{-# LANGUAGE BangPatterns, CPP, ForeignFunctionInterface, MagicHash, ScopedTypeVariables, UnliftedFFITypes #-} #if __GLASGOW_HASKELL__ < 710 {-# LANGUAGE DeriveDataTypeable #-} #endif #if __GLASGOW_HASKELL__ >= 801 {-# LANGUAGE PolyKinds #-} -- For TypeRep instances #endif #ifdef GENERICS {-# LANGUAGE DefaultSignatures, FlexibleContexts, GADTs, MultiParamTypeClasses, EmptyDataDecls #-} #endif ------------------------------------------------------------------------ -- | -- Module : Data.Hashable.Class -- Copyright : (c) Milan Straka 2010 -- (c) Johan Tibell 2011 -- (c) Bryan O'Sullivan 2011, 2012 -- License : BSD-style -- Maintainer : johan.tibell@gmail.com -- Stability : provisional -- Portability : portable -- -- This module defines a class, 'Hashable', for types that can be -- converted to a hash value. This class exists for the benefit of -- hashing-based data structures. The module provides instances for -- most standard types. module Data.Hashable.Class ( -- * Computing hash values Hashable(..) , Hashable1(..) , Hashable2(..) #ifdef GENERICS -- ** Support for generics , GHashable(..) , HashArgs(..) , Zero , One #endif -- * Creating new instances , hashUsing , hashPtr , hashPtrWithSalt , hashByteArray , hashByteArrayWithSalt , defaultHashWithSalt -- * Higher Rank Functions , hashWithSalt1 , hashWithSalt2 , defaultLiftHashWithSalt -- * Caching hashes , Hashed , hashed , unhashed , mapHashed , traverseHashed ) where import Control.Applicative (Const(..)) import Control.Exception (assert) import Control.DeepSeq (NFData(rnf)) import Data.Bits (shiftL, shiftR, xor) import qualified Data.ByteString as B import qualified Data.ByteString.Lazy as BL import qualified Data.ByteString.Unsafe as B import Data.Int (Int8, Int16, Int32, Int64) import Data.List (foldl') import Data.Ratio (Ratio, denominator, numerator) import qualified Data.Text as T import qualified Data.Text.Array as TA import qualified Data.Text.Internal as T import qualified Data.Text.Lazy as TL import Data.Version (Version(..)) import Data.Word (Word8, Word16, Word32, Word64) import Foreign.C (CString) import Foreign.Marshal.Utils (with) import Foreign.Ptr (Ptr, FunPtr, IntPtr, WordPtr, castPtr, castFunPtrToPtr, ptrToIntPtr) import Foreign.Storable (alignment, peek, sizeOf) import GHC.Base (ByteArray#) import GHC.Conc (ThreadId(..)) import GHC.Prim (ThreadId#) import System.IO.Unsafe (unsafeDupablePerformIO) import System.Mem.StableName import Data.Unique (Unique, hashUnique) -- As we use qualified F.Foldable, we don't get warnings with newer base import qualified Data.Foldable as F #if MIN_VERSION_base(4,7,0) import Data.Proxy (Proxy) #endif #if MIN_VERSION_base(4,7,0) import Data.Fixed (Fixed(..)) #endif #if MIN_VERSION_base(4,8,0) import Data.Functor.Identity (Identity(..)) #endif #ifdef GENERICS import GHC.Generics #endif #if __GLASGOW_HASKELL__ >= 801 import Type.Reflection (typeRepFingerprint, Typeable, TypeRep, SomeTypeRep(..)) import GHC.Fingerprint.Type(Fingerprint(..)) #elif __GLASGOW_HASKELL__ >= 710 import Data.Typeable (typeRepFingerprint, Typeable, TypeRep) import GHC.Fingerprint.Type(Fingerprint(..)) #elif __GLASGOW_HASKELL__ >= 702 import Data.Typeable.Internal (Typeable, TypeRep (..)) import GHC.Fingerprint.Type(Fingerprint(..)) #elif __GLASGOW_HASKELL__ >= 606 import Data.Typeable (typeRepKey, Typeable, TypeRep) #endif #if __GLASGOW_HASKELL__ >= 703 import Foreign.C (CLong(..)) import Foreign.C.Types (CInt(..)) #else import Foreign.C (CLong) import Foreign.C.Types (CInt) #endif #if !