require.config({ baseUrl : '.', paths : { jquery : '3rdparty/jquery/jquery-1.11.2.min', 'jquery-ui' : '3rdparty/jquery/ui', knockout : '3rdparty/knockout/knockout-3.2.0', kojqui : '3rdparty/knockout-jqueryui', sprintf : '3rdparty/sprintf/sprintf.min', leaflet : '3rdparty/leaflet-0.7.3/leaflet', geodesic : '3rdparty/leaflet-0.7.3/Leaflet.Geodesic.min', text : '3rdparty/require/text', flot : '3rdparty/flot/jquery.flot', flotresize : '3rdparty/flot/jquery.flot.resize', flottime : '3rdparty/flot/jquery.flot.time', fgcommand : 'lib/fgcommand', props : 'lib/props2', sammy: '3rdparty/sammy-latest.min', aircraft: '../aircraft-dir', pagedown: '3rdparty/pagedown' } }); require([ 'knockout', 'jquery','sammy', 'fgcommand', 'themeswitch', 'kojqui/button', 'kojqui/buttonset', 'kojqui/selectmenu', 'jquery-ui/sortable', 'flot', 'leaflet' ], function(ko, jquery, Sammy, fgcommand ) { function KnockProps(aliases) { var self = this; self.initWebsocket = function() { self.ws = new WebSocket('ws://' + location.host + '/PropertyListener'); self.ws.onclose = function(ev) { var msg = 'Lost connection to FlightGear. Should I try to reconnect?'; if (confirm(msg)) { // try reconnect self.initWebsocket(); } else { throw new Error(msg); } } self.ws.onerror = function(ev) { var msg = 'Error communicating with FlightGear. Please reload this page and/or restart FlightGear.'; alert(msg); throw new Error(msg); } self.ws.onmessage = function(ev) { try { self.fire(JSON.parse(ev.data)); } catch (e) { } }; self.openCache = []; self.ws.onopen = function(ev) { // send subscriptions when the socket is open var c = self.openCache; delete self.openCache; c.forEach(function(e) { self.addListener(e.prop, e.koObservable); }); for ( var p in self.listeners) { self.addListener(p, self.listeners[p]); } } } self.initWebsocket(); self.fire = function(json) { var value = json.value; var listeners = self.listeners[json.path] || []; listeners.forEach(function(koObservable) { koObservable(value) }); koObservable(json.value); } function resolvePropertyPath(self, pathOrAlias) { if (pathOrAlias in self.aliases) return self.aliases[pathOrAlias]; if (pathOrAlias.charAt(0) == '/') return pathOrAlias; return null; } self.listeners = {} self.removeListener = function(pathOrAlias, koObservable) { var path = resolvePropertyPath(self, pathOrAlias); if (path == null) { console.log("can't remove listener for " + pathOrAlias + ": unknown alias or invalid path."); return self; } var listeners = self.listeners[path] || []; var idx = listeners.indexOf(koObservable); if (idx == -1) { console.log("can't remove listener for " + path + ": not a listener."); return self; } listeners.splice(idx, 1); if (0 == listeners.length) { self.ws.send(JSON.stringify({ command : 'removeListener', node : path })); } return self; } self.addListener = function(alias, koObservable) { if (self.openCache) { // socket not yet open, just cache the request self.openCache.push({ "prop" : alias, "koObservable" : koObservable }); return self; } var path = resolvePropertyPath(self, alias); if (path == null) { console.log("can't listen to " + alias + ": unknown alias or invalid path."); return self; } var listeners = self.listeners[path] = (self.listeners[path] || []); if (listeners.indexOf(koObservable) != -1) { console.log("won't listen to " + path + ": duplicate."); return self; } koObservable.fgPropertyPath = path; koObservable.fgBaseDispose = koObservable.dispose; koObservable.dispose = function() { if( this.fgPropertyPath ) { self.removeListener( this.fgPropertyPath, this ); } this.fgBaseDispose.call(this); } listeners.push(koObservable); koObservable.fgSetPropertyValue = function(value) { self.setPropertyValue( this.fgPropertyPath, value ); } if (1 == listeners.length) { self.ws.send(JSON.stringify({ command : 'addListener', node : path })); } self.ws.send(JSON.stringify({ command : 'get', node : path })); return self; } self.aliases = aliases || {}; self.setAliases = function(arg) { arg.forEach(function(a) { self.aliases[a[0]] = a[1]; }); } self.props = {}; self.get = function(target, prop) { if (self.props[prop]) { return self.props[prop]; } return (self.props[prop] = self.observedProperty( target, prop )); } self.observedProperty = function( target, prop ) { var reply = ko.pureComputed({ read: target, write: function(newValue) { if( newValue == target() ) return; target(newValue); target.notifySubscribers(newValue); } }); self.addListener(prop, reply); return reply; } self.write = function(prop, value) { var path = this.aliases[prop] || ""; if (path.length == 0) { console.log("can't write " + prop + ": unknown alias."); return; } self.setPropertyValue(path,value); } self.setPropertyValue = function(path, value) { this.ws.send(JSON.stringify({ command : 'set', node : path, value : value })); } self.propsToObject = function(prop, map, result) { result = result || {} prop.children.forEach(function(prop) { var target = map[prop.name] || null; if (target) { if (typeof (result[target]) === 'function') { result[target](prop.value); } else { result[target] = prop.value; } } }); return result; } } ko.extenders.fgprop = function(target, prop) { return ko.utils.knockprops.get(target, prop); }; ko.extenders.observedProperty = function(target,prop) { return ko.utils.knockprops.observedProperty(target,prop); }; ko.extenders.fgPropertyGetSet = function(target,option) { fgCommand.getPropertyValue(option, function(value) { target(value); }, self); var p = ko.pureComputed({ read : target, write : function(newValue) { if (newValue == target()) return; target(newValue); target.notifySubscribers(newValue); fgCommand.setPropertyValue(option, newValue ); } }); return p; } ko.utils.knockprops = new KnockProps(); ko.utils.knockprops.setAliases([ // time [ "gmt", "/sim/time/gmt" ], [ "local-offset", "/sim/time/local-offset" ], // flight [ "pitch", "/orientation/pitch-deg" ], [ "roll", "/orientation/roll-deg" ], [ "heading", "/orientation/heading-magnetic-deg" ], [ "true-heading", "/orientation/heading-deg" ], [ "altitude", "/position/altitude-ft" ], [ "latitude", "/position/latitude-deg" ], [ "longitude", "/position/longitude-deg" ], [ "airspeed", "/velocities/airspeed-kt" ], [ "groundspeed", "/velocities/groundspeed-kt" ], [ "slip", "/instrumentation/slip-skid-ball/indicated-slip-skid" ], [ "cg", "/fdm/jsbsim/inertia/cg-x-in" ], [ "weight", "/fdm/jsbsim/inertia/weight-lbs" ], // radio settings [ "com1stn", "/instrumentation/comm/station-name" ], [ "com1use", "/instrumentation/comm/frequencies/selected-mhz" ], [ "com1sby", "/instrumentation/comm/frequencies/standby-mhz" ], [ "com1stn", "/instrumentation/comm/station-name" ], [ "com2stn", "/instrumentation/comm[1]/station-name" ], [ "com2use", "/instrumentation/comm[1]/frequencies/selected-mhz" ], [ "com2sby", "/instrumentation/comm[1]/frequencies/standby-mhz" ], [ "com2stn", "/instrumentation/comm[1]/station-name" ], [ "nav1use", "/instrumentation/nav/frequencies/selected-mhz" ], [ "nav1sby", "/instrumentation/nav/frequencies/standby-mhz" ], [ "nav1stn", "/instrumentation/nav/nav-id" ], [ "nav2use", "/instrumentation/nav[1]/frequencies/selected-mhz" ], [ "nav2sby", "/instrumentation/nav[1]/frequencies/standby-mhz" ], [ "nav2stn", "/instrumentation/nav[1]/nav-id" ], [ "adf1use", "/instrumentation/adf/frequencies/selected-khz" ], [ "adf1sby", "/instrumentation/adf/frequencies/standby-khz" ], [ "adf1stn", "/instrumentation/adf/ident" ], [ "dme1use", "/instrumentation/dme/frequencies/selected-mhz" ], [ "dme1dst", "/instrumentation/dme/indicated-distance-nm" ], [ "xpdrcod", "/instrumentation/transponder/id-code" ], // weather [ "ac-wdir", "/environment/wind-from-heading-deg" ], [ "ac-wspd", "/environment/wind-speed-kt" ], [ "ac-visi", "/environment/visibility-m" ], [ "ac-temp", "/environment/temperature-degc" ], [ "ac-dewp", "/environment/dewpoint-degc" ], [ "gnd-wdir", "/environment/config/boundary/entry/wind-from-heading-deg" ], [ "gnd-wspd", "/environment/config/boundary/entry/wind-speed-kt" ], [ "gnd-visi", "/environment/config/boundary/entry/visibility-m" ], [ "gnd-temp", "/environment/config/boundary/entry/temperature-degc" ], [ "gnd-dewp", "/environment/config/boundary/entry/dewpoint-degc" ], [ "metar-valid", "/environment/metar/valid" ], ]); function PhiViewModel(props) { var self = this; self.props = props; self.widgets = ko.observableArray([ "METAR", "PFD", "Radiostack", "Small Map", "Stopwatch" ]); self.topics = [ 'Aircraft', 'Environment', 'Map', 'Tools', 'Simulator', 'Help', ]; self.selectedTopic = ko.observable(); self.selectedSubtopic = ko.observable(); self.selectTopic = function(topic) { location.hash = topic; } self.refresh = function() { location.reload(); } self.doPause = function() { fgcommand.pause(); } self.doUnpause = function() { fgcommand.unpause(); } jquery("#widgetarea").sortable({ handle: ".widget-handle", axis: "y", cursor: "move", }); jquery("#widgetarea").disableSelection(); // Client-side routes Sammy(function() { this.get('#:topic', function() { self.selectedTopic( this.params.topic ); self.selectedSubtopic(''); }); this.get('#:topic/:subtopic', function() { self.selectedTopic( this.params.topic ); self.selectedSubtopic( this.params.subtopic ); }); // empty route this.get('', function() { this.app.runRoute( 'get', '#' + self.topics[0] ); }); }).run(); } ko.components.register('Aircraft', { require : 'topics/Aircraft' }); ko.components.register('Environment', { require : 'topics/Environment' }); ko.components.register('Map', { require : 'topics/Map' }); ko.components.register('Tools', { require : 'topics/Tools' }); ko.components.register('Simulator', { require : 'topics/Simulator' }); ko.components.register('Help', { require : 'topics/Help' }); ko.components.register('sidebarwidget', { require : 'widgets/sidebarwidget' }); ko.components.register('Small Map', { require : 'widgets/map' }); ko.components.register('Radiostack', { require : 'widgets/radiostack' }); ko.components.register('AircraftMarker', { require : 'widgets/AircraftMarker' }); ko.components.register('METAR', { require : 'widgets/metar' }); ko.components.register('PFD', { require : 'widgets/efis' }); ko.components.register('Stopwatch', { require : 'widgets/Stopwatch' }); ko.components.register('dualarcgauge', { require: 'instruments/DualArcGauge' }) ko.bindingHandlers.flotchart = { init : function(element, valueAccessor, allBindings) { // This will be called when the binding is first applied to an // element // Set up any initial state, event handlers, etc. here var value = valueAccessor() || {}; if (value.hover && typeof (value.hover) === 'function') { jquery(element).bind("plothover", function(event, pos, item) { value.hover.call(jquery(this).data("flotplot"), pos, item); }); } if (value.click && typeof (value.click) === 'function') { jquery(element).bind("plotclick", function(event, pos, item) { value.click.call(jquery(this).data("flotplot"), pos, item); }); } }, update : function(element, valueAccessor, allBindings) { var value = valueAccessor() || {}; var data = ko.unwrap(value.data); var options = ko.unwrap(value.options); var plot = jquery.plot(element, data, options); jquery(element).data("flotplot", plot ); var postUpdate = ko.unwrap(value.postUpdate); if( postUpdate ) { postUpdate.call( value, element ); } }, }; ko.applyBindings(new PhiViewModel(),document.getElementById('wrapper')); });