From 84332ab81c1b445195f1d9be8bbeae0725c8e758 Mon Sep 17 00:00:00 2001
From: Valerio Virgillito
Date: Tue, 6 Mar 2012 10:58:25 -0800
Subject: Squashed commit of preload-fix into Master

- Requiring all the previously pre-loaded files
- RDGE, Codemirror and gl-matrix are not included via a script tag.

Signed-off-by: Valerio Virgillito <valerio@motorola.com>
---
 js/helper-classes/backup-delete/GLAnchorPoint.js   |  168 +++
 js/helper-classes/backup-delete/GLBrushStroke.js   |  397 +++++++
 js/helper-classes/backup-delete/GLCircle.js        |  710 +++++++++++
 js/helper-classes/backup-delete/GLGeomObj.js       |  278 +++++
 js/helper-classes/backup-delete/GLLight.js         |   30 +
 js/helper-classes/backup-delete/GLLine.js          |  507 ++++++++
 js/helper-classes/backup-delete/GLMaterial.js      |  308 +++++
 js/helper-classes/backup-delete/GLPath.js          |  232 ++++
 js/helper-classes/backup-delete/GLRectangle.js     | 1236 ++++++++++++++++++++
 js/helper-classes/backup-delete/GLSubpath.js       | 1185 +++++++++++++++++++
 js/helper-classes/backup-delete/GLWorld.js         | 1014 ++++++++++++++++
 .../backup-delete/Materials/BumpMetalMaterial.js   |  302 +++++
 .../backup-delete/Materials/DeformMaterial.js      |  133 +++
 .../backup-delete/Materials/FlatMaterial.js        |  161 +++
 .../backup-delete/Materials/FlyMaterial.js         |  133 +++
 .../backup-delete/Materials/JuliaMaterial.js       |  150 +++
 .../Materials/KeleidoscopeMaterial.js              |  149 +++
 .../Materials/LinearGradientMaterial.js            |  379 ++++++
 .../backup-delete/Materials/MandelMaterial.js      |  151 +++
 .../backup-delete/Materials/PlasmaMaterial.js      |  134 +++
 .../backup-delete/Materials/PulseMaterial.js       |  263 +++++
 .../backup-delete/Materials/RadialBlurMaterial.js  |  257 ++++
 .../Materials/RadialGradientMaterial.js            |  303 +++++
 .../Materials/ReliefTunnelMaterial.js              |  133 +++
 .../Materials/SquareTunnelMaterial.js              |  133 +++
 .../backup-delete/Materials/StarMaterial.js        |  133 +++
 .../backup-delete/Materials/TaperMaterial.js       |  223 ++++
 .../backup-delete/Materials/TunnelMaterial.js      |  133 +++
 .../backup-delete/Materials/TwistMaterial.js       |  149 +++
 .../backup-delete/Materials/TwistVertMaterial.js   |  248 ++++
 .../backup-delete/Materials/UberMaterial.js        |  673 +++++++++++
 .../backup-delete/Materials/WaterMaterial.js       |  133 +++
 .../backup-delete/Materials/ZInvertMaterial.js     |  133 +++
 .../backup-delete/MaterialsLibrary.js              |  230 ++++
 js/helper-classes/backup-delete/ParseUtils.js      |   84 ++
 js/helper-classes/backup-delete/glUtils.js         |  319 +++++
 36 files changed, 11304 insertions(+)
 create mode 100755 js/helper-classes/backup-delete/GLAnchorPoint.js
 create mode 100755 js/helper-classes/backup-delete/GLBrushStroke.js
 create mode 100755 js/helper-classes/backup-delete/GLCircle.js
 create mode 100755 js/helper-classes/backup-delete/GLGeomObj.js
 create mode 100755 js/helper-classes/backup-delete/GLLight.js
 create mode 100755 js/helper-classes/backup-delete/GLLine.js
 create mode 100755 js/helper-classes/backup-delete/GLMaterial.js
 create mode 100755 js/helper-classes/backup-delete/GLPath.js
 create mode 100755 js/helper-classes/backup-delete/GLRectangle.js
 create mode 100755 js/helper-classes/backup-delete/GLSubpath.js
 create mode 100755 js/helper-classes/backup-delete/GLWorld.js
 create mode 100755 js/helper-classes/backup-delete/Materials/BumpMetalMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/DeformMaterial.js
 create mode 100755 js/helper-classes/backup-delete/Materials/FlatMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/FlyMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/JuliaMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/KeleidoscopeMaterial.js
 create mode 100755 js/helper-classes/backup-delete/Materials/LinearGradientMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/MandelMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/PlasmaMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/PulseMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/RadialBlurMaterial.js
 create mode 100755 js/helper-classes/backup-delete/Materials/RadialGradientMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/ReliefTunnelMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/SquareTunnelMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/StarMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/TaperMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/TunnelMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/TwistMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/TwistVertMaterial.js
 create mode 100755 js/helper-classes/backup-delete/Materials/UberMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/WaterMaterial.js
 create mode 100644 js/helper-classes/backup-delete/Materials/ZInvertMaterial.js
 create mode 100755 js/helper-classes/backup-delete/MaterialsLibrary.js
 create mode 100755 js/helper-classes/backup-delete/ParseUtils.js
 create mode 100755 js/helper-classes/backup-delete/glUtils.js

(limited to 'js/helper-classes/backup-delete')

diff --git a/js/helper-classes/backup-delete/GLAnchorPoint.js b/js/helper-classes/backup-delete/GLAnchorPoint.js
new file mode 100755
index 00000000..c3e95b34
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLAnchorPoint.js
@@ -0,0 +1,168 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+/////////////////////////////////////////////
+// Class GLAnchorPoint
+//      GL representation of a point clicked 
+//          and dragged during pen tool
+//      
+//    
+/////////////////////////////////////////////
+function GLAnchorPoint() {
+    /////////////////////////////////////////
+    // Instance variables 
+    /////////////////////////////////////////
+    this._x = 0.0;
+    this._y = 0.0;
+    this._z = 0.0;
+
+    this._prevX = 0.0;
+    this._prevY = 0.0;
+    this._prevZ = 0.0;
+
+    this._nextX = 0.0;
+    this._nextY = 0.0;
+    this._nextZ = 0.0;
+}
+    // *********** setters ************
+GLAnchorPoint.prototype.setPos = function (x, y, z) { this._x = x; this._y = y; this._z = z; }
+GLAnchorPoint.prototype.setPrevPos = function (x, y, z) { this._prevX = x; this._prevY = y; this._prevZ = z; }
+GLAnchorPoint.prototype.setNextPos = function (x, y, z) { this._nextX = x; this._nextY = y; this._nextZ = z; }
+
+GLAnchorPoint.prototype.setPrevFromNext = function () {
