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terragear/gisscripts/grassVMap.sh
2013-10-02 15:04:42 -07:00

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#!/bin/bash
#
# Written by Martin Spott
#
# Copyright (C) 2010 Markus Metz @ GRASS GIS
# Copyright (C) 2010 - 2013 Martin Spott - Martin (at) flightgear (dot) org
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License as
# published by the Free Software Foundation; either version 2 of the
# License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
# General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
date
DUMPDIR=${HOME}/shp
mkdir -p ${DUMPDIR}
RUNDIR=`pwd`
cd `dirname ${0}` && export BASEDIR=`pwd`
cd ${RUNDIR}
CALLNAME=`basename ${0}`
#
MAPPINGFILE=${BASEDIR}/CORINEtoCS.txt
if [ ${CALLNAME} = "grassVMap.sh" ]; then
SRCID=1
TYPE=v0
YEAR=""
elif [ ${CALLNAME} = "grassCS.sh" ]; then
SRCID=15
TYPE=cs
YEAR=""
elif [ ${CALLNAME} = "grassCLC00.sh" ]; then
SRCID=18
TYPE=clc
YEAR=00
elif [ ${CALLNAME} = "grassCLC06.sh" ]; then
SRCID=17
TYPE=clc
YEAR=06
else
SRCID=0
fi
PREFIX=${TYPE}${YEAR}
#PREFIX=nl
#PREFIX=clc${YEAR}_nl
CLEANMAP=cleanmap
if [ ${TYPE} = "v0" ]; then
SRCKBS=nad83
#SNAP=0.00001
SNAP=0.000001
#MIN_AREA1=1
MIN_AREA1=0.0000001
MIN_AREA=100
#MIN_AREA=0.000000001
elif [ ${TYPE} = "cs" ]; then
SRCKBS=wgs84
SNAP=0.000001
#MIN_AREA1=1
MIN_AREA1=0.0000001
MIN_AREA=1
elif [ ${TYPE} = "clc" ]; then
SRCKBS=laea
SNAP=0.01
#SNAP=0.001
#SNAP=0.0001
#SNAP=0.000001
MIN_AREA=1
#MIN_AREA=0.000000001
fi
########################################################################
# DB-Connection
PGHOST=geoscope.optiputer.net
PGDATABASE=landcover
PGUSER=martin
DSN="PG:host=${PGHOST} dbname=${PGDATABASE} user=${PGUSER}"
LAYEROPTS="FID=ogc_fid, GEOMETRY_NAME=wkb_geometry, SPATIAL_INDEX=YES, PRIMARY_KEY=YES, SRID=4326"
PSQL="psql -tA -h ${PGHOST} -U ${PGUSER} -d ${PGDATABASE}"
fn_fixpostgis() {
LAYER=${1}
echo "DROP INDEX ${LAYER}_cat_idx;"
echo "ALTER INDEX ${LAYER}_pkey RENAME TO ${LAYER}_pk;"
echo "ALTER INDEX ${LAYER}_wkb_geometry_idx RENAME TO ${LAYER}_gindex;"
echo "ALTER TABLE ${LAYER} ALTER COLUMN wkb_geometry SET STORAGE MAIN;"
echo "CLUSTER ${LAYER}_gindex ON ${LAYER};"
echo "ALTER TABLE ${LAYER} ADD CONSTRAINT "enforce_dims_wkb_geometry" CHECK (ST_NDims(wkb_geometry) = 2);"
echo "ALTER TABLE ${LAYER} ADD CONSTRAINT "enforce_geotype_wkb_geometry" CHECK (GeometryType(wkb_geometry) = 'POLYGON'::text);"
echo "ALTER TABLE ${LAYER} ADD CONSTRAINT "enforce_srid_wkb_geometry" CHECK (ST_SRID(wkb_geometry) = 4326);"
echo "ALTER TABLE ${LAYER} DROP COLUMN id;"
echo "ALTER TABLE ${LAYER} ADD COLUMN src_id numeric(5,0) DEFAULT ${SRCID};"
echo "ALTER TABLE ${LAYER} ADD COLUMN maint_id numeric(5,0) DEFAULT NULL;"
echo "ALTER TABLE ${LAYER} ADD COLUMN ch_date timestamp;"
echo "GRANT SELECT ON ${LAYER} TO webuser;"
echo "VACUUM ANALYZE ${LAYER};"
}
fn_topostgis() {
GRMAP=${1}
PGLAYER=${PREFIX}_`echo ${GRMAP} | cut -f 2 -d \_`
echo "DROP TABLE ${PGLAYER};" | ${PSQL}
v.out.postgis input=${GRMAP} olayer=${PGLAYER} dsn="${DSN}" options="${LAYEROPTS}"
