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mirror of https://github.com/skaringa/water-counter.git synced 2024-11-24 10:24:24 +01:00
water-counter/www/table.pl
2016-04-09 18:06:19 +02:00

151 lines
3.0 KiB
Perl
Executable File

#!/usr/bin/perl
#
# CGI script to create a table of values from RRD
use CGI qw(:all *table *Tr);
use RRDs;
use POSIX qw(strftime);
use POSIX qw(locale_h);
$ENV{'LANG'}='de_DE.UTF-8';
setlocale(LC_TIME, 'de_DE.UTF-8');
# path to database
$rrdb='../../water-counter/water.rrd';
$query=new CGI;
#$query=new CGI("type=consumweek");
print header(-charset=>"utf-8");
$type=$query->param('type');
if ($type !~ /(count|consum)(day|week|month|year)/) {
print "Invalid type\n";
exit;
}
$sensor=$1;
$range=$2;
#print "Sensor: $sensor Range: $range\n";
$timeformat="%a, %d. %b %Y";
$resolution=24*60*60;
if ($range eq 'day') {
$resolution=60*60;
$timeformat="%a, %d. %b %Y %H:%M";
} elsif ($range eq 'year') {
$resolution=7*24*60*60;
$timeformat="Wo %d. %b %Y";
}
if ($range eq 'day') {
@factors = (1.0, 60000.0); # consumption in l/min
@headings = ('m³', 'l/min');
@formats = ('%7.3f', '%3.1f');
} else {
@factors = (1.0, 60000.0*60*24); # consumption l/day
@headings = ('m³', 'l/d');
@formats = ('%7.3f', '%4.0f');
}
($laststart,$laststep,$lastnames,$lastdata) = getdata($rrdb, 'LAST', $resolution, $range);
($avrstart,$avrstep,$avrnames,$avrdata) = getdata($rrdb, 'AVERAGE', $resolution, $range);
# print result
# print heading
$style=<<END;
<!--
body {
font: 10px/16px verdana, arial, helvetica, sans-serif;
background-color: white;
color: black;
}
th, td {
border-width: 1px 1px 0px 0px;
border-style: solid;
border-color: #998DB3;
text-align: right;
width: 50px;
}
th {
background-color: lightgreen;
font-weight: normal;
}
thead {
position: fixed;
top: 0px;
background-color: white;
z-index: 1;
}
tbody {
position: absolute;
top: 30px;
z-index: -1;
}
.mindata {
color: blue;
}
.maxdata {
color: red;
}
.time {
color: black;
text-align: left;
width: 100px;
}
-->
END
print start_html(-title=>"Wasserverbrauch",
-style=>{-code=>$style},
-meta=>{"viewport"=>"initial-scale=1, minimum-scale=0.75, width=device-width"}
);
print start_table();
print "\n";
print thead(Tr(th({-class=>'time'}, ' '), th([@headings])));
print "\n";
# print data
$avrstart -= 12*60*60 unless $timeformat =~ / %H:%M$/;
for $avrline (@$avrdata) {
$lastline = shift(@$lastdata);
print start_Tr({-class=>'avrdata'});
print td({-class=>'time'}, strftime($timeformat, localtime($avrstart)));
print formatline(@$lastline[0], @$avrline[1]);
print end_Tr;
print "\n";
$avrstart += $avrstep;
}
print end_table();
print end_html;
sub getdata {
my ($db, $cf, $resolution, $range) = @_;
my $sarg = "now -1 $range";
if ($range eq 'month') {
$sarg = "now - 30 days";
}
my ($start,$step,$names,$data) = RRDs::fetch($db, $cf, '-r', $resolution, '-s', $sarg, '-e', 'now');
# check error
my $err=RRDs::error;
print "$err\n" if $err;
exit if $err;
return ($start,$step,$names,$data);
}
sub formatline {
my $str = '';
my $i = 0;
for $val (@_) {
if (defined $val) {
$str .= td(sprintf $formats[$i], $val * $factors[$i]);
} else {
$str .= td;
}
$i++;
}
return $str;
}