(MIN_VERSION_base(4,8,0)) import Data.Word (Word) #endif #if MIN_VERSION_base(4,7,0) import Data.Bits (finiteBitSize) #else import Data.Bits (bitSize) #endif #if !(MIN_VERSION_bytestring(0,10,0)) import qualified Data.ByteString.Lazy.Internal as BL -- foldlChunks #endif #if MIN_VERSION_bytestring(0,10,4) import qualified Data.ByteString.Short.Internal as BSI #endif #ifdef VERSION_integer_gmp # if MIN_VERSION_integer_gmp(1,0,0) # define MIN_VERSION_integer_gmp_1_0_0 # endif import GHC.Exts (Int(..)) import GHC.Integer.GMP.Internals (Integer(..)) # if defined(MIN_VERSION_integer_gmp_1_0_0) import GHC.Exts (sizeofByteArray#) import GHC.Integer.GMP.Internals (BigNat(BN#)) # endif #endif #if MIN_VERSION_base(4,8,0) import Data.Void (Void, absurd) import GHC.Natural (Natural(..)) import GHC.Exts (Word(..)) #endif #if MIN_VERSION_base(4,9,0) import qualified Data.List.NonEmpty as NE import Data.Semigroup import Data.Functor.Classes (Eq1(..),Ord1(..),Show1(..),showsUnaryWith) import Data.Functor.Compose (Compose(..)) import qualified Data.Functor.Product as FP import qualified Data.Functor.Sum as FS #endif import Data.String (IsString(..)) #include "MachDeps.h" infixl 0 `hashWithSalt` ------------------------------------------------------------------------ -- * Computing hash values -- | A default salt used in the implementation of 'hash'. defaultSalt :: Int #if WORD_SIZE_IN_BITS == 64 defaultSalt = -2578643520546668380 -- 0xdc36d1615b7400a4 #else defaultSalt = 0x087fc72c #endif {-# INLINE defaultSalt #-} -- | The class of types that can be converted to a hash value. -- -- Minimal implementation: 'hashWithSalt'. class Hashable a where -- | Return a hash value for the argument, using the given salt. -- -- The general contract of 'hashWithSalt' is: -- -- * If two values are equal according to the '==' method, then -- applying the 'hashWithSalt' method on each of the two values -- /must/ produce the same integer result if the same salt is -- used in each case. -- -- * It is /not/ required that if two values are unequal -- according to the '==' method, then applying the -- 'hashWithSalt' method on each of the two values must produce -- distinct integer results. However, the programmer should be -- aware that producing distinct integer results for unequal -- values may improve the performance of hashing-based data -- structures. -- -- * This method can be used to compute different hash values for -- the same input by providing a different salt in each -- application of the method. This implies that any instance -- that defines 'hashWithSalt' /must/ make use of the salt in -- its implementation. hashWithSalt :: Int -> a -> Int -- | Like 'hashWithSalt', but no salt is used. The default -- implementation uses 'hashWithSalt' with some default salt. -- Instances might want to implement this method to provide a more -- efficient implementation than the default implementation. hash :: a -> Int hash = hashWithSalt defaultSalt #ifdef GENERICS default hashWithSalt :: (Generic a, GHashable Zero (Rep a)) => Int -> a -> Int hashWithSalt salt = ghashWithSalt HashArgs0 salt . from data Zero data One data HashArgs arity a where HashArgs0 :: HashArgs Zero a HashArgs1 :: (Int -> a -> Int) -> HashArgs One a -- | The class of types that can be generically hashed. class GHashable arity f where ghashWithSalt :: HashArgs arity a -> Int -> f a -> Int #endif class Hashable1 t where -- | Lift a hashing function through the type constructor. liftHashWithSalt :: (Int -> a -> Int) -> Int -> t a -> Int #ifdef GENERICS default liftHashWithSalt :: (Generic1 t, GHashable One (Rep1 t)) => (Int -> a -> Int) -> Int -> t a -> Int liftHashWithSalt h salt = ghashWithSalt (HashArgs1 h) salt . from1 #endif class Hashable2 t where -- | Lift a hashing function through the binary type constructor. liftHashWithSalt2 :: (Int -> a -> Int) -> (Int -> b -> Int) -> Int -> t a b -> Int -- | Lift the 'hashWithSalt' function through the type constructor. -- -- > hashWithSalt1 = liftHashWithSalt hashWithSalt hashWithSalt1 :: (Hashable1 f, Hashable a) => Int -> f a -> Int hashWithSalt1 = liftHashWithSalt hashWithSalt -- | Lift the 'hashWithSalt' function through the type constructor. -- -- > hashWithSalt2 = liftHashWithSalt2 hashWithSalt hashWithSalt hashWithSalt2 :: (Hashable2 f, Hashable a, Hashable b) => Int -> f a b -> Int hashWithSalt2 = liftHashWithSalt2 hashWithSalt hashWithSalt -- | Lift the 'hashWithSalt' function halfway through the type constructor. -- This function makes a suitable default implementation of 'liftHashWithSalt', -- given that the type constructor @t@ in question can unify with @f a@. defaultLiftHashWithSalt :: (Hashable2 f, Hashable a) => (Int -> b -> Int) -> Int -> f a b -> Int defaultLiftHashWithSalt h = liftHashWithSalt2 hashWithSalt h -- | Since we support a generic implementation of 'hashWithSalt' we -- cannot also provide a default implementation for that method for -- the non-generic instance use case. Instead we provide -- 'defaultHashWith'. defaultHashWithSalt :: Hashable a => Int -> a -> Int defaultHashWithSalt salt x = salt `combine` hash x -- | Transform a value into a 'Hashable' value, then hash the -- transformed value using the given salt. -- -- This is a useful shorthand in cases where a type can easily be -- mapped to another type that is already an instance of 'Hashable'. -- Example: -- -- > data Foo = Foo | Bar -- > deriving (Enum) -- > -- > instance Hashable Foo where -- > hashWithSalt = hashUsing fromEnum hashUsing :: (Hashable b) => (a -> b) -- ^ Transformation function. -> Int -- ^ Salt. -> a -- ^ Value to transform. -> Int hashUsing f salt x = hashWithSalt salt (f x) {-# INLINE hashUsing #-} instance Hashable Int where hash = id hashWithSalt = defaultHashWithSalt instance Hashable Int8 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Int16 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Int32 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Int64 where hash n #if MIN_VERSION_base(4,7,0) | finiteBitSize (undefined :: Int) == 64 = fromIntegral n #else | bitSize (undefined :: Int) == 64 = fromIntegral n #endif | otherwise = fromIntegral (fromIntegral n `xor` (fromIntegral n `shiftR` 32 :: Word64)) hashWithSalt = defaultHashWithSalt instance Hashable Word where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Word8 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Word16 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Word32 where hash = fromIntegral hashWithSalt = defaultHashWithSalt instance Hashable Word64 where hash n #if MIN_VERSION_base(4,7,0) | finiteBitSize (undefined :: Int) == 64 = fromIntegral n #else | bitSize (undefined :: Int) == 64 = fromIntegral n #endif | otherwise = fromIntegral (n `xor` (n `shiftR` 32)) hashWithSalt = defaultHashWithSalt instance Hashable () where hash = fromEnum hashWithSalt = defaultHashWithSalt instance Hashable Bool where hash = fromEnum hashWithSalt = defaultHashWithSalt instance Hashable Ordering where hash = fromEnum hashWithSalt = defaultHashWithSalt instance Hashable