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plot_visc_scan
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plot_visc_scan
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#!/bin/bash
modes=${1-"1 2 3 4"}
pmodels=${2-"tx2019slab lrr98d smean2_ntn s40rts st11den-1 smean2"}
#makecpt -T-.4/.8/0.05 -Cpolar -D > tmp.cpt
#makecpt -T-.4/.8/0.05 -Croma -D > tmp.cpt
makecpt -T-.2/.8/0.05 -Croma -D > tmp.cpt
#psc_loc=-Dx1.25/4.2/1.5/.15h
psc_loc=-Dx.25/3/2/.15
for mode in $modes;do
if [[ $mode = 1 || $mode = 2 || $mode = 1b ]];then
#
# two layers for 660 fixed
#
nlay=2
for smodel in $pmodels;do
infile=visc_scan_out/visc_scan.$smodel.$nlay.dat.gz
# r_20 r_4-9 r_2-4
for gcol in 1 2 3;do
zcat $infile | gawk -v g=$gcol '{col=4+g;print($4,$col)}' > tmp.$gcol.$smodel
done
done
if [ $mode = 1 ];then
cat <<EOF | gnuplot
set term post color enh solid 24
set xlabel '{/Symbol h}_{lm}/{/Symbol h}_{um}'
set ylabel 'correlation'
set out 'visc.l1.tomo.ps'
set logscale x
set key left
set xrange [0.1:*]
set multi
plot 'tmp.1.smean2_ntn' using (10**\$1) : (\$2) title 'r_{2-20}, SMEAN2' w l lt 1 lw 4,\
'tmp.3.smean2_ntn' using (10**\$1) : (\$2) title 'r_{2-4}, SMEAN2' w l lt 2 lw 4,\
'tmp.2.smean2_ntn' using (10**\$1) : (\$2) title 'r_{4-9}, ' w l lt 3 lw 4,\
'tmp.1.tx2019slab' using (10**\$1) : (\$2) title 'r_{2-20}, TX2019SLAB' w l lt 1 lw 1,\
'tmp.3.tx2019slab' using (10**\$1) : (\$2) title 'r_{2-4}, TX2019SLAB' w l lt 2 lw 1,\
'tmp.2.tx2019slab' using (10**\$1) : (\$2) title 'r_{4-9}, TX2019SLAB' w l lt 3 lw 1
EOF
echo visc.l1.tomo.ps
elif [ $mode = 1b ];then
cat <<EOF | gnuplot
set term post color enh solid "Palatino-Roman,24"
set xlabel '{/Symbol h}_{lm}/{/Symbol h}_{um}'
set ylabel 'correlation'
set out 'visc_l1_tomo_slab.ps'
set logscale x
set key samplen 2 right bottom
set xrange [0.1:*]
set multi
plot 'tmp.1.lrr98d' using (10**\$1) : (\$2) title 'slabs, r_{2-20}' w l lt 3 lw 5,\
'tmp.2.lrr98d' using (10**\$1) : (\$2) title 'slabs, r_{4-9}' w l lt 3 lw 2,\
'tmp.1.tx2019slab' using (10**\$1) : (\$2) title 'tomography, r_{2-20}' w l lt 1 lw 5,\
'tmp.2.tx2019slab' using (10**\$1) : (\$2) title 'tomography, r_{4-9}' w l lt 1 lw 2
EOF
echo visc_l1_tomo_slab.ps
epstopdf visc_l1_tomo_slab.ps
elif [ $mode = 2 ];then
cat <<EOF | gnuplot
set term post color enh solid 24
set xlabel '{/Symbol h}_{lm}/{/Symbol h}_{um}'
set ylabel 'correlation'
set out 'visc.l1.sub.ps'
set logscale x
set key left
set xrange [0.1:*]
plot 'tmp.1.stb00d' using (10**\$1) : (\$2) title 'r_{2-20}, M1' w l lt 1 lw 4,\
'tmp.1.st11den-1' using (10**\$1) : (\$2) title 'r_{2-20}, M2' w l lt 1 lw 1,\
'tmp.3.stb00d' using (10**\$1) : (\$2) title 'r_{2-4}, M1' w l lt 2 lw 4,\
'tmp.3.st11den-1' using (10**\$1) : (\$2) title 'r_{2-4}, M2' w l lt 2 lw 1,\
'tmp.2.stb00d' using (10**\$1) : (\$2) title 'r_{4-9}, M1' w l lt 3 lw 4,\
'tmp.2.st11den-1' using (10**\$1) : (\$2) title 'r_{4-9}, M2' w l lt 3 lw 1
