jvm-0.1.2: src/Language/Java.hs
-- | High-level helper functions for interacting with Java objects, mapping them
-- to Haskell values and vice versa. The 'Reify' and 'Reflect' classes together
-- are to Java what "Foreign.Storable" is to C: they provide a means to
-- marshall/unmarshall Java objects from/to Haskell data types.
--
-- A typical pattern for wrapping Java API's using this module is:
--
-- @
-- {-\# LANGUAGE DataKinds \#-}
-- module Object where
--
-- import Language.Java as J
--
-- newtype Object = Object ('J' (''Class' "java.lang.Object"))
-- instance 'Coercible' Object
--
-- clone :: Object -> IO Object
-- clone obj = J.'call' obj "clone" []
--
-- equals :: Object -> Object -> IO Bool
-- equals obj1 obj2 = J.'call' obj1 "equals" ['jvalue' obj2]
--
-- ...
-- @
--
-- To call Java methods using quasiquoted Java syntax instead, see
-- "Language.Java.Inline".
--
-- __NOTE:__ To use any function in this module, you'll need an initialized JVM in the
-- current process, using 'withJVM' or otherwise.
{-# LANGUAGE CPP #-}
{-# LANGUAGE DataKinds #-}
{-# LANGUAGE DefaultSignatures #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE FunctionalDependencies #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TemplateHaskell #-}
{-# LANGUAGE UndecidableInstances #-}
module Language.Java
( module Foreign.JNI.Types
, withJVM
, classOf
, new
, call
, callStatic
, jvalue
, Coercible(..)
, Reify(..)
, Reflect(..)
, Type(..)
, Uncurry
, Interp
, sing
) where
import Control.Distributed.Closure
import Control.Distributed.Closure.TH
import Control.Monad
import Data.Char (chr, ord)
import qualified Data.Coerce as Coerce
import Data.Int
import Data.Word
import Data.ByteString (ByteString)
import qualified Data.ByteString.Char8 as BS
import qualified Data.ByteString.Unsafe as BS
import Data.Singletons (SingI(..), fromSing)
import Data.String (fromString)
import qualified Data.Text.Foreign as Text
import Data.Text (Text)
#if ! __GLASGOW_HASKELL__ == 800
import qualified Data.Vector.Storable as Vector
import Data.Vector.Storable (Vector)
import qualified Data.Vector.Storable.Mutable as MVector
import Data.Vector.Storable.Mutable (IOVector)
import Foreign (FunPtr, Ptr, Storable, newForeignPtr, withForeignPtr)
#endif
import Foreign.C (CChar)
import Foreign.JNI
import Foreign.JNI.Types
import qualified Foreign.JNI.String as JNI
import GHC.TypeLits (KnownSymbol, Symbol)
-- | Tag data types that can be coerced in O(1) time without copy to a Java
-- object or primitive type (i.e. have the same representation) by declaring an
-- instance of this type class for that data type.
class SingI ty => Coercible a (ty :: JType) | a -> ty where
coerce :: a -> JValue
unsafeUncoerce :: JValue -> a
default coerce
:: Coerce.Coercible a (J ty)
=> a
-> JValue
coerce x = JObject (Coerce.coerce x :: J ty)
default unsafeUncoerce
:: Coerce.Coercible (J ty) a
=> JValue
-> a
unsafeUncoerce (JObject obj) = Coerce.coerce (unsafeCast obj :: J ty)
unsafeUncoerce _ =
error "Cannot unsafeUncoerce: object expected but value of primitive type found."
