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What the most efficient way in the programming language R to calculate the angle between two vectors?

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You do know how the dot-product of two vectors is related to the cosine of the angle between the vectors, right? –  Christian Dec 13 '09 at 21:33
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The problem doesn't lie with the math but with finding the right function in R without programming everything from the ground up myself. –  Christian Dec 13 '09 at 21:52
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Uh oh, are the Christians quarreling again? ;-) –  Ken Williams Dec 14 '09 at 4:44

5 Answers 5

up vote 29 down vote accepted

According to page 5 of this PDF, sum(a*b) is the R command to find the dot product of vectors a and b, and sqrt(sum(a * a)) is the R command to find the norm of vector a, and acos(x) is the R command for the arc-cosine. It follows that the R code to calculate the angle between the two vectors is

theta <- acos( sum(a*b) / ( sqrt(sum(a * a)) * sqrt(sum(b * b)) ) )
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Really helpful answer, I would expect R to have a function to compute the norm of a vector and the dot product (as Matlab does) but I coudn't find it anywhere. I also wanted to compute the cos between two vectors, so this solved my problem. PS: +1 for source, the PDF file is quite good indeed. –  skd Nov 14 '11 at 21:59
    
Hello! I am trying to access the pdf but its forbidden. Anyone of you have a copy of this doc? Thanks :) –  Kaye11 Jul 1 '13 at 10:27
    
The broken link is fixed now. –  las3rjock Jul 14 '13 at 17:02
    
The cosine is only monotone on the interval (0, pi), so the result might not be what you expect for angles greater than pi. –  user1965813 Feb 13 at 13:30

You should use the dot product. Say you have V1 = (x1, y1, z1) and V2 = (x2, y2, z2): then

the dot product, which I'll denote by V1*V2, is calculated as

   V1*V2 = X1*X2 + Y1*Y2 + Z1*Z2 = |V1|*|V2|*cos(theta);

(I'm using an "*" where mathematical notation would normally use an actual period, because there is no way to elevate a period to the center of the text line.)

What this means is that that sum shown on the left is equal to the product of the absolute values of the vectors times the cosine of the angle between the vectors. the absolute value of the vector V1 is calculated as

  |V1| = SquareRoot(x1^2 + y1^2 + z1^2), (I'm using "^2" to indicate squaring)

and analogously for |V2|, of course.

So, if you rearrange the first equation above, you get

  cos(theta) = (x1*x2 + y1*y2 + z1*z2)/(|V1|*|V2|),

and you just need the arccos function (or inverse cosine) applied to cos(theta) to get the angle.

Depending on your arccos function, the angle may be in degrees or radians.

(For two dimensional vectors, just forget the z-coordinates and do the same calculations.)

Good luck,

John Doner

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My answer consists of two parts. Part 1 is the math - to give clarity to all readers of the thread and to make the R code that follows understandable. Part 2 is the R programming.

Part 1 - Math

The dot product of two vectors x and y can be defined as:

enter image description here

where ||x|| is the Euclidean norm (also known as the L2 norm) of the vector x.

Manipulating the definition of the dot product, we can obtain:

enter image description here

where theta is the angle between the vectors x and y expressed in radians. Note that theta can take on a value that lies on the closed interval from 0 to pi.

Solving for theta itself, we get:

enter image description here

Part 2 - R Code

To translate the mathematics into R code, we need to know how to perform two matrix (vector) calculations; dot product and Euclidean norm (which is a specific type of norm, known as the L2 norm). We also need to know the R equivalent of the inverse cosine function, cos-1.

Starting from the top. By reference to ?"%*%", the dot product (also referred to as the inner product) can be calculated using the %*% operator. With reference to ?norm, the norm() function (base package) returns a norm of a vector. The norm of interest here is the L2 norm or, in the parlance of the R help documentation, the "spectral" or "2"-norm. This means that the type argument of the norm() function ought to be set equal to "2". Lastly, the inverse cosine function in R is represented by the acos() function.

Solution

Equipped with both the mathematics and the relevant R functions, a prototype function (that is, not production standard) can be put together - using Base package functions - as shown below. If the above information makes sense then the angle() function that follows should be clear without further comment.

angle <- function(x,y){
  dot.prod <- x%*%y 
  norm.x <- norm(x,type="2")
  norm.y <- norm(y,type="2")
  theta <- acos(dot.prod / (norm.x * norm.y))
  as.numeric(theta)
}

Test the function

A test to verify that the function works. Let x = (2,1) and y = (1,2). Dot product between x and y is 4. Euclidean norm of x is sqrt(5). Euclidean norm of y is also sqrt(5). cos theta = 4/5. Theta is approximately 0.643 radians.

x <- as.matrix(c(2,1))
y <- as.matrix(c(1,2))
angle(t(x),y)          # Use of transpose to make vectors (matrices) conformable.
[1] 0.6435011

I hope this helps!

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I think what you need is an inner product. For two vectors v,u (in R^n or any other inner-product spaces) <v,u>/|v||u|= cos(alpha). (were alpha is the angle between the vectors)

for more details see:

http://en.wikipedia.org/wiki/Inner%5Fproduct%5Fspace

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Another solution : the correlation between the two vectors is equal to the cosine of the angle between two vectors.

so the angle can be computed by acos(cor(u,v))

# example u(1,2,0) ; v(0,2,1)

cor(c(1,2),c(2,1))
theta = acos(cor(c(1,2),c(2,1)))
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