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#!/bin/sh
#
# Front-end script used to calculate the mass and related values.
#
# Output:
# * final_result.txt / center_only_results.txt
# * beta_param.txt / dbeta_param_center.txt
# * gas_mass_int_center.qdp
# * mass_int_center.qdp
# * nfw_fit_center.qdp
# * nfw_param_center.txt
# * overdensity_center.qdp
# * rho_fit_center.dat
# * rho_fit_center.qdp
# * sbp_fit_center.qdp
# * entropy_center.qdp
# * wang2012_param_center.txt
# * tprofile_dump_center.qdp
# * tprofile_fit_center.qdp
# * summary_mass_profile.qdp
# * summary_overdensity.qdp
# * summary_gas_mass_profile.qdp
# * summary_entropy.qdp
#
# Junhua Gu
# Weitian LI
# 2016-06-07
#
if [ $# -eq 1 ] || [ $# -eq 2 ]; then
:
else
echo "usage:"
echo " `basename $0` <mass.conf> [c]"
echo ""
echo "arguments:"
echo " <mass.conf>: config file for mass profile calculation"
echo " [c]: optional; if specified, do not calculate the errors"
exit 1
fi
if ! which xspec > /dev/null 2>&1; then
printf "*** ERROR: please initialize HEASOFT first\n"
exit 2
fi
export PATH="/usr/local/bin:/usr/bin:/bin:$PATH"
base_path=$(dirname $(realpath $0))
printf "## base_path: \`${base_path}'\n"
mass_cfg="$1"
printf "## use configuration file: \`${mass_cfg}'\n"
case "$2" in
[cC])
F_C="YES"
;;
*)
F_C="NO"
;;
esac
nh=`grep '^nh' ${mass_cfg} | awk '{ print $2 }'`
abund=`grep '^abund' ${mass_cfg} | awk '{ print $2 }'`
nfw_rmin_kpc=`grep '^nfw_rmin_kpc' ${mass_cfg} | awk '{ print $2 }'`
tprofile_data=`grep '^tprofile_data' ${mass_cfg} | awk '{ print $2 }'`
tprofile_cfg=`grep '^tprofile_cfg' ${mass_cfg} | awk '{ print $2 }'`
sbp_cfg=`grep '^sbp_cfg' ${mass_cfg} | awk '{ print $2 }'`
# sbp config file
sbp_data=`grep '^sbp_data' ${sbp_cfg} | awk '{ print $2 }'`
tprofile=`grep '^tprofile' ${sbp_cfg} | awk '{ print $2 }'`
cfunc_profile=`grep '^cfunc_profile' ${sbp_cfg} | awk '{ print $2 }'`
z=`grep '^z' ${sbp_cfg} | awk '{ print $2 }'`
cm_per_pixel=`cosmo_calc.py -b --cm-per-pix ${z}`
sed -i'' "s/^cm_per_pixel.*$/cm_per_pixel ${cm_per_pixel}/" ${sbp_cfg}
cfunc_table="coolfunc_table_photon.txt"
if grep -q '^beta2' $sbp_cfg; then
MODEL="dbeta"
MODEL_NAME="double-beta"
else
MODEL="beta"
MODEL_NAME="single-beta"
fi
PROG_TPROFILE="fit_wang2012_model"
tprofile_dump="wang2012_dump.qdp"
tprofile_param_center="wang2012_param_center.txt"
tprofile_fit_center="tprofile_fit_center.qdp"
tprofile_center="tprofile_dump_center.qdp"
printf "Fitting temperature profile ...\n"
${base_path}/${PROG_TPROFILE} ${tprofile_data} ${tprofile_cfg} \
${cm_per_pixel} 2> /dev/null | tee ${tprofile_param_center}
cp -fv ${tprofile_dump} ${tprofile}
mv -fv ${tprofile_dump} ${tprofile_center}
mv -fv fit_result.qdp ${tprofile_fit_center}
if [ ! -f ${cfunc_table} ]; then
${base_path}/calc_coolfunc_table.py -Z ${abund} -n ${nh} -z ${z} \
-u photon -o ${cfunc_table}
fi
${base_path}/calc_coolfunc_profile.py -C -t ${cfunc_table} \
-T ${tprofile_center} -o ${cfunc_profile}
cfunc_profile_center="coolfunc_profile_center.txt"
cp -f ${cfunc_profile} ${cfunc_profile_center}
PROG_SBPFIT="fit_${MODEL}_sbp"
RES_SBPFIT="${MODEL}_param.txt"
RES_SBPFIT_CENTER="${MODEL}_param_center.txt"
printf "Fitting SBP profile ...\n"
