geom_point(mapping = NULL, data = NULL,
stat = "identity", position = "identity",
na.rm = FALSE, ...)aes or aes_string. Only
needs to be set at the layer level if you are overriding
the plot defaults.FALSE (the default), removes
missing values with a warning. If TRUE silently
removes missing values.# Add aesthetic mappings p + geom_point(aes(colour = qsec)) p + geom_point(aes(alpha = qsec)) p + geom_point(aes(colour = factor(cyl))) p + geom_point(aes(shape = factor(cyl))) p + geom_point(aes(size = qsec))
# Change scales p + geom_point(aes(colour = cyl)) + scale_colour_gradient(low = "blue") p + geom_point(aes(size = qsec)) + scale_area() p + geom_point(aes(shape = factor(cyl))) + scale_shape(solid = FALSE)
# Set aesthetics to fixed value p + geom_point(colour = "red", size = 3) qplot(wt, mpg, data = mtcars, colour = I("red"), size = I(3))
# Varying alpha is useful for large datasets d <- ggplot(diamonds, aes(carat, price)) d + geom_point(alpha = 1/10) d + geom_point(alpha = 1/20) d + geom_point(alpha = 1/100)
# You can create interesting shapes by layering multiple points of # different sizes p <- ggplot(mtcars, aes(mpg, wt)) p + geom_point(colour="grey50", size = 4) + geom_point(aes(colour = cyl)) p + aes(shape = factor(cyl)) + geom_point(aes(colour = factor(cyl)), size = 4) + geom_point(colour="grey90", size = 1.5) p + geom_point(colour="black", size = 4.5) + geom_point(colour="pink", size = 4) + geom_point(aes(shape = factor(cyl)))
# These extra layers don't usually appear in the legend, but we can # force their inclusion p + geom_point(colour="black", size = 4.5, show_guide = TRUE) + geom_point(colour="pink", size = 4, show_guide = TRUE) + geom_point(aes(shape = factor(cyl)))
# Transparent points: qplot(mpg, wt, data = mtcars, size = I(5), alpha = I(0.2))
# geom_point warns when missing values have been dropped from the data set # and not plotted, you can turn this off by setting na.rm = TRUE mtcars2 <- transform(mtcars, mpg = ifelse(runif(32) < 0.2, NA, mpg)) qplot(wt, mpg, data = mtcars2) qplot(wt, mpg, data = mtcars2, na.rm = TRUE)
# Use qplot instead qplot(wt, mpg, data = mtcars) qplot(wt, mpg, data = mtcars, colour = factor(cyl)) qplot(wt, mpg, data = mtcars, colour = I("red"))
scale_size to see scale area of points,
instead of radius, geom_jitter to jitter
points to reduce (mild) overplottinggeom_jitter
for possibilities.The bubblechart is a scatterplot with a third variable mapped to the size of points. There are no special names for scatterplots where another variable is mapped to point shape or colour, however.
The biggest potential problem with a scatterplot is
overplotting: whenever you have more than a few points,
points may be plotted on top of one another. This can
severely distort the visual appearance of the plot. There
is no one solution to this problem, but there are some
techniques that can help. You can add additional
information with stat_smooth,
stat_quantile or
stat_density2d. If you have few unique x
values, geom_boxplot may also be useful.
Alternatively, you can summarise the number of points at
each location and display that in some way, using
stat_sum. Another technique is to use
transparent points, geom_point(alpha = 0.05).