Copyright	(c) The University of Glasgow 2001-2009
License	BSD-style (see the file LICENSE)
Maintainer	libraries@haskell.org
Stability	stable
Portability	portable
Safe Haskell	Safe
Language	Haskell2010

Control.DeepSeq

Description

This module provides an overloaded function, deepseq, for fully evaluating data structures (that is, evaluating to "Normal Form").

A typical use is to prevent resource leaks in lazy IO programs, by forcing all characters from a file to be read. For example:

import System.IO
import Control.DeepSeq

main = do
    h <- openFile "f" ReadMode
    s <- hGetContents h
    s `deepseq` hClose h
    return s

deepseq differs from seq as it traverses data structures deeply, for example, seq will evaluate only to the first constructor in the list:

> [1,2,undefined] `seq` 3
3

While deepseq will force evaluation of all the list elements:

> [1,2,undefined] `deepseq` 3
*** Exception: Prelude.undefined

Another common use is to ensure any exceptions hidden within lazy fields of a data structure do not leak outside the scope of the exception handler, or to force evaluation of a data structure in one thread, before passing to another thread (preventing work moving to the wrong threads).

Since: 1.1.0.0

Synopsis

Documentation

deepseq :: NFData a => a -> b -> b Source #

deepseq: fully evaluates the first argument, before returning the second.

The name deepseq is used to illustrate the relationship to seq: where seq is shallow in the sense that it only evaluates the top level of its argument, deepseq traverses the entire data structure evaluating it completely.

deepseq can be useful for forcing pending exceptions, eradicating space leaks, or forcing lazy I/O to happen. It is also useful in conjunction with parallel Strategies (see the parallel package).

There is no guarantee about the ordering of evaluation. The implementation may evaluate the components of the structure in any order or in parallel. To impose an actual order on evaluation, use pseq from Control.Parallel in the parallel package.

Since: 1.1.0.0

($!!) :: NFData a => (a -> b) -> a -> b infixr 0 Source #

the deep analogue of $!. In the expression f $!! x, x is fully evaluated before the function f is applied to it.

Since: 1.2.0.0

force :: NFData a => a -> a Source #

a variant of deepseq that is useful in some circumstances:

force x = x `deepseq` x

force x fully evaluates x, and then returns it. Note that force x only performs evaluation when the value of force x itself is demanded, so essentially it turns shallow evaluation into deep evaluation.

force can be conveniently used in combination with ViewPatterns:

{-# LANGUAGE BangPatterns, ViewPatterns #-}
import Control.DeepSeq

someFun :: ComplexData -> SomeResult
someFun (force -> !arg) = {- 'arg' will be fully evaluated -}

Another useful application is to combine force with evaluate in order to force deep evaluation relative to other IO operations:

import Control.Exception (evaluate)
import Control.DeepSeq

main = do
  result <- evaluate $ force $ pureComputation
  {- 'result' will be fully evaluated at this point -}
  return ()

Since: 1.2.0.0

class NFData a where Source #

A class of types that can be fully evaluated.

Since: 1.1.0.0

Methods

rnf :: a -> () Source #

rnf should reduce its argument to normal form (that is, fully evaluate all sub-components), and then return '()'.

`Generic` `NFData` deriving

Starting with GHC 7.2, you can automatically derive instances for types possessing a Generic instance.

{-# LANGUAGE DeriveGeneric #-}

import GHC.Generics (Generic)
import Control.DeepSeq

data Foo a = Foo a String
             deriving (Eq, Generic)

instance NFData a => NFData (Foo a)

data Colour = Red | Green | Blue
              deriving Generic

instance NFData Colour

Starting with GHC 7.10, the example above can be written more concisely by enabling the new DeriveAnyClass extension:

{-# LANGUAGE DeriveGeneric, DeriveAnyClass #-}

import GHC.Generics (Generic)
import Control.DeepSeq

data Foo a = Foo a String
             deriving (Eq, Generic, NFData)

data Colour = Red | Green | Blue
              deriving (Generic, NFData)

Compatibility with previous `deepseq` versions

Prior to version 1.4.0.0, the default implementation of the rnf method was defined as

rnf a = seq a ()

However, starting with deepseq-1.4.0.0, the default implementation is based on DefaultSignatures allowing for more accurate auto-derived NFData instances. If you need the previously used exact default rnf method implementation semantics, use

instance NFData Colour where rnf x = seq x ()

or alternatively

{-# LANGUAGE BangPatterns #-}
instance NFData Colour where rnf !_ = ()

rnf :: (Generic a, GNFData (Rep a)) => a -> () Source #

rnf should reduce its argument to normal form (that is, fully evaluate all sub-components), and then return '()'.

