# Sort one List<> based on another

Say I have

``````List<int> ages  = new List<int>() { 8, 5, 3, 9, 2, 1, 7 };
List<int> marks = new List<int>() { 12, 17, 08, 15, 19, 02, 11 };
``````

I can sort my `marks` by `ages` like this:

``````while (true)
{
bool swapped = false;

for (int i = 0; i < ages.Count - 1; i++)
if (ages[i] > ages[i + 1])
{
int tmp = ages[i];
ages[i] = ages[i + 1];
ages[i + 1] = tmp;

tmp = marks[i];
marks[i] = marks[i + 1];
marks[i + 1] = tmp;

swapped = true;
}

if (!swapped)
break;
}
``````

Now I want to put this into a function that accepts any two lists. The first parameter will be the reference list, the numerical or comparable list. The second parameter will be the list containing the data.

For example:

``````public static void Sort<T>(List<T> RefList, List<T> DataList)
{
// sorting logic here...
}
``````

There are a few problems:

First of all, `T` is almost certainly not the same type in `RefList` and `DataList`. RefList might be dates, integers, or doubles; whereas DataList is free to be absolutely anything. I need to be able to receive two, arbitrary generic types.

Secondly, I cannot seem to use the `>` operator with the `T` in this line:

``````if (ages[i] > ages[i + 1])
``````

Perhaps my whole approach is wrong.

By the way, I have read responses to similar questions that suggest that the two lists should be combined into a single list of a compound data type. This isn't practical at all for my application. All I want to do is write a static function that somehow sorts one list based on the elements of another.

-
Zip the lists and sort lexicographically. –  Mechanical snail Jan 9 '13 at 3:21
If you really want to go custom sorting rout - use `IComparable` or `IComparer` interface instead of `<`, or compare delegate as in OrderBy LINQ method. –  Alexei Levenkov Jan 9 '13 at 3:32
-1 or not including the helpful compiler error: "cannot seem to use" is a poor description/summary. Looking up said error would have led you to the selected solution. (Which revolves around the fact that operators cannot be used with Generics and should have elicited a question like: "How can generic parameters be compared?") –  user166390 Jan 9 '13 at 3:32
I still don't like the custom bubble sort .. I thought we were past this in this day and age! –  Simon Whitehead Jan 9 '13 at 3:34
possible duplicate of C# Sort List Based on Another List –  nawfal Oct 15 '13 at 15:11

To sort one list the way you want you actually need to somehow keep references from items in first list to they weight/keys in the second list. No existing methods do that as you can't easily associate metadata with arbitrary values (i.e. if first list is list of `int` as in your case there is nothing to map to keys in second list). Your only reasonable option is to sort 2 lists at the same time and make association by index - again no existing classes to help.

It may be much easier to use solution that you reject. I.e. simply Zip and OrderBy, than recreate first list:

``````ages = ages
.Zip(marks, (a,m)=> new {age = a; mark = m;})
.OrderBy(v => v.mark)
.Select(v=>v.age)
.ToList();
``````

Note (courtesy of phoog): if you need to do this type of sorting with Array there is Array.Sort that allows exactly this operatiion (see phoog's answer for details).

-
Zip is not available in standard 3.5 LINQ :( Select-with-index and Join can be used, albeit it is a good bit more verbose and uses a different algorithm. –  user166390 Jan 9 '13 at 3:29
Zip is easy to implement I like this solution, but I don't think it'll be very efficient for lists. –  Eli Algranti Jan 9 '13 at 3:33
"No existing classes..." see my answer; `Array.Sort()` has overloads that do this, though you're then faced with the problem of getting the data into arrays and then back into lists. –  phoog Jan 9 '13 at 3:39
Using my sequential algorithm with the signature from @EliAlgranti, I was able to sort 1 million items in about 3 seconds while debugging. Using your LINQ/Zip idea, the same list is sorted in about 12ms. –  user1002358 Jan 9 '13 at 3:49
@user1002358 that's because your sort algorithm is the textbook example of a sort algorithm with polynomial time complexity. See en.wikipedia.org/wiki/Bubble_sort. If you replace your algorithm with a better one, you'll see performance closer to the LINQ performance. In fact, the performance might even be better, since LINQ allocates several objects, including a new million-item list, that you wouldn't need if you worked directly on the lists. Then again, the 12ms time is probably good enough, in which case, improving your version would be an academic exercise, not a practical one. –  phoog Jan 9 '13 at 3:59

