^title Lists
A list is a compound object that holds a collection of elements identified by
integer index. You can create a list by placing a sequence of comma-separated
expressions inside square brackets:
[1, "banana", true]
Here, we've created a list of three elements. Notice that the elements don't
have to be the same type.
## Accessing elements
You can access an element from a list by calling the [subscript
operator][] on it with the index of the
element you want. Like most languages, indexes start at zero:
[subscript operator]: method-calls.html#subscripts
var trees = ["cedar", "birch", "oak", "willow"]
System.print(trees[0]) //> cedar
System.print(trees[1]) //> birch
Negative indices counts backwards from the end:
System.print(trees[-1]) //> willow
System.print(trees[-2]) //> oak
It's a runtime error to pass an index outside of the bounds of the list. If you
don't know what those bounds are, you can find out using count:
System.print(trees.count) //> 4
## Slices and ranges
Sometimes you want to copy a chunk of elements from a list. You can do that by
passing a [range](values.html#ranges) to the subscript operator, like so:
System.print(trees[1..2]) //> [birch, oak]
This returns a new list containing the elements of the original list whose
indices are within the given range. Both inclusive and exclusive ranges work
and do what you expect.
Negative bounds also work like they do when passing a single number, so to copy
a list, you can just do:
trees[0..-1]
## Adding elements
Lists are *mutable*, meaning their contents can be changed. You can swap out an
existing element in the list using the subscript setter:
trees[1] = "spruce"
System.print(trees[1]) //> spruce
It's an error to set an element that's out of bounds. To grow a list, you can
use `add` to append a single item to the end:
trees.add("maple")
System.print(trees.count) //> 5
You can insert a new element at a specific position using `insert`:
trees.insert(2, "hickory")
The first argument is the index to insert at, and the second is the value to
insert. All elements following the inserted one will be pushed down to
make room for it.
It's valid to "insert" after the last element in the list, but only *right*
after it. Like other methods, you can use a negative index to count from the
back. Doing so counts back from the size of the list *after* it's grown by one:
var letters = ["a", "b", "c"]
letters.insert(3, "d") // OK: inserts at end.
System.print(letters) //> [a, b, c, d]
letters.insert(-2, "e") // Counts back from size after insert.
System.print(letters) //> [a, b, c, e, d]
## Adding lists together
Lists have the ability to be added together via the `+` operator. This is often known as concatenation.
var letters = ["a", "b", "c"]
var other = ["d", "e", "f"]
var combined = letters + other
System.print(combined) //> [a, b, c, d, e, f]
## Removing elements
The opposite of `insert` is `removeAt`. It removes a single element from a
given position in the list.
To remove a specific _value_ instead, use `remove`. The first value that
matches using regular equality will be removed.
In both cases, all following items are shifted up to fill in the gap.
var letters = ["a", "b", "c", "d"]
letters.removeAt(1)
System.print(letters) //> [a, c, d]
letters.remove("a")
System.print(letters) //> [c, d]
Both the `remove` and `removeAt` method return the removed item:
System.print(letters.removeAt(1)) //> c
If `remove` couldn't find the value in the list, it returns null:
System.print(letters.remove("not found")) //> null
If you want to remove everything from the list, you can clear it:
trees.clear()
System.print(trees) //> []
Maps →
← Values