# Vectorize my thinking: Vector Operations in R

So earlier I answered my own question on thinking in vectors in R. But now I have another problem which I can't 'vectorize.' I know vectors are faster and loops slower, but I can't figure out how to do this in a vector method:

I have a data frame (which for sentimental reasons I like to call my.data) which I want to do a full marginal analysis on. I need to remove certain elements one at a time and 'value' the data frame then I need to do the iterating again by removing only the next element. Then do again... and again... The idea is to do a full marginal analysis on a subset of my data. Anyhow, I can't conceive of how to do this in a vector efficient way.

I've shortened the looping part of the code down and it looks something like this:

``````for (j in my.data\$item[my.data\$fixed==0]) { # <-- selects the items I want to loop
#     through
my.data.it <- my.data[my.data\$item!= j,] # <-- this kicks item j out of the list
sum.data <-aggregate(my.data.it, by=list(year), FUN=sum, na.rm=TRUE) #<-- do an
# aggregation

do(a.little.dance) && make(a.little.love) -> get.down(tonight) # <-- a little
#  song and dance

delta <- (get.love)                                         # <-- get some love
delta.list<-append(delta.list, delta, after=length(delta.list)) #<-- put my love
#    in a vector
}
``````

So obviously I hacked out a bunch of stuff in the middle, just to make it less clumsy. The goal would be to remove the j loop using something more vector efficient. Any ideas?

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@joran: There must be an award for editing a question that is 30 months old. :) – Iterator Aug 10 '11 at 1:29
some version of the necromancer, maybe? – JD Long Aug 10 '11 at 15:15
Good idea. I'm thinking something along the lines of a natural history museum curator might be less morbid. Or maybe Jurassic Park? – Iterator Aug 10 '11 at 15:21
I'm just shocked this question went on for three years without someone commenting on the part about speed. Vectorization often produces speed gains, but not always; readability is often the more important reason for it. – Ari B. Friedman Aug 10 '11 at 23:57
@gsk3, keep in mind that there were only about 5 people reading [r] questions when I originally asked this :) – JD Long Aug 11 '11 at 14:24

Here's what seems like another very R-type way to generate the sums. Generate a vector that is as long as your input vector, containing nothing but the repeated sum of n elements. Then, subtract your original vector from the sums vector. The result: a vector (isums) where each entry is your original vector less the ith element.

``````> (my.data\$item[my.data\$fixed==0])
[1] 1 1 3 5 7
> sums <- rep(sum(my.data\$item[my.data\$fixed==0]),length(my.data\$item[my.data\$fixed==0]))
> sums
[1] 17 17 17 17 17
> isums <- sums - (my.data\$item[my.data\$fixed==0])
> isums
[1] 16 16 14 12 10
``````
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That's a good reminder on how to think in an r-esque way. In my application the steps after the sum seem to cause me some problems in applying the approach you mentioned. But I voted this up so as to give you some reputation points. I'm glad to see another R person in here! – JD Long Jan 20 '09 at 21:47

Strangely enough, learning to vectorize in R is what helped me get used to basic functional programming. A basic technique would be to define your operations inside the loop as a function:

``````data = ...;
items = ...;

leave_one_out = function(i) {
data1 = data[items != i];
delta = ...;  # some operation on data1
return delta;
}

for (j in items) {
delta.list = cbind(delta.list, leave_one_out(j));
}
``````

To vectorize, all you do is replace the `for` loop with the `sapply` mapping function:

``````delta.list = sapply(items, leave_one_out);
``````
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This is no answer, but I wonder if any insight lies in this direction:

``````> tapply((my.data\$item[my.data\$fixed==0])[-1], my.data\$year[my.data\$fixed==0][-1], sum)
``````

tapply produces a table of statistics (sums, in this case; the third argument) grouped by the parameter given as the second argument. For example

``````2001 2003 2005 2007
1    3    5    7
``````

The [-1] notation drops observation (row) one from the selected rows. So, you could loop and use [-i] on each loop

``````for (i in 1:length(my.data\$item)) {
tapply((my.data\$item[my.data\$fixed==0])[-i], my.data\$year[my.data\$fixed==0][-i], sum)
}
``````

keeping in mind that if you have any years with only 1 observation, then the tables returned by the successive tapply calls won't have the same number of columns. (i.e., if you drop out the only observation for 2001, then 2003, 2005, and 2007 would be te only columns returned).

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