Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
*******************************************************
*	   Storm Surge Calculation System (SSCS)		 *
*******************************************************
Now is :  2020-10-05 17:07:19.806302  UTC

inp1= 20200801.00
ncores= 2
var= rain
lw= aa.txt
stormname!!!!!!!!!!!!!!!= 1000688/JTWC
dtBullHolland= 6
submitting calc 2020-08-01 00:00:00 2020-08-04 12:00:00 delft3d 116.0 134.0 18.0 40.5 4.0 holland 72 15 True GDACS/1000688/2_holland 6 1 False False 2 aa.txt 20200801.00 1000688/JTWC 6 rain False
*************---------------------******************
forcing GDACS
home dir /mnt/output/SSCS/2020/GDACS/1000688/2_holland/
ret 0
classifications
============================================
1. Set INPUT/OUTPUT
============================================
startdate 2020-08-01 00:00:00
currdate 2020-08-04 12:00:00
ndt:  84 delta: 6
nt1=delta 6
nt 72
alldate:  DatetimeIndex(['2020-08-01 00:00:00', '2020-08-01 06:00:00',
               '2020-08-01 12:00:00', '2020-08-01 18:00:00',
               '2020-08-02 00:00:00', '2020-08-02 06:00:00',
               '2020-08-02 12:00:00', '2020-08-02 18:00:00',
               '2020-08-03 00:00:00', '2020-08-03 06:00:00',
               '2020-08-03 12:00:00', '2020-08-03 18:00:00',
               '2020-08-04 00:00:00', '2020-08-04 06:00:00',
               '2020-08-04 12:00:00'],
              dtype='datetime64[ns]', freq='6H')
============================================
2. Processing meteo files: nc2tif
============================================

 >> 2.1. Process curr + past files
lon0,lon1,lat0,lat1 116.0 134.0 18.0 40.5
processing curr bull... 2020-08-04 12:00:00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/ /mnt/input/etrap/2020/1000688/
**** 2020080412
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080412*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 5 nt 6
currDate1 2020-08-04 12:00:00
2020-08-04 18:00:00
sdate 2020-08-04 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/ /mnt/input/etrap/2020/1000688/
**** 2020080412
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080412*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 23 nt 24
currDate1 2020-08-04 12:00:00
2020-08-05 12:00:00
sdate 2020-08-05 12:00:00
2020-08-05 12:00:00
16
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.jpg
processing all past bull only if Past=True... True

 itdate, istime 2020-08-01 00:00:00 20200801.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/ /mnt/input/etrap/2020/1000688/
**** 2020080100
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080100*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
currDate 2020-08-01 00:00:00
f 1 nt-1 5 nt 6
currDate1 2020-08-01 00:00:00
2020-08-01 06:00:00
sdate 2020-08-01 06:00:00
-2
CAT ['TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/ /mnt/input/etrap/2020/1000688/
**** 2020080100
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080100*.tif
/mnt/input/etrap/2020/Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
1000688/202003W.pmqpf.08010000.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
currDate 2020-08-01 00:00:00
f 1 nt-1 23 nt 24
currDate1 2020-08-01 00:00:00
2020-08-02 00:00:00
sdate 2020-08-02 00:00:00
2020-08-02 00:00:00
2
CAT ['TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.jpg

 itdate, istime 2020-08-01 06:00:00 20200801.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/ /mnt/input/etrap/2020/1000688/
**** 2020080106
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080106*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
currDate 2020-08-01 06:00:00
f 2 nt-1 5 nt 6
currDate1 2020-08-01 06:00:00
2020-08-01 12:00:00
sdate 2020-08-01 12:00:00
-2
CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/ /mnt/input/etrap/2020/1000688/
**** 2020080106
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080106*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
currDate 2020-08-01 06:00:00
f 2 nt-1 23 nt 24
currDate1 2020-08-01 06:00:00
2020-08-02 06:00:00
sdate 2020-08-02 06:00:00
2020-08-02 06:00:00
3
CAT ['TD', 'TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.jpg

 itdate, istime 2020-08-01 12:00:00 20200801.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/ /mnt/input/etrap/2020/1000688/
**** 2020080112
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080112*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
currDate 2020-08-01 12:00:00
f 3 nt-1 5 nt 6
currDate1 2020-08-01 12:00:00
2020-08-01 18:00:00
sdate 2020-08-01 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/ /mnt/input/etrap/2020/1000688/
**** 2020080112
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080112*.tif
/mnt/input/etrap/2020/1000688/202003Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
W.pmqpf.08011200.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
currDate 2020-08-01 12:00:00
f 3 nt-1 23 nt 24
currDate1 2020-08-01 12:00:00
2020-08-02 12:00:00
sdate 2020-08-02 12:00:00
2020-08-02 12:00:00
4
CAT ['TD', 'TD', 'TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.jpg

 itdate, istime 2020-08-01 18:00:00 20200801.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/ /mnt/input/etrap/2020/1000688/
**** 2020080118
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080118*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
currDate 2020-08-01 18:00:00
f 4 nt-1 5 nt 6
currDate1 2020-08-01 18:00:00
2020-08-02 00:00:00
sdate 2020-08-02 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/ /mnt/input/etrap/2020/1000688/
**** 2020080118
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080118*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
currDate 2020-08-01 18:00:00
f 4 nt-1 23 nt 24
currDate1 2020-08-01 18:00:00
2020-08-02 18:00:00
sdate 2020-08-02 18:00:00
2020-08-02 18:00:00
5
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.jpg

