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authorAaron LI <aaronly.me@gmail.com>2016-06-08 21:53:00 +0800
committerAaron LI <aaronly.me@gmail.com>2016-06-08 21:53:00 +0800
commitf3dad5a208cace4864ee7c4da94da0f279260a4a (patch)
tree108aaee2b647ad22e959050f34d8f5eb81371fef
parent72d081047196660fc3c657b475b77466ab9f35c0 (diff)
downloadchandra-acis-analysis-f3dad5a208cace4864ee7c4da94da0f279260a4a.tar.bz2
Merge branch 'cosmo_calc'
-rwxr-xr-xmass_profile/coolfunc_calc.sh102
-rwxr-xr-xmass_profile/coolfunc_calc2.sh173
-rwxr-xr-xmass_profile/coolfunc_calc_bolo.sh139
-rwxr-xr-xmass_profile/cooling_time2.sh52
-rwxr-xr-xmass_profile/csb_calc_lwt.sh18
-rwxr-xr-xmass_profile/fit_nfwmass.sh4
-rwxr-xr-xmass_profile/fit_sbp.sh2
7 files changed, 402 insertions, 88 deletions
diff --git a/mass_profile/coolfunc_calc.sh b/mass_profile/coolfunc_calc.sh
index 9a01648..c4935b7 100755
--- a/mass_profile/coolfunc_calc.sh
+++ b/mass_profile/coolfunc_calc.sh
@@ -1,32 +1,39 @@
#!/bin/sh
-##
-## Calculate the 'cooling function' profile with respect to the
-## given 'temperature profile' and the average abundance, redshift,
-## and column density nH, using the XSPEC model 'wabs*apec'.
-##
-## Weitian LI
-## Created: 2012-08-17
-## Updated: 2016-06-08
-##
+#
+# unalias -a
+#
+###########################################################
+## Task: ##
+## Calc `cooling function' data according to ##
+## given `temperature profile' ##
+## ##
+## NOTE: ##
+## given `tprofile': <radius> <temperature> ##
+## calc `cooling function' by invoking `XSPEC' ##
+## using model `wabs*apec' ##
+## ##
+## LIweitiaNux <liweitianux@gmail.com> ##
+## August 17, 2012 ##
+###########################################################
## cmdline arguments {{{
-if [ $# -eq 5 ]; then
- :
-elif [ $# -eq 6 ]; then
- COOLFUNC_BOLO="$6"
- [ -e "${COOLFUNC_BOLO}" ] && rm -f ${COOLFUNC_BOLO}
-else
+if [ $# -ne 5 ]; then
printf "usage:\n"
- printf " `basename $0` <tprofile> <avg_abund> <nH> <redshift> <coolfunc_outfile> [coolfunc_bolo]\n"
+ printf " `basename $0` <tprofile> <avg_abund> <nH> <redshift> <coolfunc_outfile>\n"
exit 1
fi
+base_path=`dirname $0`
TPROFILE=$1
ABUND_VAL=$2
N_H=$3
REDSHIFT=$4
-NORM=`cosmo_calc ${REDSHIFT} | grep 'norm.*cooling_function' | awk -F':' '{ print $2 }'`
+NORM=`$base_path/calc_distance $REDSHIFT|grep norm|awk '{print $2}'`
+
+echo $NORM
+
+
COOLFUNC_DAT=$5
-COOLFUNC_DAT_RATIO="flux_cnt_ratio.txt"
+COOLFUNC_DAT_RATIO=flux_cnt_ratio.txt
if [ ! -r "${TPROFILE}" ]; then
printf "ERROR: given tprofile '${TPROFILE}' NOT accessiable\n"
@@ -44,14 +51,15 @@ XSPEC_CF_XCM="_coolfunc_calc.xcm"
