# Extracting cumulative unique Elements from a list

I have a list:

``````z <- vector("list", 3)
z[[1]]=c(1,2,3,4)
z[[2]]=c(1,6,2,9)
z[[3]]=c(1,2,3,4,5)
``````

I want to create a column matrix with as many items in the list (3)

``````A=matrix(0,3,1)
``````

And I want each row of the matrix to contain the cumulative number of unique elements in the Z list that havent been seen before. So for example,

The matrix should populate as:

``````     [1]
A=[1] 4
[2] 6
[3] 7
``````

(4 because each element is new, then 6 because the others have been seen before in z[[1]], and then 7 because 5 is the only new element.)

Does anyone know a good way to do this? I can program it in a very stupid way by looping over the 3 and making a dummy matrix and doing unique and testing with if conditions, but it seems a bit excessive.

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I think you need to use something that will allow you to loop iteratively, so I'm using a `for` loop here. We get all the unique elements and for each element in `z` we `sum` the values that are in the unique elements and then remove them for the next iteration...

``````#  Get unique elements
elems <- unique( unlist( z ) )

#  Pre allocate result vector
tot <- numeric(length(z))

for( i in 1:length(z) ){
# How many unique elements are in this list element
tot[i] <-  sum( z[[i]] %in% elems )
#  Remove them from the list so they are not counted in the next iteration
elems <- elems[ ! elems %in% z[[i]] ]
}

#  Get the cumulative sum
cumsum( tot )
[1] 4 6 7
``````
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If performance is not really an issue, you can do the following. I can see it being taxing if the list / vectors are very long

``````test = matrix(data = 0,ncol = 1,nrow=length(z))

for (i in 1:length(z)){
test[i,1]=length(unique(Reduce(c,z[1:i])))
}

test
[,1]
[1,]    4
[2,]    6
[3,]    7
``````
-

Perhaps an unnecessarily complicated way of doing things, but you could use a recursive function.

``````z <- vector("list", 3)
z[[1]]=c(1,2,3,4)
z[[2]]=c(1,6,2,9)
z[[3]]=c(1,2,3,4,5)

f<-function(x,left=c()) {
new<-unique(x[[1]][!(x[[1]] %in% left)])
new.left<-c(new,left)
if (length(x)==1) return(length(new))
else return(c(length(new),f(x[-1],left=new.left)))
}
as.matrix(cumsum(f(z)),ncol=1)

[,1]
[1,]    4
[2,]    6
[3,]    7
``````
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