# R, correlation: is there a func that converts a vector of nums to a vector of standard units

Is there a function in R that given a vector of numbers, returns another vector with the standard units corresponding to each value?

where... standard unit: how many SDs a value is + or - from the mean

Example:

`````` x <- c(1,3,4,5,7)    # note: mean=4, sd=2
su(x)
[1]  -1.5  -0.5  0.0  0.5  1.5
``````

Is this (ficticious) "su" func already included in a package?

Thanks.

-
Your sd=2 is a bit out... ;-) –  Gavin Simpson Apr 29 '11 at 18:00
note: in my example I'm using the complete population's SD (2), not the sample SD (2.23). –  jd. Apr 29 '11 at 18:09
Ah, well then you should say so in your Q, because the `scale()` answers will only work if you do: `scale(x, center=4, scale=2)`. –  Gavin Simpson Apr 29 '11 at 18:11
@gavin: thanks for the useful clarification. –  jd. Apr 29 '11 at 18:16

yes, `scale()`:

``````x <- c(1,3,4,5,7)
scale(x)
``````
-
+1 For beating my by seconds. –  Andrie Apr 29 '11 at 18:01

The function you are looking for is `scale`.

``````scale(x)

[,1]
[1,] -1.3416408
[2,] -0.4472136
[3,]  0.0000000
[4,]  0.4472136
[5,]  1.3416408
attr(,"scaled:center")
[1] 4
attr(,"scaled:scale")
[1] 2.236068
``````

Note that the answers are not identical to what you posted in your question. The reason is that the standard deviation in your x is actually 2.23, not 2.

``````sd(x)
[1] 2.236068
``````
-

How about simply `(x-mean(x))/sd(x)`, or am I missing some subtlety here?

-
i realize it's trivial; just wondering if it's part of a package given that getting this vector is an intermediate step in one of the most common ways to calculate the correlation –  jd. Apr 29 '11 at 18:02
Why don't you just use `cor()`. Also, the correlation is by definition independent on linear transformations, so standardizing two variables first makes no difference. –  Sacha Epskamp Apr 29 '11 at 18:27
Syntax should be: "(x - mean(x) ) / sd(x)" spaces are important (I was searching in the console like so ?x-mean) –  eamo Sep 3 '13 at 14:41