+    //set the previous control point by reflecting the next control point
+    var dispX = this._nextX - this._x;
+    var dispY = this._nextY - this._y;
+    var dispZ = this._nextZ - this._z;
+
+    this._prevX = this._x - dispX;
+    this._prevY = this._y - dispY;
+    this._prevZ = this._z - dispZ;
+}
+GLAnchorPoint.prototype.setNextFromPrev = function () {
+    //set the previous control point by reflecting the next control point
+    var dispX = this._prevX - this._x;
+    var dispY = this._prevY - this._y;
+    var dispZ = this._prevZ - this._z;
+
+    this._nextX = this._x - dispX;
+    this._nextY = this._y - dispY;
+    this._nextZ = this._z - dispZ;
+}
+
+//translate the next point from the translation that was applied to the prev. point
+GLAnchorPoint.prototype.translateNextFromPrev = function (tx, ty, tz) {
+    //do nothing if the total translation is zero
+    var totalTransSq = (tx*tx) + (ty*ty) + (tz*tz);
+    if (totalTransSq < 0.0000001)
+        return;
+    
+    // *** compute the rotation of the prev vector ***
+    var oldP = Vector.create([this._prevX + tx - this._x, this._prevY + ty - this._y, this._prevZ + tz - this._z]);
+    var newP = Vector.create([this._prevX - this._x, this._prevY - this._y, this._prevZ - this._z]);
+    //compute angle between the two vectors
+    var axis = Vector.create([0, 0, 0]);
+    var angle = MathUtils.getAxisAngleBetween3DVectors(oldP, newP, axis);
+    if (angle === 0)
+        return;
+
+    // *** compute the vector from anchor to next
+    var oldN = Vector.create([this._nextX - this._x, this._nextY - this._y, this._nextZ - this._z]);
+    var rotMat = Matrix.Rotation(-angle, axis);
+    var newN = MathUtils.transformVector(oldN, rotMat);
+
+    //TEMP for some situations the axis angle computation returns NaNs
+    if (isNaN(newN[0]) || isNaN(newN[1]) || isNaN(newN[2])) {
+        console.log("NaN in translateNextFromPrev");
+        return;
+    }
+    //end TEMP
+    this._nextX = this._x + newN[0];
+    this._nextY = this._y + newN[1];
+    this._nextZ = this._z + newN[2];
+}
+//translate the next point from the translation that was applied to the prev. point
+GLAnchorPoint.prototype.translatePrevFromNext = function (tx, ty, tz) {
+    //do nothing if the total translation is zero
+    var totalTransSq = (tx*tx) + (ty*ty) + (tz*tz);
+    if (totalTransSq < 0.0000001)
+        return;
+        
+    // *** compute the rotation of the next vector ***
+    var oldN = Vector.create([this._nextX + tx - this._x, this._nextY + ty - this._y, this._nextZ + tz - this._z]);
+    var newN = Vector.create([this._nextX - this._x, this._nextY - this._y, this._nextZ - this._z]);
+    //compute angle between the two vectors
+    var axis = Vector.create([0, 0, 0]);
+    var angle = MathUtils.getAxisAngleBetween3DVectors(oldN, newN, axis);
+    if (angle === 0)
+        return;
+
+    // *** compute the vector from anchor to prev
+    var oldP = Vector.create([this._prevX - this._x, this._prevY - this._y, this._prevZ - this._z]);
+    var rotMat = Matrix.Rotation(-angle, axis);
+    var newP = MathUtils.transformVector(oldP, rotMat);
+
+    //TEMP for some situations the axis angle computation returns NaNs
+    if (isNaN(newP[0]) || isNaN(newP[1]) || isNaN(newP[2])) {
+        return;
+    }
+    //end TEMP
+    this._prevX = this._x + newP[0];
+    this._prevY = this._y + newP[1];
+    this._prevZ = this._z + newP[2];
+}
+
+
+// ******* modifiers *******
+GLAnchorPoint.prototype.translatePrev = function (x, y, z) {
+    this._prevX += x; this._prevY += y; this._prevZ += z;
+}
+GLAnchorPoint.prototype.translateNext = function (x, y, z) {
+    this._nextX += x; this._nextY += y; this._nextZ += z;
+}
+GLAnchorPoint.prototype.translate = function (x, y, z) {
+    this._x += x; this._y += y; this._z += z;
+}
+GLAnchorPoint.prototype.translateAll = function (x, y, z) {
+    this.translate(x, y, z);
+    this.translatePrev(x, y, z);
+    this.translateNext(x, y, z);
+}
+
+
+GLAnchorPoint.prototype.scaleAll = function(sx,sy,sz){
+    this._x *= sx;this._prevX *= sx;this._nextX *= sx;
+    this._y *= sy;this._prevY *= sy;this._nextY *= sy;
+    this._z *= sz;this._prevZ *= sz;this._nextZ *= sz;
+}
+
+
+// ********* getters **********
+GLAnchorPoint.prototype.getPosX = function () { return this._x; }
+GLAnchorPoint.prototype.getPosY = function () { return this._y; }
+GLAnchorPoint.prototype.getPosZ = function () { return this._z; }
+GLAnchorPoint.prototype.getPrevX = function () { return this._prevX; }
+GLAnchorPoint.prototype.getPrevY = function () { return this._prevY; }
+GLAnchorPoint.prototype.getPrevZ = function () { return this._prevZ; }
+GLAnchorPoint.prototype.getNextX = function () { return this._nextX; }
+GLAnchorPoint.prototype.getNextY = function () { return this._nextY; }
+GLAnchorPoint.prototype.getNextZ = function () { return this._nextZ; }
+GLAnchorPoint.prototype.getPos = function() { return Vector.create([this._x, this._y, this._z]);}
+GLAnchorPoint.prototype.getPrev = function() { return Vector.create([this._prevX, this._prevY, this._prevZ]);}
+GLAnchorPoint.prototype.getNext = function() { return Vector.create([this._nextX, this._nextY, this._nextZ]);}
+//return the square of distance from passed in point to the anchor position
+GLAnchorPoint.prototype.getDistanceSq = function (x, y, z) {
+    return (this._x - x) * (this._x - x) + (this._y - y) * (this._y - y) + (this._z - z) * (this._z - z);
+}
+//return sq. of distance to prev.
+GLAnchorPoint.prototype.getPrevDistanceSq = function (x, y, z) {
+    return (this._prevX - x) * (this._prevX - x) + (this._prevY - y) * (this._prevY - y) + (this._prevZ - z) * (this._prevZ - z);
+}
+//return sq. of distance to next
+GLAnchorPoint.prototype.getNextDistanceSq = function (x, y, z) {
+    return (this._nextX - x) * (this._nextX - x) + (this._nextY - y) * (this._nextY - y) + (this._nextZ - z) * (this._nextZ - z);
+}
+
diff --git a/js/helper-classes/backup-delete/GLBrushStroke.js b/js/helper-classes/backup-delete/GLBrushStroke.js
new file mode 100755
index 00000000..5d773c2d
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLBrushStroke.js
@@ -0,0 +1,397 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+// Todo: This entire class should be converted to a module
+var VecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;
+
+///////////////////////////////////////////////////////////////////////
+// Class GLBrushStroke
+//      representation a sequence points (polyline) created by brush tool.
