#!/bin/bash GDAL_TILE_PROCESSES=16 GDAL_TILE_ZOOMS=8-14 GDAL_SAMPLING_WARP=cubic GDAL_SAMPLING_TILE=antialias # Create virtual dataset with coordinates gdal_translate -of VRT -a_srs EPSG:4326 -outsize 300% 300% -gcp 4356.0 5772.0 21.208633333333335 56.68676833333333 -gcp 40290.0 5844.0 21.250295 56.68676833333333 -gcp 40326.0 39600.0 21.250295 56.66593833333334 -gcp 4380.0 39516.0 21.208633333333335 56.66593833333334 LVVA_F1679_US217_GV1-4373/LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.JPG LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.vrt # Add cutline to VRT gdalwarp -r $GDAL_SAMPLING_WARP -tps -dstalpha -cutline_srs EPSG:4326 \ -cutline "POLYGON(($(echo -e "4356.0 5772.0\n40290.0 5844.0\n40326.0 39600.0\n4380.0 39516.0" | \ gdaltransform -tps -output_xy LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.vrt | \ awk 'NR==1{first=$0} {printf "%s %s,", $1,$2} END{print " " first}')))" \ LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.vrt LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.cut.vrt # Generate tiles gdal2tiles.py -r $GDAL_SAMPLING_TILE --xyz -z $GDAL_TILE_ZOOMS -x --processes=$GDAL_TILE_PROCESSES LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.cut.vrt LVVA-001679-0217-000180-PLANSETE-005-b-14_0180.xyz