \n\
\ │ [1, 2, 3] : List Natural │ A ❰List❱ of three ❰Natural❱ numbers \n\
\ └──────────────────────────┘ \n\
\ ⇧ \n\
\ The type of the ❰List❱'s elements, which are ❰Natural❱ \n\
\ numbers \n\
\ \n\
\ \n\
\ ┌───────────────────┐ \n\
\ │ [] : List Natural │ An empty ❰List❱ \n\
\ └───────────────────┘ \n\
\ ⇧ \n\
\ You must specify the type when the ❰List❱ is empty \n\
\ \n\
\ \n\
\The element type must be a type and not something else. For example, the \n\
\following element types are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌──────────────┐ \n\
\ │ ... : List 1 │ \n\
\ └──────────────┘ \n\
\ ⇧ \n\
\ This is a ❰Natural❱ number and not a ❰Type❱ \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ ... : List Type │ \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This is a ❰Kind❱ and not a ❰Type❱ \n\
\ \n\
\ \n\
\You declared that the ❰List❱'s elements should have type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a ❰Type❱ \n"
where
txt0 = insert expr0
prettyTypeMessage MissingListType = do
ErrorMessages {..}
where
short = "An empty list requires a type annotation"
long =
"Explanation: Lists do not require a type annotation if they have at least one \n\
\element: \n\
\ \n\
\ \n\
\ ┌───────────┐ \n\
\ │ [1, 2, 3] │ The compiler can infer that this list has type ❰List Natural❱\n\
\ └───────────┘ \n\
\ \n\
\ \n\
\However, empty lists still require a type annotation: \n\
\ \n\
\ \n\
\ ┌───────────────────┐ \n\
\ │ [] : List Natural │ This type annotation is mandatory \n\
\ └───────────────────┘ \n\
\ \n\
\ \n\
\You cannot supply an empty list without a type annotation \n"
prettyTypeMessage (MismatchedListElements i expr0 _expr1 expr2) =
ErrorMessages {..}
where
short = "List elements should all have the same type\n"
<> "\n"
<> prettyDiff expr0 expr2
long =
"Explanation: Every element in a list must have the same type \n\
\ \n\
\For example, this is a valid ❰List❱: \n\
\ \n\
\ \n\
\ ┌───────────┐ \n\
\ │ [1, 2, 3] │ Every element in this ❰List❱ is a ❰Natural❱ number \n\
\ └───────────┘ \n\
\ \n\
\ \n\
\.. but this is " <> _NOT <> " a valid ❰List❱: \n\
\ \n\
\ \n\
\ ┌───────────────┐ \n\
\ │ [1, \"ABC\", 3] │ The first and second element have different types \n\
\ └───────────────┘ \n\
\ \n\
\ \n\
\Your first ❰List❱ element has this type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... but the element at index #" <> txt1 <> " has this type instead: \n\
\ \n\
\" <> txt3 <> "\n"
where
txt0 = insert expr0
txt1 = pretty i
txt3 = insert expr2
prettyTypeMessage (InvalidListElement i expr0 _expr1 expr2) =
ErrorMessages {..}
where
short = "List element has the wrong type\n"
<> "\n"
<> prettyDiff expr0 expr2
long =
"Explanation: Every element in the list must have a type matching the type \n\
\annotation at the end of the list \n\
\ \n\
\For example, this is a valid ❰List❱: \n\
\ \n\
\ \n\
\ ┌──────────────────────────┐ \n\
\ │ [1, 2, 3] : List Natural │ Every element in this ❰List❱ is an ❰Natural❱ \n\
\ └──────────────────────────┘ \n\
\ \n\
\ \n\
\.. but this is " <> _NOT <> " a valid ❰List❱: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────┐ \n\
\ │ [1, \"ABC\", 3] : List Natural │ The second element is not an ❰Natural❱ \n\
\ └──────────────────────────────┘ \n\
\ \n\
\ \n\
\Your ❰List❱ elements should have this type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... but the element at index #" <> txt1 <> " has this type instead: \n\
\ \n\
\" <> txt3 <> "\n"
where
txt0 = insert expr0
txt1 = pretty i
txt3 = insert expr2
prettyTypeMessage (InvalidOptionalType expr0) = ErrorMessages {..}
where
short = "Invalid type for ❰Optional❱ element"
long =
"Explanation: The legacy ❰List❱-like syntax for ❰Optional❱ literals ends with a \n\
\type annotation for the element that might be present, like this: \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ [1] : Optional Natural │ An optional element that's present \n\
\ └────────────────────────┘ \n\
\ ⇧ \n\
\ The type of the ❰Optional❱ element, which is an ❰Natural❱ \n\
\ number \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ [] : Optional Natural │ An optional element that's absent \n\
\ └────────────────────────┘ \n\
\ ⇧ \n\
\ You still specify the type even when the element is absent \n\
\ \n\
\ \n\
\The element type must be a type and not something else. For example, the \n\
\following element types are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ ... : Optional 1 │ \n\
\ └──────────────────┘ \n\
\ ⇧ \n\
\ This is a ❰Natural❱ number and not a ❰Type❱ \n\
\ \n\
\ \n\
\ ┌─────────────────────┐ \n\
\ │ ... : Optional Type │ \n\
\ └─────────────────────┘ \n\
\ ⇧ \n\
\ This is a ❰Kind❱ and not a ❰Type❱ \n\
\ \n\
\ \n\
\Even if the element is absent you still must specify a valid type \n\
\ \n\
\You declared that the ❰Optional❱ element should have type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a ❰Type❱ \n"
where
txt0 = insert expr0
prettyTypeMessage (InvalidOptionalElement expr0 expr1 expr2) = ErrorMessages {..}
where
short = "❰Optional❱ element has the wrong type\n"
<> "\n"
<> prettyDiff expr0 expr2
long =
"Explanation: An ❰Optional❱ element must have a type matching the type annotation\n\
\ \n\
\For example, this is a valid ❰Optional❱ value: \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ [1] : Optional Natural │ ❰1❱ is a ❰Natural❱ number, which matches the \n\
\ └────────────────────────┘ number \n\
\ \n\
\ \n\
\... but this is " <> _NOT <> " a valid ❰Optional❱ value: \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ [\"ABC\"] : Optional Natural │ ❰\"ABC\"❱ is not a ❰Natural❱ number \n\
\ └────────────────────────────┘ \n\
\ \n\
\ \n\
\Your ❰Optional❱ element should have this type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... but the element you provided: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... has this type instead: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
prettyTypeMessage (InvalidSome expr0 expr1 expr2) = ErrorMessages {..}
where
short = "❰Some❱ argument has the wrong type"
long =
