# Get plot() bounding box values

I'm generating numerous plots with `xlim` and `ylim` values that I'm calculating on a per-plot basis. I want to put my legend outside the plot area (just above the box around the actual plot), but I can't figure out how to get the maximum y-value of the box around my plot area.

Is there a method for even doing this? I can move the legend where I want it by manually changing the `legend()` x and y values, but this takes a LONG time for the amount of graphs I'm creating.

Thanks!

-JM

• Try looking at `?par` and the `usr` parameter. Sep 6, 2011 at 15:35
• Are you using `ggplot` for your plots? If you show us some example code and a graphic it might help to understand what you want. Sep 6, 2011 at 15:42

Here's a basic example illustrating what I think you're looking for using one of the code examples from `?legend`.

``````#Construct some data and start the plot
x <- 0:64/64
y <- sin(3*pi*x)
plot(x, y, type="l", col="blue")
points(x, y, pch=21, bg="white")

#Grab the plotting region dimensions
rng <- par("usr")

#Call your legend with plot = FALSE to get its dimensions
lg <- legend(rng[1],rng[2], "sin(c x)", pch=21,
pt.bg="white", lty=1, col = "blue",plot = FALSE)

#Once you have the dimensions in lg, use them to adjust
# the legend position
#Note the use of xpd = NA to allow plotting outside plotting region
legend(rng[1],rng[4] + lg\$rect\$h, "sin(c x)", pch=21,
pt.bg="white", lty=1, col = "blue",plot = TRUE, xpd = NA)
``````

• Thanks! That's exactly what I needed! Sep 7, 2011 at 9:25

The command `par('usr')` will return the coordinates of the bounding box, but you can also use the `grconvertX` and `grconvertY` functions. A simple example:

``````plot(1:10)
par(xpd=NA)
legend(par('usr')[1], par('usr')[4], yjust=0, legend='anything', pch=1)
legend( grconvertX(1, from='npc'), grconvertY(1, from='npc'), yjust=0,
xjust=1, legend='something', lty=1)
``````

The oma, omd, and omi arguments of `par()` control boundaries and margins of plots - they can be queried using `par()\$omd` (etc). and set (if needed) using `par(oma=c())` (where the vector can have up to 4 values - see ?par)

• `par("omd")` would be a more standard way of retrieving the named parameter. Sep 6, 2011 at 19:36