-- | The identity instance.
instance SingI ty => Coercible (J ty) ty
instance Coercible Bool ('Prim "boolean") where
coerce x = JBoolean (fromIntegral (fromEnum x))
unsafeUncoerce (JBoolean x) = toEnum (fromIntegral x)
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible CChar ('Prim "byte") where
coerce = JByte
unsafeUncoerce (JByte x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Char ('Prim "char") where
coerce x = JChar (fromIntegral (ord x))
unsafeUncoerce (JChar x) = chr (fromIntegral x)
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Word16 ('Prim "char") where
coerce = JChar
unsafeUncoerce (JChar x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Int16 ('Prim "short") where
coerce = JShort
unsafeUncoerce (JShort x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Int32 ('Prim "int") where
coerce = JInt
unsafeUncoerce (JInt x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Int64 ('Prim "long") where
coerce = JLong
unsafeUncoerce (JLong x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Float ('Prim "float") where
coerce = JFloat
unsafeUncoerce (JFloat x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible Double ('Prim "double") where
coerce = JDouble
unsafeUncoerce (JDouble x) = x
unsafeUncoerce _ = error "unsafeUncoerce: value doesn't match target type."
instance Coercible () 'Void where
coerce = error "Void value undefined."
unsafeUncoerce _ = ()
-- | Get the Java class of an object or anything 'Coercible' to one.
classOf
:: ( Coercible a ('Class sym)
, KnownSymbol sym
)
=> a
-> Sing sym
-- Silence redundant constraint warning.
classOf x = sing `const` coerce x
-- | Creates a new instance of the class whose name is resolved from the return
-- type. For instance,
--
-- @
-- do x :: 'J' (''Class' "java.lang.Integer") <- new ['coerce' 42]
-- return x
-- @
new
:: forall a sym.
( Coerce.Coercible a (J ('Class sym))
, Coercible a ('Class sym)
)
=> [JValue]
-> IO a
new args = do
let argsings = map jtypeOf args
voidsing = sing :: Sing 'Void
klass <- findClass (referenceTypeName (sing :: Sing ('Class sym)))
Coerce.coerce <$> newObject klass (methodSignature argsings voidsing) args
-- | The Swiss Army knife for calling Java methods. Give it an object or
-- any data type coercible to one, the name of a method, and a list of
-- arguments. Based on the type indexes of each argument, and based on the
-- return type, 'call' will invoke the named method using of the @call*Method@
-- family of functions in the JNI API.
--
-- When the method name is overloaded, use 'upcast' or 'unsafeCast'
-- appropriately on the class instance and/or on the arguments to invoke the
-- right method.
call
:: forall a b ty1 ty2. (IsReferenceType ty1, Coercible a ty1, Coercible b ty2, Coerce.Coercible a (J ty1))
=> a -- ^ Any object or value 'Coercible' to one
-> JNI.String -- ^ Method name
-> [JValue] -- ^ Arguments
-> IO b
call obj mname args = do
let argsings = map jtypeOf args
retsing = sing :: Sing ty2
klass <- findClass (referenceTypeName (sing :: Sing ty1))
method <- getMethodID klass mname (methodSignature argsings retsing)
case retsing of
SPrim "boolean" -> unsafeUncoerce . coerce <$> callBooleanMethod obj method args
SPrim "byte" -> unsafeUncoerce . coerce <$> callByteMethod obj method args
SPrim "char" -> unsafeUncoerce . coerce <$> callCharMethod obj method args
SPrim "short" -> unsafeUncoerce . coerce <$> callShortMethod obj method args
SPrim "int" -> unsafeUncoerce . coerce <$> callIntMethod obj method args
SPrim "long" -> unsafeUncoerce . coerce <$> callLongMethod obj method args
SPrim "float" -> unsafeUncoerce . coerce <$> callFloatMethod obj method args
SPrim "double" -> unsafeUncoerce . coerce <$> callDoubleMethod obj method args
SVoid -> do
callVoidMethod obj method args
-- Anything uncoerces to the void type.
return (unsafeUncoerce undefined)
_ -> unsafeUncoerce . coerce <$> callObjectMethod obj method args
-- | Same as 'call', but for static methods.