"Explanation: The ❰Some❱ constructor expects an argument that is a term, where \n\
\the type of the type of a term must be ❰Type❱ \n\
\ \n\
\For example, this is a valid use of ❰Some❱: \n\
\ \n\
\ \n\
\ ┌────────┐ \n\
\ │ Some 1 │ ❰1❱ is a valid term because ❰1 : Natural : Type❱ \n\
\ └────────┘ \n\
\ \n\
\ \n\
\... but this is " <> _NOT <> " a valid ❰Optional❱ value: \n\
\ \n\
\ \n\
\ ┌───────────┐ \n\
\ │ Some Text │ ❰Text❱ is not a valid term because ❰Text : Type : Kind ❱ \n\
\ └───────────┘ \n\
\ \n\
\ \n\
\The ❰Some❱ argument you provided: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... has this type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but the type of that type is: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... which is not ❰Type❱ \n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
prettyTypeMessage (InvalidFieldType k expr0) = ErrorMessages {..}
where
short = "Invalid field type"
long =
"Explanation: Every record type annotates each field with a ❰Type❱, a ❰Kind❱, or \n\
\a ❰Sort❱ like this: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────────┐ \n\
\ │ { foo : Natural, bar : Integer, baz : Text } │ Every field is annotated \n\
\ └──────────────────────────────────────────────┘ with a ❰Type❱ \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ { foo : Type, bar : Type } │ Every field is annotated \n\
\ └────────────────────────────┘ with a ❰Kind❱ \n\
\ \n\
\ \n\
\However, the types of fields may " <> _NOT <> " be term-level values: \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ { foo : Natural, bar : 1 } │ Invalid record type \n\
\ └────────────────────────────┘ \n\
\ ⇧ \n\
\ ❰1❱ is a ❰Natural❱ number and not a ❰Type❱, \n\
\ ❰Kind❱, or ❰Sort❱ \n\
\ \n\
\ \n\
\You provided a record type with a field named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... annotated with the following expression: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is neither a ❰Type❱, a ❰Kind❱, nor a ❰Sort❱ \n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (FieldAnnotationMismatch k0 expr0 c0 k1 expr1 c1) = ErrorMessages {..}
where
short = "Field annotation mismatch"
long =
"Explanation: Every record type annotates each field with a ❰Type❱ or a ❰Kind❱, \n\
\like this: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────────┐ \n\
\ │ { foo : Natural, bar : Integer, baz : Text } │ Every field is annotated \n\
\ └──────────────────────────────────────────────┘ with a ❰Type❱ \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ { foo : Type, bar : Type } │ Every field is annotated \n\
\ └────────────────────────────┘ with a ❰Kind❱ \n\
\ \n\
\ \n\
\However, you cannot have a record type with both a ❰Type❱ and ❰Kind❱ annotation:\n\
\ \n\
\ \n\
\ This is a ❰Type❱ annotation \n\
\ ⇩ \n\
\ ┌───────────────────────────────┐ \n\
\ │ { foo : Natural, bar : Type } │ Invalid record type \n\
\ └───────────────────────────────┘ \n\
\ ⇧ \n\
\ ... but this is a ❰Kind❱ annotation \n\
\ \n\
\ \n\
\You provided a record type with a field named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... annotated with the following expression: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is a " <> level c1 <> " whereas another field named: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... annotated with the following expression: \n\
\ \n\
\" <> txt3 <> "\n\
\ \n\
\... is a " <> level c0 <> ", which does not match \n"
where
txt0 = insert k0
txt1 = insert expr0
txt2 = insert k1
txt3 = insert expr1
level Type = "❰Type❱"
level Kind = "❰Kind❱"
level Sort = "❰Sort❱"
prettyTypeMessage (FieldMismatch k0 expr0 c0 k1 expr1 c1) = ErrorMessages {..}
where
short = "Field mismatch"
long =
"Explanation: Every record has fields that can be either terms or types, like \n\
\this: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = True, baz = \"ABC\" } │ Every field is a term \n\
\ └──────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌───────────────────────────────┐ \n\
\ │ { foo = Natural, bar = Text } │ Every field is a type \n\
\ └───────────────────────────────┘ \n\
\ \n\
\ \n\
\However, you cannot have a record that stores both terms and types: \n\
\ \n\
\ \n\
\ This is a term \n\
\ ⇩ \n\
\ ┌─────────────────────────┐ \n\
\ │ { foo = 1, bar = Bool } │ Invalid record \n\
\ └─────────────────────────┘ \n\
\ ⇧ \n\
\ ... but this is a type \n\
\ \n\
\ \n\
\You provided a record with a field named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... whose value was: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is a " <> level c1 <> " whereas another field named: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... whose value was: \n\
\ \n\
\" <> txt3 <> "\n\
\ \n\
\... is a " <> level c0 <> ", which does not match \n"
where
txt0 = insert k0
txt1 = insert expr0
txt2 = insert k1
txt3 = insert expr1
level Type = "term"
level Kind = "type"
level Sort = "kind"
prettyTypeMessage (InvalidField k expr0) = ErrorMessages {..}
where
short = "Invalid field"
long =
"Explanation: Every record literal is a set of fields assigned to values, like \n\
\this: \n\
\ \n\
\ ┌────────────────────────────────────────┐ \n\
\ │ { foo = 100, bar = True, baz = \"ABC\" } │ \n\
\ └────────────────────────────────────────┘ \n\
\ \n\
\However, fields can only be terms and or ❰Type❱s and not ❰Kind❱s \n\
\ \n\
\For example, the following record literal is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ { foo = Type } │ \n\
\ └────────────────┘ \n\
\ ⇧ \n\
\ ❰Type❱ is a ❰Kind❱, which is not allowed \n\
\ \n\
\ \n\
\You provided a record literal with a field named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... whose value is: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not a term or ❰Type❱ \n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (InvalidAlternativeType k expr0) = ErrorMessages {..}
where
short = "Invalid alternative type"
long =
"Explanation: Every union type specifies the type of each alternative, like this:\n\
\ \n\
\ \n\
\ The type of the first alternative is ❰Bool❱ \n\
\ ⇩ \n\
\ ┌──────────────────────────────────┐ \n\
