]> dxcluster.net Git - spider.git/commitdiff
new RBN weighted QRG scoring system.
authorDirk Koopman <djk@tobit.co.uk>
Thu, 13 Aug 2020 16:52:09 +0000 (17:52 +0100)
committerDirk Koopman <djk@tobit.co.uk>
Thu, 13 Aug 2020 16:52:09 +0000 (17:52 +0100)
Changes
perl/DXCron.pm
perl/DXJSON.pm
perl/DXProtout.pm
perl/RBN.pm

diff --git a/Changes b/Changes
index 250699ebe6997664491efd94208c111d3e41b0fd..64efdc0007213128ec3b37d784b06a977a171804 100644 (file)
--- a/Changes
+++ b/Changes
@@ -1,3 +1,10 @@
+13Aug20=======================================================================
+1. Improve the (displayed) RBN frequency weighting the skimmers' frequencies
+   w.r.t majority view on each spot. Any skimmer that disagrees with a 
+   gets docked a 'point' from their 'good' score (if any) and have a 'point'
+   added to their 'bad' score. This score is then taked into account during
+   the 'choosing the real frequency' process. If a skimmer agrees with the
+   majority the process is reversed. To see this in action: set/deb rbnskim
 06Aug20=======================================================================
 1, Add CTY-3013 Prefixes
 2. Make RBN more efficient. Start the process of skimmer node performance 
index c31e46f51d9a4ea47fdc4c885e03ead835ce4d47..2ab02967f8d6dcdf5741af56f3d8525f1bfa1f4a 100644 (file)
@@ -329,7 +329,7 @@ sub run_cmd
        my @in = $main::me->run_cmd($line);
        dbg("DXCron::run_cmd: $line") if isdbg('cron');
        for (@in) {
-               s/\s*$//og;
+               s/\s*$//;
                dbg("DXCron::cmd out: $_") if isdbg('cron');
        }
 }
index 1a26f1aa4f3a694a9781aa1ea902dc4afea7edc3..1091f2f10a07180f75fcff05ed906ff02cb93c4e 100644 (file)
@@ -11,6 +11,7 @@ use warnings;
 
 use JSON;
 use Data::Structure::Util qw(unbless);
+use Scalar::Util qw(blessed);
 use DXDebug;
 use DXUtil;
 
@@ -25,14 +26,13 @@ sub encode
 {
        my $json = shift;
        my $ref = shift;
-       my $name = ref $ref;
-       
-       unbless($ref) if $name && $name ne 'HASH';
+       my $name = blessed $ref;
+       unbless($ref) if $name;
        my $s;
        
        eval {$s = $json->SUPER::encode($ref) };
        if ($s && !$@) {
-               bless $ref, $name if $name && $name ne 'HASH';
+               bless $ref, $name if $name;
                return $s;
        }
        else {
index 2e9724e9ed78c4c6da3b95e85673f7eea183f309..7629ca1676c4ae09b62c5c109640b6ded392fe84 100644 (file)
@@ -474,7 +474,7 @@ sub pc93
        my $origin = shift;                     # this will be present on proxying from PC10
 
        $line = unpad($line);
-       $line =~ s/\^/\\5E/g;           # remove any ^ characters
+       $line =~ s/\^/~/g;              # remove any ^ characters
        my $s = "PC93^$main::mycall^" . gen_pc9x_t() . "^$to^$from^$via^$line";
        $s .= "^$origin" if $origin;
        $s .= "^H99^";
index 15b4aa479fc86b1dd2702233dda887f0d380e243..8c591a7aed4042c2823730c2c4de488a398ce28e 100644 (file)
@@ -18,7 +18,7 @@ use DXUtil;
 use DXLog;
 use DXUser;
 use DXChannel;
-use Math::Round qw(nearest);
+use Math::Round qw(nearest nearest_floor);
 use Date::Parse;
 use Time::HiRes qw(gettimeofday);
 use Spot;
@@ -58,6 +58,14 @@ use constant {
                          CData => 2,
                         };
 
