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Say I have an object with a method that accesses an object:

def foo
   @foo
end

I know I can use send to access that method:

obj.send("foo")  # Returns @foo

Is there a straightforward way to do a recursive send to get a parameter on the @foo object, like:

obj.send("foo.bar")  # Returns @foo.bar
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3  
obj.send('foo').send('bar') –  Sergio Tulentsev Apr 7 '13 at 12:39
    
@SergioTulentsev - Sorry I should have clarified - is there a way to do that in one step. What you're describing would require parsing he string "foo.bar" to realize that you need to call send() recursively. I was just wondering if there was some existing mechanism that does that automatically or more cleanly. –  lindanaughton Apr 7 '13 at 12:44
1  
@Lynn: I am not aware of such built-in mechanism. –  Sergio Tulentsev Apr 7 '13 at 12:50
1  
Yep, I think "foo.bar".split('.').inject(obj) { |obj, property| obj.send(property) } is as close as you can get. –  Pascal Jungblut Apr 7 '13 at 13:24
1  
@PascalJungblut That can be simplified to "foo.bar".split(".").inject(obj, :send). –  sawa Apr 7 '13 at 13:59

2 Answers 2

up vote 3 down vote accepted

You can use instance_eval:

obj.instance_eval("foo.bar")

You can even access the instance variable directly:

obj.instance_eval("@foo.bar")
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very confusing in "@foo.bar what is bar? where is it defined? –  Arup Rakshit Apr 7 '13 at 13:55
1  
It's a method bar called on the object stored in @foo. It's exactly the same as if you typed this in an instance method of @foo. Check out the documentation. –  Michaël Witrant Apr 7 '13 at 14:01
1  
instance_eval of a string is dangerous, expensive, and very rarely called for. –  dbenhur Apr 7 '13 at 17:37

While OP has already accepted an answer using instance_eval(string), I would strongly urge OP to avoid string forms of eval unless absolutely necessary. Eval invokes the ruby compiler -- it's expensive to compute and dangerous to use as it opens a vector for code injection attacks.

As stated there's no need for send at all:

obj.foo.bar

If indeed the names of foo and bar are coming from some non-static calculation, then

obj.send(foo_method).send(bar_method)

is simple and all one needs for this.

If the methods are coming in the form of a dotted string, one can use split and inject to chain the methods:

'foo.bar'.split('.').inject(obj, :send)

Clarifying in response to comments: String eval is one of the riskiest things one can do from a security perspective. If there's any way the string is constructed from user supplied input without incredibly diligent inspection and validation of that input, you should just consider your system owned.

send(method) where method is obtained from user input has risks too, but there's a more limited attack vector. Your user input can cause you to execute any 0-arghument method dispatchable through the receiver. Good practise here would be to always whitelist the methods before dispatching:

VALID_USER_METHODS = %w{foo bar baz}
def safe_send(method)
  raise ArgumentError, "#{method} not allowed" unless VALID_USER_METHODS.include?(method.to_s)
  send(method)
end
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A chain of send calls based on strings is not much safer than using eval. –  Michaël Witrant Apr 7 '13 at 18:16
    
I agree with both sentiments re security. IMHO, I'd whitelist what could be called both for explicit security reasons and developer maitenence. You're creating a sink hole so be careful around it. –  timpone Apr 7 '13 at 18:49
    
@dbenhur - To Michael's comment - aren't send and inject as bad as eval in terms of security risk? Or is one preferable over the other? –  lindanaughton Apr 7 '13 at 20:32
    
@MichaëlWitrant injhdeed, send's based on input should properly be blessed through a whitelist. Nevertheless, it is a much reduced surface area compared with string eval. The attack vector is limited to argument-less methods of the current receiver and its ancestors. –  dbenhur Apr 7 '13 at 22:25
    
@Lynn see updated answer. –  dbenhur Apr 7 '13 at 22:35

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