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|
#!/bin/sh -
#
trap date INT
unalias -a
export GREP_OPTIONS=""
export LC_COLLATE=C
###########################################################
## extract background spectra from src and blanksky ##
## renormalization the blank spectrum ##
## ##
## Ref: Chandra spectrum analysis ##
## http://cxc.harvard.edu/ciao/threads/extended/ ##
## Ref: specextract ##
## http://cxc.harvard.edu/ciao/ahelp/specextract.html ##
## Ref: CIAO v4.4 region bugs ##
## http://cxc.harvard.edu/ciao/bugs/regions.html#bug-12187
## ##
## LIweitiaNux, July 24, 2012 ##
###########################################################
###########################################################
# ChangeLogs:
# v3, 2012/08/09
# fix `scientific notation' for `bc'
# change `spec group' method to `min 15'
# v4, 2012/08/13
# add `clobber=yes'
# improve error code
# improve cmdline arguements
# provide a flexible way to pass parameters
# (through cmdline which similar to CIAO,
# and default filename match patterns)
# add simple `logging' function
###########################################################
## about, used in `usage' {{{
VERSION="v4"
UPDATE="2012-08-14"
## about }}}
## usage, help {{{
case "$1" in
-[hH]*|--[hH]*)
printf "usage:\n"
printf " `basename $0` evt=<evt2_clean> reg=<reglist> blank=<blanksky_evt> basedir=<base_dir> nh=<nH> z=<redshift> [ grpcmd=<grppha_cmd> log=<log_file> ]\n"
printf "\nversion:\n"
printf "${VERSION}, ${UPDATE}\n"
exit ${ERR_USG}
;;
esac
## usage, help }}}
## default parameters {{{
# default `event file' which used to match `blanksky' files
#DFT_EVT="_NOT_EXIST_"
DFT_EVT="`ls evt2*_clean.fits`"
# default `blanksky file'
#DFT_BLANK="_NOT_EXIST_"
DFT_BLANK="`ls blanksky*.fits`"
# default dir which contains `asols, asol.lis, ...' files
#DFT_BASEDIR="_NOT_EXIST_"
DFT_BASEDIR=".."
# default `group command' for `grppha'
#DFT_GRP_CMD="group 1 128 2 129 256 4 257 512 8 513 1024 16"
DFT_GRP_CMD="group min 20"
# default `log file'
DFT_LOGFILE="bkg_spectra_`date '+%Y%m%d'`.log"
## howto find files in `basedir'
# default `asol.lis pattern'
DFT_ASOLIS_PAT="acis*asol?.lis"
# default `bad pixel filename pattern'
DFT_BPIX_PAT="acis*repro*bpix?.fits"
# default `pbk file pattern'
DFT_PBK_PAT="acis*pbk?.fits"
# default `msk file pattern'
DFT_MSK_PAT="acis*msk?.fits"
## default parameters }}}
## error code {{{
ERR_USG=1
ERR_DIR=11
ERR_EVT=12
ERR_BKG=13
ERR_REG=14
ERR_ASOL=21
ERR_BPIX=22
ERR_PBK=23
ERR_MSK=24
ERR_BKGTY=31
ERR_SPEC=32
## error code }}}
## functions {{{
# process commandline arguments
# cmdline arg format: `KEY=VALUE'
getopt_keyval() {
until [ -z "$1" ]
do
key=${1%%=*} # extract key
val=${1#*=} # extract value
keyval="${key}=\"${val}\""
echo "## getopt: eval '${keyval}'"
eval ${keyval}
shift # shift, process next one
done
}
