Reacto

Reactive Programming for Ruby with some concurrency thrown into the mix!

#Table of Contents

How to install?
Why?
Usage
Dependencies
Tested with

How to install?

If you use bundler just add this line to your Gemfile:

gem 'reacto'

Alternatively you can install the gem with gem install reacto or clone this repository and play with it!

Why?

Because it is very cool to be reactive these days! Seriously - to be reactive means that your code is able to react on changes happening in various places right away. For example third party data sources or other parts of the code. It helps writing multi-component apps which could handle failures and still be available.

Of course there are other implementations of reactive programming for ruby:

RxRuby : Very powerful implementation of RX. Handles concurrency and as a whole has more features than Reacto. So why Reacto? Reacto has simpler interface it is native Ruby lib and is easier to use it. The goal of Reacto is to be alternative to RxRuby in the ruby world. Still the author of Reacto is big fan of RX especially RxJava. He even has a book on the topic using RxJava : Learning Reactive Programming with Java 8
Frappuccino : Very cool lib, easy to use and simply beautiful. The only drawback - it is a bit limited : no concurrency and small set of operations. But if you don't need more complicated operations it works. The author of Reacto highly recommends it.

Usage

Simple Trackables

The main entry point to the library is the Reacto::Trackable class. It represents something you can track for notifications. Usually a Reacto::Trackable implemenation is pushing notifications to some notification tracker. It depends on the source. We can have some remote streaming service as a source or an asynchronous HTTP request or some process pushing updates to another.

value

Of course the source can be very simple, for example a single value:

  trackable = Reacto::Trackable.value(5)

This value won't be emitted as notification until there is no tracker (listener) attached to trackable - so this Trackable instance is lazy - won't do anything until necessary.

  trackable.on(value: ->(v) { puts v })

  # => 5

This line attaches a notification tracker to the trackable - a lambda that should be called when trackable emits any value. This example is very simple and the trackable emits only one value - 5 when a tracker is attached to it so the lambda will be called and the value will be printed. Shortcuts for Reacto::Trackable.value(val) are Reacto.value(val) and Reacto[val].

error

If we want to emit only an error notification we can do it with Trackable.error. It works the same way as Trackable.value, but the notification is of type error:

  trackable = Reacto::Trackable.error(StandardError.new('Some error!'))

  trackable.on(error: ->(e) { raise e })

Shorcuts for Reacto::Trackable.error(err) are Reacto.error(err) and Reacto[err]. Notice that Reacto[simple_vlue] is like Reacto.value, but Reacto[some_standart_error] is like calling Reacto.error.

close

There is a way to create a Reacto::Trackable emitting only close notification too:

  trackable = Reacto::Trackable.error(StandardError.new('Some error!'))

  trackable.on(close: ->() { p 'closed' })

Shorcuts are Reacto.close and Reacto[:close].

enumerable

Another example is Trackable with source an Enumerable instance:

  trackable = Reacto::Trackable.enumerable([1, 3, 4])

Again we'll have to call #on on it in order to push its values to a tracker. Shorcuts are Reacto.enumerable(enumerable) and Reacto[enumerable].

interval

A neat way to create Trackable emitting the values of some Enumerable on every second, for example is Reacto::Trackable.interval:

  trackable = described_class.interval(0.3)

This one emits the natural numbers on every 0.3 seconds. The second argument can be an Enumerator - limited or unlimited, for example:

  trackable = described_class.interval(2, ('a'..'z').each)

Emits the letters a to z on every two seconds. We can create a custom enumerator and use it. Note that .interval creates Reacto::Trackable which emits in a special thread, so calling #on on it won't block the current thread. Shortcut is Reacto.interval.

never

It is possible that a Trackable which never emits anything is needed. Some operations behave according to Trackable instances returned, so a way to have such a Reacto::Trackable is:

  trackable = Reacto::Trackable.never

Shortcuts for this one are Reacto.never and Reacto[:never]

Programming Trackable behavior

make

A Reacto::Trackable can have custom behavior, defining what and when should be sent:

  trackable = Reacto::Trackable.make do |tracker|
    tracker.on_value('You say yes')
    tracker.on_value('I say no')

    sleep 1
    tracker.on_value('You say stop and I say go go go, oh no')
    tracker.on_close
  end

When a tracker is attached this behavior will become active and the tracker will receive the first two sentences as values, then, after one second the third one and then a closing notification. Shorcut is Reacto.make.

