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vis.js is a dynamic, browser-based visualization library
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jrtechs-vis/showcase/projects/midas/arumAgents/jobManager.js

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'use strict';
function JobManager(agent) {
this.agent = agent;
this.jobs = {
id:{},
type:{
open:{},
closed:{}
}
};
this.openJobs = {};
}
JobManager.prototype.add = function(id, type, time, prerequisites) {
var me = this;
// create job agent. This agent will keep track of the global job stats. Jobs per type.
this.agent.rpc.request('jobAgentGenerator',{method:'createJob', params:{type:type}}).done();
this.jobs.id[id] = {
type: type,
startTime: time,
prediction: null,
predictionCounter: 0,
elapsedTime: 0,
elapsedTimeWithPause: 0,
pauseCount: 0,
endOfDay: false,
paused: false,
pauseAreaID: ""
};
// assign agent to job.
this.agent.rpc.request(type, {method:'add', params:{
agentId: this.agent.id,
time:time,
jobId: id,
prerequisites: prerequisites
}})
.done(function (prediction) {
if (prediction.duration.mean != 0) {
me.agent.timelineDataset.update({
id: id + "_predMean0",
start: time,
end: new Date(time).getTime() + prediction.duration.mean,
group: me.agent.id,
type: 'range',
content: "",
subgroup: me.agent.usedSubgroups[type],
className: 'prediction'
});
}
me.jobs.id[id].prediction = prediction;
});
if (this.jobs.type.open[type] === undefined) {this.jobs.type.open[type] = {}}
this.jobs.type.open[type][id] = time;
this.openJobs[id] = this.jobs.id[id];
var addQuery = [{id:id, start:time, content:"started: "+ type, group:this.agent.id, subgroup: this.agent.usedSubgroups[type]}];
this.agent.timelineDataset.add(addQuery);
this.agent.rpc.request("agentGenerator", {method: 'updateOpenJobs', params:{jobId: id, time: time}}).done();
};
JobManager.prototype.finish = function(id, type, time) {
var me = this;
// finish the job.
this.agent.rpc.request(type, {method:'finish', params:{
agentId: this.agent.id,
time: time,
jobId: id
}})
.done(function (reply) {
var prediction = reply.prediction;
var originalPrediction = me.jobs.id[id].prediction;
me.jobs.id[id].elapsedTime = reply.elapsedTime;
me.jobs.id[id].elapsedTimeWithPause = reply.elapsedTimeWithPause;
me.updateDataSetsFinish(id, type, time, me.jobs.id[id].prediction);
graph2dDataset.push({x: time, y: reply.duration.duration/3600000 ,group: type + '_duration', type: type});
graph2dDataset.push({x: time, y: reply.duration.durationWithPause/3600000 ,group: type + '_durationWithPause', type: type});
graph2dDataset.push({x: time, y: reply.duration.durationWithStartup/3600000 ,group: type + '_durationWithStartup', type: type});
graph2dDataset.push({x: time, y: reply.duration.durationWithBoth/3600000 ,group: type + '_durationWithBoth', type: type});
graph2dDataset.push({x: time, y: prediction.duration.mean/3600000 ,group: type + '_pred_duration', type: type});
graph2dDataset.push({x: time, y: prediction.durationWithPause.mean/3600000 ,group: type + '_pred_durationWithPause', type: type});
graph2dDataset.push({x: time, y: prediction.durationWithStartup.mean/3600000 ,group: type + '_pred_durationWithStartup', type: type});
graph2dDataset.push({x: time, y: prediction.durationWithBoth.mean/3600000 ,group: type + '_pred_durationWithBoth', type: type});
graph2dDataset.push({x: time, y: (prediction.duration.mean + prediction.duration.std)/3600000 ,group: type + '_pred_duration_std_higher', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithPause.mean + prediction.durationWithPause.std)/3600000 ,group: type + '_pred_durationWithPause_std_higher', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithStartup.mean + prediction.durationWithStartup.std)/3600000 ,group: type + '_pred_durationWithStartup_std_higher', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithBoth.mean + prediction.durationWithBoth.std)/3600000 ,group: type + '_pred_durationWithBoth_std_higher', type: type});
graph2dDataset.push({x: time, y: (prediction.duration.mean - prediction.duration.std)/3600000 ,group: type + '_pred_duration_std_lower', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithPause.mean - prediction.durationWithPause.std)/3600000 ,group: type + '_pred_durationWithPause_std_lower', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithStartup.mean - prediction.durationWithStartup.std)/3600000 ,group: type + '_pred_durationWithStartup_std_lower', type: type});
