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#!/bin/sh
#
export LC_COLLATE=C
###########################################################
## based on `ciao_update_xcentroid.sh' ##
## get `xcentroid' from region `sbprofile.reg' ##
## convert from physical coords to WCS corrds ##
## calculate offset with chandra pointing coords ##
## ##
## Weitian LI <liweitianux@gmail.com> ##
## 2014/06/25 ##
###########################################################
## about, used in `usage' {{{
VERSION="v1.0"
UPDATE="2014-06-25"
## about }}}
## error code {{{
ERR_USG=1
ERR_DIR=11
ERR_EVT=12
ERR_BKG=13
ERR_REG=14
ERR_INFO=15
ERR_ASOL=21
ERR_BPIX=22
ERR_PBK=23
ERR_MSK=24
ERR_BKGTY=31
ERR_SPEC=32
ERR_DET=41
ERR_ENG=42
ERR_CIAO=100
## error code }}}
## usage, help {{{
case "$1" in
-[hH]*|--[hH]*)
printf "usage:\n"
printf " `basename $0` evt=<evt_file> reg=<sbp_reg> basedir=<base_dir>\n"
printf "\nversion:\n"
printf "${VERSION}, ${UPDATE}\n"
exit ${ERR_USG}
;;
esac
## usage, help }}}
## default parameters {{{
# critical offset values (unit: dd:mm:ss)
OFF_CRIT_S="0:3:0" # 0deg 3min 0sec
OFF_CRIT_I="0:7:0" # 0deg 7min 0sec
# default `event file' which used to match `blanksky' files
#DFT_EVT="_NOT_EXIST_"
DFT_EVT="`ls evt2*_clean.fits 2> /dev/null`"
# default dir which contains `asols, asol.lis, ...' files
# DFT_BASEDIR="_NOT_EXIST_"
DFT_BASEDIR=".."
# default `radial region file' to extract surface brightness
#DFT_SBP_REG="_NOT_EXIST_"
DFT_SBP_REG="sbprofile.reg"
## howto find files in `basedir'
# default `asol.lis pattern'
DFT_ASOLIS_PAT="acis*asol?.lis"
## default parameters }}}
## 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
}
## unit/format conversion
ddmmss2deg() {
# convert 'dd:mm:ss' to 'deg'
echo "$1" | awk -F':' '
function abs(x) { return ((x<0.0)? (-x) : x) }
function sign(x) { return ((x<0.0)? (-1.0) : 1.0) }
{
value = abs($1) + ($2)/60.0 + ($3)/3600.0;
printf("%.8f", sign($1)*value);
}'
}
deg2ddmmss() {
# convert 'deg' to 'dd:mm:ss'
echo "$1" | awk '
function abs(x) { return ((x<0.0)? (-x) : x) }
{
deg = $1;
dd = int(deg);
mm = int(abs(deg-dd)*60.0);
ss = (abs(deg-dd)*60.0 - mm)*60.0;
printf("%d:%d:%.2f", dd, mm, ss);
}'
}
## functions }}}
## check CIAO init {{{
if [ -z "${ASCDS_INSTALL}" ]; then
printf "ERROR: CIAO NOT initialized\n"
exit ${ERR_CIAO}
fi
## XXX: heasoft's `pget' etc. tools conflict with some CIAO tools
printf "set \$PATH to avoid conflicts between HEAsoft and CIAO\n"
export PATH="${ASCDS_BIN}:${ASCDS_CONTRIB}:${PATH}"
## check CIAO }}}
## parameters {{{
# process cmdline args using `getopt_keyval'
getopt_keyval "$@"
# check given parameters
# check evt file
if [ -r "${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" | ${TOLOG}
# check given region file(s)
if [ -r "${reg}" ]; then
SBP_REG="${reg}"
elif [ -r "${DFT_SBP_REG}" ]; then
SBP_REG=${DFT_SBP_REG}
else