SharedTrackable

Every time a tracker is attached with call to on, this behavior will be executed for the given tracker. If we want to have a shared behavior for all the trackers we can create a Reacto::SharedTrackable instance:

  require 'socket'

  trackable = Reacto::SharedTrackable.make do |subscriber|
    hostname = 'localhost'
    port = 3555

    return unless subscriber.subscribed?

    socket = nil
    begin
      socket = TCPSocket.open(hostname, port)

      while line = socket.gets
        break unless subscriber.subscribed?

        subscriber.on_value(line)
      end

      subscriber.on_close if subscriber.subscribed?
    rescue StandardError => error
      subscriber.on_error(error) if subscriber.subscribed?
    ensure
      socket.close unless socket.nil?
    end

  end

  trackable.on(value: -> (v) { puts v })
  trackable.on do |v|
    puts v
  end

# The above calls of `on` are identical. And the two will the same data.
# Nothing happens on calling `on` though, the `trackable` has to be activated:

  trackable.activate!

Tracking for notifications

on

The easiest way to listen a Reacto::Trackable is to call #on on it:

  consumer = -> (value) do
    # Consume the incoming value
  end

  trackable.on(value: consumer)

Calling it like that will trigger the behavior of trackable and all the values it emits, will be passed to the consumer. A block can be passed to #on and it will have the same effect:

  trackable.on do |value|
    # Consume the incoming value
  end

If we want to listen for errors we can call #on like that:

  error_consumer = -> (error) do
    # Consume the incoming error
  end

  trackable.on(error: error_consumer)

Only one error can be emitted by a Trackable for subscription and that will close the Reacto::Trackable. If there is no error, the normal closing notification should be emitted. We can fetch it like this:

  to_be_called_on_close = -> () do
    # Finalize?
  end

  trackable.on(close: to_be_called_on_close)

track

Under the hood #on creates a new Reacto::Tracker instance with the right methods. If we want to create our own tracker, we can always call #track on the trackable with the given instance:

  consumer = -> (value) do
    # Consume the incoming value
  end
  error_consumer = -> (error) do
    # Consume the incoming error
  end

  trackable.track(Reacto::Trackable.new(
    value: consumer, error: error_consumer, close: -> () { p 'Closing!' }
  ))

All of these keyword parameters have default values - for example if we don't pass a value: action, a no-action will be used, doing nothing with the value, the same is right about not passing close: action. Be aware that the default error: action is raising the error.

Subscriptions

Calling #on or #track will create and return a Reacto::Subscription. We can unsubscribe form the Trackable with it by calling #unsubscribe:

  subscription = trackable.on(value: consumer)

  subscription.unsubscribe

This way our notification tracker won't receive notification anymore. Checking if a Subscription is subscribed can be done by calling subscribed? on it.

  subscription = trackable.on(value: consumer)

  subscription.subscribed? # true

Subscriptions can be used for other things, adding additional subscriptions to them, adding resources, which should be closed on receiving the close notification and waiting for a Trackable operating on background to finish.

Operations

Operations are methods which can be invoked on a Reacto::Trackable instance, and always return a new Reacto::Trackable instance. The new trackable has emits all or some of the notifications of the source, somewhat changed by the operation. Let's look at an example:

map

The map operation is a transformation, it transforms every value (and not only), emitted by the source using the block given.

  source_trackable = Reacto.enumerable((1..100))

  trackable = source_trackable.map { |value| value - 1 }

  trackable.on(value: -> (val) { puts val })
  # the numbers from 0 to 99 will be printed

The map operation is able to transform errors as well, it can transform the stream of notifications itself and add new notification before the close notification for example.