\ │ < Left : Bool, Right : Natural > │ A union type with two alternatives \n\
\ └──────────────────────────────────┘ \n\
\ ⇧ \n\
\ The type of the second alternative is ❰Natural❱ \n\
\ \n\
\ \n\
\However, these alternatives can only be annotated with ❰Type❱s, ❰Kind❱s, or \n\
\❰Sort❱s. For example, the following union types are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ < Left : Bool, Right : 1 > │ Invalid union type \n\
\ └────────────────────────────┘ \n\
\ ⇧ \n\
\ This is a ❰Natural❱ and not a ❰Type❱, ❰Kind❱, or \n\
\ ❰Sort❱ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You accidentally typed ❰:❱ instead of ❰=❱ for a union literal with one \n\
\ alternative: \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ < Example : 1 > │ \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This could be ❰=❱ instead \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided a union type with an alternative named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... annotated with the following expression which is not a ❰Type❱, ❰Kind❱, or \n\
\❰Sort❱: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (InvalidAlternative k expr0) = ErrorMessages {..}
where
short = "Invalid alternative"
long =
"Explanation: Every union literal begins by selecting one alternative and \n\
\specifying the value for that alternative, like this: \n\
\ \n\
\ \n\
\ Select the ❰Left❱ alternative, whose value is ❰True❱ \n\
\ ⇩ \n\
\ ┌──────────────────────────────────┐ \n\
\ │ < Left = True, Right : Natural > │ A union literal with two alternatives \n\
\ └──────────────────────────────────┘ \n\
\ \n\
\ \n\
\However, this value must be a term, type, or kind. For example, the following \n\
\values are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────┐ \n\
\ │ < Left = Sort > │ Invalid union literal \n\
\ └─────────────────┘ \n\
\ ⇧ \n\
\ This is not a term, type, or kind \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided a union literal with an alternative named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... whose value is: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not a term, type, or kind. \n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (AlternativeAnnotationMismatch k0 expr0 c0 k1 expr1 c1) = ErrorMessages {..}
where
short = "Alternative annotation mismatch"
long =
"Explanation: Every union type annotates each alternative with a ❰Type❱ or a \n\
\❰Kind❱, like this: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────┐ \n\
\ │ < Left : Natural | Right : Bool > │ Every alternative is annotated with a\n\
\ └───────────────────────────────────┘ ❰Type❱ \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────┐ \n\
\ │ < Foo : Type → Type | Bar : Type > │ Every alternative is annotated with \n\
\ └────────────────────────────────────┘ a ❰Kind❱ \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ < Baz : Kind > │ Every alternative is annotated with a ❰Sort❱ \n\
\ └────────────────┘ \n\
\ \n\
\ \n\
\However, you cannot have a union type that mixes ❰Type❱s, ❰Kind❱s, or ❰Sort❱s \n\
\for the annotations: \n\
\ \n\
\ \n\
\ This is a ❰Type❱ annotation \n\
\ ⇩ \n\
\ ┌───────────────────────────────┐ \n\
\ │ { foo : Natural, bar : Type } │ Invalid union type \n\
\ └───────────────────────────────┘ \n\
\ ⇧ \n\
\ ... but this is a ❰Kind❱ annotation \n\
\ \n\
\ \n\
\You provided a union type with an alternative named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... annotated with the following expression: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is a " <> level c0 <> " whereas another alternative named: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... annotated with the following expression: \n\
\ \n\
\" <> txt3 <> "\n\
\ \n\
\... is a " <> level c1 <> ", which does not match \n"
where
txt0 = insert k0
txt1 = insert expr0
txt2 = insert k1
txt3 = insert expr1
level Type = "❰Type❱"
level Kind = "❰Kind❱"
level Sort = "❰Sort❱"
prettyTypeMessage (ListAppendMismatch expr0 expr1) = ErrorMessages {..}
where
short = "You can only append ❰List❱s with matching element types\n"
<> "\n"
<> prettyDiff expr0 expr1
long =
"Explanation: You can append two ❰List❱s using the ❰#❱ operator, like this: \n\
\ \n\
\ \n\
\ ┌────────────────────┐ \n\
\ │ [1, 2, 3] # [4, 5] │ \n\
\ └────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot append two ❰List❱s if they have different element types. \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ These elements have type ❰Natural❱ \n\
\ ⇩ \n\
\ ┌───────────────────────────┐ \n\
\ │ [1, 2, 3] # [True, False] │ Invalid: the element types don't match \n\
\ └───────────────────────────┘ \n\
\ ⇧ \n\
\ These elements have type ❰Bool❱ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to append a ❰List❱ thas has elements of type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... with another ❰List❱ that has elements of type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... and those two types do not match \n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (DuplicateAlternative k) = ErrorMessages {..}
where
short = "Duplicate union alternative"
long =
"Explanation: Unions may not have two alternatives that share the same name \n\
\ \n\
\For example, the following expressions are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────┐ \n\
\ │ < foo = True | foo : Text > │ Invalid: ❰foo❱ appears twice \n\
\ └─────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────┐ \n\
\ │ < foo = 1 | bar : Bool | bar : Text > │ Invalid: ❰bar❱ appears twice \n\
\ └───────────────────────────────────────┘ \n\
\ \n\
\ \n\
\You have more than one alternative named: \n\
\ \n\
\" <> txt0 <> "\n"
where
txt0 = insert k
prettyTypeMessage (MustCombineARecord c expr0 expr1) = ErrorMessages {..}
where
short = "You can only combine records"
long =
"Explanation: You can combine records using the ❰" <> op <> "❱ operator, like this:\n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } " <> op <> " { baz = True } │ \n\
\ └───────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────┐ \n\
