зеркало из https://github.com/github/ruby.git
839 строки
27 KiB
Ruby
839 строки
27 KiB
Ruby
# Ractor is a Actor-model abstraction for Ruby that provides thread-safe parallel execution.
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#
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# Ractor.new can make a new Ractor, and it will run in parallel.
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#
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# # The simplest ractor
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# r = Ractor.new {puts "I am in Ractor!"}
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# r.take # wait for it to finish
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# # here "I am in Ractor!" would be printed
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#
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# Ractors do not share usual objects, so the same kinds of thread-safety concerns such as data-race,
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# race-conditions are not available on multi-ractor programming.
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#
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# To achieve this, ractors severely limit object sharing between different ractors.
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# For example, unlike threads, ractors can't access each other's objects, nor any objects through
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# variables of the outer scope.
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#
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# a = 1
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# r = Ractor.new {puts "I am in Ractor! a=#{a}"}
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# # fails immediately with
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# # ArgumentError (can not isolate a Proc because it accesses outer variables (a).)
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#
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# On CRuby (the default implementation), Global Virtual Machine Lock (GVL) is held per ractor, so
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# ractors are performed in parallel without locking each other.
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#
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# Instead of accessing the shared state, the objects should be passed to and from ractors via
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# sending and receiving objects as messages.
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#
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# a = 1
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# r = Ractor.new do
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# a_in_ractor = receive # receive blocks till somebody will pass message
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# puts "I am in Ractor! a=#{a_in_ractor}"
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# end
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# r.send(a) # pass it
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# r.take
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# # here "I am in Ractor! a=1" would be printed
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#
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# There are two pairs of methods for sending/receiving messages:
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#
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# * Ractor#send and Ractor.receive for when the _sender_ knows the receiver (push);
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# * Ractor.yield and Ractor#take for when the _receiver_ knows the sender (pull);
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#
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# In addition to that, an argument to Ractor.new would be passed to block and available there
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# as if received by Ractor.receive, and the last block value would be sent outside of the
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# ractor as if sent by Ractor.yield.
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#
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# A little demonstration on a classic ping-pong:
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#
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# server = Ractor.new do
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# puts "Server starts: #{self.inspect}"
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# puts "Server sends: ping"
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# Ractor.yield 'ping' # The server doesn't know the receiver and sends to whoever interested
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# received = Ractor.receive # The server doesn't know the sender and receives from whoever sent
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# puts "Server received: #{received}"
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# end
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#
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# client = Ractor.new(server) do |srv| # The server is sent inside client, and available as srv
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# puts "Client starts: #{self.inspect}"
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# received = srv.take # The Client takes a message specifically from the server
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# puts "Client received from " \
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# "#{srv.inspect}: #{received}"
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# puts "Client sends to " \
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# "#{srv.inspect}: pong"
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# srv.send 'pong' # The client sends a message specifically to the server
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# end
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#
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# [client, server].each(&:take) # Wait till they both finish
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#
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# This will output:
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#
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# Server starts: #<Ractor:#2 test.rb:1 running>
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# Server sends: ping
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# Client starts: #<Ractor:#3 test.rb:8 running>
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# Client received from #<Ractor:#2 rac.rb:1 blocking>: ping
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# Client sends to #<Ractor:#2 rac.rb:1 blocking>: pong
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# Server received: pong
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#
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# It is said that Ractor receives messages via the <em>incoming port</em>, and sends them
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# to the <em>outgoing port</em>. Either one can be disabled with Ractor#close_incoming and
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# Ractor#close_outgoing respectively. If a ractor terminated, its ports will be closed
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# automatically.
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#
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# == Shareable and unshareable objects
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#
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# When the object is sent to and from the ractor, it is important to understand whether the
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# object is shareable or unshareable. Most of objects are unshareable objects.
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#
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# Shareable objects are basically those which can be used by several threads without compromising
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# thread-safety; e.g. immutable ones. Ractor.shareable? allows to check this, and Ractor.make_shareable
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# tries to make object shareable if it is not.