${base_path}/${PROG_SBPFIT} ${sbp_cfg} 2> /dev/null
mv -fv ${RES_SBPFIT} ${RES_SBPFIT_CENTER}
cat ${RES_SBPFIT_CENTER}
mv -fv sbp_fit.qdp sbp_fit_center.qdp
mv -fv rho_fit.qdp rho_fit_center.qdp
mv -fv rho_fit.dat rho_fit_center.dat
mv -fv entropy.qdp entropy_center.qdp
printf "Fitting NFW mass profile ...\n"
${base_path}/fit_nfw_mass mass_int.dat ${z} ${nfw_rmin_kpc} 2> /dev/null
mv -fv nfw_param.txt nfw_param_center.txt
mv -fv nfw_fit_result.qdp nfw_fit_center.qdp
mv -fv nfw_dump.qdp mass_int_center.qdp
mv -fv overdensity.qdp overdensity_center.qdp
mv -fv gas_mass_int.qdp gas_mass_int_center.qdp
## only calculate central value {{{
if [ "${F_C}" = "YES" ]; then
RES_CENTER="center_only_results.txt"
[ -e "${RES_CENTER}" ] && mv -f ${RES_CENTER} ${RES_CENTER}_bak
${base_path}/analyze_mass_profile.py 200 c | tee -a ${RES_CENTER}
${base_path}/analyze_mass_profile.py 500 c | tee -a ${RES_CENTER}
${base_path}/analyze_mass_profile.py 1500 c | tee -a ${RES_CENTER}
${base_path}/analyze_mass_profile.py 2500 c | tee -a ${RES_CENTER}
${base_path}/fg_2500_500.py c | tee -a ${RES_CENTER}
exit 0
fi
## central value }}}
## ------------------------------------------------------------------
# clean previous files
rm -f summary_overdensity.qdp
rm -f summary_mass_profile.qdp
rm -f summary_gas_mass_profile.qdp
rm -f summary_entropy.qdp
# Estimate the errors of Lx and Fx by Monte Carlo simulation
printf "\n+++++++++++++++++++ Monte Carlo +++++++++++++++++++++\n"
MC_TIMES=100
for i in `seq 1 ${MC_TIMES}`; do
printf "\n## ${i} / ${MC_TIMES} ##\n"
printf "## `pwd` ##\n"
printf "Shuffling temperature profile & SBP ...\n"
${base_path}/shuffle_profile.py ${tprofile_data} tmp_tprofile.txt
${base_path}/shuffle_profile.py ${sbp_data} tmp_sbprofile.txt
printf "Fitting temperature profile ...\n"
${base_path}/${PROG_TPROFILE} tmp_tprofile.txt ${tprofile_cfg} \
${cm_per_pixel} 2> /dev/null
mv -f ${tprofile_dump} ${tprofile}
TMP_SBP_CFG="tmp_sbp.cfg"
[ -e "${TMP_SBP_CFG}" ] && rm -f ${TMP_SBP_CFG}
cat ${sbp_cfg} | while read l; do
if echo "${l}" | grep -q '^sbp_data' >/dev/null; then
echo "sbp_data tmp_sbprofile.txt" >> ${TMP_SBP_CFG}
elif echo "${l}" | grep -q '^tprofile' >/dev/null; then
echo "tprofile ${tprofile}" >> ${TMP_SBP_CFG}
else
echo "${l}" >> ${TMP_SBP_CFG}
fi
done
${base_path}/calc_coolfunc_profile.py -C -t ${cfunc_table} \
-T ${tprofile} -o ${cfunc_profile}
printf "Fitting SBP profile ...\n"
${base_path}/${PROG_SBPFIT} ${TMP_SBP_CFG} 2> /dev/null
cat ${RES_SBPFIT}
${base_path}/fit_nfw_mass mass_int.dat ${z} ${nfw_rmin_kpc} 2> /dev/null
cat nfw_dump.qdp >> summary_mass_profile.qdp
echo "no no no" >> summary_mass_profile.qdp
cat overdensity.qdp >> summary_overdensity.qdp
echo "no no no" >> summary_overdensity.qdp
cat gas_mass_int.qdp >> summary_gas_mass_profile.qdp
echo "no no no" >> summary_gas_mass_profile.qdp
cat entropy.qdp >> summary_entropy.qdp
echo "no no no" >> summary_entropy.qdp
done # end of `for'
# recover the files of original center values
cp -f ${cfunc_profile_center} ${cfunc_profile}
cp -f ${tprofile_center} ${tprofile}
printf "\n+++++++++++++++++ MONTE CARLO END +++++++++++++++++++\n\n"
## analyze results
RES_TMP="_tmp_result_mrl.txt"
RES_FINAL="final_result.txt"