\ │ λ(r : { foo : Bool }) → r " <> op <> " { bar = \"ABC\" } │ \n\
\ └─────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot combine values that are not records. \n\
\ \n\
\For example, the following expressions are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } " <> op <> " 1 │ \n\
\ └──────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: Not a record \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } " <> op <> " { baz : Bool } │ \n\
\ └───────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: This is a record type and not a record\n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } " <> op <> " < baz = True > │ \n\
\ └───────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: This is a union and not a record \n\
\ \n\
\ \n\
\You tried to combine the following value: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a record, but is actually a: \n\
\ \n\
\" <> txt1 <> "\n"
where
op = pretty c
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (RecordMismatch c expr0 expr1 const0 const1) = ErrorMessages {..}
where
short = "Record mismatch"
long =
"Explanation: You can only use the ❰" <> op <> "❱ operator to combine records if they both \n\
\store terms or both store types. \n\
\ \n\
\ \n\
\ ┌──────────────────────────────┐ \n\
\ │ { foo = 1 } " <> op <> " { baz = True } │ Valid: Both records store terms \n\
\ └──────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ { foo = Bool } " <> op <> " { bar = Text } │ Valid: Both records store types \n\
\ └─────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot combine two records if one of the records stores types and \n\
\the other record stores terms. \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ Record of terms \n\
\ ⇩ \n\
\ ┌──────────────────────────────┐ \n\
\ │ { foo = 1 } " <> op <> " { bar = Text } │ Invalid: Mixing terms and types \n\
\ └──────────────────────────────┘ \n\
\ ⇧ \n\
\ Record of types \n\
\ \n\
\ \n\
\You tried to combine the following record: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which stores " <> class0 <> ", with the following record: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which stores " <> class1 <> ". \n"
where
op = pretty c
txt0 = insert expr0
txt1 = insert expr1
toClass Type = "terms"
toClass Kind = "types"
toClass Sort = "kinds"
class0 = toClass const0
class1 = toClass const1
prettyTypeMessage (CombineTypesRequiresRecordType expr0 expr1) =
ErrorMessages {..}
where
short = "❰⩓❱ requires arguments that are record types"
long =
"Explanation: You can only use the ❰⩓❱ operator on arguments that are record type\n\
\literals, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────┐ \n\
\ │ { age : Natural } ⩓ { name : Text } │ \n\
\ └─────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot use the ❰⩓❱ operator on any other type of arguments. For \n\
\example, you cannot use variable arguments: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────┐ \n\
\ │ λ(t : Type) → t ⩓ { name : Text } │ Invalid: ❰t❱ might not be a record \n\
\ └───────────────────────────────────┘ type \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to supply the following argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which normalized to: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not a record type literal \n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (RecordTypeMismatch const0 const1 expr0 expr1) =
ErrorMessages {..}
where
short = "Record type mismatch"
long =
"Explanation: You can only use the ❰⩓❱ operator on record types if they are both \n\
\ ❰Type❱s or ❰Kind❱s: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────┐ \n\
\ │ { age : Natural } ⩓ { name : Text } │ Valid: Both arguments are ❰Type❱s \n\
\ └─────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────┐ \n\
\ │ { Input : Type } ⩓ { Output : Type } │ Valid: Both arguments are ❰Kind❱s \n\
\ └──────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot combine a ❰Type❱ and a ❰Kind❱: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────┐ \n\
\ │ { Input : Type } ⩓ { name : Text } │ Invalid: The arguments do not match \n\
\ └────────────────────────────────────┘ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to combine the following record type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... with this record types: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but the former record type is a: \n\
\ \n\
\" <> txt2 <> "\n\
\ \n\
\... but the latter record type is a: \n\
\ \n\
\" <> txt3 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert const0
txt3 = insert const1
prettyTypeMessage (FieldCollision k) = ErrorMessages {..}
where
short = "Field collision"
long =
"Explanation: You can combine records or record types if they don't share any \n\
\fields in common, like this: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } ∧ { baz = True } │ \n\
\ └───────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ { foo : Text } ⩓ { bar : Bool } │ \n\
\ └─────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────────┐ \n\
\ │ λ(r : { baz : Bool}) → { foo = 1 } ∧ r │ \n\
\ └────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot merge two records that share the same field unless the field \n\
\is a record on both sides. \n\
\ \n\
\For example, the following expressions are " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } ∧ { foo = True } │ Invalid: Colliding ❰foo❱ \n\
\ └───────────────────────────────────────────┘ fields \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ { foo : Bool } ∧ { foo : Text } │ Invalid: Colliding ❰foo❱ fields \n\
\ └─────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but the following expressions are valid: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────────────┐ \n\
\ │ { foo = { bar = True } } ∧ { foo = { baz = 1 } } │ Valid: Both ❰foo❱ \n\
\ └──────────────────────────────────────────────────┘ fields are records \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────┐ \n\
