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I'm trying to use Combine to do several millions concurrent request through the network. Here is a mock up of the naive approach I'n using:

import Foundation
import Combine

let cancellable = (0..<1_000_000).publisher
  .map(some_preprocessing)
  .flatMap(maxPublishers: .max(32)) { request in
    URLSession.dataTaskPublisher(for: request)
      .map(\.data)
      .catch { _ in
        return Just(Data())
      }
  }
  .sink { completion in
    print(completion)
  } receiveValue: { value in
    print(value)
  }

// Required in a command line tool
sleep(100)

This pipeline first creates a request, the the request is done in flatMap to confine errors. Also, flatMap merges several requests to they are effectively done concurrently, which is great.

The issue is that it will literally make 1,000,000 requests concurrently, so I added the parameter maxPublishers which limits the number of publishers that are subscribed at the same time in flatMap. This kind of work, only 32 publishers are active at the same time, but unfortunately some_preprocessing will still be performed 1,000,000 times before flatMap will be executed.

I expected flatMap(maxPublishers: .max(32)) to apply some back pressure, i.e. only requesting items from the upstream publisher map when maxPublishers < 32. This does not seem to be the case, and it fills up the RAM rapidly and delays the processing.

I then tried to use the buffer operator that is used to introduce back pressure between a producer and a consumer, but Apple documentation is so poor I don't understand its functioning (more specifically the prefechStrategy argument).

So I tried different combinations such as:

import Foundation
import Combine

let cancellable = (0..<1_000_000).publisher
  .map(some_preprocessing)
  .buffer(size: 32, prefetch: .byRequest, whenFull: .dropNewest)
  .flatMap(maxPublishers: .max(32)) { request in
    URLSession.dataTaskPublisher(for: request)
      .map(\.data)
      .catch { _ in
        return Just(Data())
      }
  }
  .sink { completion in
    print(completion)
  } receiveValue: { value in
    print(value)
  }

// Required in a command line tool
sleep(100)

This does not seem to do anything useful though, flatMap still requests as much element as it can.

How to properly apply back pressure in this case? I.e I need the upstream map publisher to "wait" for demand asked by the downstream publisher flatMap, which should only ask items when it as an empty slot.

5
  • 1
    Take a look at my answer at stackoverflow.com/questions/66982854/…. Note that your use of a sequence publisher plus map is flawed because, as you have rightly observed, it fails to communicate the backpressure; basically sequence is sort of a toy in this regard. But if you use a more realistic publisher you'll get better results (I think). See stackoverflow.com/questions/61143246/… for a workaround
    – matt
    Oct 3, 2021 at 12:18
  • Thank you this solves my issue! This map thing really looks like a bug to me.
    – Louis Lac
    Oct 3, 2021 at 14:04
  • You solved it? How cool is that? :) Even though you're pulling the information from existing answers, I think it would be best for you to provide an actual answer to your own question, as that would probably be most helpful to future readers.
    – matt
    Oct 3, 2021 at 14:07
  • 1
    Also I forgot to mention: if you're trying to understand buffer you might find my explanation useful: apeth.com/UnderstandingCombine/operators/operatorsTimers/…
    – matt
    Oct 3, 2021 at 14:09
  • You are right, I'm gonna put the answer there also! This solved the infinite demand issue, though I have another memory issue not related to Combine now (catched errors appear to leak NSURL).
    – Louis Lac
    Oct 3, 2021 at 14:10

1 Answer 1

1

The issue appears to be a Combine bug, as pointed out here. Using Publishers.Sequence causes the following operator to accumulate every value sent downstream before proceeding.

A workaround is to type-erase the sequence publisher:

import Foundation
import Combine

let cancellable = (0..<1_000_000).publisher
  .eraseToAnyPublisher()  // <----
  .map(some_preprocessing)
  .flatMap(maxPublishers: .max(32)) { request in
    URLSession.dataTaskPublisher(for: request)
      .map(\.data)
      .catch { _ in
        return Just(Data())
      }
  }
  .sink { completion in
    print(completion)
  } receiveValue: { value in
    print(value)
  }

// Required in a command line tool without running loop
sleep(.max)

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