 itdate, istime 2020-08-02 00:00:00 20200802.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/ /mnt/input/etrap/2020/1000688/
**** 2020080200
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080200*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
currDate 2020-08-02 00:00:00
f 5 nt-1 5 nt 6
currDate1 2020-08-02 00:00:00
2020-08-02 06:00:00
sdate 2020-08-02 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/ /mnt/input/etrap/2020/1000688/
**** 2020080200
/mnt/input/etrap/2020/1000688/2020*.pmqpCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
f.080200*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
currDate 2020-08-02 00:00:00
f 5 nt-1 23 nt 24
currDate1 2020-08-02 00:00:00
2020-08-03 00:00:00
sdate 2020-08-03 00:00:00
2020-08-03 00:00:00
6
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.jpg

 itdate, istime 2020-08-02 06:00:00 20200802.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/ /mnt/input/etrap/2020/1000688/
**** 2020080206
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080206*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
currDate 2020-08-02 06:00:00
f 6 nt-1 5 nt 6
currDate1 2020-08-02 06:00:00
2020-08-02 12:00:00
sdate 2020-08-02 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/ /mnt/input/etrap/2020/1000688/
**** 2020080206
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080206*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
currDate 2020-08-02 06:00:00
f 6 nt-1 23 nt 24
currDate1 2020-08-02 06:00:00
2020-08-03 06:00:00
sdate 2020-08-03 06:00:00
2020-08-03 06:00:00
7
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.jpg

 itdate, istime 2020-08-02 12:00:00 20200802.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/ /mnt/input/etrap/2020/1000688/
**** 2020080212
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080212*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
currDate 2020-08-02 12:00:00
f 7 nt-1 5 nt 6
currDate1 2020-08-02 12:00:00
2020-08-02 18:00:00
sdate 2020-08-02 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCSCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
/2020/GDACS/1000688/2_holland/tif/20200802.12/ /mnt/input/etrap/2020/1000688/
**** 2020080212
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080212*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
currDate 2020-08-02 12:00:00
f 7 nt-1 23 nt 24
currDate1 2020-08-02 12:00:00
2020-08-03 12:00:00
sdate 2020-08-03 12:00:00
2020-08-03 12:00:00
8
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.jpg

 itdate, istime 2020-08-02 18:00:00 20200802.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/ /mnt/input/etrap/2020/1000688/
**** 2020080218
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080218*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
currDate 2020-08-02 18:00:00
f 8 nt-1 5 nt 6
currDate1 2020-08-02 18:00:00
2020-08-03 00:00:00
sdate 2020-08-03 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/ /mnt/input/etrap/2020/1000688/
**** 2020080218
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080218*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
currDate 2020-08-02 18:00:00
f 8 nt-1 23 nt 24
currDate1 2020-08-02 18:00:00
2020-08-03 18:00:00
sdate 2020-08-03 18:00:00
2020-08-03 18:00:00
9
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.jpg

 itdate, istime 2020-08-03 00:00:00 20200803.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/ /mnt/input/etrap/2020/1000688/
**** 2020080300
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080300*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
currDate 2020-08-03 00:00:00
f 9 nt-1 5 nt 6
currDate1 2020-08-03 00:00:00
2020-08-03 06:00:00
sdate 2020-08-03 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS',Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
 'TS', 'TS', 'H', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/ /mnt/input/etrap/2020/1000688/
**** 2020080300
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080300*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
currDate 2020-08-03 00:00:00
f 9 nt-1 23 nt 24
currDate1 2020-08-03 00:00:00
2020-08-04 00:00:00
sdate 2020-08-04 00:00:00
2020-08-04 00:00:00
10
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.jpg

 itdate, istime 2020-08-03 06:00:00 20200803.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/ /mnt/input/etrap/2020/1000688/
**** 2020080306
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080306*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
currDate 2020-08-03 06:00:00
f 10 nt-1 5 nt 6
currDate1 2020-08-03 06:00:00
2020-08-03 12:00:00
sdate 2020-08-03 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/ /mnt/input/etrap/2020/1000688/
**** 2020080306
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080306*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
currDate 2020-08-03 06:00:00
f 10 nt-1 23 nt 24
currDate1 2020-08-03 06:00:00
2020-08-04 06:00:00
sdate 2020-08-04 06:00:00
2020-08-04 06:00:00
11
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.jpg

 itdate, istime 2020-08-03 12:00:00 20200803.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/ /mnt/input/etrap/2020/1000688/
**** 2020080312
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080312*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Track/1000688/JTWC/2020080312/all_inpData.txt
currDate 2020-08-03 12:00:00
f 11 nt-1 5 nt 6
currDate1 2020-08-03 12:00:00
2020-08-03 18:00:00
sdate 2020-08-03 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/ /mnt/input/etrap/2020/1000688/
**** 2020080312
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080312*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
currDate 2020-08-03 12:00:00
f 11 nt-1 23 nt 24
currDate1 2020-08-03 12:00:00
2020-08-04 12:00:00
sdate 2020-08-04 12:00:00
2020-08-04 12:00:00
12
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.jpg

 itdate, istime 2020-08-03 18:00:00 20200803.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/ /mnt/input/etrap/2020/1000688/
**** 2020080318
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080318*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
currDate 2020-08-03 18:00:00
f 12 nt-1 5 nt 6
currDate1 2020-08-03 18:00:00
2020-08-04 00:00:00
sdate 2020-08-04 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/ /mnt/input/etrap/2020/1000688/
**** 2020080318
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080318*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
currDate 2020-08-03 18:00:00
f 12 nt-1 23 nt 24
currDate1 2020-08-03 18:00:00
2020-08-04 18:00:00
sdate 2020-08-04 18:00:00
2020-08-04 18:00:00
13
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.jpg