fn_fixpostgis ${PGLAYER} | ${PSQL}
}
########################################################################
fn_importCLC() {
LOADDIR=${HOME}/live/corine
# Note: CORINE Shapefiles are EPSG:3035, Landcover-DB is EPSG:4326, but
# _both_ projections (reference systems) are using square meters as unit for
# area size declarations in GRASS !
# Units for snapping are different in GRASS, though. Whereas EPSG:3035 is
# using meters, EPSG:4326 is using degrees.
#
for SHAPEFILE in `ls ${LOADDIR}/${PREFIX}_c[0-9][0-9][0-9].shp`; do
LAYER=`basename ${SHAPEFILE} | cut -f 1 -d \.`
MAP=`echo ${LAYER} | cut -f 2 -d \_`
CODECLC=`echo ${MAP} | tr -d c`
INTMAP=${MAP}_int
g.remove vect=${MAP}
v.in.ogr dsn="${LOADDIR}" layer=${LAYER} output=${MAP} snap=${SNAP} --verbose
v.db.addcolumn map=${MAP} columns="newcodeCLC integer" --verbose
v.db.update map=${MAP} column=newcodeCLC value=${CODECLC} --verbose
v.db.dropcolumn map=${MAP} column=code_${YEAR} --verbose
v.db.renamecolumn map=${MAP} column=newcodeCLC,codeCLC --verbose
g.remove vect=${INTMAP}
v.reclass input=${MAP} output=${INTMAP} column=codeCLC --verbose
v.out.ogr input=${INTMAP} type=area dsn=${DUMPDIR}/${PREFIX}_${MAP}_pre-clip.shp
done
}
fn_importVMap() {
LOADDIR=${HOME}/live/vmap0shp
for SHAPEFILE in `ls ${LOADDIR}/*-area.shp`; do
LAYER=`basename ${SHAPEFILE} | cut -f 1 -d \.`
MAP=`echo ${LAYER} | sed -e 's/-/_/g'`
g.remove vect=${MAP}
# v.in.ogr dsn="${LOADDIR}" layer=${LAYER} output=${MAP} snap=${SNAP} --verbose
v.in.ogr dsn="${LOADDIR}" layer=${LAYER} output=${MAP} --verbose
done
}
fn_importCS() {
LOADDIR=${HOME}/shp
for SHAPEFILE in `ls ${LOADDIR}/${PREFIX}_*.shp`; do
LAYER=`basename ${SHAPEFILE} | cut -f 1 -d \.`
g.remove vect=${LAYER}
v.in.ogr dsn="${LOADDIR}" layer=${LAYER} output=${LAYER} snap=${SNAP} --verbose
done
}
########################################################################
fn_split() {
# v.extract input=soa_veg_grassa_area type=area output=v0_grassland where="f_code LIKE 'EB010'"
#
# sourcelayer | sourceattrs | pgislayer
#--------------------------+--------------------+--------------------------
# 'builtupa@pop(*)_area' | | v0_urban
# 'cropa@veg(*)_area' | veg=0 | v0_mixedcrop
# 'cropa@veg(*)_area' | veg=1 | v0_drycrop
# 'cropa@veg(*)_area' | veg=999 | v0_irrcrop
# 'grassa@veg(*)_area' | f_code=EB010 | v0_grassland
# 'grassa@veg(*)_area' | f_code=EB020 | v0_scrub
# 'grounda@phys(*)_area' | smc=119 | v0_barrencover
# 'grounda@phys(*)_area' | smc=52 | v0_lava
# 'grounda@phys(*)_area' | smc=88:swc=0 | v0_sand
# 'grounda@phys(*)_area' | smc=88:swc=3 | v0_littoral
# 'inwatera@hydro(*)_area' | f_code=BH000:hyc=6 | v0_intermittentlake
# 'inwatera@hydro(*)_area' | f_code=BH000:hyc=8 | v0_lake
# 'inwatera@hydro(*)_area' | f_code=BH090 | v0_floodland
# 'landicea@phys(*)_area' | | v0_glacier
# 'polbnda@bnd(*)_area' | | v0_landmass
# 'seaicea@phys(*)_area' | f_code=BJ070 | v0_packice
# 'seaicea@phys(*)_area' | f_code=BJ080 | v0_polarice
# 'swampa@veg(*)_area' | f_code=BH015 | v0_bog
# 'swampa@veg(*)_area' | f_code=BH095 | v0_marsh
# 'treesa@veg(*)_area' | veg=24 | v0_deciduousforest
# 'treesa@veg(*)_area' | veg=25 | v0_evergreenforest
# 'treesa@veg(*)_area' | veg=50 | v0_mixedforest
# 'tundraa@veg(*)_area' | | v0_herbtundra
#
g.remove vect=`g.mlist type=vect pattern="${PREFIX}_*_???" separator=,`