select

The select operation filters values using a predicate block:

  source_trackable = Reacto.enumerable((1..100))

  trackable = source_trackable.select { |value| value % 5 == 0 }

  trackable.on(value: -> (val) { puts val })
  # the numbers printed will be 5, 10, 15, ... 95, 100

There are more filtering operations - drop, take, first, last, etc. Look at the specs for examples of them.

inject

Using inject is a way to accumulate and emit data based on the current incoming value and the accumulated data from the previous ones. A better way to explain it is an example:

  source_trackable = Reacto.enumerable((1..100))

  trackable = source.inject(0) { |prev, v| prev + v }

  trackable.on(value: -> (val) { puts val })
  # Will print a sequesnce of sums 0+1 then 1+2=3, then 3+4=7, etc, the last
  # value will be the sum of all the source values

Operation similar to inject is diff, which calls a given block for every two emitted in sequence values and the Reacto::Trackable resulting from it, emits this the block's return value. Another one is each_with_object, which calls a given block for each value emitted by the source with an arbitrary object given, and emits the initially given object.

flat_map

This operation takes a block which will be called for every emitted value by the source. The block has to return a Reacto::Trackable instance for every value. So if the source emits 10 values, ten Trackable instances will be created, all of which will emit values. All these values are flattened and emitted by the Reacto::Trackable created by calling flat_map.

  source = Reacto.enumerable([(-10..-1), [0], (1..10)])
  trackable = source.flat_map { |v| Reacto[v] }

  trackable.on(value: -> (val) { puts val })
  # Will print all the numbers from -10 to 10

It is a very powerful operation, which allows us to create Reacto::Trackable instances from incoming data and write logic using operations on them.

... and even more operations

Reacto is in continuous development more and more operations are being added to it and there are even more to come. So soon there will be a documentation page for all of the available operations, which will be updated when new ones are added, or existing ones are modified. Keep in mind that Reacto::Trackable mirrors Enumerable, it even includes it in itself. This means that for every method in Enumerable, there is a corresponding operation or method in Reacto::Trackable.

TODO

Interacting Trackables

Trackables can interact with one another, for example one Reacto::Trackable instance can be merged with another to produce a new one - emitting the notifications of the two sources.

merge

This is done by calling merge on one of the Trackables and passing to it the other. merge is an operation - it produces a new Reacto::Trackable instance:

  trackable = Reacto.interval(2).map { |v| v.to_s + 'a'}.take(5)
  to_be_merged = Reacto.interval(3.5).map { |v| v.to_s + 'b'}.take(4)

  subscription = trackable.merge(to_be_merged).on(value: -> (val) { puts val })
  trackable.await(subscription)

  # Something like '0a', '0b', '1a', '2a', '1b', '3a', '4a', '2b', '3b' will
  # be printed

As mentioned before, interval is executed in the background by default, so adding trackers to either of the sources won't block the current thread. This means that the Reacto::Trackable created by merge will emit the source notifications in the order they are coming and that doesn't depend on which source they are coming from. We call #await to it passing the subscription because we don't want the current thread to terminate, we want it to wait for the threads of the two sources to finish. More on that later.

zip

Zip combines the notifications emitted by multiple Reacto::Trackable instances into one, using a combinator function. The first notifications of all the trackables are combined, then the second notifications and when one of the sources emits close/error notification, the one produced by zip emits it and closes.

  source1 = Reacto.interval(3).drop(1).take(4)
  source2 = Reacto.interval(7, ('a'..'b').each)
  source3 = Reacto.interval(5, ('A'..'C').each)

  trackable = Reacto::Trackable.zip(source1, source2, source3) do |v1, v2, v3|
    "#{v1} : #{v2} : #{v3}"
  end

  subscription = trackable.on(
    value: -> (val) { puts val }, close: -> () { puts 'Bye!' }
  )
  trackable.await(subscription)

  # '1 : a : A' and '2 : b : B' will be printed, then 'Bye!', because the second
  # source will emit the close notification after emitting 'b'.