\ │ { foo : { bar : Bool } } ⩓ { foo : { baz : Text } } │ Valid: Both ❰foo❱ \n\
\ └─────────────────────────────────────────────────────┘ fields are records \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You tried to use ❰∧❱ to update a field's value, like this: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────────┐ \n\
\ │ { foo = 1, bar = \"ABC\" } ∧ { foo = 2 } │ \n\
\ └────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid attempt to update ❰foo❱'s value to ❰2❱\n\
\ \n\
\ Field updates are intentionally not allowed as the Dhall language discourages \n\
\ patch-oriented programming \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You combined two records that share the following field: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not allowed \n"
where
txt0 = insert k
prettyTypeMessage (MustMergeARecord expr0 expr1) = ErrorMessages {..}
where
short = "❰merge❱ expects a record of handlers"
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but the first argument to ❰merge❱ must be a record and not some other type. \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────┐ \n\
\ │ let handler = λ(x : Bool) → x │ \n\
\ │ in merge handler < Foo = True > : True │ \n\
\ └─────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: ❰handler❱ isn't a record \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You accidentally provide an empty record type instead of an empty record when \n\
\ you ❰merge❱ an empty union: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────┐ \n\
\ │ λ(x : <>) → λ(a : Type) → merge {} x : a │ \n\
\ └──────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ This should be ❰{=}❱ instead \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided the following handler: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a record, but is actually a value of type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (MustMergeUnion expr0 expr1) = ErrorMessages {..}
where
short = "❰merge❱ expects a union"
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but the second argument to ❰merge❱ must be a union and not some other type. \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────┐ \n\
\ │ let handlers = { Foo = λ(x : Bool) → x } │ \n\
\ │ in merge handlers True : True │ \n\
\ └──────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: ❰True❱ isn't a union \n\
\ \n\
\ \n\
\You tried to ❰merge❱ this expression: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a union, but is actually a value of type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (UnusedHandler ks) = ErrorMessages {..}
where
short = "Unused handler"
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you must provide exactly one handler per alternative in the union. You \n\
\cannot supply extra handlers \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 > │ The ❰Right❱ alternative is \n\
\ │ in let handlers = │ missing \n\
\ │ { Left = Natural/even │ \n\
\ │ , Right = λ(x : Bool) → x │ Invalid: ❰Right❱ handler isn't \n\
\ │ } │ used \n\
\ │ in merge handlers union : Bool │ \n\
\ └───────────────────────────────────────┘ \n\
\ \n\
\ \n\
\You provided the following handlers: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which had no matching alternatives in the union you tried to ❰merge❱ \n"
where
txt0 = insert (Text.intercalate ", " (Data.Set.toList ks))
prettyTypeMessage (MissingHandler ks) = ErrorMessages {..}
where
short = "Missing handler"
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you must provide exactly one handler per alternative in the union. You \n\
\cannot omit any handlers \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ Invalid: Missing ❰Right❱ handler \n\
\ ⇩ \n\
\ ┌─────────────────────────────────────────────────┐ \n\
\ │ let handlers = { Left = Natural/even } │ \n\
\ │ in let union = < Left = 2 | Right : Bool > │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\Note that you need to provide handlers for other alternatives even if those \n\
\alternatives are never used \n\
\ \n\
\You need to supply the following handlers: \n\
\ \n\
\" <> txt0 <> "\n"
where
txt0 = insert (Text.intercalate ", " (Data.Set.toList ks))
prettyTypeMessage MissingMergeType =
ErrorMessages {..}
where
short = "An empty ❰merge❱ requires a type annotation"
long =
"Explanation: A ❰merge❱ does not require a type annotation if the union has at \n\
\least one alternative, like this \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\However, you must provide a type annotation when merging an empty union: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────┐ \n\
\ │ λ(a : <>) → merge {=} a : Bool │ \n\
\ └────────────────────────────────┘ \n\
\ ⇧ \n\
\ This can be any type \n\
\ \n\
\ \n\
\You can provide any type at all as the annotation, since merging an empty \n\
\union can produce any type of output \n"
prettyTypeMessage (HandlerInputTypeMismatch expr0 expr1 expr2) =
ErrorMessages {..}
where
short = "Wrong handler input type\n"
<> "\n"
<> prettyDiff expr1 expr2
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... as long as the input type of each handler function matches the type of the \n\
\corresponding alternative: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────────────────┐ \n\
\ │ union : < Left : Natural | Right : Bool > │ \n\
\ └───────────────────────────────────────────────────────────┘ \n\
\ ⇧ ⇧ \n\
\ These must match These must match \n\
\ ⇩ ⇩ \n\
\ ┌───────────────────────────────────────────────────────────┐ \n\
\ │ handlers : { Left : Natural → Bool, Right : Bool → Bool } │ \n\
\ └───────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ Invalid: Doesn't match the type of the ❰Right❱ alternative \n\
\ ⇩ \n\
\ ┌──────────────────────────────────────────────────────────────────────┐ \n\
\ │ let handlers = { Left = Natural/even | Right = λ(x : Text) → x } │ \n\
\ │ in let union = < Left = 2 | Right : Bool > │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └──────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\Your handler for the following alternative: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... needs to accept an input value of type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but actually accepts an input value of a different type: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
