Why use symbols as hash keys in Ruby?

TL;DR:

Using symbols not only saves time when doing comparisons, but also saves memory, because they are only stored once.

Ruby Symbols are immutable (can't be changed), which makes looking something up much easier

Short(ish) answer:

Using symbols not only saves time when doing comparisons, but also saves memory, because they are only stored once.

Symbols in Ruby are basically "immutable strings" .. that means that they can not be changed, and it implies that the same symbol when referenced many times throughout your source code, is always stored as the same entity, e.g. has the same object id.

Strings on the other hand are mutable, they can be changed anytime. This implies that Ruby needs to store each string you mention throughout your source code in it's separate entity, e.g. if you have a string "name" multiple times mentioned in your source code, Ruby needs to store these all in separate String objects, because they might change later on (that's the nature of a Ruby string).

If you use a string as a Hash key, Ruby needs to evaluate the string and look at it's contents (and compute a hash function on that) and compare the result against the (hashed) values of the keys which are already stored in the Hash.

If you use a symbol as a Hash key, it's implicit that it's immutable, so Ruby can basically just do a comparison of the (hash function of the) object-id against the (hashed) object-ids of keys which are already stored in the Hash. (much faster)

Downside: Each symbol consumes a slot in the Ruby interpreter's symbol-table, which is never released. Symbols are never garbage-collected. So a corner-case is when you have a large number of symbols (e.g. auto-generated ones). In that case you should evaluate how this affects the size of your Ruby interpreter.

Notes:

If you do string comparisons, Ruby can compare symbols just by comparing their object ids, without having to evaluate them. That's much faster than comparing strings, which need to be evaluated.

If you access a hash, Ruby always applies a hash-function to compute a "hash-key" from whatever key you use. You can imagine something like an MD5-hash. And then Ruby compares those "hashed keys" against each other.

Every time you use a string in your code, a new instance is created - string creation is slower than referencing a symbol.

Starting with Ruby 2.1, when you use frozen strings, Ruby will use the same string object. This avoids having to create new copies of the same string, and they are stored in a space that is garbage collected.

Long answers:

https://web.archive.org/web/20180709094450/http://www.reactive.io/tips/2009/01/11/the-difference-between-ruby-symbols-and-strings

http://www.randomhacks.net.s3-website-us-east-1.amazonaws.com/2007/01/20/13-ways-of-looking-at-a-ruby-symbol/

https://www.rubyguides.com/2016/01/ruby-mutability/


The reason is efficiency, with multiple gains over a String:

  1. Symbols are immutable, so the question "what happens if the key changes?" doesn't need to be asked.
  2. Strings are duplicated in your code and will typically take more space in memory.
  3. Hash lookups must compute the hash of the keys to compare them. This is O(n) for Strings and constant for Symbols.

Moreover, Ruby 1.9 introduced a simplified syntax just for hash with symbols keys (e.g. h.merge(foo: 42, bar: 6)), and Ruby 2.0 has keyword arguments that work only for symbol keys.

Notes:

1) You might be surprised to learn that Ruby treats String keys differently than any other type. Indeed:

s = "foo"
h = {}
h[s] = "bar"
s.upcase!
h.rehash   # must be called whenever a key changes!
h[s]   # => nil, not "bar"
h.keys
h.keys.first.upcase!  # => TypeError: can't modify frozen string

For string keys only, Ruby will use a frozen copy instead of the object itself.

2) The letters "b", "a", and "r" are stored only once for all occurrences of :bar in a program. Before Ruby 2.2, it was a bad idea to constantly create new Symbols that were never reused, as they would remain in the global Symbol lookup table forever. Ruby 2.2 will garbage collect them, so no worries.

3) Actually, computing the hash for a Symbol didn't take any time in Ruby 1.8.x, as the object ID was used directly:

:bar.object_id == :bar.hash # => true in Ruby 1.8.7

In Ruby 1.9.x, this has changed as hashes change from one session to another (including those of Symbols):

:bar.hash # => some number that will be different next time Ruby 1.9 is ran