# How do I specify different color ranges for different levels?

I am making a lattice `levelplot` from `x` and `y` factors that range from [0,1]:

``````      x     y     level
1 m3134 m3134 1.0000000
2 m3134 m416B 0.4189057
3 m416B m3134 0.2696508
4 m3134  mA20 0.3322170
5  mA20 m3134 0.2454191
6 m3134    mB 0.3176792
...
``````

Here is the R script that I use to make the figure from this data:

``````#!/foo/bar/bin/Rscript --vanilla
args <- commandArgs(TRUE)
mtxFn <- args
pdfFn <- args

mtx <- read.table(mtxFn, col.names=c("x", "y", "level"))
mtx\$level[(mtx\$level == 1)] <- NA

library(lattice)
trellis.device(dev=pdf, file=pdfFn)
colors <- colorRampPalette(c('red', 'white'))(256)
fig <- levelplot(level~x*y,
data=mtx,
col.regions=colors,
xlab="",
ylab="",
aspect="iso",
scales=list(
x=list(rot=90)
),
panel=function(...) {
arg <- list(...)
panel.levelplot(...)
panel.text(mtx\$x, mtx\$y, round(mtx\$level*100,0), cex=0.5)
}
)
print(fig)
graphics.off();
``````

This works fine. I get the following figure: However, instead of having cells labeled `NA`, I would like to leave them as `1.00` values, but color all cells between 10 (a level of `0.10`) and 79 (a level of `0.79`) with `colors`. Anything greater than 79 gets colored with the same color as what is applied to a cell with the approx. level of 79. Or, preferably, said cells would be colored black, with no text inside them at all.

Is there a way to accomplish this with `levelplot` and lattice?

FINAL EDIT

This doesn't give much of a gradient in colors, but I'm close enough that I'll award the bounty, and perhaps look into `ggplot2` as an alternative. Thanks for all your hard work on this.

Here is the final edit of my script:

``````#! /foo/bar/bin/Rscript --vanilla
args <- commandArgs(TRUE)
dfFn <- args
pdfFn <- args

col.names=c("x", "y", "level"),
stringsAsFactors=TRUE,
colClasses=c("factor", "factor", "numeric"))
df\$level <- round(df\$level*100, 0)

# reorder cell type row-factors (in reverse of given order)
df\$y <- factor(df\$y, levels=unique(df\$y[length(df\$y):1]))

lowestValue <- min(df\$level)
secondHighestValue <- unique(sort(df\$level, decreasing=TRUE))

n <- 10
col.seq <- seq(lowestValue, secondHighestValue, length.out=n)
brks <- c(0, col.seq, Inf)
cuts <- cut(df\$level, breaks = brks)
colors <- colorRampPalette(c("white", "red"))(length(levels(cuts))-1)
colors <- c(colors, "black")

cls <- rep(colors, times = table(cuts))

library(lattice)
trellis.device(dev=pdf, file=pdfFn)
fig <- levelplot(cuts~x*y,
data = df,
cuts = n,
col.regions=cls,
xlab="",
ylab="",
aspect="iso",
scales=list(
x=list(rot=90)
),
panel=function(...) {
arg <- list(...)
panel.levelplot(...)
panel.text(df\$x, df\$y, df\$level, cex=0.5)
},
colorkey=list(col=colorRampPalette(c("white", "red"))(length(col.seq)), at=col.seq)
)
print(fig)
graphics.off()
``````

Here is the `levelplot` that this script makes: If I increase `n` above `15`, the cell coloring breaks once again, returning to a diagonal of bright red, instead of black (as shown).

• I would construct bins using `cut(x, breaks = c(0, 1, seq(10, 79, 1), 80, Inf))` and assign an appropriate color to each using your `colorRampPalette`. Through `seq`, you can always make a desirable number of levels. As for your NA-s, leave out your 5th statement. Dec 21, 2011 at 9:23
• Can you post a sample of your data online (dropbox or somesuch)? Dec 23, 2011 at 13:12
• Thanks very much -- please see: dl.dropbox.com/u/31495717/stackoverflow.overlaps.list.txt Dec 24, 2011 at 1:29
• Ok, another revision. I hope this time you like what you see. Fingers crossed. :) Dec 24, 2011 at 20:15

This is revision #3

Here we go (again). :)

This is weird, if I set n to anything below 15, things seem to work? ``````df <- read.table("http://dl.dropbox.com/u/31495717/stackoverflow.overlaps.list.txt",
sep = "\t", header = FALSE)
names(df) <- c("x", "y", "level")
df\$level <- round(df\$level*100, 0)

n <- 10
col.seq <- seq(10, 80, length.out = n)
brks <- c(0, seq(10, 80, length.out = n), 100)
cuts <- cut(df\$level, breaks = brks)
colors <- colorRampPalette(c("red", "white"))(length(levels(cuts))-1)
colors <- c(colors, "black")

cls <- rep(colors, times = table(cuts))

print(levelplot(cuts~x*y,
data = df,
cuts = n,
col.regions=cls,
xlab="",
ylab="",
aspect="iso",
scales=list(
x=list(rot=90)
),
panel=function(...) {
arg <- list(...)
panel.levelplot(...)
panel.text(df\$x, df\$y, df\$level, cex=0.5)
},
colorkey = list(col = colors, at = brks)
))
``````
• I apologize, but I do not understand this answer. Dec 21, 2011 at 10:08
• This is the code you should run (with minor changes to make it fit your bill) before calling levelplot. I suggest you run R interactively to round the edges and then go into "production mode" through a bash script. Dec 21, 2011 at 11:24
• I do not know how to fit your code into what I have already written, sorry. Where does `kats` get used, why is it called that, etc.? Dec 21, 2011 at 18:38
• Where does `cls` come from, etc.? It is unclear how this answer relates to my particular situation. Dec 21, 2011 at 18:40
• Sorry, cls was from my previous ("offline") code, then I adapted it for your code. `cls` is actually `kats`. I've mended my answer. You put this code before your `colors` variable (it actually replaces your `colors` variable). Dec 22, 2011 at 0:21