23

I have a script that iterates using ObjectSpace#each_object with no args. Then it prints how many instances exist for each class.

I realized that some classes redefine the #class instance method, so I had to find another way to get the actual class; Let's say it's stored in variable "klass", and klass === object is true.

In Ruby 1.8 I could do this, assuming Object wasn't monkeypatched:

Object.instance_method(:class).bind(object).call

This worked for ActiveSupport::Duration instances:

# Ruby 1.8
# (tries to trick us)
20.seconds.class
=> Fixnum
# don't try to trick us, we can tell
Object.instance_method(:class).bind(20.seconds).call
=> ActiveSupport::Duration

But, in Ruby 1.9 this no longer works:

# Ruby 1.9
# we are not smart...
Object.instance_method(:class).bind(20.seconds).call
TypeError: bind argument must be an instance of Object
  from (irb):53:in `bind'
  from (irb):53
  from /Users/user/.rvm/rubies/ruby-1.9.2-p0/bin/irb:17:in `<main>'

It turns out that ActiveSupport::Duration subclasses ActiveSupport::BasicObject. The latter is made to subclass ::BasicObject in Ruby 1.9, so Object is excluded from the inheritance chain. This doesn't, and can't, happen in Ruby 1.8, so ActiveSupport::BasicObject is a subclass of Object.

I haven't found any way to detect the actual class of a Ruby 1.9 object that isn't an instance of Object. BasicObject in 1.9 is really bare-bones:

BasicObject.instance_methods
=> [:==, :equal?, :!, :!=, :instance_eval, :instance_exec, :__send__]

Ideas?

UPDATE:

Since ruby 1.9 reached end-of-life, I'm changing my accept to @indirect's answer. The mentions of ruby 1.9 above are merely for historical purposes, to show that the change from 1.8 to 1.9 was the original cause of my problem.

5
  • 1
    I had the same problem once and I gave up. There are a few approaches but either didn't work for me or were too intrusive. Maybe you can redefine your question and point directly to want you are looking for in the origin and not trying to make one of the possible approaches to work.
    – fguillen
    Feb 8, 2012 at 17:15
  • @fguillen Thanks for the link. The post about using self.inherited looks promising.
    – Kelvin
    Feb 8, 2012 at 18:41
  • Accepted Frederick Cheung's answer. I chose it over my solution because it probably performs better. Others may have different requirements or constraints - just upvote whichever one you like.
    – Kelvin
    Feb 8, 2012 at 21:49
  • Switched acceptance to paon's answer. It doesn't depend on external libs, and the only downside is that it allocates the eigenclass on every BasicObject you call it on. The only change I'd make would be to define the method as __realclass__ instead of class.
    – Kelvin
    May 8, 2012 at 19:12
  • FYI: see my new answer based on paon's solution. I kept the acceptance on paon's because the core idea was his.
    – Kelvin
    May 9, 2012 at 18:46

8 Answers 8

13

The following solution refers to the superclass of the eigenclass. As a consequence, it has the side effect of allocating the eigenclass (detectable by ObjectSpace.count_objects[:T_CLASS] in MRI). But since BasicObject#class is only invoked on blank slate objects (i.e. objects that are not kind-of Object, i.e. that are not Objects) the side effect also applies just for blank slate objects. For Objects, the standard Kernel#class is invoked.

class BasicObject
  def class
    (class << self; self end).superclass
  end
end

# tests:
puts RUBY_VERSION               # 1.9.2
class B < BasicObject; end
class X;               end
p BasicObject.new.class             # BasicObject
p B          .new.class             # B
p X          .new.class             # X
p               6.class             # Fixnum
p B.instance_method(:class).owner   # BasicObject
p X.instance_method(:class).owner   # Kernel
p          6.method(:class).owner   # Kernel

Edit - Note: Indeed, there is an issue with ActiveSupport::Duration. This class uses interception (method_missing) for redirecting messages to the :value attribute. As a consequence, it provides false introspection for its instances. To preserve this falsity, it is necessary to use another name for the class map, e.g. the proposed __realclass__. Thus, the modified solution might look like this:

class BasicObject
  def __realclass__; (class << self; self end).superclass end
end
class Object; alias __realclass__ class end

Another way of not invoking class << self on Objects is via Module#===, as suggested by Kelvin on this page.

