Create an image overlay from a RasterLayer or a SpatRaster
object. This is only suitable for small to medium sized rasters,
as the entire image will be embedded into the HTML page (or passed over
the websocket in a Shiny context).
addRasterImage(
map,
x,
colors = if (is.factor(x)[1]) "Set1" else "Spectral",
opacity = 1,
attribution = NULL,
layerId = NULL,
group = NULL,
project = TRUE,
method = c("auto", "bilinear", "ngb"),
maxBytes = 4 * 1024 * 1024,
data = getMapData(map)
)projectRasterForLeaflet(x, method)
a map widget object
a SpatRaster or a RasterLayer object--see raster
the color palette (see colorNumeric) or function
to use to color the raster values (hint: if providing a function, set
na.color to "#00000000" to make NA areas transparent).
The palette is ignored if x is a SpatRaster with a color table or if
it has RGB channels.
the base opacity of the raster, expressed from 0 to 1
the HTML string to show as the attribution for this layer
the layer id
the name of the group this raster image should belong to (see
the same parameter under addTiles)
if TRUE, automatically project x to the map
projection expected by Leaflet (EPSG:3857); if FALSE, it's
the caller's responsibility to ensure that x is already projected,
and that extent(x) is expressed in WGS84 latitude/longitude
coordinates
the method used for computing values of the new, projected raster image.
"bilinear" (the default) is appropriate for continuous data,
"ngb" - nearest neighbor - is appropriate for categorical data.
Ignored if project = FALSE. See projectRaster for details.
the maximum number of bytes to allow for the projected image (before base64 encoding); defaults to 4MB.
the data object from which the argument values are derived; by
default, it is the data object provided to leaflet()
initially, but can be overridden
The maxBytes parameter serves to prevent you from accidentally
embedding an excessively large amount of data into your htmlwidget. This
value is compared to the size of the final compressed image (after the raster
has been projected, colored, and PNG encoded, but before base64 encoding is
applied). Set maxBytes to Inf to disable this check, but be
aware that very large rasters may not only make your map a large download but
also may cause the browser to become slow or unresponsive.
To reduce the size of a SpatRaster, you can use spatSample
as in x = spatSample(x, 100000, method="regular", as.raster=TRUE). With
a RasterLayer you can use sampleRegular as in
sampleRegular(x, 100000, asRaster=TRUE).
By default, the addRasterImage function will project the raster data
x to the Pseudo-Mercator projection (EPSG:3857). This can be a
time-consuming operation for even moderately sized rasters; although it is much
faster for SpatRasters than for RasterLayers.
If you are repeatedly adding a particular raster to your Leaflet
maps, you can perform the projection ahead of time using
projectRasterForLeaflet(), and call addRasterImage with
project = FALSE.
addRasterLegend for an easy way to add a legend for a
SpatRaster with a color table.
library(raster)
r <- raster(xmn = -2.8, xmx = -2.79, ymn = 54.04, ymx = 54.05, nrows = 30, ncols = 30)
values(r) <- matrix(1:900, nrow(r), ncol(r), byrow = TRUE)
crs(r) <- CRS("+init=epsg:4326")
pal <- colorNumeric("Spectral", domain = c(0, 1000))
leaflet() %>% addTiles() %>%
addRasterImage(r, colors = pal, opacity = 0.8) %>%
addLegend(pal = pal, values = c(0, 1000))
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