## generate xspec script {{{
cat >> ${XSPEC_CF_XCM} << _EOF_
## XSPEC Tcl script
-## Calculate the cooling function profile w.r.t the temperature profile
+## calc cooling function data
##
-## Generated by: `basename $0`
-## Date: `date`
+## generated by: `basename $0`
+## date: `date`
set xs_return_results 1
set xs_echo_script 0
# set tcl_precision 12
+dummyrsp .01 100 4096
## set basic data {{{
set nh ${N_H}
set redshift ${REDSHIFT}
@@ -65,18 +73,19 @@ chatter 0
# debug }}}
query yes
abund grsa
-dummyrsp 0.01 100.0 4096 linear
+dummyrsp 0.3 11.0 1024
# load model 'wabs*apec' to calc cooling function
model wabs*apec & \${nh} & 1.0 & \${abund_val} & \${redshift} & \${norm} & /*
## xspec }}}
-## set input and output filename & open files
+## set input and output filename
set tpro_fn "${TPROFILE}"
set cf_fn "${COOLFUNC_DAT}"
set cff_fn "${COOLFUNC_DAT_RATIO}"
if { [ file exists \${cf_fn} ] } {
exec rm -fv \${cf_fn}
}
+
if { [ file exists \${cff_fn} ] } {
exec rm -fv \${cff_fn}
}
@@ -86,21 +95,6 @@ set tpro_fd [ open \${tpro_fn} r ]
set cf_fd [ open \${cf_fn} w ]
set cff_fd [ open \${cff_fn} w ]
-_EOF_
-
-if [ ! -z "${COOLFUNC_BOLO}" ]; then
- cat >> ${XSPEC_CF_XCM} << _EOF_
-# coolfunc bolometric
-set cfbolo_fn "${COOLFUNC_BOLO}"
-if { [ file exists \${cfbolo_fn} ] } {
- exec rm -fv \${cfbolo_fn}
-}
-set cfbolo_fd [ open \${cfbolo_fn} w ]
-
-_EOF_
-fi
-
-cat >> ${XSPEC_CF_XCM} << _EOF_
## read data from tprofile line by line
while { [ gets \${tpro_fd} tpro_line ] != -1 } {
# gets one line
@@ -118,37 +112,27 @@ while { [ gets \${tpro_fd} tpro_line ] != -1 } {
tclout flux 1
scan \${xspec_tclout} "%f %f %f %f" cff_data holder holder holder
puts \${cff_fd} "\${radius} [expr \${cff_data}/\${cf_data}]"
-_EOF_
-if [ ! -z "${COOLFUNC_BOLO}" ]; then
- cat >> ${XSPEC_CF_XCM} << _EOF_
- # coolfunc bolometric
- set cfbolo_data \$cff_data
- #puts "cfbolo_data: \${cfbolo_data}"
- puts \${cfbolo_fd} "\${radius} \${cfbolo_data}"
-_EOF_
-fi
-cat >> ${XSPEC_CF_XCM} << _EOF_
}
## close opened files
close \${tpro_fd}
close \${cf_fd}
-_EOF_
-
-if [ ! -z "${COOLFUNC_BOLO}" ]; then
- cat >> ${XSPEC_CF_XCM} << _EOF_
-# coolfunc bolometric
-close \${cfbolo_fd}
-
-_EOF_
-fi
-cat >> ${XSPEC_CF_XCM} << _EOF_
## exit
tclexit
_EOF_
-## generate xcm }}}
+
+## extract xcm }}}
## invoke xspec to calc
printf "invoking XSPEC to calculate cooling function data ...\n"
+# xspec - ${XSPEC_CF_XCM}
xspec - ${XSPEC_CF_XCM} > /dev/null
+
+## clean
+# if [ -e "${XSPEC_CF_XCM}" ]; then
+# rm -f ${XSPEC_CF_XCM}
+# fi
+
+exit 0
+
diff --git a/mass_profile/coolfunc_calc2.sh b/mass_profile/coolfunc_calc2.sh
new file mode 100755
index 0000000..c469619