[ -e "${RES_TMP}" ] && mv -fv ${RES_TMP} ${RES_TMP}_bak
[ -e "${RES_FINAL}" ] && mv -fv ${RES_FINAL} ${RES_FINAL}_bak
${base_path}/analyze_mass_profile.py 200 | tee -a ${RES_TMP}
${base_path}/analyze_mass_profile.py 500 | tee -a ${RES_TMP}
${base_path}/analyze_mass_profile.py 1500 | tee -a ${RES_TMP}
${base_path}/analyze_mass_profile.py 2500 | tee -a ${RES_TMP}
R200_VAL=`grep '^r200' ${RES_TMP} | awk '{ print $2 }'`
R500_VAL=`grep '^r500' ${RES_TMP} | awk '{ print $2 }'`
R1500_VAL=`grep '^r1500' ${RES_TMP} | awk '{ print $2 }'`
R2500_VAL=`grep '^r2500' ${RES_TMP} | awk '{ print $2 }'`
R200E=`grep '^r200' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
R500E=`grep '^r500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
R1500E=`grep '^r1500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
R2500E=`grep '^r2500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
M200E=`grep '^m200' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
M500E=`grep '^m500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
M1500E=`grep '^m1500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
M2500E=`grep '^m2500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
MG200E=`grep '^gas_m200' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
MG500E=`grep '^gas_m500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
MG1500E=`grep '^gas_m1500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
MG2500E=`grep '^gas_m2500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
FG200E=`grep '^gas_fraction200' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
FG500E=`grep '^gas_fraction500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
FG1500E=`grep '^gas_fraction1500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
FG2500E=`grep '^gas_fraction2500' ${RES_TMP} | tail -n 1 | awk '{ print $2,$3 }'`
printf "\n+++++++++++++++ RESULTS (${MODEL_NAME}) +++++++++++++++\n"
printf "model: ${MODEL_NAME}\n" | tee -a ${RES_FINAL}
cat ${RES_SBPFIT_CENTER} | tee -a ${RES_FINAL}
printf "\n" | tee -a ${RES_FINAL}
printf "r200= ${R200E} kpc\n" | tee -a ${RES_FINAL}
printf "m200= ${M200E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_m200= ${MG200E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_fraction200= ${FG200E} x100%%\n" | tee -a ${RES_FINAL}
printf "r500= ${R500E} kpc\n" | tee -a ${RES_FINAL}
printf "m500= ${M500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_m500= ${MG500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_fraction500= ${FG500E} x100%%\n" | tee -a ${RES_FINAL}
printf "r1500= ${R1500E} kpc\n" | tee -a ${RES_FINAL}
printf "m1500= ${M1500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_m1500= ${MG1500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_fraction1500= ${FG1500E} x100%%\n" | tee -a ${RES_FINAL}
printf "r2500= ${R2500E} kpc\n" | tee -a ${RES_FINAL}
printf "m2500= ${M2500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_m2500= ${MG2500E} Msun\n" | tee -a ${RES_FINAL}
printf "gas_fraction2500= ${FG2500E} x100%%\n" | tee -a ${RES_FINAL}
printf "\n" | tee -a ${RES_FINAL}
${base_path}/fg_2500_500.py | tee -a ${RES_FINAL}
printf "\n+++++++++++++++++++++++++++++++++++++++++++++++++++++\n"
|