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I'm not asking how to implement this, it's simple enough concept. What I'm having trouble with is floats. Here is my code:

Position += mVelocity;

        if (!Keyboard.GetState().IsKeyDown(Keys.Left) && !Keyboard.GetState().IsKeyDown(Keys.Right) && !Keyboard.GetState().IsKeyDown(Keys.Down) && !Keyboard.GetState().IsKeyDown(Keys.Up))
            if (mVelocity.X != 0.0F)
                if (mVelocity.X > 0.0F)
                    mVelocity.X -= mFriction;
                if (mVelocity.X < 0.0F)
                    mVelocity.X += mFriction;
            if (mVelocity.Y != 0.0F)
                if (mVelocity.Y > 0.0F)
                    mVelocity.Y -= mFriction;
                if (mVelocity.Y < 0.0F)
                    mVelocity.Y += mFriction;

        Console.WriteLine(mVelocity.X + ", " + mVelocity.Y);

mFriction is 0.2F.

The problem is, if I move the player with a positive velocity (X or Y), the friction works as it should and his velocity reduces to 0.0. However, if I move him with a negative velocity, the friction adds, and for some reason, does not stop at 0.0, but goes up to 0.2 before stopping. Because of this, I have a player moving, and then when I let go of the keys, he begins sliding slowly in the opposite direction. Why is this? How can I fix it?

In addition, I tried this code for test:

            if (mVelocity.X == 0.2F)
                mVelocity.X = 0.0F;
            if (mVelocity.Y == 0.2F)
                mVelocity.Y = 0.0F;

But it gives me the exact same results as if I hadn't added the code. Apparently, 0.2F is not equal to 0.2F. What could this be?

Finally, in the debug output, when the player is at rest from moving positively (stopped supposedly) his speeds for both x and y (depending on how I moved him) are 2.980232E-08. I don't understand this. If I set his speed to 1, and I subtract exactly 0.2 every frame, why would it go any other way than 1.0, 0.8, 0.6, 0.4, 0.2, 0.0? Following that, if he is at rest from moving negatively, his speeds for x and y (again, depending on how I move him) are 0.2. Why would it not go -1, -0.8, -0.6, -0.4, -0.2, 0.0? Instead of going from 0.0 to 0.2 in excess.

This all is making next to no sense to me, and if anyone could clear this up for me I would be grateful. Any alternate solutions are also accepted. If any more code, or clarification is needed, I would be happy to provide it.

share|improve this question
off the top of my head, try using else on the second if :) – neeKo Apr 19 '12 at 4:38
Interestingly enough, that makes it so that the 0.2 over problem is present in all directions. – Keelx Apr 19 '12 at 4:42
Well that is interesting... Can you try using value 0.5 for friction? – neeKo Apr 19 '12 at 4:44
also, try adding (below ifs) if(Math.Abs(mVelocity.X) < mFriction) mVelocity.X = 0; Could work, idk – neeKo Apr 19 '12 at 4:47
Could have been happening because velocity was initialy being set somewhere between friction values? Did you debug step through this? – neeKo Apr 19 '12 at 4:49
up vote 5 down vote accepted

The problem is that your equality test fails because of imprecision, so the character keeps moving for one extra frame, for instance.

Floating-point numbers are fundamentally imprecise, so theoretically, 2.0f * 5.0f is not necessarily == 10.0f. It might be 9.999999f or 10.000001f. Don't test if two floating point numbers are equal: test if they are within a sufficiently small interval, i.e.:

// test approximate equality between f1 and f2
bool areEqual(float f1, float f2) {
    return Math.Abs(f1 - f2) < EqualityThreshold; // where EqualityThreshold is a small constant

Also read

share|improve this answer
That's very interesting. Thank you for the advice. It works! Is this also true for >, <, <=, and >=? – Keelx Apr 19 '12 at 4:50
There must be a clever way of overloading an operator for two floats, so that it performs an "almost equal" comparison. Maybe the ~ operator makes sense? – zmbq Apr 19 '12 at 4:59
@Keelx In the sense that 2.0f * 5.0f < 10.0f might be true, yes. – Asik Apr 19 '12 at 4:59

You'll want to use some threshold for minimum speed. In real life we have both kinetic and static friction. The former being a force working against us and the latter being a force that we overcome for any motion to happen at all.

You've got kinetic friction in there, but you're missing static.

I realize your issue is purely floating point accuracy, but if you're building robust physics keep the two types of friction, and other rules about forces and motion in mind.

share|improve this answer
Thanks for the input! And yes, I will keep that in mind as I continue to work on it. – Keelx Apr 22 '12 at 15:50

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