I have a dataframe similar to the one this creates:

```
dummy=data.frame(c(1,2,3,4),c("a","b","c","d"));colnames(dummy)=c("Num","Let")
dummy$X1=rnorm(4,35,6)
dummy$X2=rnorm(4,35,6)
dummy$X3=rnorm(4,35,6)
dummy$X4=rnorm(4,35,6)
dummy$X5=rnorm(4,35,6)
dummy$X6=rnorm(4,35,6)
dummy$X7=rnorm(4,35,6)
dummy$X8=rnorm(4,35,6)
dummy$X9=rnorm(4,35,6)
dummy$X10=rnorm(4,35,6)
dummy$Xmax=apply(dummy[3:12],1,max)
```

only the real thing is 260*13000 cells roughly

what I aim to do is implement the equation below to each row in a set of columns defined by data[x:x] (in the example those within columns dummy[3:12])

TSP = Sum( (1-(Xi/Xmax)) /(n-1))

where Xi is each individual value within the row & among the columns of interest (*i* signifying each column, ie there is an X1, an X2, an X3... value for each row), Xmax is the largest of all those values in the row (as defined in the dummmy$Xmax column), and n is the number of columns selected (in the case of the example: n=10). In the actual data set I will be selecting 26 columns.

I would like to create a tidy little function which performs this calculation and deposits each row's value in to a column called dummy$TSP and does so for all 13000 rows.

One crude solution is the following, but like I said I would like to get this in to some kind of tidy function, where I can select the columns and the rest is (nearly) automatic.

```
dummy$TSP<- ((((1-(dummy$X1/dummy$Xmax))/(10-1))
+(((1-(dummy$X2/dummy$Xmax))/(10-1))
...
+(((1-(dummy$X10/dummy$Xmax))/(10-1)))
```

I would also really appreciate answers which explain the process well so I will be more likely to be able to learn, thanks in advance!