# Comparing two IEnumerable to detect changes

For my first post here, I have a question regarding IEnumerable comparison. I have a bindable structure based on an enumeration logic. The content of the IEnumerable changes over time and I have to manually fire CollectionChanged events.

I have a very naive algorithm that allows me to detect simple changes between two states of the IEnumerable (simple add, simple remove, multiple add, multiple remove) but it's not very efficient and does not detect everything.

A quick example of what I need :

State 1 of the IEnumerable : A * B * C * D * E

State 2 of the IEnumerable : A * C * B * D * D1

For this example, I would have to detect

• One move operation : B changed index from 1 to 2
• One Add operation : D1 was inserted at index 4
• One remove operation : E was removed

Is there an algorithm to solve this problem as efficiently as possible ( O(nLog(n)) would be a good start) ?

Thanks !

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has B moved from index 1 -> 2 or has C moved from 2 -> 1? or both? –  James Barrass Mar 23 '12 at 10:12
If state 1 is `A B` and state 2 is `B A A`, have two items been added, or one added and one moved? If `A` moved, where did it move to? –  Jon Mar 23 '12 at 10:15
@JamesB : B moved from index 1 -> 2 information should be enough ! –  Sisyphe Mar 23 '12 at 10:17
If an item is removed from the list then all subsequent items have moved, right? –  Jodrell Mar 23 '12 at 10:19
There seem far too many ambiguous situations. Given ABCDEFG -> AEFBCEFDG, The EF has moved, but has it moved to the first EF or the second? –  GazTheDestroyer Mar 23 '12 at 12:25

This is uncompiled, untested and atleast partially psuedo code.

Given a single move detection being sufficient Items can only move forward, moving backwards will be the result of another item being move or removed

e.g. State 1 of the IEnumerable : A * B * C * D * E

State 2 of the IEnumerable : A * D * B * C * D1

Result in both B and C moving forward.

``````enum1pos = -1;
enum2pos = 0;
Value2 = enum2.Next()
enum2pos++;
List<int> SkipList = new SkipList();
while(enum1 has values left)
{
Value1 = enum1.Next()
enum1pos++;
//Skip over moved items.
while (SkipList.Count > 0 && SkipList[0] == enum2.Position)
{
Value2 = enum2.Next()
enum2pos++;
}
if (Value1 == Value2)
Value2 = enum2.Next()
enum2pos++;
continue;

int temp = enum2pos;
while(Value1 !=Value and enum2 has more values)
{
Value2 = enum2.Next();
enum2pos++;
}
if(Value1 != Value2)
ItemDeleted(Value1);
else
{
ItemMoved(Value1, enum2pos);
}
//This is expensive for IEnumerable!
enum2.First();
loop temp times
enum2.Next();
//if
}
while (enum2 has values left)
{
while (SkipList.Count > 0 && SkipList[0] == enum2.Position)
{
Value2 = enum2.Next()
enum2pos++;
}
if (enum2 has values left)
}
``````

Result: Compare A and A
Next
Compare B and D
Find B
B Moved -> 2
Reset Enum2
Compare C and D
Find C
C Moved -> 3
Reset Enum2
Next
Compare D and D
Next
Skip(2)
Skip(3)
Compare E and D1
Find E
Removed(E)
Next

I think there's a saving somewhere if enum2pos gets too far behind to see if it's been removed and if it hasn't add a skip to for it's original position in enum1, this would help with with enum2's position being reset all of the time.

-
Seems like a good option. O(n) at best, O(n*m) at worst. Thanks a lot :) –  Sisyphe Mar 23 '12 at 13:55
@Sisyphe, Glad I could help. Don't forget to accept an answer if it works for you :) –  James Barrass Mar 23 '12 at 14:01
Sure, I'll try an implementation by Monday ! Actually most of the IEnumerable operations will be single Add, single Remove, or single Move. In these cases, this algorithm should be very efficient. –  Sisyphe Mar 23 '12 at 14:21

If you prefer using Linq, here is a simple solution based on your example.. Sorry but not sure of the performance..

``````var a = new List<string>{"A","B","C","D","E"};
var b = new List<string>{"A","C","B","D","D1"};

var removed = a.Except(b);
var moved = a.Where(x => b[a.IndexOf(x)] != x && !removed.Contains(x));
List<string> newlyInserted = new List<string>();
foreach (var item in removed)
{
//Newly inserted into the list - D1
``````var newlyAdded = b.Except(a);