Here the first source - source1 is emitting the numbers from 0 to infinity on every 3 seconds, we want to drop the 0 and start by emitting 1, so we drop the first emitted value with drop(1), then we don't want to emit to infinity, so we take(4) - only the first 4 numbers, so 1, 2, 3 and 4 . This is an example of how to use the positional filtering operations. A shortcut for this one is Reacto.zip.

combine

There is the combine operation which behaves in a fashion similar to zip but combines the last emitted values with its combinator function on every new value incoming from any source and closes when all of the sources have closed.

  source1 = Reacto.interval(3).take(4)
  source2 = Reacto.interval(7, ('a'..'b').each)
  source3 = Reacto.interval(5, ('A'..'C').each)

  trackable = Reacto::Trackable.combine(source1, source2, source3) do |v1, v2, v3|
    "#{v1} : #{v2} : #{v3}"
  end

  subscription = trackable.on(
    value: -> (val) { puts val }, close: -> () { puts 'Bye!' }
  )
  trackable.await(subscription)

  # '1 : a : A', '2 : a : A', '2 : a : B', '3 : a : B', '3 : b : B',
  # '3 : b : C' and then 'Bye!' will be printed.

All of these values will be emitted on the right intervals. For example '1 : a : A' will be emitted 7 seconds after the subscription, because a takes the most time and the first notification of the combined trackable have to include data from all of the sources. Then the second - '2 : a : A' will be emitted the 9th second from the start, because 2 is emitted on the 9th second, etc. In the beginning the 0 emitted by the first source is silently skipped. Shortcut for this one is Reacto.combine; Reacto::Trackable.combine_latest is an alias.

concat

Concatenating one Reacto::Trackable to another, basically means that the resulting Trackable will emit the values of the first one, then the values of the second one:

  source1 = Reacto.enumerable((1..5))
  source2 = Reacto.enumerable((6..10))

  trackable = source1.concat(source2)

  trackable.on(
    value: -> (val) { puts val }, close: -> () { puts 'Bye!' }
  )

  # The values from 1 to 10 will be printed, then 'Bye!'

Another way to use it would be Reacto::Trackable.concat(trackable1, trackable2, ... , trackableN) with shortcut Reacto.concat.

depend_on

One Reacto::Trackable's notifications can depend on another's accumulated notifications. The depend_on operation, expects a Trackable and a block, the block is used in the same manner as inject uses its block on this passed Trackable. When the passed Trackable closes, the accumulated data by the block (the last value) is emitted with every notification of the caller:

  dependency = Reacto.enumerable((1..10))
  trackable = Reacto.enumerable([5, 4]).depend_on(dependency, &:+)

  trackable.on(
    value: -> (val) { puts val }, close: -> () { puts 'Bye!' }
  )

  # The emitted notifications will printed:
  # Value notification : notification.value: 5, notification.data: 55
  # Value notification : notification.value: 4, notification.data: 55
  # Close notification : prints 'Bye!'

Without passed block, the first emitted value of the dependency is used as data. If there is an error from the dependency, it is emitted by the caller. The key of the dependency, can be changed from data to something else by passing a key: to the operation.

Concurency

Aside from factory methods like .interval or .later, Reacto::Trackable has two other ways of emitting its notification concurrently to the thread that created it (or some other thread). Every trackable can do that by using the two dedicated operations execute_on and track_on.

execute_on

This operation returns a Reacto::Trackable which operations will be executed on the given executor plus the operations of its source will be executed on that executor as well. Basically this means that the whole logic - the behavior of the first Trackable in the chain of operations and all subsequent operations will be executed on the given executor. By executor, we mean the ones provided by the Reacto::Executors's methods or a custom implementation complying to concurrent-ruby's Concurrent::ExecutorService. These executors menage threads for us, some of them are thread pools, which allows us to reuse unused threads from the pool, others provide always new threads on demand or just a single thread. In the following example the Reacto::Executors.io executor is used (passed as just :io) :

  require 'net/http'
  require 'uri'
  require 'json'

  request_url_behavior = -> (url) do
    -> (subscriber) do
      begin
        response = Net::HTTP.get_response(URI.parse(url))

