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How can I plot a very large data set in R? I'd like to use a boxplot, or violin plot, or similar. All the data cannot be fit in memory. Can I incrementally read in and calculate the summaries needed to make these plots? If so how?

Thanks

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What exactly does 'very large' mean in your case? –  radek Dec 3 '10 at 11:55
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@radek : "All the data cannot be fit in memory" seems like a good approximation of "far too large for R to handle". Whether it is 2Gb or 20Gb doesn't really matter any more, does it? –  Joris Meys Dec 3 '10 at 14:23
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@Joris Unless OP has memory.limit too small or many needless columns or something else. This information could be relevant. –  Marek Dec 3 '10 at 16:38
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@Marek : could be, but I'd like to assume that OP knows what he's doing. And I do believe in the tooth fairy too. –  Joris Meys Dec 3 '10 at 17:14
    
As people have assumed, "far too large to fit in memory". I was specifically looking for something that will work on 2 GB, 20 GB, or 200 GB. Doesn't need to be efficient. –  Daniel Arndt Dec 4 '10 at 16:27
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7 Answers

up vote 9 down vote accepted

In supplement to my comment to Dmitri answer, a function to calculate quantiles using ff big-data handling package:

ffquantile<-function(ffv,qs=c(0,0.25,0.5,0.75,1),...){
 stopifnot(all(qs<=1 & qs>=0))
 ffsort(ffv,...)->ffvs
 j<-(qs*(length(ffv)-1))+1
 jf<-floor(j);ceiling(j)->jc
 rowSums(matrix(ffvs[c(jf,jc)],length(qs),2))/2
}

This is an exact algorithm, so it uses sorting -- and thus may take a lot of time.

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looks like you are trying to achieve some sort of <-...-> symmetry in your code ;) –  VitoshKa Dec 3 '10 at 21:33
    
Thank you, I'll give this a shot. I suspect it will take time, but that's what servers are for ;) in the meantime I'll try sampling as Joris Meys had suggested –  Daniel Arndt Dec 4 '10 at 16:30
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Problem is you can't load all data into the memory. So you could do sampling of the data, as indicated earlier by @Marek. On such a huge datasets, you get essentially the same results even if you take only 1% of the data. For the violin plot, this will give you a decent estimate of the density. Progressive calculation of quantiles is impossible, but this should give a very decent approximation. It is essentially the same as the "randomized method" described in the link @aix gave.

If you can't subset the date outside of R, it can be done using connections in combination with sample(). Following function is what I use to sample data from a dataframe in text format when it's getting too big. If you play a bit with the connection, you could easily convert this to a socketConnection or other to read it from a server, a database, whatever. Just make sure you open the connection in the correct mode.

Good, take a simple .csv file, then following function samples a fraction p of the data:

sample.df <- function(f,n=10000,split=",",p=0.1){
    con <- file(f,open="rt",)
    on.exit(close(con,type="rt"))
    y <- data.frame()
    #read header
    x <- character(0)
    while(length(x)==0){
      x <- strsplit(readLines(con,n=1),split)[[1]]
    }
    Names <- x
    #read and process data
    repeat{
      x <- tryCatch(read.table(con,nrows=n,sep=split),error = function(e) NULL )
      if(is.null(x)) {break}
      names(x) <- Names
      nn <- nrow(x)
      id <- sample(1:nn,round(nn*p))
      y <- rbind(y,x[id,])
    }
    rownames(y) <- NULL
    return(y)
}

An example of the usage :

#Make a file
Df <- data.frame(
  X1=1:10000,
  X2=1:10000,
  X3=rep(letters[1:10],1000)
)
write.csv(Df,file="test.txt",row.names=F,quote=F)

# n is number of lines to be read at once, p is the fraction to sample
DF2 <- sample.df("test.txt",n=1000,p=0.2)
str(DF2)

#clean up
unlink("test.txt")
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I had an algorithm implemented, but that one was so incredibly slow when tried on a real dataset, I deleted it again. It doesn't gain a thing, and in any case, "blocked" sampling as the function sample.df does, is by far the best approach when we're talking about sampling without distorting the distribution. –  Joris Meys Dec 3 '10 at 18:25
    
This was very useful in the end. Thank-you very much for your help Joris Meys. –  Daniel Arndt Dec 7 '10 at 8:07
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You should also look at the RSQLite, SQLiteDF, RODBC, and biglm packages. For large datasets is can be useful to store the data in a database and pull only pieces into R. The databases can also do sorting for you and then computing quantiles on sorted data is much simpler (then just use the quantiles to do the plots).

There is also the hexbin package (bioconductor) for doing scatterplot equivalents with very large datasets (probably still want to use a sample of the data, but works with a large sample).

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You could put the data into a database and calculate the quantiles using SQL. See : http://forge.mysql.com/tools/tool.php?id=149

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All you need for a boxplot are the quantiles, the "whisker" extremes, and the outliers (if shown), which is all easily precomputed. Take a look at the boxplot.stats function.

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But it's not possible to compute them exactly without loading all data into memory. –  hadley Dec 3 '10 at 4:54
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@hadley No, ff package allows you to count quantiles as usual but on data stored partially on hard drive. –  mbq Dec 3 '10 at 11:41
    
@mbq : out of curiosity: which function in ff would do that? I saw ff especially as an interface to efficiently store large data, mostly in combination with genomics. But I can be totally wrong. –  Joris Meys Dec 3 '10 at 14:03
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@Joris -- good point; I thought it was there, but now I see I was wrong. Yet it is still possible to write such thing. –  mbq Dec 3 '10 at 15:47
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@Joris I wrote a function actually calculating quantiles using ff; comment is too limited, so I posted it as an answer. –  mbq Dec 3 '10 at 19:41
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You could make plots from manageable sample of your data. E.g. if you use only 10% randomly chosen rows then boxplot on this sample shouldn't differ from all-data boxplot.

If your data are on some database there you be able to create some random flag (as I know almost every database engine has some kind of random number generator).

Second thing is how large is your dataset? For boxplot you need two columns: value variable and group variable. This example:

N <- 1e6
x <- rnorm(N)
b <- sapply(1:100, function(i) paste(sample(letters,40,TRUE),collapse=""))
g <- factor(sample(b,N,TRUE))
boxplot(x~g)

needs 100MB of RAM. If N=1e7 then it uses <1GB of RAM (which is still manageable to modern machine).

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This is an interesting problem.

Boxplots require quantiles. Computing quantiles on very large datasets is tricky.

The simplest solution that may or may not work in your case is to downsample the data first, and produce plots of the sample. In other words, read a bunch of records at a time, and retain a subset of them in memory (choosing either deterministically or randomly.) At the end, produce plots based on the data that's been retained in memory. Again, whether or not this is viable very much depends on the properties of your data.

Alternatively, there exist algorithms that can economically and approximately compute quantiles in an "online" fashion, meaning that they are presented with one observation at a time, and each observation is shown exactly once. While I have some limited experience with such algorithms, I have not seen any readily-available R implementations.

The following paper presents a brief overview of some relevant algorithms: Quantiles on Streams.

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