--- /dev/null
+++ b/mass_profile/coolfunc_calc2.sh
@@ -0,0 +1,173 @@
+#!/bin/sh
+#
+# unalias -a
+#
+###########################################################
+## Task: ##
+## Calc `cooling function' data according to ##
+## given `temperature profile' ##
+## ##
+## NOTE: ##
+## given `tprofile': <radius> <temperature> ##
+## calc `cooling function' by invoking `XSPEC' ##
+## using model `wabs*apec' ##
+## ##
+## LIweitiaNux <liweitianux@gmail.com> ##
+## August 17, 2012 ##
+###########################################################
+
+## cmdline arguments {{{
+if [ $# -eq 5 ]; then
+ :
+elif [ $# -eq 6 ]; then
+ COOLFUNC_BOLO=$6
+ [ -e "${COOLFUNC_BOLO}" ] && rm -f ${COOLFUNC_BOLO}
+else
+ printf "usage:\n"
+ printf " `basename $0` <tprofile> <avg_abund> <nH> <redshift> <coolfunc_outfile> [coolfunc_bolo]\n"
+ exit 1
+fi
+base_path=`dirname $0`
+TPROFILE=$1
+ABUND_VAL=$2
+N_H=$3
+REDSHIFT=$4
+NORM=`$base_path/calc_distance $REDSHIFT | grep norm | awk '{ print $2 }'`
+COOLFUNC_DAT=$5
+COOLFUNC_DAT_RATIO="flux_cnt_ratio.txt"
+
+if [ ! -r "${TPROFILE}" ]; then
+ printf "ERROR: given tprofile '${TPROFILE}' NOT accessiable\n"
+ exit 2
+fi
+[ -e "${COOLFUNC_DAT}" ] && rm -f ${COOLFUNC_DAT}
+[ -e "${COOLFUNC_DAT_RATIO}" ] && rm -f ${COOLFUNC_DAT_RATIO}
+## arguments }}}
+
+## specify variable name outside while loop
+## otherwise the inside vars invisible
+XSPEC_CF_XCM="_coolfunc_calc.xcm"
+[ -e "${XSPEC_CF_XCM}" ] && rm -f ${XSPEC_CF_XCM}
+
+## generate xspec script {{{
+cat >> ${XSPEC_CF_XCM} << _EOF_
+## XSPEC Tcl script
+## calc cooling function data
+##
+## generated by: `basename $0`
+## date: `date`
+
+set xs_return_results 1
+set xs_echo_script 0
+# set tcl_precision 12
+dummyrsp .01 100 4096
+## set basic data {{{
+set nh ${N_H}
+set redshift ${REDSHIFT}
+set abund_val ${ABUND_VAL}
+set norm ${NORM}
+## basic }}}
+
+## xspec related {{{
+# debug settings {{{
+chatter 0
+# debug }}}
+query yes
+abund grsa
+dummyrsp 0.3 11.0 1024
+# load model 'wabs*apec' to calc cooling function
+model wabs*apec & \${nh} & 1.0 & \${abund_val} & \${redshift} & \${norm} & /*
+## xspec }}}
+
+## set input and output filename & open files
+set tpro_fn "${TPROFILE}"
+set cf_fn "${COOLFUNC_DAT}"
+set cff_fn "${COOLFUNC_DAT_RATIO}"
+if { [ file exists \${cf_fn} ] } {
+ exec rm -fv \${cf_fn}
+}
+if { [ file exists \${cff_fn} ] } {
+ exec rm -fv \${cff_fn}
+}
+
+## open files
+set tpro_fd [ open \${tpro_fn} r ]
+set cf_fd [ open \${cf_fn} w ]
+set cff_fd [ open \${cff_fn} w ]
+
+_EOF_
+
+if [ ! -z "${COOLFUNC_BOLO}" ]; then
+ cat >> ${XSPEC_CF_XCM} << _EOF_
+# coolfunc bolometric
