Awesome
Comparers
The last comparison library you'll ever need! Wide platform support; fluent syntax.
Creating Comparers
Install the Nito.Comparers
NuGet package. By default, this includes the extension package for LINQ support.
The comparer types are in the namespace Nito.Comparers
.
Let's say you've got a collection of your POCOs:
class Person
{
public string FirstName { get; }
public string LastName { get; }
}
List<Person> list = ...;
Here's an easy way to sort them all by last name and then first name:
IComparer<Person> nameComparer =
ComparerBuilder.For<Person>()
.OrderBy(p => p.LastName)
.ThenBy(p => p.FirstName);
list.Sort(nameComparer);
Implementing Comparable Types
How about having Person implement it?
Let's face it: implementing comparison in .NET is a real pain. IComparable<T>
, IComparable
, IEquatable<T>
, Object.Equals
, and Object.GetHashCode
?!?!
But it's easy with a base type:
class Person : ComparableBase<Person>
{
static Person()
{
DefaultComparer =
ComparerBuilder.For<Person>()
.OrderBy(p => p.LastName)
.ThenBy(p => p.FirstName);
}
public string FirstName { get; }
public string LastName { get; }
}
ComparableBase<T>
auto-magically implements all the comparable interfaces, including correct overrides of Object.Equals
and Object.GetHashCode
.
Using Comparers in Hash Containers
What about hash-based containers? Every single comparer produced by the Comparers library also implements equality comparison!
IEqualityComparer<Person> nameComparer =
ComparerBuilder.For<Person>()
.OrderBy(p => p.LastName)
.ThenBy(p => p.FirstName);
Dictionary<Person, Address> dict = new Dictionary<Person, Address>(nameComparer);
Equality Comparers
Sometimes, you can only define equality. Well, good news: there are equality comparer types that parallel the full comparer types.
class Entity : EquatableBase<Entity>
{
static Entity()
{
DefaultComparer =
EqualityComparerBuilder.For<Entity>()
.EquateBy(e => e.Id);
}
public int Id { get; }
}
Working with Sequences
Sequences are sorted lexicographically. The Sequence
operator takes an existing comparer for one type, and defines a lexicographical comparer for sequences of that type:
var nameComparer =
ComparerBuilder.For<Person>()
.OrderBy(p => p.LastName)
.ThenBy(p => p.FirstName);
List<IEnumerable<Person>> groups = ...;
groups.Sort(nameComparer.Sequence());
There's also natural extensions for LINQ that allow you to define comparers on-the-fly (particularly useful for anonymous types):
IEnumerable<Person> people = ...;
var anonymousProjection = people.Select(x => new { GivenName = x.FirstName, Surname = x.LastName });
var reduced = anonymousProjection.Distinct(c => c.EquateBy(x => x.Surname));
Dynamic Sorting
Need to sort dynamically at runtime? No problem!
var sortByProperties = new[] { "LastName", "FirstName" };
IComparer<Person> comparer = ComparerBuilder.For<Person>().Null();
foreach (var propertyName in sortByProperties)
{
var localPropertyName = propertyName;
Func<Person, string> selector = p => p.GetType().GetProperty(localPropertyName).GetValue(p, null) as string;
comparer = comparer.ThenBy(selector);
}
Complex Sorting
Want a cute trick? Here's one: true
is "greater than" false
, so if you want to order by some weird condition, it's not too hard:
// Use the default sort order (last name, then first name), EXCEPT all "Smith"s move to the head of the line.
var comparer =
ComparerBuilder.For<Person>()
.OrderBy(p => p.LastName == "Smith", descending: true)
.ThenBy(ComparerBuilder.For<Person>().Default());
list.Sort(comparer);
By default, null
values are "less than" anything else, but you can use the same sort of trick to sort them as "greater than" non-null
values (i.e., null
s will be last in a sorted collection):
List<int?> myInts = ...;
var comparer =
ComparerBuilder.For<int?>()
.OrderBy(i => i == null, specialNullHandling: true)
.ThenBy(ComparerBuilder.For<int?>().Default());
myInts.Sort(comparer);
// Note: we need to pass "specialNullHandling"; otherwise, the default null-ordering rules will apply.
More?!
For full details, see the detailed docs.
What's with the flying saucer?
Other languages provide a comparison operator <=>
, which is called the "spaceship operator". This library provides similar capabilities for C#, hence the "spaceship logo".