+//      Derived from class GLGeomObj
+///////////////////////////////////////////////////////////////////////
+function GLBrushStroke() {
+    ///////////////////////////////////////////////////
+    // Instance variables
+    ///////////////////////////////////////////////////
+    this._Points = [];
+    this._BBoxMin = [0, 0, 0];
+    this._BBoxMax = [0, 0, 0];
+    this._dirty = true;
+
+    //whether or not to use the canvas drawing to stroke/fill
+    this._useCanvasDrawing = true;
+
+    //the X and Y location of this subpath's canvas in stage world space of Ninja
+    this._canvasX = 0;
+    this._canvasY = 0;
+
+    //stroke information
+    this._strokeWidth = 0.0;
+    this._strokeColor = [0.4, 0.4, 0.4, 1.0];
+    this._strokeMaterial;
+    this._strokeStyle = "Solid";
+
+    //the wetness of the brush (currently this is multiplied to the square of the stroke width, but todo should be changed to not depend on stroke width entirely
+    //smaller value means more samples for the path
+    this._WETNESS_FACTOR = 0.25;
+
+    //prevent extremely long paths that can take a long time to render
+    this._MAX_ALLOWED_SAMPLES = 500;
+
+    //drawing context
+    this._world = null;
+
+    //tool that owns this brushstroke
+    this._drawingTool = null;
+    this._planeMat = null;
+    this._planeMatInv = null;
+    this._planeCenter = null;
+
+    // initialize the inherited members
+    this.inheritedFrom = GLGeomObj;
+    this.inheritedFrom();
+
+    /////////////////////////////////////////////////////////
+    // Property Accessors/Setters
+    /////////////////////////////////////////////////////////
+    this.setWorld = function (world) { this._world = world; }
+    this.getWorld = function () { return this._world; }
+    this.geomType = function () { return this.GEOM_TYPE_CUBIC_BEZIER; }
+    this.setDrawingTool = function (tool) {this._drawingTool = tool;}
+    this.getDrawingTool = function () {return this._drawingTool;}
+    this.setPlaneMatrix = function(planeMat){this._planeMat = planeMat;}
+    this.setPlaneMatrixInverse = function(planeMatInv){this._planeMatInv = planeMatInv;}
+    this.setPlaneCenter = function(pc){this._planeCenter = pc;}
+
+    this.getCanvasX = function(){return this._canvasX;}
+    this.getCanvasY = function(){return this._canvasY;}
+    this.setCanvasX = function(cx){this._canvasX=cx;}
+    this.setCanvasY = function(cy){this._canvasY=cy;}
+        
+
+    this.getNumPoints = function () { return this._Points.length; }
+    this.getPoint = function (index) { return this._Points[index]; }
+    this.addPoint = function (pt)
+    {
+        //add the point only if it is some epsilon away from the previous point
+        var numPoints = this._Points.length;
+        if (numPoints>0) {
+            var threshold = this._WETNESS_FACTOR*this._strokeWidth;
+            var prevPt = this._Points[numPoints-1];
+            var diffPt = [prevPt[0]-pt[0], prevPt[1]-pt[1]];
+            var diffPtMag = Math.sqrt(diffPt[0]*diffPt[0] + diffPt[1]*diffPt[1]);
+            if (diffPtMag>threshold){
+                this._Points.push(pt);
+                this._dirty=true;
+            }
+        }else{
+            this._Points.push(pt);
+            this._dirty=true;
+        }
+    }
+    
+    this.insertPoint = function(pt, index){ this._Points.splice(index, 0, pt); this._dirty=true;}
+    this.isDirty = function(){return this._dirty;}
+    this.makeDirty = function(){this._dirty=true;}
+
+    this.getBBoxMin = function () { return this._BBoxMin; }
+    this.getBBoxMax = function () { return this._BBoxMax; }
+
+    this.getStrokeWidth = function () { return this._strokeWidth; }
+    this.setStrokeWidth = function (w) { this._strokeWidth = w; this._dirty=true;}
+    this.getStrokeMaterial = function () { return this._strokeMaterial; }
+    this.setStrokeMaterial = function (m) { this._strokeMaterial = m; }
+    this.getStrokeColor = function () { return this._strokeColor; }
+    this.setStrokeColor = function (c) { this._strokeColor = c; }
+    this.getStrokeStyle = function () { return this._strokeStyle; }
+    this.setStrokeStyle = function (s) { this._strokeStyle = s; }
+
+    this.setWidth = function () { }//NO-OP for now
+    this.setHeight = function () {}//NO-OP for now
+
+
+    //remove and return anchor at specified index, return null on error
+    this.removePoint = function (index) {
+        var retAnchor = null;
+        if (index < this._Points.length) {
+            retPt = this._Points.splice(index, 1);
+            this._dirty=true;
+        }
+        return retPoint;
+    }
+
+    //remove all the points
+    this.clear = function () { this._Points = []; this._dirty=true;}
+
+    this.translate = function (tx, ty, tz) {
+        for (var i=0;i<this._Points.length;i++){
+            this._Points[i][0]+=tx;
+            this._Points[i][1]+=ty;
+            this._Points[i][2]+=tz;
+        }
+    }
+
+    this.computeMetaGeometry = function(){
+        if (this._dirty){
+            var numPoints = this._Points.length;
+
+            //**** add samples to the path if needed...linear interpolation for now
+            if (numPoints>1) {
+                var threshold = this._WETNESS_FACTOR*this._strokeWidth;
+                var prevPt = this._Points[0];
+                var prevIndex = 0;
+                for (var i=1;i<numPoints;i++){
+                    var pt = this._Points[i];
+                    var diff = [pt[0]-prevPt[0], pt[1]-prevPt[1]];
+                    var distance = Math.sqrt(diff[0]*diff[0]+diff[1]*diff[1]);
+                    if (distance>threshold){
+                        //insert points along the prev. to current point
+                        var numNewPoints = Math.floor(distance/threshold);
+                        for (var j=0;j<numNewPoints;j++){
+                            var param = (j+1)/(numNewPoints+1);
+                            var newpt = [prevPt[0]+ diff[0]*param, prevPt[1]+ diff[1]*param];
+                            //insert new point before point i
+                            this._Points.splice(i, 0, [newpt[0], newpt[1], 0]);
+                            i++;
+                        }
+                        this._dirty=true;
+                    }
+                    prevPt=pt;
+                    //update numPoints to match the new length
+                    numPoints = this._Points.length;
+
+                    //end this function if the numPoints has gone above the max. size specified
+                    if (numPoints> this._MAX_ALLOWED_SAMPLES){
+                        console.log("leaving the resampling because numPoints is greater than limit:"+this._MAX_ALLOWED_SAMPLES);
+                        break;
+                    }
+                }
+            }
+
+            // *** compute the bounding box *********
+            this._BBoxMin = [Infinity, Infinity, Infinity];
+            this._BBoxMax = [-Infinity, -Infinity, -Infinity];
+            numPoints = this._Points.length;
+            if (numPoints === 0) {
+                this._BBoxMin = [0, 0, 0];
+                this._BBoxMax = [0, 0, 0];
+            } else {
+                for (var i=0;i<numPoints;i++){
+                    var pt = this._Points[i];
+                    for (var d = 0; d < 3; d++) {
+                        if (this._BBoxMin[d] > pt[d]) {
+                            this._BBoxMin[d] = pt[d];
+                        }
+                        if (this._BBoxMax[d] < pt[d]) {
+                            this._BBoxMax[d] = pt[d];
+                        }
+                    }//for every dimension d from 0 to 2
+                }
+            }
+             //increase the bbox given the stroke width
+            for (var d = 0; d < 3; d++) {
+                this._BBoxMin[d]-= this._strokeWidth/2;
+                this._BBoxMax[d]+= this._strokeWidth/2;
+            }//for every dimension d from 0 to 2
+        }
+        this._dirty = false;
+    }
+
+    this.buildBuffers = function () {
+        return; //no need to do anything for now
+    }//buildBuffers()
+
+    //render
+    //  specify how to render the subpath in Canvas2D
+    this.render = function () {
+        // get the world
+        var world = this.getWorld();
+        if (!world)  throw( "null world in brushstroke render" );
+
+         // get the context
+        var ctx = world.get2DContext();
+        if (!ctx)  throw ("null context in brushstroke render")
+
+        var numPoints = this.getNumPoints();
+        if (numPoints === 0)
+            return; //nothing to do for empty paths
+
+        ctx.save();
+
+        this.computeMetaGeometry();
+        var bboxMin = this.getBBoxMin();
+        var bboxMax = this.getBBoxMax();
+        var bboxWidth = bboxMax[0] - bboxMin[0];
+        var bboxHeight = bboxMax[1] - bboxMin[1];
+        ctx.clearRect(0, 0, bboxWidth, bboxHeight);
+
+        /*
+        ctx.lineWidth = this._strokeWidth;
+        ctx.strokeStyle = "black";
+        if (this._strokeColor)
+            ctx.strokeStyle = MathUtils.colorToHex( this._strokeColor );
+        ctx.fillStyle = "blue";
+        if (this._fillColor)
+            ctx.fillStyle = MathUtils.colorToHex( this._fillColor );
+        var lineCap = ['butt','round','square'];
+        ctx.lineCap = lineCap[1];
+        ctx.beginPath();
+        var firstPoint = this._Points[0];
+        ctx.moveTo(firstPoint[0]-bboxMin[0], firstPoint[1]-bboxMin[1]);
+        for (var i = 1; i < numPoints; i++) {
+            var pt = this._Points[i];
+            ctx.lineTo(pt[0]-bboxMin[0], pt[1]-bboxMin[1]);
+        }
+        ctx.stroke();
+        */
+
