Note: This document is for an older version of GRASS GIS that is outdated. You should upgrade, and read the current manual page.
For flags, the value will be "1" if the flag was given, and "0" otherwise.
If the -s or -n switch is used, the options and flags are written to standard output in the form opt_<name>=<value> and flag_<name>=<value>, preceded by the string @ARGS_PARSED@. If this string doesn't appear as the first line of standard output, it indicates that the script was invoked with a switch such as --html-description. In this case, the data written by g.parser to standard output should be copied to the script's standard output verbatim. If the -s switch is used, the options and flags are separated by newlines. If the -n switch is used, the options and flags are separated by null characters.
Typical header definitions are as follows:
# %module # % description: g.parser test script # %end # %flag # % key: f # % description: A flag # %end # %option # % key: raster # % type: string # % gisprompt: old,cell,raster # % description: Raster input map # % required: yes # %end
The parsers allows using predefined standardized options and flags, see the list of options and flags in the programmer manual. Eg. the option
# %option # % key: raster # % type: string # % gisprompt: old,cell,raster # % description: Raster input map # % required: yes # %end
# %option G_OPT_R_MAP # % key: raster # %end
# %rules # % exclusive: capfile_output, capfile # %end
# %rules # % required: raster, vector # %end
# %rules # % required: -i,-d,-c # %end
# % multiple: yes
IFS=, for opt in $GIS_OPT_INPUT ; do ... "$opt" done
A "guisection" field may be added to each option and flag to specify that the options should appear in multiple tabs in the auto-generated GUI. Any options without a guisection field go into the "Required" or "Options" tab. For example:
# % guisection: tabname
A "key_desc" field may be added to each option to specify the text that appears in the module's usage help section. For example:
# % key_desc: filename
If a script is run with --o, the parser will set GRASS_OVERWRITE=1, which has the same effect as passing --o to every module which is run from the script. Similarly, passing --q or --v will set GRASS_VERBOSE to 0 or 3 respectively, which has the same effect as passing --q or --v to every module which is run from the script. Rather than checking whether --o, --q or --v were used, you should be checking GRASS_OVERWRITE and/or GRASS_VERBOSE instead. If those variables are set, the script should behave the same way regardless of whether they were set by --o, --q or --v being passed to the script or set by other means.
For backwards compatibility reasons, the header definitions can use
#%
instead of # %
as in
#% multiple: yes
. However, Python code should use
# %
in order to conform to PEP8.
For C, the relevant functions are those in lib/gis/parser_dependencies.c.
For scripts, relationships are specified using a "rules" section, e.g.
# %rules # % required: altitude,elevation # %end
v.in.db --script
v.in.db --html-description
v.in.db --interface-description
v.in.db driver=sqlite database=mysqlite.db table=pointsfile x=x y=y z=z key=idcol out=dtmpoints --json { "module": "v.in.db", "id": "v.in.db_1804289383", "inputs":[ {"param": "table", "value": "pointsfile"}, {"param": "driver", "value": "sqlite"}, {"param": "database", "value": "mysqlite.db"}, {"param": "x", "value": "x"}, {"param": "y", "value": "y"}, {"param": "z", "value": "z"}, {"param": "key", "value": "idcol"} ], "outputs":[ {"param": "output", "value": "dtmpoints"} ] }
v.in.db --wps-process-description
v.in.db --rst-description
g.parser -t somescriptfile
To run properly, the script needs to be copied into a directory listed in $GRASS_ADDON_PATH environmental variable with the executable flag being set.