graph2dDataset.push({x: time, y: (prediction.durationWithBoth.mean - prediction.durationWithBoth.std)/3600000 ,group: type + '_pred_durationWithBoth_std_lower', type: type});
graph2dDataset.push({x: time, y: originalPrediction.duration.mean/3600000 ,group: type + '_pred_duration_original', type: type});
graph2dDataset.push({x: time, y: originalPrediction.durationWithPause.mean/3600000 ,group: type + '_pred_durationWithPause_original', type: type});
graph2dDataset.push({x: time, y: originalPrediction.durationWithStartup.mean/3600000 ,group: type + '_pred_durationWithStartup_original', type: type});
graph2dDataset.push({x: time, y: originalPrediction.durationWithBoth.mean/3600000 ,group: type + '_pred_durationWithBoth_original', type: type});
});
delete this.jobs.type.open[type][id];
delete this.openJobs[id];
if (this.jobs.type.closed[type] === undefined) {this.jobs.type.closed[type] = {}}
this.jobs.type.closed[type][id] = time;
};
JobManager.prototype.update = function(id, type, time, operation) {
var me = this;
var eventId = uuid();
if (operation == 'endOfDay' || operation == 'startOfDay') {
for (var jobId in this.openJobs) {
if (this.openJobs.hasOwnProperty(jobId)) {
var type = this.openJobs[jobId].type;
this.agent.rpc.request(type, {method:'update', params:{
agentId: this.agent.id,
time: time,
jobId: jobId,
operation: operation
}})
.done(function (reply) {
me.jobs.id[reply.jobId].elapsedTime = reply.elapsedTime;
me.jobs.id[reply.jobId].elapsedTimeWithPause = reply.elapsedTimeWithPause;
me.updateDataSetsOperation(reply.jobId, reply.type, time, operation, eventId);
});
}
}
}
else {
this.agent.rpc.request(type, {method:'update', params:{
agentId: this.agent.id,
time: time,
jobId: id,
operation: operation
}})
.done(function (reply) {
me.jobs.id[id].elapsedTime = reply.elapsedTime;
me.jobs.id[id].elapsedTimeWithPause = reply.elapsedTimeWithPause;
me.updateDataSetsOperation(id, type, time, operation, eventId);
});
}
};
JobManager.prototype.updateDataSetsOperation = function(id, type, time, operation, eventId) {
switch (operation) {
case 'pause':
this.updateDataSetsPause(id, type, time, operation, this.jobs.id[id].prediction, eventId);
break;
case 'endOfDay':
this.updateDataSetsPause(id, type, time, operation, this.jobs.id[id].prediction, eventId);
break;
case 'startOfDay':
this.updateDataSetsResume(id, type, time, operation, this.jobs.id[id].prediction, eventId);
break;
case 'resume':
this.updateDataSetsResume(id, type, time, operation, this.jobs.id[id].prediction, eventId);
break;
}
};
JobManager.prototype.updateDataSetsFinish = function(id, type, time, prediction) {
var updateQuery = [];
var field = 'duration';
var elapsedTime = this.jobs.id[id].elapsedTime;
// gather statistic indicator data
if (this.jobs.id[id].pauseCount > 0) {
field = 'durationWithPause';
elapsedTime = this.jobs.id[id].elapsedTimeWithPause;
}
// generate indicator
var predictedTimeLeft = 0;
if (prediction[field].mean != 0) {
predictedTimeLeft = prediction[field].mean - elapsedTime;
this.updatePredictionOnFinish(id, type, time, prediction[field], elapsedTime);
}
updateQuery.push({
id: id,
end: time,
content: type,
type: 'range',
className: 'finished',
style: 'background-color: ' + this.generateColors(predictedTimeLeft, elapsedTime) + ' !important;'
});
this.agent.freeSubgroup(type);
this.agent.timelineDataset.update(updateQuery);
this.agent.rpc.request("agentGenerator", {method: 'updateOpenJobs', params:{jobId: id, time: time}}).done();
};
JobManager.prototype.updateDataSetsPause = function(id, type, time, operation, prediction, eventId) {
var updateQuery = [];
var image = '<img src="./images/control_pause.png" class="icon"/>';
var flagId = id + "_pauseNotifier" + eventId;
var title = 'Calling RAO for possible NC';
// this causes there to be only one flag for the end of day as well as a moon icon
if (operation == 'endOfDay') {
// don't end-of-day jobs twice
if (this.jobs.id[id].endOfDay == true) {
return;
}
this.jobs.id[id].endOfDay = true;
image = '<img src="./images/moon.png" class="icon"/>';
flagId = id + "endOfDayNotifier" + eventId;
title = "End of working day"
}
else {
this.jobs.id[id].pauseCount += 1;
this.jobs.id[id].pauseAreaID = this.agent.id + "_" + "_pauseArea_" + eventId;
var shadedPauseArea = {
id: this.jobs.id[id].pauseAreaID,
start: time,
end: time,
content: '',
group: this.agent.id,
subgroup: this.agent.usedSubgroups[type],
className: 'pausedArea',
title: 'Job paused.'