callStatic :: forall a ty sym. Coercible a ty => Sing (sym :: Symbol) -> JNI.String -> [JValue] -> IO a
callStatic cname mname args = do
let argsings = map jtypeOf args
retsing = sing :: Sing ty
klass <- findClass (referenceTypeName (SClass (fromString (fromSing cname))))
method <- getStaticMethodID klass mname (methodSignature argsings retsing)
case retsing of
SPrim "boolean" -> unsafeUncoerce . coerce <$> callStaticBooleanMethod klass method args
SPrim "byte" -> unsafeUncoerce . coerce <$> callStaticByteMethod klass method args
SPrim "char" -> unsafeUncoerce . coerce <$> callStaticCharMethod klass method args
SPrim "short" -> unsafeUncoerce . coerce <$> callStaticShortMethod klass method args
SPrim "int" -> unsafeUncoerce . coerce <$> callStaticIntMethod klass method args
SPrim "long" -> unsafeUncoerce . coerce <$> callStaticLongMethod klass method args
SPrim "float" -> unsafeUncoerce . coerce <$> callStaticFloatMethod klass method args
SPrim "double" -> unsafeUncoerce . coerce <$> callStaticDoubleMethod klass method args
SVoid -> do
callStaticVoidMethod klass method args
-- Anything uncoerces to the void type.
return (unsafeUncoerce undefined)
_ -> unsafeUncoerce . coerce <$> callStaticObjectMethod klass method args
-- | Inject a value (of primitive or reference type) to a 'JValue'. This
-- datatype is useful for e.g. passing arguments as a list of homogeneous type.
-- Synonym for 'coerce'.
jvalue :: Coercible a ty => a -> JValue
jvalue = coerce
-- | Classifies Java types according to whether they are base types (data) or
-- higher-order types (objects representing functions).
data Type a
= Fun [Type a] (Type a) -- ^ Pure function
| Act [Type a] (Type a) -- ^ IO action
| Proc [Type a] -- ^ Procedure (i.e void returning action)
| Base a -- ^ Any first-order type.
-- | Haskell functions are curried, but Java functions are not. This type family
-- maps Haskell types to an uncurried (non-inductive) type representation,
-- useful to select the right 'Reify' / 'Reflect' instance without overlap.
type family Uncurry (a :: *) :: Type * where
Uncurry (Closure (a -> b -> c -> d -> IO ())) = 'Proc '[Uncurry a, Uncurry b, Uncurry c, Uncurry d]
Uncurry (Closure (a -> b -> c -> IO ())) = 'Proc '[Uncurry a, Uncurry b, Uncurry c]
Uncurry (Closure (a -> b -> IO ())) = 'Proc '[Uncurry a, Uncurry b]
Uncurry (Closure (a -> IO ())) = 'Proc '[Uncurry a]
Uncurry (IO ()) = 'Proc '[]
Uncurry (Closure (a -> b -> c -> d -> IO e)) = 'Act '[Uncurry a, Uncurry b, Uncurry c, Uncurry d] (Uncurry e)
Uncurry (Closure (a -> b -> c -> IO d)) = 'Act '[Uncurry a, Uncurry b, Uncurry c] (Uncurry d)
Uncurry (Closure (a -> b -> IO c)) = 'Act '[Uncurry a, Uncurry b] (Uncurry c)
Uncurry (Closure (a -> IO b)) = 'Act '[Uncurry a] (Uncurry b)
Uncurry (Closure (IO a)) = 'Act '[] (Uncurry a)
Uncurry (Closure (a -> b -> c -> d -> e)) = 'Fun '[Uncurry a, Uncurry b, Uncurry c, Uncurry d] (Uncurry e)
Uncurry (Closure (a -> b -> c -> d)) = 'Fun '[Uncurry a, Uncurry b, Uncurry c] (Uncurry d)
Uncurry (Closure (a -> b -> c)) = 'Fun '[Uncurry a, Uncurry b] (Uncurry c)
Uncurry (Closure (a -> b)) = 'Fun '[Uncurry a] (Uncurry b)
Uncurry a = 'Base a
-- | Map a Haskell type to the symbolic representation of a Java type.