 itdate, istime 2020-08-04 00:00:00 20200804.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/ /mnt/input/etrap/2020/1000688/
**** 2020080400
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080400*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
080400/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
currDate 2020-08-04 00:00:00
f 13 nt-1 5 nt 6
currDate1 2020-08-04 00:00:00
2020-08-04 06:00:00
sdate 2020-08-04 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/ /mnt/input/etrap/2020/1000688/
**** 2020080400
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080400*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
currDate 2020-08-04 00:00:00
f 13 nt-1 23 nt 24
currDate1 2020-08-04 00:00:00
2020-08-05 00:00:00
sdate 2020-08-05 00:00:00
2020-08-05 00:00:00
14
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.jpg

 itdate, istime 2020-08-04 06:00:00 20200804.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/ /mnt/input/etrap/2020/1000688/
**** 2020080406
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080406*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
currDate 2020-08-04 06:00:00
f 14 nt-1 5 nt 6
currDate1 2020-08-04 06:00:00
2020-08-04 12:00:00
sdate 2020-08-04 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/ /mnt/input/etrap/2020/1000688/
**** 2020080406
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080406*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
currDate 2020-08-04 06:00:00
f 14 nt-1 23 nt 24
currDate1 2020-08-04 06:00:00
2020-08-05 06:00:00
sdate 2020-08-05 06:00:00
2020-08-05 06:00:00
15
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.jpg

 >> 2.2. Process final data files
compfile /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/20200804.12_Final_completed_rain.txt
FINAL
alldate:  DatetimeIndex(['2020-08-01 00:00:00', '2020-08-01 06:00:00',
               '2020-08-01 12:00:00', '2020-08-01 18:00:00',
               '2020-08-02 00:00:00', '2020-08-02 06:00:00',
               '2020-08-02 12:00:00', '2020-08-02 18:00:00',
               '2020-08-03 00:00:00', '2020-08-03 06:00:00',
               '2020-08-03 12:00:00', '2020-08-03 18:00:00',
               '2020-08-04 00:00:00', '2020-08-04 06:00:00',
               '2020-08-04 12:00:00'],
              dtype='datetime64[ns]', freq='6H') alldate.shape 15


date:  2020-08-01 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-01 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif --outfile=0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
Creating output file that is 180P x 225L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-01 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"
max file created /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif
create json
/usr/bin/gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json fieldname rainmm


stormname 1000688/JTWC
stormname 1000688/JTWC
TCbullsource JTWC
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.03 134.00000000000068 17.999999999999147 40.47
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 23 nt 24
currDate1 2020-08-04 12:00:00
2020-08-05 12:00:00
sdate 2020-08-05 12:00:00
2020-08-05 12:00:00
16
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_FINAL.jpg
ret:  0
============================================
3. Classify meteo + GDACS index score
============================================

 >> 3.1. Classify curr + past forecast
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_res_stept0.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_res_stept0.tif.
0.......1010....10....2020......20..30.30........304040.........504050.........606050.........707060.........808070.........909080.........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif.
0...Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif.
010.........102010........30.20.20.......4030....30...50...40....40.60....50....7050......60...80.60......7090....70....80....80..90....90....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif.
....10...1010......20...20.20...30......3030...40.......404050.........505060.........706060.......80...7070....90......80.80......9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_res_stept0.tif.
0........1010...10.....20.20.....20..30.30........304040.........504050.........606050.........707060.........808070.........909080.........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif.
...Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif.
.10......1010...20.......202030.........403030.......50...4040....60.......505070.........806060.......90....7070.......8080......9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_res_stept0.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_res_stept0.tif.
0.....10.10.....10...2020........203030.........403040.........505040........60.60.50.......70.70.60.......80.80.70.......90.90.80........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif.
.....10...1010......20...2020......30...3030....40......4040...50.......505060.........606070.........807070.......90...8080........9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_res_stept0.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_res_stept0.tif.
0.......1010....10....2020......20...3030......30...4040.......40.50.50.......50.60.60.......60.70.70.......70.80.80.......80.90.90.......90....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif.
0...Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif.
010.........201010.......30...2020......40....3030...50.......404060.........705050.......80...6060....90......7070.......8080......9090......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif.
....Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif.
.10...10...10..20....20....20.30....30....40.30....40...50.....40.50.60........506070.........8070.60.....90...80....70...90....80....90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_res_stept0.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_res_stept0.tif.
0.....10...10...10...20.20.......20.30.30.......30.4040.........504050.........605060.........706070.........807080.........908090.........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif.
0....Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif.
0..1010........10.20.20.......3020...30......4030..40......50...40.50....60....50.60...70......7060...80......80.70.90......90...80.....90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif.
...Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif.
...10.10....10...20...20....20.30...30......4030...40....50....40.50...60......5060.70.........708060........9080....70....90....80....90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
t0 completed 

Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_res_all.tif.
0.........101010........2020...20.....30.30....30...40...40...40..50....50....5060......60...6070.......70.70.80.......80.80.90.......90.90......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif.
0...Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif.
010.........201010.......30...2020......40...3030....50......4040...60.......505070.........806060........90..7070........8080......9090......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif.
.....1010...10......2020...20.....3030......30...4040.......40.5050.........506060.........707060........80.80..70.....90.90.....80.....90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_res_all.tif.
0.......10...1010....20......2020.30.........304030.........5040.40.......6050....50....70.60....60....80.70....70....90.80....80.....90..90.....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif.
0...Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif.
010.........201010.......30...2020......40....3030...50.......404060.........70.5050......80....6060.90.........7070......8080......9090......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif.
.......101010.........202020.........303030........40.40.40.....50...50...50..60....60....70.60....70...80...70....8090........8090......90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_res_all.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif.
0.........1010.10.......2020...20......3030....30....40.40.....40...5050......50...6060......60...7070......70..80.80.......80.90.90........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif.
......10.10.10.......2020...20.....30.30....30....40.40.....40..50.50.......50.60.60........706070........80..7080......90...90..80......90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_res_all.tif.
0...Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_res_all.tif.
0....10.10......10.20.20........302030........40.40.30.......50.50.40......60.60....50...70...70...60...80...80...70...90...90...80......90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif.
0.....1010......10..20.20.......2030...30......40.30.40.....50....40.50....60.....5060...70......60.7080.........907080.........9080......90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif.
.......101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_res_all.tif.
0........10.10.10.......2020...20.....30.30....30....40.40....40....50.50....50....60..60...60...70...70...70...80...80...80...90...90...90......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif.
0......10...10.10....20....20.20....30....30...3040......40...4050......50...60.50....60....70.60....70....80.70....80...90...80...90.....90....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif.
.10......1010...20.......202030.........403030.......50...4040....60......5050.70.........806060.......90....7070.......8080......9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
t0 completed 

============================================
4. Copy files
============================================
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/20200801.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/20200801.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/20200801.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/20200801.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/20200802.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/20200802.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/20200802.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/20200802.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/20200803.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/20200803.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/20200803.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/20200803.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/20200804.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/20200804.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copCreating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_res_final.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
y  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/20200804.12_copy_completed_rain.txt

 >> 3.2. Classify final folder
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/20200804.12_final_completed_rain.txt
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml
>>  7.  remove files 
done
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_FINAL.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain.json
*******************************************************
*  Case Completed									 *
*******************************************************
Case starterd at:  2020-10-05 17:07:19.806302  UTC

Case completed at:  2020-10-05 17:15:36.998637  UTC

**********E  N  D   O F	J O B***********************
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
*******************************************************
*	   Storm Surge Calculation System (SSCS)		 *
*******************************************************
Now is :  2020-10-06 10:16:12.203459  UTC

inp1= 20200801.00
ncores= 2
var= rain
lw= aa.txt
stormname!!!!!!!!!!!!!!!= 1000688/JTWC
dtBullHolland= 6
submitting calc 2020-08-01 00:00:00 2020-08-04 12:00:00 delft3d 116.0 134.0 18.0 40.5 4.0 holland 72 15 True GDACS/1000688/2_holland 6 1 False False 2 aa.txt 20200801.00 1000688/JTWC 6 rain False
*************---------------------******************
forcing GDACS
home dir /mnt/output/SSCS/2020/GDACS/1000688/2_holland/
ret 0
classifications
============================================
1. Set INPUT/OUTPUT
============================================
startdate 2020-08-01 00:00:00
currdate 2020-08-04 12:00:00
ndt:  84 delta: 6
nt1=delta 6
nt 72
alldate:  DatetimeIndex(['2020-08-01 00:00:00', '2020-08-01 06:00:00',
               '2020-08-01 12:00:00', '2020-08-01 18:00:00',
               '2020-08-02 00:00:00', '2020-08-02 06:00:00',
               '2020-08-02 12:00:00', '2020-08-02 18:00:00',
               '2020-08-03 00:00:00', '2020-08-03 06:00:00',
               '2020-08-03 12:00:00', '2020-08-03 18:00:00',
               '2020-08-04 00:00:00', '2020-08-04 06:00:00',
               '2020-08-04 12:00:00'],
              dtype='datetime64[ns]', freq='6H')
============================================
2. Processing meteo files: nc2tif
============================================

 >> 2.1. Process curr + past files
lon0,lon1,lat0,lat1 116.0 134.0 18.0 40.5
processing curr bull... 2020-08-04 12:00:00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/ /mnt/input/etrap/2020/1000688/
**** 2020080412
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080412*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 5 nt 6
currDate1 2020-08-04 12:00:00
2020-08-04 18:00:00
sdate 2020-08-04 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/ /mnt/input/etrap/2020/1000688/
**** 2020080412
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080412*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08041200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 23 nt 24
currDate1 2020-08-04 12:00:00
2020-08-05 12:00:00
sdate 2020-08-05 12:00:00
2020-08-05 12:00:00
16
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.jpg
processing all past bull only if Past=True... True

 itdate, istime 2020-08-01 00:00:00 20200801.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/ /mnt/input/etrap/2020/1000688/
**** 2020080100
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080100*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
currDate 2020-08-01 00:00:00
f 1 nt-1 5 nt 6
currDate1 2020-08-01 00:00:00
2020-08-01 06:00:00
sdate 2020-08-01 06:00:00
-2
CAT ['TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/ /mnt/input/etrap/2020/1000688/
**** 2020080100
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080100*.tif
/mnt/input/etrap/2020/Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
1000688/202003W.pmqpf.08010000.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080100/all_inpData.txt
currDate 2020-08-01 00:00:00
f 1 nt-1 23 nt 24
currDate1 2020-08-01 00:00:00
2020-08-02 00:00:00
sdate 2020-08-02 00:00:00
2020-08-02 00:00:00
2
CAT ['TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.jpg