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#
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# Ractor.shareable?(1) #=> true -- numbers and other immutable basic values are
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# Ractor.shareable?('foo') #=> false, unless the string is frozen due to # freeze_string_literals: true
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# Ractor.shareable?('foo'.freeze) #=> true
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#
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# ary = ['hello', 'world']
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# ary.frozen? #=> false
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# ary[0].frozen? #=> false
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# Ractor.make_shareable(ary)
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# ary.frozen? #=> true
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# ary[0].frozen? #=> true
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# ary[1].frozen? #=> true
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#
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# When a shareable object is sent (via #send or Ractor.yield), no additional processing happens,
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# and it just becomes usable by both ractors. When an unshareable object is sent, it can be
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# either _copied_ or _moved_. The first is the default, and it makes the object's full copy by
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# deep cloning of non-shareable parts of its structure.
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#
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# data = ['foo', 'bar'.freeze]
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# r = Ractor.new do
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# data2 = Ractor.receive
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# puts "In ractor: #{data2.object_id}, #{data2[0].object_id}, #{data2[1].object_id}"
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# end
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# r.send(data)
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# r.take
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# puts "Outside : #{data.object_id}, #{data[0].object_id}, #{data[1].object_id}"
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#
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# This will output:
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#
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# In ractor: 340, 360, 320
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# Outside : 380, 400, 320
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#
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# (Note that object id of both array and non-frozen string inside array have changed inside
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# the ractor, showing it is different objects. But the second array's element, which is a
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# shareable frozen string, has the same object_id.)
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#
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# Deep cloning of the objects may be slow, and sometimes impossible. Alternatively,
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# <tt>move: true</tt> may be used on sending. This will <em>move</em> the object to the
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# receiving ractor, making it inaccessible for a sending ractor.
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#
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# data = ['foo', 'bar']
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# r = Ractor.new do
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# data_in_ractor = Ractor.receive
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# puts "In ractor: #{data_in_ractor.object_id}, #{data_in_ractor[0].object_id}"
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# end
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# r.send(data, move: true)
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# r.take
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# puts "Outside: moved? #{Ractor::MovedObject === data}"
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# puts "Outside: #{data.inspect}"
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#
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# This will output:
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#
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# In ractor: 100, 120
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# Outside: moved? true
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# test.rb:9:in `method_missing': can not send any methods to a moved object (Ractor::MovedError)
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#
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# Notice that even +inspect+ (and more basic methods like <tt>__id__</tt>) is inaccessible
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# on a moved object.
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#
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# Besides frozen objects, there are shareable objects. Class and Module objects are shareable so
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# the Class/Module definitions are shared between ractors. Ractor objects are also shareable objects.
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# All operations for the shareable mutable objects are thread-safe, so the thread-safety property
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# will be kept. We can not define mutable shareable objects in Ruby, but C extensions can introduce them.
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#
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# It is prohibited to access instance variables of mutable shareable objects (especially Modules and classes)
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# from ractors other than main:
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#
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# class C
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# class << self
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# attr_accessor :tricky
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# end
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# end
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#
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# C.tricky = 'test'
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#
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# r = Ractor.new(C) do |cls|
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# puts "I see #{cls}"
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# puts "I can't see #{cls.tricky}"
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# end
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# r.take
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# # I see C
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# # can not access instance variables of classes/modules from non-main Ractors (RuntimeError)
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#
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# Ractors can access constants if they are shareable. The main Ractor is the only one that can
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# access non-shareable constants.