EOF
echo visc.l1.sub.ps
fi
elif [ $mode = 3 ];then
#
# two layer tradeoff
#
nlay=-2
# for smodel in smean2 lrr98d stb00d s40rts semucb-wm1 st11den-1 smean2_ntn;do
#for smodel in smean2_ntn lrr98d;do
for smodel in $pmodels ;do
if [ $smodel = smean2_ntn ];then
mlabel="tomography"
elif [ $smodel = lrr98d ];then
mlabel="slabs"
else
mlabel=`echo $smodel | gawk '{print(toupper($1))}'`
fi
infile=visc_scan_out/visc_scan.$smodel.$nlay.dat.gz
# r_20 r_4-9 r_2-4
#for gcol in 1 2 3;do
for gcol in 1 3;do
zcat $infile | gawk -v g=$gcol '{col=4+g;print($4,$8,$col)}' > tmp.$gcol.$smodel
reg=`minmax -I1/25 tmp.$gcol.$smodel`
sinc=-I0.005/1.5
echo $0: `minmax tmp.$gcol.$smodel` $reg $sinc
blockmedian $sinc $reg tmp.$gcol.$smodel > tmp.dat
surface tmp.dat $reg $sinc -Gtmp.1.grd -T.75 &
grdmask tmp.dat $reg $sinc -Gtmp.2.grd -S20 -NNaN/1/1 &
wait
rm tmp.dat
grdmath tmp.1.grd tmp.2.grd MUL = tmp.grd
#surface $reg $sinc tmp.$gcol.$smodel -Gtmp.grd
if [ $gcol -eq 1 ];then
rl="r@-2-20@-"
elif [ $gcol -eq 3 ];then
rl="r@-2-4@-"
fi
# find 660 max
(grd2xyz -R-2/3/500/700 tmp.grd | gawk '{if($2==660)print($1,$3)}' | gawk -v col=2 -v pcol=1 -f max.awk | gawk '{printf("%.2f %g\n",$1,$2)}' > tmp.660) &
(grd2max_location tmp.grd > tmp.max ) &
proj=-JX4.5/-4.5
ofile=visc_scan_plots/"visc_l1_2d_"$smodel"_"$gcol".ps"
grdimage tmp.grd $reg -Ctmp.cpt $proj -Ba1f.1:"log@-10@-(@~h@~@-lm@-/@~h@~@-um@-)":/a200f20:"z@-um/lm@- [km]":WeSn -P -K > $ofile
grdcontour -S4 tmp.grd $reg $proj -C.3 -A+f12 -O -K >> $ofile
psscale $psc_loc -Ctmp.cpt -B.3/:"$rl": -O -K -E >> $ofile
wait
# abs max
cat tmp.max | psxy $reg $proj -O -K -Sa.3 -Gorange -W0.5 >> $ofile
rmax=`grd2max tmp.grd | gawk '{printf("%.2f",$1)}' `
read r660 x < tmp.660
echo $x 660 | psxy $reg $proj -O -Sc.3 -Gorange -W0.5 -K >> $ofile
echo -2.8 1550 18 0 29 ML "r@-max@-(660 km) = $r660" | pstext -R -J -O -K >> $ofile
echo -2.8 1700 18 0 29 ML "r@-max@- = $rmax" | pstext -R -J -O -K >> $ofile
echo -2.8 1400 22 0 31 ML "$mlabel" | pstext -O $reg $proj >> $ofile
rm tmp.660 tmp.max
modifybb $ofile
(epstopdf $ofile; rm $ofile)&
rm tmp.*grd
echo $ifile $gcol $reg
done
done
elif [ $mode = 4 ];then
#
# three layers
#
nlay=3
for zlm in 660 1000;do
#for smodel in smean2 st11den-1 smean2_ntn semucb-wm1;do
for smodel in $pmodels;do
if [ $smodel = smean2_ntn ];then
mlabel="tomography"
elif [ $smodel = lrr98d ];then
mlabel="slabs"
else
mlabel=`echo $smodel | gawk '{print(toupper($1))}'`
fi
#for smodel in smean2 ;do
if [ $zlm = 660 ];then
infile=visc_scan_out/visc_scan.$smodel.$nlay.dat.gz
else
infile=visc_scan_out/visc_scan.$smodel.$nlay.$zlm.dat.gz
fi
# r_20 r_4-9 r_2-4
#for gcol in 1 2 3;do
for gcol in 1 ;do
if [ $zlm = 660 ];then
ofile=visc_scan_plots/"visc_l2_2d_"$smodel"_"$gcol".ps"
else
ofile=visc_scan_plots/"visc_l2_2d_"$smodel"_"$gcol"_"$zlm".ps"
fi
zcat $infile | gawk -v g=$gcol '{col=4+g;print($4,$1,$col)}' | sort +2 -rn > tmp.$gcol.$smodel