for CLASS in `g.mlist type=vect pattern="???_*_*_area" | cut -f 2,3 -d \_ | sort | uniq`; do # veg_cropa, veg_grassa
for LAYER in `g.mlist type=vect pattern="???_${CLASS}_area" | sort`; do # eur_veg_cropa_area, noa_veg_cropa_area
ZONE=`echo ${LAYER} | cut -f 1 -d \_` # eur, noa
V0LAYER=`echo ${LAYER} | awk -F\_ '{print $3 "@" $2 "(*)_" $4}'` # cropa@veg(*)_area
case ${V0LAYER} in
"polbnda@bnd(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_landmass_${ZONE}
;;
"inwatera@hydro(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_intermittentlake_${ZONE} where="f_code LIKE 'BH000' AND hyc != 8"
v.extract -t input=${LAYER} type=area output=${PREFIX}_lake_${ZONE} where="f_code LIKE 'BH000' AND hyc = 8"
v.extract -t input=${LAYER} type=area output=${PREFIX}_floodland_${ZONE} where="f_code NOT LIKE 'BH000'"
;;
"extracta@ind(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_saline_${ZONE} where="f_code LIKE 'BH155'"
v.extract -t input=${LAYER} type=area output=${PREFIX}_openmining_${ZONE} where="f_code NOT LIKE 'BH155'"
;;
"fishinda@ind(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_fishing_${ZONE}
;;
"grounda@phys(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_barrencover_${ZONE} where="smc != 52 AND smc != 88"
v.extract -t input=${LAYER} type=area output=${PREFIX}_lava_${ZONE} where="smc = 52"
v.extract -t input=${LAYER} type=area output=${PREFIX}_littoral_${ZONE} where="smc = 88 AND swc = 3"
v.extract -t input=${LAYER} type=area output=${PREFIX}_sand_${ZONE} where="smc = 88 AND swc != 3"
;;
"landicea@phys(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_glacier_${ZONE}
;;
"seaicea@phys(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_packice_${ZONE} where="f_code NOT LIKE 'BJ080'"
v.extract -t input=${LAYER} type=area output=${PREFIX}_polarice_${ZONE} where="f_code LIKE 'BJ080'"
;;
"builtupa@pop(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_urban_${ZONE}
;;
"mispopa@pop(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_suburban_${ZONE}
;;
"cropa@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_mixedcrop_${ZONE} where="f_code NOT LIKE 'BH135' and veg = 0"
v.extract -t input=${LAYER} type=area output=${PREFIX}_drycrop_${ZONE} where="f_code NOT LIKE 'BH135' and veg = 1"
v.extract -t input=${LAYER} type=area output=${PREFIX}_irrcrop_${ZONE} where="f_code NOT LIKE 'BH135' and veg > 1"
# v.extract -t input=${LAYER} type=area output=${PREFIX}_rice_${ZONE} where="f_code LIKE 'BH135'"
;;
"grassa@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_grassland_${ZONE} where="f_code LIKE 'EB010'"
# v.extract -t input=${LAYER} type=area output=${PREFIX}_bamboo_${ZONE} where="f_code LIKE 'EC010'"
v.extract -t input=${LAYER} type=area output=${PREFIX}_scrub_${ZONE} where="f_code NOT LIKE 'EB010' AND f_code NOT LIKE 'EC010'"