 itdate, istime 2020-08-01 06:00:00 20200801.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/ /mnt/input/etrap/2020/1000688/
**** 2020080106
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080106*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
currDate 2020-08-01 06:00:00
f 2 nt-1 5 nt 6
currDate1 2020-08-01 06:00:00
2020-08-01 12:00:00
sdate 2020-08-01 12:00:00
-2
CAT ['TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/ /mnt/input/etrap/2020/1000688/
**** 2020080106
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080106*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08010600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080106/all_inpData.txt
currDate 2020-08-01 06:00:00
f 2 nt-1 23 nt 24
currDate1 2020-08-01 06:00:00
2020-08-02 06:00:00
sdate 2020-08-02 06:00:00
2020-08-02 06:00:00
3
CAT ['TD', 'TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.jpg

 itdate, istime 2020-08-01 12:00:00 20200801.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/ /mnt/input/etrap/2020/1000688/
**** 2020080112
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080112*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
currDate 2020-08-01 12:00:00
f 3 nt-1 5 nt 6
currDate1 2020-08-01 12:00:00
2020-08-01 18:00:00
sdate 2020-08-01 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/ /mnt/input/etrap/2020/1000688/
**** 2020080112
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080112*.tif
/mnt/input/etrap/2020/1000688/202003Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
W.pmqpf.08011200.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080112/all_inpData.txt
currDate 2020-08-01 12:00:00
f 3 nt-1 23 nt 24
currDate1 2020-08-01 12:00:00
2020-08-02 12:00:00
sdate 2020-08-02 12:00:00
2020-08-02 12:00:00
4
CAT ['TD', 'TD', 'TD', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.jpg

 itdate, istime 2020-08-01 18:00:00 20200801.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/ /mnt/input/etrap/2020/1000688/
**** 2020080118
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080118*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
currDate 2020-08-01 18:00:00
f 4 nt-1 5 nt 6
currDate1 2020-08-01 18:00:00
2020-08-02 00:00:00
sdate 2020-08-02 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/ /mnt/input/etrap/2020/1000688/
**** 2020080118
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080118*.tif
/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif
storm name 03W
input file /mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/202003W.pmqpf.08011800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080118/all_inpData.txt
currDate 2020-08-01 18:00:00
f 4 nt-1 23 nt 24
currDate1 2020-08-01 18:00:00
2020-08-02 18:00:00
sdate 2020-08-02 18:00:00
2020-08-02 18:00:00
5
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.jpg

 itdate, istime 2020-08-02 00:00:00 20200802.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/ /mnt/input/etrap/2020/1000688/
**** 2020080200
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080200*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
currDate 2020-08-02 00:00:00
f 5 nt-1 5 nt 6
currDate1 2020-08-02 00:00:00
2020-08-02 06:00:00
sdate 2020-08-02 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/ /mnt/input/etrap/2020/1000688/
**** 2020080200
/mnt/input/etrap/2020/1000688/2020*.pmqpCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
f.080200*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080200/all_inpData.txt
currDate 2020-08-02 00:00:00
f 5 nt-1 23 nt 24
currDate1 2020-08-02 00:00:00
2020-08-03 00:00:00
sdate 2020-08-03 00:00:00
2020-08-03 00:00:00
6
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.jpg

 itdate, istime 2020-08-02 06:00:00 20200802.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/ /mnt/input/etrap/2020/1000688/
**** 2020080206
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080206*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
currDate 2020-08-02 06:00:00
f 6 nt-1 5 nt 6
currDate1 2020-08-02 06:00:00
2020-08-02 12:00:00
sdate 2020-08-02 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/ /mnt/input/etrap/2020/1000688/
**** 2020080206
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080206*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08020600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080206/all_inpData.txt
currDate 2020-08-02 06:00:00
f 6 nt-1 23 nt 24
currDate1 2020-08-02 06:00:00
2020-08-03 06:00:00
sdate 2020-08-03 06:00:00
2020-08-03 06:00:00
7
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.jpg

 itdate, istime 2020-08-02 12:00:00 20200802.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/ /mnt/input/etrap/2020/1000688/
**** 2020080212
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080212*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
currDate 2020-08-02 12:00:00
f 7 nt-1 5 nt 6
currDate1 2020-08-02 12:00:00
2020-08-02 18:00:00
sdate 2020-08-02 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCSCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
/2020/GDACS/1000688/2_holland/tif/20200802.12/ /mnt/input/etrap/2020/1000688/
**** 2020080212
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080212*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080212/all_inpData.txt
currDate 2020-08-02 12:00:00
f 7 nt-1 23 nt 24
currDate1 2020-08-02 12:00:00
2020-08-03 12:00:00
sdate 2020-08-03 12:00:00
2020-08-03 12:00:00
8
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.jpg

 itdate, istime 2020-08-02 18:00:00 20200802.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/ /mnt/input/etrap/2020/1000688/
**** 2020080218
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080218*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
currDate 2020-08-02 18:00:00
f 8 nt-1 5 nt 6
currDate1 2020-08-02 18:00:00
2020-08-03 00:00:00
sdate 2020-08-03 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/ /mnt/input/etrap/2020/1000688/
**** 2020080218
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080218*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08021800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080218/all_inpData.txt
currDate 2020-08-02 18:00:00
f 8 nt-1 23 nt 24
currDate1 2020-08-02 18:00:00
2020-08-03 18:00:00
sdate 2020-08-03 18:00:00
2020-08-03 18:00:00
9
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.jpg