## background renormalization (BACKSCAL) {{{
# renorm background according to particle background
# energy range: 9.5-12.0 keV (channel: 651-822)
CH_LOW=651
CH_HI=822
pb_flux() {
punlearn dmstat
COUNTS=`dmstat "$1[channel=${CH_LOW}:${CH_HI}][cols COUNTS]" | grep -i 'sum:' | awk '{ print $2 }'`
punlearn dmkeypar
EXPTIME=`dmkeypar $1 EXPOSURE echo=yes`
BACK=`dmkeypar $1 BACKSCAL echo=yes`
# fix `scientific notation' bug for `bc'
EXPTIME_B=`echo ${EXPTIME} | sed 's/[eE]/\*10\^/' | sed 's/+//'`
BACK_B=`echo "( ${BACK} )" | sed 's/[eE]/\*10\^/' | sed 's/+//'`
PB_FLUX=`echo "scale = 16; ${COUNTS} / ${EXPTIME_B} / ${BACK_B}" | bc -l`
echo ${PB_FLUX}
}
bkg_renorm() {
# $1: src spectrum, $2: back spectrum
PBFLUX_SRC=`pb_flux $1`
PBFLUX_BKG=`pb_flux $2`
BACK_OLD=`dmkeypar $2 BACKSCAL echo=yes`
BACK_OLD_B=`echo "( ${BACK_OLD} )" | sed 's/[eE]/\*10\^/' | sed 's/+//'`
BACK_NEW=`echo "scale = 16; ${BACK_OLD_B} * ${PBFLUX_BKG} / ${PBFLUX_SRC}" | bc -l`
printf "\`$2': BACKSCAL:\n"
printf " ${BACK_OLD} --> ${BACK_NEW}\n"
punlearn dmhedit
dmhedit infile=$2 filelist=none operation=add \
key=BACKSCAL value=${BACK_NEW} comment="old value: ${BACK_OLD}"
}
## bkg renorm }}}
## functions end }}}
## parameters {{{
# process cmdline args using `getopt_keyval'
getopt_keyval "$@"
## check log parameters {{{
if [ ! -z "${log}" ]; then
LOGFILE="${log}"
else
LOGFILE=${DFT_LOGFILE}
fi
printf "## use logfile: \`${LOGFILE}'\n"
[ -e "${LOGFILE}" ] && mv -fv ${LOGFILE} ${LOGFILE}_bak
TOLOG="tee -a ${LOGFILE}"
echo "process script: `basename $0`" >> ${LOGFILE}
echo "process date: `date`" >> ${LOGFILE}
## log }}}
# check given parameters
# check evt file
if [ -r "${evt}" ]; then
EVT=${evt}
elif [ -r "${DFT_EVT}" ]; then
EVT=${DFT_EVT}
else
read -p "clean evt2 file: " EVT
if [ ! -r "${EVT}" ]; then
printf "ERROR: cannot access given \`${EVT}' evt file\n"
exit ${ERR_EVT}
fi
fi
printf "## use evt file: \`${EVT}'\n" | ${TOLOG}
# check given region file(s)
if [ -z "${reg}" ]; then
read -p "> selected local bkg region file: " REGLIST
else
REGLIST="${reg}"
fi
REGLIST=`echo ${REGLIST} | tr ',' ' '` # use *space* to separate
printf "## use reg file(s): \`${REGLIST}'\n" | ${TOLOG}
# check given blanksky
if [ -r "${blank}" ]; then
BLANK=${blank}
elif [ -r "${DFT_BLANK}" ]; then
BLANK=${DFT_BLANK}
else
read -p "> matched blanksky evtfile: " BLANK
if [ ! -r "${BLANK}" ]; then
printf "ERROR: cannot acces given \`${BLANK}' blanksky file\n"
exit ${ERR_BKG}
fi
fi
# check given nH
if [ -z "${nh}" ]; then
read -p "> value of nH: " N_H
else
N_H=${nh}
fi
printf "## use nH: ${N_H}\n" | ${TOLOG}
# check given redshift
if [ -z "${z}" ]; then
read -p "> value of redshift: " REDSHIFT
else
REDSHIFT=${z}
fi
printf "## use redshift: ${REDSHIFT}\n" | ${TOLOG}
# check given dir
if [ -d "${basedir}" ]; then
BASEDIR=${basedir}
elif [ -d "${DFT_BASEDIR}" ]; then
