Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have an async WCF service that takes a "URI" and returns an image (as a Stream).

Want I want to do is:

  • Ensure a valid WCF channel exists, if no create it
  • Make the async service call
  • On success save the image to a member variable
  • If I get an exception, close the channel
  • Whether it fails or succeeds, wait 200ms then start again (looping forever or until cancelled)

So far I have come up with this monstrosity:

    private void PollImage(string imageUri)
    {
        const int pollingHertz = 1;
        const int millisecondsTimeout = 1000 / pollingHertz;
        Thread.Sleep(millisecondsTimeout);

        if (_channel == null)
        {
            _channel = _channelFactory.CreateChannel();
        }

        var getImageFunc = Observable.FromAsyncPattern<string, Stream>
                                  (_channel.BeginGetImage, _channel.EndGetImage);

        getImageFunc(imageUri)
            .Finally(() => PollImage(imageUri))
            .Subscribe(
                stream => UpdateImageStream(imageUri, stream),
                ex =>
                    {
                        Trace.TraceError(ex.ToString());
                        ((ICommunicationObject) _channel).CloseOrAbort();
                        _channel = null;
                    });
    }

I really want to learn Rx but each time I try I get left scratching my head.

Anyone care to give me some pointers on this? Thanks

share|improve this question
    
What is the question? –  svick Sep 26 '11 at 14:00
    
How to use Rx to elegantly solve the bullet points –  Schneider Sep 26 '11 at 14:10

3 Answers 3

I have a solution for you, but I'm going to suggest a change to your PollImage method to make it more Rx-like.

The signature should look like this:

IObservable<Image> PollImage(string imageUri, TimeSpan gapInterval)

You should consider PollImage to be an observable factory, and it won't actually poll for images until you subscribe to the returned observable. The advantage with this approach is that it makes unsubscribing possible - your last bullet point requires this - and it cleanly separates the code that polls for images and the code that updates the local variables.

So, the call to PollImage then looks like this:

PollImage(imageUri, TimeSpan.FromMilliseconds(200.0))
    .Subscribe(image =>
    {
        /* do save/update images here */
    });

And the implementation looks like this:

private IObservable<Image> PollImage(string imageUri, TimeSpan gapInterval)
{
    Func<Stream, Image> getImageFromStream = st =>
    {
        /* read image from stream here */
    };

    return Observable.Create<Image>(o =>
    {
        if (_channel == null)
        {
            _channel = _channelFactory.CreateChannel();
        }

        var getImageFunc =
            Observable
                .FromAsyncPattern<string, Stream>(
                    _channel.BeginGetImage,
                    _channel.EndGetImage);

        var query =
            from ts in Observable.Timer(gapInterval)
            from stream in getImageFunc(imageUri)
            from img in Observable.Using(
                () => stream,
                st => Observable.Start(
                    () => getImageFromStream(st)))
            select img;

        return query.Do(img => { }, ex =>
        {
            Trace.TraceError(ex.ToString());
            ((ICommunicationObject)_channel).CloseOrAbort();
            _channel = null;
        }).Repeat().Retry().Subscribe(o);                   
    });
}

The query observable waits until the gapInterval is complete and then calls the WCF function to return the stream and then converts the stream to an image.

The inner return statement does a number of things.

First it uses a Do operator to capture any exceptions that occur and does your tracing and channel reset as before.

Next it calls .Repeat() to cause query to be re-run effectively making it wait gapInterval before calling the webservice again. I could have used Observable.Interval rather than Observable.Timer in query and drop the call to .Repeat(), but this would have meant the calls to the webservice start every gapInterval rather than wait that long after it completed last time.

Next it calls .Retry() which effectively restarts the observable if it encounters an exception so that the subscriber never sees the exception. The Do operator captures the errors so this is OK.

Finally it subscribes the observer and returns the IDisposable allowing the calling code to unsubscribe.

Other than implementing the getImageFromStream function, that's about it.

Now a word of caution. A lot of people misunderstand how subscribing to observables works and this can lead to hard to discover bugs.

