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I have a dataset of climate model runs. They are currently stored in a list like this:

 $ ensemble   :List of 25
  ..$ run_name  :List of 2
  .. ..$ variable: num [1:72, 1:36, 1:12, 1:40] 255 256 256 257 257 ...

Where variable is a specific model output, like 'surface temperature', with dimensions [lat, long, month, year] (don't ask me why the output isn't just by month...)

This is not necessarily the best way to store this data, and I'm wondering if there's an R-ish way of doing it that would make manipulation easier. In particular, I'd like to look at plots of annual averages of each variable for all runs within and ensemble (ie. one plot per ensemble/variable, 25 lines), and statistics for each ensemble over the timeseries (ie. moving PDF), and probably more complex things later.

Ideally I would like to avoid for loops, and use *apply functions instead. I have been trying this with this structure, but keep hitting walls like needing to compose two functions within an lapply() call, which doesn't work.

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Some reproducible data would be useful, however the function melt within the package reshape2 would appear to be what you are after. This will melt the list to a data frame, which you could use for plotting (using ggplot2 or otherwise) –  mnel Jun 20 '12 at 4:41
Regarding the use of *apply functions. If you melt the data, then you will be able to use ddply (in plyr) to aggregate your data (or you could data.table if speed were required). –  mnel Jun 20 '12 at 5:00
if your structures are regular then storing this as an array of dimension (25,2,72,36,12,40) will make life easier. You can then use plain old apply to average across any margins you like, and melt as suggested by other comments if you need to generate a long-form version for (e.g.) ggplot2. –  Ben Bolker Jun 20 '12 at 14:53
hrm.. @BenBolker, yes, I thought about that, but thought it would be hard to remember the dimensions. But I just realised that you can name array dimensions, and use the names in *apply functions, so that probably is the best option. –  naught101 Jun 21 '12 at 0:28
depending on the degree of irregularity it may still be worth keeping in a regular array with NA values in appropriate places -- then e.g. apply(myarray,MARGIN=...,mean,na.rm=TRUE) will still give you the appropriate averages –  Ben Bolker Jun 25 '12 at 8:22

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