};
updateQuery.push(shadedPauseArea);
}
var field = 'duration';
var elapsedTime = this.jobs.id[id].elapsedTime;
if (this.jobs.id[id].pauseCount > 0) {
field = 'durationWithPause';
elapsedTime = this.jobs.id[id].elapsedTimeWithPause;
}
updateQuery.push({id: id, end: time, content: type, type: 'range'});
var imageUpdate = {
id: flagId,
start: time,
end: time,
content: image,
group: this.agent.id,
subgroup: this.agent.usedSubgroups[type],
className: 'pause',
title: title
};
if (this.agent.id == "Paolo") {
imageUpdate.title = "Going to inspect possible NC.";
}
updateQuery.push(imageUpdate);
var predictedTimeLeft = prediction[field].mean - elapsedTime;
var predictionExists = prediction[field].mean != 0;
// update the predicted line if the job is not ALREADY pauseds
if (predictedTimeLeft > 0 && predictionExists == true && this.jobs.id[id].paused != true) {
updateQuery.push({
id: id + "_predMean" + this.jobs.id[id].predictionCounter,
end: time,
group: this.agent.id,
className: 'prediction'
})
}
// set the status to paused if needed
if (operation != 'endOfDay') {
this.jobs.id[id].paused = true;
}
this.agent.timelineDataset.update(updateQuery);
this.agent.rpc.request("agentGenerator", {method: 'updateOpenJobs', params:{jobId: id, time: time}})
};
JobManager.prototype.updateDataSetsResume = function(id, type, time, operation, prediction, eventId) {
var updateQuery = [];
var image = '<img src="./images/control_play.png" class="icon"/>';
var flagId = id + "_resumeNotifier" + eventId;
// this causes there to be only one flag for the start of day as well as a sun icon
if (operation == 'startOfDay') {
// don't start-of-day jobs twice
if (this.jobs.id[id].endOfDay == false) {
return;
}
this.jobs.id[id].endOfDay = false;
image = '<img src="./images/sun.png" class="icon"/>';
flagId = id + "startOfDayNotifier_" + eventId;
}
else {
updateQuery.push({id: this.jobs.id[id].pauseAreaID, end: time, content: '', type: 'range'});
this.jobs.id[id].pauseAreaID = "";
this.jobs.id[id].pauseCount += 1;
}
var field = 'duration';
var elapsedTime = this.jobs.id[id].elapsedTime;
if (this.jobs.id[id].pauseCount > 0) {
field = 'durationWithPause';
elapsedTime = this.jobs.id[id].elapsedTimeWithPause;
}
updateQuery.push({id: id, end: time, content: type, type: 'range'});
updateQuery.push({
id: flagId,
start: time,
end: time,
content: image,
group: this.agent.id,
subgroup: this.agent.usedSubgroups[type],
className: 'pause',
title: 'Resuming job'
});
var predictedTimeLeft = prediction[field].mean - elapsedTime;
// no not increase the prediction line at the start of the day if the job is PAUSED
if (predictedTimeLeft > 0 && !(operation == 'startOfDay' && this.jobs.id[id].paused == true)) {
this.jobs.id[id].predictionCounter += 1;
updateQuery.push({
id: id + "_predMean" + this.jobs.id[id].predictionCounter,
start: time,
end: new Date(time).getTime() + predictedTimeLeft,
group: this.agent.id,
content: "",
subgroup: this.agent.usedSubgroups[type],
type: 'range',