+        /*
+        var isDebug = false;
+        var prevPt = this._Points[0];
+        var prevX = prevPt[0]-bboxMin[0];
+        var prevY = prevPt[1]-bboxMin[1];
+        prevPt = [prevX,prevY];
+        for (var i = 1; i < numPoints; i++) {
+            var pt = this._Points[i];
+            ctx.globalCompositeOperation = 'source-over';
+            var x = pt[0]-bboxMin[0];
+            var y = pt[1]-bboxMin[1];
+            pt = [x,y];
+
+            //vector from prev to current pt
+            var seg = VecUtils.vecSubtract(2, pt, prevPt);
+            var segDir = VecUtils.vecNormalize(2, seg, 1.0);
+
+            var segMidPt = VecUtils.vecInterpolate(2, pt, prevPt, 0.5);
+            var w2 = this._strokeWidth*0.5;
+            var segDirOrtho = [w2*segDir[1], -w2*segDir[0]];
+            
+            //add half the strokewidth to the segMidPt
+            var lgStart = VecUtils.vecAdd(2, segMidPt, segDirOrtho);
+            var lgEnd = VecUtils.vecSubtract(2, segMidPt, segDirOrtho);
+
+            ctx.save();
+            ctx.beginPath();
+
+            if (isDebug) {
+                ctx.strokeStyle="black";
+                ctx.lineWidth = 1;
+
+                ctx.moveTo(lgStart[0], lgStart[1]);
+                ctx.lineTo(lgEnd[0], lgEnd[1]);
+                ctx.stroke();
+            }
+
+            var lg = ctx.createLinearGradient(lgStart[0], lgStart[1], lgEnd[0], lgEnd[1]);
+            lg.addColorStop(1, 'rgba(0,0,0,0.0)');
+            lg.addColorStop(0.5,'rgba(255,0,0,1.0)');
+            lg.addColorStop(0, 'rgba(0,0,0,0.0)');
+            ctx.fillStyle = lg;
+
+            if (isDebug){
+                ctx.strokeStyle="blue";
+                ctx.lineWidth=0.5;
+            }
+            ctx.moveTo(prevX-w2, prevY);
+            ctx.lineTo(prevX+w2, prevY);
+            ctx.lineTo(x+w2, y);
+            ctx.lineTo(x-w2, y);
+            ctx.lineTo(prevX-w2, prevY);
+            ctx.fill();
+            ctx.closePath();
+
+            ctx.restore();
+
+            prevPt = pt;
+            prevX = x;
+            prevY = y;
+        }
+        
+
+        if (isDebug)
+            ctx.stroke();
+
+        if (isDebug){
+            //draw the skeleton of this stroke
+            ctx.lineWidth = 1;
+            ctx.strokeStyle = "black";
+            var pt = this._Points[0];
+            ctx.beginPath();
+            ctx.moveTo(pt[0]-bboxMin[0],pt[1]-bboxMin[1]);
+            for (var i = 1; i < numPoints; i++) {
+                pt = this._Points[i];
+                var x = pt[0]-bboxMin[0];
+                var y = pt[1]-bboxMin[1];
+                ctx.lineTo(x,y);
+            }
+            ctx.stroke();
+        }
+        */
+
+
+        var R2 = this._strokeWidth;
+        var R = R2*0.5;
+        var hardness = 0; //for a pencil, this is always 1 //TODO get hardness parameter from user interface
+        var innerRadius = (hardness*R)-1;
+        if (innerRadius<1)
+            innerRadius=1;
+
+        var r = ctx.createRadialGradient(0,0,innerRadius, 0,0,R);
+        var midColor = "rgba("+parseInt(255*this._strokeColor[0])+","+parseInt(255*this._strokeColor[1])+","+parseInt(255*this._strokeColor[2])+",1)";
+        r.addColorStop(0, midColor);
+        var endColor = "rgba("+parseInt(255*this._strokeColor[0])+","+parseInt(255*this._strokeColor[1])+","+parseInt(255*this._strokeColor[2])+",0.0)";
+        r.addColorStop(1, endColor);
+        ctx.fillStyle = r;
+
+        for (var i = 0; i < numPoints; i++) {
+            var pt = this._Points[i];
+            ctx.globalCompositeOperation = 'source-over';
+            var x = pt[0]-bboxMin[0];
+            var y = pt[1]-bboxMin[1];
+            ctx.save();
+            ctx.translate(x,y);
+            ctx.arc(0, 0, R, 0, 2 * Math.PI, false);
+            ctx.fill();
+            ctx.restore();
+            //ctx.globalCompositeOperation = 'source-in';
+            //ctx.rect(x-R, y-R, R2, R2);
+        }
+
+        ctx.restore();
+    } //render()
+
+
+    this.export = function()
+    {
+        var rtnStr = "type: " + this.geomType() + "\n";
+        return rtnStr;
+    }
+
+    this.import = function( importStr )
+    {
+    }
+
+    this.collidesWithPoint = function (x, y, z) {
+        if (x < this._BBoxMin[0]) return false;
+        if (x > this._BBoxMax[0]) return false;
+        if (y < this._BBoxMin[1]) return false;
+        if (y > this._BBoxMax[1]) return false;
+        if (z < this._BBoxMin[2]) return false;
+        if (z > this._BBoxMax[2]) return false;
+
+        return true;
+    }
+
+    this.collidesWithPoint = function (x, y) {
+        if (x < this._BBoxMin[0]) return false;
+        if (x > this._BBoxMax[0]) return false;
+        if (y < this._BBoxMin[1]) return false;
+        if (y > this._BBoxMax[1]) return false;
+
+        return true;
+    }
+
+} //function GLSubpath ...class definition
\ No newline at end of file
diff --git a/js/helper-classes/backup-delete/GLCircle.js b/js/helper-classes/backup-delete/GLCircle.js
new file mode 100755
index 00000000..15ed6b6d
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLCircle.js
@@ -0,0 +1,710 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+///////////////////////////////////////////////////////////////////////
+// Class GLCircle
+//      GL representation of a circle.
+//      Derived from class GLGeomObj
+//		The position and dimensions of the stroke, fill, and inner Radius should be in pixels
+///////////////////////////////////////////////////////////////////////
+function GLCircle()
+{
+
+	// initialize the inherited members
+	this.inheritedFrom = GLGeomObj;
+	this.inheritedFrom();
+
+	this.init = function( world, xOffset, yOffset, width, height, strokeSize, strokeColor, fillColor, innerRadius, strokeMaterial, fillMaterial, strokeStyle)
+	{
+		///////////////////////////////////////////////////////////////////////
+		// Instance variables
+		///////////////////////////////////////////////////////////////////////
+		this._width = 2.0;
+		this._height = 2.0;
+		this._xOffset = 0;
+		this._yOffset = 0;
+
+		this._radius = 2.0;
+		this._strokeWidth = 0.25;
+		this._innerRadius = 0;
+
+		this._ovalHeight = this._ovalHeight = 2.0*this.radius;
+
+		this._strokeStyle = "Solid";
+
+		this._aspectRatio = 1.0;
+
+
+		if (arguments.length > 0)
+		{
+			this._width = width;
+			this._height = height;
+			this._xOffset = xOffset;
+			this._yOffset = yOffset;
+        
+			this._strokeWidth = strokeSize;
+			this._innerRadius = innerRadius;
+			if (strokeColor)  this._strokeColor = strokeColor;
+			if (fillColor)  this._fillColor = fillColor;
+
+			this._strokeStyle = strokeStyle;
+		}
+
+		this.m_world = world;
+
+
+		if(strokeMaterial)
+			this._strokeMaterial = strokeMaterial;
+		else
+			this._strokeMaterial = new FlatMaterial();
+
+		if(fillMaterial)
+			this._fillMaterial = fillMaterial;
+		else 
+			this._fillMaterial = new FlatMaterial();
+	}
+
+    ///////////////////////////////////////////////////////////////////////
+    // Property Accessors
+    ///////////////////////////////////////////////////////////////////////
+	this.getStrokeWidth		= function()		{  return this._strokeWidth;		}
+	this.setStrokeWidth		= function(w)		{  this._strokeWidth = w;			}
+
+	this.getStrokeMaterial	= function()		{  return this._strokeMaterial;		}
+	this.setStrokeMaterial	= function(m)		{  this._strokeMaterial = m;		}
+
+	this.getFillMaterial	= function()		{  return this._fillMaterial;		}
+	this.setFillMaterial	= function(m)		{  this._fillMaterial = m;			}
+
+	this.getRadius			= function()		{  return this._radius;				}
+	this.setRadius			= function(r)		{  this._radius = r;				}
+
+	this.getWorld			= function()		{  return this._world;				}
+	this.setWorld			= function(w)		{  this._world = w;					}
+
+    this.getInnerRadius		= function()		{  return this._innerRadius;		}
+	this.setInnerRadius		= function(r)		{  this._innerRadius = r;			}
+
+    this.getStrokeStyle	= function()		{  return this._strokeStyle;			}
+	this.setStrokeStyle	= function(s)		{  this._strokeStyle = s;				}
+
+	this.getWidth			= function()		{  return this._width;				}
+	this.setWidth			= function(w)		{  this._width = w;					}
+
+	this.getHeight			= function()		{  return this._height;				}
+	this.setHeight			= function(h)		{  this._height = h;				}
+
+	this.geomType	= function()				{  return this.GEOM_TYPE_CIRCLE;	}
+
+    ///////////////////////////////////////////////////////////////////////
+    // Methods
+    ///////////////////////////////////////////////////////////////////////
+
+    ///////////////////////////////////////////////////////////////////////
+	// update the "color of the material
+    this.getFillColor = function()
+	{
+		return this._fillColor;
+	}
+	
+//	this.setFillColor = function(c)
+//	{
+//		this._fillColor = c;
+//	}
+
+    this.getStrokeColor	= function()
+	{
+		return this._strokeColor;
+	}
+	
+//	this.setStrokeColor	= function(c)
+//	{
+//		this._strokeColor = c;
+//	}
+    ///////////////////////////////////////////////////////////////////////
+
+	this.buildBuffers = function()
+    {
+        // get the world
+        var world = this.getWorld();
+        if (!world)  throw( "null world in buildBuffers" );
+
+		if (!world._useWebGL)  return;
+		
+		// make sure RDGE has the correct context
+		g_Engine.setContext( world.getCanvas().rdgeid );
+
+         // create the gl buffer
+        var gl = world.getGLContext();
+
+        // determine the number of triangles to generate
+        var nTriangles = 60;        // yes, we will do better than this
+
+		// get the normalized device coordinates (NDC) for
+		// all position and dimensions.