5
  • This is pure genius... It can even be defined after all libs are loaded. But you should define a different method name like __realclass__, otherwise 20.seconds.class won't return Fixnum -- that can break a lot of code. If you do that, I'll accept your answer.
    – Kelvin
    Apr 18, 2012 at 22:54
  • Btw, I tried using singleton_class.superclass instead, but I got TypeError: can't define singleton. Guess BasicObject's are weird like that.
    – Kelvin
    Apr 18, 2012 at 22:56
  • @Kelvin: Fixnums (as well as other immediate values: false, true, nil, and Symbols) are not blank slate objects so that Kernel#class gets invoked for them as before. Using singleton_class does not work because it is an instance method of Kernel.
    – paon
    Apr 19, 2012 at 14:00
  • @Kelvin: +1 for the ::Object === self test. I did not know that Module#=== is the inverse of Kernel#kind_of?.
    – paon
    May 9, 2012 at 10:41
  • I just realized why this works. It's because the singleton class is a Class instance. Class is a subclass of Object, which is why the superclass method is defined on instances. When the singleton gets created, the BasicObject subclass is set as its superclass. Weird ruby magic!
    – Kelvin
    Jul 26, 2012 at 21:26
8

If you can upgrade to Ruby 2.0, you don't need to implement anything at all:

>> Kernel.instance_method(:class).bind(BasicObject.new).call
=> BasicObject
5
  • 1
    +1 Any links to info on why this works? BasicObject doesn't include Kernel, so why can a Kernel method be bound to it?
    – Kelvin
    Sep 5, 2013 at 16:00
  • A similar trick would be: (class << BasicObject.new; self; end).superclass
    – rosenfeld
    Jun 17, 2014 at 22:25
  • +1, pure Ruby awesomeness, no need for anything else + this works for anything sub-classed from BasicObject. Agree with @Kelvin though, be nice to see why this works.
    – MatzFan
    Aug 24, 2016 at 19:54
  • 2
    Answer to @Kelvin's question: It appears that all module methods can be bound to any object in this way. The source of MRI UnboundMethod#bind includes a guard clause to throw errors which begins: if (!RB_TYPE_P(methclass, T_MODULE) &&... before it goes on to test whether the object is kind_of? the unbound method's 'owner' class - nice to know.
    – MatzFan
    Aug 25, 2016 at 15:33
  • Thanks @MatzFan . So the bind enforcement is weaker in ruby 2.x. I wonder what the rationale was behind this change.
    – Kelvin
    Nov 13, 2017 at 19:39
5

fguillen's link made me think of this way.

Pros:

  1. It doesn't need external libraries.

Cons:

  1. It must be executed before loading any classes that subclass BasicObject.
  2. It adds a method to every new class

.

class BasicObject
  def self.inherited(klass)
    klass.send(:define_method, :__realclass__) { klass }
  end
  def __realclass__
    BasicObject
  end
end

# ensures that every Object will also have this method
class Object
  def __realclass__
    Object.instance_method(:class).bind(self).call
  end
end

require 'active_support/core_ext'

20.seconds.__realclass__  # => ActiveSupport::Duration

# this doesn't raise errors, so it looks like all objects respond to our method
ObjectSpace.each_object{|e| e.__realclass__ }
1
  • As I read the question, I was also thinking of an inherited hook... nice code, I like it!
    – Alex D
    Feb 8, 2012 at 21:40
5

I don't know about doing it in Ruby, but this is straightforward using the C API to Ruby. The RubyInline Gem makes adding bits of C to your Ruby code quite easy:

require 'inline'
class Example
  inline do |builder|  
    builder.c_raw_singleton <<SRC, :arity => 1
      VALUE true_class(VALUE self, VALUE to_test) {
        return rb_obj_class(to_test);
      }
SRC
   end
end

