R: Color mapping

colorNumeric {leaflet}

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 the `probs` argument instead.
`probs`	See `quantile`. If provided, the `n` argument 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 cut function). colorBin defaults for the cut function are include.lowest = TRUE and right = FALSE.

colorQuantile similarly bins numeric data, but via the quantile function.

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: "viridis", "magma", "inferno", or "plasma".
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])
}

[Package leaflet version 2.2.2 Index]