+set cfbolo_fn "${COOLFUNC_BOLO}"
+if { [ file exists \${cfbolo_fn} ] } {
+ exec rm -fv \${cfbolo_fn}
+}
+set cfbolo_fd [ open \${cfbolo_fn} w ]
+
+_EOF_
+fi
+
+cat >> ${XSPEC_CF_XCM} << _EOF_
+## read data from tprofile line by line
+while { [ gets \${tpro_fd} tpro_line ] != -1 } {
+ # gets one line
+ scan \${tpro_line} "%f %f" radius temp_val
+ #puts "radius: \${radius}, temperature: \${temp_val}"
+ # set temperature value
+ newpar 2 \${temp_val}
+ # calc flux & tclout
+ flux 0.7 7.0
+ tclout flux 1
+ scan \${xspec_tclout} "%f %f %f %f" holder holder holder cf_data
+ #puts "cf_data: \${cf_data}"
+ puts \${cf_fd} "\${radius} \${cf_data}"
+ flux 0.01 100.0
+ tclout flux 1
+ scan \${xspec_tclout} "%f %f %f %f" cff_data holder holder holder
+ puts \${cff_fd} "\${radius} [expr \${cff_data}/\${cf_data}]"
+_EOF_
+if [ ! -z "${COOLFUNC_BOLO}" ]; then
+ cat >> ${XSPEC_CF_XCM} << _EOF_
+ # coolfunc bolometric
+ set cfbolo_data \$cff_data
+ #puts "cfbolo_data: \${cfbolo_data}"
+ puts \${cfbolo_fd} "\${radius} \${cfbolo_data}"
+_EOF_
+fi
+cat >> ${XSPEC_CF_XCM} << _EOF_
+}
+
+## close opened files
+close \${tpro_fd}
+close \${cf_fd}
+_EOF_
+
+if [ ! -z "${COOLFUNC_BOLO}" ]; then
+ cat >> ${XSPEC_CF_XCM} << _EOF_
+# coolfunc bolometric
+close \${cfbolo_fd}
+
+_EOF_
+fi
+
+cat >> ${XSPEC_CF_XCM} << _EOF_
+## exit
+tclexit
+_EOF_
+
+## extract xcm }}}
+
+## invoke xspec to calc
+printf "invoking XSPEC to calculate cooling function data ...\n"
+# xspec - ${XSPEC_CF_XCM}
+xspec - ${XSPEC_CF_XCM} > /dev/null
+
+## clean
+# if [ -e "${XSPEC_CF_XCM}" ]; then
+# rm -f ${XSPEC_CF_XCM}
+# fi
+
+exit 0
+
diff --git a/mass_profile/coolfunc_calc_bolo.sh b/mass_profile/coolfunc_calc_bolo.sh
new file mode 100755
index 0000000..5c4ef5d
--- /dev/null
+++ b/mass_profile/coolfunc_calc_bolo.sh
@@ -0,0 +1,139 @@
+#!/bin/sh
+#
+# unalias -a
+#
+###########################################################
+## Task: ##
+## Calc `cooling function' data according to ##
+## given `temperature profile' ##
+## ##
+## NOTE: ##
+## given `tprofile': <radius> <temperature> ##
+## calc `cooling function' by invoking `XSPEC' ##
+## using model `wabs*apec' ##
+## ##
+## LIweitiaNux <liweitianux@gmail.com> ##
+## August 17, 2012 ##
+###########################################################
+
+## cmdline arguments {{{
+if [ $# -ne 5 ]; then
+ printf "usage:\n"
+ printf " `basename $0` <tprofile> <avg_abund> <nH> <redshift> <coolfunc_outfile>\n"
+ exit 1
+fi
+base_path=`dirname $0`
+TPROFILE=$1
+ABUND_VAL=$2
+N_H=$3
+REDSHIFT=$4
+NORM=`$base_path/calc_distance $REDSHIFT|grep norm|awk '{print $2}'`
+
+echo $NORM
+
+
+COOLFUNC_DAT=$5