;;
"oasisa@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_oasis_${ZONE}
;;
"orcharda@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_vineyard_${ZONE} where="f_code LIKE 'EA050'"
v.extract -t input=${LAYER} type=area output=${PREFIX}_orchard_${ZONE} where="f_code NOT LIKE 'EA050'"
;;
"swampa@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_bog_${ZONE} where="f_code LIKE 'BH015'"
v.extract -t input=${LAYER} type=area output=${PREFIX}_marsh_${ZONE} where="f_code NOT LIKE 'BH015'"
;;
"treesa@veg(*)_area")
# v.extract -t input=${LAYER} type=area output=${PREFIX}_mangrove_${ZONE} where="veg = 19"
v.extract -t input=${LAYER} type=area output=${PREFIX}_deciduousforest_${ZONE} where="veg = 24"
v.extract -t input=${LAYER} type=area output=${PREFIX}_evergreenforest_${ZONE} where="veg = 25"
v.extract -t input=${LAYER} type=area output=${PREFIX}_mixedforest_${ZONE} where="veg != 19 AND veg != 24 AND veg != 25"
;;
"tundraa@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_herbtundra_${ZONE}
;;
"vegvoida@veg(*)_area")
v.extract -t input=${LAYER} type=area output=${PREFIX}_vegvoid_${ZONE}
;;
esac
done
done
}
########################################################################
fn_reclass() {
for OUTPUT in `g.mlist type=vect pattern="${PREFIX}_*_???" | awk -F\_ '{print $1 "_" $2}' | sort | uniq`; do
CATEGORY=`echo ${OUTPUT} | sed -e "s/^${PREFIX}_/cs_/g"`
CODECLC=`grep "\ ${CATEGORY}\$" ${MAPPINGFILE} | awk '{print $1}'`
INTMAP=${OUTPUT}_int
for ZONE in `g.mlist type=vect pattern="${PREFIX}_*_[a-z][a-z][a-z]" | awk -F\_ '{print $3}' | sort | uniq`; do
LCCMAP=${OUTPUT}_${ZONE}_lcclass
g.remove vect=${LCCMAP}
v.db.addtable map=${OUTPUT}_${ZONE}
v.db.addcolumn map=${OUTPUT}_${ZONE} columns="newcodeCLC integer" --verbose
v.db.update map=${OUTPUT}_${ZONE} column=newcodeCLC value=${CODECLC} --verbose
v.db.dropcolumn map=${OUTPUT}_${ZONE} column=code_CLC --verbose
v.db.renamecolumn map=${OUTPUT}_${ZONE} column=newcodeCLC,code_CLC --verbose
v.reclass input=${OUTPUT}_${ZONE} output=${LCCMAP} column=code_CLC --verbose
done
g.remove vect=${OUTPUT}_patched
v.patch input=`g.mlist type=vect pattern="${OUTPUT}_[a-z][a-z][a-z]_lcclass" separator=,` output=${OUTPUT}_patched
# v.patch input=`g.mlist type=vect pattern="${OUTPUT}_[a-z][a-z][a-z]_lcclass" separator=,` output=${INTMAP}
g.remove vect=${OUTPUT}_bpol,${OUTPUT}_snap,${OUTPUT}_split,${OUTPUT}_rmsa,${OUTPUT}_rmdangle,${OUTPUT}_rmarea,${OUTPUT}_prune
v.clean input=${OUTPUT}_patched output=${OUTPUT}_bpol -c tool=bpol type=boundary --verbose
v.clean input=${OUTPUT}_bpol output=${OUTPUT}_snap -c tool=snap thresh=${SNAP} type=boundary --verbose
v.split input=${OUTPUT}_snap output=${OUTPUT}_split length=40 units=kilometers --verbose
v.clean input=${OUTPUT}_split output=${OUTPUT}_rmsa -c tool=rmsa type=boundary --verbose
v.clean input=${OUTPUT}_rmsa output=${OUTPUT}_rmdangle tool=rmline,rmdangle thresh=0,-1 type=boundary --verbose
