colorNumeric: Color mapping
In leaflet: Create Interactive Web Maps with the JavaScript 'Leaflet' Library

colorNumeric

R Documentation

Color mapping

Description

Conveniently maps data values (numeric or factor/character) to colors according to a given palette, which can be provided in a variety of formats.

Usage

colorNumeric(
  palette,
  domain,
  na.color = "#808080",
  alpha = FALSE,
  reverse = FALSE
)

colorBin(
  palette,
  domain,
  bins = 7,
  pretty = TRUE,
  na.color = "#808080",
  alpha = FALSE,
  reverse = FALSE,
  right = FALSE
)

colorQuantile(
  palette,
  domain,
  n = 4,
  probs = seq(0, 1, length.out = n + 1),
  na.color = "#808080",
  alpha = FALSE,
  reverse = FALSE,
  right = FALSE
)

colorFactor(
  palette,
  domain,
  levels = NULL,
  ordered = FALSE,
  na.color = "#808080",
  alpha = FALSE,
  reverse = FALSE
)

Arguments

`palette`	The colors or color function that values will be mapped to
`domain`	The possible values that can be mapped. For `colorNumeric()` and `colorBin()`, this can be a simple numeric range (e.g., `c(0, 100)`); `colorQuantile()` needs representative numeric data; and `colorFactor()` needs categorical data. If `NULL`, then whenever the resulting color function is called, the `x` value will represent the domain. This implies that if the function is invoked multiple times, the encoding between values and colors may not be consistent; if consistency is needed, you must provide a non-`NULL` domain.
`na.color`	The color to return for `NA` values. Note that `na.color = NA` is valid.
`alpha`	Whether alpha channels should be respected or ignored. If `TRUE` then colors without explicit alpha information will be treated as fully opaque.
`reverse`	Whether the colors (or color function) in `palette` should be used in reverse order. For example, if the default order of a palette goes from blue to green, then `reverse = TRUE` will result in the colors going from green to blue.
`bins`	Either a numeric vector of two or more unique cut points or a single number (greater than or equal to 2) giving the number of intervals into which the domain values are to be cut.
`pretty`	Whether to use the function `pretty()` to generate the bins when the argument `bins` is a single number. When `pretty = TRUE`, the actual number of bins may not be the number of bins you specified. When `pretty = FALSE`, `seq()` is used to generate the bins and the breaks may not be "pretty".
`right`	parameter supplied to cut. See Details
`n`	Number of equal-size quantiles desired. For more precise control, use `probs` instead.
`probs`	See `stats::quantile()`. If provided, `n` is ignored.
`levels`	An alternate way of specifying levels; if specified, domain is ignored
`ordered`	If `TRUE` and `domain` needs to be coerced to a factor, treat it as already in the correct order

Details

colorNumeric() is a simple linear mapping from continuous numeric data to an interpolated palette.

colorBin() also maps continuous numeric data, but performs binning based on value (see the base::cut() function). colorBin() defaults for the base::cut() function are include.lowest = TRUE and right = FALSE.

colorQuantile() similarly bins numeric data, but via stats::quantile().

colorFactor() maps factors to colors. If the palette is discrete and has a different number of colors than the number of factors, interpolation is used.

The palette argument can be any of the following:

A character vector of RGB or named colors. Examples: palette(), c("#000000", "#0000FF", "#FFFFFF"), topo.colors(10)
The name of an RColorBrewer palette, e.g., "BuPu" or "Greens".
The full name of a viridis palette: "magma", "inferno", "plasma", "viridis", "cividis", "rocket", "mako", or "turbo"
A function that receives a single value between 0 and 1 and returns a color. Examples: colorRamp(c("#000000", "#FFFFFF"), interpolate = "spline").

Value

A function that takes a single parameter x; when called with a vector of numbers (except for colorFactor(), which expects factors/characters), #RRGGBB color strings are returned (unless alpha = TRUE in which case #RRGGBBAA may also be possible).

Examples

pal <- colorBin("Greens", domain = 0:100)
pal(runif(10, 60, 100))

if (interactive()) {
  # Exponential distribution, mapped continuously
  previewColors(colorNumeric("Blues", domain = NULL), sort(rexp(16)))
  # Exponential distribution, mapped by interval
  previewColors(colorBin("Blues", domain = NULL, bins = 4), sort(rexp(16)))
  # Exponential distribution, mapped by quantile
  previewColors(colorQuantile("Blues", domain = NULL), sort(rexp(16)))

  # Categorical data; by default, the values being colored span the gamut...
  previewColors(colorFactor("RdYlBu", domain = NULL), LETTERS[1:5])
  # ...unless the data is a factor, without droplevels...
  previewColors(colorFactor("RdYlBu", domain = NULL), factor(LETTERS[1:5], levels = LETTERS))
  # ...or the domain is stated explicitly.
  previewColors(colorFactor("RdYlBu", levels = LETTERS), LETTERS[1:5])
}

leaflet documentation built on Sept. 9, 2025, 5:28 p.m.