Char where hash = fromEnum hashWithSalt = defaultHashWithSalt #if defined(MIN_VERSION_integer_gmp_1_0_0) instance Hashable BigNat where hashWithSalt salt (BN# ba) = hashByteArrayWithSalt ba 0 numBytes salt `hashWithSalt` size where size = numBytes `quot` SIZEOF_HSWORD numBytes = I# (sizeofByteArray# ba) #endif #if MIN_VERSION_base(4,8,0) instance Hashable Natural where # if defined(MIN_VERSION_integer_gmp_1_0_0) hash (NatS# n) = hash (W# n) hash (NatJ# bn) = hash bn hashWithSalt salt (NatS# n) = hashWithSalt salt (W# n) hashWithSalt salt (NatJ# bn) = hashWithSalt salt bn # else hash (Natural n) = hash n hashWithSalt salt (Natural n) = hashWithSalt salt n # endif #endif instance Hashable Integer where #if defined(VERSION_integer_gmp) # if defined(MIN_VERSION_integer_gmp_1_0_0) hash (S# n) = (I# n) hash (Jp# bn) = hash bn hash (Jn# bn) = negate (hash bn) hashWithSalt salt (S# n) = hashWithSalt salt (I# n) hashWithSalt salt (Jp# bn) = hashWithSalt salt bn hashWithSalt salt (Jn# bn) = negate (hashWithSalt salt bn) # else hash (S# int) = I# int hash n@(J# size# byteArray) | n >= minInt && n <= maxInt = fromInteger n :: Int | otherwise = let size = I# size# numBytes = SIZEOF_HSWORD * abs size in hashByteArrayWithSalt byteArray 0 numBytes defaultSalt `hashWithSalt` size where minInt = fromIntegral (minBound :: Int) maxInt = fromIntegral (maxBound :: Int) hashWithSalt salt (S# n) = hashWithSalt salt (I# n) hashWithSalt salt n@(J# size# byteArray) | n >= minInt && n <= maxInt = hashWithSalt salt (fromInteger n :: Int) | otherwise = let size = I# size# numBytes = SIZEOF_HSWORD * abs size in hashByteArrayWithSalt byteArray 0 numBytes salt `hashWithSalt` size where minInt = fromIntegral (minBound :: Int) maxInt = fromIntegral (maxBound :: Int) # endif #else hashWithSalt salt = foldl' hashWithSalt salt . go where go n | inBounds n = [fromIntegral n :: Int] | otherwise = fromIntegral n : go (n `shiftR` WORD_SIZE_IN_BITS) maxInt = fromIntegral (maxBound :: Int) inBounds x = x >= fromIntegral (minBound :: Int) && x <= maxInt #endif #if MIN_VERSION_base(4,9,0) -- Starting with base-4.9, numerator/denominator don't need 'Integral' anymore instance Hashable a => Hashable (Ratio a) where #else instance (Integral a, Hashable a) => Hashable (Ratio a) where #endif {-# SPECIALIZE instance Hashable (Ratio Integer) #-} hash a = hash (numerator a) `hashWithSalt` denominator a hashWithSalt s a = s `hashWithSalt` numerator a `hashWithSalt` denominator a instance Hashable Float where hash x | isIEEE x = assert (sizeOf x >= sizeOf (0::Word32) && alignment x >= alignment (0::Word32)) $ hash ((unsafeDupablePerformIO $ with x $ peek . castPtr) :: Word32) | otherwise = hash (show x) hashWithSalt = defaultHashWithSalt instance Hashable Double where hash x | isIEEE x = assert (sizeOf x >= sizeOf (0::Word64) && alignment x >= alignment (0::Word64)) $ hash ((unsafeDupablePerformIO $ with x $ peek . castPtr) :: Word64) | otherwise = hash (show x) hashWithSalt = defaultHashWithSalt -- | A value with bit pattern (01)* (or 5* in hexa), for any size of Int. -- It is used as data constructor distinguisher. GHC computes its value during -- compilation. distinguisher :: Int distinguisher = fromIntegral $ (maxBound :: Word) `quot` 3 {-# INLINE distinguisher #-} instance Hashable a => Hashable (Maybe a) where hash Nothing = 0 hash (Just a) = distinguisher `hashWithSalt` a hashWithSalt = hashWithSalt1 instance Hashable1 Maybe where liftHashWithSalt _ s Nothing = s `combine` 0 liftHashWithSalt h s (Just