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Add a webgl heatmap

Adds a heatmap with data from a GeoJSON/TopoJSON file/url

Adds a heatmap with data from a KML file/url

Adds a heatmap with data from a CSV file/url

Adds a heatmap with data from a GPX file/url

removes the webgl heatmap

clears the webgl heatmap

Usage

addWebGLHeatmap(
  map,
  lng = NULL,
  lat = NULL,
  intensity = NULL,
  layerId = NULL,
  group = NULL,
  size = "30000",
  units = "m",
  opacity = 1,
  gradientTexture = NULL,
  alphaRange = 1,
  data = leaflet::getMapData(map)
)

addWebGLGeoJSONHeatmap(
  map,
  geojson,
  layerId = NULL,
  group = NULL,
  intensityProperty = NULL,
  size = "30000",
  units = "m",
  opacity = 1,
  gradientTexture = NULL,
  alphaRange = 1
)

addWebGLKMLHeatmap(
  map,
  kml,
  layerId = NULL,
  group = NULL,
  intensityProperty = NULL,
  size = "30000",
  units = "m",
  opacity = 1,
  gradientTexture = NULL,
  alphaRange = 1
)

addWebGLCSVHeatmap(
  map,
  csv,
  csvParserOptions,
  layerId = NULL,
  group = NULL,
  intensityProperty = NULL,
  size = "30000",
  units = "m",
  opacity = 1,
  gradientTexture = NULL,
  alphaRange = 1
)

addWebGLGPXHeatmap(
  map,
  gpx,
  layerId = NULL,
  group = NULL,
  intensityProperty = NULL,
  size = "30000",
  units = "m",
  opacity = 1,
  gradientTexture = NULL,
  alphaRange = 1
)

removeWebGLHeatmap(map, layerId)

clearWebGLHeatmap(map)

Arguments

map

a map widget object created from leaflet()

lng

a numeric vector of longitudes, or a one-sided formula of the form ~x where x is a variable in data; by default (if not explicitly provided), it will be automatically inferred from data by looking for a column named lng, long, or longitude (case-insensitively)

lat

a vector of latitudes or a formula (similar to the lng argument; the names lat and latitude are used when guessing the latitude column from data)

intensity

intensity of the heat. A vector of numeric values or a formula.

layerId

the layer id

group

the name of the group the newly created layers should belong to (for clearGroup and addLayersControl purposes). Human-friendly group names are permitted–they need not be short, identifier-style names. Any number of layers and even different types of layers (e.g. markers and polygons) can share the same group name.

size

in meters or pixels

units

either "m" or "px"

opacity

for the canvas element

gradientTexture

Alternative colors for heatmap. allowed values are "skyline", "deep-sea"

alphaRange

adjust transparency by changing to value between 0 and 1

data

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

geojson

The geojson or topojson url or contents as string.

intensityProperty

The property to use for determining the intensity at a point. Can be a "string" or a JS function, or NULL.

kml

The KML url or contents as string.

csv

The CSV url or contents as string.

csvParserOptions

options for parsing the CSV. Use csvParserOptions() to supply csv parser options.

gpx

The GPX url or contents as string.

Examples

## addWebGLHeatmap
leaflet(quakes) %>%
  addProviderTiles(providers$CartoDB.DarkMatter) %>%
  addWebGLHeatmap(lng = ~long, lat = ~lat, size = 60000)
## for more examples see # browseURL(system.file("examples/webglHeatmaps.R", package = "leaflet.extras")) ## addWebGLGeoJSONHeatmap # \donttest{ geoJson <- readr::read_file( "https://rawgit.com/benbalter/dc-maps/master/maps/historic-landmarks-points.geojson" ) leaflet() %>% setView(-77.0369, 38.9072, 12) %>% addProviderTiles(providers$CartoDB.Positron) %>% addWebGLGeoJSONHeatmap( geoJson, size = 30, units = "px" ) %>% addGeoJSONv2( geoJson, markerType = "circleMarker", stroke = FALSE, fillColor = "black", fillOpacity = 0.7, markerOptions = markerOptions(radius = 2) )
# } ## for more examples see # browseURL(system.file("examples/geojsonV2.R", package = "leaflet.extras")) # browseURL(system.file("examples/TopoJSON.R", package = "leaflet.extras")) ## addWebGLKMLHeatmap # \donttest{ kml <- readr::read_file( system.file("examples/data/kml/crimes.kml.zip", package = "leaflet.extras") ) leaflet() %>% setView(-77.0369, 38.9072, 12) %>% addProviderTiles(providers$CartoDB.Positron) %>% addWebGLKMLHeatmap(kml, size = 20, units = "px") %>% addKML( kml, markerType = "circleMarker", stroke = FALSE, fillColor = "black", fillOpacity = 1, markerOptions = markerOptions(radius = 1) )
# } ## addWebGLCSVHeatmap # \donttest{ csv <- readr::read_file( system.file("examples/data/csv/world_airports.csv.zip", package = "leaflet.extras") ) leaflet() %>% setView(0, 0, 2) %>% addProviderTiles(providers$CartoDB.DarkMatterNoLabels) %>% addWebGLCSVHeatmap( csv, csvParserOptions("latitude_deg", "longitude_deg"), size = 10, units = "px" )
# } # \donttest{ airports <- readr::read_file( system.file("examples/data/gpx/md-airports.gpx.zip", package = "leaflet.extras") ) leaflet() %>% addBootstrapDependency() %>% setView(-76.6413, 39.0458, 8) %>% addProviderTiles( providers$CartoDB.Positron, options = providerTileOptions(detectRetina = TRUE) ) %>% addWebGLGPXHeatmap( airports, size = 20000, group = "airports", opacity = 0.9 ) %>% addGPX( airports, markerType = "circleMarker", stroke = FALSE, fillColor = "black", fillOpacity = 1, markerOptions = markerOptions(radius = 1.5), group = "airports" )
# } ## for a larger example see # browseURL(system.file("examples/GPX.R", package = "leaflet.extras"))