# What is the most efficient pattern/algorithm to compare two lists and find the delta between those two lists?

We have two lists, let's say students and their scores. I want to compare these two lists and find the delta between the new list and the old list, then find the least intrusive way to Insert or Update into the new list any changes. What is the best algorithm to approach this? Want to focus on minimal amount of changes to new list and performance.

Example code:

``````List<ListItem> existingList = new List<ListItem>();
List<ListItem> newList = new List<ListItem>();

public TopLists()
{
InitTwoLists();
}

private void InitTwoLists()
{
existingList.Add(new ListItem { Name = "Shane", Score = 100 });
existingList.Add(new ListItem { Name = "Mark", Score = 95 });
existingList.Add(new ListItem { Name = "Shane", Score = 94 });
existingList.Add(new ListItem { Name = "Steve", Score = 90 });
existingList.Add(new ListItem { Name = "Brian", Score = 85 });
existingList.Add(new ListItem { Name = "Craig", Score = 85 });
existingList.Add(new ListItem { Name = "John", Score = 82 });
existingList.Add(new ListItem { Name = "Steve", Score = 81 });
existingList.Add(new ListItem { Name = "Philip", Score = 79 });
existingList.Add(new ListItem { Name = "Peter", Score = 70 });

newList.Add(new ListItem { Name = "Shane", Score = 100 });
newList.Add(new ListItem { Name = "Steve", Score = 96 });  // This is change
newList.Add(new ListItem { Name = "Mark", Score = 95 });
newList.Add(new ListItem { Name = "Shane", Score = 94 });
newList.Add(new ListItem { Name = "Brian", Score = 85 });
newList.Add(new ListItem { Name = "Craig", Score = 85 });
newList.Add(new ListItem { Name = "John", Score = 82 });
newList.Add(new ListItem { Name = "Steve", Score = 81 });
newList.Add(new ListItem { Name = "Philip", Score = 79 });
newList.Add(new ListItem { Name = "Peter", Score = 70 });
}
}

public void CompareLists()
{
// How would I find the deltas and update the new list with any changes from old?
}
}

public class ListItem
{
public string Name { get; set; }
public int Score { get; set; }
}
``````

** EDIT: Desired Output *

The desired output is to actually change the newList with the deltas. For example in this scenario:

``````newList.Add(new ListItem { Name = "Shane", Score = 100 });
newList.Add(new ListItem { Name = "Steve", Score = 96 });  // This is change
newList.Add(new ListItem { Name = "Mark", Score = 95 });
newList.Add(new ListItem { Name = "Shane", Score = 94 });
newList.Add(new ListItem { Name = "Brian", Score = 85 });
newList.Add(new ListItem { Name = "Craig", Score = 85 });
newList.Add(new ListItem { Name = "John", Score = 82 });
newList.Add(new ListItem { Name = "Steve", Score = 81 });
newList.Add(new ListItem { Name = "Roger", Score = 80 });  // Roger is a new entry
newList.Add(new ListItem { Name = "Phillip", Score = 79 });  // Philip moved down one
``````

// Peter drops off this list with his score of 70, since I only want the top 10.

So the changes would be:

Update record 2 for "Steve", the score has changed Insert new record "Roger" at position 9 Drop record for "Peter" off of the top 10.

-
Are you looking for a general solution? Or are there certain constraints like a specific sort order of the lists? – Dirk Vollmar Sep 10 '10 at 19:52
Should we assume that the lists will be identical in size? Do you also want to find members in list A that are not in list B and vice versa? – Dave Swersky Sep 10 '10 at 19:54
general solution. the lists would always be equal. The sort order is always the sort of the score descending. – Shane Sep 10 '10 at 19:55
What format should the result be? – Dirk Vollmar Sep 10 '10 at 20:05
I don't get it. You have an old list and new list. Do you want to find deltas, to apply to the old list, to get the new list? And the output is the new list constructed again from an old one and found deltas? – Maciej Hehl Sep 10 '10 at 20:58

Can you use Linq:

``````List<ListItem> list1 = GetYourList1();
List<ListItem> list2 = GetYourList2();
var diff = list1.Except(list2);
``````

``````var diff = newList.Except(existingList);
``````

Not sure if it is the most efficient but it's concise :)

-
However, the OP is asking for an algorithm, not an existing solution. – Oded Sep 10 '10 at 19:56
You may have to try this out, it should work in theory but in practice it will depend on how ListItem implements the equality comparer. Might be better to create a Student class and override Equals. – Dave Swersky Sep 10 '10 at 19:58
How about items that are in list2 but not list1? I think this way only detects newly added elements. In addition, you also need to implement an appropriate implementation for the `IEquatable<T>` interface. – Dirk Vollmar Sep 10 '10 at 19:58
@Oded: The title says "pattern/algorithm." I think LINQ qualifies as a pattern. – Dave Swersky Sep 10 '10 at 19:59
@Dave Swersky - LINQ is a set of query language extensions, not a pattern. – Oded Sep 10 '10 at 20:01

If you're looking for a general, language-agnostic solution, then you're looking for some kind of data synchronization of ordered lists. The basic algorithm would be:

``````i1 = 0
i2 = 0
while (i1 < list1.size && i2 < list2.size)
{
if (list1[i1] < list2[i2])
{
//list1[i1] is not in list2
i1++
}
else if (list1[i1] > list2[i2])
{
//list2[i2] is not in list1
i2++
}
else
{
//item is in both lists
i1++
i2++
}
}
if (i1 < list1.size)
//all remaining list1 items are not in list2
if (i2 < list2.size)
//all remaining list2 items are not in list1
``````
-

This should be able to do the trick if you don't have the same name twice in your list. In your example, you have 2x Steve, but you need a way to distinct between them.

``````public static List<ListItem> CompareLists(List<ListItem> existingList, List<ListItem> newList)
{
List<ListItem> mergedList = new List<ListItem>();
return mergedList.OrderByDescending(x => x.Score).Take(10).ToList();
}

public class ListItemComparer : IEqualityComparer<ListItem>
{
public bool Equals(ListItem x, ListItem y)
{
return x.Name == y.Name;
}

public int GetHashCode(ListItem obj)
{
return obj.Name.GetHashCode();
}
}
``````

You can call it like this:

``````newList = CompareLists(existingList, newList);
``````
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