test.t.vect.list stderr

+ g.region s=0 n=80 w=0 e=120 b=0 t=50 res=10 res3=10 -p3
+ export GRASS_OVERWRITE=1
+ v.random -z output=lidar_1 n=20 zmin=0 zmax=100 column=height
Default driver / database set to:
driver: sqlite
database: $GISDBASE/$LOCATION_NAME/$MAPSET/sqlite/sqlite.db
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_1@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ v.random -z output=lidar_2 n=20 zmin=0 zmax=100 column=height
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_2@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ v.random -z output=lidar_3 n=20 zmin=0 zmax=100 column=height
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_3@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ v.random -z output=lidar_4 n=20 zmin=0 zmax=100 column=height
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_4@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ v.random -z output=lidar_5 n=20 zmin=0 zmax=100 column=height
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_5@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ v.random -z output=lidar_6 n=20 zmin=0 zmax=100 column=height
Generating points...
   0%   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Building topology for vector map
<lidar_6@__temporal_t_vect_list_test.t.vect.list>...
Registering primitives...

20 primitives registered
20 vertices registered
Building areas...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
0 areas built
0 isles built
Attaching islands...
Attaching centroids...
   5%  10%  15%  20%  25%  30%  35%  40%  45%  50%  55%  60%  65%  70%  75%  80%  85%  90%  95% 100%
Number of nodes: 0
Number of primitives: 20
Number of points: 20
Number of lines: 0
Number of boundaries: 0
Number of centroids: 0
Number of areas: 0
Number of isles: 0
+ g.tempfile pid=1 -d
+ n1=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/1.0
+ g.tempfile pid=2 -d
+ n2=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/2.0
+ g.tempfile pid=3 -d
+ n3=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/3.0
+ g.tempfile pid=4 -d
+ n4=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/4.0
+ g.tempfile pid=5 -d
+ n5=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/5.0
+ cat
+ cat
+ cat
+ cat
+ cat
+ t.create type=stvds temporaltype=absolute output=lidar_abs1 title=A test with input files descr=A test with input files
Default TGIS driver / database set to:
driver: sqlite
database:
/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/tgis/sqlite.db
Creating temporal database:
/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/tgis/sqlite.db
+ t.create type=stvds temporaltype=absolute output=lidar_abs2 title=A test with input files descr=A test with input files
+ t.create type=stvds temporaltype=absolute output=lidar_abs3 title=A test with input files descr=A test with input files
+ t.create type=stvds temporaltype=absolute output=lidar_abs4 title=A test with input files descr=A test with input files
+ t.create type=stvds temporaltype=absolute output=lidar_abs5 title=A test with input files descr=A test with input files
+ t.register type=vect input=lidar_abs1 file=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/1.0 start=2001-01-01 increment=1 months
Gathering map information...
   0% 100%
Registering maps in the temporal database...
Registering maps in the space time raster dataset...
   0%Updating space time raster dataset...
 100%
+ t.vect.list separator= |  method=comma input=lidar_abs1
+ t.vect.list input=lidar_abs1
+ t.vect.list separator= |  method=cols input=lidar_abs1
+ t.vect.list separator= |  method=delta input=lidar_abs1
+ t.vect.list separator= |  method=deltagaps input=lidar_abs1
+ t.register type=vect -i input=lidar_abs2 file=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/2.0
Gathering map information...
   0% 100%
Registering maps in the temporal database...
Registering maps in the space time raster dataset...
   0%Updating space time raster dataset...
 100%
+ t.vect.list separator= |  method=comma input=lidar_abs2
+ t.vect.list input=lidar_abs2
+ t.vect.list separator= |  method=cols input=lidar_abs2
+ t.vect.list separator= |  method=delta input=lidar_abs2
+ t.vect.list separator= |  method=deltagaps input=lidar_abs2
+ t.register type=vect -i input=lidar_abs3 file=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/3.0
Gathering map information...
   0% 100%
Registering maps in the temporal database...
Registering maps in the space time raster dataset...
   0%Updating space time raster dataset...
 100%
+ t.vect.list separator= |  method=comma input=lidar_abs3
+ t.vect.list separator= |  method=delta input=lidar_abs3
+ t.vect.list separator= |  method=deltagaps input=lidar_abs3
+ t.register type=vect -i input=lidar_abs4 file=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/4.0
Gathering map information...
   0% 100%
Registering maps in the temporal database...
Registering maps in the space time raster dataset...
   0%Updating space time raster dataset...
 100%
+ t.vect.list separator= |  method=comma input=lidar_abs4
+ t.vect.list separator= |  method=delta input=lidar_abs4
+ t.vect.list separator= |  method=deltagaps input=lidar_abs4
+ t.register type=vect -i input=lidar_abs5 file=/grassdata/tests-grassdata/piemonte_utm32_wgs84_grass7/__temporal_t_vect_list_test.t.vect.list/.tmp/fatra/5.0
Gathering map information...
   0% 100%
Registering maps in the temporal database...
Registering maps in the space time raster dataset...
   0%Updating space time raster dataset...
 100%
+ t.vect.list separator= |  method=comma input=lidar_abs5
+ t.vect.list input=lidar_abs5
+ t.vect.list separator= |  method=cols input=lidar_abs5
+ t.vect.list separator= |  method=delta input=lidar_abs5
+ t.vect.list separator= |  method=deltagaps input=lidar_abs5