raster, color table
r.colors [-rwldngae] [map=name[,name,...]] [file=name] [color=style] [raster=name] [raster_3d=name] [rules=name] [--help] [--verbose] [--quiet] [--ui]
Remove existing color table
Only write new color table if it does not already exist
List available rules then exit
List available rules with description then exit
If a color rule is given, only this rule is listed
Print usage summary
Verbose module output
Quiet module output
Force launching GUI dialog
Name of raster map(s)
Input file with one map name per line
Input map names can be defined in an input file in case a large amount of maps must be specified. This option is mutual exclusive to the map option.
Name of color table
Options: aspect, aspectcolr, bcyr, bgyr, blues, byg, byr, celsius, corine, curvature, differences, elevation, etopo2, evi, fahrenheit, forest_cover, gdd, grass, greens, grey, grey.eq, grey.log, grey1.0, grey255, gyr, haxby, inferno, kelvin, magma, ndvi, ndwi, nlcd, oranges, plasma, population, population_dens, precipitation, precipitation_daily, precipitation_monthly, rainbow, ramp, random, reds, roygbiv, rstcurv, ryb, ryg, sepia, slope, soilmoisture, srtm, srtm_plus, terrain, viridis, water, wave
aspect: aspect oriented grey colors [range: map values]
aspectcolr: aspect oriented rainbow colors [range: 0 to 360]
bcyr: blue through cyan through yellow to red [range: map values]
bgyr: blue through green through yellow to red [range: map values]
blues: white to blue [range: map values]
byg: blue through yellow to green [range: map values]
byr: blue through yellow to red [range: map values]
celsius: blue to red for degree Celsius temperature [range: -80 to 80]
corine: EU Corine land cover colors [range: 111 to 995]
curvature: for terrain curvatures (from v.surf.rst and r.slope.aspect) [range: map values]
differences: differences oriented colors [range: map values]
elevation: maps relative ranges of raster values to elevation color ramp [range: map values]
etopo2: colors for ETOPO2 worldwide bathymetry/topography [range: -11000 to 8850]
evi: enhanced vegetative index colors [range: -1 to 1]
fahrenheit: blue to red for Fahrenheit temperature [range: -112 to 176]
forest_cover: percentage of forest cover [range: 0 to 100]
gdd: accumulated growing degree days [range: 0 to 6000]
grass: GRASS GIS green (perceptually uniform) [range: map values]
greens: white to green [range: map values]
grey: grey scale [range: map values]
grey.eq: histogram-equalized grey scale [range: map values]
grey.log: histogram logarithmic transformed grey scale [range: map values]
grey1.0: grey scale for raster values between 0.0-1.0 [range: 0 to 1]
grey255: grey scale for raster values between 0-255 [range: 0 to 255]
gyr: green through yellow to red [range: map values]
haxby: relative colors for bathymetry or topography [range: map values]
inferno: perceptually uniform sequential color table inferno [range: map values]
kelvin: blue to red for temperature in Kelvin scale [range: 193.15 to 353.15]
magma: perceptually uniform sequential color table magma [range: map values]
ndvi: Normalized Difference Vegetation Index colors [range: -1 to 1]
ndwi: Normalized Difference Water Index colors [range: -200 to 200]
nlcd: US National Land Cover Dataset colors [range: 0 to 95]
oranges: white to orange [range: map values]
plasma: perceptually uniform sequential color table plasma [range: map values]
population: color table covering human population classification breaks [range: 0 to 2e+09]
population_dens: color table covering human population density classification breaks [range: 0 to 1e+09]
precipitation: precipitation color table (0..2000mm) [range: 0 to 7000]
precipitation_daily: precipitation color table (0..1000mm) [range: 0 to 10000]
precipitation_monthly: precipitation color table (0..1000mm) [range: 0 to 1000]
rainbow: rainbow color table [range: map values]
ramp: color ramp [range: map values]
random: random color table [range: map values]
reds: white to red [range: map values]
roygbiv: [range: map values]
rstcurv: terrain curvature (from r.resamp.rst) [range: map values]
ryb: red through yellow to blue [range: map values]
ryg: red through yellow to green [range: map values]
sepia: yellowish-brown through to white [range: map values]