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#
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# GOOD = 'good'.freeze
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# BAD = 'bad'
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#
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# r = Ractor.new do
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# puts "GOOD=#{GOOD}"
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# puts "BAD=#{BAD}"
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# end
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# r.take
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# # GOOD=good
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# # can not access non-shareable objects in constant Object::BAD by non-main Ractor. (NameError)
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#
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# # Consider the same C class from above
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#
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# r = Ractor.new do
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# puts "I see #{C}"
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# puts "I can't see #{C.tricky}"
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# end
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# r.take
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# # I see C
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# # can not access instance variables of classes/modules from non-main Ractors (RuntimeError)
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#
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# See also the description of <tt># shareable_constant_value</tt> pragma in
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# {Comments syntax}[rdoc-ref:doc/syntax/comments.rdoc] explanation.
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#
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# == Ractors vs threads
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#
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# Each ractor creates its own thread. New threads can be created from inside ractor
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# (and, on CRuby, sharing GVL with other threads of this ractor).
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#
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# r = Ractor.new do
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# a = 1
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# Thread.new {puts "Thread in ractor: a=#{a}"}.join
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# end
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# r.take
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# # Here "Thread in ractor: a=1" will be printed
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#
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# == Note on code examples
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#
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# In examples below, sometimes we use the following method to wait till ractors that
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# are not currently blocked will finish (or process till next blocking) method.
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#
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# def wait
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# sleep(0.1)
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# end
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#
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# It is **only for demonstration purposes** and shouldn't be used in a real code.
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# Most of the times, just #take is used to wait till ractor will finish.
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#
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# == Reference
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#
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# See {Ractor design doc}[rdoc-ref:doc/ractor.md] for more details.
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#
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class Ractor
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#
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# call-seq:
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# Ractor.new(*args, name: nil) {|*args| block } -> ractor
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#
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# Create a new Ractor with args and a block.
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#
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# A block (Proc) will be isolated (can't access to outer variables). +self+
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# inside the block will refer to the current Ractor.
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#
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# r = Ractor.new { puts "Hi, I am #{self.inspect}" }
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# r.take
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# # Prints "Hi, I am #<Ractor:#2 test.rb:1 running>"
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#
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# +args+ passed to the method would be propagated to block args by the same rules as
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# objects passed through #send/Ractor.receive: if +args+ are not shareable, they
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# will be copied (via deep cloning, which might be inefficient).
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#
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# arg = [1, 2, 3]
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# puts "Passing: #{arg} (##{arg.object_id})"
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# r = Ractor.new(arg) {|received_arg|
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# puts "Received: #{received_arg} (##{received_arg.object_id})"
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# }
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# r.take
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# # Prints:
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# # Passing: [1, 2, 3] (#280)
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# # Received: [1, 2, 3] (#300)
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#
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# Ractor's +name+ can be set for debugging purposes:
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#
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# r = Ractor.new(name: 'my ractor') {}
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# p r
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# #=> #<Ractor:#3 my ractor test.rb:1 terminated>
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#
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def self.new(*args, name: nil, &block)
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b = block # TODO: builtin bug
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raise ArgumentError, "must be called with a block" unless block
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loc = caller_locations(1, 1).first
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loc = "#{loc.path}:#{loc.lineno}"
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__builtin_ractor_create(loc, name, args, b)
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end
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# Returns the currently executing Ractor.
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#
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# Ractor.current #=> #<Ractor:#1 running>
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def self.current
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__builtin_cexpr! %q{
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rb_ractor_self(rb_ec_ractor_ptr(ec));
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}
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end
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# Returns total count of Ractors currently running.
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#
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# Ractor.count #=> 1
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# r = Ractor.new(name: 'example') { Ractor.yield(1) }
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# Ractor.count #=> 2 (main + example ractor)
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# r.take # wait for Ractor.yield(1)
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# r.take # wait till r will finish
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# Ractor.count #=> 1
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def self.count
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__builtin_cexpr! %q{
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ULONG2NUM(GET_VM()->ractor.cnt);
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}
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end
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#
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# call-seq:
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# Ractor.select(*ractors, [yield_value:, move: false]) -> [ractor or symbol, obj]
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#
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# Waits for the first ractor to have something in its outgoing port, reads from this ractor, and
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# returns that ractor and the object received.
