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What is the definition of a "glitch" in the context of Functional Reactive Programming?

I know that in some FRP frameworks "glitches" can occur while in others not. For example RX is not glitch free while ReactFX is glitch free [1].

Could someone give a very simple example demonstrating how and when glitches can occur when using RX and show on the same example how and why the corresponding ReactFX solution is glitch free.

Thanks for reading.

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  • Could you share a bit more context regarding where you read that "RX is not glitch free while ReactFX is glitch free" ?
    – Slugart
    Aug 5, 2014 at 12:55
  • 1
    Resists the urge to edit in <sup>citation needed</sup>
    – user1228
    Aug 5, 2014 at 13:33
  • Citation as requested added.
    – jhegedus
    Aug 5, 2014 at 13:52
  • Can you show a specific example of where is Rx has a glitch? Feb 18, 2016 at 9:20

3 Answers 3

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Definition

My (own) favorite definition:

A glitch is a temporary inconsistency in the observable state.

Definition from Scala.Rx:

In the context of FRP, a glitch is a temporary inconsistency in the dataflow graph. Due to the fact that updates do not happen instantaneously, but instead take time to compute, the values within an FRP system may be transiently out of sync during the update process. Furthermore, depending on the nature of the FRP system, it is possible to have nodes be updated more than once in a propagation.

Example

Consider integer variables a, b. Define sum and prod such that
sum := a + b,
prod := a * b.

Let's rewrite this example to JavaFX:

IntegerProperty a = new SimpleIntegerProperty();
IntegerProperty b = new SimpleIntegerProperty();
NumberBinding sum = a.add(b);
NumberBinding prod = a.multiply(b);

Now let's write a little consistency check:

InvalidationListener consistencyCheck = obs -> {
    assert sum.intValue() == a.get() + b.get();
    assert prod.intValue() == a.get() * b.get();
};

sum.addListener(consistencyCheck);
prod.addListener(consistencyCheck);

a.set(1);
b.set(2);

This code fails with an assertion error on the last line, because:

  • b is updated (to 2)
    • sum is updated (to 3)
      • `consistencyCheck` is triggered, `a == 1`, `b == 2`, but `prod == 0`, because `prod` has not been updated yet

This is a glitch — prod is temporarily inconsistent with a and b.

Glitch Elimination Using ReactFX

First note that ReactFX is not "glitch free" out of the box, but it gives you tools to eliminate glitches. Unless you take some conscious effort to use them, ReactFX is not more glitch-free than RX (e.g. rxJava).

The techniques to eliminate glitches in ReactFX rely on the fact that event propagation is synchronous. On the other hand, event propagation in RX is always asynchronous, thus these techniques cannot be implemented in an RX system.

In the example above, we want to defer listener notifications until both sum and prod have been updated. This is how to achieve this with ReactFX:

import org.reactfx.Guardian;
import org.reactfx.inhibeans.binding.Binding;

IntegerProperty a = new SimpleIntegerProperty();
IntegerProperty b = new SimpleIntegerProperty();
Binding<Number> sum = Binding.wrap(a.add(b)); // Binding imported from ReactFX
Binding<Number> prod = Binding.wrap(a.multiply(b)); // Binding imported from ReactFX

InvalidationListener consistencyCheck = obs -> {
    assert sum.getValue().intValue() == a.get() + b.get();
    assert prod.getValue().intValue() == a.get() * b.get();
};

sum.addListener(consistencyCheck);
prod.addListener(consistencyCheck);

