# Plot inside a plot

I have the plot 1

``````curve(exp(x), from=1, to=5, lwd=5)
``````

and inside it i would like to add the following plot 2

``````par(mar=c(7,7,1,1))
curve(exp(x), from=1, to=5, lwd=7, xlab="chi", ylab="exp(x)", cex.lab=4,axes=F)
axis(1, labels=NA,at=c(0,5))
axis(2, labels=NA,at=c(0,150))
``````

In order to obtain the following

I would also like to make plot 2 transparent so that if there are some elements of plot 1 behind plot 2 they will still show (just like the blue line). Also important are the bigger labels of plot 2 and the absence of labels and ticks in it's axes.

Is this possible? Please only base R solutions (no ggplot2 / no lattice)

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There are functions named 'subplot' in both the Teaching Demos and Hmisc packages. I don't know if they are the same code. I suspect that a background color that was full transparent would succeed but haven't tried it yet. –  IShouldBuyABoat Jan 12 at 1:13
I tried to use `subplot` from `TeachingDemos` but unfortunately without success. The size and margins of the axis labels went wrong. Don't know why, could be my fault. –  ECII Jan 12 at 10:18

OK, here's an example, which I plotted to a 10 by 10 inch pdf. (Part of what's frustrating about using `par(fig = )` et al. is that their effects are very much dependent on the size of the plotting device.)

The base graphic plotting parameter `par("fig")` describes/sets the location of a figure region as a proportion of the "drawing region" (which is usually the entire device, for single figure plots). It takes a length-4 vector of the form `c(xmin, xmax, ymin, ymax)` consisting of numbers (proportions) between `0` and `1`.

Here I use `grconvertX()` and `grconvertY()` to convert x-y locations expressed in terms of the larger plot's own (a.k.a. `"user"`) coordinate system into the `"ndc"` (normalized device coordinates) coordinate system. The `"user"` coordinate system is more human-user-friendly, while the `"ndc"` is (with the caveats expressed above) the coordinate system used by `par("fig")`. The `grconvert*()` calls are just there to perform the translation between them.

``````## pdf("fig-in-fig.pdf", width=10, height=10)
curve(exp(x), from=1, to=5, lwd=5)

## Here's the bit I added.
par(fig = c(grconvertX(c(1, 3), from="user", to="ndc"),
grconvertY(c(50, 125), from="user", to="ndc")),
mar = c(4,6,1,1),
new = TRUE)

curve(exp(x), from=1, to=5, lwd=7, xlab="chi", ylab="exp(x)", cex.lab=4,axes=F)
axis(1, labels=NA,at=c(0,5))
axis(2, labels=NA,at=c(0,150))
## dev.off()
``````

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Great answer. Thank you very much. Would you mind adding a line or two explaining what you did there with `par(plt)` and `grconvertX` ? –  ECII Jan 12 at 10:25
@ECII -- Thanks. I just added some explanation, and edited the code to make it easier to see how it has the effect that it does. After playing with this yesterday and today, I've concluded that it's just something you have to experiment with quite a bit to really grasp. If you want to master it, I'd suggest making a bunch of plots (including some using `layout()` and `par(mfcol=c(2,3))`, and then examining them with frequent calls to `par("omd")`, `par("fig")`, and `par("plt")`. Also play around with `par("mar")` and then re-examine `par("plt")`, etc, etc. Good luck! –  Josh O'Brien Jan 13 at 1:52

Here is one approach:

``````curve(exp(x), from=1, to=5, lwd=5)
par(new=TRUE)
par(oma=c(1,4,5,1))
par(mfcol=c(2,2), mfg=c(1,1))
par(mar=c(7,7,1,1))
curve(exp(x), from=1, to=5, lwd=7, xlab="chi", ylab="exp(x)", cex.lab=2,axes=F)
axis(1, labels=NA,at=c(0,5))
axis(2, labels=NA,at=c(0,150))
Play with the various options (especially `oma` and `mar`) to format the result to your like.
So you set the position of plot 2 by `par(mfcol=c(2,2), mfg=c(1,1))` ? –  ECII Jan 12 at 0:02
@ECII -- Yes, you can use `par(new = TRUE, fig=c(x1, x2, y1, y2))`, and also `plt=`, and others. Here are a couple examples. I've never mastered the commands b/c I find grid viewports so much less finicky, but it can be done! –  Josh O'Brien Jan 12 at 0:33