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#
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# r1 = Ractor.new {Ractor.yield 'from 1'}
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# r2 = Ractor.new {Ractor.yield 'from 2'}
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#
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# r, obj = Ractor.select(r1, r2)
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#
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# puts "received #{obj.inspect} from #{r.inspect}"
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# # Prints: received "from 1" from #<Ractor:#2 test.rb:1 running>
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#
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# If one of the given ractors is the current ractor, and it would be selected, +r+ will contain
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# +:receive+ symbol instead of the ractor object.
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#
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# r1 = Ractor.new(Ractor.current) do |main|
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# main.send 'to main'
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# Ractor.yield 'from 1'
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# end
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# r2 = Ractor.new do
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# Ractor.yield 'from 2'
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# end
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#
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# r, obj = Ractor.select(r1, r2, Ractor.current)
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# puts "received #{obj.inspect} from #{r.inspect}"
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# # Prints: received "to main" from :receive
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#
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# If +yield_value+ is provided, that value may be yielded if another Ractor is calling #take.
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# In this case, the pair <tt>[:yield, nil]</tt> would be returned:
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#
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# r1 = Ractor.new(Ractor.current) do |main|
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# puts "Received from main: #{main.take}"
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# end
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#
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# puts "Trying to select"
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# r, obj = Ractor.select(r1, Ractor.current, yield_value: 123)
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# wait
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# puts "Received #{obj.inspect} from #{r.inspect}"
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#
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# This will print:
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#
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# Trying to select
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# Received from main: 123
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# Received nil from :yield
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#
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# +move+ boolean flag defines whether yielded value should be copied (default) or moved.
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def self.select(*ractors, yield_value: yield_unspecified = true, move: false)
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raise ArgumentError, 'specify at least one ractor or `yield_value`' if yield_unspecified && ractors.empty?
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__builtin_cstmt! %q{
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const VALUE *rs = RARRAY_CONST_PTR_TRANSIENT(ractors);
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VALUE rv;
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VALUE v = ractor_select(ec, rs, RARRAY_LENINT(ractors),
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yield_unspecified == Qtrue ? Qundef : yield_value,
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(bool)RTEST(move) ? true : false, &rv);
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return rb_ary_new_from_args(2, rv, v);
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}
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end
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#
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# call-seq:
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# Ractor.receive -> msg
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#
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# Receive an incoming message from the current Ractor's incoming port's queue, which was
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# sent there by #send.
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#
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# r = Ractor.new do
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# v1 = Ractor.receive
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# puts "Received: #{v1}"
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# end
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# r.send('message1')
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# r.take
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# # Here will be printed: "Received: message1"
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#
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# Alternatively, private instance method +receive+ may be used:
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#
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# r = Ractor.new do
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# v1 = receive
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# puts "Received: #{v1}"
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# end
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# r.send('message1')
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# r.take
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# # Here will be printed: "Received: message1"
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#
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# The method blocks if the queue is empty.
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#
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# r = Ractor.new do
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# puts "Before first receive"
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# v1 = Ractor.receive
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# puts "Received: #{v1}"
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# v2 = Ractor.receive
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# puts "Received: #{v2}"
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# end
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# wait
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# puts "Still not received"
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# r.send('message1')
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# wait
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# puts "Still received only one"
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# r.send('message2')
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# r.take
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#
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# Output:
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#
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# Before first receive
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# Still not received
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# Received: message1
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# Still received only one
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# Received: message2
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#
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# If close_incoming was called on the ractor, the method raises Ractor::ClosedError
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# if there are no more messages in incoming queue:
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#
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# Ractor.new do
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# close_incoming
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# receive
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# end
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# wait
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# # in `receive': The incoming port is already closed => #<Ractor:#2 test.rb:1 running> (Ractor::ClosedError)
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#
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def self.receive
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__builtin_cexpr! %q{
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ractor_receive(ec, rb_ec_ractor_ptr(ec))
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}
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end
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class << self
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alias recv receive
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end
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# same as Ractor.receive
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private def receive
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__builtin_cexpr! %q{
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ractor_receive(ec, rb_ec_ractor_ptr(ec))
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}
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end
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alias recv receive
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#
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# call-seq:
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# Ractor.receive_if {|msg| block } -> msg
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#
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# Receive only a specific message.