date
v.clean input=${OUTPUT}_rmdangle output=${OUTPUT}_rmarea tool=rmarea thresh=${MIN_AREA1} type=boundary --verbose
date
v.clean input=${OUTPUT}_rmarea output=${OUTPUT}_prune tool=prune thresh=0.00001 type=boundary --verbose
v.out.ogr input=${OUTPUT}_prune type=area dsn=${DUMPDIR}/${OUTPUT}_pre-clip.shp
done
}
###############################################################################
fn_overlay() {
COUNT=1
for LAYER in ${PREFIX}_ocean \
${PREFIX}_airport \
${PREFIX}_lake \
${PREFIX}_intermittentlake \
${PREFIX}_watercourse \
${PREFIX}_littoral \
${PREFIX}_estuary \
${PREFIX}_floodland \
${PREFIX}_lagoon \
${PREFIX}_glacier \
${PREFIX}_packice \
${PREFIX}_polarice \
${PREFIX}_urban \
${PREFIX}_suburban \
${PREFIX}_town \
${PREFIX}_fishing \
${PREFIX}_construction \
${PREFIX}_industrial \
${PREFIX}_port \
${PREFIX}_dump \
${PREFIX}_bog \
${PREFIX}_marsh \
${PREFIX}_saltmarsh \
${PREFIX}_saline \
${PREFIX}_openmining \
${PREFIX}_transport \
${PREFIX}_drycrop \
${PREFIX}_irrcrop \
${PREFIX}_rice \
${PREFIX}_mixedcrop \
${PREFIX}_vineyard \
${PREFIX}_complexcrop \
${PREFIX}_naturalcrop \
${PREFIX}_cropgrass \
${PREFIX}_agroforest \
${PREFIX}_olives \
${PREFIX}_golfcourse \
${PREFIX}_greenspace \
${PREFIX}_grassland \
${PREFIX}_scrub \
${PREFIX}_orchard \
${PREFIX}_deciduousforest \
${PREFIX}_evergreenforest \
${PREFIX}_mixedforest \
${PREFIX}_herbtundra \
${PREFIX}_sclerophyllous \
${PREFIX}_heath \
${PREFIX}_burnt \
${PREFIX}_barrencover \
${PREFIX}_sand \
${PREFIX}_rock \
${PREFIX}_lava \
${PREFIX}_landmass;
do
v.info map=${LAYER}_prune > /dev/null
LAYERVALID=${?}
if [ ${LAYERVALID} -eq 0 ]; then
g.remove vect=${LAYER}_postsplit
v.split input=${LAYER}_prune output=${LAYER}_postsplit length=40 units=kilometers --verbose
if [ ${COUNT} -eq 1 ]; then
g.remove vect=${CLEANMAP}
g.copy vect=${LAYER}_postsplit,${CLEANMAP}
else
g.remove vect=tmp
v.overlay ainput=${CLEANMAP} binput=${LAYER}_postsplit output=tmp operator=or snap=0.000001
v.db.addcolumn map=tmp columns="newcat integer" --verbose
v.db.update map=tmp column=newcat value=b_cat where="a_cat IS NULL" --verbose
v.db.update map=tmp column=newcat value=a_cat where="b_cat IS NULL" --verbose
v.db.update map=tmp column=newcat value=a_cat where="newcat IS NULL" --verbose
v.db.update map=tmp column=newcat value=a_cat where="newcat=0" --verbose
g.remove vect=${CLEANMAP}_reclass
v.reclass input=tmp output=${CLEANMAP}_reclass column=newcat --verbose
g.remove vect=${CLEANMAP}
g.rename vect=${CLEANMAP}_reclass,${CLEANMAP}
fi
COUNT=`expr ${COUNT} + 1`
fi
done
}
fn_preexport() {
SELECTION=`v.category input=${CLEANMAP} type=centroid option=print | sort -n | uniq`
for CATEGORY in ${SELECTION}; do
LAYER=`grep \^${CATEGORY} ${MAPPINGFILE} | awk '{print $2}' | sed -e "s/^cs_/${PREFIX}_/g"`
g.remove vect=${LAYER}_postclip
v.extract cats=${CATEGORY} input=${CLEANMAP} output=${LAYER}_postclip type=area
v.out.ogr input=${LAYER}_postclip type=area dsn=${DUMPDIR}/${LAYER}_post-clip.shp
