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Lets say I have an arbitrary vector A. What is the most efficient way to reducing that vectors magnitude by arbitrary amount?

My current method is as follows:

Vector shortenLength(Vector A, float reductionLength) {

    Vector B = A;
    B *= reductionLength;
    return A - B;


Is there a more efficent way to do this? Possibly removing the square root required to normalize B...

share|improve this question
Oh this is a math vector, not a C++ vector. I was confused. – Mooing Duck Jan 8 '12 at 22:42
I don't think it's possible to normalize without doing a square root for the general case, and every other operation should be fast. I don't think you're going to beat that speed except by avoiding copies. – Mooing Duck Jan 8 '12 at 22:43
It depends on how the vector is represented. If it were a 2-D vector stored as angle and magnitude, then this would be trivial. You don't say how your Vector class represents vectors internally or even if you have access to the data. The answer would depend on that. – JohnPS Jan 8 '12 at 23:05
"by" or "to" an arbitrary amount? – Kerrek SB Jan 8 '12 at 23:08
up vote 7 down vote accepted

So if I understand you correctly, you have a vector A, and want another vector which points in the same direction as A, but is shorter by reductionLength, right?

Does the Vector interface have something like a "length" member function (returning the length of the vector)? Then I think the following should be more efficient:

Vector shortenLength(Vector A, float reductionLength) 
    Vector B = A;
    B *= (1 - reduction_length/A.length());
    return B;
share|improve this answer
Usually "normalizing" a vector means "same direction, but length of 1. His code is making a vector that is the same direction, with a length of "reductionlength". The text implies that the code is entirely wrong though. – Mooing Duck Jan 9 '12 at 0:09
@MooingDuck: He is subtracting a vector which he obtained by first normalizing and then multiplying with reductionLength from the original vector. Which means he obtains a vector which points in the same direction, but is shorter by reductionLength (assuming the original vector was longer than reductionLength to begin with). – celtschk Jan 9 '12 at 0:22
oh yeah, forgot that last line. Not sure how that happened. – Mooing Duck Jan 9 '12 at 0:25

If you're going to scale a vector by multiplying it by a scalar value, you should not normalize. Not for efficiency reasons; because the outcome isn't what you probably want.

Let's say you have a vector that looks like this:

v = (3, 4)

Its magnitude is sqrt(3^2 + 4^2) = 5. So let's normalize it:

n = (0.6, 0.8)

This vector has magnitude 1; it's a unit vector.

So if you "shorten" each one by a factor of 0.5, what do you get?

shortened v = (3, 4) * 0.5 = (1.5, 2.0)

Now let's normalize it by its magnitude sqrt(6.25):

normalized(shortened v) = (1.5/2.5, 2/2.5) = (0.6, 0.8)

If we do the same thing to the unit vector:

shortened(normalized v) = (0.6, 0.8) * 0.5 = (0.3, 0.4)

These are not the same thing at all. Your method does two things, and they aren't commutative.

share|improve this answer
I can't imagine why this would be voted down. What's wrong with it? – duffymo Jan 8 '12 at 23:48
Maybe it's the fact that he nowhere stated nor implied that he wants to multiply his vector by the scalar value reductionLength. In other words, your answer doesn't answer his question. (BTW, I'm not the one who voted you down.) – celtschk Jan 9 '12 at 0:26
What do you imagine that "*=" operator is doing to that vector? It certainly is implied if you know something about vectors. – duffymo Jan 9 '12 at 0:28
Just because at one step he multiplies an auxiliary vector by this number doesn't imply that his ultimate goal is to multiply the original vector by this amount. – celtschk Jan 9 '12 at 0:30
In C, Java, and C# the "#=" operator works on the left-hand side object when # is +, -, *, /, and others. I'm assuming that it's how the *= operator was overloaded for this C++ Vector class. And the name of the method, shortenLength, is highly suggestive to me. – duffymo Jan 9 '12 at 0:37

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