Range
A Range represents an interval between two values. It is typically constructed with a range literal, consisting of two or three dots:
x..y
: Two dots denote an inclusive range, includingx
andy
and all values in between (in mathematics:[x, y]
) .x...y
: Three dots denote an exclusive range, includingx
and all values up to but not includingy
(in mathematics:[x, y)
).
(0..5).to_a # => [0, 1, 2, 3, 4, 5]
(0...5).to_a # => [0, 1, 2, 3, 4]
!!! note
Range literals are often wrapped in parentheses, for example if it is meant to be used as the receiver of a call. 0..5.to_a
without parentheses would be semantically equivalent to 0..(5.to_a)
because method calls and other operators have higher precedence than the range literal.
An easy way to remember which one is inclusive and which one is exclusive it to think of the extra dot as if it pushes y further away, thus leaving it outside of the range.
The literal x..y
is semantically equivalent to the explicit constructor Range.new(x, y)
and x...y
to Range.new(x, y, true)
.
The begin and end values do not necessarily need to be of the same type: true..1
is a valid range, although pretty useless since Enumerable
methods won’t work with incompatible types. They need at least to be comparable.
Ranges that begin with nil
are called begin-less ranges, while ranges that end with nil
are called end-less ranges. In the literal notation, nil
can be omitted: x..
is an end-less range starting from x
, and ..x
is an begin-less range ending at x
.
numbers = [1, 10, 3, 4, 5, 8]
numbers.select(6..) # => [10, 8]
numbers.select(..6) # => [1, 3, 4, 5]
numbers[2..] = [3, 4, 5, 8]
numbers[..2] = [1, 10, 3]
A range that is both begin-less and end-less is valid and can be expressed as ..
or ...
but it’s typically not very useful.