BASEDIR=${DFT_BASEDIR}
else
read -p "> basedir (contains asol files): " BASEDIR
if [ ! -d "${BASEDIR}" ]; then
printf "ERROR: given \`${BASEDIR}' NOT a directory\n"
exit ${ERR_DIR}
fi
fi
# remove the trailing '/'
BASEDIR=`echo ${BASEDIR} | sed 's/\/*$//'`
printf "## use basedir: \`${BASEDIR}'\n" | ${TOLOG}
# check given `grpcmd'
if [ ! -z "${grpcmd}" ]; then
GRP_CMD="${grpcmd}"
else
GRP_CMD="${DFT_GRP_CMD}"
fi
printf "## use grppha cmd: \`${GRP_CMD}'\n" | ${TOLOG}
## parameters }}}
## check needed files {{{
# check reg file(s)
printf "check accessibility of reg file(s) ...\n"
for reg_f in ${REGLIST}; do
if [ ! -r "${reg_f}" ]; then
printf "ERROR: file \`${reg_f}' NOT accessiable\n"
exit ${ERR_REG}
fi
done
# check the validity of *pie* regions
printf "check pie reg validity ...\n"
INVALID=`cat ${REGLIST} | grep -i 'pie' | awk -F, '{ print $6 }' | tr -d ')' | awk '$1 > 360'`
if [ "x${INVALID}" != "x" ]; then
printf "WARNING: some pie region's END_ANGLE > 360\n" | ${TOLOG}
printf " CIAO v4.4 tools may run into trouble\n"
fi
# check files in `basedir'
printf "check needed files in basedir \`${BASEDIR}' ...\n"
# check asolis files
ASOLIS=`ls -1 ${BASEDIR}/${DFT_ASOLIS_PAT} | head -n 1`
if [ -z "${ASOLIS}" ]; then
printf "ERROR: cannot find \"${DFT_ASOLIS_PAT}\" in dir \`${BASEDIR}'\n"
exit ${ERR_ASOL}
fi
printf "## use asolis: \`${ASOLIS}'\n" | ${TOLOG}
# check badpixel file
BPIX=`ls -1 ${BASEDIR}/${DFT_BPIX_PAT} | head -n 1`
if [ -z "${BPIX}" ]; then
printf "ERROR: cannot find \"${DFT_BPIX_PAT}\" in dir \`${BASEDIR}'\n"
exit ${ERR_BPIX}
fi
printf "## use badpixel: \`${BPIX}'\n" | ${TOLOG}
# check pbk file
PBK=`ls -1 ${BASEDIR}/${DFT_PBK_PAT} | head -n 1`
if [ -z "${PBK}" ]; then
printf "ERROR: cannot find \"${DFT_PBK_PAT}\" in dir \`${BASEDIR}'\n"
exit ${ERR_PBK}
fi
printf "## use pbk: \`${PBK}'\n" | ${TOLOG}
# check msk file
MSK=`ls -1 ${BASEDIR}/${DFT_MSK_PAT} | head -n 1`
if [ -z "${MSK}" ]; then
printf "ERROR: cannot find \"${DFT_MSK_PAT}\" in dir \`${BASEDIR}'\n"
exit ${ERR_MSK}
fi
printf "## use msk: \`${MSK}'\n" | ${TOLOG}
## check files }}}
## main part {{{
## use 'for' loop to process every region file
for reg_i in ${REGLIST}; do
printf "\n==============================\n"
printf "PROCESS REGION fle \`${reg_i}' ...\n"
REG_TMP="_tmp.reg"
[ -f "${REG_TMP}" ] && rm -fv ${REG_TMP} # remove tmp files
cp -fv ${reg_i} ${REG_TMP}
# check the validity of *pie* regions {{{
INVALID=`grep -i 'pie' ${REG_TMP} | awk -F, '{ print $6 }' | tr -d ')' | awk '$1 > 360'`
if [ "x${INVALID}" != "x" ]; then
printf "WARNING: fix for *pie* region in file \`${reg_i}'\n"
cat ${REG_TMP}
A_OLD=`echo ${INVALID} | sed 's/\./\\\./'`
A_NEW=`echo ${INVALID}-360 | bc -l | sed 's/\./\\\./'`
sed -i'' "s/${A_OLD}\ *)/${A_NEW})/" ${REG_TMP}
printf " --> "
cat ${REG_TMP}
fi
## check pie region }}}
LBKG_PI="${reg_i%.reg}.pi"
