module Idris.Core.Binary where
import Data.Binary
import Data.Vector.Binary
import qualified Data.Text as T
import Idris.Core.TT
instance Binary ErrorReportPart where
put (TextPart msg) = do putWord8 0 ; put msg
put (NamePart n) = do putWord8 1 ; put n
put (TermPart t) = do putWord8 2 ; put t
put (SubReport ps) = do putWord8 3 ; put ps
get = do i <- getWord8
case i of
0 -> fmap TextPart get
1 -> fmap NamePart get
2 -> fmap TermPart get
3 -> fmap SubReport get
_ -> error "Corrupted binary data for ErrorReportPart"
instance Binary Provenance where
put ExpectedType = putWord8 0
put (SourceTerm t) = do putWord8 1
put t
put InferredVal = putWord8 2
put GivenVal = putWord8 3
put (TooManyArgs t) = do putWord8 4
put t
get = do i <- getWord8
case i of
0 -> return ExpectedType
1 -> do x1 <- get
return (SourceTerm x1)
2 -> return InferredVal
3 -> return GivenVal
4 -> do x1 <- get
return (TooManyArgs x1)
_ -> error "Corrupted binary data for Provenance"
instance Binary a => Binary (Err' a) where
put (Msg str) = do putWord8 0
put str
put (InternalMsg str) = do putWord8 1
put str
put (CantUnify x y z e ctxt i) = do putWord8 2
put x
put y
put z
put e
put ctxt
put i
put (InfiniteUnify n t ctxt) = do putWord8 3
put n
put t
put ctxt
put (CantConvert x y ctxt) = do putWord8 4
put x
put y
put ctxt
put (CantSolveGoal x ctxt) = do putWord8 5
put x
put ctxt
put (UnifyScope n1 n2 x ctxt) = do putWord8 6
put n1
put n2
put x
put ctxt
put (CantInferType str) = do putWord8 7
put str
put (NonFunctionType t1 t2) = do putWord8 8
put t1
put t2
put (NotEquality t1 t2) = do putWord8 9
put t1
put t2
put (TooManyArguments n) = do putWord8 10
put n
put (CantIntroduce t) = do putWord8 11
put t
put (NoSuchVariable n) = do putWord8 12
put n
put (NoTypeDecl n) = do putWord8 13
put n
put (NotInjective x y z) = do putWord8 14
put x
put y
put z
put (CantResolve _ t) = do putWord8 15
put t
put (CantResolveAlts ns) = do putWord8 16
put ns
put (IncompleteTerm t) = do putWord8 17
put t
put UniverseError = putWord8 18
put (UniqueError u n) = do putWord8 19
put u
put n
put (UniqueKindError u n) = do putWord8 20
put u
put n
put ProgramLineComment = putWord8 21
put (Inaccessible n) = do putWord8 22
put n
put (NonCollapsiblePostulate n) = do putWord8 23
put n
put (AlreadyDefined n) = do putWord8 24
put n
put (ProofSearchFail e) = do putWord8 25
put e
put (NoRewriting t) = do putWord8 26
put t
put (At fc e) = do putWord8 27
put fc
put e
put (Elaborating str n e) = do putWord8 28
put str
put n
put e
put (ElaboratingArg n1 n2 ns e) = do putWord8 29
put n1
put n2
put ns
put e
put (ProviderError str) = do putWord8 30
put str
put (LoadingFailed str e) = do putWord8 31
put str
put e
put (ReflectionError parts e) = do putWord8 32
put parts
put e
put (ReflectionFailed str e) = do putWord8 33
put str
put e
put (WithFnType t) = do putWord8 34
put t
put (CantMatch t) = do putWord8 35
put t
put (ElabDebug x1 x2 x3) = do putWord8 36
put x1
put x2
put x3
put (NoEliminator s t) = do putWord8 37
put s
put t
put (InvalidTCArg n t) = do putWord8 38
put n
put t
get = do i <- getWord8
