#!/bin/sh # # Wrapper script used to calculate the luminosity (Lx) and flux (Fx) data, # which invokes the programming 'calc_lx_beta' (single-beta SBP) or # 'calc_lx_dbeta' (double-beta SBP). # # Output: # * lx_result.txt # * fx_result.txt # * summary_lx.dat # * summary_fx.dat # * lx_beta_param.txt / lx_dbeta_param.txt # # Author: Junhua GU # Created: 2013-06-24 # # Weitian LI # 2016-06-07 # # Change logs: # 2017-02-07, Weitian LI # * Update to use the new style configuration files # if [ $# -eq 2 ] || [ $# -eq 3 ]; then : else echo "usage:" echo " `basename $0` [c]" echo "" echo "arguments:" echo " : config file for mass profile calculation" echo " : outer/cut radius within which to calculate Lx & Fx" echo " e.g., r500, r200 (unit: kpc)" echo " [c]: optional; if specified, do not calculate the errors" exit 1 fi export PATH="/usr/local/bin:/usr/bin:/bin:$PATH" mass_cfg="$1" rout="$2" case "$3" in [cC]) F_C="YES" ;; *) F_C="NO" ;; esac base_path=$(dirname $(realpath $0)) ## Extract settings/values from the config file nh=`grep '^nh' ${mass_cfg} | awk '{ print $2 }'` abund=`grep '^abund' ${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_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=`grep '^cm_per_pixel' ${sbp_cfg} | awk '{ print $2 }'` if grep -q '^beta2' $sbp_cfg; then MODEL="dbeta" else MODEL="beta" fi PROG_TPROFILE="fit_wang2012_model" tprofile_dump="wang2012_dump.qdp" ${base_path}/${PROG_TPROFILE} ${tprofile_data} ${tprofile_cfg} \ ${cm_per_pixel} 2> /dev/null mv -fv ${tprofile_dump} ${tprofile} # energy bands for which the cooling function data will be calculated BLIST="blist.txt" [ -e "${BLIST}" ] && mv -f ${BLIST} ${BLIST}_bak cat > ${BLIST} << _EOF_ bolo 0.7 7 0.1 2.4 _EOF_ ${base_path}/coolfunc_calc.sh ${tprofile} ${abund} \ ${nh} ${z} ${cfunc_profile} ${base_path}/coolfunc_calc_erg.sh ${tprofile} ${abund} \ ${nh} ${z} "cfunc_" ${BLIST} PROG="calc_lx_${MODEL}" LXF_RES="lx_${MODEL}_param.txt" ${base_path}/${PROG} ${sbp_cfg} ${rout} \ cfunc_bolo.dat \ cfunc_0.7-7.dat \ cfunc_0.1-2.4.dat 2> /dev/null LX1=`grep '^Lx1' ${LX_RES} | awk '{ print $2 }'` LX2=`grep '^Lx2' ${LX_RES} | awk '{ print $2 }'` LX3=`grep '^Lx3' ${LX_RES} | awk '{ print $2 }'` FX1=`grep '^Fx1' ${LX_RES} | awk '{ print $2 }'` FX2=`grep '^Fx2' ${LX_RES} | awk '{ print $2 }'` FX3=`grep '^Fx3' ${LX_RES} | awk '{ print $2 }'` echo "${LX1} ${LX2} ${LX3}" >summary_lx.dat echo "${FX1} ${FX2} ${FX3}" >summary_fx.dat # save the calculated central values mv ${LX_RES} ${LX_RES%.txt}_center.txt mv lx_sbp_fit.qdp lx_sbp_fit_center.qdp mv lx_rho_fit.dat lx_rho_fit_center.dat # only calculate the central values if [ "${F_C}" = "YES" ]; then echo "Calculate the central values only ..." ${base_path}/analyze_lxfx.py "Lx" summary_lx.dat lx_result.txt ${BLIST} ${base_path}/analyze_lxfx.py "Fx" summary_fx.dat fx_result.txt ${BLIST} exit 0 fi ########################################################### # Estimate the errors of Lx and Fx by Monte Carlo simulation MC_TIMES=100 for i in `seq 1 ${MC_TIMES}`; do ${base_path}/shuffle_profile.py ${tprofile_data} tmp_tprofile.txt ${base_path}/shuffle_profile.py ${sbp_data} tmp_sbprofile.txt # temperature profile ${base_path}/${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 echo "### `pwd -P`" echo "### ${i} / ${MC_TIMES} ###" ${base_path}/coolfunc_calc.sh ${tprofile} ${abund} \ ${nh} ${z} ${cfunc_profile} ${base_path}/coolfunc_calc_erg.sh ${tprofile} ${abund} \ ${nh} ${z} "cfunc_" ${BLIST} ${base_path}/${PROG} ${TMP_SBP_CFG} ${rout} \ cfunc_bolo.dat \ cfunc_0.7-7.dat \ cfunc_0.1-2.4.dat 2> /dev/null LX1=`grep '^Lx1' ${LX_RES} | awk '{ print $2 }'` LX2=`grep '^Lx2' ${LX_RES} | awk '{ print $2 }'` LX3=`grep '^Lx3' ${LX_RES} | awk '{ print $2 }'` FX1=`grep '^Fx1' ${LX_RES} | awk '{ print $2 }'` FX2=`grep '^Fx2' ${LX_RES} | awk '{ print $2 }'` FX3=`grep '^Fx3' ${LX_RES} | awk '{ print $2 }'` echo "${LX1} ${LX2} ${LX3}" >>summary_lx.dat echo "${FX1} ${FX2} ${FX3}" >>summary_fx.dat done # end of 'for' # analyze Lx & Fx Monte Carlo results ${base_path}/analyze_lxfx.py "Lx" summary_lx.dat lx_result.txt ${BLIST} ${base_path}/analyze_lxfx.py "Fx" summary_fx.dat fx_result.txt ${BLIST}