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I have a need to store an integer range. Is there an existing type for that in C# 4.0?

Of course, I could write my own class with int From and int To properties and build in proper logic to ensure that From <= To. But if a type already exists, I'd of course rather use that.

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5 Answers 5

up vote 46 down vote accepted

I found it best to roll my own. Some people use Tuples or Points, but in the end you want your Range to be extensive and provide some handy methods that relate to a Range. It's also best if generic (what if you need a range of Doubles, or a range of some custom class?) For example:

    public class Range<T> where T : IComparable<T>
            /// <summary>
            /// Minimum value of the range
            /// </summary>
            public T Minimum { get; set; }

            /// <summary>
            /// Maximum value of the range
            /// </summary>
            public T Maximum { get; set; }

            /// <summary>
            /// Presents the Range in readable format
            /// </summary>
            /// <returns>String representation of the Range</returns>
            public override string ToString() { return String.Format("[{0} - {1}]", Minimum, Maximum); }

            /// <summary>
            /// Determines if the range is valid
            /// </summary>
            /// <returns>True if range is valid, else false</returns>
            public Boolean IsValid() { return Minimum.CompareTo(Maximum) <= 0; }

            /// <summary>
            /// Determines if the provided value is inside the range
            /// </summary>
            /// <param name="value">The value to test</param>
            /// <returns>True if the value is inside Range, else false</returns>
            public Boolean ContainsValue(T value)
                    return (Minimum.CompareTo(value) <= 0) && (value.CompareTo(Maximum) <= 0);

            /// <summary>
            /// Determines if this Range is inside the bounds of another range
            /// </summary>
            /// <param name="Range">The parent range to test on</param>
            /// <returns>True if range is inclusive, else false</returns>
            public Boolean IsInsideRange(Range<T> Range)
                    return this.IsValid() && Range.IsValid() && Range.ContainsValue(this.Minimum) && Range.ContainsValue(this.Maximum);

            /// <summary>
            /// Determines if another range is inside the bounds of this range
            /// </summary>
            /// <param name="Range">The child range to test</param>
            /// <returns>True if range is inside, else false</returns>
            public Boolean ContainsRange(Range<T> Range)
                    return this.IsValid() && Range.IsValid() && this.ContainsValue(Range.Minimum) && this.ContainsValue(Range.Maximum);
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Why not just use <= directly instead of using CompareTo, since even after you call CompareTo, you still have to use <= anyway. –  recursive Mar 17 '11 at 17:47
At the time, I wasn't sure that IComparable would guarantee the operator overload. I am guaranteed a CompareTo method, hence that usage. –  drharris Mar 17 '11 at 17:49
Turns out I was right in doing that: stackoverflow.com/questions/5101378/… –  drharris Mar 17 '11 at 17:56
Very much appreciated @drharris! This code snippet is at least a couple of iterations past what I would have cobbled together for now. many thanks! –  James Maroney Mar 17 '11 at 18:04
It started with a min and max and evolved from there. I then have a ton of extension methods that apply, but they mainly correlate with my own applications. Glad it could help! –  drharris Mar 17 '11 at 18:06

Works on C# 3.0:

IEnumerable<int> myRange = Enumerable.Range(1, 10);

Edit Please, keep in mind that:

  • There is no (immediate) performance hit by using that - it's Linq, so the execution is deferred.
  • There are methods like Min and Max already available.
  • IEnumerable also exposes methods like Contains, Intersect and Union - so ranges cannot only be queried, they also can be combined.
  • There are people who already use this for representing ranges (as opposed to simply enumerate over a collection of integers).

Of course, if by "store" the OP is only worried about data persistence (as opposed to data representation), he could use a simple DTO with two integer fields.

Still, he asks "Is there an existing type for that in C# 4.0?" - and I believe the answer is yes, there is, and it is called IEnumerable<int>.

Edit 2 Also keep in mind that Enumerable.Range may have really bad performance.

That's probably what troubles most of the downvoters of this answer: there are usecases where Enumerable.Range is not a practical option.

Still, I believe the following should also be considered:

  1. That it is semantically a sound way of representing an integer range.
  2. That it can be used for small ranges without any noticeable performance penalty.
  3. That the performance problem is accidental, meaning it's perfectly possible to return an IEnumerable<int> that is able to be queried against, without needing to iterate over the whole range.

Regarding the 3rd item, this library implements a Sequence.Create extension method. It works similarly to Enumerable.Range and also returns a IEnumerable<int>, but it is supposed to be more efficient.