a) = s `combine` distinguisher `h` a instance (Hashable a, Hashable b) => Hashable (Either a b) where hash (Left a) = 0 `hashWithSalt` a hash (Right b) = distinguisher `hashWithSalt` b hashWithSalt = hashWithSalt1 instance Hashable a => Hashable1 (Either a) where liftHashWithSalt = defaultLiftHashWithSalt instance Hashable2 Either where liftHashWithSalt2 h _ s (Left a) = s `combine` 0 `h` a liftHashWithSalt2 _ h s (Right b) = s `combine` distinguisher `h` b instance (Hashable a1, Hashable a2) => Hashable (a1, a2) where hash (a1, a2) = hash a1 `hashWithSalt` a2 hashWithSalt = hashWithSalt1 instance Hashable a1 => Hashable1 ((,) a1) where liftHashWithSalt = defaultLiftHashWithSalt instance Hashable2 (,) where liftHashWithSalt2 h1 h2 s (a1, a2) = s `h1` a1 `h2` a2 instance (Hashable a1, Hashable a2, Hashable a3) => Hashable (a1, a2, a3) where hash (a1, a2, a3) = hash a1 `hashWithSalt` a2 `hashWithSalt` a3 hashWithSalt = hashWithSalt1 instance (Hashable a1, Hashable a2) => Hashable1 ((,,) a1 a2) where liftHashWithSalt = defaultLiftHashWithSalt instance Hashable a1 => Hashable2 ((,,) a1) where liftHashWithSalt2 h1 h2 s (a1, a2, a3) = (s `hashWithSalt` a1) `h1` a2 `h2` a3 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4) => Hashable (a1, a2, a3, a4) where hash (a1, a2, a3, a4) = hash a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 hashWithSalt = hashWithSalt1 instance (Hashable a1, Hashable a2, Hashable a3) => Hashable1 ((,,,) a1 a2 a3) where liftHashWithSalt = defaultLiftHashWithSalt instance (Hashable a1, Hashable a2) => Hashable2 ((,,,) a1 a2) where liftHashWithSalt2 h1 h2 s (a1, a2, a3, a4) = (s `hashWithSalt` a1 `hashWithSalt` a2) `h1` a3 `h2` a4 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5) => Hashable (a1, a2, a3, a4, a5) where hash (a1, a2, a3, a4, a5) = hash a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 `hashWithSalt` a5 hashWithSalt = hashWithSalt1 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4) => Hashable1 ((,,,,) a1 a2 a3 a4) where liftHashWithSalt = defaultLiftHashWithSalt instance (Hashable a1, Hashable a2, Hashable a3) => Hashable2 ((,,,,) a1 a2 a3) where liftHashWithSalt2 h1 h2 s (a1, a2, a3, a4, a5) = (s `hashWithSalt` a1 `hashWithSalt` a2 `hashWithSalt` a3) `h1` a4 `h2` a5 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5, Hashable a6) => Hashable (a1, a2, a3, a4, a5, a6) where hash (a1, a2, a3, a4, a5, a6) = hash a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 `hashWithSalt` a5 `hashWithSalt` a6 hashWithSalt = hashWithSalt1 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5) => Hashable1 ((,,,,,) a1 a2 a3 a4 a5) where liftHashWithSalt = defaultLiftHashWithSalt instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4) => Hashable2 ((,,,,,) a1 a2 a3 a4) where liftHashWithSalt2 h1 h2 s (a1, a2, a3, a4, a5, a6) = (s `hashWithSalt` a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4) `h1` a5 `h2` a6 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5, Hashable a6, Hashable a7) => Hashable (a1, a2, a3, a4, a5, a6, a7) where hash (a1, a2, a3, a4, a5, a6, a7) = hash a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 `hashWithSalt` a5 `hashWithSalt` a6 `hashWithSalt` a7 hashWithSalt s (a1, a2, a3, a4, a5, a6, a7) = s `hashWithSalt` a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 `hashWithSalt` a5 `hashWithSalt` a6 `hashWithSalt` a7 instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5, Hashable a6) => Hashable1 ((,,,,,,) a1 a2 a3 a4 a5 a6) where liftHashWithSalt = defaultLiftHashWithSalt