`Generic` `NFData` deriving

Starting with GHC 7.2, you can automatically derive instances for types possessing a Generic instance.

{-# LANGUAGE DeriveGeneric #-}

import GHC.Generics (Generic)
import Control.DeepSeq

data Foo a = Foo a String
             deriving (Eq, Generic)

instance NFData a => NFData (Foo a)

data Colour = Red | Green | Blue
              deriving Generic

instance NFData Colour

Starting with GHC 7.10, the example above can be written more concisely by enabling the new DeriveAnyClass extension:

{-# LANGUAGE DeriveGeneric, DeriveAnyClass #-}

import GHC.Generics (Generic)
import Control.DeepSeq

data Foo a = Foo a String
             deriving (Eq, Generic, NFData)

data Colour = Red | Green | Blue
              deriving (Generic, NFData)

Compatibility with previous `deepseq` versions

Prior to version 1.4.0.0, the default implementation of the rnf method was defined as

rnf a = seq a ()

However, starting with deepseq-1.4.0.0, the default implementation is based on DefaultSignatures allowing for more accurate auto-derived NFData instances. If you need the previously used exact default rnf method implementation semantics, use

instance NFData Colour where rnf x = seq x ()

or alternatively

{-# LANGUAGE BangPatterns #-}
instance NFData Colour where rnf !_ = ()