case i of
0 -> fmap Msg get
1 -> fmap InternalMsg get
2 -> do x <- get ; y <- get ; z <- get ; e <- get ; ctxt <- get ; i <- get
return $ CantUnify x y z e ctxt i
3 -> do x <- get ; y <- get ; z <- get
return $ InfiniteUnify x y z
4 -> do x <- get ; y <- get ; z <- get
return $ CantConvert x y z
5 -> do x <- get ; y <- get
return $ CantSolveGoal x y
6 -> do w <- get ; x <- get ; y <- get ; z <- get
return $ UnifyScope w x y z
7 -> fmap CantInferType get
8 -> do x <- get ; y <- get
return $ NonFunctionType x y
9 -> do x <- get ; y <- get
return $ NotEquality x y
10 -> fmap TooManyArguments get
11 -> fmap CantIntroduce get
12 -> fmap NoSuchVariable get
13 -> fmap NoTypeDecl get
14 -> do x <- get ; y <- get ; z <- get
return $ NotInjective x y z
15 -> fmap (CantResolve False) get
16 -> fmap CantResolveAlts get
17 -> fmap IncompleteTerm get
18 -> return UniverseError
19 -> do x <- get ; y <- get
return $ UniqueError x y
20 -> do x <- get ; y <- get
return $ UniqueKindError x y
21 -> return ProgramLineComment
22 -> fmap Inaccessible get
23 -> fmap NonCollapsiblePostulate get
24 -> fmap AlreadyDefined get
25 -> fmap ProofSearchFail get
26 -> fmap NoRewriting get
27 -> do x <- get ; y <- get
return $ At x y
28 -> do x <- get ; y <- get ; z <- get
return $ Elaborating x y z
29 -> do w <- get ; x <- get ; y <- get ; z <- get
return $ ElaboratingArg w x y z
30 -> fmap ProviderError get
31 -> do x <- get ; y <- get
return $ LoadingFailed x y
32 -> do x <- get ; y <- get
return $ ReflectionError x y
33 -> do x <- get ; y <- get
return $ ReflectionFailed x y
34 -> fmap WithFnType get
35 -> fmap CantMatch get
36 -> do x1 <- get
x2 <- get
x3 <- get
return (ElabDebug x1 x2 x3)
37 -> do x1 <- get
x2 <- get
return (NoEliminator x1 x2)
38 -> do x1 <- get
x2 <- get
return (InvalidTCArg x1 x2)
_ -> error "Corrupted binary data for Err'"
instance Binary FC where
put (FC x1 (x2, x3) (x4, x5))
= do put x1
put (x2 * 65536 + x3)
put (x4 * 65536 + x5)
get
= do x1 <- get
x2x3 <- get
x4x5 <- get
return (FC x1 (x2x3 `div` 65536, x2x3 `mod` 65536) (x4x5 `div` 65536, x4x5 `mod` 65536))
instance Binary Name where
put x
= case x of
UN x1 -> do putWord8 0
put x1
NS x1 x2 -> do putWord8 1
put x1
put x2
MN x1 x2 -> do putWord8 2
put x1
put x2
NErased -> putWord8 3
SN x1 -> do putWord8 4
put x1
SymRef x1 -> do putWord8 5
put x1
get
= do i <- getWord8
case i of
0 -> do x1 <- get
return (UN x1)
1 -> do x1 <- get
x2 <- get
return (NS x1 x2)
2 -> do x1 <- get
x2 <- get
return (MN x1 x2)
3 -> return NErased
4 -> do x1 <- get
return (SN x1)
5 -> do x1 <- get
return (SymRef x1)
_ -> error "Corrupted binary data for Name"
instance Binary T.Text where
put x = put (str x)
get = do x <- get
return (txt x)
instance Binary SpecialName where
put x
= case x of
WhereN x1 x2 x3 -> do putWord8 0
put x1
put x2
put x3
InstanceN x1 x2 -> do putWord8 1
put x1
put x2
ParentN x1 x2 -> do putWord8 2
put x1
put x2
MethodN x1 -> do putWord8 3
put x1
CaseN x1 -> do putWord8 4; put x1
ElimN x1 -> do putWord8 5; put x1
InstanceCtorN x1 -> do putWord8 6; put x1
WithN x1 x2 -> do putWord8 7
