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Ruby uses === operator on the case/when type execution style.Now It also known that Ruby depending on the type of the thing present in the when clause, calls the respective .=== method.

Say when statement contains the class names, then the rule is - it will use Module#===, which will return true if the right side is an instance of, or subclass of, the left side. One example with this context is:

Here instance of test occurs

obj = 'hello'
#=> "hello"
case obj
when String
print 'It is a string'
when Fixnum
print 'It is a number'
else
print 'It is not a string'
end
#It is a string
#=> nil

Here subclass of test occurs

num = 10
#=> 10
case num
when Numeric
puts "Right class"
else
puts "Wrong class"
end
#Right class
#=> nil

Now when contains String literals then String#=== is called, which in turn checks if left and right handside literal are same(same chracter in same sequence) or not.

a = "abc"
#=> "abc"
case a
when "def" then p "Hi"
when "abc" then p "found"
else "not found"
end
#"found"
#=> "found"

The all logic is too cool. Now my query is with case/when structure -

  • How does ruby know if when holding class, or String literals or anything valid at runtime?

or

  • What test does it perform before calling the respective .=== operator on the thing when holding currently.

EDIT

Before understanding the Case/when working principal,let me clear the below which when does while it gets its turn.

String.===("abc") #=> true

Because "abc" is an instance of String class. - Am I right?

Now I tried the below just to check who is whose super class.

10.class #=> Fixnum
Fixnum.superclass #=> Integer
Integer.superclass #=> Numeric
Numeric.superclass #=> Object

Humm. That means the below returns true as Fixnum is also the indirect subclass of Numeric. - Am I right?

Numeric.===(10) #=> true

But why then the below outputs contradictory to the above?

Numeric.===(Fixnum) #=> false

Trying to be more specific to my query as below :

When we are calling Numeric.===(10) and String.===("abc") . I think we are sending not "abc" and 10 rather "abc".class and 10.class.

10.===(10) #=> true
Numeric.===(10) #=> true

Now look at the above. Both return true. Does they output true on the same logic? I think NO. 10.===(10) is just like 10 ==(10) comparison. But Numeric.===(10) outputs true as class of 10 is the subclass of Numeric.

"abc".===("abc") #=> true
String.===("abc") #=> true

Now look at the above. Both return true. Does they output true on the same logic? I think NO. "abc".===("abc") is just like simple string literal comparison "abc" ==("abc") comparison. But String.===("abc") outputs true as "abc" which is an instance of String.

Now my question is how ruby detects lefthand side operands types and apply the proper rule of comparisons ?

I might be 100% wrong, In that case please correct me.

share|improve this question
    
If the === method is not overridden in a class it will just use the orignal Module#=== –  Lee Jarvis Mar 3 '13 at 20:58
    
Nothing I override as above examples suggest. I just wanted to know the plain behavior. –  Arup Rakshit Mar 3 '13 at 21:00
    
That's what I mean, String#=== just overrides Module#===. Your case/when is really just calling #=== on the object. –  Lee Jarvis Mar 3 '13 at 21:33
    
@LeeJarvis I just updated my description. tried to be more specific to my question. Let me know if you have any confusion to understand what I am asking for. –  Arup Rakshit Mar 3 '13 at 22:27
    
@LeeJarvis: String doesn't inherit from Module, there's no way it could override Module#===. It does inherit from Object and override Object#===, though. –  Jörg W Mittag Mar 4 '13 at 2:01

2 Answers 2

I'll try to explain what @Lee Jarvis also explaines.

class Someclass
end

s = Someclass.new
p s.methods.sort
#[:!, :!=, :!~, :<=>, :==, :===, :=~, :__id__, :__send__, :class, :clone,(...)

Look at the 5th method. My Someclass instance has a ===method out of nowhere.

Actually, it has 56 methods and I did not define one of them. They are inherited from Object; every class in Ruby inherits from Object. For class Object (and my Someclass), #=== is effectively the same as calling #==, but (as the docs say) #=== is typically overwritten by descendants to provide meaningful semantics in case statements.

So ruby does nothing smart, it just sends the object in question a === message (or calls the ===method if you prefer that).

share|improve this answer
    
I updated my description. –  Arup Rakshit Mar 3 '13 at 22:10

Now my question is how ruby detects lefthand side operands types and apply the proper rule of comparisons ?

It doesn't. It simply calls the === method. That's it. That's just how object-orientation works, and it is nothing specific to Ruby, every OO language works the same way: you call a method on an object, and the object decides how to react. (Or, in a class-based language like Ruby, PHP, Java, C#, C++, Python etc. the class of the object decides.)

Different objects may react in different ways. Classes check whether the argument is an instance of themselves, Regexps check whether the argument is matched by them, Ranges check whether the argument is covered by them.

It's just basic method dispatch.

share|improve this answer
    
As usual you are great! +1 to you. :) But look here What Type? - which made me too confused. Any suggestions what he meant there? –  Arup Rakshit Mar 4 '13 at 7:08
    
Could you look into my this post ? Your explanation is best to me as always. –  Arup Rakshit Mar 5 '13 at 4:39
    
There's no difference between that usage of case and any other. Module#=== just happens to be defined to check whether the argument is an instance of self, just like Regexp#=== happens to be defined to check whether the argument is matched by self. I'm not too happy with that tutorial. It starts off with the title "The Case Statement": in Ruby, case isn't a statement, it's an expression. In fact, there are no statements in Ruby, everything is an expression. The author even demonstrates that in the last section "Case Assignment". And in the section "What Type", he is testing … –  Jörg W Mittag Mar 5 '13 at 12:01
    
… what class or module the value belongs to, not what type. That's very different. –  Jörg W Mittag Mar 5 '13 at 12:02
    
Humm.. Now I am bit confident on this. Actually I that article made me hard to think about the whole post. And to find and understand his what Type section I did too mane experiments as I posted in my post. :( But now I am trying to flush out all the things what I learned from that tutorial about this topic. It created too many confusion in my mind. Thanks Jorg for any such conceptual issue, is there anyway to reach to you without SO? –  Arup Rakshit Mar 5 '13 at 12:11

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