+#COOLFUNC_DAT_RATIO=flux_cnt_ratio.txt
+
+if [ ! -r "${TPROFILE}" ]; then
+ printf "ERROR: given tprofile '${TPROFILE}' NOT accessiable\n"
+ exit 2
+fi
+[ -e "${COOLFUNC_DAT}" ] && rm -f ${COOLFUNC_DAT}
+#[ -e "${COOLFUNC_DAT_RATIO}" ] && rm -f ${COOLFUNC_DAT_RATIO}
+## arguments }}}
+
+## specify variable name outside while loop
+## otherwise the inside vars invisible
+XSPEC_CF_XCM="_coolfunc_calc.xcm"
+[ -e "${XSPEC_CF_XCM}" ] && rm -f ${XSPEC_CF_XCM}
+
+## generate xspec script {{{
+cat >> ${XSPEC_CF_XCM} << _EOF_
+## XSPEC Tcl script
+## calc cooling function data
+##
+## generated by: `basename $0`
+## date: `date`
+
+set xs_return_results 1
+set xs_echo_script 0
+# set tcl_precision 12
+dummyrsp .01 100 4096
+## set basic data {{{
+set nh ${N_H}
+set redshift ${REDSHIFT}
+set abund_val ${ABUND_VAL}
+set norm ${NORM}
+## basic }}}
+
+## xspec related {{{
+# debug settings {{{
+chatter 0
+# debug }}}
+query yes
+abund grsa
+dummyrsp 0.3 11.0 1024
+# load model 'wabs*apec' to calc cooling function
+#model wabs*apec & \${nh} & 1.0 & \${abund_val} & \${redshift} & \${norm} &
+model wabs*apec & 0 & 1.0 & \${abund_val} & \${redshift} & \${norm} &
+## xspec }}}
+
+## set input and output filename
+set tpro_fn "${TPROFILE}"
+set cf_fn "${COOLFUNC_DAT}"
+##set cff_fn "${COOLFUNC_DAT_RATIO}"
+if { [ file exists \${cf_fn} ] } {
+ exec rm -fv \${cf_fn}
+}
+
+#if { [ file exists \${cff_fn} ] } {
+# exec rm -fv \${cff_fn}
+#}
+
+## open files
+set tpro_fd [ open \${tpro_fn} r ]
+set cf_fd [ open \${cf_fn} w ]
+#set cff_fd [ open \${cff_fn} w ]
+
+## read data from tprofile line by line
+while { [ gets \${tpro_fd} tpro_line ] != -1 } {
+ # gets one line
+ scan \${tpro_line} "%f %f" radius temp_val
+ #puts "radius: \${radius}, temperature: \${temp_val}"
+ # set temperature value
+ newpar 2 \${temp_val}
+ # calc flux & tclout
+ flux 0.01 100.0
+ tclout flux 1
+ scan \${xspec_tclout} "%f %f %f %f" cf_data holder holder holder
+ #puts "cf_data: \${cf_data}"
+ puts \${cf_fd} "\${radius} \${cf_data}"
+# flux 0.01 100.0
+# tclout flux 1
+# scan \${xspec_tclout} "%f %f %f %f" cff_data holder holder holder
+# puts \${cff_fd} "\${radius} [expr \${cff_data}/\${cf_data}]"
+}
+
+## close opened files
+close \${tpro_fd}
+close \${cf_fd}
+
+## exit
+tclexit
+_EOF_
+
+## extract xcm }}}
+
+## invoke xspec to calc
+printf "invoking XSPEC to calculate cooling function data ...\n"
+# xspec - ${XSPEC_CF_XCM}
+xspec - ${XSPEC_CF_XCM} > /dev/null
+
+## clean
+# if [ -e "${XSPEC_CF_XCM}" ]; then
+# rm -f ${XSPEC_CF_XCM}
+# fi
+
+exit 0
+
diff --git a/mass_profile/cooling_time2.sh b/mass_profile/cooling_time2.sh
