# Doing multiple sorts across more than one line of code?

I have an array that stores the order that I want to sort a list by.

``````SortOrderArray: "Color", "Volume", "Weight"
``````

So I want to order my list by Color, Volume, then Weight

``````MyList.OrderBy(a=>a.Color).ThenBy(a=>a.Volume).ThenBy(a=>a.Weight).ToList();
``````

So that's pretty good. Now, I want to be able to write a function that does this sorting based on the sortOrder array I send in:

``````public List<row> GetSortedList(List<row> list, string[] sortOrder){
???
}
``````

I can't figure out how to do this without writing a linq query for every combination of sortOrders (27 different queries just seems like the worst way to accomplish this, and has a fairly high possibility of me making a tiny mistake). I would like to be able to just write 3 linq queries that reorders the list according to each of the 3 sorting methods, something like this:

``````switch(sortOrder[0]){
Sort by the first sort method
}
switch(sortOrder[1]){
Sort by the second sort method
}
switch(sortOrder[2]){
Sort by the third sort method
}
``````

But if I try doing the above code, it just resorts it each time, instead of doing sub-sorts after the one above it. Hope that is clear, any help would be appreciated.

-

Two things. You need a sort method that performs a "stable sort" - it keeps the existing order of items with identical keys. And then you need to call it in reverse order of your sort criteria , so that the primary sort is the last one you do.

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This is a clever solution, do you know if Linq's order by is "Stable"? Also, what is the correct term for a "Stable Sort" (or is that just it) – sooprise Aug 18 '11 at 15:07
It appears that 'OrderBy' is stable: see this question. And "Stable Sort" is the common term. – AShelly Aug 18 '11 at 19:56

If you have a limited number of possible fields to sort by, a switch might be the best solution. If you're looking for something that scales, you'll have to generate a lambda expression on the fly, and use reflection to call the appropriately-typed `.OrderBy` and `.ThenBy` methods.

-

Using Dynamic LINQ, you can do something like:

``````public List<row> GetSortedList(List<row> list, string[] sortOrder)
{
// argument-validation, including testing that
// sort-order has at least 1 item.

return sortOrder.Skip(1)
.Aggregate(list.AsQueryable().OrderBy(sortOrder.First()),
(query, nextSortTerm) => query.ThenBy(nextSortTerm))
.ToList();
}
``````

Essentially: `OrderBy` the first sort-term, `ThenBy` the remaining.

EDIT: Added an `AsQueryable` call to make Dynamic LINQ work on `IEnumerable<T>`

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This looks cool, but how is the first element of `sortorder` which I believe is a string, converted to a `Func<T, TKey>` (i.e. KeySelector)? – Smudge202 Aug 18 '11 at 15:10
@Smudge202: That's what Dynamic LINQ takes care of. – Ani Aug 18 '11 at 15:48

I guess, you are not using the return value of the order clauses.

``````public List<row> GetSortedList(List<row> list, string[] sortOrder)
{
IOrderedEnumerable<row> result = null;

bool first = true;

foreach(sortClause in sortOrder)
{
switch sortClause
{
case "Color":
if(first)
result = list.OrderBy(x => x.Color);
else
result = result.ThenBy(x => x.Color);
break;
// the other cases
}
first = false;
}

return result.ToList();
}
``````

Something like that.

-
Looks like I can only put a .ThenBy after a .OrderBy, this code wasn't working for me unfortunately... – sooprise Aug 18 '11 at 15:00
@sooprise: Then you introduced an error somewhere. This works. The whole point of `first` is the fact, that you first need an OrderBy and only then can use ThenBy. Please update your question with the exact code you used. – Daniel Hilgarth Aug 18 '11 at 15:06
I have the exact same code as you, but I'm using a for instead of foreach and checking if i==0 instead of if first==true. – sooprise Aug 18 '11 at 15:14
@sooprise: I fixed the code, because it didn't even compile. Now it should work correctly. Please note: `OrderBy` needs to be called on `list` and all `ThenBy`s need to be called on `result`. I tested it and it works as expected. You can paste this code into LINQPad to verify it. – Daniel Hilgarth Aug 19 '11 at 7:58