put x1
put x2
get
= do i <- getWord8
case i of
0 -> do x1 <- get
x2 <- get
x3 <- get
return (WhereN x1 x2 x3)
1 -> do x1 <- get
x2 <- get
return (InstanceN x1 x2)
2 -> do x1 <- get
x2 <- get
return (ParentN x1 x2)
3 -> do x1 <- get
return (MethodN x1)
4 -> do x1 <- get
return (CaseN x1)
5 -> do x1 <- get
return (ElimN x1)
6 -> do x1 <- get
return (InstanceCtorN x1)
7 -> do x1 <- get
x2 <- get
return (WithN x1 x2)
_ -> error "Corrupted binary data for SpecialName"
instance Binary Const where
put x
= case x of
I x1 -> do putWord8 0
put x1
BI x1 -> do putWord8 1
put x1
Fl x1 -> do putWord8 2
put x1
Ch x1 -> do putWord8 3
put x1
Str x1 -> do putWord8 4
put x1
B8 x1 -> putWord8 5 >> put x1
B16 x1 -> putWord8 6 >> put x1
B32 x1 -> putWord8 7 >> put x1
B64 x1 -> putWord8 8 >> put x1
(AType (ATInt ITNative)) -> putWord8 9
(AType (ATInt ITBig)) -> putWord8 10
(AType ATFloat) -> putWord8 11
(AType (ATInt ITChar)) -> putWord8 12
StrType -> putWord8 13
PtrType -> putWord8 14
Forgot -> putWord8 15
(AType (ATInt (ITFixed ity))) -> putWord8 (fromIntegral (16 + fromEnum ity))
(AType (ATInt (ITVec ity count))) -> do
putWord8 20
putWord8 (fromIntegral . fromEnum $ ity)
putWord8 (fromIntegral count)
B8V x1 -> putWord8 21 >> put x1
B16V x1 -> putWord8 22 >> put x1
B32V x1 -> putWord8 23 >> put x1
B64V x1 -> putWord8 24 >> put x1
BufferType -> putWord8 25
ManagedPtrType -> putWord8 26
VoidType -> putWord8 27
WorldType -> putWord8 28
TheWorld -> putWord8 29
get
= do i <- getWord8
case i of
0 -> do x1 <- get
return (I x1)
1 -> do x1 <- get
return (BI x1)
2 -> do x1 <- get
return (Fl x1)
3 -> do x1 <- get
return (Ch x1)
4 -> do x1 <- get
return (Str x1)
5 -> fmap B8 get
6 -> fmap B16 get
7 -> fmap B32 get
8 -> fmap B64 get
9 -> return (AType (ATInt ITNative))
10 -> return (AType (ATInt ITBig))
11 -> return (AType ATFloat)
12 -> return (AType (ATInt ITChar))
13 -> return StrType
14 -> return PtrType
15 -> return Forgot
16 -> return (AType (ATInt (ITFixed IT8)))
17 -> return (AType (ATInt (ITFixed IT16)))
18 -> return (AType (ATInt (ITFixed IT32)))
19 -> return (AType (ATInt (ITFixed IT64)))
20 -> do
e <- getWord8
c <- getWord8
return (AType (ATInt (ITVec (toEnum . fromIntegral $ e) (fromIntegral c))))
21 -> fmap B8V get
22 -> fmap B16V get
23 -> fmap B32V get
24 -> fmap B64V get
25 -> return BufferType
26 -> return ManagedPtrType
27 -> return VoidType
28 -> return WorldType
29 -> return TheWorld
_ -> error "Corrupted binary data for Const"
instance Binary Raw where
put x
= case x of
Var x1 -> do putWord8 0
put x1
RBind x1 x2 x3 -> do putWord8 1
put x1
put x2
put x3
RApp x1 x2 -> do putWord8 2
put x1
put x2
RType -> putWord8 3
RConstant x1 -> do putWord8 4
put x1
RForce x1 -> do putWord8 5
put x1
RUType x1 -> do putWord8 6
put x1
get
= do i <- getWord8
case i of
0 -> do x1 <- get
return (Var x1)
1 -> do x1 <- get
x2 <- get
x3 <- get
return (RBind x1 x2 x3)
2 -> do x1 <- get
x2 <- get
return (RApp x1 x2)
3 -> return RType
4 -> do x1 <- get
return (RConstant x1)
5 -> do x1 <- get
return (RForce x1)
6 -> do x1 <- get
return (RUType x1)