index 775e175..cb0a55e 100755
--- a/mass_profile/cooling_time2.sh
+++ b/mass_profile/cooling_time2.sh
@@ -2,26 +2,38 @@
#
unalias -a
export LC_COLLATE=C
-##
-## based on `ciao_r500avgt'
-## for calculating the `cooling time'
-## within (0.-0.048 r500) region
-##
-## Junhua Gu
-## August 22, 2012
-##
-## Weitian LI
-## 2013-04-28
-##
-##
-## Change logs:
-## 2016-05-28:
-## * Remove 'COSCALC', just use 'cosmo_calc'
-##
+###########################################################
+## based on `ciao_r500avgt' ##
+## for calculating the `cooling time ' ##
+## within (0.-0.048 r500) region ##
+## ##
+## Junhua Gu ##
+## August 22, 2012 ##
+## ##
+## LIweitiaNux ##
+## 2013/04/28 ##
+###########################################################
+
+###########################################################
+## ChangeLogs
+###########################################################
+
+## comology calculator {{{
+## XXX: MODIFY THIS TO YOUR OWN CASE
+## and make sure this `calc' is executable
+## NOTES: use `$HOME' instead of `~' in path
+BASE_PATH=`dirname $0`
+# COSCALC="`which cosmo_calc calc_distance | head -n 1`"
+COSCALC="${BASE_PATH}/calc_distance"
+if [ -z "${COSCALC}" ] || [ ! -x ${COSCALC} ]; then
+ printf "ERROR: \`COSCALC: ${COSCALC}' neither specified nor executable\n"
+ exit 255
+fi
+## }}}
## about, used in `usage' {{{
-VERSION="v2.0"
-UPDATE="2016-05-28"
+VERSION="v1.1"
+UPDATE="2012-08-26"
## about }}}
## error code {{{
@@ -230,7 +242,7 @@ case "${R500_UNI}" in
;;
*)
printf "## units in \`kpc', convert to \`Chandra pixel'\n" | ${TOLOG}
- KPC_PER_PIX=`cosmo_calc ${REDSHIFT} | grep 'kpc.*pix' | tr -d 'a-zA-Z_#=(),:/ '`
+ KPC_PER_PIX=`${COSCALC} ${REDSHIFT} | grep 'kpc.*pix' | tr -d 'a-zA-Z_#=(),:/ '`
# convert scientific notation for `bc'
KPC_PER_PIX_B=`echo ${KPC_PER_PIX} | sed 's/[eE]/\*10\^/' | sed 's/+//'`
printf "## calculated \`kpc/pixel': ${KPC_PER_PIX_B}\n"
@@ -395,7 +407,7 @@ printf "## use grppha cmd: \`${GRP_CMD}'\n" | ${TOLOG}
##################################################
#### main
## D_A
-D_A_CM=`cosmo_calc ${REDSHIFT} | grep 'Angular_diameter_distance' | awk -F'[=,]' '{ print $2 }' | tr -d '[cm] '
+D_A_CM=`${COSCALC} ${REDSHIFT} | grep '^d_a_cm' | awk '{ print $2 }'`
printf "D_A_CM(${REDSHIFT})= ${D_A_CM}\n"
## region related {{{
diff --git a/mass_profile/csb_calc_lwt.sh b/mass_profile/csb_calc_lwt.sh
index fa6e654..381c545 100755
--- a/mass_profile/csb_calc_lwt.sh
+++ b/mass_profile/csb_calc_lwt.sh
@@ -1,10 +1,6 @@
#!/bin/sh
#
-# Calculate the surface brightness concentration (C_SB) for objects
-# meet the conditions: 'z>0.3' or 'counts_in_0.048R500<500'.
