1

I was reading up on metaprogramming and came across this exercise:

http://ruby-metaprogramming.rubylearning.com/html/Exercise_1.html

The question is:

Given this class definition:

class A
  def initialize
    @a = 11
    @@a = 22
    a = 33
  end
  @a = 1
  @@a = 2
  a = 3
end

Retrieve all the variables from outside the class, with output like so:

1
2
3
11
22
33

Now, it's pretty straightforward to get the instance and class variables dynamically, even the local variable inside the constructor (it's the return value of the initialize method). But I'm stumped as to how to get the local variables a=3.

As far as I know, this is not possible because the local variables cease to exist after the class definition is first read.

The only roundabout way that I have made this work is to set a variable to the "return" value (for lack of a better term) of when the class is declared, like so:

val = class A
  a = 3
end

puts val # => 3

Is this the only way?

  • You could try defining def a=(val) at class level. That would capture it, but not sure how you'd make it work like a normal local assignment too. – mahemoff Apr 19 '17 at 6:00
2

The question seems to boil down to this: given the following:

class A
  attr_reader :instance_var
  def initialize
    @instance_var = (@instance_var ||= 0) + 1
    instance_local_var = 33
    puts "instance_local_variables = #{ local_variables }"
    instance_local_var = 33
  end
  class_local_var = 3
  puts "class_local_variables = #{ local_variables }"
  class_local_var = 3
end
  # class_local_variables = [:class_local_var]
  #=> 3

can one determine the values of instance_local_var and class_local_var?

Determine the value of class_local_var

The answer to this question is clearly "no" because class_local_var no longer exists (has been marked for garbage collection) after end is executed1:

A.send(:local_variables)
  #=> []

Determine the value of instance_local_var

a = A.new
  # instance_local_variables = [:instance_local_var]
  #=> #<A:0x007ff3ea8dbb80 @instance_var=1> 

Note that @instance_var #=> 1.

A.new does not return the value of instance_local_var, but because that variable is assigned a value in the last line of initialize, that value can be obtained by executing initialize once again.2

instance_local_var = a.send(:initialize)
  #=> 33

There is a problem, however:

a.instance_var
  #=> 2

Executing initialize a second time has caused an unwanted side effect. My definition of initialize is artificial, but it highlights the fact that many undesirable side effects could occur by executing initialize a second time.

Now let's obtain a new instance.

b = A.new
  # instance_local_variables = [:instance_local_var]
  #=> #<A:0x007fee0996e7c8 @instance_var=1>

Again, @instance_var=1. One possible workaround to the side-effects of calling initialize twice for a given instance is to subclass A and use super.

class B < A
  attr_reader :b
  def initialize
    @b = super
  end
end

B.new.b
  #=> 33
a.instance_var
  #=> 1

There is no guarantee that undesirable side-effects can be avoided with this approach (e.g., initialize for any instance may perform a database operation that should occur only once), but it appears to leave the initial instance a unaffected. This is of course all hypothetical.

1. send must be used because A.private_methods.include?(:local_variables) #=> true

2. A.new.send(:initialize) is required because iniitialize is private.

1

Your question is unclear. In the title, you write "local variables", but in the example, you mention only instance- and class-variables.

As for the instance variables, you can use Object#instance_variables to get a list of known instance variables at this point. Note however that instance variables are created dynamically, not at the time of class declaration. For example, given the class

class AA; 
  def initialize; @x=1; end; 
  def f; @y=1; end; 
end

the expression

AA.new.instance_variables

would return [:@x] - the :@y is missing, because it doesn't exist yet.

You don't have a way to automatically (i.e. without modifying the class) retrieve local variables. As mudasobwa explained in his answer, you would have to explictly pass back a binding.

  • but in the example, you mention only instance- and class-variables. Really? :) What are a = 33 and a = 3, then, if not local variables? – Andrey Deineko Apr 19 '17 at 6:45
  • 2
    Even though your answer might be valuable for other readers, but definitely not for OP, since for him, quote: "it's pretty straightforward to get the instance and class variables dynamically, even the local variable inside the constructor. [...] But I'm stumped as to how to get the local variables a=3.". So effectively, this answer has nothing to do with the question :) – Andrey Deineko Apr 19 '17 at 12:31
  • Indeed! If this was present in the original question and not added later, I definitely have not seen it! It is correct, I missed the point completely!! – user1934428 Apr 20 '17 at 4:36
0

One might get an access to all the local variables of the class by returning it’s binding from the class definition (see Binding#local_variables for details):

a = class A
  v1 = 3.14
  v2 = 42
  binding
end

a.local_variable_get(:v1)
#⇒ 3.14
a.local_variable_get(:v2)
#⇒ 42

But the main question is why would you want to do that? The local variable is meant to remain local. This is how it is supposed to behave. Also, one is unable to modify the local variable in the original binding (what is returned is a read-only copy of an original binding.)

  • I wonder why the exercise says "Could you get the values from outside the class A?" and "Write your code which outputs like this:" I suppose it implies not changing the class definition, which makes the task impossible AFAIKT. – Andrey Deineko Apr 19 '17 at 6:32
  • 1
    @AndreyDeineko well, it’s possible with NIF reading the stack :) These exercises are outdated (2009) and are in general looking like not the best source for exercises at all. – Aleksei Matiushkin Apr 19 '17 at 6:41
  • @mudasobwa : What is NIF? Didn't find it on Google. But IMO it doesn't make sense to ask for the value of local variables which might or might not spring into existence, when seeing the class from the outside, i.e without actually executing a method. The variables don't exist by themselves, and asking for their value is meaningless. – user1934428 Apr 19 '17 at 12:12
  • @user1934428 It’s also known as FFI and stands for Native Function Interface. Yes, it makes not much sense to try to discover locals from the outside.. – Aleksei Matiushkin Apr 19 '17 at 12:16

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