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I have a class with 2 strings and 1 double (amount).

class Donator

  • string name
  • string comment
  • double amount

Now I have a Array of Donators filled.
How I can sort by Amount?

share|improve this question
@Jeff Oh no, he definitely wants to use IndividualHumanBeingWhoDonated – Josh Stodola Mar 18 '10 at 20:32
A donator is a connoisseur of donuts. – DRBlaise Mar 18 '10 at 20:41
up vote 19 down vote accepted

If you implement IComparable<Donator> You can do it like this:

public class Donator :IComparable<Donator>
  public string name { get; set; }
  public string comment { get; set; }
  public double amount { get; set; }

  public int CompareTo(Donator other)
     return amount.CompareTo(other.amount);

You can then call sort on whatever you want, say:

var donors = new List<Donator>();
//add donors

The .Sort() calls the CompareTo() method you implemented for sorting.

There's also the lambda alternative without IComparable<T>:

var donors = new List<Donator>();
//add donors
donors.Sort((a, b) => a.amount.CompareTo(b.amount));
share|improve this answer
A class implementing IComparer is probably a better approach. – eschneider Mar 18 '10 at 21:00
@eschneider - That is almost always overkill for something this simple. How would that be "better"? – Nick Craver Mar 18 '10 at 21:02
Chances are they will need to sort various ways. DonorAmountComparer, DonorLastNameComparer, DonorAmountThenLastNameComparer. – eschneider Mar 18 '10 at 21:06
@eschneider - That's completely outside the question...but even if they needed to, it's still much more compact to do in a lambda. The decision to use a comparer would be personal preference, and no one I've worked with has opted for that in the past few years. – Nick Craver Mar 18 '10 at 21:11
I disagree, It's totally related. In most cases I agree with you, but in a case where you will probably need multiple sort orders, a comparer is the best approach. – eschneider Mar 18 '10 at 21:20

You can also use delegates:

class Program
    static void Main(string[] args)
        List<Donor> myDonors = new List<Donor>();
        // add stuff to your myDonors list...

        myDonors.Sort(delegate(Donor x, Donor y) { return x.amount.CompareTo(y.amount); });

class Donor
    public string name;
    public string comment;
    public double amount;
share|improve this answer

By implementing IComparable and then use Array.Sort.

public class Donator : IComparable {
    public string name;
    public string comment;
    public double amount;

    public int CompareTo(object obj) {
        // throws invalid cast exception if not of type Donator
        Donator otherDonator = (Donator) obj; 

        return this.amount.CompareTo(otherDonator.amount);

Donator[] donators;  // this is your array
Array.Sort(donators); // after this donators is sorted
share|improve this answer
He could also pass a lambda expression if he doesn't want to create a new class – Oskar Kjellin Mar 18 '10 at 20:14
Tried it, but how to sort really? – Kovu Mar 18 '10 at 20:21
No in .Net 2.0 he can't. – AxelEckenberger Mar 18 '10 at 20:23
@Kovu: see edit. – AxelEckenberger Mar 18 '10 at 20:27

You could use MyArray.OrderBy(n => n.Amount) providing you have included the System.Linq namespace.

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I tried myArray = myArray.orderby... error is:Fehler 1 Eine implizite Konvertierung vom Typ "System.Linq.IOrderedEnumerable<DongleDonatorSite.Donator>" in "DongleDonatorSite.Donator[]" ist nicht möglich. – Kovu Mar 18 '10 at 20:20
Use .ToArray() to turn the enumerable back into an array. – Alex J Mar 18 '10 at 20:24
You might want to add .ToArray() at the end or change the type of the variable you are assigning the result to. By the way, in many cases it is more practical (but not always when performance is an issue) to stop using arrays and start using a generic list. – Sandor Drieënhuizen Mar 18 '10 at 20:25
According to the OP he is using .Net 2.0 – AxelEckenberger Mar 18 '10 at 20:28

I always use the list generic, for example

List<Donator> MyList;

then I call MyList.Sort

MyList.Sort(delegate (Donator a, Donator b) {
   if (a.Amount < b.Amount) return -1;
   else if (a.Amount > b.Amount) return 1;
   else return 0; );
share|improve this answer
This is the same as a.Amount.CompareTo(b.Amount) – Ruben Mar 18 '10 at 20:33
Right. In addition, with my method, you can then add additional logic to sort by Amount first, then, Name if Amount is the same, etc. CompareTo is simpler for this case, and my example would only be useful if you needed more interesting sorting logic. – Jared Updike Mar 19 '10 at 0:23
I think you're missing a wavy. – Konrad Viltersten Oct 13 '14 at 9:05

Here is a sort without having to implement an Interface. This is using a Generic List

    List<Donator> list = new List<Donator>();
    Donator don = new Donator("first", "works", 98.0);
    don = new Donator("first", "works", 100.0);
    don = new Donator("middle", "Yay", 101.1);
    don = new Donator("last", "Last one", 99.9);
    list.Sort(delegate(Donator d1, Donator d2){ return d1.amount.CompareTo(d2.amount); });
share|improve this answer

Another way is to create a class that implements IComparer, then there is an overload to pass in the Comparer class.

This way you could have different classes for each specific sort needed. You could create one to sort by name, amount, or others.

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