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Using R, it is trivial to calculate the quantiles for given probabilities in a sampled distribution:

x <- rnorm(1000, mean=4, sd=2)
quantile(x, .9) # results in 6.705755

However, I can't find an easy way to do the inverse—calculate the probability for a given quantile in the sample x. The closest I've come is to use pnorm() with the same mean and standard deviation I used when creating the sample:

pnorm(5, mean=4, sd=2) # results in 0.6914625

However, because this is calculating the probability from the full normal distribution, and not the sample x, it's not entirely accurate.

Is there a function that essentially does the inverse of quantile()? Something that essentially lets me do the same thing as pnorm() but with a sample? Something like this:

backwards_quantile(x, 5)

I've found the ecdf() function, but can't figure out a way to make it result in a single probability instead of a full equation object.

share|improve this question
up vote 11 down vote accepted

ecdf returns a function: you need to apply it.

f <- ecdf(x)
f( quantile(x,.91) )
# Equivalently:
ecdf(x)( quantile(x,.91) )
share|improve this answer
Perfect! Thanks! – Andrew Feb 3 '12 at 5:33
In the example shown in the original post, you would actually have to run ecdf(x)(5) in order to find the quantile of 5 given x (approx. 0.697 given seed 123). – Waldir Leoncio Feb 14 '14 at 14:05

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