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I have been using the extract function from the raster package to extract data from raster files using an area defined by shapefiles. However, I am having problems with the amount of memory that this process is now requiring. I do have a large number of shapefiles (~1000). The raster files are large (~1.6gb)

My process is:

shp <- mclapply(list.files(pattern="*.shp",full.names=TRUE), readShapePoly,mc.cores=6)
ndvi <- raster("NDVI.dat")
mc<- function(y) {
temp <- gUnionCascaded(y)
extract <- extract(ndvi,temp)
mean <- range(extract, na.rm=T )[1:2]
leng <- length(output)
output <- lapply(shp, mc)

Are there any changes I can make to reduce the memory load? I tried loading fewer shapefiles which worked for about 5 min before the memory spiked again. Its a quad core computer 2.4ghz with 8gb ram

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Don't load them all in at once, just loop over the shapefiles individually. (Sheesh). -1 since you have not demonstrated the relative memory usage, though you claim extract() is to blame. –  mdsumner Mar 29 '13 at 0:57
The use of mclapply is totally bogus btw, since the files are all on the same disk. –  mdsumner Mar 29 '13 at 1:00
what is output in mc()? –  mdsumner Mar 29 '13 at 7:29

1 Answer 1

up vote 3 down vote accepted

I would do this (untested):

## Clearly we need these packages, and their dependencies
shpfiles <- list.files(pattern="*.shp",full.names=TRUE)
ndvi <- raster("NDVI.dat")
## initialize an object to store the results for each shpfile
res <- vector("list", length(shpfiles))
names(res) <- shpfiles
## loop over files
for (i in seq_along(shpfiles)) {
  ## do the union
  temp <- gUnionCascaded(shpfiles[i])
  ## extract for this shape data (and don't call it "extract")
  extracted <- extract(ndvi,temp)
  ## further processing, save result
  mean <- range(extracted, na.rm = TRUE )[1:2]
  res[[i]] <- mean  ## plus whatever else you need

It's not at all clear what the return value of mc() above is meant to be, so I ignore it. This will be far more memory efficient and fast than what you tried originally. I doubt it's worth using parallel stuff at all here.

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The extract function is actually internally multi-core when using polygons. You don't need to do anything to take advantage of this fact, other than require( parallel ); beginCluster( detectCores()-1 ). When extracting across 1000 polygons you may find a significant speed advantage by doing this (but this question concerns memory, not speed). –  Simon O'Hanlon Mar 29 '13 at 11:08
Thanks for your input –  Nick Crouch Mar 29 '13 at 13:31

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