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#
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# Instead of Ractor.receive, Ractor.receive_if can provide a pattern
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# by a block and you can choose the receiving message.
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#
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# r = Ractor.new do
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# p Ractor.receive_if{|msg| msg.match?(/foo/)} #=> "foo3"
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# p Ractor.receive_if{|msg| msg.match?(/bar/)} #=> "bar1"
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# p Ractor.receive_if{|msg| msg.match?(/baz/)} #=> "baz2"
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# end
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# r << "bar1"
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# r << "baz2"
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# r << "foo3"
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# r.take
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#
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# This will output:
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#
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# foo3
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# bar1
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# baz2
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#
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# If the block returns a truthy value, the message will be removed from the incoming queue
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# and returned.
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# Otherwise, the message remains in the incoming queue and the following received
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# messages are checked by the given block.
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#
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# If there are no messages left in the incoming queue, the method will
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# block until new messages arrive.
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#
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# If the block is escaped by break/return/exception/throw, the message is removed from
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# the incoming queue as if a truthy value had been returned.
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#
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# r = Ractor.new do
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# val = Ractor.receive_if{|msg| msg.is_a?(Array)}
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# puts "Received successfully: #{val}"
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# end
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#
|
|
# r.send(1)
|
|
# r.send('test')
|
|
# wait
|
|
# puts "2 non-matching sent, nothing received"
|
|
# r.send([1, 2, 3])
|
|
# wait
|
|
#
|
|
# Prints:
|
|
#
|
|
# 2 non-matching sent, nothing received
|
|
# Received successfully: [1, 2, 3]
|
|
#
|
|
# Note that you can not call receive/receive_if in the given block recursively.
|
|
# It means that you should not do any tasks in the block.
|
|
#
|
|
# Ractor.current << true
|
|
# Ractor.receive_if{|msg| Ractor.receive}
|
|
# #=> `receive': can not call receive/receive_if recursively (Ractor::Error)
|
|
#
|
|
def self.receive_if &b
|
|
Primitive.ractor_receive_if b
|
|
end
|
|
|
|
private def receive_if &b
|
|
Primitive.ractor_receive_if b
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# ractor.send(msg, move: false) -> self