        if response.code == '200'
          subscriber.on_value(response.body)
          subscriber.on_close
        else
          subscriber.on_error(StandardError.new(response))
        end
      rescue StandardError => e
        subscriber.on_error(e)
      end
    end
  end

  trackable = Reacto.make(
    &request_url_behavior.call('https://api.github.com/repos/meddle0x53/reacto')
  )

  trackable = trackable.map { |response| JSON.parse(response) }

  star_count = trackable.map { |val| val['stargazers_count'] }.map do |val|
    "#{val} star(s) on Reacto's github page!"
  end

  star_count = star_count.execute_on(:io)

  star_count_subscription = star_count.on(
    value: -> (val) { puts val }, close: -> () { puts '---------' }
  )

  star_gazers = trackable.map { |val| val['stargazers_url'] }.flat_map do |url|
    Reacto.make(&request_url_behavior.call(url)).map do |response|
      JSON.parse(response)
    end.flat_map do |array|
      Reacto.enumerable(array).map { |data| data['login'] }
    end
  end

  star_gazers = star_gazers.execute_on(:io)

  star_gazers_subscription = star_gazers.on(
    value: -> (val) { puts val }, close: -> () { puts 'Thank you all!' }
  )

  star_gazers.await(star_gazers_subscription, 60)
  star_count.await(star_count_subscription, 60)

This example is a bit silly because it makes two requests to the same URL, but they are concurrent thanks to execute_on and that's the important thing. The first trackable reads the number of the stars of this repository and its consumer prints them, and the second one requests the stargazers list, using flat_map and prints the names of the star gazers. The two chains are executed concurrently. The IO executor is a cached thread pool, which means that threads are reused if available, otherwise new are created, the thread pool does not have fixed size.

track_on

The difference between execute_on and track_on is that track_on executes on the given executor only the operations positioned after it in the chain.

  trackable = Reacto.enumerable((1..100)).map { |v| v * 10 }.track_on(:tasks)
  trackable = trackable.inject(&:+).last

  subscription = trackable.on(
    value: -> (val) { puts val }, close: -> () { puts 'DONE.' }
  )

  trackable.await(subscription, 10)

Only the sum and last will happen on the tasks executor - a thread pool with fixed number of threads. The map will execute on the current thread.

Executors and factory methods

Executors can be passed to most of the methods which create Reacto::Trackable instances. The methods can receive a keyword argument - executor: and will execute the whole trackable chain on it. The same way if it was passed to execute_on.

 trackable = Reacto.enumerable((1..1000), executor: :new_thread)

All the operations on called on this Trackable and its derivative Trackables will be executed in the new_thread executor. This executor creates a new thread always.

The available executors are:

IO - can be passed as :io or Executors.io - an unlimited cached thread pool.
Tasks - can be passed as :tasks, :background and Executors.tasks - a thread pool with fixed size.
New thread - can be passed as :new_thread ot Executors.new_thread - always creates a new thread.
Current - can be passed as :immediate, :current, :now, Executors.current and Executors.immediate - uses the current thread to execute operations, does not create a new thread at all.

Buffering, delaying and skipping

There are a few special operations related to buffering incoming notifications and emit notifications consisting of the buffered ones.

buffer

It is possible to buffer values using a count and then emit them as one array of values.

  trackable = Reacto.enumerable((1..20)).buffer(count: 5)

  trackable.on(value: -> (val) { p val })

  # Will print [1, 2, 3, 4, 5], then [6, 7, 8, 9, 10], then [11, 12, 13, 14, 15]
  # and in the end [16, 17, 18 , 19, 20]

Buffering helps lowering the number of value notification, when the source is emitting too many of them, too fast.

delay

Notifications can be buffered using a delay too, for example : don't emit anything from the source for 5 seconds, then emit everything received until now and repeat.

  trackable = Reacto.interval(1).take(20).buffer(delay: 5)

  subscription = trackable.on(value: -> (val) { p val })
  trackable.await(subscription)

