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Both futures and promises block until they have calculated their values, so what is the difference between them?

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I'm not sure why the -1 on the question, or are questions where you don't know the answer before asking now bad things? –  JUST MY correct OPINION Jan 7 '11 at 8:12
    
I did not -1 any of the answers?? How can we tell who has put -1 on a quesiton or answer? –  Zubair Jan 7 '11 at 9:55
    
You and I can't, Zubair. I'm just curious who put a -1 on your question given that it's a perfectly reasonable question to ask and it's definitely on-topic for SO. –  JUST MY correct OPINION Jan 7 '11 at 11:14

4 Answers 4

up vote 32 down vote accepted

Answering in Clojure terms, here are some examples from Sean Devlin's screencast:

(def a-promise (promise))
(deliver a-promise :fred)

(def f (future (some-sexp)))
(deref f)

Note that in the promise you are explicitly delivering a value that you select in a later computation (:fred in this case). The future, on the other hand, is being consumed in the same place that it was created. The some-expr is presumably launched behind the scenes and calculated in tandem (eventually), but if it remains unevaluated by the time it is accessed the thread blocks until it is available.


edited to add

To help further distinguish between a promise and a future, note the following:

promise

  1. You create a promise. That promise object can now be passed to any thread.
  2. You continue with calculations. These can be very complicated calculations involving side-effects, downloading data, user input, database access, other promises -- whatever you like. The code will look very much like your mainline code in any program.
  3. When you're finished, you can deliver the results to that promise object.
  4. Any item that tries to deref your promise before you're finished with your calculation will block until you're done. Once you're done and you've delivered the promise, the promise won't block any longer.

future

  1. You create your future. Part of your future is an expression for calculation.
  2. The future may or may not execute concurrently. It could be assigned a thread, possibly from a pool. It could just wait and do nothing. From your perspective you cannot tell.
  3. At some point you (or another thread) derefs the future. If the calculation has already completed, you get the results of it. If it has not already completed, you block until it has. (Presumably if it hasn't started yet, derefing it means that it starts to execute, but this, too, is not guaranteed.)

While you could make the expression in the future as complicated as the code that follows the creation of a promise, it's doubtful that's desirable. This means that futures are really more suited to quick, background-able calculations while promises are really more suited to large, complicated execution paths. Too, promises seem, in terms of calculations available, a little more flexible and oriented toward the promise creator doing the work and another thread reaping the harvest. Futures are more oriented toward automatically starting a thread (without the ugly and error-prone overhead) and going on with other things until you -- the originating thread -- need the results.

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But you can have any caluclation block until either a promise OR a future is finished . ie: (@a + @b) will work the same with both a future and a promise –  Zubair Jan 7 '11 at 11:34
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A promise allows for more flexibility it looks like to me. I create a promise. I pass that promise to another thread. I can then do lots of complicated calculations including waiting for I/O, downloading data from the Internet, waiting for user input, etc. When it's all done, I deliver the promise with the resulting value. A future covers one S-expression. It could, I guess, be a very, very complicated S-expression, but it would be a bit ... rigid there. In addition a future does its work automatically in a thread (or pool). To do the same in a promise would mean even more work. –  JUST MY correct OPINION Jan 7 '11 at 12:21
    
FWIW since a single s-expression can be a call to an arbitrary code path, it's not necessarily about how much code you can cram into the expression. So instead of saying a promise is "more flexible", I'd say it's purpose is simply different. Otherwise, why have both? –  Geoff Dec 12 '12 at 23:20
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Just for the record, the body of a future call can include N sexprs. –  vemv Dec 29 '12 at 23:14
    
blocking happens on the main thread ? –  Amogh Talpallikar Sep 4 '13 at 8:32

Both Future and Promise are mechanisms to communicate result of asynchronous computation from Producer to Consumer(s).

In case of Future the computation is defined at the time of Future creation and async execution begins "ASAP". It also "knows" how to spawn an asynchronous computation.