+		var	vpw = world.getViewportWidth(),  vph = world.getViewportHeight();
+		var	xNDC = 2*this._xOffset/vpw,  yNDC = 2*this._yOffset/vph,
+			xRadNDC = this._width/vpw,  yRadNDC = this._height/vph,
+			xStrokeNDC = 2*this._strokeWidth/vpw,  yStrokeNDC = 2*this._strokeWidth/vph,
+			xInnRadNDC = this._innerRadius*xRadNDC,  yInnRadNDC = this._innerRadius*yRadNDC;
+
+		var aspect = world.getAspect();
+		var zn = world.getZNear(),  zf = world.getZFar();
+		var	t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
+			b = -t,
+			r = aspect*t,
+			l = -r;
+
+		// calculate the object coordinates from their NDC coordinates
+		var z = -world.getViewDistance();
+
+		// get the position of the origin
+		var x = -z*(r-l)/(2.0*zn)*xNDC,
+			y = -z*(t-b)/(2.0*zn)*yNDC;
+
+		// get the x and y radii
+		var xRad = -z*(r-l)/(2.0*zn)*xRadNDC,
+			yRad = -z*(t-b)/(2.0*zn)*yRadNDC;
+
+		// save the overall dimensions to be used in the uv calculations
+		this._ovalWidth = xRad;  this._ovalHeight = yRad;
+
+		// get the x & y stroke size
+		var xStroke = -z*(r-l)/(2.0*zn)*xStrokeNDC,
+			yStroke = -z*(t-b)/(2.0*zn)*yStrokeNDC;
+
+		// get the inner radius
+		var xInnRad = -z*(r-l)/(2.0*zn)*xInnRadNDC,
+			yInnRad = -z*(t-b)/(2.0*zn)*yInnRadNDC;
+        
+		// get a matrix to rotate a point around the circle
+        var angle = 2.0*Math.PI/Number(nTriangles);
+        var mat = Matrix.RotationZ( angle );
+		var reverseRotMat = Matrix.RotationZ( -angle );
+
+		// calculate matrices to scale the circle and stroke to fit the bounds of the ellipse
+		var strokeScaleMat = Matrix.I(4);
+		strokeScaleMat[0] = xRad;
+		strokeScaleMat[5] = yRad;
+
+		var fillScaleMat = Matrix.I(4);
+		fillScaleMat[0] = xRad - xStroke;
+		fillScaleMat[5] = yRad - yStroke;
+
+		var innerRadiusScaleMat = Matrix.I(4);
+		innerRadiusScaleMat[0] = xInnRad;
+		innerRadiusScaleMat[5] = yInnRad;
+
+		var innerStrokeScaleMat = Matrix.I(4);
+		innerStrokeScaleMat[0] = xInnRad - xStroke;
+		innerStrokeScaleMat[5] = yInnRad - yStroke;
+
+		var fillPrim,  strokePrim0,  strokePrim1;
+		var fillMaterial,  strokeMaterial0,  strokeMaterial2;
+
+        this._primArray = [];
+        this._materialArray = [];
+		this._materialTypeArray = [];
+	    this._materialNodeArray = [];
+
+        /////////////////////////////////////////////////////////////
+        // Strokes
+        if(this._strokeWidth > 0)
+        {
+            var numStrokes = 1;
+            if(this._innerRadius !== 0)
+                strokePrim0 = this.generateOvalRing(x, y, reverseRotMat, innerStrokeScaleMat, innerRadiusScaleMat, nTriangles);
+
+            strokePrim1 = this.generateOvalRing(x, y, reverseRotMat, fillScaleMat, strokeScaleMat, nTriangles);
+        }
+        
+		/////////////////////////////////////////////////////////////
+		//  Fill
+        if(this._innerRadius === 0)
+            fillPrim = this.generateOval(x, y, mat, fillScaleMat, nTriangles);
+        else
+            fillPrim = this.generateOvalRing(x, y, reverseRotMat, innerRadiusScaleMat, fillScaleMat, nTriangles);
+
+		if (fillPrim)
+		{
+            fillMaterial = this.makeFillMaterial();
+
+            this._primArray.push( fillPrim );
+            this._materialNodeArray.push( fillMaterial.getMaterialNode() );
+		}
+		if (strokePrim0)
+		{
+            strokeMaterial0 = this.makeStrokeMaterial();
+
+            this._primArray.push( strokePrim0 );
+            this._materialNodeArray.push( strokeMaterial0.getMaterialNode() );
+		}
+		if (strokePrim1)
+		{
+            strokeMaterial2 = this.makeStrokeMaterial();
+
+            this._primArray.push( strokePrim1 );
+            this._materialNodeArray.push( strokeMaterial2.getMaterialNode() );
+		}
+
+        world.updateObject(this);
+    }
+
+
+    this.generateOval = function(xOff, yOff, rotationMat, scaleMat, nTriangles)
+    {
+        var pt = [1.0, 0.0, 0.0];
+        //var pts = scaleMat.multiply(pt);
+		var pts = glmat4.multiplyVec3( scaleMat, pt, []);
+        var x = pts[0],  y = pts[1], z = 0;
+        var xs = scaleMat[0], ys = scaleMat[4];
+
+		var	vrts = [], nrms = [], uvs = [], indices = [];
+		var index = 0;
+        for (var i=0;  i<nTriangles;  i++)
+        {
+            //pt = rotationMat.multiply( pt );
+            //pts = scaleMat.multiply(pt);
+            glmat4.multiplyVec3( rotationMat, pt );
+            glmat4.multiplyVec3( scaleMat, pt, pts );
+
+            // push the 3 vertices for the next triangle
+            vrts.push(pts[0]+xOff);	vrts.push(pts[1]+yOff);	vrts.push(z);
+			vrts.push(x+xOff);			vrts.push(y+yOff);			vrts.push(z);
+            vrts.push(xOff);			vrts.push(yOff);			vrts.push(z);
+
+            // push a texture coordinate pair for each vertex
+            uvs.push(0.5);					uvs.push(0.5);
+            uvs.push(x/(2.0 * xs) + 0.5,  y/(2.0 * ys) + 0.5);
+            uvs.push(pts[0]/(2.0 * xs) + 0.5, pts[1]/(2.0 * ys) + 0.5);
+
+            // push a normal for each vertex
+            nrms.push(0.0);  nrms.push(0.0);  nrms.push(1);
+            nrms.push(0.0);  nrms.push(0.0);  nrms.push(1);
+            nrms.push(0.0);  nrms.push(0.0);  nrms.push(1);
+
+            x = pts[0];  y = pts[1];
+
+			indices[index] = index++;
+			indices[index] = index++;
+			indices[index] = index++;
+        }
+
+		this.recalcTexMapCoords( vrts, uvs );
+		var prim = ShapePrimitive.create(vrts, nrms, uvs, indices, g_Engine.getContext().renderer.TRIANGLES, index);
+		return prim;
+    }
+
+    this.generateOvalRing = function(xOff, yOff, rotationMat, innerScaleMat, outerScaleMat, nTriangles)
+    {
+        var pt = [1.0, 0.0, 0.0];
+
+		var z = 0;
+		var pt0s,  pt1s;
+        //pt0s = innerScaleMat.multiply(pt);
+        //pt1s = outerScaleMat.multiply(pt);
+        pt0s = glmat4.multiplyVec3(innerScaleMat, pt, []);
+        pt1s = glmat4.multiplyVec3(outerScaleMat, pt, []);
+
+		var	vrts = [], nrms = [], uvs = [], indices = [];
