Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have a couple of large data frames (1 million+ rows x 6-10 columns) I need to subset repeatedly. The subsetting section is the slowest part of my code and I curious if there is way to do this faster.

load("https://dl.dropbox.com/u/4131944/Temp/DF_IOSTAT_ALL.rda")
start_in <- strptime("2012-08-20 13:00", "%Y-%m-%d %H:%M")
end_in<- strptime("2012-08-20 17:00", "%Y-%m-%d %H:%M")
system.time(DF_IOSTAT_INT <- DF_IOSTAT_ALL[DF_IOSTAT_ALL$date_stamp >= start_in & DF_IOSTAT_ALL$date_stamp <= end_in,])

> system.time(DF_IOSTAT_INT <- DF_IOSTAT_ALL[DF_IOSTAT_ALL$date_stamp >= start_in & DF_IOSTAT_ALL$date_stamp <= end_in,])
   user  system elapsed 
  16.59    0.00   16.60 

dput(head(DF_IOSTAT_ALL))
structure(list(date_stamp = structure(list(sec = c(14, 24, 34, 
44, 54, 4), min = c(0L, 0L, 0L, 0L, 0L, 1L), hour = c(0L, 0L, 
0L, 0L, 0L, 0L), mday = c(20L, 20L, 20L, 20L, 20L, 20L), mon = c(7L, 
7L, 7L, 7L, 7L, 7L), year = c(112L, 112L, 112L, 112L, 112L, 112L
), wday = c(1L, 1L, 1L, 1L, 1L, 1L), yday = c(232L, 232L, 232L, 
232L, 232L, 232L), isdst = c(1L, 1L, 1L, 1L, 1L, 1L)), .Names = c("sec", 
"min", "hour", "mday", "mon", "year", "wday", "yday", "isdst"
), class = c("POSIXlt", "POSIXt")), cpu = c(0.9, 0.2, 0.2, 0.1, 
0.2, 0.1), rsec_s = c(0, 0, 0, 0, 0, 0), wsec_s = c(0, 3.8, 0, 
0.4, 0.2, 0.2), util_pct = c(0, 0.1, 0, 0, 0, 0), node = c("bda101", 
"bda101", "bda101", "bda101", "bda101", "bda101")), .Names = c("date_stamp", 
"cpu", "rsec_s", "wsec_s", "util_pct", "node"), row.names = c(NA, 
6L), class = "data.frame")
share|improve this question
    
I'm sure you can do it faster, but the best method is going to depend on the structure of DF_IOSTAT_ALL. Can you provide a small sample of that object? E.g. the output from dput(head(DF_IOSTAT_ALL)). –  Joshua Ulrich Sep 18 '12 at 14:39
    
@JoshuaUlrich I added the requested output. Sorry for not including the first time. –  Tyler Muth Sep 18 '12 at 14:53
    
What kind of subsets are you doing? –  Blue Magister Sep 18 '12 at 14:59
    
Out of interest, how slow is this? –  James Sep 18 '12 at 15:10
    
@BlueMagister I'm subsetting it to time slices. It's performance data from iostat on a cluster of machines. I have begin and end times for some performance test. So, I want to subset this to just the timeframe of the test then graph it. Hope this is what you were asking.. –  Tyler Muth Sep 18 '12 at 15:41

2 Answers 2

I would use xts for this. The only potential hiccup is that xts is a matrix with an ordered index attribute, so you can't mix types like you can in a data.frame.

If the node column is invariant, you can just exclude it from your xts object:

library(xts)
x <- xts(DF_IOSTAT_ALL[,2:5], as.POSIXct(DF_IOSTAT_ALL$date_stamp))
x["2012-08-20 00:00:24/2012-08-20 00:00:54"]

Update using the OP's actual data:

Data <- DF_IOSTAT_ALL
# change node from character to numeric,
# so it can exist in the xts object too.
Data$node <- as.numeric(gsub("^bda","",Data$node)
# create the xts object
x <- xts(Data[,-1], as.POSIXct(Data$date_stamp))
# subset one day
system.time(x['2012-08-20 13:00/2012-08-20 17:00'])
#    user  system elapsed 
#       0       0       0
# subset 13:00-17:00 for all days
system.time(x['T13:00/T17:00'])
#    user  system elapsed 
#    2.64    0.00    2.66
share|improve this answer

Here are my experiments with data.table. Interestingly, just the conversion to data.table will make your lookups faster, possibly through more efficient lookup to the logical vectors. I compared four things: the original data frame lookup; a lookup with conversion from POSIXlt to POSIXct (thanks to Matthew Dowle); the data table lookup; and the data table lookup in addition to the setup of copy and conversion. Even with the additional setup, the data table lookup wins. With multiple lookups, you'll get even more savings in time.

