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I'm making a simple game in C#/XNA. My actors store the direction in which they intend to go as a Vector2. At each update cycle, I normalize the heading (because of the way it's set can lead to different lengths) and add heading*Speed to position to move the actor.

This seems inelegant. Logically, a direction has no length, it is of unit length by definition. Practically, the constant normalization has trivial extraneous computational cost.

  1. Is there a NormalizedVector2 in XNA?
  2. How do I go about creating one which is compatible with XNA's Vector2 (ie can be added to it and so on)? Extend Vector2 and override the Length property?
  3. Are there larger conceptual problems with how I am trying to accomplish what I am trying to accomplish?
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Although it can be thought that direction by itself has no magnitude, a velocity vector does. A velocity vector contains both speed and direction and it is convenient to represent both of those data in a single vector structure. A very easy way to combine a heading and a speed is to start with a unit length heading like your doing. Utilizing that velocity vector which effectively contains two bits of data is an elegant thing. –  Steve H Oct 13 '12 at 14:48
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3 Answers

  1. No. The only 2D vector is Vector2 in XNA.
  2. You can't. Since Vector2 is a struct, you can't sbuclass it. You could make your own type and provide a method to convert it into a Vector2 (by creating a new Vector2), however.

Realistically, I suspect your current approach (using Vector2 and just calling Normalize is likely the best approach. If you are really worried about many calls, use the overload which uses ref and out for the parameters, as it's slightly more efficient.

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It's such a tiny function that, unless you're writing a particle or physics engine, and doing careful profiling (they're, like, really tiny!), it doesn't really matter which one you choose. But, for what it's worth, I thought I'd verify your answer. And you're quite right, the other two overloads are both about 25% slower (x86 .NET 4.0). –  Andrew Russell Oct 13 '12 at 4:16
    
Actually I (somewhat) take that back. If you're normalizing a vector "in place", then the Normalize() that works on this is the same speed as the static one that takes references. Profiling these suckers is tricky ;) –  Andrew Russell Oct 13 '12 at 4:24
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  1. Not that I'm aware of
  2. As stated, Vector cannot be subclassed, but you could create a Direction class which handles the computation and which can be parsed to a Vector2 or just have a Vector proerpty.
  3. I would just use an unitary vector and rotate it using a matrix. In terms of performance, it avoids a division which is usually a slow operation. Even in term of logic, it is more common express a direction as a 30° to the left, rather than x + y.
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Normalizing a vector is 2 multiplications, an addition, a square root, and a division. But rotating a vector with a matrix is lots of additions and multiplications, plus a couple of trig operations. I bet the matrix rotation is way slower. You could do it without the matrix - I bet it's still not a performance win. Expressing directions as normalized vectors is actually extremely common. –  Andrew Russell Oct 13 '12 at 3:49
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Am i missing something? A normalized vector is just a vector where x + y totals 1 and points into a direction. It has no length, like any vector has.

You can store a normalized vector just in a vector of the same type. And of course you need to update it when you need to change the direction of something.

Its a fairly simple concept described here: http://msdn.microsoft.com/en-us/library/microsoft.xna.framework.vector2.normalize.aspx

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Vector2 stores magnitude and direction. Magnitude is irrelevant for my purposes and I do not wish to store it. As you can tell from my question, I know how to normalize a vector. –  Superbest Oct 13 '12 at 13:21
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