|
|
#
|
|
# Send a message to a Ractor's incoming queue to be consumed by Ractor.receive.
|
|
#
|
|
# r = Ractor.new do
|
|
# value = Ractor.receive
|
|
# puts "Received #{value}"
|
|
# end
|
|
# r.send 'message'
|
|
# # Prints: "Received: message"
|
|
#
|
|
# The method is non-blocking (will return immediately even if the ractor is not ready
|
|
# to receive anything):
|
|
#
|
|
# r = Ractor.new {sleep(5)}
|
|
# r.send('test')
|
|
# puts "Sent successfully"
|
|
# # Prints: "Sent successfully" immediately
|
|
#
|
|
# Attempt to send to ractor which already finished its execution will raise Ractor::ClosedError.
|
|
#
|
|
# r = Ractor.new {}
|
|
# r.take
|
|
# p r
|
|
# # "#<Ractor:#6 (irb):23 terminated>"
|
|
# r.send('test')
|
|
# # Ractor::ClosedError (The incoming-port is already closed)
|
|
#
|
|
# If close_incoming was called on the ractor, the method also raises Ractor::ClosedError.
|
|
#
|
|
# r = Ractor.new do
|
|
# sleep(500)
|
|
# receive
|
|
# end
|
|
# r.close_incoming
|
|
# r.send('test')
|
|
# # Ractor::ClosedError (The incoming-port is already closed)
|
|
# # The error would be raised immediately, not when ractor will try to receive
|
|
#
|
|
# If the +obj+ is unshareable, by default it would be copied into ractor by deep cloning.
|
|
# If the <tt>move: true</tt> is passed, object is _moved_ into ractor and becomes
|
|
# inaccessible to sender.
|
|
#
|
|
# r = Ractor.new {puts "Received: #{receive}"}
|
|
# msg = 'message'
|
|
# r.send(msg, move: true)
|
|
# r.take
|
|
# p msg
|
|
#
|
|
# This prints:
|
|
#
|
|
# Received: message
|
|
# in `p': undefined method `inspect' for #<Ractor::MovedObject:0x000055c99b9b69b8>
|
|
#
|
|
# All references to the object and its parts will become invalid in sender.
|
|
#
|
|
# r = Ractor.new {puts "Received: #{receive}"}
|
|
# s = 'message'
|
|
# ary = [s]
|
|
# copy = ary.dup
|
|
# r.send(ary, move: true)
|
|
#
|
|
# s.inspect
|
|
# # Ractor::MovedError (can not send any methods to a moved object)
|
|
# ary.class
|
|
# # Ractor::MovedError (can not send any methods to a moved object)
|
|
# copy.class
|
|
# # => Array, it is different object
|
|
# copy[0].inspect
|
|
# # Ractor::MovedError (can not send any methods to a moved object)
|
|
# # ...but its item was still a reference to `s`, which was moved
|
|
#
|
|
# If the object was shareable, <tt>move: true</tt> has no effect on it:
|
|
#
|
|
# r = Ractor.new {puts "Received: #{receive}"}
|
|
# s = 'message'.freeze
|
|
# r.send(s, move: true)
|
|
# s.inspect #=> "message", still available
|
|
#
|
|
def send(obj, move: false)
|
|
__builtin_cexpr! %q{
|
|
ractor_send(ec, RACTOR_PTR(self), obj, move)
|
|
}
|
|
end
|
|
alias << send
|
|
|
|
#
|
|
# call-seq:
|
|
# Ractor.yield(msg, move: false) -> nil
|
|
#
|
|
# Send a message to the current ractor's outgoing port to be consumed by #take.
|
|
#
|
|
# r = Ractor.new {Ractor.yield 'Hello from ractor'}
|
|
# puts r.take
|
|
# # Prints: "Hello from ractor"
|
|
#
|
|
# The method is blocking, and will return only when somebody consumes the
|
|
# sent message.
|
|
#
|
|
# r = Ractor.new do
|
|
# Ractor.yield 'Hello from ractor'
|
|
# puts "Ractor: after yield"
|
|
# end
|
|
# wait
|
|
# puts "Still not taken"
|
|
# puts r.take
|
|
#
|
|
# This will print:
|
|
#
|
|
# Still not taken
|
|
# Hello from ractor
|
|
# Ractor: after yield
|
|
#
|
|
# If the outgoing port was closed with #close_outgoing, the method will raise:
|
|
#
|
|
# r = Ractor.new do
|
|
# close_outgoing
|
|
# Ractor.yield 'Hello from ractor'
|
|
# end
|
|
# wait
|
|
# # `yield': The outgoing-port is already closed (Ractor::ClosedError)
|
|
#
|
|
# The meaning of +move+ argument is the same as for #send.
|
|
def self.yield(obj, move: false)
|
|
__builtin_cexpr! %q{
|
|
ractor_yield(ec, rb_ec_ractor_ptr(ec), obj, move)
