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See the following code:

    List<Vector2> axes = new List<Vector2>();
    axes.Add(TopRight() - TopLeft());
    axes.Add(BottomLeft() - TopLeft());
    axes.Add(otherRectangle.TopRight() - otherRectangle.TopLeft());
    axes.Add(otherRectangle.BottomLeft() - otherRectangle.TopLeft());
    // Try normalizing vectors?
    foreach (Vector2 axis in axes)

the Vector2.Normalize() method is a void method that normalizes the vector it's called on. Yet for some reason when I do this loop it doesn't normalize the vectors. Am I just unable to modify a list this way?

Some oddities:

  • Iterating with a for loop, i.e. axis[i].Normalize() doesn't work.
  • Iterating with the built-in List<T>.ForEach iterator does not work.
  • Creating a normalizing the vector before adding it to the list rather than iterating over the list does work.

Why does iteration not work?

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3 Answers 3

up vote 4 down vote accepted

The foreach loop creates a local copy of the sequence element. You only normalize the copy.

You will need to do something like:

for(int i=0; i<axes.Count; i++)
    axes[i] = Vector2.Normalize(axes[i]);

This unintuitive behavior demonstrates, once again, why instance methods that mutate a struct are a bad idea.

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This is what I was talking about when I mentioned iterating with a for loop in my original post. However it also doesn't work when I use a C# List<T>.ForEach iterator so I'm starting to think there might be something somewhere else in my code that's causing problems... Also normalize is a void method. –  ssb Nov 17 '12 at 10:23
The explanation is sound but your code makes no sense – Normalize isn’t a static method. Just use OP’s approach, minus the foreach. –  Konrad Rudolph Nov 17 '12 at 10:26
@KonradRudolph The overload I chose is static and returns the normalized value. public static Vector2 Normalize(Vector2 value) –  CodesInChaos Nov 17 '12 at 10:57
@CodesInChaos Sure enough I didn't realize that there was a static normalize method, however this use is incredibly unintuitive. I switched to this method. –  ssb Nov 17 '12 at 13:20

As CodesInChaos said, Vector2.Normalize is a badly designed method (the reason for this decision is probably out of performance considerations, but that doesn’t help us here).

As a consequence, it mutates the object it works on. However, that object is a copy of the original object in a foreach look. So your code only mutates objects, not those in the actual list.

The only workaround is to use an indexed for loop over the items in the list:

for (int i = 0; i < axes.Count; i++) {
    Vector2 copy = axes[i];
    axes[i] = copy;

Here, we modify a copy, but we copy it back inside the actual vector afterwards. Note that we cannot simply modify axes[i] by writing axes[i].Normalize() – this is arguably (and in my opinion) another design flaw in .NET. The reason is that the axes[i] operation is a property access (accessing the this[] property) which, once again, returns a copy of the original object.

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This did the trick and I'm going to accept it as it makes sense to me regarding the implementation of the Normalize method. –  ssb Nov 17 '12 at 10:44
The manual copy is much uglier than using axes[i]=Vector2.Normalize(axes[i]). –  CodesInChaos Nov 17 '12 at 10:58

MORE EDITS: try first normalize vectors, and then add them to list...

List<Vector2> axes = new List<Vector2>();

Vector2 tempTopRightTopLeftVector = TopRight() - TopLeft();

Vector2 tempBottomLeftTopRightVector = BottomLeft() - TopLeft();

// and so on for other vectors...


Try to use another type of collection. Array for example:

Vector2[] axes = new Vector2[] {
   TopRight() - TopLeft(),
   BottomLeft() - TopLeft(),
   otherRectangle.TopRight() - otherRectangle.TopLeft(),
   otherRectangle.BottomLeft() - otherRectangle.TopLeft()
for(int i=0; i<axes.Length; i++)
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Does not compile, the sig of this overload is public void Normalize(). Your code is assuming that Vector2 works as it should, and not as it actually does. –  CodesInChaos Nov 17 '12 at 10:20
@CodesInChaos Even if Normalize worked as it should this code wouldn’t work. –  Konrad Rudolph Nov 17 '12 at 10:29
This DOES work for some reason. My biggest issue is with why it doesn't work through iteration. –  ssb Nov 17 '12 at 10:34
@KonradRudolph When I commented he had posted different code. @ssb The new code works because it's an array, where access through an index doesn't cause a copy. When indexing into a List<T> or using foreach you work on a copy. –  CodesInChaos Nov 17 '12 at 10:56

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