# sort abstract method

- [int compare(
- E a,
- E b

Sorts this list according to the order specified by the `compare`

function.

The `compare`

function must act as a Comparator.

```
final numbers = <String>['two', 'three', 'four'];
// Sort from shortest to longest.
numbers.sort((a, b) => a.length.compareTo(b.length));
print(numbers); // [two, four, three]
```

The default List implementations use Comparable.compare if
`compare`

is omitted.

```
final numbers = <int>[13, 2, -11, 0];
numbers.sort();
print(numbers); // [-11, 0, 2, 13]
```

In that case, the elements of the list must be Comparable to each other.

A Comparator may compare objects as equal (return zero), even if they are distinct objects. The sort function is not guaranteed to be stable, so distinct objects that compare as equal may occur in any order in the result:

```
final numbers = <String>['one', 'two', 'three', 'four'];
numbers.sort((a, b) => a.length.compareTo(b.length));
print(numbers); // [one, two, four, three] OR [two, one, four, three]
```

## Implementation

`void sort([int compare(E a, E b)?]);`