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We caught some code in Ruby that seems odd, and I was wondering if someone could explain it:

$ irb
irb(main):001:0> APPLE = 'aaa'
=> "aaa"
irb(main):002:0> banana = APPLE
=> "aaa"
irb(main):003:0> banana << 'bbb'
=> "aaabbb"
irb(main):004:0> banana
=> "aaabbb"
irb(main):005:0> APPLE
=> "aaabbb"

Catch that? The constant was appended to at the same time the local variable was.

Known behavior? Expected?

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Related question:… –  Andrew Grimm Jun 9 '10 at 23:53

4 Answers 4

up vote 3 down vote accepted

Catch that? The constant was appended to at the same time the local variable was.

No, it wasn't appended to, and neither was the local variable.

The single object that both the constant and the local variable are referring to was appended to, but neither the constant nor the local variable was changed. You cannot modify or change a variable or constant in Ruby (at least not in the way that your question implies), the only thing you can change is objects.

The only two things you can do with variables or constants is dereferencing them and assigning to them.

The constant is a red herring here, it is completely irrelevant to the example given. The only thing that is relevant is that there is only one single object in the entire example. That single object is accessible under two different names. If the object changes, then the object changes. Period. It does not mysteriously split itself in two. Which name you use to look at the changed object doesn't matter. There is only one object anyway.

This works exactly the same as in any other programming language: if you have multiple references to a mutable object in, say, Python, Java, C#, C++, C, Lisp, Smalltalk, JavaScript, PHP, Perl or whatever, then any change to that object will be visible no matter what reference is used, even if some of those references are final or const or whatever that particular language calls it.

This is simply how shared mutable state works and is just one of the many reasons why shared mutable state is bad.

In Ruby, you can generally call the freeze method on any object to make it immutable. However, again, you are modifying the object here, so anybody else who has a reference to that object will all the sudden find that the object has become immutable. Therefore, just to be safe, you need to copy the object first, by calling dup. But of course, that's not enough either, if you think of an array, for example: if you dup the array, you get a different array, but the objects inside the array are the still the same ones in the original array. And if you freeze the array, then you can no longer modify the array, but the objects in the array may very well still be mutable:

ORIG = ['Hello']
CLONE = ORIG.dup.freeze
CLONE[0] << ', World!'
CLONE # => ['Hello, World!']

That's shared mutable state for you. The only way to escape this madness is either to give up shared state (e.g. Actor Programming: if nobody else can see it, then it doesn't matter how often or when it changes) or mutable state (i.e. Functional Programming: if it never changes, then it doesn't matter how many others see it).

The fact that one of the two variables in the original example is actually a constant is completely irrelevant to the problem. There two main differences between a variable and a constant in Ruby: they have different lookup rules, and constants generate a warning if they are assigned to more than once. But in this example, the lookup rules are irrelevant and the constant is assigned to only once, so there really is no difference between a variable and a constant in this case.

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Can you deference variables / constants in ruby, or can you only assign them to nil? –  Andrew Grimm Jun 10 '10 at 4:08
Also, if an object is created and it isn't assigned to anything, does it exist until it gets garbage collected? –  Andrew Grimm Jun 10 '10 at 4:21

Known behaviour. Constants don't mean that you can't modify the object it refers to, merely that it'll give you a warning (and only a warning) if you assign it to a different object.

In short, ruby constants aren't.

Note: This behaviour is listed in an answer to "What are the Ruby Gotchas a newbie should be warned about?" It's a worthwhile read.

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They're basically constant references. Java works basically the same way. –  Benjamin Oakes Jun 10 '10 at 2:05
@Benjamin Oakes: Yes, exactly. And not only Java, but basically any programming language on the planet. Although in Ruby, they are not even that constant: re-assigning them will only generate a warning, not an error. –  Jörg W Mittag Jun 11 '10 at 10:21
@Jörg W Mittag: Very true. If anyone is aware of a way to force an exception when re-assigning constants, I'd be very interested. The facility of freezing objects is quite helpful though. –  Benjamin Oakes Jun 11 '10 at 14:17
I made a question from my last comment:… –  Benjamin Oakes Jun 11 '10 at 14:31

You can freeze constants if you want them to be unchangable:

>> APPLE = 'aaa'
=> "aaa"
>> banana = APPLE
=> "aaa"
>> APPLE.freeze
=> "aaa"
>> banana.frozen?
=> true
>> banana << 'bbb'
TypeError: can't modify frozen string
    from (irb):5:in `<<'
    from (irb):5
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No, you can't freeze constants in Ruby, only objects. –  Jörg W Mittag Jun 10 '10 at 1:04
That's not correct. You can freeze them as demonstrated. –  Benjamin Oakes Jun 10 '10 at 2:06
@Benjamin: I think what Jörg is saying is that you only freeze the object referred to by the constant, not the constant itself. –  Andrew Grimm Jun 10 '10 at 3:58
@Andrew: Ah, I misunderstood what Jörg had written. What you said is correct. –  Benjamin Oakes Jun 10 '10 at 13:24

Constants in Ruby aren't "constants". You might as well use any other name; putting them in all caps doesn't change anything, interpreter-wise, about the object, unless you try to change the pointer's address.

If you look at it that way, the behavior is obvious and necessary; Apple is a pointer to a string object, and so is banana. You then edit the object that banana is pointing to. Apple is pointing to that same object, so the change is reflected there too.

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Rules for accessing constants are different to that for accessing variables. –  Andrew Grimm Jun 10 '10 at 4:29

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