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A dictionary object that uses ranges of values for keys

I have need of a sort of specialized dictionary. My use case is this: The user wants to specify ranges of values (the range could be a single point as well) and assign a value to a particular range. We then want to perform a lookup using a single value as a key. If this single value occurs within one of the ranges then we will return the value associated to the range.

For example:

``````// represents the keyed value
struct Interval
{
public int Min;
public int Max;
}

// some code elsewhere in the program
var dictionary = new Dictionary<Interval, double>();
dictionary.Add(new Interval { Min = 0, Max = 10 }, 9.0);
var result = dictionary[1];
if (result == 9.0) JumpForJoy();
``````

This is obviously just some code to illustrate what I'm looking for. Does anyone know of an algorithm to implement such a thing? If so could they point me towards it, please?

I have already tried implementing a custom IEqualityComparer object and overloading Equals() and GetHashCode() on Interval but to no avail so far. It may be that I'm doing something wrong though.

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You'd have to implement your own custom collection. I don't think you can what you are asking for with the standard Dictionary class. – Nick Jan 27 '10 at 14:22
Since your interval bounds are integers, if your domain is sufficiently small and no two intervals overlap, you could just use an array of doubles. In your example, array elements at index 0 to 10 would be set to 9.0. Lookup is then O(1). – Michael Petito Jan 27 '10 at 16:23
I would say overriding the `Equals` properly would give you the correct result, but that means you can not have two keys that overlap together in the dictionary – nawfal Apr 6 '13 at 8:09

A dictionary is not the appropriate data structure for the operations you are describing.

If the intervals are required to never overlap then you can just build a sorted list of intervals and binary search it.

If the intervals can overlap then you have a more difficult problem to solve. To solve that problem efficiently you'll want to build an interval tree:

http://en.wikipedia.org/wiki/Interval_tree

This is a well-known data structure. See "Introduction To Algorithms" or any other decent undergraduate text on data structures.

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The intervals are not allowed to overlap in my simulation so I'll stick to the SortedList. thanks for the advice Eric! – Jeffrey Cameron Jan 28 '10 at 12:50
While the comment from Jeffrey Cameron is quite old, it is worth nothing the SortedList does not have a fast find nearest key operation at this time. At this time, the List class and List.BinarySearch method are what can provide fast nearest key lookups. – Cameron Oct 25 '15 at 21:15

This is only going to work when the intervals don't overlap. And your main problem seems to be converting from a single (key) value to an interval.

I would write a wrapper around SortedList. The SortedList.Keys.IndexOf() would find you an index that can be used to verify if the interval is valid and then use it.

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I just tried it by using a standard SortedList with a custom comparer (that checks to see if the intervals intersect or not. It's working well! – Jeffrey Cameron Jan 27 '10 at 15:47
Indeed, if the intervals are required to not overlap then the problem is trivial; you can just binary search a sorted list. If the intervals are allowed to overlap then you have a rather more difficult problem. – Eric Lippert Jan 27 '10 at 16:42

I have solved a similar problem by ensuring that the collection is contiguous where the intervals never overlap and never have gaps between them. Each interval is defined as a lower boundary and any value lies in that interval if it is equal to or greater than that boundary and less than the lower boundary of the next interval. Anything below the lowest boundary is a special case bin.

This simplifies the problem somewhat. We also then optimized key searches by implementing a binary chop. I can't share the code, unfortunately.

-

This isn't exactly what you want but I think it may be the closest you can expect.

You can of course do better than this (Was I drinking earlier?). But you have to admit it is nice and simple.

``````var map = new Dictionary<Func<double, bool>, double>()
{
{ d => d >= 0.0 && d <= 10.0, 9.0 }
};

var key = map.Keys.Single(test => test(1.0))
var value = map[key];
``````
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intriguing, I hadn't thought of using a function as a key ... ! The point of my using Dictionary was to have O(1) lookup though since this table will be queried many times. Is there any way to make the lookup quicker? – Jeffrey Cameron Jan 27 '10 at 15:46
This is O(n) in lookups. You can do way better than that. – Eric Lippert Jan 27 '10 at 16:06
@Eric - Eventually the embarrassment kind of blends together. :) – ChaosPandion Jan 27 '10 at 16:55

I would make a little Interval class, which would something like that:

``````public class Interval
{
public int Start {get; set;}
public int End {get; set;}
public int Step {get; set;}
public double Value {get; set;}

public WriteToDictionary(Dictionary<int, double> dict)
{
for(int i = Start; i < End; i += Step)
{
}
}
}
``````

So you still can a normal lookup within your dictionary. Maybe you should also perform some checks before calling `Add()` or implement some kind of rollback if any value is already within the dictionary.

-

You can find a Java flavored C# implementation of an interval tree in the Open Geospatial Library. It needs some minor tweaks to solve your problem and it could also really use some C#-ification.

It's Open Source but I don't know under what license.

-

You could check out the powercollections here found on codeplex that has a collection that can do what you are looking for.

Hope this helps, Best regards, Tom.

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What collection type would that be? – Jørn Schou-Rode Jan 27 '10 at 14:36
@Jorn Schou-Rode: MultiDictionary, 'MultiDictionary class that associates values with a key. Unlike an Dictionary, each key can have multiple values associated with it. When indexing an MultiDictionary, instead of a single value associated with a key, you retrieve an enumeration of values.' – t0mm13b Jan 27 '10 at 14:45
That makes no sense as the OP wants to map an interval of values to one single value. So the it's the key that needs to consist of multiple values, ether the interval boundaries or all values in that interval. – Frank Bollack Jan 27 '10 at 15:30
@Frank: As per the documentation, 'MultiDictionary<TKey, TValue>', and 'When constructed, you can chose to allow the same value to be associated with a key multiple times, or only one time.', and that one of the methods was 'AddMany' which implies 'Adds new values to be associated with a key. If duplicate values are permitted, this method always adds new key-value pairs to the dictionary. If duplicate values are not permitted, and key already has a value equal to one of values associated with it, then that value is replaced, and the number of values associate with key is unchanged.' – t0mm13b Jan 27 '10 at 15:40
A multi dictionary is not an appropriate data structure to represent an interval tree. – Eric Lippert Jan 27 '10 at 16:04