done
}
###############################################################################
fn_clean() {
# Caution, don't overwrite the only functional working copy while testing !!!
#
g.remove vect=${PREFIX}_patched,${PREFIX}_bpol,${PREFIX}_snap,${PREFIX}_split,${PREFIX}_rmsa,${PREFIX}_rmdangle,${PREFIX}_rmarea,${PREFIX}_prune,${PREFIX}_dissolved
g.rename vect=${CLEANMAP},${PREFIX}_patched
#
v.clean input=${PREFIX}_patched output=${PREFIX}_bpol -c tool=bpol type=boundary --verbose
v.clean input=${PREFIX}_bpol output=${PREFIX}_snap -c tool=snap thresh=${SNAP} type=boundary --verbose
v.split input=${PREFIX}_snap output=${PREFIX}_split length=40 units=kilometers --verbose
v.clean input=${PREFIX}_split output=${PREFIX}_rmsa -c tool=rmsa type=boundary --verbose
v.clean input=${PREFIX}_rmsa output=${PREFIX}_rmdangle tool=rmline,rmdangle thresh=0,-1 type=boundary --verbose
date
v.clean input=${PREFIX}_rmdangle output=${PREFIX}_rmarea tool=rmarea thresh=${MIN_AREA} type=boundary --verbose
date
v.clean input=${PREFIX}_rmarea output=${PREFIX}_prune tool=prune thresh=0.00001 type=boundary --verbose
v.dissolve input=${PREFIX}_prune output=${PREFIX}_dissolved --verbose
#v.split input=${PREFIX}_patched output=${PREFIX}_split layer=-1 vertices=100 --verbose
#
#oder kein v.split, kein v.clean tool=bpol, kein v.clean tool=snap, sondern
#
#v.clean input=${PREFIX}_patched output=${PREFIX}_rmarea tool=rmarea thresh=100
}
###############################################################################
fn_proj() {
# This one is _not_ to be run inside the import location !!!
#
MYLOCATION=`g.gisenv get=LOCATION_NAME`
MYMAPSET=`g.gisenv get=MAPSET`
g.mapset location=wgs84 mapset=${MYMAPSET}
g.remove vect=${CLEANMAP}
v.proj location=${MYLOCATION} mapset=${MYMAPSET} input=${CLEANMAP} # output=${CLEANMAP}
if [ ${PREFIX} = "v0" ]; then
g.remove vect=${PREFIX}_landmass_prune
v.proj location=${MYLOCATION} mapset=${MYMAPSET} input=${PREFIX}_landmass_prune
fi
}
###############################################################################
fn_export() {
# Print available (integer) categories - centroids only !!!
#
SELECTION=`v.category input=${CLEANMAP} type=centroid option=print | sort -n | uniq`
for CATEGORY in ${SELECTION}; do
# LAYER=${PREFIX}_${CATEGORY}
LAYER=`grep \^${CATEGORY} ${MAPPINGFILE} | awk '{print $2}' | sed -e "s/^cs_/${PREFIX}_/g"`
g.remove vect=${LAYER}
v.extract cats=${CATEGORY} input=${CLEANMAP} output=${LAYER} type=area
if [ ${PREFIX} = "v0" -a ${LAYER} = "${PREFIX}_landmass" ]; then
NEWLAYER="${PREFIX}_void"
g.remove vect=${NEWLAYER}
g.rename vect=${LAYER},${NEWLAYER}
LAYER=${NEWLAYER}
fi
# v.out.ogr input=${LAYER} type=area dsn=${DUMPDIR}/${PREFIX}_c${CATEGORY}.shp # For CLC
# v.out.ogr input=${LAYER} type=area dsn=${DUMPDIR}/${LAYER}.shp # For VMap0/CS
fn_topostgis ${LAYER}
done
if [ ${PREFIX} = "v0" ]; then
# v.out.ogr input=${PREFIX}_landmass_prune type=area dsn=${DUMPDIR}/${PREFIX}_landmass.shp
fn_topostgis ${PREFIX}_landmass_prune
fi
}
fn_single() {
LAYER=${PREFIX}_single
v.extract -d input=${CLEANMAP} type=area output=${LAYER} new=1 --verbose
# v.out.ogr input=${LAYER} type=area dsn=${DUMPDIR}/${LAYER}.shp
fn_topostgis ${LAYER}
}
###############################################################################
if [ ${TYPE} = "v0" ]; then
fn_importVMap
fn_split
fn_reclass
elif [ ${TYPE} = "clc" ]; then
fn_importCLC
fi
fn_overlay
fn_preexport
fn_clean
CLEANMAP=${PREFIX}_dissolved
fn_proj
fn_export
if [ ${TYPE} = "clc" ]; then
fn_single
fi
# EOF