# Continuation

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== Continuation monad == | == Continuation monad == | ||

− | * Jeff Newbern's [http:// | + | * Jeff Newbern's [http://haskell.org/all_about_monads/html/index.html All About Monads] contains a [http://haskell.org/all_about_monads/html/contmonad.html section] on it. |

* [http://haskell.org/ghc/docs/latest/html/libraries/mtl/Control-Monad-Cont.html Control.Monad.Cont] is contained by Haskell Hierarchical Libraries. | * [http://haskell.org/ghc/docs/latest/html/libraries/mtl/Control-Monad-Cont.html Control.Monad.Cont] is contained by Haskell Hierarchical Libraries. | ||

* HaWiki's [http://haskell.cs.yale.edu/hawiki/MonadicContinuationPassingStyle MonadicContinuationPassingStyle] and also [http://haskell.cs.yale.edu/hawiki/MonadCont MonadCont] mentions also an interesting example: [http://haskell.cs.yale.edu/hawiki/PythonGenerator#head-6a20c892bfa07639a064a8acb3f0472b1b891a8b PythonGenerator]. | * HaWiki's [http://haskell.cs.yale.edu/hawiki/MonadicContinuationPassingStyle MonadicContinuationPassingStyle] and also [http://haskell.cs.yale.edu/hawiki/MonadCont MonadCont] mentions also an interesting example: [http://haskell.cs.yale.edu/hawiki/PythonGenerator#head-6a20c892bfa07639a064a8acb3f0472b1b891a8b PythonGenerator]. |

## Revision as of 21:09, 1 March 2007

## Contents |

## 1 General or introductory materials

### 1.1 Powerful metaphors, images

Here is a collection of short descriptions, analogies or metaphors, that illustrate this difficult concept, or an aspect of it.

#### 1.1.1 Imperative metaphors

- In computing, a continuation is a representation of the execution state of a program (for example, the call stack) at a certain point in time (Wikipedia's Continuation).
- At its heart,
`call/cc`

is something like the`goto`

instruction (or rather, like a label for a`goto`

instruction); but a Grand High Exalted`goto`

instruction... The point about`call/cc`

is that it is not a*static*(lexical)`goto`

instruction but a*dynamic*one (David Madore's A page about`call/cc`

)

#### 1.1.2 Functional metaphors

- Continuations represent the future of a computation, as a function from an intermediate result to the final result (Continuation monad section in Jeff Newbern's All About Monads)
- The idea behind CPS is to pass around as a function argument what to do next (Yet Another Haskell Tutorial written by Hal Daume III, 4.6 Continuation Passing Style, pp 53-56). It can be read also in wikified format.
- Rather than return the result of a function, pass one or more HigherOrderFunctions to determine what to do with the result (HaWiki's ContinuationPassingStyle). Yes, direct sum like things (or in generally, case analysis, managing cases, alternatives) can be implemented in CPS by passing
*more*continuations.

### 1.2 External links

- The approriate section of Haskell: Functional Programming with Types.
- Wikipedia's Continuation is a surprisingly good introductory material on this topic. See also Continuation-passing style.
- Yet Another Haskell Tutorial written by Hal Daume III contains a section on continuation passing style (4.6 Continuation Passing Style, pp 53-56). It can be read also in wikified format, thanks to Eric Kow.
- HaWiki has a page on ContinuationPassingStyle, and some related pages linked from there, too.
- David Madore's A page about
`call/cc`

describes the concept, and his The Unlambda Programming Language page shows how he implemented this construct in an esoteric functional programming language. - Continuations section of article Functional Programming For The Rest of Us, an introductory material to functional programming.

## 2 Examples

### 2.1 Citing haskellized Scheme examples from Wikipedia

Quoting the Scheme examples (with their explanatory texts) from Wikipedia's Continuation-passing style article, but Scheme examples are translated to Haskell, and some straightforward modifications are made to the explanations (e.g. replacing word*Scheme*with

*Haskell*, or using abbreviated name

fac

`factorial`

).
In the Haskell programming language, the simplest of direct-style functions is the identity function:

id :: a -> a id a = a

which in CPS becomes:

idCPS :: a -> (a -> r) -> r idCPS a ret = ret a

ret

k

mysqrt :: Floating a => a -> a mysqrt a = sqrt a print (mysqrt 4) :: IO () |
mysqrtCPS :: a -> (a -> r) -> r mysqrtCPS a k = k (sqrt a) mysqrtCPS 4 print :: IO () |

mysqrt 4 + 2 :: Floating a => a |
mysqrtCPS 4 (+ 2) :: Floating a => a |

fac :: Integral a => a -> a fac 0 = 1 fac n'@(n + 1) = n' * fac n fac 4 + 2 :: Integral a => a |
facCPS :: a -> (a -> r) -> r facCPS 0 k = k 1 facCPS n'@(n + 1) k = facCPS n $ \ret -> k (n' * ret) facCPS 4 (+ 2) :: Integral a => a |

fac

facCPS

mysqrt

sqrt

sqrt

sqrt

The quotation ends here.

### 2.2 More general examples

Maybe it is confusing, that

- the type of the (non-continuation) argument of the discussed functions (,idCPS,mysqrtCPS)facCPS
- and the type of the argument of the continuations

coincide in the above examples. It is not a necessity (it does not belong to the essence of the continuation concept), so I try to figure out an example which avoids this confusing coincidence:

newSentence :: Char -> Bool newSentence = flip elem ".?!" newSentenceCPS :: Char -> (Bool -> r) -> r newSentenceCPS c k = k (elem c ".?!")

but this is a rather uninteresting example. Let us see another one that uses at least recursion:

mylength :: [a] -> Integer mylength [] = 0 mylength (_ : as) = succ (mylength as) mylengthCPS :: [a] -> (Integer -> r) -> r mylengthCPS [] k = k 0 mylengthCPS (_ : as) k = mylengthCPS as (k . succ) test8 :: Integer test8 = mylengthCPS [1..2006] id test9 :: IO () test9 = mylengthCPS [1..2006] print

You can download the Haskell source code (the original examples plus the new ones): Continuation.hs.

## 3 Continuation monad

- Jeff Newbern's All About Monads contains a section on it.
- Control.Monad.Cont is contained by Haskell Hierarchical Libraries.
- HaWiki's MonadicContinuationPassingStyle and also MonadCont mentions also an interesting example: PythonGenerator.

## 4 Linguistics

Chris Barker: Continuations in Natural Language