type family Interp (a :: k) :: JType
type instance Interp ('Base a) = Interp a
-- | Extract a concrete Haskell value from the space of Java objects. That is to
-- say, unmarshall a Java object to a Haskell value. Unlike coercing, in general
-- reifying induces allocations and copies.
class (Interp (Uncurry a) ~ ty, SingI ty) => Reify a ty where
reify :: J ty -> IO a
-- | Inject a concrete Haskell value into the space of Java objects. That is to
-- say, marshall a Haskell value to a Java object. Unlike coercing, in general
-- reflection induces allocations and copies.
class (Interp (Uncurry a) ~ ty, SingI ty) => Reflect a ty where
reflect :: a -> IO (J ty)
#if ! __GLASGOW_HASKELL__ == 800
foreign import ccall "wrapper" wrapFinalizer
:: (Ptr a -> IO ())
-> IO (FunPtr (Ptr a -> IO ()))
reifyMVector
:: Storable a
=> (JArray ty -> IO (Ptr a))
-> (JArray ty -> Ptr a -> IO ())
-> JArray ty
-> IO (IOVector a)
reifyMVector mk finalize jobj = do
n <- getArrayLength jobj
ptr <- mk jobj
ffinalize <- wrapFinalizer (finalize jobj)
fptr <- newForeignPtr ffinalize ptr
return (MVector.unsafeFromForeignPtr0 fptr (fromIntegral n))
reflectMVector
:: Storable a
=> (Int32 -> IO (JArray ty))
-> (JArray ty -> Int32 -> Int32 -> Ptr a -> IO ())
-> IOVector a
-> IO (JArray ty)
reflectMVector newfun fill mv = do
let (fptr, n) = MVector.unsafeToForeignPtr0 mv
jobj <- newfun (fromIntegral n)
withForeignPtr fptr $ fill jobj 0 (fromIntegral n)
return jobj
#endif
withStatic [d|
type instance Interp (J ty) = ty
instance SingI ty => Reify (J ty) ty where
reify x = return x
instance SingI ty => Reflect (J ty) ty where
reflect x = return x
type instance Interp () = 'Class "java.lang.Object"
instance Reify () ('Class "java.lang.Object") where
reify _ = return ()
instance Reflect () ('Class "java.lang.Object") where
reflect () = new []
type instance Interp ByteString = 'Array ('Prim "byte")
instance Reify ByteString ('Array ('Prim "byte")) where
reify jobj = do
n <- getArrayLength (unsafeCast jobj)
bytes <- getByteArrayElements jobj
-- TODO could use unsafePackCStringLen instead and avoid a copy if we knew
-- that been handed an (immutable) copy via JNI isCopy ref.
