# Turning a frequency matrix into a binary matrix in r dependent on binomial tests

I have a matrix such as this example where a1, a2, a3, a4 and a5 refer to individuals competing against each other. Rows of the matrix represent 'wins' against the same individuals in the columns.

So in the example below, individual a2 beat a4 12 times, whereas a4 beat a2 13 times, meaning that they had a total of 25 contests.

In this example, the diagonals are all 0, but they could easily be NA because it is impossible for each individual to compete with themselves.

The underneath enables you to create the dataframe/matrix:

``````a1<-c(0,13,3,33,0)
a2<-c(1,0,22,13,1)
a3<-c(1,0,0,2,2)
a4<-c(1,12,22,0,12)
a5<-c(3,1,0,0,0)
df<-as.data.frame(cbind(a1,a2,a3,a4,a5))
rownames(df)<-c("a1","a2","a3","a4","a5")
df
m<-as.matrix(df)
m
``````

The matrix looks like this:

``````   a1 a2 a3 a4 a5
a1  0  1  1  1  3
a2 13  0  0 12  1
a3  3 22  0 22  0
a4 33 13  2  0  0
a5  0  1  2 12  0
``````

What I want to do is to turn this frequency matrix into a binary matrix. I want to enter a 1 into the row of each individual if they have significantly more wins than expected by chance against an individual in a particular column according to a binomial test testing against a p=0.5

Therefore for pair a2 versus a4, you would run the binom.test like this

``````binom.test(c(12,25), 0.5))
``````

which says that this is not significant. Therefore in the cell for row a2, column a4 we would enter a 0. We also enter a 0 in the row a4, column a2.

However, a4 beats a1 33 times out of 34, whereas a1 beats a4 1 time out of 34. Running the binomial test for this:

``````binom.test(c(33,34), 0.5))
``````

This is obviously significant, and therefore row a4 column a1 should get a '1', but row a1 column a4 gets a '0'.

The resulting matrix should look like this:

``````   a1 a2 a3 a4 a5
a1  0  0  0  0  0
a2  1  0  0  0  0
a3  0  1  0  1  0
a4  1  0  0  0  0
a5  0  0  0  1  0
``````

I've been trying a number of approaches to this, but all have failed thus far.

Any ideas appreciated and welcomed.

• `binom.test(c(33,34)0.5)` and the other `binom.test` have incorrect syntax. Please update – Rich Scriven Mar 29 '14 at 5:13

I admit, I was about to lambaste you for doing it "all wrong," then I re-read the page and how you were doing it and re-learned `binom.test`. You have one problem in your question in that you're missing a comma, but I'm guessing that this is just a problem typing it into SO.

SIDE POINT: please copy/paste working code. It takes much more time trying to infer what you meant when the code as depicted won't even run much less give the desired output.

However, you are still calling it wrong. From `?binom.test`, if you define x as a vector of two values then it must be the "number of success and failures", not (as it appears you have done) the "number of successes and trials." Either do:

``````binom.test(12, 12+13, 0.5)
``````

or

``````binom.test(c(12, 13), 0.5)
``````

Second, there's nothing here to convince me how you've attempted to automate. You say that "row a4 column a1 should get a '1', but a1 column a4 gets a '0'", but I have no clue what code you used to get there. If you want help with the code you've tried, please include it, even if it isn't elegant. The best way to learn efficient and elegant coding practices is to take what you've generated and tweak it in places.

To some code. Try this:

``````# define the function
func <- function(mtx, p=0.5, alpha=0.05) {
# preallocate the matrix in memory
m2 <- mtx
for (rr in 2:nrow(mtx)) {
for (cc in 1:(rr-1)) {
# these two `for` loops work on the non-diag lower triangle
x <- mtx[rr,cc]
y <- mtx[cc,rr]
sig <- (binom.test(x, x+y, p)\$p.value <= alpha)
# lower-triangle entry
m2[rr,cc] <- 1*((x>y) & sig)
# opposing element in the upper-triangle
m2[cc,rr] <- 1*((y>x) & sig)
}
}
m2
}

# requisite variables
a1 <- c(0,13,3,33,0)
a2 <- c(1,0,22,13,1)
a3 <- c(1,0,0,2,2)
a4 <- c(1,12,22,0,12)
a5 <- c(3,1,0,0,0)

# merge them sequentially into a matrix
m <- matrix(c(a1, a2, a3, a4, a5),
byrow=FALSE, nrow=5,
dimnames=list(paste0('a', 1:5), paste0('a', 1:5)))

func(m)
#    a1 a2 a3 a4 a5
# a1  0  0  0  0  0
# a2  1  0  0  0  0
# a3  0  1  0  1  0
# a4  1  0  0  0  0
# a5  0  0  0  1  0
``````

Some notes:

• Looping through the lower-triangle slightly more efficient, though it's not wrong to do `1:nrow(m)` on both `rr` and `cc`. You could check for `rr == cc` in the code (if `binom.test` were computational expensive, for instance), but in this example it won't cost you much at all. However, if/when you use tests that take longer to calculate, you will want to save a second or two here and there in your code.

• The `1*(...)` coerces a boolean into a 0 or 1. I could also have done `as.integer(...)` with the same effect.

• The `(x>y)` ensures the `binom.test` results of "significant" is only given for winners, since `binom.test(0, 100, 0.5)` is still very significant (albeit a loser).

Hope this helps.

Edit: removed the double-test of `binom.test` because (as @rawr correctly pointed out) it was redundant; and was incorrectly accessing the `m` variable directly from inside the function instead of its internal `mtx`.

• This works perfectly - thanks for your help. I will take your suggestions on board! – jalapic Mar 29 '14 at 17:16
• BTW: @rawr brings up a good point. The inside of my double-loop could instead have been: – r2evans Mar 29 '14 at 21:08
• This is great - thanks. However, in trying it out on a few different datasets I've run into an issue that did not occur in my sample data. Namely, if there are two individuals in the matrix who never got to compete - i.e. they each have 0 wins and 0 losses, then the binom.test function returns an error as it needs a positive integer. If there is only one such situation in a matrix it means that the function will not run. I can't think of a work around this - any further ideas? Thanks again. – jalapic Mar 30 '14 at 1:25
• Easy! Add an `if` wrapper around the `binom.test` line that checks if `x+y > 0` before running the test, assigning 0 otherwise to `sig`. Done. – r2evans Mar 30 '14 at 1:46
• Thanks. I went with: {if (x+y!=0) {sig <- (binom.test(x, x+y, p)\$p.value <= alpha)} else { sig<-0}} seems to be working ok – jalapic Mar 30 '14 at 2:43