_ -> error "Corrupted binary data for Raw"
instance Binary ImplicitInfo where
put x
= case x of
Impl x1 -> put x1
get
= do x1 <- get
return (Impl x1)
instance (Binary b) => Binary (Binder b) where
put x
= case x of
Lam x1 -> do putWord8 0
put x1
Pi x1 x2 x3 -> do putWord8 1
put x1
put x2
put x3
Let x1 x2 -> do putWord8 2
put x1
put x2
NLet x1 x2 -> do putWord8 3
put x1
put x2
Hole x1 -> do putWord8 4
put x1
GHole x1 x2 -> do putWord8 5
put x1
put x2
Guess x1 x2 -> do putWord8 6
put x1
put x2
PVar x1 -> do putWord8 7
put x1
PVTy x1 -> do putWord8 8
put x1
get
= do i <- getWord8
case i of
0 -> do x1 <- get
return (Lam x1)
1 -> do x1 <- get
x2 <- get
x3 <- get
return (Pi x1 x2 x3)
2 -> do x1 <- get
x2 <- get
return (Let x1 x2)
3 -> do x1 <- get
x2 <- get
return (NLet x1 x2)
4 -> do x1 <- get
return (Hole x1)
5 -> do x1 <- get
x2 <- get
return (GHole x1 x2)
6 -> do x1 <- get
x2 <- get
return (Guess x1 x2)
7 -> do x1 <- get
return (PVar x1)
8 -> do x1 <- get
return (PVTy x1)
_ -> error "Corrupted binary data for Binder"
instance Binary Universe where
put x = case x of
UniqueType -> putWord8 0
AllTypes -> putWord8 1
NullType -> putWord8 2
get = do i <- getWord8
case i of
0 -> return UniqueType
1 -> return AllTypes
2 -> return NullType
_ -> error "Corrupted binary data for Universe"
instance Binary NameType where
put x
= case x of
Bound -> putWord8 0
Ref -> putWord8 1
DCon x1 x2 x3 -> do putWord8 2
put (x1 * 65536 + x2)
put x3
TCon x1 x2 -> do putWord8 3
put (x1 * 65536 + x2)
get
= do i <- getWord8
case i of
0 -> return Bound
1 -> return Ref
2 -> do x1x2 <- get
x3 <- get
return (DCon (x1x2 `div` 65536) (x1x2 `mod` 65536) x3)
3 -> do x1x2 <- get
return (TCon (x1x2 `div` 65536) (x1x2 `mod` 65536))
_ -> error "Corrupted binary data for NameType"
instance Binary UExp where
put x = case x of
UVar t -> do putWord8 0
put ((1) :: Int)
UVal t -> do putWord8 1
put t
get = do i <- getWord8
case i of
0 -> do x1 <- get
return (UVar x1)
1 -> do x1 <- get
return (UVal x1)
_ -> error "Corrupted binary data for UExp"
instance Binary (TT Name) where
put x
=
case x of
P x1 x2 x3 -> do putWord8 0
put x1
put x2
V x1 -> if (x1 >= 0 && x1 < 256)
then do putWord8 1
putWord8 (toEnum (x1 + 1))
else do putWord8 9
put x1
Bind x1 x2 x3 -> do putWord8 2
put x1
put x2
put x3
App x1 x2 -> do putWord8 3
put x1
put x2
Constant x1 -> do putWord8 4
put x1
Proj x1 x2 -> do putWord8 5
put x1
putWord8 (toEnum (x2 + 1))
Erased -> putWord8 6
TType x1 -> do putWord8 7
put x1
Impossible -> putWord8 8
UType x1 -> do putWord8 10
put x1
get
= do i <- getWord8
case i of
0 -> do x1 <- get
x2 <- get
return (P x1 x2 Erased)
1 -> do x1 <- getWord8
return (V ((fromEnum x1) 1))
2 -> do x1 <- get
x2 <- get
x3 <- get
return (Bind x1 x2 x3)
3 -> do x1 <- get
x2 <- get
return (App x1 x2)
4 -> do x1 <- get
return (Constant x1)
5 -> do x1 <- get
x2 <- getWord8
return (Proj x1 ((fromEnum x2)1))
6 -> return Erased
7 -> do x1 <- get
return (TType x1)
8 -> return Impossible
9 -> do x1 <- get
return (V x1)
10 -> do x1 <- get
return (UType x1)
_ -> error "Corrupted binary data for TT"