## use `specextract' to extract local bkg spectrum {{{
# NOTE: set `binarfwmap=2' to save the time for generating `ARF'
# I have tested that this bin factor has little impact on the results.
# NO background response files
# NO background spectrum (generate by self)
# NO spectrum grouping (group by self using `grppha')
printf "use \`specextract' to generate spectra and response ...\n"
punlearn specextract
specextract infile="${EVT}[sky=region(${REG_TMP})]" \
outroot=${LBKG_PI%.pi} bkgfile="" asp="@${ASOLIS}" \
pbkfile="${PBK}" mskfile="${MSK}" badpixfile="${BPIX}" \
weight=yes correct=no bkgresp=no \
energy="0.3:11.0:0.01" channel="1:1024:1" \
combine=no binarfwmap=2 \
grouptype=NONE binspec=NONE \
verbose=2 clobber=yes
# `specextract' }}}
## generate the blanksky bkg spectrum {{{
printf "generate the blanksky bkg spectrum ...\n"
BBKG_PI="blanksky_${LBKG_PI}"
punlearn dmextract
dmextract infile="${BLANK}[sky=region(${REG_TMP})][bin pi]" \
outfile=${BBKG_PI} wmap="[bin det=8]" clobber=yes
## blanksky bkg spectrum }}}
## bkg renormalization {{{
printf "Renormalize background ...\n"
bkg_renorm ${LBKG_PI} ${BBKG_PI}
## bkg renorm }}}
## group spectrum {{{
printf "group spectrum using \`grppha'\n"
LBKG_GRP_PI="${LBKG_PI%.pi}_grp.pi"
grppha infile="${LBKG_PI}" outfile="${LBKG_GRP_PI}" \
comm="${GRP_CMD} & exit" clobber=yes > /dev/null
## group spectra }}}
## generate a script for XSPEC {{{
XSPEC_XCM="xspec_${LBKG_PI%.pi}_model.xcm"
if [ -e ${XSPEC_XCM} ]; then
mv -fv ${XSPEC_XCM} ${XSPEC_XCM}_bak
fi
cat >> ${XSPEC_XCM} << _EOF_
## xspec script
## analysis chandra acis background components
## xspec model: apec+apec+wabs*(pow+apec)
##
## generated by script \``basename $0`'
## `date`
## NOTES: needs XSPEC v12.x
# settings
statistic chi
#weight churazov
abund grsa
query yes
# data
data ${LBKG_GRP_PI}
response ${LBKG_PI%.pi}.wrmf
arf ${LBKG_PI%.pi}.warf
backgrnd ${BBKG_PI}
# fitting range
ignore bad
ignore 0.0-0.4,8.0-**
# plot related
setplot energy
method leven 10 0.01
xsect bcmc
cosmo 70 0 0.73
xset delta 0.01
systematic 0
# model
model apec + apec + wabs(powerlaw + apec)
0.08 -0.01 0.008 0.008 64 64
1 -0.001 0 0 5 5
0 -0.01 -0.999 -0.999 10 10
0.0 0.01 -1 0 0 1
0.2 -0.01 0.008 0.008 64 64
1 -0.001 0 0 5 5
0 -0.01 -0.999 -0.999 10 10
0.0 0.01 -1 0 0 1
${N_H} -0.001 0 0 100000 1e+06
1.4 -0.01 -3 -2 9 10
0.0 0.01 -1 0 0 1
1.0 0.01 0.008 0.008 64 64
0.4 0.001 0 0 5 5
${REDSHIFT} -0.01 -0.999 -0.999 10 10
0.0 0.01 0 0 1e+24 1e+24
freeze 1 2 3
freeze 5 6 7
freeze 9 10 14
thaw 12 13
_EOF_
## XSPEC script }}}
done # end 'for', `specextract'
## main part }}}
# clean
printf "clean ...\n"
rm -f ${REG_TMP}
printf "DONE\n"
###########################################################
# vim: set ts=8 sw=4 tw=0 fenc=utf-8 ft=sh: #
|