The script will provide a GUI (as above) and the following usage help text:
test.py|sh|pl --help Description: g.parser test script (python) Usage: test.sh [-f] raster=string vector=string [option1=string] [--verbose] [--quiet] Flags: -f A flag --v Verbose module output --q Quiet module output Parameters: raster Raster input map vector Vector input map option1 An option
#!/usr/bin/env python3 # g.parser demo script for python programming # %module # % description: g.parser test script (python) # % keyword: keyword1 # % keyword: keyword2 # %end # %flag # % key: f # % description: A flag # %end # %option G_OPT_R_MAP # % key: raster # % required: yes # %end # %option G_OPT_V_MAP # % key: vector # %end # %option # % key: option1 # % type: string # % description: An option # % required: no # %end import os import sys import grass.script as gs def main(): flag_f = flags['f'] option1 = options['option1'] raster = options['raster'] vector = options['vector'] #### add your code here #### if flag_f: print "Flag -f set" else: print "Flag -f not set" # test if parameter present: if option1: print "Value of option1 option: '%s'" % option1 print "Value of raster option: '%s'" % raster print "Value of vector option: '%s'" % vector #### end of your code #### return 0 if __name__ == "__main__": options, flags = gs.parser() sys.exit(main())
#!/bin/sh # g.parser demo script for shell programming # %module # % description: g.parser test script (shell) # %end # %flag # % key: f # % description: A flag # %end # %option G_OPT_R_MAP # % key: raster # % required: yes # %end # %option G_OPT_V_MAP # % key: vector # %end # %option # % key: option1 # % type: string # % description: An option # % required: no # %end if [ -z "$GISBASE" ] ; then echo "You must be in GRASS GIS to run this program." 1>&2 exit 1 fi if [ "$1" != "@ARGS_PARSED@" ] ; then exec g.parser "$0" "$@" fi #### add your code below #### echo "" if [ $GIS_FLAG_F -eq 1 ] ; then g.message message="Flag -f set" else g.message message="Flag -f not set" fi # test if parameter present: if [ -n "$GIS_OPT_OPTION1" ] ; then echo "Value of GIS_OPT_OPTION1: '$GIS_OPT_OPTION1'" fi g.message message="Value of GIS_OPT_option1: '$GIS_OPT_option1'" g.message message="Value of GIS_OPT_raster: '$GIS_OPT_raster'" g.message message="Value of GIS_OPT_vect: '$GIS_OPT_vector'" #### end of your code ####
#!/usr/bin/perl -w use strict; # g.parser demo script # %module # % description: g.parser test script (perl) # % keyword: keyword1 # % keyword: keyword2 # %end # %flag # % key: f # % description: A flag # %end # %option G_OPT_R_MAP # % key: raster # % required: yes # %end # %option G_OPT_V_MAP # % key: vector # %end # %option # % key: option1 # % type: string # % description: An option # % required: no # %end if ( !$ENV{'GISBASE'} ) { printf(STDERR "You must be in GRASS GIS to run this program.\n"); exit 1; } if( $ARGV[0] ne '@ARGS_PARSED@' ){ my $arg = ""; for (my $i=0; $i < @ARGV;$i++) { $arg .= " $ARGV[$i] "; } system("$ENV{GISBASE}/bin/g.parser $0 $arg"); exit; } #### add your code here #### print "\n"; if ( $ENV{'GIS_FLAG_F'} eq "1" ){ print "Flag -f set\n" } else { print "Flag -f not set\n" } printf ("Value of GIS_OPT_option1: '%s'\n", $ENV{'GIS_OPT_OPTION1'}); printf ("Value of GIS_OPT_raster: '%s'\n", $ENV{'GIS_OPT_RASTER'}); printf ("Value of GIS_OPT_vect: '%s'\n", $ENV{'GIS_OPT_VECTOR'}); #### end of your code ####
In this example, the module v.what.rast is used as an example. The output is shown below:
v.what.rast --script #!/usr/bin/env python3 ############################################################################ # # MODULE: v.what.rast_wrapper # AUTHOR(S): username # PURPOSE: Wrapper for v.what.rast # COPYRIGHT: (C) 2017 by username, and the GRASS Development Team # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation; either version 2 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # ############################################################################ # %module # % description: Uploads raster values at positions of vector points to the table. # % keyword: vector, sampling, raster, position, querying, attribute table, surface information # %end # %flag # % key: i # % description: Interpolate values from the nearest four cells # %end # %flag # % key: p # % description: Print categories and values instead of updating the database # %end # %option # % key: map # % type: string # % required: yes # % multiple: no # % key_desc: name # % label: Name of vector points map for which to edit attributes # % description: Or data source for direct OGR access # % gisprompt: old,vector,vector # %end # %option # % key: layer # % type: string # % required: no # % multiple: no # % label: Layer number or name # % description: Vector features can have category values in different layers. This number determines which layer to use. When used with direct OGR access this is the layer name. # % answer: 1 # % gisprompt: old,layer,layer # %end # %option # % key: type # % type: string # % required: no # % multiple: yes # % options: point,centroid # % description: Input feature type # % answer: point # %end # %option # % key: raster # % type: string # % required: yes # % multiple: no # % key_desc: name # % description: Name of existing raster map to be queried # % gisprompt: old,cell,raster # %end # %option # % key: column # % type: string # % required: no # % multiple: no # % key_desc: name # % description: Name of attribute column to be updated with the query result # % gisprompt: old,dbcolumn,dbcolumn # %end # %option # % key: where # % type: string # % required: no # % multiple: no # % key_desc: sql_query # % label: WHERE conditions of SQL statement without 'where' keyword # % description: Example: income < 1000 and population >= 10000 # %end import sys import grass.script as gs def main(): # put code here return 0 if __name__ == "__main__": options, flags = gs.parser() sys.exit(main())
Overview table: Parser standard options
Related Wiki pages: Using GRASS GIS with other programming languages
Available at: g.parser source code (history)
Latest change: Thu Feb 3 11:10:06 2022 in commit: 73413160a81ed43e7a5ca0dc16f0b56e450e9fef
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