prettyTypeMessage (InvalidHandlerOutputType expr0 expr1 expr2) =
ErrorMessages {..}
where
short = "Wrong handler output type\n"
<> "\n"
<> prettyDiff expr1 expr2
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... as long as the output type of each handler function matches the declared \n\
\type of the result: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────────────────┐ \n\
\ │ handlers : { Left : Natural → Bool, Right : Bool → Bool } │ \n\
\ └───────────────────────────────────────────────────────────┘ \n\
\ ⇧ ⇧ \n\
\ These output types ... \n\
\ \n\
\ ... must match the declared type of the ❰merge❱ \n\
\ ⇩ \n\
\ ┌─────────────────────────────┐ \n\
\ │ merge handlers union : Bool │ \n\
\ └─────────────────────────────┘ \n\
\ \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Text │ \n\
\ └──────────────────────────────────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: Doesn't match output of either handler\n\
\ \n\
\ \n\
\Your handler for the following alternative: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... needs to return an output value of type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but actually returns an output value of a different type: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = insert expr2
prettyTypeMessage (HandlerOutputTypeMismatch key0 expr0 key1 expr1) =
ErrorMessages {..}
where
short = "Handlers should have the same output type\n"
<> "\n"
<> prettyDiff expr0 expr1
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... as long as the output type of each handler function is the same: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────────────────┐ \n\
\ │ handlers : { Left : Natural → Bool, Right : Bool → Bool } │ \n\
\ └───────────────────────────────────────────────────────────┘ \n\
\ ⇧ ⇧ \n\
\ These output types both match \n\
\ \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = │ \n\
\ │ { Left = λ(x : Natural) → x │ This outputs ❰Natural❱ \n\
\ │ , Right = λ(x : Bool ) → x │ This outputs ❰Bool❱ \n\
\ │ } │ \n\
\ │ in merge handlers union │ \n\
\ └─────────────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: The handlers in this record don't have matching outputs\n\
\ \n\
\ \n\
\The handler for the ❰" <> txt0 <> "❱ alternative has this output type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but the handler for the ❰" <> txt2 <> "❱ alternative has this output type instead:\n\
\ \n\
\" <> txt3 <> "\n"
where
txt0 = pretty key0
txt1 = insert expr0
txt2 = pretty key1
txt3 = insert expr1
prettyTypeMessage (HandlerNotAFunction k expr0) = ErrorMessages {..}
where
short = "Handler is not a function"
long =
"Explanation: You can ❰merge❱ the alternatives of a union using a record with one\n\
\handler per alternative, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────────────────────┐ \n\
\ │ let union = < Left = 2 | Right : Bool > │ \n\
\ │ in let handlers = { Left = Natural/even, Right = λ(x : Bool) → x } │ \n\
\ │ in merge handlers union : Bool │ \n\
\ └─────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... as long as each handler is a function \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────┐ \n\
\ │ merge { Foo = True } < Foo = 1 > : Bool │ \n\
\ └─────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: Not a function \n\
\ \n\
\ \n\
\Your handler for this alternative: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... has the following type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not the type of a function \n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (ConstructorsRequiresAUnionType expr0 expr1) = ErrorMessages {..}
where
short = "❰constructors❱ requires a union type"
long =
"Explanation: You can only use the ❰constructors❱ keyword on an argument that is \n\
\a union type literal, like this: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────┐ \n\
\ │ constructors < Left : Natural, Right : Bool > │ \n\
\ └───────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot use the ❰constructors❱ keyword on any other type of argument.\n\
\For example, you cannot use a variable argument: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────┐ \n\
\ │ λ(t : Type) → constructors t │ Invalid: ❰t❱ might not be a union type \n\
\ └──────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────┐ \n\
\ │ let t : Type = < Left : Natural, Right : Bool > │ Invalid: Type-checking \n\
\ │ in constructors t │ precedes normalization \n\
\ └─────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\However, you can import the union type argument: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────┐ \n\
\ │ constructors ./unionType.dhall │ Valid: Import resolution precedes \n\
\ └────────────────────────────────┘ type-checking \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to supply the following argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which normalized to: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which is not a union type literal \n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (CantAccess lazyText0 expr0 expr1) = ErrorMessages {..}
where
short = "Not a record or a union"
long =
"Explanation: You can only access fields on records or unions, like this: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────┐ \n\
\ │ { foo = True, bar = \"ABC\" }.foo │ This is valid ... \n\
\ └───────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ λ(r : { foo : Bool, bar : Text }) → r.foo │ ... and so is this \n\
\ └───────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ < foo : Bool | bar : Text >.foo │ ... and so is this \n\
\ └─────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────────────┐ \n\
\ │ λ(r : < foo : Bool | bar : Text >) → r.foo │ ... and so is this \n\
