
NAME
r.category - Manages category values and labels associated with user-specified raster map layers.
KEYWORDS
raster
SYNOPSIS
r.category
r.category help
r.category map=name [cats=range[,range,...]] [vals=float[,float,...]] [fs=character|space|tab] [raster=name] [rules=name] [format=string] [coefficients=mult1,offset1,mult2,offset2] [--verbose] [--quiet]
Parameters:
- map=name
- Name of raster map
- cats=range[,range,...]
- Category values
- Example: 1,3,7-9,13
- vals=float[,float,...]
- Comma separated value list
- Example: 1.4,3.8,13
- fs=character|space|tab
- Field separator
- Output field separator
- Default: tab
- raster=name
- Raster map from which to copy category table
- rules=name
- File containing category label rules (or "-" to read from stdin)
- format=string
- Default label or format string for dynamic labeling
- Used when no explicit label exists for the category
- coefficients=mult1,offset1,mult2,offset2
- Dynamic label coefficients
- Two pairs of category multiplier and offsets, for $1 and $2
DESCRIPTION
r.category prints the category values and labels for the raster map
layer specified by map=name to standard output. You can also
use it to set category labels for a raster map.
The user can specify all needed parameters on the command line, and run the
program non-interactively. If the user does not specify any categories
(e.g., using the optional cats=range[,range,...]
argument), then all the category values and labels for the named raster map
layer that occur in the map are printed. The entire map is read
using r.describe, to determine which
categories occur in the map. If a listing of categories is
specified, then the labels for those categories only are printed. The
cats may be specified as single category values, or as ranges of
values. The user may also (optionally) specify that a field separator other
than a space or tab be used to separate the category value from its
corresponding category label in the output, by using the
fs=character|space|tab option (see example
below). If no field separator is specified by the user, a tab is used to
separate these fields in the output, by default.
The output is sent to standard output in the form of one category per line,
with the category value first on the line, then an ASCII TAB character (or
whatever single character or space is specified using the fs
parameter), then the label for the category.
NOTES
Any ASCII TAB characters which may be in the label are replaced by spaces.
The output from r.category can be redirected into a file, or piped into
another program.
Input from a file
The rules option allows the user to assign category labels from values
found in a file. The label can refer to a single category, range of
categories, floating point value, or a range of floating point values.
The format is given as follows.
cat:Label
val1:val2:Label
If the filename is given as "-", the category labels are read from stdin
Default and dynamic category labels
Default and dynamic category labels can be created for categories that
are not explicitly labeled.
The coefficient line can be followed by explicit category labels
which override the format label generation.
0:no data
2: .
5: . ## explicit category labels
7: .
explicit labels can be also of the form:
5.5:5:9 label description
or
15:30 label description
In the format line
- $1 refers to the value num*5.0+1000 (ie, using the first 2 coefficients)
- $2 refers to the value num*5.0+1005 (ie, using the last 2 coefficients)
$1.2 will print $1 with 2 decimal places.
Also, the form $?xxx$yyy$ translates into yyy if the category is 1, xxx
otherwise. The $yyy$ is optional. Thus
$1 meter$?s
will become: 1 meter (for category 1)
2 meters (for category 2), etc.
format='Elevation: $1.2 to $2.2 feet' ## Format Statement
coefficients="5.0,1000,5.0,1005" ## Coefficients
The format and coefficients above would be used to generate the
following statement in creation of the format appropriate category
string for category "num":
sprintf(buff,"Elevation: %.2f to %.2f feet", num*5.0+1000, num*5.0*1005)
Note: while both the format and coefficent lines must be present
a blank line for the format string will effectively suppress
automatic label generation.
To use a "$" in the label without triggering the plural test,
put "$$" in the format string.
Use 'single quotes' when using a "$" on the command line to
avoid unwanted shell substitution.
EXAMPLES
-
r.category map=soils
-
prints the values and labels associated with all of the categories in the
soils raster map layer;
-
r.category map=soils cats=10,12,15-20
-
prints only the category values and labels for soils map layer
categories 10, 12, and 15 through 20; and
-
r.category map=soils cats=10,20 fs=':'
-
prints the values and labels for soils map layer categories
10 and 20, but uses ":" (instead of a tab)
as the character separating the category values from the category
values in the output.
- Example output:
-
10:Dumps, mine, Cc
20:Kyle clay, KaA
- Example defining category labels:
r.category diseasemap rules=- << EOF
1:potential absence
2:potential presence
EOF
sets the categoy values 1 and 2 to respective text labels.
TODO
Respect the fs= field separator setting for input rules.
SEE ALSO
UNIX Manual entries for awk and sort
r.coin,
r.describe,
d.what.rast,
r.support
AUTHORS
Michael Shapiro, U.S. Army Construction Engineering Research Laboratory
Hamish Bowman, University of Otago, New Zealand (label creation options)
Last changed: $Date: 2009-02-26 19:01:15 -0800 (Thu, 26 Feb 2009) $
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