+use constant {
+                         DScore => 0,
+                         DGood => 1,
+                         DBad => 2,
+                         DLastin => 3,
+                         DEviants => 4,
+                        };
+
 
 our $DATA_VERSION = 1;
 
@@ -91,6 +99,7 @@ our $minqual = 2;                             # the minimum quality we will accept for output
 
 my $json;
 my $noinrush = 0;                              # override the inrushpreventor if set
+our $maxdeviants = 10;                 # the number of deviant QRGs to record for skimmer records
 
 sub init
 {
@@ -294,36 +303,32 @@ sub normal
                # process to just the standard "message passing" which has been shown to be able to sustain over 5000 
                # per second (limited by the test program's output and network speed, rather than DXSpider's handling).
 
-               my $nearest = 1;
                my $search = 5;
-               my $mult = 10;
-               my $tqrg = $qrg * $mult; 
-               my $nqrg = nearest($nearest, $tqrg);  # normalised to nearest Khz
-#              my $nqrg = nearest_even($qrg);  # normalised to nearest Khz
+               my $nqrg = nearest(1, $qrg * 10);  # normalised to nearest Khz
                my $sp = "$call|$nqrg";           # hopefully the skimmers will be calibrated at least this well!
 
                # find it?
                my $cand = $spots->{$sp};
                unless ($cand) {
                        my ($i, $new);
-                       for ($i = $tqrg; !$cand && $i <= $tqrg+$search; $i += 1) {
+                       for ($i = $nqrg; !$cand && $i <= $nqrg+$search; $i += 1) {
                                $new = "$call|$i";
                                $cand = $spots->{$new}, last if exists $spots->{$new};
                        }
                        if ($cand) {
-                               my $diff = $i - $tqrg;
+                               my $diff = $i - $nqrg;
                                dbg(qq{RBN: QRG Diff using $new (+$diff) for $sp for qrg $qrg}) if (isdbg('rbnqrg') || isdbg('rbn'));
                                $sp = $new;
                        }
                }
                unless ($cand) {
                        my ($i, $new);
-                       for ($i = $tqrg; !$cand && $i >= $tqrg-$search; $i -= 1) {
+                       for ($i = $nqrg; !$cand && $i >= $nqrg-$search; $i -= 1) {
                                $new = "$call|$i";
                                $cand = $spots->{$new}, last if exists $spots->{$new};
                        }
                        if ($cand) {
-                               my $diff = $tqrg - $i;
+                               my $diff = $nqrg - $i;
                                dbg(qq{RBN: QRG Diff using $new (-$diff) for $sp for qrg $qrg}) if (isdbg('rbnqrg') || isdbg('rbn'));
                                $sp = $new;
                        }
@@ -457,7 +462,7 @@ sub dx_spot
        foreach my $r (@$cand) {
                # $r = [$origin, $qrg, $call, $mode, $s, $t, $utz, $respot, $qra];
                # Spot::prepare($qrg, $call, $utz, $comment, $origin);
-               next unless ref $r;
+               next unless $r && ref $r;
 
                $qra = $r->[RQra] if !$qra && $r->[RQra] && is_qra($r->[RQra]);
 
