this.getChildByName = function (name) { let nodes = this.children.filter(el => el.displayName == name); return nodes[0] } this.nodeDef = function () { let def = _app.helpers.getNodeDef(this.id); return def } this.clone = function () { let nodeDef = _app.helpers.getNodeDef(this.id); return nodeDef } this.getScene = function () { let scene = this.find("/")[0]; return scene } this.setGizmoMode = function (mode) { if (this.gizmo) { this.gizmo.properties.mode = mode } } this.showCloseGizmo = function () { let gizmoNode = { "extends": "proxy/aframe/gizmoComponent.vwf", "type": "component", "properties": { "mode": "translate" } } if (this.properties.edit) { this.children.create("gizmo", gizmoNode); } else { if (this.gizmo) { this.children.delete(this.gizmo) } } } // Parse a parameter as a translation specification. this.translationFromValue = function (propertyValue) { var value = new THREE.Vector3();//goog.vec.Vec3.create(); if (propertyValue.hasOwnProperty('x')) { value = value.set(propertyValue.x, propertyValue.y, propertyValue.z) } else if (Array.isArray(propertyValue)) { value = value.fromArray(propertyValue); } else if (typeof propertyValue === 'string') { let val = propertyValue.includes(',') ? AFRAME.utils.coordinates.parse(propertyValue.split(',').join(' ')) : AFRAME.utils.coordinates.parse(propertyValue); value = value.set(val.x, val.y, val.z) } else if (propertyValue.hasOwnProperty('0')) { value = value.set(propertyValue[0], propertyValue[1], propertyValue[2]) } return value // return value && value.length >= 3 ? // value : // goog.vec.Vec3.create(); }; this.sendOSC = function (msg) { //sending OSC msg vwf_view.kernel.fireEvent(this.id, "sendOSC", [msg]); // if (_OSCManager.port !== null) { // _OSCManager.port.send(msg); // } //on driver side } // this.clickEvent = function () { // //this.intersectEventMethod(); // } // this.intersectEvent = function () { // //this.intersectEventMethod(); // } // this.clearIntersectEvent = function () { // //this.clearIntersectEventMethod(); // } this.intersectEventMethod = function (point) { //intersect method } this.clearIntersectEventMethod = function () { //clearIntersect method } this.hitstartEventMethod = function () { //intersect method } this.hitendEventMethod = function () { //clearIntersect method } this.clickEventMethod = function (value) { //clickEventMethod } this.mousedownEventMethod = function (value) { //clickEventMethod } this.mouseupEventMethod = function (value) { //clickEventMethod } this.setOwner = function (param) { var clients = this.find("doc('proxy/clients.vwf')")[0]; if (clients !== undefined) { //console.log(clients.children); let clientsArray = []; clients.children.forEach(function (element) { clientsArray.push(element.name); }); //console.log(clientsArray); if (this.ownedBy) { if (clientsArray.includes(this.ownedBy)) { console.log(this.id + " already owned by: " + param); } else { this.ownedBy = param; //console.log(this.id + ' set owner to: ' + param); } } else { this.ownedBy = param; //console.log(this.id + ' set owner to: ' + param); } } } this.updateMethod = function (methodName, methodBody, params) { vwf.setMethod(this.id, methodName, { body: methodBody, type: "application/javascript", parameters: params }); } this.callMethod = function (methodName, params) { vwf.callMethod(this.id, methodName, params) } this.do = function () { //do in step } this.step = function () { if (this.stepping) { this.do(); } let t = this.stepTime ? this.stepTime : 0.05; this.future(t).step(); } this.onGlobalBeat = function (obj) { //dispatch the beat example send OSC let transportNode = this.find('//' + obj.name)[0]; let rate = transportNode.animationRate; // 1 by default let drumSeq = [ { beat: 0, msg: 0 }, { beat: 30, msg: 0 }]; drumSeq.forEach(el => { if (el.beat / rate == obj.beat) { let msg = { address: "/trigger/sample01", args: [this.time, 'bd_808', 3] }; //for synth {beat:0, msg: "A"} //let msg = { // address: "/trigger/synth01", // args: [this.time, 'piano', el.msg, 0.1, 1]}; // this.sendOSC(msg); // this.changeVisual(); } }) } this.changeVisual = function () { //code for changing me this.future(0.1).resetVisual(); } this.resetVisual = function () { } this.getRandomColor = function () { var letters = '0123456789ABCDEF'; var color = '#'; for (var i = 0; i < 6; i++) { color += letters[Math.floor(this.random() * 16)]; } return color; } this.randomize = function () { } // this.position_set = function (value) { // var position = this.translationFromValue(value); // parse incoming value // if (!position || !this.position) { // this.position = new THREE.Vector3(); // } else if (!this.position.equals(position)){ //!goog.vec.Vec3.equals(this.position || goog.vec.Vec3.create(), position)) { // this.position = position; // this.positionChanged(position); // } // } // this.position_get = function () { // return this.position || new THREE.Vector3(); // } // this.rotation_set = function (value) { // var rotation = this.translationFromValue(value); // parse incoming value // if (!rotation || !this.rotation) { // this.rotation = new THREE.Vector3(); // } else if (!this.rotation.equals(rotation)){ //!goog.vec.Vec3.equals(this.rotation || goog.vec.Vec3.create(), rotation)) { // this.rotation = rotation; // this.rotationChanged(rotation); // } // } // this.rotation_get = function () { // return this.rotation || new THREE.Vector3(); // } // this.scale_set = function (value) { // var scale = this.translationFromValue( value ); // parse incoming value // if(!scale || !this.scale){ // this.scale = new THREE.Vector3(); // } else if (!this.scale.equals(scale)){ //! goog.vec.Vec3.equals( this.scale || goog.vec.Vec3.create(), scale ) ) { // this.scale = scale; // this.scaleChanged( scale); // } // } // this.scale_get = function () { // return this.scale || new THREE.Vector3(); // } this.createEditTool = function() { var self = this; //let scene = this.getScene(); if(!this.editTool){ let nodeName = 'editTool'; let node = { "extends": "proxy/objects/edittool.vwf", "properties": {} } this.children.create(nodeName, node, function( child ) { child.createVisual(); }) } } this.globalToLocalRotation = function(aQ, order){ let ord = order ? order: 'XYZ'; let q = this.localQuaternion().inverse().multiply(aQ); //new THREE.Quaternion().setFromEuler(euler) let localEuler = new THREE.Euler().setFromQuaternion(q, ord); return [ THREE.Math.radToDeg(localEuler.x), THREE.Math.radToDeg(localEuler.y), THREE.Math.radToDeg(localEuler.z) ] } this.placeInFrontOf = function(nodeID, dist) { // fixed distance from camera to the object let node = this.getScene().findNodeByID(nodeID); let cwd = node.worldDirection(); //new THREE.Vector3(); cwd.multiplyScalar(dist); cwd.add(node.position); let nodeQ = node.localQuaternion(); let localEuler = new THREE.Euler().setFromQuaternion(nodeQ, 'XYZ'); let rotation = [ THREE.Math.radToDeg(localEuler.x), THREE.Math.radToDeg(localEuler.y), THREE.Math.radToDeg(localEuler.z) ]; this.position = cwd; this.rotation = rotation; }