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Let me give you an example:

person | salary
----------------
1      | 30'000
2      | 10'000
3      | 15'000
4      | 25'000
5      | 80'000
6      | 56'000
...    | ...

The steps to take to get to this result would be to order the salaries and then create a new table giving the share of rows/people from start until the respective row and the share of the sum of the salaries from start until the respective row (of the total salaries).

Then one just has to take the row closest to 20% for the people and we know how much they earn.

This is a pretty standard question - but as I don't know how to refer to it verbally I cannot google it.

So I would appreciate if somebody could tell me what to "call this" and how to compute and plot this in R the most easiest - so no loops and stuff. My intuition tells me there are at least 5 packages and 10 functions addressing this scenario. Maybe something similar to summary() with fixed quantiles.

So let's assume the above table to be available as a data frame:

salaries <- data.frame(person = c(1,2,3,...), salary = c(30000,...))

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2  
Note that 20% of the people will generally earn 20% of the money. It's the top 20% that probably make more. Your question body seems to ask about the top 20% but your question title is a bit misleading. –  Tyler Sep 7 '13 at 12:48
1  
The so-called "80-20" rule is a specific instance of a power law distribution. This post has some interesting info on several languages, including R. There is also an R package, poweRlaw, w/ which I'm not familiar, but is evidently written by CV user @csgillespie. –  gung Sep 7 '13 at 23:38

1 Answer 1

You can use the following (a has the salaries)

a <- rexp(10000)
b <- cumsum(sort(a, decr=T))/sum(a)
length(which(b <= 0.8))/length(b)

On this example, you get roughly 0.43 (or 43%) earning 80% of the money. The given value is the 80% in your initial question.

If you want it the other way around, i.e. to know how much the 20% higher silaries earn, you just have to do

b[length(b)*0.2]

And it's roughly 52%. Here the given value is 20%.

Have also a look at this question on Lorenz curve on Stack Overflow.

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Would also add that it's top 20% of the people making 52% of the money and not "20% of the people making x% of the money". Sampling 20% of the people at random and measuring how much they earn is going to return something closer to 20% and not to 80% or anything like that. –  Tyler Sep 7 '13 at 12:53
    
Yes, of course :-) –  Jean-Claude Arbaut Sep 7 '13 at 13:00
    
Yes, of course :-) –  Raffael Sep 7 '13 at 13:04
1  
Just for fun, quantile(b, .2) gives the same result as b[length(b)*0.2] as actually you're looking for a quantile :D –  Jilber Sep 8 '13 at 21:38
    
Actually, it's not exactly the same result (quantile does just a little bit more), but it's the idea. –  Jean-Claude Arbaut Sep 8 '13 at 23:54

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