In case of Promise the computation, its start time and [possible] asynchronous invocation are decoupled from the delivery mechanism. When computation result is available Producer must call deliver explicitly, which also means that Producer controls when result becomes available.

For Promises Clojure makes a design mistake by using the same object (result of promise call) to both produce (deliver) and consume (deref) the result of computation. These are two very distinct capabilities and should be treated as such.

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About your last paragraph: Why is that a mistake? Why is it better to have two objects? –  oskarkv Dec 15 '12 at 7:43
    
@oskarkv Suppose you've created a promise and gave it to 3 clients. Nothing prevents one of the clients from resolving it with bogus result and signaling it to two other clients. Plus you will not be able to resolve this promise anymore. In contrast, if you had a promise + resolver pair, gave promise to your clients and kept resolver for yourself this scenario becomes impossible. For more info suggested search terms are "capability based access control" and "capability based security". –  dimagog Dec 16 '12 at 8:31
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I'm not sure whether coupling security to a such a simple reference type (check out its impl) as promise is would be convenient. 'Evil' consumers are rare; nothing stops you from building your own abstraction on top of promises. –  vemv Dec 29 '12 at 23:07
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It's not about security, it just so happens that capability-based programming is often described in relation to security. In here it's all about code correctness. The term often used is "correct by construction" and the question is "can you construct an incorrect program"? Not on purpose, but by accident. With single Promise object you can, while with two separate objects you cannot. –  dimagog Dec 30 '12 at 4:24
    
There's nothing stopping you from returning a promise that can't be delivered though, if that's what you want: (defn undeliverable-promise [] (let [p (promise)] (reify clojure.lang.IDeref (deref [_] (deref p)) clojure.lang.IBlockingDeref (deref [_ ms val] (deref p ms val)) clojure.lang.IPending (isRealized [_] (.isRealized p)) clojure.lang.IFn (invoke [_ _] nil)))) –  tapichu Apr 20 at 16:34

There are already excellent answers so only adding the "how to use" summary:

Both

Creating promise or future returns a reference immediately. This reference blocks on @/deref until result of computation is provided by other thread.

Future

When creating future you provide a synchronous job to be done. It's executed in a thread from the dedicated unbounded pool.

Promise

You give no arguments when creating promise. The reference should be passed to other 'user' thread that will deliver the result.

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Firstly, a Promise is a Future. I think you want to know the difference between a Promise and a FutureTask.

A Future represents a value that is not currently known but will be known in the future.

A FutureTask represents the result of a computation that will happen in future (maybe in some thread pool). When you try to access the result, if the computation has not happened yet, it blocks. Otherwise the result is returned immediately. There is no other party involved in the computing the result as the computation is specified by you in advance.

A Promise represents a result that will be delivered by the promiser to the promisee in future. In this case you are the promisee and the promiser is that one who gave you the Promise object. Similar to the FutureTask, if you try to access the result before the Promise has been fulfilled, it gets blocked till the promiser fulfills the Promise. Once the Promise is fulfilled, you get the same value always and immediately. Unlike a FutureTask, there is an another party involved here, one which made the Promise. That another party is responsible for doing the computation and fulfilling the Promise.

In that sense, a FutureTask is a Promise you made to yourself.

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Are you Sure A Promise is a Future? i cant find that it implements the interface. github.com/richhickey/clojure/blob/… –  Mikael Sundberg Jan 7 '11 at 8:10
    
@MikaelSundberg: why not? –  Abhinav Sarkar Jan 7 '11 at 8:12
    
sorry, i misspressed enter. My question is changed –  Mikael Sundberg Jan 7 '11 at 8:12
    
My answer is in a general sense, not in Clojure specific one. –  Abhinav Sarkar Jan 7 '11 at 8:43
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Answering a question about Clojure with Java code seems a bit whimsical. –  JUST MY correct OPINION Jan 7 '11 at 9:13

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