library(data.table)
library(rbenchmark)
load("DF_IOSTAT_ALL.rda")
DF_IOSTAT_ALL.original <- DF_IOSTAT_ALL

start_in <- strptime("2012-08-20 13:00", "%Y-%m-%d %H:%M")
end_in<- strptime("2012-08-20 17:00", "%Y-%m-%d %H:%M")
#function to test: original
fun <- function() DF_IOSTAT_INT <<- DF_IOSTAT_ALL.original[DF_IOSTAT_ALL.original$date_stamp >= start_in & DF_IOSTAT_ALL.original$date_stamp <= end_in,]
#function to test: changing to POSIXct
DF_IOSTAT_ALL.ct <- within(DF_IOSTAT_ALL.original,date_stamp <- as.POSIXct(date_stamp))
fun.ct <- function() DF_IOSTAT_INT <<- DF_IOSTAT_ALL.ct[with(DF_IOSTAT_ALL.ct,date_stamp >= start_in & date_stamp <= end_in),]
#function to test: with data.table and POSIXct
DF_IOSTAT_ALL.dt <- as.data.table(DF_IOSTAT_ALL.ct);
fun.dt <- function() DF_IOSTAT_INT <<- DF_IOSTAT_ALL.dt[date_stamp >= start_in & date_stamp <= end_in,]
#function to test: with data table and POSIXct, with setup steps
newfun <- function() {
    DF_IOSTAT_ALL <- DF_IOSTAT_ALL.original;
    #data.table doesn't play well with POSIXlt, so convert to POSIXct
    DF_IOSTAT_ALL$date_stamp <- as.POSIXct(DF_IOSTAT_ALL$date_stamp);
    DF_IOSTAT_ALL <- data.table(DF_IOSTAT_ALL);
    DF_IOSTAT_INT <<- DF_IOSTAT_ALL[date_stamp >= start_in & date_stamp <= end_in,];
}
benchmark(fun(), fun.ct(), fun.dt(), newfun(), replications=3,order="relative")

#      test replications elapsed   relative user.self sys.self user.child sys.child
#3 fun.dt()            3    0.18   1.000000      0.11     0.08         NA        NA
#2 fun.ct()            3    0.52   2.888889      0.44     0.08         NA        NA
#4 newfun()            3   35.49 197.166667     34.88     0.58         NA        NA
#1    fun()            3   66.68 370.444444     66.42     0.15         NA        NA

If you know what your time intervals are beforehand, you can probably make it even faster by splitting with findInterval or cut and keying/indexing the table.

DF_IOSTAT_ALL <- copy(DF_IOSTAT_ALL.new)
time.breaks <- strptime.d("2012-08-19 19:00:00") + 0:178 * 60 * 60 #by hour
DF_IOSTAT_ALL[,interval := findInterval(date_stamp,time.breaks)]
setkey(DF_IOSTAT_ALL,interval)

start_in <- time.breaks[60]
end_in <- time.breaks[61]
benchmark(a <- DF_IOSTAT_ALL[J(60)],b <- fun2(DF_IOSTAT_ALL))
#                  test replications elapsed relative user.self sys.self user.child sys.child
#1 DF_IOSTAT_ALL[J(60)]          100    0.78 1.000000      0.64     0.14         NA        NA
#2  fun2(DF_IOSTAT_ALL)          100    6.69 8.576923      5.76     0.91         NA        NA
all.equal(a,b[,.SD,.SDcols=c(12,1:11,13)]) #test for equality (rearranging columns to match)
#TRUE
share|improve this answer
    
Interesting. Not sure but isn't fun slow on DF_IOSTAT_ALL.original because date_stamp is type POSIXlt; i.e. data.frame would be faster too on POSIXct instead?POSIXlt is really terrible for performance (apx 40 bytes per date iirc!) Also newfun will be much faster doing as.data.table instead of data.table and then followed by DF_IOSTAT_ALL[,date_stamp:= as.POSIXct(date_stamp)]. The $<- in newfun will be copying the whole of the dataset. –  Matt Dowle Sep 19 '12 at 12:37
    
Oh, I didn't know that. I'll see how the lookups change when I change the original data frame to POSIXct. I tried DF_IOSTAT_ALL[,date_stamp:= as.POSIXct(date_stamp)] but I got an error out of it (possibly a bug with POSIXlt classes as data table columns)? –  Blue Magister Sep 19 '12 at 13:20
    
On the error, oh yes, I see now. In that case just start off with POSIXct in the data.frame and forget POSIXlt as early as possible. –  Matt Dowle Sep 19 '12 at 13:38

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.