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I have seen somewhat similar questions to this, but I'd like to ask my specific question as directly as I can:

I have a scatter plot with a "z" variable encoded into a color scale:

library(ggplot2)
myData <- data.frame(x = rnorm(1000),
                     y = rnorm(1000))
myData$z <- with(myData, x * y)

badVersion <- ggplot(myData,
              aes(x = x, y = y, colour = z))
badVersion <- badVersion + geom_point()
print(badVersion)

Which produces this: bad version

As you can see, since the "z" variable is normally distributed, very few of the points are colored with the "extreme" colors of the distribution. This is as it should be, but I am interested in emphasizing difference. One way to do this would be to use:

betterVersion <- ggplot(myData,
                        aes(x = x, y = y, colour = rank(z)))
betterVersion <- betterVersion + geom_point()
print(betterVersion)

Which produces this: better version

By applying rank() to the "z" variable, I get a much greater emphasis on minor differences within the "z" variable. One could imagine using any transformation here, instead of rank, but you get the idea.

My question is, essentially, what is the most straightforward way, or the most "true ggplot2" way, of getting a legend in the original units (units of z, as opposed to the rank of z), while maintaining the transformed version of the colored points?

I have a feeling this uses rescaler() somehow, but it is not clear to me how to use rescaler() with arbitrary transformations, etc. In general, more clear examples would be useful.

Thanks in advance for your time.

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1  
+1 for a reproducible example, clear goal and an interesting visualizing question. –  Roman Luštrik Aug 30 '12 at 8:39

1 Answer 1

up vote 4 down vote accepted

Have a look at the package scales especially ?trans

I think that a transformation that maps the colour given the probability of getting the value or more extreme should be reasonable (basically pnorm(z))

I think that scale_colour_continuous(trans = probability_trans(distribution = 'norm') should work, but it throws warnings.

So I defined a new transformation (see ?trans_new)

I have to define a transformation and an inverse

library(scales)
norm_trans <- function(){
  trans_new('norm', function(x) pnorm(x), function(x) qnorm(x))
}

badVersion + geom_point() + scale_colour_continuous(trans = 'norm'))

enter image description here

Using the supplied probability_trans throws a warning and doesn't seem to work

# this throws a warning
badVersion + geom_point+
  scale_colour_continuous(trans = probability_trans(distribution = 'norm'))

## Warning message:
## In qfun(x, ...) : NaNs produced

enter image description here

share|improve this answer
    
This is a really useful answer, thanks. The scales package documentation for trans_new() is devoid of an example, so thank you for providing one. Also pnorm() is definitely the right function for me to use. –  isDotR Aug 30 '12 at 14:00
    
But now I have a new question: On a whim, I attempted badVersion + geom_point() + scale_x_continuous(trans = 'norm'), and it didn't work. Using badVersion + geom_point() + scale_x_continuous(trans = 'log') does produce results. Any ideas as to why? –  isDotR Aug 30 '12 at 14:09
    
Hmmmm.... That is interesting -- I will give it some thought ... perhaps the axis scales are treated differently, but that would be strange. It is more likely that I am misunderstanding how the transformations work. –  mnel Aug 30 '12 at 23:16

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