# asymmetric color distribution in scale_gradient2?

Changing the upper limits for `scale_fill_gradient2` also effects the colorscaling for values < 0 as the color distribution around 0 seems to be always symmetrically, is there a way to get a asymmetric distribution of color values?

Here a minimal example of a plot using `geom_tile()`:

``````data <- read.csv("http://protzkeule.de/data.csv")
p <- ggplot(data=data, aes(x=variable, y=meas)) + geom_tile(aes(fill=value))
``````

plot with symmetrical limits:

``````p + scale_fill_gradient2(low="blue", mid="white", high="red", guide="colorbar", limits=c(-.1,.1))
``````

but when changing the upper limit, the lower colormapping changes as well (watch the colorbar):

``````p + scale_fill_gradient2(low="blue", mid="white", high="red", guide="colorbar", limits=c(-.1,.3))
``````
-
I could be misunderstanding what you're looking for, but try passing `midpoint = -0.1` to `scale_fill_gradient2`. Is that what you want? –  joran Jul 2 '12 at 21:22
I meant `0.1`, not `-0.1` there obviously, but I'm thinking now that isn't what you were looking for anyway, based on Brian's answer. –  joran Jul 2 '12 at 21:36

What you want is `scale_fill_gradientn`. The arguments are not very clear (took me an hour or so to finally figure part of it out), though:

``````library("scales")
Thank you, I think now I got it. Correct me if I am wrong but with `values` you assign the values that a color from the `colours` vector is mapped to? The the only thing I don't get is what happens if the vector passed to `values` has more elements than the vector passed to `colours`. –  Dahaniel Jul 3 '12 at 13:26
`values` and `colours` should have the same length. They are effectively paired, where the value corresponds to the color at that point, and everything between it and the next point is interpolated. I don't actually know what would happen if they were not the same length; it is at least conceptually an error, but I don't know if an actual error is thrown. In your example, -0.1 is mapped to blue, 0.0 is mapped to white, and 0.3 is mapped to red; values between -0.1 and 0.0 are interpolated between blue and white; values between 0.0 and 0.3 are interpolated between white and red. –  Brian Diggs Jul 3 '12 at 16:38