mirror of
https://asciireactor.com/otho/psdlag-agn.git
synced 2024-12-18 05:55:06 +00:00
211 lines
6.1 KiB
Raku
Executable File
211 lines
6.1 KiB
Raku
Executable File
#!/usr/bin/env perl
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use utf8;
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use Encode qw(encode decode);
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use feature 'say';
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use locale;
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use Switch;
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# This needs to be rewritten to plot the lightcurves instead
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# of the PSD and timelags.
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# Enables debug output.
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our $debug=0;
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our #verbose=0;
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# This section locate the output data of interest in a
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# psdlab output file.
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if (!${^UTF8LOCALE}) {
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say encode($charset,"You are not using UTF-8 encoding. :(");
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}
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my $charset=$ENV{LANG};
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our $outputfilename=decode($charset,$ARGV[0]);
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open $outputfile,'<',$outputfilename or die $!;
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my $star_linenum_1=0;
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my $star_linenum_2=0;
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my $star_bytenum_1=0;
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my $star_bytenum_2=0;
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my $linenum=0;
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while(<$outputfile>) {
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$linenum++;
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if ($_ =~ /^\*+$/) {
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$star_linenum_1=$star_linenum_2;
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$star_linenum_2 = $linenum;
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$star_bytenum_1=$star_bytenum_2;
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#$star_bytenum_2 = $outputfile.tell();
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$star_bytenum_2 = tell($outputfile);
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}
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}
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if ($debug) {
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say encode($charset,"Final set found between lines "),
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$star_linenum_1,
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" and ",
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$star_linenum_2;
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say encode($charset,"Final set found between bytes "),
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$star_bytenum_1,
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" and ",
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$star_bytenum_2;
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}
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seek($outputfile,$star_bytenum_1,0);
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<$outputfile>;
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$bin_bounds_line = <$outputfile>;
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#say $bin_bounds_line;
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$bin_bounds_line =~ s/^#\s*(.*)$/$1/;
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#$line =~ /
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@bin_bounds = split /\s/,$bin_bounds_line;
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if ($debug) {
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print encode($charset,"Found bin boundaries: ");
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foreach (@bin_bounds) {print encode($charset,"$_ ");}
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say encode($charset," ");
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}
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# These arrays store the various quantities of interest.
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@freq_coords_avg = [];
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@freq_coords_err = [];
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@power_curve_source_avg = [];
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@power_curve_source_err = [];
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@power_curve_reprocessed_avg = [];
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@power_curve_reprocessed_err = [];
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@cross_correlation_power_curve_avg = [];
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@cross_correlation_power_curve_err = [];
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@phase_difference_avg = [];
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@phase_difference_err = [];
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@time_lag_avg = [];
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@time_lag_err = [];
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# This captures the frequency bins.
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my $upper_bound = 0;
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my $lower_bound = 0;
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foreach (@bin_bounds) {
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$lower_bound = $upper_bound;
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$upper_bound = $_;
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if ($lower_bound == 0) {next}
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my $avg = ($upper_bound + $lower_bound)/2;
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my $err = ($upper_bound - $lower_bound)/2;
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#say ($avg,":",$err);
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push(@freq_coords_avg,$avg);
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push(@freq_coords_err,$err);
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}
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$numbins = scalar @freq_coords_avg;
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say encode($charset,"$numbins frequency boundaries captured.");
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# This section collects the various quantities. The mode counter
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# increments to designate the data being captured.
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my $mode=0;
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while (<$outputfile>) {
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next if $_ =~ /\*+/;
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switch ($mode) {
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case 0 {
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my $avg = my $err = $_;
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$avg =~ s/^([\-\+e0-9\.]+)+\s+[\-\+e0-9\.]+\s*$/$1/;
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$err =~ s/^[\-\+e0-9\.]+\s+([\-\+e0-9\.]+)\s*$/$1/;
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if ($debug) {
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say encode($charset,"");
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say encode($charset," New Bin");
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say encode($charset,"─────────────────────────────────────────────────");
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print encode($charset,"Driving light curve power from $_");
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say encode($charset,"Average: $avg, Err: $err");
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}
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push(@power_curve_source_avg,$avg);
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push(@power_curve_source_err,$err);
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$mode++;
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}
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case 1 {
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my $avg = my $err = $_;
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$avg =~ s/^([\-\+e0-9\.]+)+\s+[\-\+e0-9\.]+\s*$/$1/;
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$err =~ s/^[\-\+e0-9\.]+\s+([\-\+e0-9\.]+)\s*$/$1/;
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if ($debug) {
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print encode($charset,"Reprocessed light curve power from $_");
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say encode($charset,"Average: $avg, Err: $err");
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}
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push(@power_curve_reprocessed_avg,$avg);
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push(@power_curve_reprocessed_err,$err);
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$mode++;
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}
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case 2 {
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my $avg = my $err = $_;
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$avg =~ s/^([\-\+e0-9\.]+)+\s+[\-\+e0-9\.]+\s*$/$1/;
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$err =~ s/^[\-\+e0-9\.]+\s+([\-\+e0-9\.]+)\s*$/$1/;
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if ($debug) {
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print encode($charset,"Cross-Correlation from $_");
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say encode($charset,"Average: $avg, Err: $err");
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}
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push(@cross_correlation_power_curve_avg,$avg);
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push(@cross_correlation_power_curve_err,$err);
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$mode++;
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}
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case 3 {
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my $avg = my $err = $_;
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$avg =~ s/^([\-\+e0-9\.]+)\s+[\-\+e0-9\.]+\s*$/$1/;
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$err =~ s/^[\-\+e0-9\.]+\s+([\-\+e0-9\.]+)\s*$/$1/;
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if ($debug) {
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print encode($charset,"Phase different from $_");
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say encode($charset,"Average: $avg, Err: $err");
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}
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push(@phase_difference_avg,$avg);
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push(@phase_difference_err,$err);
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$mode = 0;
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}
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} # End switch
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}
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$numvals = scalar @power_curve_source_avg;
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say encode($charset,"Saved $numvals sets of quantities.");
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=pod
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Tried to set up the program to find the boundaries on its own.
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Should return to complete the program this way; just a syntax
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problem.
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#while (<$outputfile>) {say $_;}
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#while (<$outputfile> =~ /^[^#]+(.*)$/) {}
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#if (eof($outputfile)) {
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# say encode($charset,"Could not scrape values of energy bin boundaries.");
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# exit 9;
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#}
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=cut
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#$thing = <$outputfile>;
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#say encode($charset,"$thing");
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# switch ($val) {
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# case 1 { print encode($charset,"number 1" )}
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# case "a" { print encode($charset,"string a" )}
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# case [1..10,42] { print encode($charset,"number in list" )}
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# case (@array) { print encode($charset,"number in list" )}
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# case /\w+/ { print encode($charset,"pattern" )}
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# case qr/\w+/ { print encode($charset,"pattern" )}
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# case (%hash) { print encode($charset,"entry in hash" )}
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# case (\%hash) { print encode($charset,"entry in hash" )}
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# case (\&sub) { print encode($charset,"arg to subroutine" )}
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# else { print encode($charset,"previous case not true" )}
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# } |