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I have stacked into the question: I need to plot the image with DPI=1200 and specific print size.

By default the png looks ok... enter image description here

png("test.png",width=3.25,height=3.25,units="in",res=1200)
par(mar=c(5,5,2,2),xaxs = "i",yaxs = "i",cex.axis=1.3,cex.lab=1.4)
plot(perf,avg="vertical",spread.estimate="stddev",col="black",lty=3, lwd=3)
dev.off()

But when I apply this code, the image became really terrible it's not scaling (fit) to the size that is needed. What did I miss? How to "fit" the image to the plot?

enter image description here,

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As a starter, reduce the values of cex.axis and cex.lab –  ChrisW Dec 6 '11 at 11:32
2  
You might want to adjust the pointsize parameter of png as this seems to scale with res. –  James Dec 6 '11 at 11:33
    
pointsize - really helps, but the size of the axis names are really small (almost invisible) –  chupvl Dec 6 '11 at 12:47
    
@chupvl You might need to play around with it to trade off between legibility and amount of the plot canvas that these elements consume –  James Dec 6 '11 at 13:33

1 Answer 1

up vote 22 down vote accepted

A reproducible example:

the_plot <- function()
{
  x <- seq(0, 1, length.out = 100)
  y <- pbeta(x, 1, 10)
  plot(
    x,
    y,
    xlab = "False Positive Rate",
    ylab = "Average true positive rate",
    type = "l"
  )
}

James's suggestion of using pointsize, in combination with the various cex parameters, can produce reasonable results.

png(
  "test.png",
  width     = 3.25,
  height    = 3.25,
  units     = "in",
  res       = 1200,
  pointsize = 4
)
par(
  mar      = c(5, 5, 2, 2),
  xaxs     = "i",
  yaxs     = "i",
  cex.axis = 2,
  cex.lab  = 2
)
the_plot()
dev.off()

Of course the better solution is to abandon this fiddling with base graphics and use a system that will handle the resolution scaling for you. For example,

library(ggplot2)

ggplot_alternative <- function()
{
  the_data <- data.frame(
    x <- seq(0, 1, length.out = 100),
    y = pbeta(x, 1, 10)
  )

ggplot(the_data, aes(x, y)) +
    geom_line() +
    xlab("False Positive Rate") +
    ylab("Average true positive rate") +
    coord_cartesian(0:1, 0:1)
}

ggsave(
  "ggtest.png",
  ggplot_alternative(),
  width = 3.25,
  height = 3.25,
  dpi = 1200
)
share|improve this answer
    
thank's a lot! your solution works great! But I wonder - why the ylab,xlab have reduced it's size? –  chupvl Dec 6 '11 at 14:28
2  
Nice, didn't know you could use ggsave like that. Very handy. –  naught101 Sep 12 '12 at 7:41
    
Love the ggplot solution (+1). For ggsave though, it seems that width/height doesn't do very much and rather it is dpi setting that controls the size. On my Windows machine, I get a 3.25" square by setting dpi=108. The dpi=1200 setting gives an enormous image. Was 1200 a typo? –  Assad Ebrahim Jun 26 at 18:52
1  
@AssadEbrahim The plot you create will be width * dpi pixels wide and height * dpi pixels high. How large the image appears onscreen depends on your viewing software. If it is smart, it will recognise the intended width and height, and rescale the image to appear at the appropriate size. If not, it will display a very large image. Note that 1200 dpi only really makes sense when you want to print an image to paper: monitor resolutions don't go that high, but photo printers do. –  Richie Cotton Jun 29 at 5:40

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