Is there a Lower Bound function on a SortedList<K ,V>? The function should return the first element equal to or greater than the specified key. Is there some other class that supports this?

Guys - please read the question once again. I do not need a function that returns the key if it is present. I'm interested in scenario when there is no exact key matching.

I'm interested in O(log n) time. It means that I do not have a problem with foreach loop, but rather would like to have an efficient way of doing this.

I have done some tests on this.

Linq statements are not optimized by neither the compiler nor runtime machine, so they walk through all collection elements and are slow O(n). Based on Mehrdad Afshari answer, here is a Binary Search that works in O(log n) on the Keys collection:

public static int FindFirstIndexGreaterThanOrEqualTo<T>(
            this IList<T> sortedCollection, T key
        ) where T : IComparable<T> {
    int begin = 0;
    int end = sortedCollection.Count;
    while (end > begin) {
        int index = (begin + end) / 2;
        T el = sortedCollection[index];
        if (el.CompareTo(key) >= 0)
            end = index;
            begin = index + 1;
    return end;

Binary search the SortedList.Keys collection.

Here we go. This is O(log n):

private static int BinarySearch<T>(IList<T> list, T value)
    if (list == null)
        throw new ArgumentNullException("list");
    var comp = Comparer<T>.Default;
    int lo = 0, hi = list.Count - 1;
    while (lo < hi) {
            int m = (hi + lo) / 2;  // this might overflow; be careful.
            if (comp.Compare(list[m], value) < 0) lo = m + 1;
            else hi = m - 1;
    if (comp.Compare(list[lo], value) < 0) lo++;
    return lo;

public static int FindFirstIndexGreaterThanOrEqualTo<T,U>
                          (this SortedList<T,U> sortedList, T key)
    return BinarySearch(sortedList.Keys, key);
  • Isn't the collection generated every time we read Keys property? – agsamek Feb 27 '09 at 13:35
  • 1
    agsamek: Nope, it's not regenerated. It'll return an instance of internal class KeyList which provides direct access to the elements in the original collection. Nothing is copied in the process. – mmx Feb 27 '09 at 13:47
  • The "no copy for Keys and Values" is the main diference with a SortedDictionary – Julien Roncaglia Feb 27 '09 at 15:02
  • 7
    To avoid the overflow: var m = low + (hi - low)/2 – Erwin Mayer Feb 6 '13 at 16:53
  • 1
    @AgentFire O(log(n, base1)) == O(log(n, base2)) for all valid bases. proof: log(n, base1) = log(n, base2) * log(base1, base2) and log(base1, base2) is a constant which makes it asymptotically irrelevant. So you can omit the base when talking about O(log(..)) of something – mmx Dec 17 '18 at 23:06

I'd go with LINQ (presuming you're using C#3), but using the overload of FirstOrDefault that takes a predicate:

first = sortedList.FirstOrDefault(x => x >= theObjectForComparison);

(a lot of the other Enumerable methods can also take predicates which is a nice shortcut)


Not aware of one, but it's a simple LINQ statement:

first = sortedList.Where(x => x >= theObjectForComparison).FirstOrDefault();

first will either be the first object that passes the comparison or default(T) (which is normally null).


DaveW's version:

first = sortedList.FirstOrDefault(x => x >= theObjectForComparison);

does the same job but could potentially be faster, you'd have to test it though.


Or you can write own extension method to do this. Note that all those functions are NOT guaranteed to go in a sequesce.


Is there a Lower Bound function on a SortedList<K ,V>? The function should return the first element equal to or greater than the specified key.

This example is implemented as an extension to SortedList and it returns the value of the smallest element greater than or equal to provided key. It returns default(TValue) in case all keys are smaller than provided key or if an empty list was provided

public static TValue LowerBound<TKey, TValue>(this SortedList<TKey, TValue> list, TKey key) {
  if (list.Count == 0)
    return default;

  var comparer = list.Comparer;
  if (comparer.Compare(list.Keys[list.Keys.Count - 1], key) < 0)
    return default; // if all elements are smaller, then no lower bound

  int first = 0, last = list.Count - 1;
  while (first < last) {
    var middle = first + (last - first) / 2;
    if (comparer.Compare(list.Keys[middle], key) >= 0)
      last = middle;
      first = middle + 1;
  return list[list.Keys[last]];

Usage example:

SortedList<string, Object> myList = new SortedList<string, Object>();
var value = myList.LowerBound<string, Object>("theKey");

Hopefully this should be faster, depending on SortedList's implementation.

public static int FindFirstIndexGreaterThanOrEqualTo<K, V>(
        this SortedList<K, V> sortedCollection, K key
    ) where V : new()
    if (sortedCollection.ContainsKey(key))
        return sortedCollection.IndexOfKey(key);
    sortedCollection[key] = new V();
    int retval = sortedCollection.IndexOfKey(key);
    return retval;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.