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coord_map does. These projections account for the fact that the
actual length (in km) of one degree of longitude varies between the equator
and the pole. Near the equator, the ratio between the lengths of one degree
of latitude and one degree of longitude is approximately 1. Near the pole, it
is tends towards infinity because the length of one degree of longitude tends
towards 0. For regions that span only a few degrees and are not too close to
the poles, setting the aspect ratio of the plot to the appropriate lat/lon
ratio approximates the usual mercator projection. This is what
coord_quickmap does. With coord_map all elements of the
graphic have to be projected which is not the case here. So
coord_quickmap has the advantage of being much faster, in
particular for complex plots such as those using with
geom_tile, at the expense of correctedness in the projection.coord_quickmap(xlim = NULL, ylim = NULL)# ensures that the ranges of axes are equal to the specified ratio by
# adjusting the plot aspect ratio
if (require("maps")) {
# Create a lat-long dataframe from the maps package
nz <- map_data("nz")
# Prepare a plot of the map
nzmap <- ggplot(nz, aes(x = long, y = lat, group = group)) +
geom_polygon(fill = "white", colour = "black")
# Plot it in cartesian coordinates
nzmap
# With correct mercator projection
nzmap + coord_map()
# With the aspect ratio approximation
nzmap + coord_quickmap()
}
# Resize the plot to see that the specified aspect ratio is maintainedRun the code above in your browser using DataLab