diff --git a/program/examples/shared-demo.pl.in b/program/examples/shared-demo.pl.in
+++ /dev/null
@@ -1,215 +0,0 @@
-#! @PERL@
-
-
-END {
- print "not ok 1\n" unless $loaded;
- unlink "demo.rrd";
-}
-
-sub ok
-{
- my($what, $result) = @_ ;
- $ok_count++;
- print "not " unless $result;
- print "ok $ok_count $what\n";
-}
-
-#makes programm work AFTER install
-use lib qw( @prefix@/lib/perl );
-
-use strict;
-use vars qw(@ISA $loaded);
-
-use RRDs;
-$loaded = 1;
-my $ok_count = 1;
-
-ok("loading",1);
-
-######################### End of black magic.
-
-my $STEP = 100;
-my $RUNS = 500;
-my $GRUNS = 4;
-my $RRD1 = "shared-demo.rrd";
-my $RRD2 = "shared-demob.rrd";
-my $PNG1 = "shared-demo1.png";
-my $PNG2 = "shared-demo2.png";
-my $time = 30*int(time/30);
-my $START = $time-$RUNS*$STEP;
-
-my @options = ("-b", $START, "-s", $STEP,
- "DS:a:GAUGE:2000:U:U",
- "DS:b:GAUGE:200:U:U",
- "DS:c:GAUGE:200:U:U",
- "DS:d:GAUGE:200:U:U",
- "DS:e:DERIVE:200:U:U",
- "RRA:AVERAGE:0.5:1:5000",
- "RRA:AVERAGE:0.5:10:500");
-
-print "* Creating RRD $RRD1 starting at $time.\n\n";
-RRDs::create $RRD1, @options;
-
-my $ERROR = RRDs::error;
-ok("create A", !$ERROR); # 2
-if ($ERROR) {
- die "$0: unable to create `$RRD1': $ERROR\n";
-}
-
-print "* Creating RRD $RRD2 starting at $time.\n\n";
-RRDs::create $RRD2, @options;
-
-$ERROR= RRDs::error;
-ok("create B",!$ERROR); # 3
-if ($ERROR) {
- die "$0: unable to create `$RRD2': $ERROR\n";
-}
-
-my $last = RRDs::last $RRD1;
-if ($ERROR = RRDs::error) {
- die "$0: unable to get last `$RRD1': $ERROR\n";
-}
-ok("last A", $last == $START); # 4
-
-$last = RRDs::last $RRD2;
-if ($ERROR = RRDs::error) {
- die "$0: unable to get last `$RRD2': $ERROR\n";
-}
-ok("last B", $last == $START); # 5
-
-print "* Filling $RRD1 and $RRD2 with $RUNS*5 values. One moment please ...\n";
-print "* If you are running over NFS this will take *MUCH* longer\n\n";
-
-srand(int($time / 100));
-
-@options = ();
-
-my $counter = 1e7;
-for (my $t=$START+1;
- $t<$START+$STEP*$RUNS;
- $t+=$STEP+int((rand()-0.5)*7)){
- $counter += int(2500*sin($t/2000)*$STEP);
- my $data = (1000+500*sin($t/1000)).":".
- (1000+900*sin($t/2330)).":".
- (2000*cos($t/1550)).":".