read -p "> surface brighness radial region file: " SBP_REG
if [ ! -r "${SBP_REG}" ]; then
printf "ERROR: cannot access given \`${SBP_REG}' region file\n"
exit ${ERR_REG}
fi
fi
printf "## use reg file(s): \`${SBP_REG}'\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}
## parameters }}}
## main process {{{
# asolis
ASOLIS=`( cd ${BASEDIR} && ls ${DFT_ASOLIS_PAT} 2> /dev/null )`
# get (x,y) from sbp region
printf "get (x,y) from ${SBP_REG}\n"
X=`grep -iE '(pie|annulus)' ${SBP_REG} | head -n 1 | awk -F',' '{ print $1 }' | tr -d 'a-zA-Z() '`
Y=`grep -iE '(pie|annulus)' ${SBP_REG} | head -n 1 | awk -F',' '{ print $2 }' | tr -d 'a-zA-Z() '`
# dmcoords to convert (x,y) to (ra,dec)
printf "\`dmcoords' to convert (x,y) to (ra,dec) ...\n"
punlearn dmcoords
dmcoords infile="${EVT}" asolfile="@${BASEDIR}/${ASOLIS}" option=sky celfmt=deg x=${X} y=${Y}
RA=`pget dmcoords ra`
DEC=`pget dmcoords dec`
# get observation pointing coordinates
punlearn dmkeypar
RA_PNT=`dmkeypar infile="${EVT}" keyword="RA_PNT" echo=yes`
DEC_PNT=`dmkeypar infile="${EVT}" keyword="DEC_PNT" echo=yes`
## determine ACIS type {{{
punlearn dmkeypar
DETNAM=`dmkeypar ${EVT} DETNAM echo=yes`
if echo ${DETNAM} | grep -q 'ACIS-0123'; then
#printf "## \`DETNAM' (${DETNAM}) has chips 0123\n"
#printf "## ACIS-I\n"
ACIS_TYPE="ACIS-I"
elif echo ${DETNAM} | grep -q 'ACIS-[0-6]*7'; then
#printf "## \`DETNAM' (${DETNAM}) has chip 7\n"
#printf "## ACIS-S\n"
ACIS_TYPE="ACIS-S"
else
printf "ERROR: unknown detector type: ${DETNAM}\n"
exit ${ERR_DET}
fi
## ACIS type }}}
# calculate offset
OFF_DEG=`echo "${RA} ${RA_PNT} ${DEC} ${DEC_PNT}" | awk '{ printf("%.8f", sqrt(($1-$2)^2 + ($3-$4)^2)) }'`
OFF_DDMMSS=`deg2ddmmss ${OFF_DEG}`
# compare offset with the given critical values
if [ "${ACIS_TYPE}" = "ACIS-S" ]; then
DEG_OFF_CRIT=`ddmmss2deg ${OFF_CRIT_S}`
else
DEG_OFF_CRIT=`ddmmss2deg ${OFF_CRIT_I}`
fi
if [ `echo "${OFF_DEG} > ${DEG_OFF_CRIT}" | bc -l` -eq 1 ]; then
LARGE_OFFSET="YES"
else
LARGE_OFFSET="NO"
fi
# output results
printf "###################################################\n"
printf "## Detector type: ${ACIS_TYPE}\n"
printf "## Critical offset values: (format: dd:mm:ss)\n"
printf "## OFF_CRIT_S: ${OFF_CRIT_S}\n"
printf "## OFF_CRIT_I: ${OFF_CRIT_I}\n"
printf "##\n"
printf "## Our Results:\n"
printf "## Chandra sky coordinates:\n"
printf "## (x,y): ($X,$Y)\n"
printf "## WCS coordinates in 'deg' unit:\n"
printf "## (ra,dec): (${RA},${DEC})\n"
printf "##\n"
printf "## Observation pointing coordinates:\n"
printf "## (ra,dec): (${RA_PNT},${DEC_PNT})\n"
printf "##\n"
printf "## Offset (format: dd:mm:ss):\n"
printf "## offset: ${OFF_DDMMSS}\n"
printf "## offset_deg: ${OFF_DEG}\n"
if [ "${LARGE_OFFSET}" = "YES" ]; then
printf "## *** WARNING: LARGE OFFSET ***\n"
fi
printf "###################################################\n"
## main }}}
exit 0
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