There's no framework method to do this with `List<T>`, but if you don't mind putting the data into two arrays, you can use one of the `Array.Sort()` overloads that takes two arrays as arguments. The first array is the keys, and the second is the values, so your code might look like this (leaving aside the step of getting arrays from the lists):

``````Array.Sort(ages, marks);
``````

The specifics of getting the values into arrays and then back into lists would depend, among other things, on whether you need to end up with the same list sorted appropriately or whether it's okay to return a new list with the data in the desired order.

-
+1. Nice find... and thanks a lot for useful comments. If using with Lists one need to measure performance to see if converting back and forth eats all saving from not using extra object due to Zip/Select+OrderBy. –  Alexei Levenkov Jan 9 '13 at 5:18

Use:

``````public static void Sort<TR, TD>(IList<TR> refList, IList<TD> dataList)
where TR : System.IComparable<TR>
where TD : System.IComparable<TD>
{
...
}
``````

and then use:

``````refList[i].CompareTo(refList[i+1])
``````

.Net numbers already implement IComparable, and you can use overloads that allow you to specify a different IComparable.

-
This is exactly how I implemented it. Thank you. (Except I don't need `IComparable` on `TD`) –  user1002358 Jan 9 '13 at 3:34
if the type does not implement IComparable you can also pass in a custom IComparer<TR>, also TD does not need to be compared in this instance –  Gary.S Jan 9 '13 at 3:35
+1. for correct interface (also second version as in all Sort/OrderBy calls would be useful). I'd personally avoid part of writing sort by hand as writing properly working sort methods is not exactly trivial and clear duplication of effort... –  Alexei Levenkov Jan 9 '13 at 3:35
@Alexei this is only the interface, you can probably use pre-existing sorting algorithms (which are going to require and IComparable anyway) in the implementation. –  Eli Algranti Jan 9 '13 at 3:37

If I understand "I can sort my marks by ages like this:" properly,

I would like to suggest the below to eliminate much confusion.

``````struct Student{
int age;
int marks;
};

List<Student> students = {{8,12}, ...};
``````

Now you can sort according to age and marks is accordingly sorted automatically.

If it is not possible, you need to fix the code as below.

First of all, T is almost certainly not the same type in RefList and DataList.

Then you need 2 parameters T1, T2. Just T implies the types are the same.

``````public static void Sort<RefType, DataType>(List<RefType> RefList, List<DataType> DataList)
{
``````

You can also zip the two lists together as suggested by Mechanical Snail and explained in Looping through 2 Lists at once

-
I specifically said I didn't want to combine the data together into a composite type. –  user1002358 Jan 9 '13 at 3:24
@user1002358 There will be a composite type involed (although it might be anonymous and/or only internal to the method; even Zip'ing uses a composite type) to use any of the built-in Sort (List or LINQ) methods efficiently. –  user166390 Jan 9 '13 at 3:26
+1. Totally agree with fact that there is no way to avoid association of some sort. Custom code to sort 2 arrays at the same time is an option, but one need to have very good reasons to go custom sorting route. –  Alexei Levenkov Jan 9 '13 at 3:30
@AlexeiLevenkov Because I find myself doing this type of sorting very frequently in my job, and I wanted to write a function that does it for any two lists. I don't want to have to combine, sort, and extract my data, I just want to `myList.Sort(myRef);` and it's done. –  user1002358 Jan 9 '13 at 3:33
@user1002358 So, write that function once (note that the combining can be done inside said function) .. –  user166390 Jan 9 '13 at 3:34