|
|
}
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# ractor.take -> msg
|
|
#
|
|
# Take a message from ractor's outgoing port, which was put there by Ractor.yield or at ractor's
|
|
# finalization.
|
|
#
|
|
# r = Ractor.new do
|
|
# Ractor.yield 'explicit yield'
|
|
# 'last value'
|
|
# end
|
|
# puts r.take #=> 'explicit yield'
|
|
# puts r.take #=> 'last value'
|
|
# puts r.take # Ractor::ClosedError (The outgoing-port is already closed)
|
|
#
|
|
# The fact that the last value is also put to outgoing port means that +take+ can be used
|
|
# as some analog of Thread#join ("just wait till ractor finishes"), but don't forget it
|
|
# will raise if somebody had already consumed everything ractor have produced.
|
|
#
|
|
# If the outgoing port was closed with #close_outgoing, the method will raise Ractor::ClosedError.
|
|
#
|
|
# r = Ractor.new do
|
|
# sleep(500)
|
|
# Ractor.yield 'Hello from ractor'
|
|
# end
|
|
# r.close_outgoing
|
|
# r.take
|
|
# # Ractor::ClosedError (The outgoing-port is already closed)
|
|
# # The error would be raised immediately, not when ractor will try to receive
|
|
#
|
|
# If an uncaught exception is raised in the Ractor, it is propagated on take as a
|
|
# Ractor::RemoteError.
|
|
#
|
|
# r = Ractor.new {raise "Something weird happened"}
|
|
#
|
|
# begin
|
|
# r.take
|
|
# rescue => e
|
|
# p e # => #<Ractor::RemoteError: thrown by remote Ractor.>
|
|
# p e.ractor == r # => true
|
|
# p e.cause # => #<RuntimeError: Something weird happened>
|
|
# end
|
|
#
|
|
# Ractor::ClosedError is a descendant of StopIteration, so the closing of the ractor will break
|
|
# the loops without propagating the error:
|
|
#
|
|
# r = Ractor.new do
|
|
# 3.times {|i| Ractor.yield "message #{i}"}
|
|
# "finishing"
|
|
# end
|
|
#
|
|
# loop {puts "Received: " + r.take}
|
|
# puts "Continue successfully"
|
|
#
|
|
# This will print:
|
|
#
|
|
# Received: message 0
|
|
# Received: message 1
|
|
# Received: message 2
|
|
# Received: finishing
|
|
# Continue successfully
|
|
def take
|
|
__builtin_cexpr! %q{
|
|
ractor_take(ec, RACTOR_PTR(self))
|
|
}
|
|
end
|
|
|
|
def inspect
|
|
loc = __builtin_cexpr! %q{ RACTOR_PTR(self)->loc }
|
|
name = __builtin_cexpr! %q{ RACTOR_PTR(self)->name }
|
|
id = __builtin_cexpr! %q{ INT2FIX(rb_ractor_id(RACTOR_PTR(self))) }
|
|
status = __builtin_cexpr! %q{
|
|
rb_str_new2(ractor_status_str(RACTOR_PTR(self)->status_))
|
|
}
|
|
"#<Ractor:##{id}#{name ? ' '+name : ''}#{loc ? " " + loc : ''} #{status}>"
|
|
end
|
|
|
|
alias to_s inspect
|
|
|
|
# The name set in Ractor.new, or +nil+.
|
|
def name
|
|
__builtin_cexpr! %q{RACTOR_PTR(self)->name}
|
|
end
|
|
|
|
class RemoteError
|
|
attr_reader :ractor
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# ractor.close_incoming -> true | false
|
|
#
|
|
# Closes the incoming port and returns its previous state.
|
|
# All further attempts to Ractor.receive in the ractor, and #send to the ractor
|
|
# will fail with Ractor::ClosedError.
|
|
#
|
|
# r = Ractor.new {sleep(500)}
|
|
# r.close_incoming #=> false
|
|
# r.close_incoming #=> true
|
|
# r.send('test')
|
|
# # Ractor::ClosedError (The incoming-port is already closed)
|
|
def close_incoming
|
|
__builtin_cexpr! %q{
|
|
ractor_close_incoming(ec, RACTOR_PTR(self));
|
|
}
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# ractor.close_outgoing -> true | false