slope: r.slope.aspect-type slope colors for raster values 0-90 [range: 0 to 90]
soilmoisture: soilmoisture color table (0.0-1.0) [range: 0 to 1]
srtm: color palette for Shuttle Radar Topography Mission elevation [range: -11000 to 8850]
srtm_plus: color palette for Shuttle Radar Topography Mission elevation (with seafloor colors) [range: -11000 to 8850]
terrain: global elevation color table covering -11000 to +8850m [range: -11000 to 8850]
viridis: perceptually uniform sequential color table viridis [range: map values]
water: water depth [range: map values]
wave: color wave [range: map values]
Raster map from which to copy color table
3D raster map from which to copy color table
Path to rules file
"-" to read rules from stdin
r.colors allows the user to create and/or modify the color table for a raster map or several raster maps at once. The raster maps (specified on the command line by map or as file using an input file with one map name per line) must exist in the user’s current mapset search path.
The raster option allows user to specify a raster map name from which to copy the color map.
The raster_3d option allows user to specify a 3D raster map name from which to copy the color map.
The -e flag equalizes the original raster’s color table. It can preclude the need for grey.eq rule, when used as -e color=grey. Note however, that this will not yield a color table identical to color=grey.eq, because grey.eq scales the fraction by 256 to get a grey level, while -e uses it to interpolate the original color table. If the original color table is a 0-255 grey scale, -e is effectively scaling the fraction by 255. Different algorithms are used. -e is designed to work with any color table, both the floating point and the integer raster maps.
The -g flag divides the raster’s grey value range into 100 logarithmically equal steps (where "step" is a rule with the same grey level for the start and end points). It can preclude the need for grey.log rule, when used as -g color=grey. Note however, that this will not yield a color table identical to color=grey.log. Different algorithms are used. Unlike color=grey.log, -g is designed to work with both floating point and integer rasters, without performance issues with large datasets, of any original color table. Logarithmic scaling doesn’t work on negative values. In the case when the value range includes zero, there’s no realistic solution.
The -e and -g flags are not mutually exclusive.
If the user specifies the -w flag, the current color table file for the input map will not be overwritten. This means that the color table is created only if the map does not already have a color table. If this option is not specified, the color table will be created if one does not exist, or modified if it does.
Color table types aspect, grey, grey.eq (histogram-equalized grey scale), byg (blue-yellow-green), byr (blue-yellow-red), gyr (green-yellow-red), rainbow, ramp, ryg (red-yellow-green), random, and wave are pre-defined color tables that r.colors knows how to create without any further input.
In case several input raster maps are provided the range (min, max) of all maps will be used for color table creation. Hence the created color table will span from the smallest minimum to the largest maximum value of all input raster maps and will be applied to all input raster maps.
In general, tables which associate colors with percentages (aspect, bcyr, byg, byr, elevation, grey, gyr, rainbow, ramp, ryb, ryg and wave) can be applied to any data, while those which use absolute values (aspectcolr, curvature, etopo2, evi, ndvi, population, slope, srtm, and terrain) only make sense for data with certain ranges. One can get a rough idea of the applicability of a colour table by reading the corresponding rules file ($GISBASE/etc/colors/<name>). For example the slope rule is defined as:
0 255:255:255 2 255:255:0 5 0:255:0 10 0:255 255 15 0:0:255 30 255:0:255 50 255:0:0 90 0:0:0
This is designed for the slope map generated by r.slope.aspect, where the value is a slope angle between 0 and 90 degrees.
Similarly, the aspectcolr rule:
0 white 1 yellow 90 green 180 cyan 270 red 360 yellow
is designed for the aspect maps produced by r.slope.aspect, where the value is a heading between 0 and 360 degrees.