\ └────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot access fields on non-record expressions \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌───────┐ \n\
\ │ 1.foo │ \n\
\ └───────┘ \n\
\ ⇧ \n\
\ Invalid: Not a record \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to access the field: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... on the following expression which is not a record nor a union type: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but is actually an expression of type: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert lazyText0
txt1 = insert expr0
txt2 = insert expr1
prettyTypeMessage (CantProject lazyText0 expr0 expr1) = ErrorMessages {..}
where
short = "Not a record"
long =
"Explanation: You can only project fields on records, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────────────────┐ \n\
\ │ { foo = True, bar = \"ABC\", baz = 1 }.{ foo, bar } │ This is valid ... \n\
\ └─────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────────────────────────────────────┐ \n\
\ │ λ(r : { foo : Bool, bar : Text , baz : Natural }) → r.{ foo, bar } │ ... and so is this \n\
\ └────────────────────────────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you cannot project fields on non-record expressions \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ 1.{ foo, bar } │ \n\
\ └────────────────┘ \n\
\ ⇧ \n\
\ Invalid: Not a record \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You accidentally try to project fields of a union instead of a record, like \n\
\ this: \n\
\ \n\
\ \n\
\ ┌────────────────────────────────────┐ \n\
\ │ < foo : a | bar : b >.{ foo, bar } │ \n\
\ └────────────────────────────────────┘ \n\
\ ⇧ \n\
\ This is a union, not a record \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You tried to access the fields: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... on the following expression which is not a record: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... but is actually an expression of type: \n\
\ \n\
\" <> txt2 <> "\n"
where
txt0 = insert lazyText0
txt1 = insert expr0
txt2 = insert expr1
prettyTypeMessage (MissingField k expr0) = ErrorMessages {..}
where
short = "Missing record field"
long =
"Explanation: You can only access fields on records, like this: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ { foo = True, bar = \"ABC\" }.foo │ This is valid ... \n\
\ └─────────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────┐ \n\
\ │ λ(r : { foo : Bool, bar : Text }) → r.foo │ ... and so is this \n\
\ └───────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\... but you can only access fields if they are present \n\
\ \n\
\For example, the following expression is " <> _NOT <> " valid: \n\
\ \n\
\ ┌─────────────────────────────────┐ \n\
\ │ { foo = True, bar = \"ABC\" }.qux │ \n\
\ └─────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: the record has no ❰qux❱ field \n\
\ \n\
\You tried to access a field named: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... but the field is missing because the record only defines the following \n\
\fields: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert k
txt1 = insert expr0
prettyTypeMessage (CantAnd expr0 expr1) =
buildBooleanOperator "&&" expr0 expr1
prettyTypeMessage (CantOr expr0 expr1) =
buildBooleanOperator "||" expr0 expr1
prettyTypeMessage (CantEQ expr0 expr1) =
buildBooleanOperator "==" expr0 expr1
prettyTypeMessage (CantNE expr0 expr1) =
buildBooleanOperator "!=" expr0 expr1
prettyTypeMessage (CantInterpolate expr0 expr1) = ErrorMessages {..}
where
short = "You can only interpolate ❰Text❱"
long =
"Explanation: Text interpolation only works on expressions of type ❰Text❱ \n\
\ \n\
\For example, these are all valid uses of string interpolation: \n\
\ \n\
\ \n\
\ ┌──────────────────┐ \n\
\ │ \"ABC${\"DEF\"}GHI\" │ \n\
\ └──────────────────┘ \n\
\ \n\
\ \n\
\ ┌────────────────────────────┐ \n\
\ │ λ(x : Text) → \"ABC${x}GHI\" │ \n\
\ └────────────────────────────┘ \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────┐ \n\
\ │ λ(age : Natural) → \"Age: ${Natural/show age}\" │ \n\
\ └───────────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You might have thought that string interpolation automatically converts the \n\
\ interpolated value to a ❰Text❱ representation of that value: \n\
\ \n\
\ \n\
\ ┌──────────────────────────────────┐ \n\
\ │ λ(age : Natural) → \"Age: ${age}\" │ \n\
\ └──────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid: ❰age❱ has type ❰Natural❱ \n\
\ \n\
\ \n\
\● You might have forgotten to escape a string interpolation that you wanted \n\
\ Dhall to ignore and pass through: \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ \"echo ${HOME}\" │ \n\
\ └────────────────┘ \n\
\ ⇧ \n\
\ ❰HOME❱ is not in scope and this might have meant to use ❰\\${HOME}❱\n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You interpolated this expression: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which does not have type ❰Text❱ but instead has type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (CantTextAppend expr0 expr1) = ErrorMessages {..}
where
short = "❰++❱ only works on ❰Text❱"
long =
"Explanation: The ❰++❱ operator expects two arguments that have type ❰Text❱ \n\
\ \n\
\For example, this is a valid use of ❰++❱: \n\
\ \n\
\ \n\
\ ┌────────────────┐ \n\
\ │ \"ABC\" ++ \"DEF\" │ \n\
\ └────────────────┘ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You might have thought that ❰++❱ was the operator to combine two lists: \n\
\ \n\
\ \n\
\ ┌────────────────────────┐ \n\
\ │ [1, 2, 3] ++ [4, 5, 6] │ Not valid \n\
\ └────────────────────────┘ \n\
\ \n\
\ \n\
\ ... but the list concatenation operator is actually ❰#❱: \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ [1, 2, 3] # [4, 5, 6] │ Valid \n\
\ └───────────────────────┘ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided this argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which does not have type ❰Text❱ but instead has type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (CantListAppend expr0 expr1) = ErrorMessages {..}
