=$i) { $tempr = $ar[$j]*$scale; $tempi = $ai[$j]*$scale; $ar[$j] = $ar[$i]*$scale; $ai[$j] = $ai[$i]*$scale; $ar[$i] = $tempr; $ai[$i] = $tempi; } $m = $n >> 1; while ($m>=1 && $j>=$m) { $j -= $m; $m /= 2; } $j += $m; } for ($mmax=1,$istep=2*$mmax; $mmax<$n; $mmax=$istep,$istep=2*$mmax) { $delta = $sign*pi()/$mmax; for ($m=0; $m<$mmax; ++$m) { $w = $m*$delta; $wr = cos($w); $wi = sin($w); for ($i=$m; $i<$n; $i+=$istep) { $j = $i+$mmax; $tr = $wr*$ar[$j]-$wi*$ai[$j]; $ti = $wr*$ai[$j]+$wi*$ar[$j]; $ar[$j] = $ar[$i]-$tr; $ai[$j] = $ai[$i]-$ti; $ar[$i] += $tr; $ai[$i] += $ti; } } $mmax = $istep; } return true;}// transform from time domine to frequency domine using FFTfunction bo_time2freq($d, &$phase=array()){ $n = count($d); // check if n is a power of 2: 2^n & (2^n-1) == 0 if ($n & ($n-1)) { // eval the minimum power of 2 >= $n $p = pow(2, ceil(log($n, 2))); $d += array_fill($n, $p-$n, 0); $n = $p; } $im = array_fill(0, $n, 0); bo_fft(1, $d, $im); $amp = array(); for ($i=0; $i<=$n/2; $i++) { // Calculate the modulus (as length of the hypotenuse) $amp[$i] = hypot($d[$i], $im[$i]); if (!$d[$i]) $phase[$i] = ($im[$i] < 0 ? -1 : 1) * M_PI / 2; else $phase[$i] = atan($im[$i] / $d[$i]); } return $amp;}function bo_signal_parse(&$signal = false, $calc_spec = false){ if ($signal === false) return; $bpv = 8; //ony 8bit support //each channel signal string to array foreach($signal['channel'] as $ch => $d) { $ymax = pow(2,$bpv-1); $utime = $d['conv_gap']/1000; $values = $d['values']; $max_volt = (int)$d['pcb'] >= 10 ? BO_MAX_VOLTAGE_RED : BO_MAX_VOLTAGE; if (isset($d['shift'])) $max_volt /= pow(2, $d['shift']); $signal['max_volt'] = max($signal['max_volt'], $max_volt); $signal['max_values'] = max($signal['max_values'], $values); $signal['start'] = $d['start']; $d['hexdata'] = trim($d['hexdata']); if ((int)$d['pcb'] < 10 && strlen($d['hexdata']) == 256) $d['hexdata'] = substr($d['hexdata'], 0, -2); //copy signal to array $j = 0; for ($i=0;$i $dummy) { $signal['spec_freq'][$i] = round($i / ($values * $utime) * 1000); } } } return true;}function bo_examine_signal($data, $channels=0, $ntime=0, &$amp = array(), &$amp_max = array(), &$freq = array(), &$freq_amp = array()){ $sig_data = bo_raw2array($data, true, $channels, $ntime); $amp = array(0,0); $amp_max = array(0,0); $freq = array(0,0); $freq_amp = array(0,0); if ($sig_data) { foreach($sig_data['signal_raw'] as $channel => $dummy) { //amplitude of first value $amp[$channel] = $sig_data['signal_raw'][$channel][0]; //max. amplitude $max = 0; foreach($sig_data['signal_raw'][$channel] as $signal) { $sig = abs($signal - 128); if ($sig >= $max) { $max = $sig; $amp_max[$channel] = $signal; } } //main frequency $max = 0; $freq_id_max = 0; foreach($sig_data['spec'][$channel] as $freq_id => $famp) { if ($freq_id > 0 && $max < $famp) { $max = $famp; $freq[$channel] = $sig_data['spec_freq'][$freq_id]; } } $freq_amp[$channel] = $max * 100; } } $freq_amp[0] = max($freq_amp[0], 0); $freq_amp[0] = min($freq_amp[0], 255); $freq_amp[1] = max($freq_amp[1], 0); $freq_amp[1] = min($freq_amp[1], 255); $s['amp1']=$amp[0]; $s['amp2']=$amp[1]; $s['amp1_max']=$amp_max[0]; $s['amp2_max']=$amp_max[1]; $s['freq1']=$freq[0]; $s['freq2']=$freq[1]; $s['freq1_amp']=$freq_amp[0]; $s['freq2_amp']=$freq_amp[1]; return $s;}?>
Fatal error: Uncaught Error: Undefined constant "BO_DB_PREF_USER" in /web/htdocs/www.ircddb-italia.it/home/KWOS_TOA/includes/user.inc.php:4 Stack trace: #0 /web/htdocs/www.ircddb-italia.it/home/KWOS_TOA/blitzortung.php(75): require_once() #1 /web/htdocs/www.ircddb-italia.it/home/KWOS_TOA/index.php(26): include_once('...') #2 {main} thrown in /web/htdocs/www.ircddb-italia.it/home/KWOS_TOA/includes/user.inc.php on line 4