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I have a constant in my application which determines the operation of some other parts of the program. I change this constant to quickly and easily alter the operation of the program.

In my case, the constant is a bool so it can have one of two values.

I want to write a test that will make sure my code is working whether the constant is set to true or not.

For example, say my method is this:

public boolean IsEqual(float a, float b) {
    var epsilon = 0.0001;

    if (Constants.Exact) return (Math.Abs(a-b) < epsilon);
    else return (Math.Floor(a) == Math.Floor(b)); 

Constants looks like this:

public static class Constants {
    /// <summary>
    /// Determines whether an exact comparison should be made, or whether fractional parts should be disregarded.
    /// </summary>
    public const bool Exact = true;

And the test method is:

public void TestEquality() {
    var five = 5;
    var three = 3;

    Assert.True(Equals(five, three));

Solutions I could come up with:

  • Write the test as if the constant doesn't exist, set the constant to true and run tests, then set it to false and run tests. Bad because if I have 8 constants like this, I don't want to run the tests 256 times.
  • Don't make it a constant. Inside the test method, first set constant to true, assert, then false, assert again. However, the reason I made it a constant in the first place is so that it's guaranteed not to change at run-time.

I guess what I really want is a way to make it constant as far as the application proper is concerned, but not a constant as far as the test project is concerned.

So how can I make a situation like this work?

share|improve this question
I know this is not what you're asking, but comparing floating point numbers using == is rarely a good idea. Why do you want to enable this? –  Brian Rasmussen Nov 1 '12 at 13:49
You could make it static with an internal setter, then you just need to be sure that you don't change it within that project (or within projects that you expose it to via InternalsVisibleTo) –  Chris Sinclair Nov 1 '12 at 13:49
@BrianRasmussen Edited to add epsilon comparison, but it's just a simple example. I'm not actually comparing floats. –  Superbest Nov 1 '12 at 13:53
You probably should use a static readonly field rather than a const if you're going to be changing it. "Constants are forever." –  Jim Mischel Nov 1 '12 at 13:53
@JimMischel readonly fields can only be assigned to by constructors. Since test methods are not constructors, how would that allow me to set Constants.Exact from within the test method? –  Superbest Nov 1 '12 at 14:15

3 Answers 3

up vote 3 down vote accepted

Create two overloads of the function, one with an additional exact parameter and one using the Exact constant implicitly

public bool IsEqual(float a, float b)
    return IsEqual(a, b, Constants.Exact);

public bool IsEqual(float a, float b, bool exact)
    if (exact)
        return a == b;
        return Math.Floor(a) == Math.Floor(b);

Now you can test for any value of excat without relying on a predefined constant.

UPDATE using IEquatable<float> (see comments)

IEquatable<T>.Equals has only one parameter. Therefore I assume that the other value is defined as property Value in this example

public float Value { get; set; }

#region IEquatable<float> Members

public bool Equals(float other)
    return Equals(other, Constants.Exact);


public bool Equals(float other, bool exact)
    if (exact)
        return Value == other;
        return Math.Floor(Value) == Math.Floor(other);
share|improve this answer
You can do that, even if the method is called Equals and implements IEquatable<T>.Equals. With the overload you simply have an additional method that is not implementing the interface. I don't see any problems with it. –  Olivier Jacot-Descombes Nov 1 '12 at 14:05
Yes, I later realized that it doesn't affect inheritance, so I deleted the comment. –  Superbest Nov 1 '12 at 14:12

You could create the constant internally and represent it through a property, so you say

   private const bool _exact = false;

   public bool Exact 
     get { return _exact };
     set { throw new Exception("Don't set this, you crazy donkey") };

Then for testing you could create a class that inherits from your constant class but overrides the Exact property. As long as you call it by it's public-facing name within the parent class then you should be able to vary the value in test and keep it constant in your regular implementation.

Edit: In fact if your constants are all defined in a single class then the best way to work it is to simply extract the interface from that class, then you can switch implementation at test time ( or any other if you're using a DI framework of some kind ) or simply use a mocking framework to mock out whatever parts you need for a given test.

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So if in my test project I declare an override for Exact with a working setter, won't this fail to do anything because the IsEqual method explicitly references the Exact in the Constants class, not the one in the test class? –  Superbest Nov 1 '12 at 14:01
Yes, of course you are right, you would need to do this in the Constants class, not the one using the properties. –  glenatron Nov 2 '12 at 10:02

Use an enumeration instead of a constant. That way you prevent it from being changed to something unexpected, yet it is modifiable and can scale with more values.

share|improve this answer
An Enum variable can be set to values other than those in the enumeration definition; it's only a thin veneer around the backing type (typically int). You can perform var x = (MyEnum)-1235412;, for instance. –  Dan Bryant Nov 1 '12 at 13:53
not if you use an enum class in C++11 –  Richard Small Nov 1 '12 at 14:09
I'd argue it's better than changing a constant though. –  Lojko Nov 1 '12 at 14:33

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