In most cases,
eql? have the same result. In some cases,
eql? is more strict than
42.0 == 42 # => true
42.0.eql?(42) # => false
Because of this, if you define
== you probably want to define
eql? also (or vice versa).
A choice was made that the
Hash class would use
eql? to differentiate between different keys, not
==. It could have been
==, mind you, but
eql? was cleaner.
To avoid doing expensive calls to
eql? all the time, a hash value is calculated with the requirement that two object that are
eql? must have the same hash value. That hash value is stored, which makes future lookups very easy: if the hash code does not match, then the values are not
For that reason, you must define
hash in a sensible way if you define
Note that calculating the hash value is almost always more expensive than doing a comparison with
eql?. Once the hash is calculated, though, checking that the hashes matches is very quick.
Because hashes normally involve very many comparisons, the relatively expensive hash calculation is done once for each key, and then once for each lookup. Imagine a hash with 10 entries. Building it will involve 10 calls to
hash, before the first lookup is even done. The first lookup will be relatively quick though: one call to
hash, followed by very efficient comparison of hash codes (it's actually faster than this, as they are "indexed"). If there is a match, one must still do a call to
eql? to insure it's a real match. Indeed, two objects that are not
eql? could have the same hash. The only guarantee is that two objects that are
eql? must have the same hash, but two different objects could have the same too.
If you wanted to do the same using an
Array instead, you might need 10 call to
eql? for each lookup.
For what it's worth, I don't think the Ruby primer you link to is as clear as it could be. It neglects the fact that calculating the
hash can be expensive, so that it's done only when it makes sense, i.e. when it is a good assumption that each element will be compared many times. Moreover, it's a shame that the example of a custom
eql? it gives uses
== to compare the instance variables. Ideally, it would use
eql? for consistency, in the same way that arrays are
== if its elements are
== and arrays are
eql? if its elements are
eql?. Finally, it really should mention
Struct which defines decent
eql? for you.