@@ -546,19 +551,51 @@ sub process
                        if ($now >= $cand->[CTime] + $dwelltime ) {
                                # we have a candidate, create qualitee value(s);
                                unless (@$cand > CData) {
-                                       dbg "RBN: QUEUE key '$sp' MISSING RECORDS, IGNORED" . dd($cand) if isdbg 'rbn';
+                                       dbg "RBN: QUEUE key '$sp' MISSING RECORDS, IGNORED" . dd($cand) if isdbg 'rbnqueue';
                                        next;
                                }
                                dbg "RBN: QUEUE PROCESSING key: '$sp' $now >= $cand->[CTime]" if isdbg 'rbnqueue'; 
                                my $quality = @$cand - CData;
+                               my $spotters = $quality;
+
+                               # dump it and remove it from the queue if it is of unadequate quality
+                               if ($quality < $minqual) {
+                                       if (isdbg('rbnskim')) {
+                                               my $r = $cand->[CData];
+                                               if ($r) {
+                                                       my $s = "RBN: SPOT IGNORED(Q:$quality < Q:$minqual) key: '$sp' = $r->[RCall] on $r->[RQrg] by $r->[ROrigin] \@ $r->[RTime] route: $dxchan->{call}";
+                                                       dbg($s);
+                                               }
+                                       }
+                                       delete $spots->{$sp}; # don't remember it either - this means that a spot HAS to come in with sufficient spotters to be processed.
+                                       delete $dxchan->{queue}->{$sp};
+                                       next;
+                               }
+
                                $quality = 9 if $quality > 9;
                                $cand->[CQual] = $quality if $quality > $cand->[CQual];
 
                                my $r;
                                my %qrg;
+                               my $skimmer;
+                               my $sk;
+                               my $band;
+                               my %seen;
                                foreach $r (@$cand) {
                                        next unless ref $r;
-                                       ++$qrg{$r->[RQrg]};
+                                       if (exists $seen{$r->[ROrigin]}) {
+                                               undef $r;
+                                               next;
+                                       }
+                                       $seen{$r->[ROrigin]} = 1;
+                                       $band ||= int $r->[RQrg] / 1000;
+                                       $sk = "SKIM|$r->[ROrigin]|$band";
+                                       $skimmer = $spots->{$sk};
+                                       unless ($skimmer) {
+                                               $skimmer = $spots->{$sk} = [0+0, 0+0, 0+0, $now, []]; # this stupid incantation is to make sure than there are no JSON nulls!
+                                               dbg("RBN:SKIM new slot $sk " . $json->encode($skimmer)) if isdbg('rbnskim');
+                                       }
+                                       $qrg{$r->[RQrg]} += ($skimmer->[DScore] || 1);
                                }
                                # determine the most likely qrg and then set it
                                my @deviant;
@@ -566,43 +603,70 @@ sub process
                                my $mv = 0;
                                my $qrg;
                                while (my ($k, $votes) = each %qrg) {
-                                       $qrg = $k, $mv = $votes if $votes > $mv;
+                                       $qrg = $k, $mv = $votes if $votes >= $mv;
                                        ++$c;
                                }
                                # spit out the deviants
-                               if ($c > 1) {
-                                       foreach $r (@$cand) {
-                                               next unless ref $r;
-                                               my $diff = nearest(.1, $qrg - $r->[RQrg]);
-                                               push @deviant, sprintf("$r->[ROrigin]:%+.1f", $diff) if $diff != 0;
-                                               $r->[RSpotData]->[SQrg] = $qrg; # set all the QRGs to the agreed value
+                               foreach $r (@$cand) {
+                                       next unless $r && ref $r;
+                                       my $diff = $c > 1 ? nearest(.1, $r->[RQrg] - $qrg) : 0;
+                                       $sk = "SKIM|$r->[ROrigin]|$band";
+                                       $skimmer = $spots->{$sk};
+                                       $skimmer->[DBad] ||= 0+0; # stop JSON nulls?
+                                       $skimmer->[DEviants] ||= []; # ditto
+                                       if ($diff) {
+                                               ++$skimmer->[DBad] if $skimmer->[DBad] < $maxdeviants;
+                                               --$skimmer->[DGood] if $skimmer->[DGood] > 0;
+                                               push @deviant, sprintf("$r->[ROrigin]:%+.1f", $diff);
+                                               push @{$skimmer->[DEviants]}, $diff;
+                                               shift @{$skimmer->[DEviants]} if @{$skimmer->[DEviants]} > $maxdeviants;
+                                       } else {
+                                               ++$skimmer->[DGood] if $skimmer->[DGood] < $maxdeviants;
+                                               --$skimmer->[DBad] if $skimmer->[DBad] > 0;
+                                               shift @{$skimmer->[DEviants]};
                                        }
+                                       $skimmer->[DScore] = ($skimmer->[DBad] != 0) ? $skimmer->[DGood] / $skimmer->[DBad] : $skimmer->[DGood];
+                                       $skimmer->[DScore] ||= 0.2; # minimun score
+                                       $skimmer->[DScore] = $maxdeviants if $skimmer->[DScore] > $maxdeviants;
+                                       dbg("RBN:SKIM key $sp slot $sk $r->[RQrg] - $qrg = $diff " . $json->encode($skimmer)) if isdbg('rbnskim'); 
+                                       $skimmer->[DLastin] = $now;
+                                       $r->[RSpotData]->[SQrg] = $qrg if $qrg && $c > 1; # set all the QRGs to the agreed value
                                }
 