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big difference between generating a list of numbers within a range and having a data structure that represents a range –  Robert Levy Mar 17 '11 at 18:02
The goal is not to "teach" you, we're just pointing out this doesn't really answer the question that's being asked, that's all. –  Meta-Knight Mar 17 '11 at 18:41
@rsenna: That's not the question, I know it's execution is deferred, but the goal of Enumerable.Range is to enumerate all integers from a range, not to store information about a range. But you're right that it CAN be used for this. It certainly wouldn't be efficient for big ranges, but it's an option. –  Meta-Knight Mar 17 '11 at 19:12
The key point here is that Enumerable.Range is a verb, not a noun. It creates an enumerable range, just like it says. It does not represent the concept of a range. Take another look at the original question. He's not asking for a list of integers, he's asking for a small object that represents something with a from/to or min/max. –  drharris Mar 17 '11 at 20:00
@rsenna: I accept your point about other types. Still a bad design approach. Try to create a Enumerable.Range(Int32.MinValue, Int32.MaxValue - 1) and test a Contains, as well as a Any call. It takes forever! So the picture is quite bad, and does not scale well either. I'd say that the Enumerable.Range approach has merits as a teaching tool for new students of C#, in an academic environment, but would be shot down in an instant in a real-life programming world by the majority of the programming peers. Also my intention was to point out something that caught my eye, no offense meant. –  code4life Mar 17 '11 at 20:48

Just a small class I wrote which could be helpful for someone:

    public class Range
        public static List<int> range(int a, int b)
            List<int> result = new List<int>();

            for(int i = a; i <= b; i++)

            return result;

        public static int[] Understand(string input)
            return understand(input).ToArray();

        public static List<int> understand(string input)
            List<int> result = new List<int>();
            string[] lines = input.Split(new char[] {';', ','});

            foreach (string line in lines)
                    int temp = Int32.Parse(line);
                    string[] temp = line.Split(new char[] { '-' });
                    int a = Int32.Parse(temp[0]);
                    int b = Int32.Parse(temp[1]);
                    result.AddRange(range(a, b).AsEnumerable());

            return result;

Then you just call:


And the result looks like:

    [0]: 1
    [1]: 5
    [2]: 6
    [3]: 7
    [4]: 8
    [5]: 9
    [6]: 14
    [7]: 16
    [8]: 17
    [9]: 20
    [10]: 21
    [11]: 22
    [12]: 23
    [13]: 24
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How about a struct?

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I wouldn't use a struct unless you knew that min & max values would never change once instantiated. –  IAbstract Mar 17 '11 at 17:58
also doesn't answer the "does this already exist" question –  Robert Levy Mar 17 '11 at 18:01
Struct is not a type in and of itself. You are basically saying "no go create your own type" - that's a legit answer –  Robert Levy Mar 17 '11 at 22:20
The first three words in the linked documentation disagree with you: "The struct type..." –  jsumners Mar 17 '11 at 23:11
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. –  Servy Aug 14 '12 at 19:22

Since I was also missing intervals in C#, I implemented a fully generic Interval class which can even take care of intervals with more complex types, e.g. an interval between two DateTime's, which involves TimeSpan's during calculations.

An example use case, where a GUI element represents a time interval:

// Mockup of a GUI element and mouse position.
var timeBar = new { X = 100, Width = 200 };
int mouseX = 180;

// Find out which date on the time bar the mouse is positioned on,
// assuming it represents whole of 2014.
var timeRepresentation = new Interval<int>( timeBar.X, timeBar.X + timeBar.Width );
DateTime start = new DateTime( 2014, 1, 1 );
DateTime end = new DateTime( 2014, 12, 31 );
var thisYear = new Interval<DateTime, TimeSpan>( start, end );
DateTime hoverOver = timeRepresentation.Map( mouseX, thisYear );

// If the user clicks, zoom in to this position.
double zoomLevel = 0.5;
double zoomInAt = thisYear.GetPercentageFor( hoverOver );
Interval<DateTime, TimeSpan> zoomed = thisYear.Scale( zoomLevel, zoomInAt );

// Iterate over the interval, e.g. draw labels.
zoomed.EveryStepOf( TimeSpan.FromDays( 1 ), d => DrawLabel( d ) );

For a more extensive representation of the supported functionality check out the unit tests.

Under the covers it uses expression trees to compile type operator operations at runtime, which are cached so there is only a cost the first time the type is initialized.

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