Instances

NFData Bool #
Methods rnf :: Bool -> () Source #
NFData Char #
Methods rnf :: Char -> () Source #
NFData Double #
Methods rnf :: Double -> () Source #
NFData Float #
Methods rnf :: Float -> () Source #
NFData Int #
Methods rnf :: Int -> () Source #
NFData Int8 #
Methods rnf :: Int8 -> () Source #
NFData Int16 #
Methods rnf :: Int16 -> () Source #
NFData Int32 #
Methods rnf :: Int32 -> () Source #
NFData Int64 #
Methods rnf :: Int64 -> () Source #
NFData Integer #
Methods rnf :: Integer -> () Source #
NFData Word #
Methods rnf :: Word -> () Source #
NFData Word8 #
Methods rnf :: Word8 -> () Source #
NFData Word16 #
Methods rnf :: Word16 -> () Source #
NFData Word32 #
Methods rnf :: Word32 -> () Source #
NFData Word64 #
Methods rnf :: Word64 -> () Source #
NFData CallStack #	Since: 1.4.2.0
Methods rnf :: CallStack -> () Source #
NFData TypeRep #	NOTE: Only defined for `base-4.8.0.0` and later Since: 1.4.0.0
Methods rnf :: TypeRep -> () Source #
NFData () #
Methods rnf :: () -> () Source #
NFData TyCon #	NOTE: Only defined for `base-4.8.0.0` and later Since: 1.4.0.0
Methods rnf :: TyCon -> () Source #
NFData Natural #	Since: 1.4.0.0
Methods rnf :: Natural -> () Source #
NFData Void #	Defined as `rnf = absurd`. Since: 1.4.0.0
Methods rnf :: Void -> () Source #
NFData Version #	Since: 1.3.0.0
Methods rnf :: Version -> () Source #
NFData Unique #	Since: 1.4.0.0
Methods rnf :: Unique -> () Source #
NFData ThreadId #	Since: 1.4.0.0
Methods rnf :: ThreadId -> () Source #
NFData ExitCode #	Since: 1.4.2.0
Methods rnf :: ExitCode -> () Source #
NFData CChar #	Since: 1.4.0.0
Methods rnf :: CChar -> () Source #
NFData CSChar #	Since: 1.4.0.0
Methods rnf :: CSChar -> () Source #
NFData CUChar #	Since: 1.4.0.0
Methods rnf :: CUChar -> () Source #
NFData CShort #	Since: 1.4.0.0
Methods rnf :: CShort -> () Source #
NFData CUShort #	Since: 1.4.0.0
Methods rnf :: CUShort -> () Source #
NFData CInt #	Since: 1.4.0.0
Methods rnf :: CInt -> () Source #
NFData CUInt #	Since: 1.4.0.0
Methods rnf :: CUInt -> () Source #
NFData CLong #	Since: 1.4.0.0
Methods rnf :: CLong -> () Source #
NFData CULong #	Since: 1.4.0.0
Methods rnf :: CULong -> () Source #
NFData CLLong #	Since: 1.4.0.0
Methods rnf :: CLLong -> () Source #
NFData CULLong #	Since: 1.4.0.0
Methods rnf :: CULLong -> () Source #
NFData CFloat #	Since: 1.4.0.0
Methods rnf :: CFloat -> () Source #
NFData CDouble #	Since: 1.4.0.0
Methods rnf :: CDouble -> () Source #
NFData CPtrdiff #	Since: 1.4.0.0
Methods rnf :: CPtrdiff -> () Source #
NFData CSize #	Since: 1.4.0.0
Methods rnf :: CSize -> () Source #
NFData CWchar #	Since: 1.4.0.0
Methods rnf :: CWchar -> () Source #
NFData CSigAtomic #	Since: 1.4.0.0
Methods rnf :: CSigAtomic -> () Source #
NFData CClock #	Since: 1.4.0.0
Methods rnf :: CClock -> () Source #
NFData CTime #	Since: 1.4.0.0
Methods rnf :: CTime -> () Source #
NFData CUSeconds #	Since: 1.4.0.0
Methods rnf :: CUSeconds -> () Source #
NFData CSUSeconds #	Since: 1.4.0.0
Methods rnf :: CSUSeconds -> () Source #
NFData CFile #	Since: 1.4.0.0
Methods rnf :: CFile -> () Source #
NFData CFpos #	Since: 1.4.0.0
Methods rnf :: CFpos -> () Source #
NFData CJmpBuf #	Since: 1.4.0.0
Methods rnf :: CJmpBuf -> () Source #
NFData CIntPtr #	Since: 1.4.0.0
Methods rnf :: CIntPtr -> () Source #
NFData CUIntPtr #	Since: 1.4.0.0
Methods rnf :: CUIntPtr -> () Source #
NFData CIntMax #	Since: 1.4.0.0
Methods rnf :: CIntMax -> () Source #
NFData CUIntMax #	Since: 1.4.0.0
Methods rnf :: CUIntMax -> () Source #
NFData All #	Since: 1.4.0.0
Methods rnf :: All -> () Source #
NFData Any #	Since: 1.4.0.0
Methods rnf :: Any -> () Source #
NFData Fingerprint #	Since: 1.4.0.0
Methods rnf :: Fingerprint -> () Source #
NFData SrcLoc #	Since: 1.4.2.0
Methods rnf :: SrcLoc -> () Source #
NFData a => NFData [a] #
Methods rnf :: [a] -> () Source #
NFData a => NFData (Maybe a) #
Methods rnf :: Maybe a -> () Source #
NFData a => NFData (Ratio a) #
Methods rnf :: Ratio a -> () Source #
NFData (Ptr a) #	Since: 1.4.2.0
Methods rnf :: Ptr a -> () Source #
NFData (FunPtr a) #	Since: 1.4.2.0