And then:

1.9.2p180 :033 > Example.true_class(20.minutes)
 => ActiveSupport::Duration 
3
  • This is quite elegant and doesn't seem to interfere with other parts the app. I've upvoted but need to consider a bit more before accepting.
    – Kelvin
    Feb 8, 2012 at 18:27
  • Btw, I thought it might be possible to something similar in FFI, but I didn't see a way to convert a ruby object into a VALUE pointer and vice-versa.
    – Kelvin
    Feb 8, 2012 at 18:39
  • There seems to be a minor bug in RubyInline - once the ~/.ruby_inline directory is created, then I can't define any more inline functions in irb. Inline is trying to get the mtime of '(irb)'. Loading it from an external file works fine.
    – Kelvin
    Feb 8, 2012 at 19:17
3

This is my modification of @paon's answer:

Reasoning behind the changes:

  • Method name doesn't clash with existing libs, e.g. the ActiveSupport::Duration instance behavior 2.seconds.class remains Fixnum.
  • Since Object doesn't have its own __realclass__ method, we want to avoid allocating the eigenclass for those instances. @paon's original answer did this inherently by defining the class method name.

class BasicObject
  def __realclass__
    ::Object === self ?
      # Note: to be paranoid about Object instances, we could 
      # use Object.instance_method(:class).bind(s).call.
      self.class :
      (class << self; self end).superclass
  end
end

# test
require 'active_support/core_ext/integer'
require 'active_support/core_ext/numeric'

duration = 2.seconds
string = 'hello world'
p duration.class  # => Fixnum
p string.class    # => String
GC.start
p ObjectSpace.count_objects[:T_CLASS]  # => 566

# creates the eigenclass
p duration.__realclass__  # => ActiveSupport::Duration
p ObjectSpace.count_objects[:T_CLASS]  # => 567

# doesn't create the eigenclass
p string.__realclass__  # => String
p ObjectSpace.count_objects[:T_CLASS]  # => 567
1
(class << object; self; end).superclass
1
  • True, but this is really the same as the accepted answer.
    – Kelvin
    Jun 18, 2014 at 15:51
0

The following code creates a BasicKernel module via duplication of the Kernel module and subsequent removal of all methods except the class method. The BasicKernel is included into the BasicObject class (just like Kernel is included into Object).

In req_methods, you can specify arbitrary subset of Kernel methods to be preserved.

class BasicObject
  include ::BasicKernel = ::Kernel.dup.module_eval {
    v = $VERBOSE
    $VERBOSE = nil               # suppress object_id warning
    req_methods = [:class]       # required methods (to be preserved)
    all_methods = public_instance_methods +
               protected_instance_methods +
                 private_instance_methods
    all_methods.each { |x| remove_method(x) unless req_methods.include?(x) }
    $VERBOSE = v
    self
  }
end

# tests:
puts RUBY_VERSION               # 1.9.2
class B < BasicObject; end
class X;               end
p BasicObject.new.class           # BasicObject
p B          .new.class           # B
p X          .new.class           # X
p B.instance_method(:class).owner # BasicKernel
p X.instance_method(:class).owner # Kernel
p Object.ancestors                # [Object, Kernel, BasicObject, BasicKernel]
p BasicKernel.instance_methods    # [:class]

Edit: See the Note in https://stackoverflow.com/a/10216927/641718

1
  • This is a nice concept, but doesn't address the ActiveSupport::Duration issue, e.g. 2.seconds.class should return Fixnum.
    – Kelvin
    Apr 23, 2012 at 16:39
0

For the similar situation where you simply want a class you created that inherits from BasicObject to support the #class method, you can copy the method over from Kernel.

class Foo < BasicObject
  define_method(:class, ::Kernel.instance_method(:class))
end

f = Foo.new
puts f.class
=> Foo

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