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This function visualises geofield data as a raster in 2D. It is built on top of geom_raster.

It requires data frames with a column containing geofields. This would normally be a geolist column, but a standard list column containing geofields will also work.

[Experimental] Smoothing can be achieved by upscaling the data before plotting. This can only be done using an integer scale factor and the methods can be any function that summarises a vector into a single value, for example "mean", "median", "min", "max", or "downsample". Downsampling is simply sampling a pixel within the upscaled pixel - by default this is the centre pixel. Downsampling is the fastest method and is probably sufficient, especially for faceted plots.

Usage

geom_georaster(
  mapping = NULL,
  data = NULL,
  position = "identity",
  ...,
  upscale_factor = 1,
  upscale_method = "mean",
  downsample_location = "centre",
  hjust = 0.5,
  vjust = 0.5,
  interpolate = FALSE,
  na.rm = FALSE,
  show.legend = NA,
  inherit.aes = TRUE
)

Arguments

mapping

Set of aesthetic mappings created by aes(). If specified and inherit.aes = TRUE (the default), it is combined with the default mapping at the top level of the plot. You must supply mapping if there is no plot mapping.

data

The data to be displayed in this layer. There are three options:

If NULL, the default, the data is inherited from the plot data as specified in the call to ggplot().

A data.frame, or other object, will override the plot data. All objects will be fortified to produce a data frame. See fortify() for which variables will be created.

A function will be called with a single argument, the plot data. The return value must be a data.frame, and will be used as the layer data. A function can be created from a formula (e.g. ~ head(.x, 10)).

position

Position adjustment, either as a string naming the adjustment (e.g. "jitter" to use position_jitter), or the result of a call to a position adjustment function. Use the latter if you need to change the settings of the adjustment.

...

Other arguments passed on to layer(). These are often aesthetics, used to set an aesthetic to a fixed value, like colour = "red" or size = 3. They may also be parameters to the paired geom/stat.

upscale_factor

An integer by which to upscale the data before computing the contours. For example if this is 2, the upscaled grid will have 2 pixels in each direction from the grid before upscaling.

upscale_method

The method used for upscaling. See geo_upscale for more details.

downsample_location

When "downsample" is the chosen method, each pixel in the upscaled field is sampled from a pixel from the original field that is inside the upscaled pixel. The location of that pixel can be one of "bottom_left", "bottom_centre", "bottom_right", "left_centre", "centre", "right_centre", "top_right", "top_centre", "top_left" or "random".

hjust, vjust

horizontal and vertical justification of the grob. Each justification value should be a number between 0 and 1. Defaults to 0.5 for both, centering each pixel over its data location.

interpolate

If TRUE interpolate linearly, if FALSE (the default) don't interpolate.

na.rm

If FALSE, the default, missing values are removed with a warning. If TRUE, missing values are silently removed.

show.legend

logical. Should this layer be included in the legends? NA, the default, includes if any aesthetics are mapped. FALSE never includes, and TRUE always includes. It can also be a named logical vector to finely select the aesthetics to display.

inherit.aes

If FALSE, overrides the default aesthetics, rather than combining with them. This is most useful for helper functions that define both data and aesthetics and shouldn't inherit behaviour from the default plot specification, e.g. borders().

Aesthetics

geom_raster() understands the following aesthetics (required aesthetics are in bold):

  • geofield

  • alpha