where
short = "❰#❱ only works on ❰List❱s"
long =
"Explanation: The ❰#❱ operator expects two arguments that are both ❰List❱s \n\
\ \n\
\For example, this is a valid use of ❰#❱: \n\
\ \n\
\ \n\
\ ┌───────────────────────┐ \n\
\ │ [1, 2, 3] # [4, 5, 6] │ \n\
\ └───────────────────────┘ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided this argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which is not a ❰List❱ but instead has type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
prettyTypeMessage (CantAdd expr0 expr1) =
buildNaturalOperator "+" expr0 expr1
prettyTypeMessage (CantMultiply expr0 expr1) =
buildNaturalOperator "*" expr0 expr1
prettyTypeMessage (NoDependentTypes expr0 expr1) = ErrorMessages {..}
where
short = "No dependent types"
long =
"Explanation: The Dhall programming language does not allow functions from terms \n\
\to types. These function types are also known as “dependent function types” \n\
\because you have a type whose value “depends” on the value of a term. \n\
\ \n\
\For example, this is " <> _NOT <> " a legal function type: \n\
\ \n\
\ \n\
\ ┌─────────────┐ \n\
\ │ Bool → Type │ \n\
\ └─────────────┘ \n\
\ \n\
\ \n\
\Similarly, this is " <> _NOT <> " legal code: \n\
\ \n\
\ \n\
\ ┌───────────────────────────────────────────────────┐ \n\
\ │ λ(Vector : Natural → Type → Type) → Vector 0 Text │ \n\
\ └───────────────────────────────────────────────────┘ \n\
\ ⇧ \n\
\ Invalid dependent type \n\
\ \n\
\ \n\
\Your function type is invalid because the input has type: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... and the output has kind: \n\
\ \n\
\" <> txt1 <> "\n\
\ \n\
\... which makes this a forbidden dependent function type \n"
where
txt0 = insert expr0
txt1 = insert expr1
buildBooleanOperator :: Pretty a => Text -> Expr s a -> Expr s a -> ErrorMessages
buildBooleanOperator operator expr0 expr1 = ErrorMessages {..}
where
short = "❰" <> txt2 <> "❱ only works on ❰Bool❱s"
long =
"Explanation: The ❰" <> txt2 <> "❱ operator expects two arguments that have type ❰Bool❱\n\
\ \n\
\For example, this is a valid use of ❰" <> txt2 <> "❱: \n\
\ \n\
\ \n\
\ ┌───────────────┐ \n\
\ │ True " <> txt2 <> " False │ \n\
\ └───────────────┘ \n\
\ \n\
\ \n\
\You provided this argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which does not have type ❰Bool❱ but instead has type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = pretty operator
buildNaturalOperator :: Pretty a => Text -> Expr s a -> Expr s a -> ErrorMessages
buildNaturalOperator operator expr0 expr1 = ErrorMessages {..}
where
short = "❰" <> txt2 <> "❱ only works on ❰Natural❱s"
long =
"Explanation: The ❰" <> txt2 <> "❱ operator expects two arguments that have type ❰Natural❱\n\
\ \n\
\For example, this is a valid use of ❰" <> txt2 <> "❱: \n\
\ \n\
\ \n\
\ ┌───────┐ \n\
\ │ 3 " <> txt2 <> " 5 │ \n\
\ └───────┘ \n\
\ \n\
\ \n\
\Some common reasons why you might get this error: \n\
\ \n\
\● You might have tried to use an ❰Integer❱, which is " <> _NOT <> " allowed: \n\
\ \n\
\ \n\
\ ┌─────────────────────────────────────────┐ \n\
\ │ λ(x : Integer) → λ(y : Integer) → x " <> txt2 <> " y │ Not valid \n\
\ └─────────────────────────────────────────┘ \n\
\ \n\
\ \n\
\ You can only use ❰Natural❱ numbers \n\
\ \n\
\ \n\
\● You might have mistakenly used an ❰Integer❱ literal, which is " <> _NOT <> " allowed:\n\
\ \n\
\ \n\
\ ┌─────────┐ \n\
\ │ +2 " <> txt2 <> " +2 │ Not valid \n\
\ └─────────┘ \n\
\ \n\
\ \n\
\ You need to remove the leading ❰+❱ to transform them into ❰Natural❱ literals, \n\
\ like this: \n\
\ \n\
\ \n\
\ ┌───────┐ \n\
\ │ 2 " <> txt2 <> " 2 │ Valid \n\
\ └───────┘ \n\
\ \n\
\ \n\
\────────────────────────────────────────────────────────────────────────────────\n\
\ \n\
\You provided this argument: \n\
\ \n\
\" <> txt0 <> "\n\
\ \n\
\... which does not have type ❰Natural❱ but instead has type: \n\
\ \n\
\" <> txt1 <> "\n"
where
txt0 = insert expr0
txt1 = insert expr1
txt2 = pretty operator
data TypeError s a = TypeError
{ context :: Context (Expr s a)
, current :: Expr s a
, typeMessage :: TypeMessage s a
}
instance (Eq a, Pretty s, Pretty a) => Show (TypeError s a) where
show = Pretty.renderString . Pretty.layoutPretty layoutOpts . Pretty.pretty
instance (Eq a, Pretty s, Pretty a, Typeable s, Typeable a) => Exception (TypeError s a)
instance (Eq a, Pretty s, Pretty a) => Pretty (TypeError s a) where
pretty (TypeError ctx expr msg)
= Pretty.unAnnotate
( "\n"
<> ( if null (Dhall.Context.toList ctx)
then ""
else prettyContext ctx <> "\n\n"
)
<> shortTypeMessage msg <> "\n"
<> source
)
where
prettyKV (key, val) =
pretty key <> " : " <> Dhall.Util.snipDoc (pretty val)
prettyContext =
Pretty.vsep
. map prettyKV
. reverse
. Dhall.Context.toList
source = case expr of
Note s _ -> pretty s
_ -> mempty
newtype DetailedTypeError s a = DetailedTypeError (TypeError s a)
deriving (Typeable)
instance (Eq a, Pretty s, Pretty a) => Show (DetailedTypeError s a) where
show = Pretty.renderString . Pretty.layoutPretty layoutOpts . Pretty.pretty
instance (Eq a, Pretty s, Pretty a, Typeable s, Typeable a) => Exception (DetailedTypeError s a)
instance (Eq a, Pretty s, Pretty a) => Pretty (DetailedTypeError s a) where
pretty (DetailedTypeError (TypeError ctx expr msg))
= Pretty.unAnnotate
( "\n"
<> ( if null (Dhall.Context.toList ctx)
then ""
else prettyContext ctx <> "\n\n"
)
<> longTypeMessage msg <> "\n"
<> "────────────────────────────────────────────────────────────────────────────────\n"
<> "\n"
<> source
)
where
prettyKV (key, val) =
pretty key <> " : " <> Dhall.Util.snipDoc (pretty val)
prettyContext =
Pretty.vsep
. map prettyKV
. reverse
. Dhall.Context.toList
source = case expr of
Note s _ -> pretty s
_ -> mempty
checkContext :: Context (Expr s X) -> Either (TypeError s X) ()
checkContext context =
case Dhall.Context.match context of
Nothing -> do
return ()
Just (x, v, context') -> do
let shiftedV = Dhall.Core.shift (-1) (V x 0) v
let shiftedContext = fmap (Dhall.Core.shift (-1) (V x 0)) context'
_ <- typeWith shiftedContext shiftedV
return ()