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I'm working on some code that interacts with a remote API via websockets. My data layer is responsible for establishing and monitoring the websocket connection. It also contains methods that can be used by the application to enqueue websocket messages to be sent. The application code should not be responsible for inspecting the state of the websocket connection, aka fire-and-forget.

Ideally, I'd like to data layer to function as follows:

  • When the data layer does not have a connection to the websocket endpoint (self.isConnected == NO), messages are buffered internally.
  • When a connection is becomes available (self.isConnected == YES), buffered messages are immediately sent, and any subsequent messages are sent immediately.

Here's what I've been able to come up with:

#import "RACSignal+Buffering.h"

@implementation RACSignal (Buffering)

- (RACSignal*)bufferWithSignal:(RACSignal*)shouldBuffer
    return [RACSignal createSignal:^RACDisposable *(id<RACSubscriber> subscriber) {

        RACCompoundDisposable *disposable = [RACCompoundDisposable compoundDisposable];

        NSMutableArray* bufferedValues = [[NSMutableArray alloc] init];
        __block BOOL buffering = NO;

        void (^bufferHandler)() = ^{
            if (!buffering)
                for (id val in bufferedValues)
                    [subscriber sendNext:val];

                [bufferedValues removeAllObjects];

        RACDisposable* bufferDisposable = [shouldBuffer subscribeNext:^(NSNumber* shouldBuffer) {

            buffering = shouldBuffer.boolValue;


        if (bufferDisposable)
            [disposable addDisposable:bufferDisposable];

        RACDisposable* valueDisposable = [self subscribeNext:^(id x) {

            [bufferedValues addObject:x];

        } error:^(NSError *error) {
            [subscriber sendError:error];
        } completed:^{
            [subscriber sendCompleted];

        if (valueDisposable)
            [disposable addDisposable:valueDisposable];

        return disposable;


Lastly, this is pseudo-code for how it would be used:

@interface APIManager ()

@property (nonatomic) RACSubject* requests;


@implementation WebsocketDataLayer

- (id)init
    self = [super init];

    if (self) {

        RACSignal* connectedSignal = RACObserve(self, connected);

        self.requests = [[RACSubject alloc] init];

        RACSignal* bufferedApiRequests = [self.requests bufferWithSignal:connectedSignal];

        [self rac_liftSelector:@selector(sendRequest:) withSignalsFromArray:@[bufferedApiRequests]];
    return self;

- (void)enqueueRequest:(NSString*)request
    [self.requests sendNext:request];

- (void)sendRequest:(NSString*)request
    DebugLog(@"Making websocket request: %@", request);


My question is: Is this the right approach for buffering values? Is there a more idiomatic RAC way of handling this?

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2 Answers 2

up vote 10 down vote accepted

Buffering can be thought of as something that applies to individual requests, which leads to a natural implementation using -flattenMap: and RACObserve:

RACSignal *bufferedRequests = [self.requests flattenMap:^(NSString *request) {

    // Waits for self.connected to be YES, or checks that it already is,
    // then forwards the request.
    return [[[[RACObserve(self, connected)
        // Replace the property value with our request.

If ordering is important, you can replace -flattenMap: with -map: plus -concat. These implementations avoid the need for any custom operators, and work without manual subscriptions (which are notoriously messy).

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The map + concat option will be something like this if I'm not mistaken: github.com/ReactiveCocoa/ReactiveCocoa/blob/… –  allprog Oct 24 '13 at 5:57
Excellent answer. Just for curiosity: isn't this a little too wasteful for higher throughput buffering? Can this be the reason why bufferWithTime: was not implemented in terms of this approach? –  allprog Oct 24 '13 at 6:10
@allprog It might be a little slower than an implementation like -bufferWithTime:, but it shouldn't be noticeable. It could be optimized by pulling the RACObserve out and using -replayLast upon it. Note also that -bufferWithTime: guarantees to send the entire buffer once the period is up (introducing additional complexity, especially around completion), whereas that's not really important here. –  Justin Spahr-Summers Oct 24 '13 at 6:32
Very cool! I had a feeling there must be a way a "native" RAC way of handling this. At first glance, this felt wasteful because of the repeated creation of the self.connected RACSignal. However, I guess the RACDisposable semantics of take: handle the cleanup? –  Matt Hupman Oct 24 '13 at 14:08
@MattHupman I'd start off by not worrying about it. If you do begin to notice a performance issue, though, you can do as I mentioned above: move the RACObserve out of the block, and call -replayLast on it. This will ensure that the KVO observation only happens once, and subscribers will share all of the values from that one. –  Justin Spahr-Summers Oct 24 '13 at 19:04

You do almost exactly the same as what is implemented in the bufferWithTime: operation and I can't think of any existing operations that would implement it more idiomatically. (Probably this is the reason why bufferWithTime was implemented in this way.) Reviewing your code using that implementation may reveal some faults you didn't think of.

But to be honest, this should not be so hard. There should exist a buffering operation that buffers the output and spews the contents when the trigger signal fires. Probably most buffering can be implemented in terms of this functionality, so having it would add value to the framework.

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