Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I would like to make a Oaxaca Decomposition in R. It is used in e.g. labor economics to distinguish explained variance versus unexplained variance, I believe. I have not been able to find a suitable solution in R, and I am rather reluctant to create one myself (I would probably mess it up).

Anyway, the procedure is briefly explained here:


Stata is blessed with a rather good package for this, but Stata is not easily available to me.


Please note: I have also posted a message on R-help but it has gotten no reply. I hope it is okay to post on this list as well.

Thanks in advance, Rasmus

Edit: I have made the following function, which seems to yield wrong answers (urgh). I tried to follow the Stata link above but it did not work out as I hoped :)

oaxaca <- function (fsex,frace1,frace2) {
  ## First we make regresions
  data1 <- subset(l2,sex==fsex & race==frace1)
  data2 <- subset(l2,sex==fsex & race==frace2)

  mindata1 <- subset(cbind(grade,exp,I(exp^2)),sex==fsex & race==frace1)
  mindata2 <- subset(cbind(grade,exp,I(exp^2)),sex==fsex & race==frace2)

  reg1 <- lm(log(wage)~grade+exp+I(exp^2), data=data1)
  reg2 <- lm(log(wage)~grade+exp+I(exp^2), data=data2)


  ## Variables
  gap <- mean(log(wage[race==frace1 & sex==fsex]))-mean(log(wage[race==frace2 & sex==fsex]))

  mean1 <- colMeans(mindata1)
  mean2 <- colMeans(mindata2)

  beta1 <- summary(reg1)$coefficients[,1]
  beta2 <- summary(reg2)$coefficients[,1]
  beta1incep <- summary(reg1)$coefficients[1,1]
  beta2incep <- summary(reg2)$coefficients[1,1]
  beta1coef <- summary(reg1)$coefficients[c(2,3,4),1]
  beta2coef <- summary(reg2)$coefficients[c(2,3,4),1]
  betastar <- .5*(beta1coef+beta2coef)
  betastar2 <- (beta1+beta2)/2

  expl <- sum((mean1-mean2)*beta1coef)
  uexpl <- sum(mean2*(beta2coef-beta1coef))


  ## output
  out <- data.frame(Gap=gap,

share|improve this question
eh, do not cross-post (mailinglist) the same people read that. –  Matt Bannert Feb 25 '11 at 9:34
it was not answered after a week so surely after that length of time he is entitled to ask elsewhere. –  G. Grothendieck Feb 25 '11 at 11:00
okay, i´d put the -1 back to were it belongs. apologies for being to quick to hand it out. Now with the code stated the question looks much better anyway... –  Matt Bannert Feb 25 '11 at 16:20

2 Answers 2

up vote 7 down vote accepted

I have used Oaxaca type decompositions. Did never find any package for R, so I wrote some functions that do it. It is similar to the corresponding package in Stata. You can find a copy of it in: https://github.com/eyjo/Oaxaca

Note that at the time I was interested in using Fixed Effects (panel data) models, which are not directly compatible with these decompositions. There is an unfinished handler for FE type models, but it should not be used. I meant to create a package out of it, but never got around to it.

share|improve this answer
Oh wonderful. My function certainly does /not/ give correct results! Edit: I think you are right, on FE. I tried a model using factors, and it return Error in B1[1, 1] <- m1$intercept : number of items to replace is not a multiple of replacement length. Hopefully somebody will take up this package. It is a good start :) –  Rasmus Feb 25 '11 at 13:48
Very very great. This function should become a real package in the official r rep. :) –  Swiss12000 Jan 21 '14 at 2:52

The oaxaca package on CRAN can estimate Blinder-Oaxaca decompositions for linear models, as well as producing bar charts that show the results: http://cran.r-project.org/web/packages/oaxaca/index.html

It can also calculate bootstrapped standard errors to provide a sense of how much estimation uncertainty there is.

The vignette gives a detailed description of the package's capabilities, as well as providing some examples of its use. See here: "oaxaca: Blinder-Oaxaca Decomposition in R"

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

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