# Copyright (C) 1999-2018 # Smithsonian Astrophysical Observatory, Cambridge, MA, USA # For conditions of distribution and use, see copyright notice in "copyright" package provide DS9 1.0 proc CATCXC {varname} { upvar #0 $varname var global $varname global pcat global debug if {$debug(tcl,cat)} { puts stderr "CATCXC $varname" } CATCXCVOT $varname } proc CATCXCVOT {varname} { upvar #0 $varname var global $varname global debug if {$debug(tcl,cat)} { puts stderr "CATCXCVOT $varname" } set var(proc,parser) VOTParse # coord (degrees) switch $var(skyformat) { degrees { set xx $var(x) set yy $var(y) } sexagesimal { set xx [h2d [Sex2H $var(x)]] set yy [Sex2D $var(y)] } } # size (degrees) switch $var(rformat) { degrees { set rr $var(radius) } arcmin { set rr [expr $var(radius)/60.] } arcsec { set rr [expr $var(radius)/60./60.] } } # output if {$var(allcols)} { set type 3 } else { set type 2 } # query set var(query) [http::formatQuery RA $xx DEC $yy SR $rr VERB $type] set var(url) "http://cda.cfa.harvard.edu/cscvo/coneSearch" CATLoad $varname } proc CATCXCReader {t sock token} { upvar #0 $t T global $t set result 0 if { ![info exists ${t}(state)] } { set T(state) 0 } switch -- $T(state) { 0 { # init db fconfigure $sock -blocking 1 set T(Nrows) 0 set T(Ncols) 0 set T(Header) {} set T(HLines) 0 set T(state) 1 } 1 { # process header if {[gets $sock line] == -1} { set T(Nrows) 0 set T(Ncols) 0 set T(Header) {} set T(HLines) 0 set T(state) -1 return $result } set result [string length "$line"] incr ${t}(HLines) set n $T(HLines) set T(H_$n) $line if {[regexp -- {^ *(-)+ *(\t *(-)+ *)*} $line]} { # clean up header column name set hh $T(H_[expr $n-1]) regsub -all {\[} $hh {} hh regsub -all {\]} $hh {} hh set T(H_[expr $n-1]) $hh # cols set T(Header) [split $T(H_[expr $n-1]) "\t"] set T(Dashes) [split $T(H_$n) "\t"] set T(Ndshs) [llength $T(Dashes)] starbase_colmap $t set T(state) 2 # these are hard coded set T(Id) $T(Header) set T(DataType) {} set T(ArraySize) {} set T(Unit) {} set T(Ucd) {} # name lappend T(DataType) {char} lappend T(ArraySize) {*} lappend T(Unit) {} lappend T(Ucd) {} # ra lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {pos.eq.ra;meta.main} # dec lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {pos.eq.dec;meta.main} # err_ellipse_r0 lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # err_ellipse_r1 lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # err_ellipse_ang lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {} # conf_flag lappend T(DataType) {boolean} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # extent_flag lappend T(DataType) {boolean} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # sat_src_flag lappend T(DataType) {boolean} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # flux_aper90_b lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # flux_aper90_hilim_b lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # flux_aper90_lolim_b lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # significance lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # hard_hm lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # hard_ms lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # var_intra_index_b lappend T(DataType) {int} lappend T(ArraySize) {} lappend T(Unit) {} # var_inter_index_b lappend T(DataType) {int} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} if {[llength $T(Header)] > 17} { # obsid lappend T(DataType) {int} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # ra_aper lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {} # dec_aper lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {} # mjr_axis_aper lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # mnr_axis_aper lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {} lappend T(Ucd) {} # pos_angle_aper lappend T(DataType) {float} lappend T(ArraySize) {} lappend T(Unit) {deg} lappend T(Ucd) {} } } } 2 { # process table if {[gets $sock line] == -1} { set T(state) 0 } else { set result [string length "$line"] set line [string trim $line] if {$line != {}} { # ok, save it incr ${t}(Nrows) set r $T(Nrows) set NCols [starbase_ncols $t] set c 1 foreach val [split $line "\t"] { set T($r,$c) $val incr c } for {} {$c <= $NCols} {incr c} { set T($r,$c) {} } } } } } return $result } proc CATCXCAck {varname} { upvar #0 $varname var global $varname set msg {Acknowledgments for CXC Request for Acknowledgment of Use of the Chandra Source Catalog Users are kindly requested to acknowledge in the acknowledgment section of any resulting publications their use of the Chandra Source Catalog. This will help us greatly to keep track of catalog usage, information that is essential for providing full accountability of our work and services, as well as for planning future services. The following language is suggested: This research has made use of data obtained from the Chandra Source Catalog, provided by the Chandra X-ray Center (CXC) as part of the Chandra Data Archive. We would like to remind you that it is also very helpful for us if you could include Dataset Identifiers in the manuscript. The Dataset Identifier for the Chandra Source Catalog is: ADS/Sa.CXO#CSC } SimpleTextDialog ${varname}ack [msgcat::mc {Acknowledgment}] \ 80 10 insert top $msg }