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I would like to clamp a value x to a range [a, b]:

x = (x < a) ? a : ((x > b) ? b : x);

This is quite basic. But I do not see a function "clamp" in the class library - at least not in System.Math.

(For the unaware to "clamp" a value is to make sure that it lies between some maximum and minimum values. If it’s greater than the max value, then it’s replaced by the max, etc.)

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@Danvil: There is no "C# Class Library". You mean "The .NET Framework". – John Saunders Apr 21 '10 at 14:01

5 Answers 5

up vote 64 down vote accepted

You could write an extension method:

public static T Clamp<T>(this T val, T min, T max) where T : IComparable<T>
    if (val.CompareTo(min) < 0) return min;
    else if(val.CompareTo(max) > 0) return max;
    else return val;

EDIT: Extension methods go in static classes - since this is quite a low-level function, it should probably go in some core namespace in your project. You can then use the method in any code file that contains a using directive for the namespace e.g.

using Core.ExtensionMethods

int i = 4.Clamp(1, 3);
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Where would I put this and is calling CompareTo slower than comparing with < (for integral types)? – Danvil Apr 21 '10 at 13:55
In a static class, and in the .NET framework (not sure about mono, compact, etc.), the generic should be recompiled for the type, and CompareTo inlined, so no performance penalty. – Robert Fraser Apr 21 '10 at 14:01
@Frasier Unless this is ultra performance sensitive code, you are unlikely to be making any meaningful performance gains by doing so. Having it be generic is probably more useful than saving a few microseconds. – MgSam Jun 6 '13 at 4:36
The good thing about constraining to the generic version of IComparable is that no boxing occurs. This ought to run very fast. Remember that with double and float, the CompareTo method corresponds to a total order where NaN is less than all other values, including NegativeInfinity. So it is not equivalent to the < operator. If you used < with a floating-point type, you would have to consider how to treat NaN also. This is not relevant for other numeric types. – Jeppe Stig Nielsen Aug 7 '13 at 20:05
@CodeClown - Extension methods are static methods so you can call it as int c = Clamp(a, b, c) if you want. However I don't see how this implementation suggests the type is being changed. If you mean it implies the this parameter is being mutated, then I disagree since it returns a value. – Lee Jan 16 at 10:21


public static int Clamp(int value, int min, int max)  
    return (value < min) ? min : (value > max) ? max : value;  
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There isn't one in the System.Math namespace

There is a MathHelper Class where it is available for the XNA game studio if that happens to be what you are doing:

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+1 for MathHelper, though I don't think I'll be using it. – Paul Draper Oct 30 '13 at 20:30

There isn't one, but its not too hard to make one, found one here: clamp

It is:

public static T Clamp<T>(T value, T max, T min)
         where T : System.IComparable<T> {     
        T result = value;
        if (value.CompareTo(max) > 0)
            result = max;
        if (value.CompareTo(min) < 0)
            result = min;
        return result;

and it can be used like:

int i = Clamp(12, 10, 0); -> i == 10
double d = Clamp(4.5, 10.0, 0.0); -> d == 4.5
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This solution is better than the accepted one. No ambiguity. – Code Clown Jan 16 at 10:06
@CodeClown This solution results in an unnecessary comparison when value > max, and the inverted argument order invites (and virtually guarantees) bugs. I don't know what ambiguity you think is avoided. – Jim Balter Sep 15 at 6:05

Why not just use Math.Min and Math.Max:

x = Math.Min(Math.Max(x, a), b);
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That translates to int a0 = x > a ? x : a; return a0 < b ? a0 : b which (although gives correct results) isn't exactly ideal. – Mr. Smith Apr 24 '14 at 3:25
and why is that? – d7samurai Apr 24 '14 at 10:14
@d7samurai If we know that min <= max, Math.Min(Math.Max(x, min), max) results in one more comparison than necessary if x < min. – Jim Balter Sep 15 at 5:58

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