13
votes
4answers
197 views
+200

How can the continuation monad be expressed using the free monad?

Supposedly, all monads can be expressed using Free (if this isn't true, what is a counter-example and why)? How can the continuation monad or its corresponding transformer be expressed using Free or ...
12
votes
4answers
330 views

Correct terminology for continuations

I've been poking around continuations recently, and I got confused about the correct terminology. Here Gabriel Gonzalez says: A Haskell continuation has the following type: newtype Cont r a = ...
10
votes
1answer
188 views
+50

Jumping forward with the continuation monad

It is possible to jump backward in a program with the continuation monad: {-# LANGUAGE RecursiveDo #-} import Control.Monad.Fix import Control.Monad.Trans.Cont setjmp = callCC (\c -> return (fix ...
1
vote
2answers
77 views

Continuation Monad and Asynchronous Responses

Assume that we have three synchronous functions that get data over HTTP (These could be API calls internally): lookupUser :: String -> IO UserId lookupUserCity :: UserId -> IO City ...
7
votes
0answers
109 views

Use MonadRef to implement MonadCont

There is a well known issue that we cannot use forall types in the Cont return type. However it should be OK to have the following definition: class Monad m => MonadCont' m where callCC' :: ...
23
votes
2answers
592 views

Precise flow control in Haskell

The Idea Hello! I'm trying to implement in Haskell an image processing library based on dataflow ideology. I've got a problem connected to how I want to handle the flow of control. The main idea is ...
4
votes
1answer
109 views

Right way to compose continuation and state monad transformers

I have primitive interpreter written in haskell. This interpreter can correctly handle return statements (see my previous question). Now I want to add global state to my interpreter. This state ...
5
votes
1answer
110 views

Rewriting code with continuations

I have some code that evaluates primitive programs. Program is a list of statements (expression, block, return statement). Result of evaluation is last evaluated expression. Also evaluator should ...
1
vote
1answer
66 views

Implement imperative return statement in interpreter

I'm trying to implement simple imperative language in haskell. Generally speaking my program is a list of statements (like arithmetic expression, if/then, block statement). My evaluator has simple ...
9
votes
2answers
188 views

Cont Monad breaks laziness in Haskell

I was trying the Cont monad, and discovers the following problem. First construct a infinite list and lift all the elements to a Cont monad Use sequence operation to get a Cont monad on the infinite ...
1
vote
1answer
101 views

Continuation Monad Working

I'm trying to wrap my head around this following piece of code: ex2 = do a <- return 1 b <- Cont (\fred -> fred 10) return $ a + b ghci > runCont ex2 show "11" How is String "11" ...
3
votes
3answers
196 views

Understanding Haskell callCC examples

I am having trouble understanding the answers to a previous question. I'm hoping that an explanation of the following will clarify things. The following example comes from fpcomplete import ...
1
vote
2answers
227 views

How to interpret callCC in Haskell?

In Scheme executing a continuation obtained from a call/cc effectively jumps back to that initial call/cc and reinstates the saved call stack. I just started learning Haskell and I am trying to ...
0
votes
1answer
184 views

Write factorial as imperative function using Haskell

I have written the following code in Haskell: import Data.IORef import Control.Monad import Control.Monad.Trans.Cont import Control.Monad.IO.Class fac n = do i<-newIORef 1 ...
1
vote
0answers
130 views

Haskell/GHC: CPS and performace (time)?

I read about strand sorting alogrithm and wanted to compare it to merge sort at sorting functional lists in Haskell. I implemented simple code, then I tried to boost it with tail-recursion and CPS. ...
18
votes
1answer
519 views

Idiomatic Scala translation of Kiselyov's zippers?

Oleg Kiselyov showed how to make a zipper from any traversable by using delimited continuations. His Haskell code is quite short: module ZipperTraversable where import qualified Data.Traversable ...
6
votes
1answer
209 views

Does Scala continuation plugin support nested shift?

I am going through the following Shift/Reset tutorial: http://www.is.ocha.ac.jp/~asai/cw2011tutorial/main-e.pdf. I got pretty good results so far in translating the OchaCaml examples to Scala (all ...
14
votes
1answer
553 views

Continuation passing style representation of types

Suppose we have a monad, defined by return, (>>=) and the set of laws. There is a data type newtype C m a = C { unC ∷ forall r. (a → m r) → m r } also known as Codensity. C m a ≅ m a given ...
21
votes
4answers
807 views

Constructing efficient monad instances on `Set` (and other containers with constraints) using the continuation monad

Set, similarly to [] has a perfectly defined monadic operations. The problem is that they require that the values satisfy Ord constraint, and so it's impossible to define return and >>= without ...
2
votes
2answers
202 views

List Iterator using ContT

I have a simple list that I would like to iterate over "yield"ing between each element and printing that element to the output. I am trying to use the ContT monad to do this but running into issues. ...
4
votes
2answers
174 views

Is there a way to capture the continuations in a do notation?