+		var index = 0;
+
+        // normals
+        var insideAngle  = -15.0*Math.PI/180.0,
+            outsideAngle =  15.0*Math.PI/180.0;
+        var cs1 = Math.cos(insideAngle),  sn0 = Math.sin(insideAngle),
+            cs0 = Math.cos(outsideAngle), sn1 = Math.sin(outsideAngle);
+        var nrm0 = [-sn0, 0,  cs0],
+            nrm1 = [-sn1, 0,  cs1];
+        
+        var index = 0;
+        vrts.push( pt0s[0]+xOff);  vrts.push(pt0s[1]+yOff);  vrts.push(z);
+        vrts.push( pt1s[0]+xOff);  vrts.push(pt1s[1]+yOff);  vrts.push(z);
+        uvs.push(0.5*pt0s[0] + 0.5);  uvs.push(0.5*pt0s[1] + 0.5);
+        uvs.push(0.5*pt1s[0] + 0.5);  uvs.push(0.5*pt1s[1] + 0.5);
+        nrms.push( nrm0[0] );  nrms.push(nrm0[1] );  nrms.push(nrm0[2] );
+        nrms.push( nrm1[0] );  nrms.push(nrm1[1] );  nrms.push(nrm1[2] );
+        indices[index] = index++;
+        indices[index] = index++;
+
+        for (var i=0;  i<nTriangles;  i++)
+        {
+            pt   = glmat4.multiplyVec3( rotationMat, pt );
+            glmat4.multiplyVec3( innerScaleMat, pt, pt0s );
+            glmat4.multiplyVec3( outerScaleMat, pt, pt1s );
+
+            // vertices
+            vrts.push( pt0s[0]+xOff);  vrts.push(pt0s[1]+yOff);  vrts.push(z);
+            vrts.push( pt1s[0]+xOff);  vrts.push(pt1s[1]+yOff);  vrts.push(z);
+
+            // textures
+            uvs.push(0.5*pt0s[0] + 0.5);  uvs.push(0.5*pt0s[1] + 0.5);
+            uvs.push(0.5*pt1s[0] + 0.5);  uvs.push(0.5*pt1s[1] + 0.5);
+
+            // normals
+            glmat4.multiplyVec3( rotationMat, nrm0 );
+            glmat4.multiplyVec3( rotationMat, nrm1 );
+            nrms.push( nrm0[0]);  nrms.push(nrm0[1]);  nrms.push(nrm0[2] );
+            nrms.push( nrm1[0]);  nrms.push(nrm1[1]);  nrms.push(nrm1[2] );
+			indices[index] = index++;
+			indices[index] = index++;
+        }
+
+		this.recalcTexMapCoords( vrts, uvs );
+		var prim = ShapePrimitive.create(vrts, nrms, uvs, indices, g_Engine.getContext().renderer.TRIANGLE_STRIP, indices.length);
+		return prim;
+    }
+
+    this.render = function()
+    {
+        // get the world
+        var world = this.getWorld();
+        if (!world)  throw( "null world in buildBuffers" );
+
+         // get the context
+		var ctx = world.get2DContext();
+		if (!ctx)  return;
+
+		// declare some variables
+		var p0, p1;
+		var x0, y1,   x1, y1;
+
+		// create the matrix
+		var lineWidth = this._strokeWidth;
+		var innerRad  = this.getInnerRadius();
+		var xScale = 0.5*this._width - lineWidth,
+			yScale = 0.5*this._height - lineWidth;
+
+		// translate
+		var xCtr = 0.5*world.getViewportWidth() + this._xOffset,
+			yCtr = 0.5*world.getViewportHeight() + this._yOffset;
+		//ctx.setTransform( xScale, 0.0,  0.0, yScale, xCtr, yCtr );
+		var mat = Matrix.create( [
+							[ xScale,     0.0,  0.0,  xCtr],
+							[    0.0,  yScale,  0.0,  yCtr],
+							[    0.0,     0.0,  1.0,   0.0],
+							[    0.0,     0.0,  0.0,   1.0]
+						] );
+
+		// get a bezier representation of the circle
+		var bezPts = MathUtils.circularArcToBezier( Vector.create([0,0,0]), Vector.create([1,0,0]), 2.0*Math.PI );
+		if (bezPts)
+		{
+			var n = bezPts.length;
+
+			// set up the fill style
+			ctx.beginPath();
+			ctx.lineWidth = 0;
+			if (this._fillColor)
+			{
+				var c = "rgba(" + 255*this._fillColor[0] + "," + 255*this._fillColor[1] + "," + 255*this._fillColor[2] + "," + this._fillColor[3] + ")";  
+				ctx.fillStyle = c;
+
+				// draw the fill
+				ctx.beginPath();
+				var p = MathUtils.transformPoint( bezPts[0],   mat );
+				ctx.moveTo( p[0],  p[1] );
+				var index = 1;
+				while (index < n)
+				{
+					p0   = MathUtils.transformPoint( bezPts[index],  mat );
+					p1 = MathUtils.transformPoint( bezPts[index+1],  mat );
+
+					x0 = p0[0];  y0 = p0[1];
+					x1 = p1[0];  y1 = p1[1];
+					ctx.quadraticCurveTo( x0,  y0,  x1, y1 );
+					index += 2;
+				}
+
+				if ( MathUtils.fpSign(innerRad) > 0)
+				{
+					xScale = 0.5*innerRad*this._width;
+					yScale = 0.5*innerRad*this._height;
+					mat[0] = xScale;
+					mat[5] = yScale;
+
+					// get the bezier points
+					var bezPts = MathUtils.circularArcToBezier( Vector.create([0,0,0]), Vector.create([1,0,0]), -2.0*Math.PI );
+					if (bezPts)
+					{
+						var n = bezPts.length;
+						p = MathUtils.transformPoint( bezPts[0],   mat );
+						ctx.moveTo( p[0],  p[1] );
+						index = 1;
+						while (index < n)
+						{
+							p0 = MathUtils.transformPoint( bezPts[index],    mat );
+							p1 = MathUtils.transformPoint( bezPts[index+1],  mat );
+
+							var x0 = p0[0],  y0 = p0[1],
+								x1 = p1[0],  y1 = p1[1];
+							ctx.quadraticCurveTo( x0,  y0,  x1, y1 );
+							index += 2;
+						}
+					}
+				}
+
+				// fill the path
+				ctx.fill();
+			}
+
+			// calculate the stroke matrix
+			xScale = 0.5*this._width  - 0.5*lineWidth;
+			yScale = 0.5*this._height - 0.5*lineWidth;
+			mat[0] = xScale;
+			mat[5] = yScale;
+
+			// set up the stroke style
+			ctx.beginPath();
+			ctx.lineWidth	= lineWidth;
+			if (this._strokeColor)
+			{
+				var c = "rgba(" + 255*this._strokeColor[0] + "," + 255*this._strokeColor[1] + "," + 255*this._strokeColor[2] + "," + this._strokeColor[3] + ")";  
+				ctx.strokeStyle = c;
+			
+				// draw the stroke
+				p = MathUtils.transformPoint( bezPts[0],   mat );
+				ctx.moveTo( p[0],  p[1] );
+				index = 1;
+				while (index < n)
+				{
+					var p0   = MathUtils.transformPoint( bezPts[index],  mat );
+					var p1 = MathUtils.transformPoint( bezPts[index+1],  mat );
+
+					var x0 = p0[0],  y0 = p0[1],
+						x1 = p1[0],  y1 = p1[1];
+					ctx.quadraticCurveTo( x0,  y0,  x1, y1 );
+					index += 2;
+				}
+
+				if (MathUtils.fpSign(innerRad) > 0)
+				{
+					// calculate the stroke matrix
+					xScale = 0.5*innerRad*this._width  - 0.5*lineWidth;
+					yScale = 0.5*innerRad*this._height - 0.5*lineWidth;