Take this as an example:

var xs = Observable.Interval(TimeSpan.FromSeconds(1.0));

var s1 = xs.Subscribe(x => { });
var s2 = xs.Subscribe(x => { });

Both s1 & s2 subscribe to xs, but rather than share a single timer they each create a timer. You have two instances of the internal workings of Observable.Interval created, not one.

Now this is the correct behaviour for observables. In the event that one fails then the other won't because they don't share any internals - they are isolated from each other.

However, in your code (and mine for that matter) you have a potential threading issue because you share _channel across multiple calls to PollImage. If one call fails it resets the channel and this can cause concurrent calls to then fail as a result.

My suggestion is that you create a new channel for each call to prevent concurrency issues.

I hope this helps.

share|improve this answer
    
Nice answer & thanks. I like your use of query expressions. I have got rid of the shared channel now as well. I will post my latest attempt shortly. –  Schneider Sep 27 '11 at 2:37

This is what I came up with (with some help!)... still not "perfect" but seems to work.

As @Enigma said I've got rid of the shared _channel now and replaced it with a captured local var. It works but I don't understand Rx enuf to know if this is poor/buggy approach. I suspect there is a cleaner way at least.

Other than that, my main objection is the Do() where I call EnsureChannel... seems a bit smelly. But... it works...

Oh and I must have the _ (underscore) in the SelectMany or else the GetImage is not called again.

    private IDisposable PollImage(string imageUri)
    {
        ICameraServiceAsync channel = _channelFactory.CreateChannel();
        return Observable
            .Timer(TimeSpan.FromSeconds(0.2))
            .Do(_ => { channel = EnsureChannel(channel); })
            .SelectMany(_ =>
                Observable
                .FromAsyncPattern<string, Stream>(channel.BeginGetImage, channel.EndGetImage)(imageUri))
            .Retry()
            .Repeat()
            .Subscribe(stream => UpdateImageStream(imageUri, stream));
    }

    private ICameraServiceAsync EnsureChannel(ICameraServiceAsync channel)
    {
        var icc = channel as ICommunicationObject;
        if (icc != null)
        {
            var communicationState = icc.State; // Copy local for debug inspection
            if (communicationState == CommunicationState.Faulted)
            {
                icc.CloseOrAbort();
                channel = null;
            }
        }
        return channel ?? _channelFactory.CreateChannel();
    }
share|improve this answer
2  
What you've done is fairly OK - the Do for ensuring the channel is good. however, you are not disposing of your streams. You'd see in my solution I had the Observable.Using method call that did that. Also you're not handling exceptions now. And the only thing that is a smell now is that you're creating the observable and subscribing to it in the one function - doing that isn't composible - you can't intercept the stream of images and you have created code which is difficult to test because of the strong coupling. –  Enigmativity Sep 27 '11 at 4:45
    
Good feedback. I've made it composable now. I am disposing of the stream elsewhere (another thread) so I cant dispose of it here I think. What do you think of capturing local channel variable? Is there a better Rx way to do it? I tried Start() then pass it in the pipeline but had some problems. –  Schneider Sep 27 '11 at 5:12
1  
Make sure you use Observable.Create rather than going straight into Observable.Timer now that you're composible. As for the EnsureChannel method, how about just make it do this: ICameraServiceAsync CreateChannel()? I don't like that you're creating the channel in two places when it can just be in one. –  Enigmativity Sep 27 '11 at 5:37
    
Ah, will all the subscribers currently share the same Timer? May not be bad in my case but something to watch for –  Schneider Sep 27 '11 at 5:42
    
Reason to do EnsureChannel is that sometimes I dont want to create a new one if the existing one is OK. If I remove param, then it cant access the captured local var –  Schneider Sep 27 '11 at 5:44

If you really want to use then people have already answered your question and if you are looking for alternate ways then I would suggest have a look at TPL (Task etc objects) that allows you to create task object from a Async method pattern (your web service call) and then start the task with a cancellation token so that after some time if the task is not completed you can cancel it by calling token cancel method.

share|improve this answer
    
I passed over TPL because it doesnt seem to have such advanced compositional abilities as Rx –  Schneider Sep 27 '11 at 5:13
    
Seems like people to down vote without giving a comment (don't want to share their knowledge probably) :) –  Ankur Sep 27 '11 at 16:46

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.