|
|
#
|
|
# Closes the outgoing port and returns its previous state.
|
|
# All further attempts to Ractor.yield in the ractor, and #take from the ractor
|
|
# will fail with Ractor::ClosedError.
|
|
#
|
|
# r = Ractor.new {sleep(500)}
|
|
# r.close_outgoing #=> false
|
|
# r.close_outgoing #=> true
|
|
# r.take
|
|
# # Ractor::ClosedError (The outgoing-port is already closed)
|
|
def close_outgoing
|
|
__builtin_cexpr! %q{
|
|
ractor_close_outgoing(ec, RACTOR_PTR(self));
|
|
}
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# Ractor.shareable?(obj) -> true | false
|
|
#
|
|
# Checks if the object is shareable by ractors.
|
|
#
|
|
# Ractor.shareable?(1) #=> true -- numbers and other immutable basic values are frozen
|
|
# Ractor.shareable?('foo') #=> false, unless the string is frozen due to # freeze_string_literals: true
|
|
# Ractor.shareable?('foo'.freeze) #=> true
|
|
#
|
|
# See also the "Shareable and unshareable objects" section in the Ractor class docs.
|
|
def self.shareable? obj
|
|
__builtin_cexpr! %q{
|
|
RBOOL(rb_ractor_shareable_p(obj));
|
|
}
|
|
end
|
|
|
|
#
|
|
# call-seq:
|
|
# Ractor.make_shareable(obj, copy: false) -> shareable_obj
|
|
#
|
|
# Make +obj+ shareable between ractors.
|
|
#
|
|
# +obj+ and all the objects it refers to will be frozen, unless they are
|
|
# already shareable.
|
|
#
|
|
# If +copy+ keyword is +true+, the method will copy objects before freezing them
|
|
# This is safer option but it can take be slower.
|
|
#
|
|
# Note that the specification and implementation of this method are not
|
|
# mature and may be changed in the future.
|
|
#
|
|
# obj = ['test']
|
|
# Ractor.shareable?(obj) #=> false
|
|
# Ractor.make_shareable(obj) #=> ["test"]
|
|
# Ractor.shareable?(obj) #=> true
|
|
# obj.frozen? #=> true
|
|
# obj[0].frozen? #=> true
|
|
#
|
|
# # Copy vs non-copy versions:
|
|
# obj1 = ['test']
|
|
# obj1s = Ractor.make_shareable(obj1)
|
|
# obj1.frozen? #=> true
|
|
# obj1s.object_id == obj1.object_id #=> true
|
|
# obj2 = ['test']
|
|
# obj2s = Ractor.make_shareable(obj2, copy: true)
|
|
# obj2.frozen? #=> false
|
|
# obj2s.frozen? #=> true
|
|
# obj2s.object_id == obj2.object_id #=> false
|
|
# obj2s[0].object_id == obj2[0].object_id #=> false
|
|
#
|
|
# See also the "Shareable and unshareable objects" section in the Ractor class docs.
|
|
def self.make_shareable obj, copy: false
|
|
if copy
|
|
__builtin_cexpr! %q{
|
|
rb_ractor_make_shareable_copy(obj);
|
|
}
|
|
else
|
|
__builtin_cexpr! %q{
|
|
rb_ractor_make_shareable(obj);
|
|
}
|
|
end
|
|
end
|
|
|
|
# get a value from ractor-local storage
|
|
def [](sym)
|
|
Primitive.ractor_local_value(sym)
|
|
end
|
|
|
|
# set a value in ractor-local storage
|
|
def []=(sym, val)
|
|
Primitive.ractor_local_value_set(sym, val)
|
|
end
|
|
|
|
# returns main ractor
|
|
def self.main
|
|
__builtin_cexpr! %q{
|
|
rb_ractor_self(GET_VM()->ractor.main_ractor);
|
|
}
|
|
end
|
|
end
|