  # Will print on each 5 seconds something like
  # [0, 1, 2, 3]
  # [4, 5, 6, 7, 8]
  # [9, 10, 11, 12, 13]
  # [14, 15, 16, 17, 18]
  # [19]

Instead of using buffer(delay: 5), we can use the shortcut delay(5). We can buffer by both count and delay using the buffer operation.

throttle

If too many notifications are received too fast, sometimes it is better to skip some of them and emit only the last one. That can be done with throttleb.

  trackable = Reacto.interval(1).take(30).throttle(5)

  values = []
  subscription = trackable.on(value: -> (val) { values << val })
  trackable.await(subscription)

  puts values.size # just 6

Grouping

Incoming notifications can be grouped by some common property they have. The resulting Reacto::Trackable emits special LabeledTrackable instances which are just trackables with additional property - label - the name of the group.

group_by_label

The most basic operation which groups values into sub-trackables is group_by_label or just group_by:

  trackable = Reacto.enumerable((1..10)).group_by_label do |value|
    [(value % 3), value]
  end

  trackable.on do |labeled_trackable|
    p "Label: #{labeled_trackable.label}"
    p "Values: #{labeled_trackable.to_a.join(',')}"
  end

  # This produces:
  # Label: 1
  # Values: 1,4,7,10
  # Label: 2
  # Values: 2,5,8
  # Label: 0
  # Values: 3,6,9

This example prints the label of every Reacto::LabeledTrackable emitted and its values. It uses the #to_a method, which blocks and waits for every value to be received, then produces an array with all the values in the order they were received.

chunk

With chunk we can create LabeledTrackable instances emitting chunks based on the return value of a block called on an emitted value. The difference with group_by is that there can be multiple trackables with the same key.

  source = Reacto.enumerable([3, 1, 4, 1, 5, 9, 2, 6, 5, 3, 5])
  trackable = source.chunk { |val| val.even? }

  trackable.on do |labeled_trackable|
    p "Label: #{labeled_trackable.label}"
    p "Values: #{labeled_trackable.to_a.join(',')}"
  end

  # This produces:
  # Label: false
  # Values: 3,1
  # Label: true
  # Values: 4
  # Label: false
  # Values: 1,5,9
  # Label: true
  # Values: 2,6
  # Label: false
  # Values: 5,3,5

The first chunk consists of 3 and 1 - odd values, then on the first even value - 4 we get another chink, then we've got 3 sequential odd values, so a false chunk of 1, 5 and 9, then one with 2 and 6 with label true, because the values are even. The last chunk is an odd one.

operating only on given group

The map operator is able to operate only on a given group by passing it a label: argument:

  source = Reacto.enumerable((1..10)).group_by_label do |value|
    [(value % 3), value]
  end
  trackable = source.map(label: 0) { |value| value / 3 }

  trackable.on do |labeled_trackable|
    p "Label: #{labeled_trackable.label}"
    p "Values: #{labeled_trackable.to_a.join(',')}"
  end

  # This produces:
  # Label: 1
  # Values: 1,4,7,10
  # Label: 2
  # Values: 2,5,8
  # Label: 0
  # Values: 1,2,3

As we can see only the values emitted by the Trackable with label 0, the ones that can be divided by 3 without remainder are affected by the map operation. The operations select, inject and flat_map have a label: argument too and can be applied only to sub-trackables with the passed label.

flatten_labeled

The Reacto::LabeledTrackable instances emitted by a Trackable after grouping can be turned to simple value notifications by using the flatten_labeled operation. It turns every sub-trackable into an object with two fields label and value. The label is the same as the label of the sub-trackable the object represents, and the value is accumulated with a block passed to flatten_labeled from the notifications emitted by the sub-trackable. It is the same as using inject:

  source = Reacto.enumerable((1..10)).group_by_label do |value|
    [(value % 3), value]
  end
  trackable = source.flatten_labeled { |prev, curr| prev + curr }

  trackable.on { |object| puts "#{object.label} : #{object.value}"}

  # This produces:
  # 1 : 22
  # 2 : 15
  # 0 : 18

Prints the original label and the sums of the values emitted by the original Reacto::LabeledTrackable.