className: 'prediction'
});
}
// resume if needed
if (operation != 'startOfDay'){
this.jobs.id[id].paused = false;
}
this.agent.timelineDataset.update(updateQuery);
this.agent.rpc.request("agentGenerator", {method: 'updateOpenJobs', params:{jobId: id, time: time}})
};
JobManager.prototype.updatePredictionOnFinish = function(id,type,time,prediction,elapsedTime) {
if (prediction.mean != 0) {
var predictedTimeLeft = prediction.mean - elapsedTime;
if (predictedTimeLeft > 0) {
this.agent.timelineDataset.remove({id: id + "_predMean" + this.jobs.id[id].predictionCounter})
}
}
};
JobManager.prototype.updateJobs = function(time, skipId) {
var updateQuery = [];
for (var jobId in this.openJobs) {
if (this.openJobs.hasOwnProperty(jobId) && jobId != skipId) {
var type = this.openJobs[jobId].type;
var prediction = this.openJobs[jobId].prediction;
var predictedTimeLeft = 0;
// never been paused before
if (this.jobs.id[jobId].pauseCount == 0) {
if (prediction !== null && prediction.duration !== null) {
predictedTimeLeft = prediction.duration.mean - this.jobs.id[jobId].elapsedTime;
}
}
else {
if (prediction !== null && prediction.durationWithPause !== null) {
predictedTimeLeft = prediction.durationWithPause.mean - this.jobs.id[jobId].elapsedTimeWithPause;
}
}
updateQuery.push({id: jobId, end: time, content: type, type: 'range'});
if (this.openJobs[jobId].paused == true) {
updateQuery.push({id: this.openJobs[jobId].pauseAreaID, end: time});
}
}
}
this.agent.timelineDataset.update(updateQuery);
};
JobManager.prototype.generateColors = function(predictedTime, elapsedTime) {
var ratio = (elapsedTime + predictedTime) / elapsedTime;
if (ratio > 1) {
ratio = Math.min(2,ratio) - 1; // 2 -- 1
var rgb = HSVToRGB(94/360,ratio*0.6 + 0.2,1);
}
else {
ratio = Math.max(0.5,ratio) - 0.5; // 1 -- 0.5
var rgb = HSVToRGB(40/360,(1-(2*ratio))*0.6 + 0.1 ,1);
}
return "rgb(" + rgb.r + "," + rgb.g + "," + rgb.b + ")";
};
function HSVToRGB(h, s, v) {
var r, g, b;
var i = Math.floor(h * 6);
var f = h * 6 - i;
var p = v * (1 - s);
var q = v * (1 - f * s);
var t = v * (1 - (1 - f) * s);
switch (i % 6) {
case 0: r = v, g = t, b = p; break;
case 1: r = q, g = v, b = p; break;
case 2: r = p, g = v, b = t; break;
case 3: r = p, g = q, b = v; break;
case 4: r = t, g = p, b = v; break;
case 5: r = v, g = p, b = q; break;
}
return {r:Math.floor(r * 255), g:Math.floor(g * 255), b:Math.floor(b * 255) };
}
function RGBToHSV (red,green,blue) {
red=red/255; green=green/255; blue=blue/255;
var minRGB = Math.min(red,Math.min(green,blue));
var maxRGB = Math.max(red,Math.max(green,blue));
// Black-gray-white
if (minRGB == maxRGB) {
return {h:0,s:0,v:minRGB};
}
// Colors other than black-gray-white:
var d = (red==minRGB) ? green-blue : ((blue==minRGB) ? red-green : blue-red);
var h = (red==minRGB) ? 3 : ((blue==minRGB) ? 1 : 5);
var hue = 60*(h - d/(maxRGB - minRGB))/360;
var saturation = (maxRGB - minRGB)/maxRGB;
var value = maxRGB;
return {h:hue,s:saturation,v:value};
}