I'm learning Ruby and I've seen a couple of methods that are confusing me a bit, particularly to_s vs to_str (and similarly, to_i/to_int, to_a/to_ary, & to_h/to_hash). What I've read explains that the shorter form (e.g. to_s) are for explicit conversions while the longer form are for implicit conversions.

I don't really understand how to_str would actually be used. Would something other than a String ever define to_str? Can you give a practical application for this method?

3 Answers 3


Note first that all of this applies to each pair of “short” (e.g. to_s/to_i/to_a/to_h) vs. “long” (e.g. to_str/to_int/to_ary/to_hash) coercion methods in Ruby (for their respective types) as they all have the same semantics.

They have different meanings. You should not implement to_str unless your object acts like a string, rather than just being representable by a string. The only core class that implements to_str is String itself.

From Programming Ruby (quoted from this blog post, which is worth reading all of):

[to_i and to_s] are not particularly strict: if an object has some kind of decent representation as a string, for example, it will probably have a to_s method… [to_int and to_str] are strict conversion functions: you implement them only if [your] object can naturally be used every place a string or an integer could be used.

Older Ruby documentation from the Pickaxe has this to say:

Unlike to_s, which is supported by almost all classes, to_str is normally implemented only by those classes that act like strings.

For example, in addition to Integer, both Float & Numeric implement to_int (to_i's equivalent of to_str) because both of them can readily substituted for an Integer (they are all actually numbers). Unless your class has a similarly tight relationship with String, you should not implement to_str.

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    Andrew, thanks. But in a practical sense, what does that mean "those classes that act like strings?" Does that mean they implement the same methods as Strings? And what else would to_str return other than self if the object already acts like a string? Jun 24, 2012 at 23:56
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    @JeffStorey Yes. Unless your class can be substituted for/by a String, you should not implement to_str. String's implementation of to_s and to_str do just that: return themselves. Implementing to_str is a way of validating that you act like a String. Many core methods use to_str in this way. The blog post I quoted from is worth reading :). Jun 24, 2012 at 23:59
  • Andrew, thanks. I did read that post and I was still a little unclear. Is there ever a time where you might implement to_str? That's the part I'm really confused about...I can't think of a practical example offhand. Jun 25, 2012 at 0:02
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    @JeffStorey Unless you're creating a class that's just like a String and implements at a minimum all the methods it does, no. Of course in this case you're likely to have subclasses String anyway, and get it for free. A good example of when to do so is Ruby's numerics: Float, Integer, & Numeric all implement to_int (to_i's "to_str" equivalent), because they can be substituted for each other readily. Jun 25, 2012 at 0:05
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    Take a look at the Ruby koans about_to_str example for some more insight.
    – ybakos
    Jul 30, 2012 at 18:02

To understand if you should use/implement to_s/to_str, let's look at some exemples. It is revealing to consider when these method fail.

1.to_s              # returns "1"
Object.new.to_s     # returns "#<Object:0x4932990>"
1.to_str            # raises NoMethodError
Object.new.to_str   # raises NoMethodError

As we can see, to_s is happy to turn any object into a string. On the other hand, to_str raises an error when its parameter does not look like a string.

Now let us look at Array#join.

[1,2].join(',')     # returns "1,2"
[1,2].join(3)       # fails, the argument does not look like a valid separator.

It is useful that Array#join converts to string the items in the array (whatever they really are) before joining them, so Array#join calls to_s on them.

However, the separator is supposed to be a string -- someone calling [1,2].join(3) is likely to be making a mistake. This is why Array#join calls to_str on the separator.

The same principle seems to hold for the other methods. Consider to_a/to_ary on a hash:

{1 => 2}.to_a      # returns [[1, 2]], an array that describes the hash
{1 => 2}.to_ary    # fails, because a hash is not really an array.

In summary, here is how I see it:

  • call to_s to get a string that describes the object.
  • call to_str to verify that an object really acts like a string.
  • implement to_s when you can build a string that describes your object.
  • implement to_str when your object can fully behave like a string.

I think a case when you could implement to_str yourself is maybe a ColoredString class -- a string that has a color attached to it. If it seems clear to you that passing a colored comma to join is not a mistake and should result in "1,2" (even though that string would not be colored), then do implement to_str on ColoredString.


Zverok has a great easily understandable article about when to use what (explained with to_h and to_hash).

It has to do whether your Object implementing those methods can be converted to a string -> use to_s
or it is a type of some (enhanced) string -> use to_str

I've seen a meaningful usage of to_hash in practice for the Configuration class in the gem 'configuration' (GitHub and Configuration.rb)

It represents -- as the name says -- the provided configuration, which in fact is a kind of hash (with additional features), rather than being convertible to one.

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