+					mat[0] = xScale;
+					mat[5] = yScale;
+			
+					// draw the stroke
+					p = MathUtils.transformPoint( bezPts[0],   mat );
+					ctx.moveTo( p[0],  p[1] );
+					index = 1;
+					while (index < n)
+					{
+						var p0   = MathUtils.transformPoint( bezPts[index],  mat );
+						var p1 = MathUtils.transformPoint( bezPts[index+1],  mat );
+
+						var x0 = p0[0],  y0 = p0[1],
+							x1 = p1[0],  y1 = p1[1];
+						ctx.quadraticCurveTo( x0,  y0,  x1, y1 );
+						index += 2;
+					}
+				}
+
+				// render the stroke
+				ctx.stroke();
+			}
+		}
+    }
+
+	this.export = function()
+	{
+		var rtnStr = "type: " + this.geomType() + "\n";
+
+		rtnStr += "xoff: "			+ this._xOffset		+ "\n";
+		rtnStr += "yoff: "			+ this._yOffset		+ "\n";
+		rtnStr += "width: "			+ this._width		+ "\n";
+		rtnStr += "height: "		+ this._height		+ "\n";
+		rtnStr += "strokeWidth: "	+ this._strokeWidth	+ "\n";
+		rtnStr += "innerRadius: "	+ this._innerRadius	+ "\n";
+		rtnStr += "strokeStyle: "	+ this._strokeStyle	+ "\n";
+		rtnStr += "strokeColor: "	+ String(this._strokeColor)  + "\n";
+		rtnStr += "fillColor: "		+ String(this._fillColor)	 + "\n";
+
+		rtnStr += "strokeMat: ";
+		if (this._strokeMaterial)
+			rtnStr += this._strokeMaterial.getName();
+		else
+			rtnStr += "flatMaterial";
+		rtnStr += "\n";
+
+		rtnStr += "fillMat: ";
+		if (this._fillMaterial)
+			rtnStr += this._fillMaterial.getName();
+		else
+			rtnStr += "flatMaterial";
+		rtnStr += "\n";
+
+		return rtnStr;
+	}
+
+	this.import = function( importStr )
+	{
+		this._xOffset			= Number( this.getPropertyFromString( "xoff: ",			importStr ) );
+		this._yOffset			= Number( this.getPropertyFromString( "yoff: ",			importStr ) );
+		this._width				= Number( this.getPropertyFromString( "width: ",		importStr ) );
+		this._height			= Number( this.getPropertyFromString( "height: ",		importStr ) );
+		this._strokeWidth		= Number( this.getPropertyFromString( "strokeWidth: ",	importStr ) );
+		this._innerRadius		= Number( this.getPropertyFromString( "innerRadius: ",	importStr ) );
+		this._strokeStyle		= this.getPropertyFromString( "strokeStyle: ",	importStr );
+		var strokeMaterialName	= this.getPropertyFromString( "strokeMat: ",	importStr );
+		var fillMaterialName	= this.getPropertyFromString( "fillMat: ",		importStr );
+		this._fillColor			=  eval( "[" + this.getPropertyFromString( "fillColor: ",	importStr ) + "]" );
+		this._strokeColor		=  eval( "[" + this.getPropertyFromString( "strokeColor: ",	importStr ) + "]" );
+
+		var strokeMat = MaterialsLibrary.getMaterial( strokeMaterialName );
+		if (!strokeMat)
+		{
+			console.log( "object material not found in library: " + strokeMaterialName );
+			strokeMat = new FlatMaterial();
+		}
+		this._strokeMaterial = strokeMat;
+
+		var fillMat = MaterialsLibrary.getMaterial( fillMaterialName );
+		if (!fillMat)
+		{
+			console.log( "object material not found in library: " + fillMaterialName );
+			fillMat = new FlatMaterial();
+		}
+		this._fillMaterial = fillMat;
+	}
+
+    this.collidesWithPoint = function( x, y )
+    {
+//        if(x < this._xOffset) return false;
+//        if(x > (this._xOffset + this._width)) return false;
+//        if(y < this._yOffset) return false;
+//        if(y > (this._yOffset + this._height)) return false;
+
+        return true;
+    }
+
+    this.containsPoint = function( pt,  dir )
+    {
+        var world = this.getWorld();
+        if (!world)  throw( "null world in containsPoint" );
+		
+		// get a point on the plane of the circle
+		// the point is in NDC, as is the input parameters
+		var mat = this.getMatrix();
+		var plane = [0,0,1,0];
+		plane = MathUtils.transformPlane( plane, mat );
+		var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
+
+		// transform the projected point back to the XY plane
+		//var invMat = mat.inverse();
+		var invMat = glmat4.inverse( mat, [] );
+		var planePt = MathUtils.transformPoint( projPt, invMat );
+
+		// get the normalized device coordinates (NDC) for
+		// the position and radii.
+		var	vpw = world.getViewportWidth(),  vph = world.getViewportHeight();
+		var	xNDC = 2*this._xOffset/vpw,  yNDC = 2*this._yOffset/vph,
+			xRadNDC = this._width/vpw,  yRadNDC = this._height/vph;
+		var projMat = world.makePerspectiveMatrix();
+		var z = -world.getViewDistance();
+		var planePtNDC = planePt.slice(0);
+		planePtNDC[2] = z;
+		planePtNDC = MathUtils.transformHomogeneousPoint( planePtNDC, projMat );
+		planePtNDC = MathUtils.applyHomogeneousCoordinate( planePtNDC );
+
+        // get the gl coordinates
+		var aspect = world.getAspect();
+		var zn = world.getZNear(),  zf = world.getZFar();
+		var	t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
+			b = -t,
+			r = aspect*t,
+			l = -r;
+
+		var angle = Math.atan2( planePtNDC[1] - yNDC, planePtNDC[0] - xNDC );
+		var degrees = angle*180.0/Math.PI;
+		var objPtNDC = [Math.cos(angle)*xRadNDC + xNDC, Math.sin(angle)*yRadNDC + yNDC, 0];
+
+		var ctrNDC = [xNDC, yNDC];
+
+		var distToBoundary = VecUtils.vecDist( 2, ctrNDC, objPtNDC ),
+			distToPt		= VecUtils.vecDist( 2, ctrNDC, planePtNDC );
+		
+		return (MathUtils.fpCmp(distToPt,distToBoundary) <= 0);
+    }
+
+    this.getNearPoint = function( pt, dir )
+    {
+        var world = this.getWorld();
+        if (!world)  throw( "null world in getNearPoint" );
+		
+		// get a point on the plane of the circle
+		// the point is in NDC, as is the input parameters
+		var mat = this.getMatrix();
+		var plane = [0,0,1,0];
+		plane = MathUtils.transformPlane( plane, mat );
+		var projPt = MathUtils.vecIntersectPlane ( pt, dir, plane );
+
+		// transform the projected point back to the XY plane
+		//var invMat = mat.inverse();
+		var invMat = glmat4.inverse( mat, [] );
+		var planePt = MathUtils.transformPoint( projPt, invMat );
+
+		// get the normalized device coordinates (NDC) for
+		// the position and radii.
