# How to get something like Matplotlib's symlog scale in ggplot or lattice?

For very heavy-tailed data of both positive and negative sign, I sometimes like to see all the data on a plot without hiding structure in the unit interval.

When plotting with Matplotlib in Python, I can achieve this by selecting a symlog scale, which uses a logarithmic transform outside some interval, and linear plotting inside it.

Previously in R I have constructed similar behavior by transforming the data with an arcsinh on a one-off basis. However, tick labels and the like are very tricky to do right (see below).

Now, I am faced with a bunch of data where the subsetting in lattice or ggplot would be highly convenient. I don't want to use Matplotlib because of the subsetting, but I sure am missing symlog!

## Edit:

I see that ggplot uses a package called scales, which solves a lot of this problem (if it works). Automatically choosing tick mark and label placing still looks pretty hard to do nicely though. Some combination of `log_breaks` and `cbreaks` perhaps?

## Edit 2:

The following code is not too bad

``````sinh.scaled <- function(x,scale=1){ sinh(x)*scale }
asinh.scaled <- function(x,scale=1) { asinh(x/scale) }

asinh_breaks <- function (n = 5, scale = 1, base=10)
{
function(x) {
log_breaks.callable <- log_breaks(n=n,base=base)
rng <- rng <- range(x, na.rm = TRUE)
minx <- floor(rng[1])
maxx <- ceiling(rng[2])
if (maxx == minx)
return(sinh.scaled(minx, scale=scale))
big.vals <- 0
if (minx < (-scale)) {
big.vals = big.vals + 1
}
if (maxx>scale) {
big.vals = big.vals + 1
}
brk <- c()
if (minx < (-scale)) {
rbrk <- log_breaks.callable(  c(-min(maxx,-scale), -minx ) )
rbrk <- -rev(rbrk)
brk <- c(brk,rbrk)
}
if ( !(minx>scale | maxx<(-scale))  ) {
rng <- c(max(minx,-scale), min(maxx,scale))
minc <- floor(rng[1])
maxc <- ceiling(rng[2])
by <- floor((maxc - minc)/(n-big.vals)) + 1
cb <- seq(minc, maxc, by = by)
brk <- c(brk,cb)
}
if (maxx>scale) {
brk <- c(brk,log_breaks.callable( c(max(minx,scale), maxx )))
}

brk

}
}

asinh_trans <- function(scale = 1) {
trans <- function(x) asinh.scaled(x, scale)
inv <- function(x) sinh.scaled(x, scale)
trans_new(paste0("asinh-", format(scale)), trans, inv,
asinh_breaks(scale = scale),
domain = c(-Inf, Inf))
}
``````
-
Usually it ends up being a TON easier to apply your log expansion/contraction to your data before plotting, and plot the resultant data in linear space. Add a few carefully-selected background lines (vertical or horizontal) to highlight the expansion zones, create a sequence of numbers to write to the axes' tickmark locations, and you should be all set. – Carl Witthoft Jan 30 '13 at 21:11
That said (con't what @CarlWitthoft wrote) it shouldn't be that hard to construct a scale transform function that mimics symlog if you look at how the other trans functions work in the scales package. – joran Jan 30 '13 at 21:18
Well, my thinking was that you'd write your own breaks function that would simply use the built in methods for finding breaks, but applied to each of the three regions separately. – joran Jan 30 '13 at 21:36
See the penultimate post in this thread by Brian Diggs for an example of how to write a function that defines a scale, in this case biexponential, which I think may have some resemblance to your problem: groups.google.com/forum/?fromgroups=#!topic/ggplot2/7ddCyXGlKiM – Dennis Jan 31 '13 at 10:11

A solution based on the package `scales` and inspired by Brian Diggs' post mentioned by @Dennis:

``````symlog_trans <- function(base = 10, thr = 1, scale = 1){
trans <- function(x)
ifelse(abs(x) < thr, x, sign(x) *
(thr + scale * suppressWarnings(log(sign(x) * x / thr, base))))

inv <- function(x)
ifelse(abs(x) < thr, x, sign(x) *
base^((sign(x) * x - thr) / scale) * thr)

breaks <- function(x){
sgn <- sign(x[which.max(abs(x))])
if(all(abs(x) < thr))
pretty_breaks()(x)
else if(prod(x) >= 0){
if(min(abs(x)) < thr)
sgn * unique(c(pretty_breaks()(c(min(abs(x)), thr)),
log_breaks(base)(c(max(abs(x)), thr))))
else
sgn * log_breaks(base)(sgn * x)
} else {
if(min(abs(x)) < thr)
unique(c(sgn * log_breaks()(c(max(abs(x)), thr)),
pretty_breaks()(c(sgn * thr, x[which.min(abs(x))]))))
else
unique(c(-log_breaks(base)(c(thr, -x[1])),
pretty_breaks()(c(-thr, thr)),
log_breaks(base)(c(thr, x[2]))))
}
}
trans_new(paste("symlog", thr, base, scale, sep = "-"), trans, inv, breaks)
}
``````

I am not sure whether the impact of a parameter `scale` is the same as in Python, but here are a couple of comparisons (see Python version here):

``````data <- data.frame(x = seq(-50, 50, 0.01), y = seq(0, 100, 0.01))
data\$y2 <- sin(data\$x / 3)
# symlogx
ggplot(data, aes(x, y)) + geom_line() + theme_bw() +
scale_x_continuous(trans = symlog_trans())
``````

``````# symlogy
ggplot(data, aes(y, x)) + geom_line() + theme_bw()
scale_y_continuous(trans="symlog")
``````

``````# symlog both, threshold = 0.015 for y
# not too pretty because of too many breaks in short interval
ggplot(data, aes(x, y2)) + geom_line() + theme_bw()
scale_y_continuous(trans=symlog_trans(thr = 0.015)) +
scale_x_continuous(trans = "symlog")
``````

``````# Again symlog both, threshold = 0.15 for y
ggplot(data, aes(x, y2)) + geom_line() + theme_bw()
scale_y_continuous(trans=symlog_trans(thr = 0.15)) +
scale_x_continuous(trans = "symlog")
``````

-
(+1 + Bounty) Nicely done! – joran Feb 4 '13 at 1:42