instance (Hashable a1, Hashable a2, Hashable a3, Hashable a4, Hashable a5) => Hashable2 ((,,,,,,) a1 a2 a3 a4 a5) where liftHashWithSalt2 h1 h2 s (a1, a2, a3, a4, a5, a6, a7) = (s `hashWithSalt` a1 `hashWithSalt` a2 `hashWithSalt` a3 `hashWithSalt` a4 `hashWithSalt` a5) `h1` a6 `h2` a7 instance Hashable (StableName a) where hash = hashStableName hashWithSalt = defaultHashWithSalt -- Auxillary type for Hashable [a] definition data SPInt = SP !Int !Int instance Hashable a => Hashable [a] where {-# SPECIALIZE instance Hashable [Char] #-} hashWithSalt = hashWithSalt1 instance Hashable1 [] where liftHashWithSalt h salt arr = finalise (foldl' step (SP salt 0) arr) where finalise (SP s l) = hashWithSalt s l step (SP s l) x = SP (h s x) (l + 1) instance Hashable B.ByteString where hashWithSalt salt bs = unsafeDupablePerformIO $ B.unsafeUseAsCStringLen bs $ \(p, len) -> hashPtrWithSalt p (fromIntegral len) salt instance Hashable BL.ByteString where hashWithSalt = BL.foldlChunks hashWithSalt #if MIN_VERSION_bytestring(0,10,4) instance Hashable BSI.ShortByteString where #if MIN_VERSION_base(4,3,0) hashWithSalt salt sbs@(BSI.SBS ba) = #else hashWithSalt salt sbs@(BSI.SBS ba _) = #endif hashByteArrayWithSalt ba 0 (BSI.length sbs) salt #endif instance Hashable T.Text where hashWithSalt salt (T.Text arr off len) = hashByteArrayWithSalt (TA.aBA arr) (off `shiftL` 1) (len `shiftL` 1) salt instance Hashable TL.Text where hashWithSalt = TL.foldlChunks hashWithSalt -- | Compute the hash of a ThreadId. hashThreadId :: ThreadId -> Int hashThreadId (ThreadId t) = hash (fromIntegral (getThreadId t) :: Int) foreign import ccall unsafe "rts_getThreadId" getThreadId :: ThreadId# -> CInt instance Hashable ThreadId where hash = hashThreadId hashWithSalt = defaultHashWithSalt instance Hashable (Ptr a) where hashWithSalt salt p = hashWithSalt salt $ ptrToIntPtr p instance Hashable (FunPtr a) where hashWithSalt salt p = hashWithSalt salt $ castFunPtrToPtr p instance Hashable IntPtr where hash n = fromIntegral n hashWithSalt = defaultHashWithSalt instance Hashable WordPtr where hash n = fromIntegral n hashWithSalt = defaultHashWithSalt #if __GLASGOW_HASKELL__ < 801 -- | Compute the hash of a TypeRep, in various GHC versions we can do this quickly. hashTypeRep :: TypeRep -> Int {-# INLINE hashTypeRep #-} #if __GLASGOW_HASKELL__ >= 710 -- Fingerprint is just the MD5, so taking any Int from it is fine hashTypeRep tr = let Fingerprint x _ = typeRepFingerprint tr in fromIntegral x #elif __GLASGOW_HASKELL__ >= 702 -- Fingerprint is just the MD5, so taking any Int from it is fine hashTypeRep (TypeRep (Fingerprint x _) _ _) = fromIntegral x #elif __GLASGOW_HASKELL__ >= 606 hashTypeRep = unsafeDupablePerformIO . typeRepKey #else hashTypeRep = hash . show #endif instance Hashable TypeRep where hash = hashTypeRep hashWithSalt = defaultHashWithSalt {-# INLINE hash #-} #else hashTypeRep :: Type.Reflection.TypeRep a -> Int hashTypeRep tr = let Fingerprint x _ = typeRepFingerprint tr in fromIntegral x instance Hashable Type.Reflection.SomeTypeRep where hash (Type.Reflection.SomeTypeRep r) = hashTypeRep r hashWithSalt = defaultHashWithSalt {-# INLINE hash #-} instance Hashable (Type.Reflection.TypeRep a) where hash = hashTypeRep hashWithSalt = defaultHashWithSalt {-# INLINE hash #-} #endif #if MIN_VERSION_base(4,8,0) instance Hashable Void where hashWithSalt _ = absurd #endif -- | Compute a hash value for the content of this pointer. hashPtr :: Ptr a -- ^ pointer to the data to hash -> Int -- ^ length, in bytes -> IO Int -- ^ hash value hashPtr p len = hashPtrWithSalt p len defaultSalt -- | Compute a hash value for the content of this pointer, using an -- initial salt. -- -- This function can for example be used to hash non-contiguous -- segments of memory as if they were one contiguous segment, by using -- the output of one hash as the salt for the next. hashPtrWithSalt :: Ptr a -- ^ pointer to the data to hash -> Int -- ^ length, in bytes -> Int -- ^ salt -> IO Int -- ^ hash value hashPtrWithSalt p len salt = fromIntegral `fmap` c_hashCString (castPtr p) (fromIntegral len) (fromIntegral salt) foreign import ccall unsafe "hashable_fnv_hash" c_hashCString :: CString -> CLong -> CLong -> IO CLong -- | Compute a hash value for the content of this 'ByteArray#', -- beginning at the specified offset, using specified number of bytes. hashByteArray :: ByteArray# -- ^ data to hash -> Int -- ^ offset, in bytes -> Int -- ^ length, in bytes -> Int -- ^ hash value hashByteArray ba0 off len = hashByteArrayWithSalt ba0 off len defaultSalt {-# INLINE hashByteArray #-} -- | Compute a hash value for the content of this 'ByteArray#', using -- an initial salt. -- -- This function can for example be used to hash non-contiguous -- segments of memory as if they were one contiguous segment, by using -- the output of one hash as the salt for the next. hashByteArrayWithSalt :: ByteArray# -- ^ data to hash -> Int -- ^ offset, in bytes -> Int -- ^ length, in bytes -> Int -- ^ salt -> Int -- ^ hash value hashByteArrayWithSalt ba !off !len !h = fromIntegral $ c_hashByteArray ba (fromIntegral off) (fromIntegral len) (fromIntegral h) foreign import ccall unsafe "hashable_fnv_hash_offset" c_hashByteArray :: ByteArray# -> CLong -> CLong -> CLong -> CLong -- | Combine two given hash values. 'combine' has zero as a left -- identity. combine :: Int -> Int -> Int combine h1 h2 = (h1 * 16777619) `xor` h2 instance Hashable Unique where hash = hashUnique hashWithSalt = defaultHashWithSalt instance Hashable Version where hashWithSalt salt (Version branch tags) = salt `hashWithSalt` branch `hashWithSalt` tags #if MIN_VERSION_base(4,7,0) -- Using hashWithSalt1 would cause needless constraint instance Hashable (Fixed a) where hashWithSalt salt (MkFixed i) = hashWithSalt salt i instance Hashable1 Fixed where liftHashWithSalt _ salt (MkFixed i) = hashWithSalt salt i #endif #if MIN_VERSION_base(4,8,0) instance Hashable a => Hashable (Identity a) where hashWithSalt = hashWithSalt1 instance Hashable1 Identity where liftHashWithSalt h salt (Identity x) = h salt x #endif -- Using hashWithSalt1 would cause needless constraint instance Hashable a => Hashable (Const a b) where hashWithSalt salt (Const x) = hashWithSalt salt x instance Hashable a => Hashable1 (Const a) where liftHashWithSalt = defaultLiftHashWithSalt instance Hashable2 Const where liftHashWithSalt2 f _ salt (Const x) = f salt x #if MIN_VERSION_base(4,7,0) instance Hashable (Proxy a) where hash _ = 0 hashWithSalt s _ = s instance Hashable1 Proxy where liftHashWithSalt _ s _ = s #endif -- instances formerly provided by 'semigroups' package #if MIN_VERSION_base(4,9,0) instance Hashable a => Hashable (NE.NonEmpty a) where hashWithSalt p (a NE.:| as) = p `hashWithSalt` a `hashWithSalt` as instance Hashable a => Hashable (Min a) where hashWithSalt p (Min a) = hashWithSalt p a instance Hashable a => Hashable (Max a) where hashWithSalt p (Max a) = hashWithSalt p a instance (Hashable a, Hashable b) => Hashable (Arg a b) where hashWithSalt p (Arg a b) = hashWithSalt p a `hashWithSalt` b instance Hashable a => Hashable (First a) where hashWithSalt p (First a) = hashWithSalt p a instance Hashable a => Hashable (Last a) where hashWithSalt p (Last a) = hashWithSalt p a instance Hashable a => Hashable (WrappedMonoid a) where hashWithSalt p (WrapMonoid a) = hashWithSalt p a instance Hashable a => Hashable (Option a) where hashWithSalt p (Option a) = hashWithSalt p a #endif -- instances for @Data.Functor.