 itdate, istime 2020-08-03 00:00:00 20200803.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/ /mnt/input/etrap/2020/1000688/
**** 2020080300
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080300*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
currDate 2020-08-03 00:00:00
f 9 nt-1 5 nt 6
currDate1 2020-08-03 00:00:00
2020-08-03 06:00:00
sdate 2020-08-03 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS',Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
 'TS', 'TS', 'H', 'TS', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/ /mnt/input/etrap/2020/1000688/
**** 2020080300
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080300*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080300/all_inpData.txt
currDate 2020-08-03 00:00:00
f 9 nt-1 23 nt 24
currDate1 2020-08-03 00:00:00
2020-08-04 00:00:00
sdate 2020-08-04 00:00:00
2020-08-04 00:00:00
10
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.jpg

 itdate, istime 2020-08-03 06:00:00 20200803.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/ /mnt/input/etrap/2020/1000688/
**** 2020080306
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080306*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
currDate 2020-08-03 06:00:00
f 10 nt-1 5 nt 6
currDate1 2020-08-03 06:00:00
2020-08-03 12:00:00
sdate 2020-08-03 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/ /mnt/input/etrap/2020/1000688/
**** 2020080306
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080306*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08030600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080306/all_inpData.txt
currDate 2020-08-03 06:00:00
f 10 nt-1 23 nt 24
currDate1 2020-08-03 06:00:00
2020-08-04 06:00:00
sdate 2020-08-04 06:00:00
2020-08-04 06:00:00
11
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.jpg

 itdate, istime 2020-08-03 12:00:00 20200803.12
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/ /mnt/input/etrap/2020/1000688/
**** 2020080312
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080312*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCCreating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Track/1000688/JTWC/2020080312/all_inpData.txt
currDate 2020-08-03 12:00:00
f 11 nt-1 5 nt 6
currDate1 2020-08-03 12:00:00
2020-08-03 18:00:00
sdate 2020-08-03 18:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/ /mnt/input/etrap/2020/1000688/
**** 2020080312
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080312*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031200.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080312/all_inpData.txt
currDate 2020-08-03 12:00:00
f 11 nt-1 23 nt 24
currDate1 2020-08-03 12:00:00
2020-08-04 12:00:00
sdate 2020-08-04 12:00:00
2020-08-04 12:00:00
12
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.jpg

 itdate, istime 2020-08-03 18:00:00 20200803.18
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/ /mnt/input/etrap/2020/1000688/
**** 2020080318
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080318*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
currDate 2020-08-03 18:00:00
f 12 nt-1 5 nt 6
currDate1 2020-08-03 18:00:00
2020-08-04 00:00:00
sdate 2020-08-04 00:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/ /mnt/input/etrap/2020/1000688/
**** 2020080318
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080318*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08031800.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080318/all_inpData.txt
currDate 2020-08-03 18:00:00
f 12 nt-1 23 nt 24
currDate1 2020-08-03 18:00:00
2020-08-04 18:00:00
sdate 2020-08-04 18:00:00
2020-08-04 18:00:00
13
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.jpg

 itdate, istime 2020-08-04 00:00:00 20200804.00
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/ /mnt/input/etrap/2020/1000688/
**** 2020080400
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080400*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 600P x 750L.
Processing input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 180P x 225L.
Processing /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif [1/1] : 0Using internal nodata values (e.g. 0) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
080400/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
currDate 2020-08-04 00:00:00
f 13 nt-1 5 nt 6
currDate1 2020-08-04 00:00:00
2020-08-04 06:00:00
sdate 2020-08-04 06:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/ /mnt/input/etrap/2020/1000688/
**** 2020080400
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080400*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040000.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080400/all_inpData.txt
currDate 2020-08-04 00:00:00
f 13 nt-1 23 nt 24
currDate1 2020-08-04 00:00:00
2020-08-05 00:00:00
sdate 2020-08-05 00:00:00
2020-08-05 00:00:00
14
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TS', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.jpg

 itdate, istime 2020-08-04 06:00:00 20200804.06
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/ /mnt/input/etrap/2020/1000688/
**** 2020080406
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080406*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
currDate 2020-08-04 06:00:00
f 14 nt-1 5 nt 6
currDate1 2020-08-04 06:00:00
2020-08-04 12:00:00
sdate 2020-08-04 12:00:00
-2
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.jpg
/mnt/input/etrap/2020/1000688/
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/ /mnt/input/etrap/2020/1000688/
**** 2020080406
/mnt/input/etrap/2020/1000688/2020*.pmqpf.080406*.tif
/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.06.tif
storm name HAGUPIT
input file /mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif
/usr/bin/gdalwarp  -r bilinear -tr 0.03 0.03 -te 116.0 18.0 134.0 40.5 -dstnodata 0 "/mnt/input/etrap/2020/1000688/2020HAGUPIT.pmqpf.08040600.24.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif"
gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json fieldname rainmm
outFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
dd: 0.030000000000001137
(116.015, 0.030000000000001137, 0, 40.485, 0, -0.030000000000001137)
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
116.015 133.985 18.015 40.485
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080406/all_inpData.txt
currDate 2020-08-04 06:00:00
f 14 nt-1 23 nt 24
currDate1 2020-08-04 06:00:00
2020-08-05 06:00:00
sdate 2020-08-05 06:00:00
2020-08-05 06:00:00
15
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.jpg