Since the following do block: do x <- foo y <- bar return x + y is desugared to the following form: foo >>= (\x -> bar >>= (\y -> return x + y)) aren't \x -> ... ...
19
votes
2answers
1k views

Using Cont to acquire values from the future and the past

I'm writing a brainfuck interpreter in Haskell, and I came up with what I believe to be a very interesting description of a program: data Program m = Instruction (m ()) (Program m) | ...
21
votes
5answers
2k views

call/cc implementation?

I'm trying to find how call/cc is implemented. The best I've found is this Haskell snippet: callCC f = Cont $ \k -> runCont (f (\a -> Cont $ \_ -> k a)) k Although this is not as simple as ...
11
votes
1answer
528 views

Did I just write a continuation?

I don't have formal knowledge of continuations, and am wondering if someone can help me verify and understand the code I wrote :). Problem The general problem I'm trying to solve is to convert ...
8
votes
3answers
310 views

how can I implement this monad transformer with a continuation?

motivation. I'm trying to create a monad transformer, with a special instruction f <||> g that means "repeat this entire block containing f <||> g, once with f, the next time with g". This ...
9
votes
2answers
491 views

Haskell implemented without a stack?

from How does a stackless language work? Haskell (as commonly implemented) does not have a call stack; evaluation is based on graph reduction. Really? That's interesting, because while I've never ...
4
votes
1answer
194 views

variadic bind in Haskell

The following code is an attempt to write a variadic function that acts like this: bind_variadic mx f = mx >>= f bind_variadic mx my f = do { x <- mx; y <- my; f x y } I can write it ...
4
votes
3answers
438 views

Continuation Passing Style (CPS) during graph construction

I am working on a library for subdivision surfaces. In order to represent the mesh topology I'm using a kind of split-vertex lath data structure (see the diagram on the left side). During the ...
16
votes
2answers
530 views

How to make callCC more dynamic?

I thought the right type for ContT should be newtype ContT m a = ContT {runContT :: forall r. (a-> m r) -> m r} and other control operators shift :: Monad m => (forall r . (a-> ContT m ...
9
votes
3answers
664 views

Escaping from the IO monad inside the Continuation monad

A confusing title for a confusing question! I understand a) monads, b) the IO monad, c) the Cont monad (Control.Monad.Cont), and d) the ContT continuation transformer monad. (And I vaguely understand ...
27
votes
2answers
3k views

Goto in Haskell: Can anyone explain this seemingly insane effect of continuation monad usage?

From this thread (Control.Monad.Cont fun, 2005), Tomasz Zielonka introduced a function (commented in a clear and nice manner by Thomas Jäger). Tomasz takes the argument (a function) of a callCC body ...
2
votes
1answer
631 views

Haskell: problems fully defining factorial in Continuation Passing Style

I've been trying to understad Functional Programming, Haskell and Continuation Passing Style in one big blob and my structured/OOP background is giving me a hard time. According to this I understand ...
9
votes
3answers
808 views

CPS in curried languages

How does CPS in curried languages like lambda calculus or Ocaml even make sense? Technically, all function have one argument. So say we have a CPS version of addition in one such language: cps-add k ...
38
votes
4answers
3k views

Tutorial to disassemble the Haskell Cont monad?

This is how the Cont monad is defined: newtype Cont r a = Cont { runCont :: (a -> r) -> r } instance Monad (Cont r) where return a = Cont ($ a) m >>= k = Cont $ \c -> runCont ...
3
votes
2answers
272 views

Haskell CPS Programming Style Problem

here is a function multiplies the elements in a list using CPS style mlist xx k = aux xx k where aux [] nk = nk 1 aux (0:xs) nk = k 0 aux (x:xs) nk = aux xs $ \v -> mul x v nk what if ...
9
votes
1answer
610 views

Continuation monad “interface”

The state monad "interface" class MonadState s m where get :: m s put :: s -> m () (+ return and bind) allows to construct any possible computation with State monad without using State ...
3
votes
1answer
588 views

Haskell confusion with ContT, callCC, when

Continuing quest to make sense of ContT and friends. Please consider the (absurd but illustrative) code below: v :: IO (Either String [String]) v = return $ Left "Error message" doit :: IO (Either ...
3
votes
3answers
467 views

Simplest example of backwards continuations in Scheme without explicit mutation

I've written a small Scheme interpreter in C#, and realised that the way I had implemented it, it was very easy to add support for proper continuations. So I added them... but want to "prove" that ...