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I am using this LINQ statement to sort a list by product name (ascending order) which contains product names (string) and Sizes available for each product (List<byte>);

LinkedList<FullItemDetails> itemDetails = new LinkedList<FullItemDetails>();  

public class FullItemDetails   
{
    public string ProductName { get; set; }
    public List<byte> Sizes { get; set; }
}

Now every time I input a new entry ex; Jacket,6,12,18,10, I think my program is sorting my list all over again;

itemDetails.AddLast(fullItemDetails);

//SortedProducts
itemDetails = Products.OrderBy(x => x.ProductName).ToList();

If the list is already sorted I only need to put the last entry in its correct place. What is the best way to do it. Also to reduce the complexity of the algorithm. thanks

share|improve this question
1  
Depending on how big a set of data you are working with, is it a performance hit to reorder every time? That method has to compare the product names to determine order, and your inserting in the correct place is going to be doing the same. You will have o(N) speed in this case. If the dataset isn't huge, I wouldn't worry about it. – Justin Jan 22 '13 at 15:40
1  
Are you using a LinkedList or a List? You declare a LinkedList but LINQ returns a List. – Rawling Jan 22 '13 at 15:51
up vote 2 down vote accepted

This seems like an ideal problem for a SortedList, as you have a key (name) and value (List<int> for the size).

Documentation is available here: http://msdn.microsoft.com/en-us/library/system.collections.sortedlist.aspx

The list declaration would look like this: SortedList<string, List<int> >. All inserts would be sorted on string, and the values can be enumerated based on each key.

share|improve this answer
2  
SortedSet is probably an even better fit. – jessehouwing Jan 22 '13 at 15:53
    
Worked perfect thanks. I read that SortedList uses binary search for searching for a key. The complexity is O(logN). I assume this is the same for inserting a single entry in its correct place. – jovicks Jan 22 '13 at 17:27
1  
SortedList insertion is O(N). Consider using SortedSet instead, as jessehouwing noted. – Timothy Shields Jan 22 '13 at 17:28
    
Both are good, it depends what he needs. If he wants all sizes associated with a particular product name, the SortedList may be better for out of the box functionality. SortedSet coupled with a Tuple may also fit the bill, or even concatenating the candidate values (name + size). Depends on implementation, but upvotes for noting SortedSet :) – Tawnos Jan 22 '13 at 22:48
    
And user..., the big O complexity for insertion is O(n) as Timothy Shields mentioned, because the worst case for insertion is to have to resize the list. However, when inserting into a list that is below capacity, it is only O(logN), as you noted. – Tawnos Jan 22 '13 at 22:52

Instead of List<T>, use SortedList<TKey, TValue> or SortedSet<T>. You can pass in an IComparer<T> to use a specific sorting algorithm through the respective constructor. Should you want to use a Lambda expression, you can use a small wrapper class to wrap a Comparison<T>.

Which will result in something like:

ICollection<FullItemDetails> _itemList = new SortedSet<FullItemDetails>(new ComparisonComparer<FullItemDetails>((x,y) -> x.ProductName.CompareTo(y.ProductName))

Your collection will now always be ordered.

When you're using .NET 4.5, you can use Comparer<T>.Create to create an IComparer implementation from a lambda expression.

share|improve this answer
1  
BTW, it's not SortedList<T>, it's SortedList<TKey, TValue>. – svick Jan 22 '13 at 16:00
    
Thanx, fixed. That's why I also included the SortedSet<T>. SortedList is more like an automated Dictionary than a sorted list. – jessehouwing Jan 22 '13 at 16:07

You can use a SortedList<string,FullItemDetails>.

And you add your times like that list.Add(fullItemDetails.Name,fullItemDetails)

[Edit] : The order will be conserved after adding or removing an element.

[Edit2] Using LINQ you use a list to store your items (adding/removing) : List<FullItemDetails> originalList and other property to read your sorted data :

IEnumerable<FullItemDetails> sortedList = originalList.OrderBy(e => e.Name).ThenBy(e => /* logic to order by another property*/);

and now you can iterate through your sortedList and as this sorted list is an IEnumerable<T> each time you iterate through it you will have exactly the same elements as in your originalList (after adding or removing items).

In other words : sortedList only contains the logic to read your originalList.

Hope this helps. Regards.

share|improve this answer
    
I am trying to use your method but since each entry will have a list of sizes apart from the name I need to store them aswell. How can I implement your method for the sizes as well? – jovicks Jan 22 '13 at 16:44
    
In this case I can propose another solution using LINQ (cf. Edit2 on my answer) – polkduran Jan 22 '13 at 16:50

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