- (3220*sin($t/3420)).":$counter";
- push(@options, "$t:$data");
- RRDs::update $RRD1, "$t:$data";
- if ($ERROR = RRDs::error) {
- die "$0: unable to update `$RRD1': $ERROR\n";
- }
-}
-
-RRDs::update $RRD2, @options;
-
-if ($ERROR = RRDs::error) {
- die "$0: unable to update `$RRD2': $ERROR\n";
-}
-
-print "* Creating $GRUNS graphs: $PNG1 & $PNG2\n\n";
-my $now = $time;
-for (my $i=0;$i<$GRUNS;$i++) {
- my @rrd_pngs = ($RRD1, $PNG1, $RRD2, $PNG2);
- while (@rrd_pngs) {
- my $RRD = shift(@rrd_pngs);
- my $PNG = shift(@rrd_pngs);
- my ($graphret,$xs,$ys) = RRDs::graph $PNG, "--title", 'Test GRAPH',
- '--base', '1024',
- "--vertical-label", 'Dummy Units', "--start", (-$RUNS*$STEP),
- "--end", $time,
- "--interlace", "--imgformat","PNG",
- "DEF:alpha=$RRD:a:AVERAGE",
- "DEF:beta=$RRD:b:AVERAGE",
- "DEF:gamma=$RRD:c:AVERAGE",
- "DEF:delta=$RRD:d:AVERAGE",
- "DEF:epsilon=$RRD:e:AVERAGE",
- "CDEF:calc=alpha,beta,+,2,/,100,*,102,/",
- "AREA:alpha#0022e9:Short",
- "GPRINT:calc:MAX:Max calc %1.2lf",
- "STACK:beta#00b871:Demo Text",
- "GPRINT:calc:AVERAGE:Average calc %1.2lf",
- "STACK:beta#0ad871:Demo Text 2",
- "LINE1:gamma#ff0000:Line 1",
- "LINE2:delta#888800:Line 2",
- "LINE3:calc#00ff44:Line 3",
- "LINE3:epsilon#000000:Line 4",
- "HRULE:1500#ff8800:Horizontal Line at 1500",
- "PRINT:alpha:AVERAGE:Average Alpha %1.2lf",
- "PRINT:alpha:MIN:Min Alpha %1.2lf",
- "PRINT:alpha:MAX:Max Alpha %1.2lf",
- "GPRINT:calc:MIN:Min calc %1.2lf",
- "VRULE:".($now-3600)."#008877:60 Minutes ago",
- "VRULE:".($now-7200)."#008877:120 Minutes ago";
-
- if ($ERROR = RRDs::error) {
- print "ERROR: $ERROR\n";
- } else {
- print "Image Size: ${xs}x${ys}\n";
- print "Graph Return:\n",(join "\n", @$graphret),"\n\n";
- }
- }
-}
-
-
-
-my ($start,$step,$names,$array) = RRDs::fetch $RRD1, "AVERAGE";
-$ERROR = RRDs::error;
-print "ERROR: $ERROR\n" if $ERROR ;
-print "start=$start, step=$step\n";
-print " ";
-map {printf("%12s",$_)} @$names ;
-print "\n";
-foreach my $line (@$array){
- print "".localtime($start)," ";
- $start += $step;
- foreach my $val (@$line) {
- printf "%12.1f", $val;
- }
- print "\n";
-}
-
-
-
-my ($start,$end,$step,$col_cnt,$legend,$data) =
- RRDs::xport ("-m", 400,
- "--start", "now-1day",
- "--end", "now",
- "DEF:alpha=$RRD1:a:AVERAGE",
- "DEF:beta=$RRD1:d:AVERAGE",
- "CDEF:calc=alpha,beta,+,2,/,100,*,102,/",
- "XPORT:alpha:original ds",
- "XPORT:calc:calculated values",
- );
-
-my $ERROR = RRDs::error;
-die "$0: unable to xport: $ERROR\n" if $ERROR;
-
-print "\nrrdxport test:\n\n";
-print "<?xml version=\"1.0\" encoding=\"ISO-8859-1\"?>\n\n";
-print "<xport>\n";
-print " <meta>\n";
-print " <start>$start</start>\n";
-print " <step>$step</step>\n";
-print " <end>$end</end>\n";
-print " <rows>", $#$data + 1, "</rows>\n";
-print " <columns>$col_cnt</columns>\n";
-print " <legend>\n";
-foreach my $entry (@$legend) {
- print " <entry>$entry</entry>\n";
-}
-print " </legend>\n";
-print " </meta>\n";
-print " <data>\n";
-my $row_counter = 0;
-foreach my $row (@$data) {
- $row_counter++;
- print " <row id=\"$row_counter\"><t is=\"", scalar localtime($start), "\">$start</t>";
- $start += $step;
- foreach my $val (@$row) {
- printf ("<v>%1.10e</v>",$val) if $val ne '';
- print "<v>NaN</v>" if $val eq '';
- }
- print "</row>\n";
-}
-print " </data>\n";
-print "</xport>\n";