Error handling

Sometimes we want to handle incoming error notification before actually going out of the operation chain and in the error consumer code. This can be achieved with some special operations, designed to work with errors.

retrying

The retry operator will execute the source's behavior when there is an error notification instead of emitting it and closing the Reacto::Trackable.

  source = Reacto.make do |subscriber|
    subscriber.on_value('Test your luck!')
    number = Random.new.rand(1..10)

    if number <= 5
      subscriber.on_error(
        StandardError.new("Bad luck, last number was : #{number}")
      )
    else
      subscriber.on_value("Lucky number #{number}!")
      subscriber.on_close
    end
  end

  trackable = source.retry(5)
  trackable.on(
    value: -> (v) { puts v },
    close: -> () { puts 'Done' },
    error: -> (e) { puts e.message }
  )

This piece of code will retry up to 5 times when the number is 5 or smaller. On the sixth time if we don't have luck the error will be emitted. The default retry count (when a value is not passed) is just 1. There is a retry_when operation, which uses a block to determine if the error should be emitted, or the source should be retried. For example:

  source = Reacto.make do |subscriber|
    subscriber.on_value('Test your luck!')
    number = Random.new.rand(1..10)

    if number <= 5
      subscriber.on_error(
        StandardError.new("Bad luck, last number was : #{number}")
      )
    else
      subscriber.on_value("Lucky number #{number}!")
      subscriber.on_close
    end
  end

  trackable = source.retry_when do |error, retries|
    retries < 5 && !error.message.include?('3')
  end

  trackable.on(
    value: -> (v) { puts v },
    close: -> () { puts 'Done' },
    error: -> (e) { puts e.message }
  )

In this example we use the block to say the that we retry at most 5 times again, but this time if the unlucky number was 3 we should not retry.

how to rescue from errors

The simples way to not emit an error but to continue emitting something else is by using the rescue_and_replace_error_with operation. This one accepts a Reacto::Trackable instance as its sole argument. When an error notification is emitted by its source Trackable, it is not emitted by the trackable it returns. Instead the notifications of the argument are emitted.

  source = Reacto.enumerable([1, 2, 3, 0, 7, 8, 9]).map do |val|
    10 / val
  end

  trackable = source.rescue_and_replace_error_with(
    Reacto::Trackable.enumerable((4..6)).map { |val| 10 / val }
  )

  trackable.on(
    value: -> (v) { puts v },
    close: -> () { puts 'Done' },
    error: -> (e) { puts e.message }
  )

We want see the error cause the by division by 0, instead after the emission of 10/1 -> 10, 10/2 -> 5 and 10/3 -> 3, the values 2, 2 and 1 will be emitted -> that's 10/4, 10/5 and 10/6.

Another more precise way to do that is to use the rescue_and_replace_error operation which receives a block returning a Reacto::Trackable - the replacement. The block has as an argument the original error, so some logic can be written around that.

  source = Reacto.enumerable([1, 2, 3, 0, 7, 8, 9]).map do |val|
    10 / val
  end

  trackable = source.rescue_and_replace_error do |error|
    if error.is_a?(ArgumentError)
      Reacto.error(error)
    else
      Reacto.value(1)
    end
  end

  trackable.on(
    value: -> (v) { puts v },
    close: -> () { puts 'Done' },
    error: -> (e) { puts e.message }
  )

The number 1 will be emitted instead of the ZeroDivisionError because it is not an ArgumentError.

Dependencies

Reacto is powered by concurrent-ruby

Tested with

Ruby 2.0.0+
JRuby 9.1.2.0

Name		Name	Last commit message	Last commit date
Latest commit History 343 Commits
doc		doc
lib		lib
spec		spec
.gitignore		.gitignore
.rspec		.rspec
.rubocop.yml		.rubocop.yml
.rubocop_todo.yml		.rubocop_todo.yml
Gemfile		Gemfile
README.md		README.md
reacto.gemspec		reacto.gemspec

meddle0x53/reacto

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