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#####################################################################
## XSPEC Tcl script
##
## Task:
## To generate `Temperature profile'
## and `cooling function data file'
## according to `deprojection spectra analysis' results
##
## Requirements:
## deprojection spectra analysis,
## spectra loaded *in order* (in order to correctly calc *radius*)
## use XSPEC model `projct*wabs*apec' (AS IT IS)
## because this script cannot handle other *parameter numbers*
##
## NOTES:
## *solar abundance std* assumed to be `GRSA' (1998)
## if error < 0.01, then assume error = 0.01
## if fabs(error) < 1e-7, then set error as `NULL' in output
## (this may be caused by frozen or tied params)
##
## Output:
## tcl_xspec_saveall.xcm (save all for the current state)
## tcl_fitted_params.log (log the fitted parameters)
## tcl_temp_profile.qdp (temp profile QDP file for graphing)
## tcl_temp_profile.txt (temp profile data file for later fit)
## tcl_coolfunc_dat.txt (coolfunc data file for later fit)
##
## LIweitiaNux <liweitianux@gmail.com>
## August 12, 2012
##
## v1.1, 2012/08/12
## improve description
## modify error treatment
## v2.0, 2012/08/14, LIweitiaNux
## add `output a QDP file for temperature profile'
## cancel `calc errors of abundance'
## improve error treatment (add warning)
#####################################################################
## about {{{
set NAME "xspec_coolfunc_v2.tcl"
set VERSION "v2, 2012-08-14"
## about }}}
## ask `normalization' used to calculate cooling function
puts -nonewline "LY> Input the NORMALIZATION used to calc cooling function: "
set norm [ gets stdin ]
## basic variables {{{
## record process date
set DATE [ exec date ]
set ERR_FLAG "FALSE"
## basic vars }}}
## xspec settings {{{
# solar abundance std
# use `grsa' (1998)
set abund_std "grsa"
# Return TCL results for XSPEC commands.
set xs_return_result 1
# Keep going until fit converges.
query yes
## xspec settings }}}
## xspec, save current results {{{
set fn_save "tcl_xspec_saveall.xcm"
if {[ file exists $fn_save ]} {
exec mv -fv $fn_save ${fn_save}_bak
}
save all $fn_save
## xspec save all }}}
## xspec log, log current fitted params {{{
set fn_log "tcl_fitted_params.log"
if {[ file exists $fn_log ]} {
exec mv -fv $fn_log ${fn_log}_bak
}
log $fn_log
show param
log none
## xspec log }}}
## set output file {{{
set tpro_qdp_fn "tcl_temp_profile.qdp"
set tpro_fn "tcl_temp_profile.txt"
set cool_fn "tcl_coolfunc_dat.txt"
# tmp file used to calc `cooling function'
set tmpxspec_fn "_tcl_xspec_tmp.xcm"
set tmpres_fn "_tcl_coolres_tmp.txt"
# check file status
if {[ file exists $tpro_qdp_fn ]} {
exec mv -fv $tpro_qdp_fn ${tpro_qdp_fn}_bak
}
if {[ file exists $tpro_fn ]} {
exec mv -fv $tpro_fn ${tpro_fn}_bak
}
if {[ file exists $cool_fn ]} {
exec mv -fv $cool_fn ${cool_fn}_bak
}
set tpro_qdp_fd [ open $tpro_qdp_fn w ]
set tpro_fd [ open $tpro_fn w ]
set cool_fd [ open $cool_fn w ]
## output files }}}
## datasets, number of data group
tclout datasets
set datasets $xspec_tclout
## get `nH' and `redshift' at first
tclout param 4
scan $xspec_tclout "%f" nh
tclout param 7
scan $xspec_tclout "%f" redshift
## QDP file header {{{
puts $tpro_qdp_fd "! generated by: ${NAME}"
puts $tpro_qdp_fd "! created date: ${DATE}"
puts $tpro_qdp_fd "SKIP SINGLE"
puts $tpro_qdp_fd "READ SERR 1 2"
puts $tpro_qdp_fd ""
puts $tpro_qdp_fd "LABEL T Temperature Profile"
puts $tpro_qdp_fd "LABEL F temperature error at 68% confidence level"
puts $tpro_qdp_fd "LABEL X Radius (pixel)"
puts $tpro_qdp_fd "LABEL Y Temperature (keV)"
puts $tpro_qdp_fd ""
