In our case,
NoMethodErrors due to
nil references are by far the most common errors we see in our production environments.
Hash#dig allows you to omit
nil checks when accessing nested elements. Since hashes are best used for when the structure of the data is unknown, or volatile, having official support for this makes a lot of sense.
Let's take your example. The following:
user.dig(:user, :address, :street1)
Is not equivalent to:
In the case where
nil, this will result in a runtime error.
Rather, it is equivalent to the following, which is the current idiom:
user[:user] && user[:user][:address] && user[:user][:address][:street1]
Note how it is trivial to pass a list of symbols that was created elsewhere into
Hash#dig, whereas it is not very straightforward to recreate the latter construct from such a list.
Hash#dig allows you to easily do dynamic access without having to worry about
Hash#dig is also a lot shorter.
One important point to take note of is that
Hash#dig itself returns
nil if any of the keys turn out to be, which can lead to the same class of errors one step down the line, so it can be a good idea to provide a sensible default. (This way of providing an object which always responds to the methods expected is called the Null Object Pattern.)
Again, in your example, an empty string or something like "N/A", depending on what makes sense:
user.dig(:user, :address, :street1) || ""