bs <- BS.packCStringLen (bytes, fromIntegral n)
releaseByteArrayElements jobj bytes
return bs
instance Reflect ByteString ('Array ('Prim "byte")) where
reflect bs = BS.unsafeUseAsCStringLen bs $ \(content, n) -> do
arr <- newByteArray (fromIntegral n)
setByteArrayRegion arr 0 (fromIntegral n) content
return arr
type instance Interp Bool = 'Class "java.lang.Boolean"
instance Reify Bool ('Class "java.lang.Boolean") where
reify jobj = do
klass <- findClass "java/lang/Boolean"
method <- getMethodID klass "booleanValue" "()Z"
callBooleanMethod jobj method []
instance Reflect Bool ('Class "java.lang.Boolean") where
reflect x = new [JBoolean (fromIntegral (fromEnum x))]
type instance Interp Int16 = 'Class "java.lang.Short"
instance Reify Int16 ('Class "java.lang.Short") where
reify jobj = do
klass <- findClass "java/lang/Short"
method <- getMethodID klass "shortValue" "()S"
callShortMethod jobj method []
instance Reflect Int16 ('Class "java.lang.Short") where
reflect x = new [JShort x]
type instance Interp Int32 = 'Class "java.lang.Integer"
instance Reify Int32 ('Class "java.lang.Integer") where
reify jobj = do
klass <- findClass "java/lang/Integer"
method <- getMethodID klass "intValue" "()I"
callIntMethod jobj method []
instance Reflect Int32 ('Class "java.lang.Integer") where
reflect x = new [JInt x]
type instance Interp Int64 = 'Class "java.lang.Long"
instance Reify Int64 ('Class "java.lang.Long") where
reify jobj = do
klass <- findClass "java/lang/Long"
method <- getMethodID klass "longValue" "()J"
callLongMethod jobj method []
instance Reflect Int64 ('Class "java.lang.Long") where
reflect x = new [JLong x]
type instance Interp Word16 = 'Class "java.lang.Character"
instance Reify Word16 ('Class "java.lang.Character") where
reify jobj = do
klass <- findClass "java/lang/Character"
method <- getMethodID klass "charValue" "()C"
fromIntegral <$> callCharMethod jobj method []
instance Reflect Word16 ('Class "java.lang.Character") where
reflect x = new [JChar x]
type instance Interp Double = 'Class "java.lang.Double"
instance Reify Double ('Class "java.lang.Double") where
reify jobj = do
klass <- findClass "java/lang/Double"
method <- getMethodID klass "doubleValue" "()D"
callDoubleMethod jobj method []
instance Reflect Double ('Class "java.lang.Double") where
reflect x = new [JDouble x]
type instance Interp Float = 'Class "java.lang.Float"
instance Reify Float ('Class "java.lang.Float") where
reify jobj = do
klass <- findClass "java/lang/Float"
method <- getMethodID klass "floatValue" "()F"
callFloatMethod jobj method []
instance Reflect Float ('Class "java.lang.Float") where
reflect x = new [JFloat x]
type instance Interp Text = 'Class "java.lang.String"
instance Reify Text ('Class "java.lang.String") where
reify jobj = do
sz <- getStringLength jobj
cs <- getStringChars jobj
txt <- Text.fromPtr cs (fromIntegral sz)
releaseStringChars jobj cs
return txt
instance Reflect Text ('Class "java.lang.String") where
reflect x =
Text.useAsPtr x $ \ptr len ->
newString ptr (fromIntegral len)
-- Instances can't be compiled on GHC 8.0.1 due to
-- https://ghc.haskell.org/trac/ghc/ticket/12082.
#if ! __GLASGOW_HASKELL__ == 800
type instance Interp (IOVector Int32) = 'Array ('Prim "int")
instance Reify (IOVector Int32) ('Array ('Prim "int")) where
reify = reifyMVector (getIntArrayElements) (releaseIntArrayElements)
instance Reflect (IOVector Int32) ('Array ('Prim "int")) where
reflect = reflectMVector (newIntArray) (setIntArrayRegion)
type instance Interp (Vector Int32) = 'Array ('Prim "int")
instance Reify (Vector Int32) ('Array ('Prim "int")) where
reify = Vector.freeze <=< reify
instance Reflect (Vector Int32) ('Array ('Prim "int")) where
reflect = reflect <=< Vector.thaw
#endif
type instance Interp [a] = 'Array (Interp (Uncurry a))
instance Reify a ty => Reify [a] ('Array ty) where
reify jobj = do
n <- getArrayLength jobj
forM [0..n-1] $ \i -> do
x <- getObjectArrayElement jobj i
reify x
instance Reflect a ty => Reflect [a] ('Array ty) where
reflect xs = do
let n = fromIntegral (length xs)
klass <- findClass "java/lang/Object"
array <- newObjectArray n klass
forM_ (zip [0..n-1] xs) $ \(i, x) -> do
setObjectArrayElement array i =<< reflect x
return (unsafeCast array)
|]