puts $tpro_qdp_fd "! radius(pixel) radius_err temperature(keV) temp_err(60%)"
## QDP }}}
## output temperature profile and abundance
for {set i 1} {$i <= ${datasets}} {incr i} {
# get the MID-radius of current spectra
tclout xflt $i
scan $xspec_tclout "%f %f" holder r_out
if {$i == 1} {
# the innermost region
set r_in 0.0
} else {
set j [ expr {$i - 1} ]
tclout xflt $j
scan $xspec_tclout "%f %f" holder r_in
}
set r [ expr {($r_in + $r_out) / 2.0} ]
set r_err [ expr {($r_out - $r_in) / 2.0} ]
puts "radius: $r, radius_err: $r_err ($r_in, $r_out)"
# output values: temperature and abundance
# determine the param number of temperature and abundance
# temperature
set temp_pn [ expr {8 * $i - 3} ]
tclout param $temp_pn
scan $xspec_tclout "%f" temp_val
error 1.0 $temp_pn
tclout error $temp_pn
scan $xspec_tclout "%f %f" temp_val_l temp_val_u
set temp_err [ expr {($temp_val_u - $temp_val_l) / 2.0} ]
# error treatment
if {abs($temp_err) < 1.0e-7} {
puts "*** WARNING: WRONG error values"
set temp_err "NULL"
set ERR_FLAG "TRUE"
} elseif {$temp_err < 0.01} {
set temp_err 0.01
}
puts "temperature (p${temp_pn}): $temp_val, $temp_err"
# abundance
set abund_pn [ expr {8 * $i - 2} ]
tclout param $abund_pn
scan $xspec_tclout "%f" abund_val
#error 1.0 $abund_pn
#tclout error $abund_pn
#scan $xspec_tclout "%f %f" abund_val_l abund_val_u
#set abund_err [ expr {($abund_val_u - $abund_val_l) / 2.0} ]
#if {abs($abund_err) < 1.0e-7} {
# puts "*** WARNING: WRONG error values"
# set abund_err "NULL"
# set ERR_FLAG "TRUE"
#} elseif {$abund_err < 0.01} {
# set abund_err 0.01
#}
#puts "abundance (p${abund_pn}): $abund_val $abund_err"
# output `temp_profile' related results
puts $tpro_qdp_fd "$r $r_err $temp_val $temp_err"
puts $tpro_fd "$r $r_err $temp_val $temp_err"
## generate a xspec script to calc cooling function {{{
# remove previous files
if {[ file exists $tmpxspec_fn ]} {
exec rm -fv $tmpxspec_fn
}
if {[ file exists $tmpres_fn ]} {
exec rm -fv $tmpres_fn
}
# open script file
set tmpxspec_fd [ open $tmpxspec_fn w ]
puts $tmpxspec_fd "set tmpres_fn \"$tmpres_fn\""
puts $tmpxspec_fd "set tmpres_fd \[ open \$tmpres_fn w \]"
puts $tmpxspec_fd "query yes"
puts $tmpxspec_fd "statistic chi"
puts $tmpxspec_fd "method leven 10 0.01"
puts $tmpxspec_fd "abund ${abund_std}"
puts $tmpxspec_fd "xsect bcmc"
puts $tmpxspec_fd "cosmo 70 0 0.73"
puts $tmpxspec_fd "xset delta 0.01"
puts $tmpxspec_fd "systematic 0"
puts $tmpxspec_fd "dummyrsp 0.3 11.0 1024"
puts $tmpxspec_fd "model wabs*apec & ${nh} & ${temp_val} & ${abund_val} & ${redshift} & $norm & /*"
puts $tmpxspec_fd "flux 0.7 7.0"
puts $tmpxspec_fd "tclout flux 1"
puts $tmpxspec_fd "scan \$xspec_tclout \"%f %f %f %f\" holder holder holder res_flux"
puts $tmpxspec_fd "puts \$res_flux"
puts $tmpxspec_fd "puts \$tmpres_fd \$res_flux"
puts $tmpxspec_fd "close \$tmpres_fd"
puts $tmpxspec_fd "tclexit"
close $tmpxspec_fd
## xspec script }}}
## calc cooling function and output results {{{
# exec XSPEC to calculate
exec xspec - $tmpxspec_fn
# read results from files
set tmpres_fd [ open $tmpres_fn r ]
set tmpline [ gets $tmpres_fd ]
scan $tmpline "%f" coolf_val
puts "cooling function: $coolf_val"
close $tmpres_fd
puts $cool_fd "$r $coolf_val"
## cooling function }}}
}
## remove tmp files
if {[ file exists $tmpres_fn ]} {
exec rm -fv $tmpres_fn
}
## close file
close $tpro_qdp_fd
close $tpro_fd
close $cool_fd
## check `ERR_FLAG', print WARNING
if {[ string equal $ERR_FLAG "TRUE" ]} {
puts "*** WARNING: there are WRONG error values"
}
# EOF
# vim: set ts=8 sw=4 tw=0 fenc= ft=tcl: #
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