TL;DR edition

I have vectors X1,X2,X3,...Xn. I want to test to see whether the average value for any one vector is significantly different than the average value for any other vector, for every possible combination of vectors. I am seeking a better way to do this in R than running n^2 individual t.tests.

Full Story

I have a data frame full of census data for a particular CSA. Each row contains observations for each variable (column) for a particular census tract.

What I need to do is compare means for the same variable across census tracts in different MSAs. In other words, I want to factor my data.frame according to the MSA designation variable (which is one of the columns) and then compare the differences in the means for another variable of interest pairwise across each newly-factored MSA. This is essentially doing pairwise t.tests across each ensuing vector, but I wish to do this in a more elegant way than writing t.test(MSAx, MSAy) over and over again. How can I do this?

  • This is a pure programing question (migration to S.O.?) otherwise, i'll suggest combining the colMeans() function in base with the pair.diff() function in the ICSNP package. – user189035 Feb 7 '13 at 0:54
  • yes, pure R question... move to S.O. – John Feb 7 '13 at 1:04
  • Did you consider alpha error inflation? – Roland Feb 7 '13 at 8:24

The advantage to my method below to the one proposed by @ashkan would be that mine removes duplicates. (i.e. either X1 vs X2 OR X2 vs X1 will appear in the results, not both)

# Generate dummy data
df <- data.frame(matrix(rnorm(100), ncol = 10))
colnames(df) <- paste0("X", 1:10)

# Create combinations of the variables
combinations <- combn(colnames(df),2, simplify = FALSE)

# Do the t.test
results <- lapply(seq_along(combinations), function (n) {
                  df <- df[,colnames(df) %in% unlist(combinations[n])]
                  result <- t.test(df[,1], df[,2])

# Rename list for legibility    
names(results) <- paste(matrix(unlist(combinations), ncol = 2, byrow = TRUE)[,1], matrix(unlist(combinations), ncol = 2, byrow = TRUE)[,2], sep = " vs. ")
  • 1
    (+1) combn has a FUN argument with which this could be further simplified by passing the computations directly in combn call. – Arun Feb 7 '13 at 8:01

Just use pairwise.t.test, here is an example:

x1 <- rnorm(50)
x2 <- rnorm(30, mean=0.2)
x3 <- rnorm(100,mean=0.1)
x4 <- rnorm(100,mean=0.4)

x <- data.frame(data=c(x1,x2,x3,x4),
                  rep("x1", length(x1)),
                  rep("x2", length(x2)),
                  rep("x3", length(x3)),
                  rep("x4", length(x4))) )


#   Pairwise comparisons using t tests with non-pooled SD 
# data:  x$data and x$key 
#    x1     x2     x3    
# x2 0.7395 -      -     
# x3 0.9633 0.9633 -     
# x4 0.0067 0.9633 0.0121
# P value adjustment method: holm 
  • Note this approach requires data to be in long format. OP mentioned each variable was in a separate column, so that is probably wide. Also, the function documentation on pairwise.t.test isn't clear what happens with NA values. – jiggunjer Dec 13 '18 at 12:52

If you have a data.frame and you wish to independently perform T-tests between each column of the data.frame, you can use a double apply loop:

apply(MSA, 2, function(x1) {
  apply(MSA, 2, function(x2) {
    t.test(x1, x2)

A good visualization to accompany such a brute force approach would be a forest plot:

cis <- apply(MSA, 2, function(x) mean(x) + c(-1, 1) * sd(x) * 1.96)
plot.window(xlim=c(1, ncol(cis)), ylim=range(cis))
segments(1:ncol(cis), cis[1, ], 1:ncol(cis), cis[2, ])
axis(1, at=1:ncol(cis), labels=colnames(MSA))
abline(h=mean(MSA), lty='dashed')
title('Forest plot of 95% confidence intervals of MSA')

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.