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I'm writing a small class which I'm gonna move around when needed like a dll, and it's gonna have different sorting algorithms in it. I want the functions to work with any lists, of any types, including objects. So it's basically like this:

class TemplateSortings<T>
{
    List<T> GNRList;

    static void SortBubble<T>()
    {
        //Do stuff with GNRList, which can be a list of any values (nums, strings, objects)
    }
}

Now the question I'm having troubles with is this - what is the best way to compare two generic values: overloading comparison operators or having the class inherit IComparable interface? What is better and why?

3

If you want it to work with any type, you probably shouldn't constrain T to types that implement IComparable, because not all types do.

A simple way to work around this is to let the caller decide how to compare the objects. You just need an extra parameter:

static void SortBubble(Func<T, T, int> comparator)
{
    ...
}

You can call comparator with 2 arguments and it will give you a negative value, 0, or a positive value indicating that the first parameter is less than, equal to, or greater than the second parameter.

As an example, you can call SortBubble with ints like this:

var sorting = new TemplateSortings<int>();
// populate the list...
sorting.SortBubble((x, y) => x.CompareTo(y)) // pass a lambda

EDIT:

If you don't want an extra parameter and want to check the type inside the method, you can do something like this:

if (typeof(IComparable<T>).IsAssignableFrom(typeof(T))) {
    // do your sorting
    // you need to cast values of type "T" to "Comparable<T>" like this
    // var castedValue = (IComparable<T>)tValue;
} else {
    throw ...
}
  • It's a little bit uneffective, don't you think? I might now know what variables I'll use, so I was thinking of just passing down the list to sort to GNRList and then sorting it. I wouldn't know what type it will be... – Alucard Oct 22 '17 at 11:37
  • That makes no sense. You have to tell it how you want to sort the items, or else how would the computer know? @Alucard – Sweeper Oct 22 '17 at 11:40
  • I wanted the function themselves to check the type of the list. What if I have to work with decimals, or strings? Will I have to write another SortBubble function, but this time with <T, T, string>? Or can I just check the type inside the function? @Sweeper – Alucard Oct 22 '17 at 12:04
  • What if you pass in something that's not comparable? @Alucard – Sweeper Oct 22 '17 at 12:09
  • Like what? I'll most likely know if it's uncomparable. I can always throw an exception or write my own function for comparison. In case of objects... I haven't given it much thought, but I'd probably sort them by one of the variables, like ID or some other value in another function, or I'd pass down a List made of those aforementioned variables? Maybe. @Sweeper – Alucard Oct 22 '17 at 12:21
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You could generalize your code so it can work with any potentially valid type T:

public static IEnumerable<T> BubbleSort(
    this IEnumerable<T> source,
    IComparer<T> comparer == null)
{
    var currentComparer = comparer ?? Comparer<T>.Default;
    //bubble sort with currentComparator 
}

Now, you can sort any T whatsoever, if:

  1. T implements IComparable<T>
  2. T implements legacy IComparable
  3. You hand down a Comparator that knows how to compare Ts

It will fail on any other scenario the moment you attempt to perform the first comparison.

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