{Product,Sum,Compose}@, present -- in base-4.9 and onward. #if MIN_VERSION_base(4,9,0) -- | In general, @hash (Compose x) ≠ hash x@. However, @hashWithSalt@ satisfies -- its variant of this equivalence. instance (Hashable1 f, Hashable1 g, Hashable a) => Hashable (Compose f g a) where hashWithSalt = hashWithSalt1 instance (Hashable1 f, Hashable1 g) => Hashable1 (Compose f g) where liftHashWithSalt h s = liftHashWithSalt (liftHashWithSalt h) s . getCompose instance (Hashable1 f, Hashable1 g) => Hashable1 (FP.Product f g) where liftHashWithSalt h s (FP.Pair a b) = liftHashWithSalt h (liftHashWithSalt h s a) b instance (Hashable1 f, Hashable1 g, Hashable a) => Hashable (FP.Product f g a) where hashWithSalt = hashWithSalt1 instance (Hashable1 f, Hashable1 g) => Hashable1 (FS.Sum f g) where liftHashWithSalt h s (FS.InL a) = liftHashWithSalt h (s `combine` 0) a liftHashWithSalt h s (FS.InR a) = liftHashWithSalt h (s `combine` distinguisher) a instance (Hashable1 f, Hashable1 g, Hashable a) => Hashable (FS.Sum f g a) where hashWithSalt = hashWithSalt1 #endif -- | A hashable value along with the result of the 'hash' function. data Hashed a = Hashed a {-# UNPACK #-} !Int deriving (Typeable) -- | Wrap a hashable value, caching the 'hash' function result. hashed :: Hashable a => a -> Hashed a hashed a = Hashed a (hash a) -- | Unwrap hashed value. unhashed :: Hashed a -> a unhashed (Hashed a _) = a -- | Uses precomputed hash to detect inequality faster instance Eq a => Eq (Hashed a) where Hashed a ha == Hashed b hb = ha == hb && a == b instance Ord a => Ord (Hashed a) where Hashed a _ `compare` Hashed b _ = a `compare` b instance Show a => Show (Hashed a) where showsPrec d (Hashed a _) = showParen (d > 10) $ showString "hashed" . showChar ' ' . showsPrec 11 a instance Hashable (Hashed a) where hashWithSalt = defaultHashWithSalt hash (Hashed _ h) = h -- This instance is a little unsettling. It is unusal for -- 'liftHashWithSalt' to ignore its first argument when a -- value is actually available for it to work on. instance Hashable1 Hashed where liftHashWithSalt _ s (Hashed _ h) = defaultHashWithSalt s h instance (IsString a, Hashable a) => IsString (Hashed a) where fromString s = let r = fromString s in Hashed r (hash r) instance F.Foldable Hashed where foldr f acc (Hashed a _) = f a acc instance NFData a => NFData (Hashed a) where rnf = rnf . unhashed -- | 'Hashed' cannot be 'Functor' mapHashed :: Hashable b => (a -> b) -> Hashed a -> Hashed b mapHashed f (Hashed a _) = hashed (f a) -- | 'Hashed' cannot be 'Traversable' traverseHashed :: (Hashable b, Functor f) => (a -> f b) -> Hashed a -> f (Hashed b) traverseHashed f (Hashed a _) = fmap hashed (f a) -- instances for @Data.Functor.Classes@ higher rank typeclasses -- in base-4.9 and onward. #if MIN_VERSION_base(4,9,0) instance Eq1 Hashed where liftEq f (Hashed a ha) (Hashed b hb) = ha == hb && f a b instance Ord1 Hashed where liftCompare f (Hashed a _) (Hashed b _) = f a b instance Show1 Hashed where liftShowsPrec sp _ d (Hashed a _) = showsUnaryWith sp "hashed" d a #endif