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This question is similar to a previous one I made here: randomly sum values from rows and assign them to 2 columns in R

Since I'm having difficulties with R, this question is both about programming and statistics. I'm very new to both.

I have a data.frame with 219 subjects in one column. The rest of the columns are 7, and in each row I have a number which represents a difference in response time for that particular subject when exposed to the two conditions of the experiment.

This is how the data looks (I'm using the head function, otherwise it would be too long):

    > head(RTsdiff)
      subject   block3diff   block4diff   block5diff   block6diff   block7diff
    1   40002  0.076961798  0.046067460 -0.027012048  0.017920261  0.002660317
    2   40004  0.037558511 -0.016535211 -0.044306743 -0.011541667  0.044422892
    3   40006 -0.017063123 -0.031156150 -0.084003876 -0.070227149 -0.113382784
    4   40008 -0.015204017 -0.009954545 -0.004082353  0.006327839  0.022335271
    5   40009  0.006055829 -0.045376437 -0.002725572  0.016443182  0.032848128
    6   40010 -0.003017857 -0.034398268 -0.034476491  0.014158824 -0.036592982
       block8diff    block9dif
    1  0.03652273  0.037306173
    2 -0.08032784 -0.150682051
    3 -0.09724864 -0.060338684
    4 -0.04783333  0.006539326 
    5 -0.01459465 -0.067916667
    6 -0.01868126 -0.034409584

What I need is a code that will, for every subject (i.e. every row) will sample either 3 or 4 values, average them, and add them to a new vector (called half1). The vector half2 should have the average of the values that were not sampled in the first try.

So, supposing the data.frame I want t create was called "RTshalves", I would need the first column to be the same column of subjects in RTsdiff, the second column must have in the first row the average of the randomly selected values that correspond to the first subject, and the second column must have the average of the values of the first subject that were not chosen in the first sampling. The second row of columns 2 and 3 should have the same information, but this time for subject 2 (that is subject 40004 in my data.frame), etc, until reaching the 219 subjects.

Let's suppose that the first sample randomly selected 3 values of subject 1 (block3diff, block5diff and block9diff) and thus the values of block4diff, block6diff, block7diff and block8diff would automatically correspond to the other half. Then, what I would expect to see (considering only the first of the 219 rows) is:

   Subject     Half1       Half2 
    40002   0.02908531   0.02579269

If anyone is interested in the statistics behind this, I'm trying to do a split-half reliability test to check for the consistency of a test. The rationale is that if the difference in RT average is a reliable estimator of the effect, then the differences of half of the blocks of one participant should be correlated to the differences of the other half of the blocks.

Help is much appreciated. Thanks in advance.

share|improve this question
up vote 1 down vote accepted

half1 is easy: write your own function to do what you want to each row (taken in as a vector), then apply it to the rows:

eachrow <- function(x) {
   mean(sample(x,2))
}
RTsdiff$half1 <- apply(eachrow,1,RTsdiff)

To get half2, you'll probably want to do it at the same time. ddply might be easiest for this (let the by argument be your subject variable to get each row). Like this:

RTsdiff <- data.frame(subject=seq(6))
RTsdiff <- cbind( RTsdiff, matrix(runif(6*8),ncol=8) )

library(plyr)
eachrow <- function(x,n=3) {
  x <- as.numeric(x[,2:ncol(x)]) # eliminate the ID column to make things easier, make a vector
  s <- seq(length(x))
  ones <- sample(s,n) # get ids for half1
  twos <- !(s %in% ones) # get ids for half2
  data.frame( half1=mean(x[ones]), half2=mean(x[twos]) )
}
ddply( RTsdiff, .(subject), eachrow)

  subject     half1     half2
1       1 0.4700982 0.5350610
2       2 0.6173469 0.5351995
3       3 0.2245246 0.6807482
4       4 0.6330649 0.6316353
5       5 0.6388060 0.6629077
6       6 0.4652086 0.5073034

There are plenty of more elegant ways of doing this. In particular, I used ddply for its ability to easily output data.frames so that I could output both half1 and half2 from the function and have them combined up nicely at the end, but ddply takes data.frames as input, so there's some slight machination to get it out to a vector first. Feeding sapply a transposed data.frame would possibly be simpler.

share|improve this answer
    
I think to meet the OP's desire, your eachrow function should exclude the first column. Maybe mean(sample(x[-1],2)) would suffice if I'm right. – Carl Witthoft Jun 11 '12 at 13:48
    
You mean exclude block3diff? That wasn't my reading but if so as you point out it's very easy to accomplish. – Ari B. Friedman Jun 11 '12 at 13:59
    
Thanks for your answer gsk3, but I'm a bit confused about it. First, why are you defining the function eachrow() twice? (in the first chunk of code of your answer and on the second). Second, why are you re-defining RTsdiff, also twice, and overriding the data I have. Are you doing that to have an example data.frame? Third, if the argument n=3, then the numbers that get sampled in "ones" will always be 3, and the objects sampled to "twos" will always be four. I need the sampling to be random (i.e. sometimes 3 to "ones" sometimes 4 to "ones"). Many thanks for your help. – Hernan_L Jun 11 '12 at 16:00
    
1) The first was a simpler example to illustrate the principle of how the apply family functions work. It has little to do with the second. 2) You did not provide a sample dataset, so I created one. In the future, please use dput so that it's easy to re-create your example. 3) Easy enough to change. Just add a line within the eachrow function that samples: n <- sample(c(3,4)) – Ari B. Friedman Jun 11 '12 at 16:30
    
Thanks for your clarifications gsk3. I had actually tried the n=sample(c(3:4)) but I tried to specify that in the line when I define the arguments of the eachrow function (that gave me an error). What I did following your advice now was to remove the value 3 of n in the argument definition (so it just looks like eachfunction(x) and then I define n as sample(c(3:4)) The results I'm getting out of the correlation are very different from what I expected so that makes me doubt I'm doing it right, but if the code does what I described in the question, then I guess I have very peculiar results :) – Hernan_L Jun 11 '12 at 16:53

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