-                               $qrg = sprintf "%.1f",  $qrg;
+
+                               $qrg = (sprintf "%.1f",  $qrg)+0;
                                $r = $cand->[CData];
                                $r->[RQrg] = $qrg;
                                my $squality = "Q:$cand->[CQual]";
                                $squality .= '*' if $c > 1; 
                                $squality .= '+' if $r->[Respot];
 
-                               if ($cand->[CQual] >= $minqual) {
-                                       if (isdbg('progress')) {
-                                               my $s = "RBN: SPOT key: '$sp' = $r->[RCall] on $r->[RQrg] by $r->[ROrigin] \@ $r->[RTime] $squality route: $dxchan->{call}";
-                                               $s .= " Deviants: " . join(', ', sort @deviant) if @deviant;
-                                               dbg($s);
-                                       }
-                                       send_dx_spot($dxchan, $squality, $cand);
-                               } elsif (isdbg('rbn')) {
-                                       my $s = "RBN: SPOT IGNORED(Q $cand->[CQual] < $minqual) key: '$sp' = $r->[RCall] on $r->[RQrg] by $r->[ROrigin] \@ $r->[RTime] $squality route: $dxchan->{call}";
+                               if (isdbg('progress')) {
+                                       my $s = "RBN: SPOT key: '$sp' = $r->[RCall] on $r->[RQrg] by $r->[ROrigin] \@ $r->[RTime] $squality route: $dxchan->{call}";
+                                       my $td = @deviant;
+                                       $s .= " QRGScore $mv Deviants ($td/$spotters): ";
+                                       $s .= join(', ', sort @deviant) if $td;
                                        dbg($s);
                                }
+
+                               # finally send it out to any waiting public
+                               send_dx_spot($dxchan, $squality, $cand);
                                
                                # clear out the data and make this now just "spotted", but no further action required until respot time
                                dbg "RBN: QUEUE key '$sp' cleared" if isdbg 'rbn';
-                               
-                               $spots->{$sp} = [$now, $cand->[CQual]];
+
+                               delete $spots->{$sp};
                                delete $dxchan->{queue}->{$sp};
+
+                               # calculate new sp (which will be 70% likely the same as the old one)
+                               # we do this to cope with the fact that the first spotter may well be "wrongly calibrated" giving a qrg that disagrees with the majority.
+                               # and we want to store the key that corresponds to majority opinion. 
+                               my $nqrg = nearest(1, $qrg * 10);  # normalised to nearest Khz
+                               my $nsp = "$r->[RCall]|$nqrg";
+                               if ($sp ne $nsp) {
+                                       dbg("RBN:SKIM CHANGE KEY sp '$sp' -> '$nsp' for storage") if isdbg('rbnskim');
+                                       $spots->{$nsp} = [$now, $cand->[CQual]];
+                               }
                        }
                        else {
                                dbg sprintf("RBN: QUEUE key: '$sp' SEND time not yet reached %.1f secs left", $cand->[CTime] + $dwelltime - $now) if isdbg 'rbnqueue'; 
@@ -636,6 +700,7 @@ sub per_10_minute
        while (my ($k,$cand) = each %{$spots}) {
                next if $k eq 'VERSION';
                next if $k =~ /^O\|/;
+               next if $k =~ /^SKIM\|/;
                
