9

The question is inspired by this one.

Proc::new has an option to be called without a block inside a method:

Proc::new may be called without a block only within a method with an attached block, in which case that block is converted to the Proc object.

When the proc/lambda instance is passed as a code block, the new instance of Proc is being created:

Proc.singleton_class.prepend(Module.new do
  def new(*args, &cb)
    puts "PROC #{[block_given?, cb, *args].inspect}"
    super
  end
end)

Proc.prepend(Module.new do
  def initialize(*args, &cb)
    puts "INIT #{[block_given?, cb, *args].inspect}"
    super
  end
  def call(*args, &cb)
    puts "CALL #{[block_given?, cb, *args].inspect}"
    super
  end
end)

λ = ->(*args) { }
[1].each &λ
#⇒ [1]

As one might see, neither the call to Proc::new happened, nor Proc#initialize and/or Proc#call were called.

The question is: how ruby creates and executes a block wrapper under the hood?


NB Don’t test the code above in pry/irb console: they known to have glitches with pure execution of this, basically because they patch procs.

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  • @fl00r MRI 2.1–2.3, I actually believe all versions are acting the same here. – Aleksei Matiushkin Nov 22 '16 at 11:07
  • I can't receive your output ruby 2.2.2p95 (2015-04-13 revision 50295) [x86_64-darwin14] I got [1].each &λ; => [1] – fl00r Nov 22 '16 at 11:19
  • ruby 2.3.1p112 (2016-04-26 revision 54768) [x86_64-darwin15]. [1].each &λ #=> [1] – Andrey Deineko Nov 22 '16 at 11:21
  • OK, it turned out the output I received was pry-related. Anyway, the question remains. – Aleksei Matiushkin Nov 22 '16 at 11:48
  • 1
    @AndreyDeineko this is pry glitch; the same reason forced me to think Proc::new is called. Copy-paste this code into some file and ruby file.rb it. – Aleksei Matiushkin Nov 24 '16 at 11:27
2
+150

There has been some discussion of this behavior on the Ruby Issue Tracker, see Feature #10499: Eliminate implicit magic in Proc.new and Kernel#proc.

This is an implementation artifact of YARV: YARV pushes a block on the global VM stack, and Proc::new simply creates a Proc from the topmost block on the stack. So, if you happen to call Proc.new from within a method which was called with a block, it will happily grab whatever block is on top of the stack, without ever checking where it came from. Somehow, somewhere, in the mist of time, this (let's call it) "accidental artifact" (I'd actually rather call it a bug) became a documented feature. A feature that the developers of JRuby (and presumably Rubinius, Opal, MagLev, etc.) would rather get rid of.

Since most other implementations work completely differently, this behavior which comes "for free" on YARV, makes both blocks and Proc::new pontetially more expensive on other implementations and prohibits possible optimizations (which doesn't hurt on YARV, because YARV doesn't optimize).

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  • “YARV pushes a pointer to the block on the VM stack”—this looks pretty much as a half of an answer to my question. Does it mean that 1) any other ruby implementation calls Proc::new for [1].each &λ and 2) the developer has no ability to interfere [1].each &λ in YARV, since there is no Proc instance created at all? AFAIU, whether the stack happens to contain a block as a “first to out,” YARV would happily execute it bypassing any other ruby code/wrappers/whatever, right? – Aleksei Matiushkin Nov 27 '16 at 7:15
  • Not sure. My answer was based on a fuzzy memory of a one-line post by Charles Nutter, which I now found and linked to in my answer. It doesn't, however, explain how e.g. JRuby does it. – Jörg W Mittag Nov 27 '16 at 7:26
  • Got it, thanks. I would appreciate if you have your answer updated with “whatever solution might be applied there to intervene the block passing to method, it does not seem to be cross-VM implementation.” – Aleksei Matiushkin Nov 27 '16 at 7:59

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