// vim: autoindent tabstop=4 shiftwidth=4 expandtab softtabstop=4 filetype=javascript var d = new Object(); d.ms = 1; d.sec = 1000*d.ms; d.min = 60 * d.sec; d.hour = 60 * d.min; d.day = 24 * d.hour; d.week = 7 * d.day; d.month = 30.5 * d.day; d.now = new Date().getTime(); var timeToUTC = function(d) { return d - new Date().getTimezoneOffset() * 60 * 1000; } var timeToLocal = function(d) { return d + new Date().getTimezoneOffset() * 60 * 1000; } $(document).ready(function(){ var from = d.now - 0.8*d.day; var to = d.now; var fromOverview = d.now - 15*d.day; var toOverview = d.now; var datasetDetail = [] var datasetOverview = []; var plotOverview = null; var plotDetail = null; var indexFound = null; /*var sensorConfigList = [ {"sensorname":"heizkreisregler9.solarDaten.tempKollektor", "description":"Kollektortemperatur", "show":true, "color":"#f30000"}, {"sensorname":"heizkreisregler10.betriebsdatenRegler1.kesselTemperatur", "description":"Kessel Temperatur", "show":true, "color":"#283074"}, {"sensorname":"heizkreisregler9.solarDaten.tempWarmwasserSolar", "description":"Warmwasser Solar", "show":true, "color":"#f0ff4c"}, {"sensorname":"feuerungsautomat1.betriebsdatenRegler1.aussenTemperatur", "description":"Aussentemperatur", "show":true, "fill":true, "color":"black"}, //#84b500 {"sensorname":"heizkreisregler10.betriebsdatenRegler1.boilerTemperatur", "description":"Boilertemperatur", "show":true, "color":"#48b4ff"}, ];*/ var sensorConfigList = [ {"sensorname":"heizkreisregler10.betriebsdatenRegler1.boilerTemperatur", "description":"Boilertemperatur", "show":true, "color":"yellow"}, {"sensorname":"heizkreisregler9.solarDaten.tempKollektor", "description":"Kollektortemperatur", "show":true, "color":"red"}, {"sensorname":"feuerungsautomat1.betriebsdatenRegler1.aussenTemperatur", "description":"Aussentemperatur", "show":true, "color":"green"} ]; var pickSensorConfig = function(sensorname) { var sensorConfigFound; $.each(sensorConfigList, function(i,sensorConfig) { if (sensorConfig.sensorname == sensorname) { sensorConfigFound = sensorConfig; return false; } }); return sensorConfigFound; } var replot = function() { plotDetail = $.plot($("#ebusgraph"), datasetDetail, { xaxis: { mode: "time", min: timeToUTC(from), max:timeToUTC(to) }, yaxis: { min: -16, max: 100 }, legend: { show : true} }); }; var replotOverview = function() { if (plotOverview == null) { plotOverview = $.plot($("#overview"), datasetOverview, { // options series: { lines: { show: true, lineWidth: 1 }, shadowSize: 0 }, xaxis: { mode: "time", min: timeToUTC(fromOverview), max:timeToUTC(toOverview) }, yaxis: { ticks: [], min: -26, max: 100, autoscaleMargin: 0.1 }, legend: { show: false }, selection: { mode: "x" } }); } else { plotOverview.setData(datasetOverview); plotOverview.draw(); } plotOverview.setSelection({xaxis: {'from': from, 'to': to}}, true); }; var plotSensor = function(sensorConfig) { plotSensorDetail(sensorConfig); plotSensorOverview(sensorConfig); }; var unplotSensor = function(sensorname) { unplotSensorDetail(sensorname); unplotSensorOverview(sensorname); }; var plotSensorDetail = function(sensorConfig) { $.getJSON("sensor/"+escape(sensorConfig.sensorname)+"/"+timeToLocal(from)+"/"+timeToLocal(to), function(response) { if (!response.error) { response.data = response.data.map(function(d) { return [ timeToUTC(d[0]), d[1] ]; }); if (sensorConfig.mapFunc) { response.data = response.data.map( sensorConfig.mapFunc ) } datasetDetail.push({'data':response['data'], 'userData':sensorConfig.sensorname, 'label':sensorConfig.description, 'color':sensorConfig.color, 'shadowSize':0, 'lines':{ 'fill':0.7,'lineWidth':4} }); replot(); } else { alert("Fehler: " + response["error"]); } }); }; var unplotSensorDetail = function(sensorname) { $.each(datasetDetail, function(i, sensor) { if (sensor.userData == sensorname) { datasetDetail.splice(i,1); replot(); return false; } }); }; var plotSensorOverview = function(sensorConfig) { $.getJSON("avg/"+escape(sensorConfig.sensorname)+"/"+timeToLocal(fromOverview)+"/"+timeToLocal(toOverview), function(response) { if (!response.error) { response.data = response.data.map(function(d) { return [ timeToUTC(d[0]), d[1] ]; }); if (sensorConfig.mapFunc) { response.data = response.data.map( sensorConfig.mapFunc) } datasetOverview.push({'data':response['data'], 'label':sensorConfig.sensorname, 'color':sensorConfig.color}); replotOverview(); } else { alert("Overview Fehler: " + response["error"]); } }); }; var unplotSensorOverview = function(sensorname) { $.each(datasetOverview, function(i, sensor) { if (sensor.label == sensorname) { datasetOverview.splice(i,1); replotOverview(); return false; } }); } $("#overview").bind("plotselected", function (event, ranges) { range_from = Math.round(ranges.xaxis.from); range_to = Math.round(ranges.xaxis.to); // max selection range if (range_to - range_from > d.month) { // reset selection plotOverview.setSelection({xaxis: {'from': from, 'to': to}}, true); return; } else { from = timeToLocal( range_from ); to = timeToLocal( range_to ); } sensors = []; for (elem in datasetOverview) { sensor = datasetDetail[elem]["userData"]; sensors.push(sensor); } datasetDetail =[]; for (i in sensors) { plotSensorDetail(pickSensorConfig(sensors[i])); } }); $.each(sensorConfigList, function(i,sensorConfig) { var pickerDiv = $("