test_to_vect stdout

r.to.vect input=a_1@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_1@__temporal_t_rast_to_vect_test_to_vect -t --o --q
r.to.vect input=a_2@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_2@__temporal_t_rast_to_vect_test_to_vect -t --o --q
r.to.vect input=a_3@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_3@__temporal_t_rast_to_vect_test_to_vect -t --o --q
r.to.vect input=a_4@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_4@__temporal_t_rast_to_vect_test_to_vect -t --o --q
WARNING: Categories will be unique sequence, raster values will be lost.
WARNING: Categories will be unique sequence, raster values will be lost.
WARNING: Categories will be unique sequence, raster values will be lost.
WARNING: Categories will be unique sequence, raster values will be lost.
r.to.vect input=a_5@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_5@__temporal_t_rast_to_vect_test_to_vect -t --o --q
WARNING: Categories will be unique sequence, raster values will be lost.
Creating a new space time vector dataset
Update metadata, spatial and temporal extent from all registered maps of <result@__temporal_t_rast_to_vect_test_to_vect>
100


r.to.vect input=a_1@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_1@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_2@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_2@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_3@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_3@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_4@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_4@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_5@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_5@__temporal_t_rast_to_vect_test_to_vect --o --q
Creating a new space time vector dataset
Update metadata, spatial and temporal extent from all registered maps of <result@__temporal_t_rast_to_vect_test_to_vect>
100


r.to.vect input=a_1@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_1@__temporal_t_rast_to_vect_test_to_vect -s --o --q
r.to.vect input=a_2@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_2@__temporal_t_rast_to_vect_test_to_vect -s --o --q
r.to.vect input=a_3@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_3@__temporal_t_rast_to_vect_test_to_vect -s --o --q
r.to.vect input=a_4@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_4@__temporal_t_rast_to_vect_test_to_vect -s --o --q
r.to.vect input=a_5@__temporal_t_rast_to_vect_test_to_vect type=area column=value output=test_5@__temporal_t_rast_to_vect_test_to_vect -s --o --q
Creating a new space time vector dataset
Update metadata, spatial and temporal extent from all registered maps of <result@__temporal_t_rast_to_vect_test_to_vect>
100


r.to.vect input=a_1@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_1@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_2@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_2@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_3@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_3@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_4@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_4@__temporal_t_rast_to_vect_test_to_vect --o --q
r.to.vect input=a_5@__temporal_t_rast_to_vect_test_to_vect type=point column=value output=test_5@__temporal_t_rast_to_vect_test_to_vect --o --q
Creating a new space time vector dataset
Update metadata, spatial and temporal extent from all registered maps of <result@__temporal_t_rast_to_vect_test_to_vect>
100


WARNING: Space time raster dataset <A@__temporal_t_rast_to_vect_test_to_vect> is empty



Description:
 Converts a space time raster dataset into a space time vector dataset

Keywords:
 temporal, conversion, raster, vector, time

Usage:
 t.rast.to.vect [-ntszbv] input=name output=name [where=sql_query]
   type=string basename=string [column=string] [nprocs=value]
   [--overwrite] [--help] [--verbose] [--quiet] [--ui]

Flags:
  -n   Register empty vector maps
  -t   Do not create attribute tables
  -s   Smooth corners of area features
  -z   Write raster values as z coordinate
        Table is not created. Currently supported only for points.
  -b   Do not build vector topology
        Name must be SQL compliant
  -v   Use raster values as categories instead of unique sequence (CELL only)
 --o   Allow output files to overwrite existing files
 --h   Print usage summary
 --v   Verbose module output
 --q   Quiet module output
 --ui  Force launching GUI dialog

Parameters:
     input   Name of the input space time raster dataset
    output   Name of the output space time vector dataset
     where   WHERE conditions of SQL statement without 'where' keyword used in the temporal GIS framework
              Example: start_time > '2001-01-01 12:30:00'
      type   Output feature type
             options: point,line,area
  basename   Basename of the new generated output maps
              A numerical suffix separated by an underscore will be attached to create a unique identifier
    column   Name of attribute column to store value
             default: value
    nprocs   Number of r.to.vect processes to run in parallel, more than 1 process works only in conjunction with flag -t
             default: 1

ERROR: Required parameter <type> not set:
	(Output feature type)
ERROR: Required parameter <basename> not set:
	(Basename of the new generated output maps)