}
+sub new
+{
+ my ($class, $sort, $call, $flag) = @_;
+ $flag = ($flag) ? "in_" : "";
+ return bless {sort => $sort, name => "$flag$call.pl" }, $class;
+}
# this reads in a filter statement and returns it as a list
#
my $newin = eval $s;
dbg('conn', "$@") if $@;
if ($in) {
- $newin = bless {filter => $in, name => "$flag$call.pl" }, 'Filter::Old'
+ $newin = new('Filter::Old', $sort, $call, $flag);
+ $newin->{filter} = $in;
}
return $newin;
}
return undef;
}
+#
+# this routine accepts a composite filter with a reject component and then an accept
+# the filter returns 0 if an entry is matched by any reject rule and also if any
+# accept rule fails otherwise it returns 1
+#
+# the either set of rules may be missing meaning an implicit 'ok'
+#
+# reject rules are implicitly 'or' logic (any reject rules which fires kicks it out)
+# accept rules are implicitly 'and' logic (all accept rules must pass to indicate a match)
+#
+# unlike the old system, this is kept as a hash of hashes so that you can
+# easily change them by program.
+#
+# you can have a [any] number of 'filters', they are tried in random order until one matches
+#
+# an example in machine readable form:-
+# bless ({
+# name => 'G7BRN.pl',
+# sort => 'spots',
+# filter1 => {
+# user_rej => {
+# by_zone => '4,5',
+# },
+# reject => {
+# by_zone => [11, 'n', 4, 5],
+# },
+# user_acc => {
+# freq => 'hf',
+# },
+# accept => {
+# freq => [0, 'r', 0, 30000],
+# },
+# },
+# filter2 => {
+# user_acc => {
+# freq => 'vhf',
+# by_zone => '14,15,16',
+# },
+# accept => {
+# freq => [0, 'r', 50000,52000,70000,70500,144000,148000],
+# by_zone => [11, 'n', 14,15,16],
+# }
+# },
+# }, 'Filter');
+#
+# in user commands:-
+#
+# clear/spots 1 2
+# accept/spots 1 freq 0/30000
+# reject/spots 1 by_zone 4,5
+# accept/spots 2 freq vhf
+# accept/spots 2 by_zone 14,15,16
+#
+# no filter no implies filter 1
+#
+# The user_* fields are there so that the structure can be listed easily
+# in human readable form when required. They are not used in the filtering
+# process itself.
+#
+# This defines an HF filter and a VHF filter (as it happens)
+#
+
+sub it
+{
+ my $self = shift;
+
+ my $hops = undef;
+ my $filter;
+ my $r;
+
+ my ($key, $ref, $field, $fieldsort, $comp);
+ L1: foreach $key (grep {/^filter/ } keys %$self) {
+ my $filter = $self->{$key};
+ $r = 0;
+ if ($filter->{reject}) {
+ foreach $ref (values %{$filter->{reject}}) {
+ ($field, $fieldsort) = @$ref[0,1];
+ my $val = $_[$field];
+ if ($fieldsort eq 'n') {
+ next L1 if grep {$_ == $val} @{$ref}[2..$#$ref];
+ } elsif ($fieldsort eq 'r') {
+ my $i;
+ for ($i = 2; $i < @$ref; $i += 2) {
+ next L1 if $val >= $ref->[$i] && $val <= $ref->[$i+1];
+ }
+ } elsif ($fieldsort eq 'a') {
+ next L1 if grep { $val =~ m{$_}} @$ref[2..$#$ref];
+ }
+ }
+ }
+ if ($filter->{accept}) {
+ foreach $ref (values %{$filter->{accept}}) {
+ ($field, $fieldsort) = @$ref[0,1];
+ my $val = $_[$field];
+ if ($fieldsort eq 'n') {
+ next L1 unless grep {$_ == $val} @{$ref}[2..$#$ref];
+ } elsif ($fieldsort eq 'r') {
+ my $i;
+ for ($i = 2; $i < @$ref; $i += 2) {
+ next L1 unless $val >= $ref->[$i] && $val <= $ref->[$i+1];
+ }
+ } elsif ($fieldsort eq 'a') {
+ next L1 unless grep { $val =~ m{$_}} @{$ref}[2..$#$ref];
+ }
+ }
+ }
+ $r = 1;
+ last;
+ }
+
+ # hops are done differently
+ if ($self->{hops}) {
+ my $h;
+ while (($comp, $ref) = each %{$self->{hops}}) {
+ ($field, $h) = @$ref;
+ if ($_[$field] =~ m{$comp}) {
+ $hops = $h;
+ last;
+ }
+ }
+ }
+ return ($r, $hops);
+}
+
# this writes out the filter in a form suitable to be read in by 'read_in'
# It expects a list of references to filter lines
sub write
{
my $self = shift;
+ my $sort = $self->{sort};
+ my $fn = $self->{name};
+ my $dir = "$filterbasefn/$sort";
+ mkdir $dir, 0775 unless -e $dir;
+ my $fh = new IO::File ">$dir/$fn" or return "$dir/$fn $!";
+ if ($fh) {
+ my $dd = new Data::Dumper([ $self ]);
+ $dd->Indent(1);
+ $dd->Terse(1);
+ $dd->Quotekeys($] < 5.005 ? 1 : 0);
+ $fh->print($dd->Dumpxs);
+ $fh->close;
+ }
+ return undef;
}
sub print
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