 >> 2.2. Process final data files
compfile /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/20200804.12_Final_completed_rain.txt
FINAL
alldate:  DatetimeIndex(['2020-08-01 00:00:00', '2020-08-01 06:00:00',
               '2020-08-01 12:00:00', '2020-08-01 18:00:00',
               '2020-08-02 00:00:00', '2020-08-02 06:00:00',
               '2020-08-02 12:00:00', '2020-08-02 18:00:00',
               '2020-08-03 00:00:00', '2020-08-03 06:00:00',
               '2020-08-03 12:00:00', '2020-08-03 18:00:00',
               '2020-08-04 00:00:00', '2020-08-04 06:00:00',
               '2020-08-04 12:00:00'],
              dtype='datetime64[ns]', freq='6H') alldate.shape 15


date:  2020-08-01 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-01 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif --outfile=0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
0 .. 10 .. 20 .. 30 .. 40 .. 50 .. 60 .. 70 .. 80 .. 90 .. 100 - Done
Creating output file that is 180P x 225L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json of format GeoJSON.
0...10...20...30...40...50...60...70...80...90...100 - done.
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-01 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-02 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-03 18:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 00:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 06:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"


date:  2020-08-04 12:00:00
python  /usr/bin/gdal_calc.py -A /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif -B /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif --outfile=/mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif --calc="(A+B)"
max file created /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif
create json
/usr/bin/gdalwarp -tr 0.1 0.1 /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif
comjson gdal_polygonize.py /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final_res.tif -f "GeoJSON" /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json fieldname rainmm


stormname 1000688/JTWC
stormname 1000688/JTWC
TCbullsource JTWC
>>  0.  SET INPUT/OUTPUT 
JTWC
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
/mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
trackfile /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
116.03 134.00000000000068 17.999999999999147 40.47
lon 600
lat 750
read TC track /mnt/output/GDACS/TC/TCTrack/1000688/JTWC/2020080412/all_inpData.txt
currDate 2020-08-04 12:00:00
f 15 nt-1 23 nt 24
currDate1 2020-08-04 12:00:00
2020-08-05 12:00:00
sdate 2020-08-05 12:00:00
2020-08-05 12:00:00
16
CAT ['TD', 'TD', 'TD', 'TS', 'TS', 'TS', 'TS', 'TS', 'TS', 'H', 'H', 'H', 'TS', 'TD', 'TD', 'TD', 'TD']
savemap /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_FINAL.jpg
ret:  0
============================================
3. Classify meteo + GDACS index score
============================================

 >> 3.1. Classify curr + past forecast
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_res_stept0.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_res_stept0.tif.
0.....10....10.10....20....20.20....30...30...30...40...40...40...50...50...50..60....60....60.70....70....70.80....80....80.90....90....90.....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif.
0......Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif.
01010.........102020.........303020.........404030........50.50..40......6060...50.....7070......60...8080........709090.........80...90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif.
.....Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif.
.1010......10..2020.........203030.........4040.30.......5050.....40...6060........507070........80.80..60.....9090........70...80...90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_res_stept0.tif.
0.........101010.......20...2020......30...3030......40...40.40....50....50.50.....60...6060......70...7070......80...8080......90...9090........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif.
.....Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif.
.1010......10..2020.........203030.........404030........5050....40....60.60.....50..70.70.......6080...80......90..70.90.......80...90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_res_stept0.tif.
0.........101010........20.20.20.......3030...30.....40.40....40....50.50....50....60.60....60....70.70....70....80.80....80....90.90....90......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif.
0.........101010........2020...20......3030...30.....4040......40...5050......50...6060........607070.........708080.........809090.........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif.
...Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif.
.10...10...10..20....20....2030......30...40..30....40.50.....40...5060........507060.......80...6070....90......80.70.....90...80....90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_res_stept0.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_res_stept0.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_res_stept0.tif.
0......1010...10......2020...20......3030...30......4040...40......5050....50....60.60....60....70.70....70....80.80....80....90.90....90......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif.
0.....Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif.
0.1010.........201020.......30...2030......40...40.30...50......50..4060......60...7050......70...80.60....80...90.....7090.......80...90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif.
.......101010.........202020.........303030.........404040.........505050.......60...6060......70...7070....80......8080...90.......9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_res_stept0.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_res_stept0.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_res_stept0.tif.
0.10......10...2010.....20....30..20..30....40....30.40...50......5040...60......6050...70......70.60.80.......80.70.90.......90.80......90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif.
0......1010...10.....2020......20...3030......30..40.40........405050.........606050.........707060........8080...70.....9090......80.....90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif.
..Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif.
....10...1010......20...20.20...30......3030...40.......404050.........506050.........7060.60......80...70.70...90......80.80......9090......100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain_stept0.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_stept0_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_stept0_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml
>>  7.  remove files 
done
lim core
t0 completed 

Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_res_all.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_res_all.tif.
0...10......10..1020.......20.30.20.......30.40..30......4050...40.....50.60....50....60.70....60....70.80....70....80.90....80....90....90....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif.
.......101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_res_all.tif.
0........1010...10.....20.20....20....3030.......30.40.40.......40.50.50.......50.60.60.......60.70.70.......70.80.80.......80.90.90.......90....100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif.
0.........101010.........202020.........303030.........404040.........505050.........606060.........707070........80.80.80.......9090...90.......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif.
.......101010.........202020.........303030.........404040.........505050.........606060.........707070.........808080.........909090.........100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_res_all.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_res_all.tif.
0......10...10..10...20...20.....2030...30......3040...40......50.40.50.......60.50.60.......70.60.70.......80.70.80.......90.80.90........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif.
0......1010...10.....2020......20...3030......30..4040.........405050.........605060.........707060........8080...70......9090....80......90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif.
.....Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif.
.1010......10..2020.........302030.........4040..30......5050.....40...6060........507070........8080...60.....9090........70...80...90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_res_all.tif.
0....Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_res_all.tif.
0...1010........102020.........303020.........404030........50.50.40.......6060...50......7070..60.......80.80.70.......90.90.80........90...100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif.
0.Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif.
0....10......1010...20......2020...30.......303040.........404050.........605050.........706060.........807070.......90...8080........9090......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif.
.....Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif.
.1010......10..2020.........203030.........404030........5050.....40...6060........507070.........8080..60.....9090........70...80...90...100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_res_all.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Using internal nodata values (e.g. -999) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_res_all.tif.
0.........101010........20..2020......30...3030......40...4040......50...50.50....60....60.60....70....70.70....80....80.80....90....90.90.......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif.
0..Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif.
0Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif.
0...10......1010...20......2020...30......3030...40......4040...50......5050...60......6060...70......7070...80......8080...90......9090.......100 - done.
100 - done.
100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif.
...Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif.
.Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif.
.10......1010.20.........203020.........40.3030......50....4040...60.......505070........80.60.60.....90.....70..70....80..80...90....90....100 - done.
100 - done.
100 - done.
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml
>>  7.  remove files 
done
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_popfile_all_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06//rain_countryfile_all_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml
>>  7.  remove files 
done
lim core
t0 completed 

============================================
4. Copy files
============================================
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.00/20200801.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.00/20200801.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.06/20200801.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.06/20200801.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.12/20200801.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.12/20200801.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200801.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200801.18/20200801.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200801.18/20200801.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.00/20200802.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.00/20200802.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.06/20200802.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.06/20200802.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.12/20200802.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.12/20200802.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200802.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200802.18/20200802.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200802.18/20200802.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.00/20200803.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.00/20200803.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.06/20200803.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.06/20200803.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.12/20200803.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.12/20200803.12_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200803.18/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200803.18/20200803.18_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200803.18/20200803.18_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.00/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.00/20200804.00_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.00/20200804.00_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.06/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.06/20200804.06_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copy  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.06/20200804.06_copy_completed_rain.txt
check t0 xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_stept0.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml
check all xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/20200804.12/rain_popDensValues_all.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/20200804.12/20200804.12_rain.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain.json

 >> !!!! Check Copy !!!!

 , listfiles_copCreating output file that is 2160P x 2700L.
Processing input file /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Using internal nodata values (e.g. 1.17549e-38) for image /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif.
Copying nodata values from source /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_res_final.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 2160P x 2700L.
Processing input file /mnt/output/GDACS/DATA/lspop20141.tif.
Using internal nodata values (e.g. -2.14748e+09) for image /mnt/output/GDACS/DATA/lspop20141.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/lspop20141.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif.
0...10...20...30...40...50...60...70...80...90...100 - done.
Creating output file that is 2160P x 2700L.
Processing /mnt/output/GDACS/DATA/countries.tif [1/1] : 0Using internal nodata values (e.g. -32768) for image /mnt/output/GDACS/DATA/countries.tif.
Copying nodata values from source /mnt/output/GDACS/DATA/countries.tif to destination /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif.
...10...20...30...40...50...60...70...80...90...100 - done.
y  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml

 , listfiles_all  , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues_t0.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml , /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/rain_popDensValues.xml
all files copied
copycheck:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/20200804.12/20200804.12_copy_completed_rain.txt

 >> 3.2. Classify final folder
/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/20200804.12_final_completed_rain.txt
input var: rain
Input File: /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.tif
hurName:  
hdate:  
var:  rain
description:  rain: _ (holland)
OutDir:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//
PopFile:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif
country:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif
outxml file:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml
outDir created
popfile: LandScan
popCellSize= 0.00833333333333
projection= GEOGCS["WGS 84",DATUM["WGS_1984",SPHEROID["WGS 84",6378137,298.257223563,AUTHORITY["EPSG","7030"]],AUTHORITY["EPSG","6326"]],PRIMEM["Greenwich",0],UNIT["degree",0.0174532925199433],AUTHORITY["EPSG","4326"]]


>>  1.  resample the tif file to the resolution and proj of pop density  0.00833333333333  deg


>>  2.  read the charactristics of the input file


>>  3a. extract a piece of pop. file corresponding to the required bounding box
split,rastershift False -1 116.015 17.985 134.015 40.485 holland
/usr/bin/gdalwarp  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/lspop20141.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_popfile_final_clipped.tif"
>>  3b. extract a piece of countries corresponding to the required bounding box and resolution/proj of pop density
gdalwarp -r near -tr 0.00833333333333 0.00833333333333  -te  116.015 17.985 134.015 40.485 "/mnt/output/GDACS/DATA/countries.tif" "/mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final//rain_countryfile_final_clipped.tif"
>>  4.  classify the vmax file creating another array of values classified
cellsize 0.00833333333333
cellsize 0.00833333333333
cellsize 0.00833333333333
>>  5.  count the popolation in each cell and assign to the class and write to output
>>  6.  print / save output in  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml
>>  7.  remove files 
done
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/class/final/rain_popDensValues_final.xml in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain_popDensValues.xml
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_FINAL.jpg in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain.jpg
copy:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/tif/final/rain_final.json in:  /mnt/output/SSCS/2020/GDACS/1000688/2_holland/delft3d/final/rain.json
*******************************************************
*  Case Completed									 *
*******************************************************
Case starterd at:  2020-10-06 10:16:12.203459  UTC

Case completed at:  2020-10-06 10:23:39.909654  UTC

**********E  N  D   O F	J O B***********************