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I have a 65,000 by 160 matrix, that I then transform into an image using image(X) in R.

I also use the option useRaster = TRUE, and this makes the plotting lots faster, and less large of a file.

However, the file size is still rather large ~ 60 Mb. Is there anyway to control the file size of an image in R? If so I'd love to hear how, and also how much resolution one would lose by constraining the file size.

The file is created as a pdf file, code below:

# ----- Define a function for plotting a matrix ----- #
myImagePlot <- function(x, filename, ...){
  dev = "pdf"
  #filename = '/home/dnaiel/test.pdf'
  if(dev == "pdf") { pdf(filename, version = "1.4") } else{}
     min <- min(x)
     max <- max(x)
     yLabels <- rownames(x)
     xLabels <- colnames(x)
     title <-c()
  # check for additional function arguments
  if( length(list(...)) ){
    Lst <- list(...)
    if( !is.null(Lst$zlim) ){
       min <- Lst$zlim[1]
       max <- Lst$zlim[2]
    if( !is.null(Lst$yLabels) ){
       yLabels <- c(Lst$yLabels)
    if( !is.null(Lst$xLabels) ){
       xLabels <- c(Lst$xLabels)
    if( !is.null(Lst$title) ){
       title <- Lst$title
# check for null values
if( is.null(xLabels) ){
   xLabels <- c(1:ncol(x))
if( is.null(yLabels) ){
   yLabels <- c(1:nrow(x))

layout(matrix(data=c(1,2), nrow=1, ncol=2), widths=c(4,1), heights=c(1,1))

 # Red and green range from 0 to 1 while Blue ranges from 1 to 0
 ColorRamp <- rgb( seq(0,1,length=256),  # Red
                   seq(0,1,length=256),  # Green
                   seq(1,0,length=256))  # Blue
 ColorLevels <- seq(min, max, length=length(ColorRamp))

 # Reverse Y axis
 reverse <- nrow(x) : 1
 yLabels <- yLabels[reverse]
 x <- x[reverse,]

 # Data Map
 par(mar = c(3,5,2.5,2))
 image(1:length(xLabels), 1:length(yLabels), t(x), col=ColorRamp, xlab="",
 ylab="", axes=FALSE, zlim=c(min,max), useRaster=TRUE)
 if( !is.null(title) ){
# Here we define the axis, left of the plot, clustering trees....
#axis(BELOW<-1, at=1:length(xLabels), labels=xLabels, cex.axis=0.7)
# axis(LEFT <-2, at=1:length(yLabels), labels=yLabels, las= HORIZONTAL<-1,
# cex.axis=0.7)

 # Color Scale (right side of the image plot)
 par(mar = c(3,2.5,2.5,2))
 image(1, ColorLevels,
      matrix(data=ColorLevels, ncol=length(ColorLevels),nrow=1),
      xaxt="n", useRaster=TRUE)

  if( dev == "pdf") {
    dev.off() }
# ----- END plot function ----- #


share|improve this question
plot using a bitmap format (preferably ?png) ? (Although I'm not sure if it would help in this case: ?jpeg might actually be better) In what format are you planning to disseminate this graph -- i.e., what details do you expect the reader to see? Are there very large-scale features? –  Ben Bolker Oct 22 '12 at 23:50
this questionneeds detail on how the file is created –  mdsumner Oct 23 '12 at 6:24
@BenBolker thanks. you are right, i was trying to save it as pdf, that's probably the source of large space usage. jpg and png works good for me too. I'd still be curious to know how to restrict the size for the pdf case. –  Dnaiel Oct 23 '12 at 7:47
@mdsumner agreed, thanks. just provided the code, i was creating the file as pdf. –  Dnaiel Oct 23 '12 at 7:48

2 Answers 2

up vote 5 down vote accepted

When I create such matrix and plot using image inside a jpeg call with the default size for that device, I get a file measured in KB (90KB).

> bigm <-matrix(sample(1:8, 65000*160, repl=TRUE),  160, 65000)
> jpeg(filename="test.jpg")
> image(bigm)
> dev.off()

Whether this is appropriate for your application will probably depend both of the exact nature of this task and the OS, neither of which are yet specified.

share|improve this answer
I was using pdf as the format, but jpg is good too. it seems it's much lower now. Not sure why when it creates is as pdf is so large. I'd still be curious as how to restrict the file size for the pdf case. thanks again. –  Dnaiel Oct 23 '12 at 7:46
I've had R-created pdf's that were huge as well. The jpeg or png devices seem better at compression. The expectation of pdf's is that they will not lose resolution when they are expanded, while other devices are more economical in their size when there is a lot of granularity. –  BondedDust Oct 23 '12 at 8:01

When you save it in pdf format you are actually saving vector objects for each of the plotted square in the matrix. By doing this, you can have 'unlimited' resolution as by having the information of the vector of each element, when you zoom into it, you actually redraw the whole subset of elements that are covered by the zoomed field. Think of it as if you were saving the whole matrix in a different format.

When you save it in any type of bitmap (bmp, jpeg, png) you are actually not saving the information of each element, each pixel is getting a statistical value that represents the information of all the elements that each pixel covers. Think of it as if you were averaging the values of your matrix in order to fit a particular pixel grid, determined by the resolution of your output device.

A quick search of ""difference between vector images and bitmaps will make everything more clear to you.

share|improve this answer

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