-#
-# Aaron LI
-# Updated: 2016-05-28
+# for 'z>0.3' or 'counts_in_0.048R500<500'
#
ERR_CALC=1
@@ -13,6 +9,16 @@ ERR_JSON=3
ERR_Z=4
ERR_CNT=5
+## cosmology claculator {{{
+## write the path of cosmo claculator here
+BASE_PATH=`dirname $0`
+COSMO_CALC="${BASE_PATH}/cosmo_calc"
+if [ -z "${COSMO_CALC}" ] || [ ! -x ${COSMO_CALC} ] ; then
+ printf "ERROR: ${COSMO_CALC} neither executable nor specified\n"
+ exit ${ERR_CALC}
+fi
+## }}}
+
# default basedir relative to 'spc/profile'
DFT_BASEDIR="../.."
# default imgdir relative to 'basedir'
@@ -109,7 +115,7 @@ if [ `echo "${Z} < 0.3" | bc -l` -eq 1 ]; then
# exit ${ERR_Z}
fi
-KPC_PER_PIXEL=`cosmo_calc ${Z} | grep 'kpc/pixel' | awk '{ print $3 }'`
+KPC_PER_PIXEL=`${COSMO_CALC} ${Z} | grep 'kpc/pixel' | awk '{ print $3 }'`
RC_PIX=`echo "scale=2; 0.048 * ${R500} / ${KPC_PER_PIXEL}" | bc -l`
# test counts_in_0.048R500<500?
RC_REG="pie(${X},${Y},0,${RC_PIX},0,360)"
diff --git a/mass_profile/fit_nfwmass.sh b/mass_profile/fit_nfwmass.sh
index c6e8b8c..7cab66a 100755
--- a/mass_profile/fit_nfwmass.sh
+++ b/mass_profile/fit_nfwmass.sh
@@ -134,7 +134,7 @@ mv -fv ${T_dump} ${T_file_center}
mv -fv fit_result.qdp ${T_file_center}
# temp profile }}}
-$base_path/coolfunc_calc.sh ${T_file_center} $abund $nh $z $cfunc_file cfunc_bolo.dat
+$base_path/coolfunc_calc2.sh ${T_file_center} $abund $nh $z $cfunc_file cfunc_bolo.dat
cfunc_file_center="coolfunc_data_center.txt"
cp -f ${cfunc_file} ${cfunc_file_center}
mv -fv flux_cnt_ratio.txt flux_cnt_ratio_center.txt
@@ -213,7 +213,7 @@ for i in `seq 1 ${MC_TIMES}`; do
printf "## ${i} / ${MC_TIMES} ##\n"
printf "## `pwd -P` ##\n"
- ${base_path}/coolfunc_calc.sh ${T_file} ${abund} ${nh} ${z} ${cfunc_file}
+ ${base_path}/coolfunc_calc2.sh ${T_file} ${abund} ${nh} ${z} ${cfunc_file}
${base_path}/${SBP_PROG} ${TMP_SBP_CFG} 2> /dev/null
cat ${RES_SBPFIT}
$base_path/fit_nfw_mass mass_int.dat ${z} ${nfw_rmin_kpc} 2> /dev/null
diff --git a/mass_profile/fit_sbp.sh b/mass_profile/fit_sbp.sh
index 60c5fca..666be2f 100755
--- a/mass_profile/fit_sbp.sh
+++ b/mass_profile/fit_sbp.sh
@@ -42,7 +42,7 @@ fi
$base_path/fit_wang2012_model $t_data_file $t_param_file $cm_per_pixel 2> /dev/null
cp wang2012_dump.qdp $T_file
if [ ! -f ${cfunc_file} ]; then
- $base_path/coolfunc_calc.sh $T_file $abund $nh $z $cfunc_file
+ $base_path/coolfunc_calc2.sh $T_file $abund $nh $z $cfunc_file
fi
$base_path/$PROG $sbp_cfg
printf "## MODEL: ${MODEL}\n"