# Binary Search Keys of C# SortedList

I need to write some code for linear interpolation and I am trying to figure out the most efficient way to search the Keys of a SortedList for the upper and lower keys that surround my target key.

``````SortedList<int, double> xyTable = new SortedList<int, double>()
{
{1, 10}, {2, 20}, {3, 30}, {4,40}
};

double targetX = 3.5;
``````

What is the most efficient way to search the search the list and determine that 3.5 is between 3 and 4? I have a method / cheat that works for integers (temporarily insert the targetKey into the list then find the index) but I figured i'd ask the pros so I could produce quality code.

Thanks.

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sorted sounds perfect for binary search –  Marc May 23 '11 at 19:24

In my case the source `SortedList` is not changing much, since its being used as a lookup table. So in this case it makes sense to convert the `SortedList` to a `List<T>` once. After that it is quite easy to use the built-in BinarySearch method of `List<T>`...

``````double targetX = 3.5;

// Assume keys are doubles, may need to convert to doubles if required here.
List<double> keys = xyTable.Keys.ToList();

int ipos = keys.BinarySearch(targetX);

if (ipos >= 0)
{
// exact target found at position "ipos"
}
else
{
// Exact key not found: BinarySearch returns negative when the
// exact target is not found, which is the bitwise complement
// of the next index in the list larger than the target.
ipos = ~ipos;
if (ipos >= 0 && ipos < keys.Count)
{
if (ipos > 0)
{
// target is between positions "ipos-1" and "ipos"
}
else
{
// target is below position "ipos"
}
}
else
{
// target is above position "ipos"
}
}
``````
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``````public class Bounds
{
int lower;
int upper;

public Bounds(int lower, int upper)
{
this.lower = lower;
this.upper = upper;
}
}

public Bounds BinarySearch(List<int> keys, double target)
{
// lower boundary case returns the smallest key as the lower and upper bounds
if (target < keys[0])
return new Bounds(0, 0);

else if (target < keys[1])
return new Bounds(0, 1);

// upper boundary case returns the largest key as the lower and upper bounds
else if (target > keys[keys.Length - 1])
return new Bounds(keys.Length - 1, keys.Length - 1);

else if (target > keys[keys.Length - 2])
return new Bounds(keys.Length - 2, keys.Length - 1);

else
return BinarySearch(keys, target, 0, keys.Length - 1);

}

// 'keys' is a List storing all of the keys from your SortedList.
public Bounds BinarySearch(List<int> keys, double target, int lower, int upper)
{
int middle = (upper + lower)/2;

// target is equal to one of the keys
if (keys[middle] == target)
return new Bounds(middle - 1, middle + 1);

else if (keys[middle] < target && keys[middle + 1] > target)
return new Bounds(middle, middle + 1);

else if (keys[middle] > target && keys[middle - 1] < target)
return new Bounds(middle - 1, middle);

if (list[middle] < target)
return BinarySearch(list, target, lower, upper/2 - 1);

if (list[middle] > target)
return BinarySearch(list, target, upper/2 + 1, upper);
}
``````

This might work..I didn't test it out. If not, hopefully it's close enough that you can use it with minor tweaks. This is a strange problem, so I handled all of the boundary cases so I didn't have to think about what the algorithm would do when the range was down to 2 elements or less.

-
Why not use `List<T>.BinarySearch()`? –  svick May 23 '11 at 20:41
I'm not very familiar with it..will the List<T>.BinarySearch() be sufficient for finding what he's looking for? –  alexD May 23 '11 at 20:45
it would be, if he hed `List<T>`, but he only has `IList<T>`, so your solution is a actually a good suggestion. –  svick May 23 '11 at 20:47

A binary search gives you decent performance on a list. However the Keys property on `SortedList` is of type `IList`, whereas `BinarySearch` is defined on `List`. Fortunately, you can find an implementation of binary search for `IList` in this related question:

How to perform a binary search on IList<T>?

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