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Whenever I want to insert into a SortedList, I check to see if the item exists, then I insert. Is this performing the same search twice? Once to see if the item is there and again to find where to insert the item? Is there a way to optimize this to speed it up or is this just the way to do it, no changes necessary?

if( sortedList.ContainsKey( foo ) == false ){
    sortedList.Add( foo, 0 );
}
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Is there an else branch? You may get a better answer if you show it. –  dasblinkenlight Nov 8 '12 at 16:16
4  
SortedList isn't a particularly good data structure; it's rarely desirable. Why not use a SortedDictionary or just a List? Odds are one of the two would be preferable. –  Servy Nov 8 '12 at 16:17
    
Dasblinkenlight - I don't have an else present. If the key is already present I don't do anything. cirrus - I don't think that the ContainsKey is slow, I was wondering if the ContainsKey combined with the Add together are necessary. –  mj_ Nov 8 '12 at 16:19
1  
Hint: if(!sortedList.ContainsKey( foo )) –  Vloxxity Nov 8 '12 at 16:57
1  
@Servy I disagree. When all the user wants is the lacking feature of the appropriate data structure, its better to use structure that is not lacking. That's when it becomes appropriate, unfortunately "given the circumstances". I repeat I was only against your generalized statement that SortedList is a poor structure "given the circumstances". So here's a question: What if I need a lot of index based operations, binary searches, and min/max operations on a sorted map? It's not rare. Given the options in .NET, there's no better alternative to SortedList. SortedDictionary is a poor choice here. –  nawfal Jun 12 at 19:17

4 Answers 4

up vote 5 down vote accepted

You can add the items to a HashSet and the List, searching in the hash set is the fastest way to see if you have to add the value to the list.

if( hashSet.Contains( foo ) == false ){
    sortedList.Add( foo, 0 );  
    hashSet.Add(foo);
}
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Even better, with a HashSet you don't even need to check and see if it's there, you can just Add it again and if it already exists nothing will happen (very low performance hit). The only disadvantage is you don't get sorting. –  ean5533 Nov 8 '12 at 16:17
2  
Why even keep the SortedList around in this case? Just use either a Dictionary or SortedDictionary in the first place. –  Servy Nov 8 '12 at 16:19
    
@ean5533: I think the idea here was to keep to parallel collections. The unsorted hash set for quick lookup of keys and a the sorted list for actual values. Of course, this requires more memory and I'd want to profile it before I'd believe it's actually faster. sortedList.Add still has to find the right place in the list for the insertion. –  Matt Burland Nov 8 '12 at 16:28
1  
@Servy: I assume the OP wanted the items sorted, for whatever reason. MSDN has some comments on the differences between SortedList and SortedDictionary. For example, SortedList uses less memory, but has slower insertions. Of course, the solution proposed by peer, undoubtedly blows any memory savings! –  Matt Burland Nov 8 '12 at 16:32
    
@MattBurland Yes, I'm aware of the differences. The insertions really are quite slow for non trivial amounts of data, and the memory cost of the alternatives aren't that much higher while the performance benefits really are. I posted it as a comment rather than an answer simply because it's possible that there is good reason for using a SortedList, and the OP hasn't given enough context to be sure. I find it very unlikely that it's the case though. –  Servy Nov 8 '12 at 16:36

You can use the indexer. The indexer does this in an optimal way internally by first looking for the index corresponding to the key using a binary search and then using this index to replace an existing item. Otherwise a new item is added by taking in account the index already calculated.

list["foo"] = value;

No exception is thrown whether the key already exists or not.


UPDATE:

If the new value is the same as the old value, replacing the old value will have the same effect than doing nothing.

Keep in mind that a binary search is done. This means that it takes about 10 steps to find an item among 1000 items! log2(1000) ~= 10. Therefore doing an extra search will not have a significant impact on speed. Searching among 1,000,000 items will only double this value (~ 20 steps).

But setting the value through the indexer will do only one search in any case. I looked at the code using Reflector and can confirm this.

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3  
This will add whether or not it already exists; he only wants to add if it doesn't already exist. –  Rawling Nov 8 '12 at 16:25
    
I tested this and found it no faster than calling ContainsKey() and then adding. –  Jon B Nov 8 '12 at 16:30
    
@Rawling: No, if the key already exists, the existing value will be replaced, which makes no difference, if the new value is the same. You will never get a duplicate entry. If, however, the value changed and you want to keep the old one, then you are right, you will have to perform a check before adding. –  Olivier Jacot-Descombes Nov 8 '12 at 16:31
1  
@JonB It should be faster, it only does one search. Olivier: Yes it will be replaced if the key already exists. The asker specifically wants to do nothing if the key already exists. –  Rawling Nov 8 '12 at 16:33
1  
@JonB: That might well be the case. This simply means that there is no more efficient way (in terms of speed) to do it; however, it simplifies your code a little bit. A binary search is very efficient therefore the extra search will not make a big difference unless the collection is huge. Make a test with 100,000,000 entries! –  Olivier Jacot-Descombes Nov 8 '12 at 16:34

ContainsKey does a binary search, which is O(log n), so unless you list is massive, I wouldn't worry about it too much. And, presumably, on insertion it does another binary search to find the location to insert at.

One option to avoid this (doing the search twice) is to use a the BinarySearch method of List. This will return a negative value if the item isn't found and that negative value is the bitwise compliment of the place where the item should be inserted. So you can look for an item, and if it's not already in the list, you know exactly where it should be inserted to keep the list sorted.

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2  
It's already using a binary search behind the scenes. (Actually now I see what you're getting at, this would be neat if he wasn't already using a SortedList.) –  Rawling Nov 8 '12 at 16:20
1  
+1 In the OPs specific scenario he would actually be better off with a regular List - because BinarySearch can be used to perform a single search to check for existence and the insertion index, you can do an insert-if-doesn't-exist with a single search. BinaryList doesn't expose this functionality. –  Rawling Nov 8 '12 at 16:29
    
"binary search, which is O(n log n)" - really? You have an extra n... Or you mean something different? –  Alexei Levenkov Nov 8 '12 at 16:33
    
@AlexeiLevenkov: Whoops. Corrected. –  Matt Burland Nov 8 '12 at 16:35
    
@Rawling: Yeah. Kind of odd that SortedList doesn't provide that already. –  Matt Burland Nov 8 '12 at 16:36

I'm sorry if this doesn't answer your question, but I have to say sometimes the default collection structures in .NET are unjustifiably limited in features. This could have been handled if Add method returned a boolean indicating success/failure very much like HashSet<T>.Add does. So everything goes in one step. In fact the whole of ICollection<T>.Add should have been a boolean so that implementation-wise it's forced, very much like Collection<T> in Java does.

You could either use a SortedDictionary<K, V> structure as pointed out by Servy or a combination of HashSet<K> and SortedList<K, V> as in peer's answer for better performance, but neither of them are really sticking to do it only once philosophy. I tried a couple of open source projects to see if there is a better implementation in this respect, but couldn't find.

Your options:

  1. In vast majority of the cases it's ok to do two lookups, doesn't hurt much. Stick to one. There is no solution built in.

  2. Write your own SortedList<K, V> class. It's not difficult at all.

  3. If you'r desperate, you can use reflection. The Insert method is a private member in SortedList class. An example that does.. Kindly dont do it. It's a very very poor choice. Mentioned here for completeness.

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