The rules color table type will cause r.colors to read color table specifications from standard input (stdin) and will build the color table accordingly.
Using color table type rules, there are two ways to build a color table: by category values and by "percent" values.
To build a color table by category values’ indices, the user should determine the range of category values in the raster map with which the color table will be used. Specific category values will then be associated with specific colors. Note that a color does not have to be assigned for every valid category value because r.colors will interpolate a color ramp to fill in where color specification rules have been left out. The format of such a specification is as follows:
category_value color_name category_value color_name .. .. .. .. category_value color_name end
Each category value must be valid for the raster map, category values must be in ascending order and only use standard GRASS color names (aqua, black, blue, brown, cyan, gray, green, grey, indigo, magenta, orange, purple, red, violet, white, yellow).
Colors can also be specified by color numbers each in the range 0-255. The format of a category value color table specification using color numbers instead of color names is as follows:
category_value red_number:green_number:blue_number category_value red_number:green_number:blue_number .. .. .. .. .. .. .. .. category_value red_number:green_number:blue_number end
Specifying a color table by "percent" values allows one to treat a color table as if it were numbered from 0 to 100. The format of a "percent" value color table specification is the same as for a category value color specification, except that the category values are replaced by "percent" values, each from 0-100, in ascending order. The format is as follows:
percent_value% color_name percent_value% color_name .. .. .. .. percent_value% color_name end
Using "percent" value color table specification rules, colors can also be specified by color numbers each in the range 0-255. The format of a percent value color table specification using color numbers instead of color names is as follows:
percent_value% red_number:green_number:blue_number percent_value% red_number:green_number:blue_number .. .. .. .. .. .. .. .. percent_value% red_number:green_number:blue_number end
Note that you can also mix these two methods of color table specification; for example:
0 black 10% yellow 78 blue 100% 0:255:230 end
To set the NULL (no data) color, use the "nv" (null values) parameter:
0 black 10% yellow nv white end
To set the color to used for undefined values (beyond the range of the color rules) use the "default" parameter:
0 red 1 blue default grey end
All color tables are stored in $GISBASE/etc/colors/. Further user-defined color tables can also be stored in this directory for access from the color parameter or in a user defined directory. See also r.colors.out for printing color tables easily to the terminal.
The color table assigned to a raster map is stored in $GISDBASE/location/mapset/colr/.
The below example shows how you can specify colors for a three category map, assigning red to category 1, green to category 2, and blue to category 3. Start by using a text editor to create the following rules specification file (save it with the name rules.file):
1 red 2 green 3 blue end
The color table can then by assigned to map threecats by the following GRASS commands (two ways are available):
# read input from stdin cat rules.file | r.colors map=threecats rules=- # read directly from file r.colors map=threecats rules=rules.file
To create a natural looking lookup table (LUT) for true map layer elevation, use the following rules specification file. It will assign light green shades to the lower elevations (first 20% of the LUT), and then darker greens (next 15%, and next 20%) and light browns (next 20%) for middle elevations, and darker browns (next 15%) for higher elevations, and finally yellow for the highest peaks (last 10% of LUT).
0% 0:230:0 20% 0:160:0 35% 50:130:0 55% 120:100:30 75% 120:130:40 90% 170:160:50 100% 255:255:100
To invert the current rules:
r.colors map=current_raster -n rast=current_raster
d.colortable, d.histogram, d.legend, r.colors.out r.colors.stddev, r.support, r.univar, v.colors, v.colors.out, r3.colors, r3.colors.out
See also wiki page Color tables (from GRASS User Wiki)
ColorBrewer is an online tool designed to help people select good color schemes for maps and other graphics.
Michael Shapiro and David Johnson
Support for 3D rasters by Soeren Gebbert
Available at: r.colors source code (history)
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Â© 2003-2020 GRASS Development Team, GRASS GIS 7.8.5 Reference Manual