Methods rnf :: FunPtr a -> () Source #
NFData a => NFData (Identity a) #	Since: 1.4.0.0
Methods rnf :: Identity a -> () Source #
NFData a => NFData (Min a) #	Since: 1.4.2.0
Methods rnf :: Min a -> () Source #
NFData a => NFData (Max a) #	Since: 1.4.2.0
Methods rnf :: Max a -> () Source #
NFData a => NFData (First a) #	Since: 1.4.2.0
Methods rnf :: First a -> () Source #
NFData a => NFData (Last a) #	Since: 1.4.2.0
Methods rnf :: Last a -> () Source #
NFData m => NFData (WrappedMonoid m) #	Since: 1.4.2.0
Methods rnf :: WrappedMonoid m -> () Source #
NFData a => NFData (Option a) #	Since: 1.4.2.0
Methods rnf :: Option a -> () Source #
NFData a => NFData (NonEmpty a) #	Since: 1.4.2.0
Methods rnf :: NonEmpty a -> () Source #
NFData (Fixed a) #	Since: 1.3.0.0
Methods rnf :: Fixed a -> () Source #
NFData a => NFData (Complex a) #
Methods rnf :: Complex a -> () Source #
NFData (StableName a) #	Since: 1.4.0.0
Methods rnf :: StableName a -> () Source #
NFData a => NFData (ZipList a) #	Since: 1.4.0.0
Methods rnf :: ZipList a -> () Source #
NFData a => NFData (Dual a) #	Since: 1.4.0.0
Methods rnf :: Dual a -> () Source #
NFData a => NFData (Sum a) #	Since: 1.4.0.0
Methods rnf :: Sum a -> () Source #
NFData a => NFData (Product a) #	Since: 1.4.0.0
Methods rnf :: Product a -> () Source #
NFData a => NFData (First a) #	Since: 1.4.0.0
Methods rnf :: First a -> () Source #
NFData a => NFData (Last a) #	Since: 1.4.0.0
Methods rnf :: Last a -> () Source #
NFData (IORef a) #	NOTE: Only strict in the reference and not the referenced value. Since: 1.4.2.0
Methods rnf :: IORef a -> () Source #
NFData a => NFData (Down a) #	Since: 1.4.0.0
Methods rnf :: Down a -> () Source #
NFData (MVar a) #	NOTE: Only strict in the reference and not the referenced value. Since: 1.4.2.0
Methods rnf :: MVar a -> () Source #
NFData (a -> b) #	This instance is for convenience and consistency with `seq`. This assumes that WHNF is equivalent to NF for functions. Since: 1.3.0.0
Methods rnf :: (a -> b) -> () Source #
(NFData a, NFData b) => NFData (Either a b) #
Methods rnf :: Either a b -> () Source #
(NFData a, NFData b) => NFData (a, b) #
Methods rnf :: (a, b) -> () Source #
(NFData a, NFData b) => NFData (Array a b) #
Methods rnf :: Array a b -> () Source #
(NFData a, NFData b) => NFData (Arg a b) #	Since: 1.4.2.0
Methods rnf :: Arg a b -> () Source #
NFData (Proxy k a) #	Since: 1.4.0.0
Methods rnf :: Proxy k a -> () Source #
NFData (STRef s a) #	NOTE: Only strict in the reference and not the referenced value. Since: 1.4.2.0
Methods rnf :: STRef s a -> () Source #
(NFData a, NFData b, NFData c) => NFData (a, b, c) #
Methods rnf :: (a, b, c) -> () Source #
NFData a => NFData (Const k a b) #	Since: 1.4.0.0
Methods rnf :: Const k a b -> () Source #
(NFData a, NFData b, NFData c, NFData d) => NFData (a, b, c, d) #
Methods rnf :: (a, b, c, d) -> () Source #
(NFData a1, NFData a2, NFData a3, NFData a4, NFData a5) => NFData (a1, a2, a3, a4, a5) #
Methods rnf :: (a1, a2, a3, a4, a5) -> () Source #
(NFData a1, NFData a2, NFData a3, NFData a4, NFData a5, NFData a6) => NFData (a1, a2, a3, a4, a5, a6) #
Methods rnf :: (a1, a2, a3, a4, a5, a6) -> () Source #
(NFData a1, NFData a2, NFData a3, NFData a4, NFData a5, NFData a6, NFData a7) => NFData (a1, a2, a3, a4, a5, a6, a7) #
Methods rnf :: (a1, a2, a3, a4, a5, a6, a7) -> () Source #
(NFData a1, NFData a2, NFData a3, NFData a4, NFData a5, NFData a6, NFData a7, NFData a8) => NFData (a1, a2, a3, a4, a5, a6, a7, a8) #
Methods rnf :: (a1, a2, a3, a4, a5, a6, a7, a8) -> () Source #
(NFData a1, NFData a2, NFData a3, NFData a4, NFData a5, NFData a6, NFData a7, NFData a8, NFData a9) => NFData (a1, a2, a3, a4, a5, a6, a7, a8, a9) #
Methods rnf :: (a1, a2, a3, a4, a5, a6, a7, a8, a9) -> () Source #

Documentation

Generic NFData deriving

Compatibility with previous deepseq versions

Generic NFData deriving

Compatibility with previous deepseq versions

`Generic` `NFData` deriving

Compatibility with previous `deepseq` versions

`Generic` `NFData` deriving

Compatibility with previous `deepseq` versions