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I created a list containing two data lists (character array region and a list results) of the same length. (I tried to manage the data in data.frame, but it seems to be complicated to add data to a data.frame).

study = list(
    region  = character(),
    results = list()

study$region[1] = "Hamburg"
study$results[[1]]  = data.frame(month=c(1:5), maxTemp=c(-12, -1, 3, 10, 23))

study$region[2]    = "Bremen"
study$results[[2]]  = data.frame(month=c(1:5), maxTemp=c(-9, -1, 6, 10, 21))


print("Maximum temperature of all study regions:")

I want to find out the maximum temperature of all timepoint of all regions. I can address each region after another by using e.g. max(study$results[[1]]$maxTemp, but when I try to address all regions max(study$results[[1:2]]$maxTemp I receive an error:

Error in study$results[[1:2]]$maxTemp :

$ operator is invalid for atomic vectors

Where is my mistake? How can I address fields of a several data.frames that are saved in a list of a list? And what are atomic vectors?

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3 Answers 3

up vote 4 down vote accepted

[[ can only return a single element. I thought [[ would have thrown an error because of that, not the error you are seeing, but reading ?"[" tells what R does with a call such as yours and explains the behaviour (from ?"["):

Recursive (list-like) objects: ....

 ‘[[’ can be applied recursively to lists, so that if the single
 index ‘i’ is a vector of length ‘p’, ‘alist[[i]]’ is equivalent to
 ‘alist[[i1]]...[[ip]]’ providing all but the final indexing
 results in a list.

The reason for your error is this:

> study$results[[c(1,2)]]
[1] -12  -1   3  10  23

which indicates that R really did this

> study$results[[1]][[2]]
[1] -12  -1   3  10  23

i.e. return the second component (column) of the first data frame, which is an atomic vector because R drops the empty dimension. $ can not be used on atomic vectors hence the error.

If you want to iterate over the list that is study$results, lapply() or sapply() are your friends:

> lapply(study$results, function(y) max(y[, "maxTemp"], na.rm = TRUE))
[1] 23

[1] 21

> sapply(study$results, function(y) max(y[, "maxTemp"], na.rm = TRUE))
[1] 23 21

If you popped names on the components in $results you'd get them in the output too:

> names(study$results) <- study$region
> lapply(study$results, function(y) max(y[, "maxTemp"], na.rm = TRUE))
[1] 23

[1] 21

> sapply(study$results, function(y) max(y[, "maxTemp"], na.rm = TRUE))
Hamburg  Bremen 
     23      21

which is easier to use and then you don't need the $region component if you wish.

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Worked fine. I had to address the column "maxTemp" using y[["maxTemp"]] –  R_User Jan 5 '12 at 15:33
Is there some specific reason to use y[, ...] instead of y[...]? What is the comma for? –  hhh Jan 5 '12 at 16:02
@Sven That is another way to get the maxTemp component. Use whichever you feel is easiest etc. –  Gavin Simpson Jan 5 '12 at 16:44
@hhh no specific reason, I just grew up thinking of a data frame as an array-matrix-like object rather than a list, so the y[i, j] notation means ith row of jth column (as i was missing in my example, it means give all rows). Your notation treats the data frame as a list and indexes that way. Note there is a difference however; [, "maxTemp"] and [["maxTemp"]] return a numeric vector whereas ["maxTemp"] returns a data frame with one column/component. This is all simplified over inside the lapply call but is worth remembering. –  Gavin Simpson Jan 5 '12 at 16:49

You are way overcomplicating things with your data structure. You want a single data frame with three columns: month, maxTemp and region.

n_months <- 5
(study <- data.frame(
  month   = rep.int(1:n_months, 2),
  maxTemp = c(12, -1, 3, 10, 23, -9, -1, 6, 10, 21),
  region  = rep(c("Hamburg", "Bremen"), each = n_months)

   month maxTemp  region
1      1      12 Hamburg
2      2      -1 Hamburg
3      3       3 Hamburg
4      4      10 Hamburg
5      5      23 Hamburg
6      1      -9  Bremen
7      2      -1  Bremen
8      3       6  Bremen
9      4      10  Bremen
10     5      21  Bremen

Now your maximum temperature over all regions is simply max(study$maxTemp). No difficult indexing required.

If you really must insist on using your existing data structure, the equivalent command to get the maximum temperature is

max(sapply(study, function(x) max(x$region$maxTemp)))
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What's with the downvote? This better data structure makes it much easier to solve Sven's problem. –  Richie Cotton Jan 5 '12 at 14:44
I agree, person down-voting should explain how this answer could be improved. Agreed, Richie's answer does not solve the problem OP's way, but it does provide a sensible alternative. As such it doesn't deserve (if that may be the case) a down-vote. –  Roman Luštrik Jan 5 '12 at 15:00
> max(data.frame(study$results[[2]]$maxTemp, study$result[[1]]$maxTemp))
[1] 23

Let's analyze

> dput(data.frame(study$results[[2]]$maxTemp, study$result[[1]]$maxTemp))
structure(list(study.results..2...maxTemp = c(-9, -1, 6, 10, 
21), study.result..1...maxTemp = c(-12, -1, 3, 10, 23)), .Names = c("study.results..2...maxTemp", 
"study.result..1...maxTemp"), row.names = c(NA, -5L), class = "data.frame")
# NOT ATOMIC VECTOR HERE, look you can find there maxTemp --> it will work!

comparing that to

c(-12, -1, 3, 10, 23)              # ATOMIC VECTOR! Cannot use `$` here...

Now find the atomic vectors:

> Filter(is.atomic, study)
[1] "Hamburg" "Bremen"

Also "?Position(...)", you may like this question here, addressing the title.

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