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I'm trying to normalize some data which I have in a data frame. I want to take each value and run it through the pnorm function along with the mean and standard deviation of the column the value lives in. Using loops, here's how I would write out what I want to do:

#example data
hist_data <- data.frame( matrix( rnorm( 200,mean=5,sd=.5 ),nrow=20 ) )

n <- dim( hist_data )[2] #columns=10
k <- dim( hist_data )[1] #rows   =20

#set up the data frame which we will populate with a loop
normalized <- data.frame( matrix( nrow = nrow( hist_data ), ncol = ncol( hist_data ) ) )

#hot loop in loop action
for ( i in 1:n ){
   for ( j in 1:k ){
      normalized[j,i] <- pnorm( hist_data[j,i], 
                                mean = mean( hist_data[,i] ), 
                                sd = sd( hist_data[,i] ) )

It seems that in R there should be a handy dandy vector way of doing this. I thought I was smart so tried using the apply function:

#trouble ahead
hist_data <- data.frame( matrix( rnorm( 200, mean = 5,sd = .5 ), nrow=10 ) )
normalized <- apply( hist_data, 2, pnorm, mean = mean( hist_data ), sd = sd( hist_data ) )

Much to my chagrin, that does NOT produce what I expected. The upper left and bottom right elements of the output are correct, but that's it. So how can I de-loopify my life?

Bonus points if you can tell me what my second code block is actually doing. Kind of a mystery to me still. :)

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There's no reason to become alarmed, and we hope you'll enjoy the rest of your flight. By the way, is there anyone on board who knows how to fly a plane? –  JD Long Aug 7 '09 at 19:49
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In your example code, the words rows and columns are reversed in the comments. Also, you define the variables n and k to hold columns and rows, then fail to use them in the matrix command. Might want to clean that up so others aren't confused. –  Dan Goldstein Aug 8 '09 at 6:43
good point on the wording being backward. But as for n and k, they are used in "for (i in 1:n)" and "for (j in 1:k)" –  JD Long Aug 8 '09 at 14:32

2 Answers 2

up vote 5 down vote accepted

You want:

normalize <- apply(hist_data, 2, function(x) pnorm(x, mean=mean(x), sd=sd(x)))

The problem is that you're passing in the individual column into pnorm, but the entire hist_data into both the mean & the sd.

As I mentioned on twitter, I'm no stats guy so I can't answer anything about what you're actually trying to do :)

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I think there is an extra comma in your example. I think there needn't be a comma after function(x). This is exactly what I wanted to do. And an example of how much more compact vector code is than looping code. Thanks so much for helping me with this. And for following #rstats in Twitter! –  JD Long Aug 7 '09 at 19:39
Oops, yeah. I typed that in by hand, didn't c+p it. This is my exact line: normalize <- apply(hist_data, 2, function(x) pnorm(x, mean=mean(x), sd=sd(x))) –  geoffjentry Aug 7 '09 at 19:42

I'm just curious what your goal is. Using the pnorm function, you are getting which percentile of a normal distribution with the specified mean and sd your data would correspond to. For example, if your data is -2,-1,0,1,2, which has mean 0 and sd 1.58, the results of your function would be 0.10 0.26 0.50 0.74 0.90, rounded to 2 digits. This means that your data would correspond to the 10th, 26th, 50th, 74th and 90th percentiles of the normal distribution with mean 0 and sd 1.58, if the data was truly from that distribution. I'm not sure why this is useful, so I hope to be enlightened

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Well it has been a month since I asked the question and I don't recall exactly what I was doing, but here's the general idea: I was building a monte carlo model of non-normal correlated distributions. In my real application the distributions were not normal. They were either Johnson or they were non-parametric (probably kernels) but I had a p function like pnorm or pjohnson. After taking the percentile I would then use the correlation matrix and fit a copula to the percentiles (now uniform between 0,1). I would then simulate correlated deviates. Then map those deviates back to 'real' values. –  JD Long Sep 4 '09 at 6:48

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