#head -20 tmp.$gcol.$smodel
max=`head -1 tmp.$gcol.$smodel`
reg=`minmax -I1/1 tmp.$gcol.$smodel`
sinc=-I0.005/0.005
surface $reg $sinc tmp.$gcol.$smodel -Gtmp.1.grd -T.75 &
grdmask $reg $sinc tmp.$gcol.$smodel -Gtmp.2.grd -NNaN/1/1 -S0.02 &
wait
grdmath tmp.1.grd tmp.2.grd MUL = tmp.grd
#surface $reg $sinc tmp.$gcol.$smodel -Gtmp.grd
if [ $gcol -eq 1 ];then
rl="r@-2-20@-"
elif [ $gcol -eq 3 ];then
rl="r@-2-4@-"
fi
#makecpt -T-.4/.8/0.05 -Cpolar -D > tmp.cpt
proj=-JX4.5/-4.5
#makecpt -T-.4/.8/0.05 -Croma -D > tmp.cpt
grdimage tmp.grd $reg -Ctmp.cpt $proj -Ba1f.1:"log@-10@-(@~h@~@-lm@-/@~h@~@-um@-), z@-ulm@- = $zlm km":/a1f.1:"log@-10@-(@~h@~@-lith@-/@~h@~@-um@-)":WeSn -P -K > $ofile
grdcontour -S4 tmp.grd $reg $proj -C.3 -A+f12 -O -K >> $ofile
psscale $psc_loc -Ctmp.cpt -B.3/:"$rl": -O -K -E >> $ofile
grd2max_location tmp.grd | psxy $reg $proj -O -K -Sa.3 -Gorange -W0.5 >> $ofile
rmax=`grd2max tmp.grd | gawk '{printf("%.2f",$1)}'`
echo -2.8 2 22 0 31 ML $mlabel | pstext -O $reg -K $proj >> $ofile
echo -2.8 2.6 18 0 29 ML "r@-max@- = $rmax " | pstext -O $reg $proj >> $ofile
modifybb $ofile
(epstopdf $ofile; rm $ofile)&
rm tmp*grd
done
done
done
elif [ $mode = 5 ];then
#
# four layers
#
nlay=4
#for zlm in 660 1000;do
for zlm in 660;do
#for smodel in smean2 st11den-1 smean2_ntn semucb-wm1;do
#for smodel in smean2_ntn lrr98d;do
for smodel in $pmodels ;do
if [ $smodel = smean2_ntn ];then
mlabel="tomography"
elif [ $smodel = lrr98d ];then
mlabel="slabs"
else
mlabel=`echo $smodel | gawk '{print(toupper($1))}'`
fi
for za in 200 300 410 ;do
if [ $za = 410 ];then
suf=dat.gz
suf2=.ps
else
suf=a.$za.dat.gz
suf2=a.$za.ps
fi
if [ $zlm = 660 ];then
infile=visc_scan_out/visc_scan.$smodel.$nlay.$suf
else
infile=visc_scan_out/visc_scan.$smodel.$nlay.$zlm.$suf
fi
for gcol in 1 ;do
if [ $zlm = 660 ];then
ofile=visc_scan_plots/"visc_l4_"$smodel"_"$gcol"$suf2"
else
ofile=visc_scan_plots/"visc_l4_"$smodel"_"$gcol"_"$zlm"$suf2"
fi
zcat $infile | \
gawk -v g=$gcol '{col=4+g;print($1,$2,$4,$col)}' | \
sort +3 -rn > tmp.$gcol.$smodel
#head -10 tmp.$gcol.$smodel
echo model $smodel zlm $zlm
zlmproj=2
proj="-JX5/5 -JZ5 -Z$zlmproj -E145/30 "
reg=-R-0.5/3/0/3/2/3
head -500 tmp.$gcol.$smodel > tmp.plot
minmax tmp.plot
#makecpt -T0.85/0.86/0.0005 -Cpolar -D > tmp.cpt
makecpt -T`gawk -v col=4 -f min.awk tmp.plot`/`gawk -v col=4 -f max.awk tmp.plot`/0.0005 -Cpolar -D > tmp.cpt
psxyz tmp.plot $proj $reg -P -W0.5 -Ctmp.cpt -Su.1 -N -K \
-Ba1f.1:"log@-10@-(@~h@~@-lith@-/@~h@~@-um@-)":/a1f.1:"log@-10@-(@~h@~@-ast@-/@~h@~@-um@-)":/a.2f.02:"log@-10@-(@~h@~@-lm@-/@~h@~@-um@-)": > $ofile
psscale -O -K -Ctmp.cpt -B.003/:"r@-2-20@-": -D3/6/2/.2h >> $ofile
gawk -v zlmp=$zlmproj '{print($1,$2,zlmp,$4)}' tmp.plot | \
psxyz $proj $reg -W0.5 -Ctmp.cpt -Sc.1 -W0.5 -N -O >> $ofile
modifybb $ofile
epstopdf $ofile; rm $ofile
echo
done
done
done
done
fi
done
rm tmp*