// defer sum and prod listeners until the end of the block
Guardian.combine(sum, prod).guardWhile(() -> {
    a.set(1);
    b.set(2);
});
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  • 1
    Tomas, what do you mean by saying that event propagation in RX is always asynchronous ? As far as I know RX by default is single threaded, so how can it be always asynchronous? Could you please also give a specific example in RX (using a single thread ) where a glitch occurs? Am I mixing up the concepts of single threadedness and synchronicity? As far as I understand they are equivalent. Or not?
    – jhegedus
    Jan 24, 2015 at 18:42
  • You mean by synchronicity atomicity? In other words, transactions?
    – jhegedus
    Jan 24, 2015 at 18:45
  • Even though events in RX may sometimes be propagated synchronously, Subscribers should never assume that and always treat events as asynchronous. I heard this from multiple sources, but I cannot find a citation right now. Jan 25, 2015 at 0:17
  • Single-threadedness is not a synonym for synchronicity. For example, if you call Platform.runLater(runnable) in JavaFX from the JavaFX thread, the runnable will be invoked on the same thread, but asynchronously (after the current event handler finishes). Jan 25, 2015 at 0:20
  • The consequence of asynchronicity is that by the time you receive an event, that event may not reflect the current state of the event's producer anymore (the producer may have changed state in the meantime). So there is inconsistency. In fact, there is eventual consistency. While eventual consistency is the only sane consistency requirement in a distributed setting, In an inherently single-threaded setting such as UI programming, we can get full consistency. I think this is what you mean by atomicity. Jan 25, 2015 at 0:30
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Short answer : glitch = inonconsistent/illegal/meaningless state.

Here is a relevant link : https://social.msdn.microsoft.com/Forums/en-US/bc2c4b71-c97b-428e-ad71-324055a3cd03/another-discussion-on-glitches-and-rx?forum=rx

Also, see the 29th minute of Sodium's author talk for another answer : http://youtu.be/gaG3tIb3Lbk.

And a relevant SOF answer : how to avoid glitches in Rx

So here is my understanding of what a glitch is based on Tomas' answer.

There is a dataflow graph, with 3 nodes : A, B, C

A->B

A->C

In this simple example, a glitch happens if I change A and that causes to change B but C has not been updated yet. This is a glitch.

C is not consistent with B.

Say B=2*A, C=2*A.

Then if B is not equal C then that is a glitch.

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  • While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes.
    – oɔɯǝɹ
    Jan 27, 2015 at 14:29
  • Link is better than nothing. Right?
    – jhegedus
    Jan 27, 2015 at 14:36
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    Not really. That's why link-only answer tend to get moderated away (there is a special category for link-only answers, as you may know). Good to see that you included some details in your answer though!
    – oɔɯǝɹ
    Jan 27, 2015 at 14:39
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    According to the definition given in my answer, this is a glitch if someone is able to observe the intermediate inconsistent state. Jan 27, 2015 at 16:20
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    Excellent! I think I finally start to get it. Thanks for the patience!
    – jhegedus
    Jan 27, 2015 at 19:00
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Here is an extremely short and theoretical example of a fatal "glitch" situation in C# RX

var t = Observable
        .Interval(TimeSpan.FromSeconds(1))
        .Publish()
        .RefCount();

var s = t.CombineLatest(t, (t1,t2) => 1/(1-(t1-t2));

Since t1 and t2 both represent the latest value of the hot observable t, one would assume t1-t2 to always be 0. So s should always be 1.

But when subscribing to s, we indeed get 1 as the first observed value, but then we get a division by zero exception. In RxJS we would get NaN.

The reason is simple: a.CombineLatest(b, f) will react when either a or b produces a value, combining this new value and the last observed value of the other observable. This is by design, but from my experience, people using RX sometimes consider these to be glitches, especially when coming from other FRP libraries that have a different notion of "latest".

This is of course a contrived example, just meant to illustrate a misconception about CombineLatest.

Maybe CombineLatest should have been called WhenAny as in the ReactiveUI library, this would clarify the operational semantics?

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  • This isn't a glitch. This is exactly how the CombineLatest operator is meant to work. Feb 18, 2016 at 9:21
  • Got it. Could you give me an example of glitch in RX then?
    – Ziriax
    Feb 18, 2016 at 11:54
  • This is the closest that I've seen to one - stackoverflow.com/questions/35417909/…. Otherwise I've found it to be a pretty stable library. Feb 18, 2016 at 23:47
  • Thanks! But that sounds more like a bug than a glitch? Because it is very deterministic, that code always does the same thing, albeit wrong. But maybe a glitch is indeed a bug. I do not know, I always believed glitches were deterministic but undesired intermediate results. Maybe glitches will only truly exist when we get quantum computing? :-)
    – Ziriax
    Feb 19, 2016 at 8:10
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    This the exact definition of a "glitch" in reactive programming, which is a specific technical term. See en.wikipedia.org/wiki/Reactive_programming#Glitches Sep 25, 2017 at 13:48

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