                if ($main::systime - $cand->[CTime] > $minspottime*2) {
                        delete $spots->{$k};
@@ -649,7 +714,8 @@ sub per_10_minute
        foreach my $dxchan (DXChannel::get_all()) {
                next unless $dxchan->is_rbn;
                my $nq = keys %{$dxchan->{queue}};
-               dbg "RBN:STATS 10-minute $dxchan->{call} queue: $nq raw: $dxchan->{noraw10} retrieved spots: $dxchan->{norbn10} delivered: $dxchan->{nospot10} after filtering to  users: " . scalar keys %{$dxchan->{nousers10}};
+               my $pc = $dxchan->{noraw10} ? sprintf("%.1f%%",$dxchan->{norbn10}*100/$dxchan->{noraw10}) : '0.0%';
+               dbg "RBN:STATS 10-minute $dxchan->{call} queue: $nq raw: $dxchan->{noraw10} retrieved spots: $dxchan->{norbn10} ($pc) delivered: $dxchan->{nospot10} after filtering to  users: " . scalar keys %{$dxchan->{nousers10}};
                $dxchan->{noraw10} = $dxchan->{norbn10} = $dxchan->{nospot10} = 0; $dxchan->{nousers10} = {};
        }
 }
@@ -659,7 +725,8 @@ sub per_hour
        foreach my $dxchan (DXChannel::get_all()) {
                next unless $dxchan->is_rbn;
                my $nq = keys %{$dxchan->{queue}};
-               dbg "RBN:STATS hour $dxchan->{call} queue: $nq raw: $dxchan->{norawhour} retrieved spots: $dxchan->{norbnhour} delivered: $dxchan->{nospothour} after filtering to users: " . scalar keys %{$dxchan->{nousershour}};
+               my $pc = $dxchan->{norawhour} ? sprintf("%.1f%%",$dxchan->{norbnhour}*100/$dxchan->{norawhour}) : '0.0%';
+               dbg "RBN:STATS hour $dxchan->{call} queue: $nq raw: $dxchan->{norawhour} retrieved spots: $dxchan->{norbnhour} ($pc) delivered: $dxchan->{nospothour} after filtering to users: " . scalar keys %{$dxchan->{nousershour}};
                $dxchan->{norawhour} = $dxchan->{norbnhour} = $dxchan->{nospothour} = 0; $dxchan->{nousershour} = {};
        }
 }
@@ -671,10 +738,19 @@ sub finish
 
 sub write_cache
 {
-       my $fh = IO::File->new(">$cachefn") or confess("writing $cachefn $!");
-       my $s = $json->encode($spots);
-       $fh->print($s);
-       $fh->close;
+       my $ta = [ gettimeofday ];
+       $json->indent(1);
+       my $s = eval {$json->encode($spots)};
+       if ($s) {
+               my $fh = IO::File->new(">$cachefn") or confess("writing $cachefn $!");
+               $fh->print($s);
+               $fh->close;
+       } else {
+               dbg("RBN:Write_cache error '$@'");
+       }
+       $json->indent(0);
+       my $diff = _diffms($ta);
+       dbg("RBN:WRITE_CACHE time to write: $diff mS");
 }
 
 sub check_cache
@@ -712,8 +788,8 @@ sub check_cache
                                                return 1;
                                        } 
                                }
+                               dbg("RBN::checkcache error decoding $@");
                        }
-                       dbg("RBN::checkcache error decoding $@");
                } else {
                        my $d = difft($main::systime-$cache_valid);
                        dbg("RBN::checkcache '$cachefn' created $p ago is too old (> $d), ignored");