+		var	vpw = world.getViewportWidth(),  vph = world.getViewportHeight();
+		var	xNDC = 2*this._xOffset/vpw,  yNDC = 2*this._yOffset/vph,
+			xRadNDC = this._width/vpw,  yRadNDC = this._height/vph;
+		var projMat = world.makePerspectiveMatrix();
+		var z = -world.getViewDistance();
+		var planePtNDC = planePt.slice(0);
+		planePtNDC[2] = z;
+		planePtNDC = MathUtils.transformHomogeneousPoint( planePtNDC, projMat );
+		planePtNDC = MathUtils.applyHomogeneousCoordinate( planePtNDC );
+
+        // get the gl coordinates
+		var aspect = world.getAspect();
+		var zn = world.getZNear(),  zf = world.getZFar();
+		var	t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),
+			b = -t,
+			r = aspect*t,
+			l = -r;
+
+		var angle = Math.atan2( planePtNDC[1] - yNDC, planePtNDC[0] - xNDC );
+		var degrees = angle*180.0/Math.PI;
+		var objPt = [Math.cos(angle)*xRadNDC + xNDC, Math.sin(angle)*yRadNDC + yNDC, 0];
+		
+		// convert to GL coordinates
+		objPt[0] = -z*(r-l)/(2.0*zn)*objPt[0];
+		objPt[1] = -z*(t-b)/(2.0*zn)*objPt[1];
+
+		// re-apply the transform
+		objPt = MathUtils.transformPoint( objPt, mat );
+
+		return objPt;
+    }
+
+	 this.recalcTexMapCoords = function( vrts, uvs )
+	 {
+		var n = vrts.length/3;
+		var ivrt = 0,  iuv = 0;
+		var uMin = 1.e8,  uMax = -1.e8,
+			vMin = 1.e8,  vMax = -1.e8
+		for (var i=0;  i<n;  i++)
+		{
+			uvs[iuv] = 0.5*(vrts[ivrt]/this._ovalWidth + 1);
+			if (uvs[iuv] < uMin)  uMin = uvs[iuv];
+			if (uvs[iuv] > uMax)  uMax = uvs[iuv];
+
+			iuv++;  ivrt++;
+			uvs[iuv] = 0.5*(vrts[ivrt]/this._ovalHeight + 1);
+			if (uvs[iuv] < vMin)  vMin = uvs[iuv];
+			if (uvs[iuv] > vMax)  vMax = uvs[iuv];
+			iuv++;  ivrt += 2;
+		}
+
+		//console.log( "remap: " + uvs );
+		//console.log( "uRange: " + uMin + " => " + uMax );
+		//console.log( "vRange: " + vMin + " => " + vMax );
+	 }
+ }
+
+
diff --git a/js/helper-classes/backup-delete/GLGeomObj.js b/js/helper-classes/backup-delete/GLGeomObj.js
new file mode 100755
index 00000000..8946470d
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLGeomObj.js
@@ -0,0 +1,278 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+///////////////////////////////////////////////////////////////////////
+// Class GLGeomObj
+//      Super class for all geometry classes
+///////////////////////////////////////////////////////////////////////
+function GLGeomObj()
+{
+    ///////////////////////////////////////////////////////////////////////
+    // Constants
+    ///////////////////////////////////////////////////////////////////////
+	this.GEOM_TYPE_RECTANGLE		=  1;
+	this.GEOM_TYPE_CIRCLE			=  2;
+	this.GEOM_TYPE_LINE             =  3;
+	this.GEOM_TYPE_PATH			    =  4;
+	this.GEOM_TYPE_CUBIC_BEZIER     =  5;
+	this.GEOM_TYPE_UNDEFINED		= -1;
+
+    // Needed for calculating dashed/dotted strokes
+    this.DASH_LENGTH = 0.15;
+    this.DOT_LENGTH = 0.05;
+    this.GAP_LENGTH = 0.05;
+	
+    ///////////////////////////////////////////////////////////////////////
+    // Instance variables
+    ///////////////////////////////////////////////////////////////////////
+    this._matrix = Matrix.I(4);
+
+    this._next = undefined;
+    this._prev = undefined;
+    this._child = undefined;
+    this._parent = undefined;
+
+    this.m_world = null;
+
+    // stroke and fill colors
+    this._strokeColor	= [0,0,0,0];
+    this._fillColor		= [0,0,0,0];
+
+	// stroke and fill materials
+	this._fillMaterial = null;
+	this._strokeMaterial = null;
+
+	// array of primitives - used in RDGE
+	this._primArray = [];
+	this._materialNodeArray = [];
+	this._materialArray = [];
+	this._materialTypeArray = [];
+
+	// the transform node used by RDGE
+	this._trNode = null;
+
+
+    ///////////////////////////////////////////////////////////////////////
+    // Property accessors
+    ///////////////////////////////////////////////////////////////////////
+    this.setWorld       = function( world )     {  this.m_world = world;        }
+    this.getWorld       = function()            {  return this.m_world;         }
+
+	this.getMatrix		= function()			{  return this._matrix.slice(0);	}
+	this.setMatrix		= function(m)			{  this._matrix = m.slice(0);		}
+
+    this.setNext     = function( next )          {  this._next = next;       }
+    this.getNext     = function()                {  return this._next;       }
+    this.setPrev     = function( prev )          {  this._prev = prev;       }
+    this.getPrev     = function()                {  return this._prev;       }
+    this.setChild    = function( child )         {  this._child = child;     }
+    this.getChild    = function()                {  return this._child;      }
+    this.setParent   = function( parent )        {  this._parent = parent;   }
+    this.getParent   = function()                {  return this._parent;     }
+
+	this.geomType	= function()				 {  return this.GEOM_TYPE_UNDEFINED;	}
+
+	this.getPrimitiveArray		= function()		{  return this._primArray;				}
+	this.getMaterialNodeArray	= function()		{  return this._materialNodeArray;		}
+	this.getMaterialArray		= function()		{  return this._materialArray;			}
+
+	this.getTransformNode		= function()		{  return this._trNode;					}
+	this.setTransformNode		= function(t)		{  this._trNode = t;					}
+
+    ///////////////////////////////////////////////////////////////////////
+    // Methods
+    ///////////////////////////////////////////////////////////////////////
+	this.setMaterialColor   = function(c, type)
+	{
+		if (type == "fill")
+			this._fillColor = c.slice(0);
+		else
+			this._strokeColor = c.slice(0);
+		if (this._materialArray && this._materialTypeArray)
+		{
+			var nMats = this._materialArray.length;
+			if (nMats === this._materialTypeArray.length)
+			{
+				for (var i=0;  i<nMats;  i++)
+				{
+					if (this._materialTypeArray[i] == type)
+						this._materialArray[i].setProperty( "color", c.slice(0) );
+				}
+			}
+		}
+
+		var world = this.getWorld();
+		if (world)  world.restartRenderLoop();
+	}
+
+	this.setFillColor   = function(c)		{  this.setMaterialColor(c, "fill");		}
+	this.setStrokeColor = function(c)		{  this.setMaterialColor(c, "stroke");		}
+
+    this.makeStrokeMaterial = function()
+    {
+        var strokeMaterial;
+        if (this.getStrokeMaterial())
+            strokeMaterial = this.getStrokeMaterial().dup();
+        else
+            strokeMaterial = new FlatMaterial();
+
+        if (strokeMaterial)
+        {
+            strokeMaterial.init( this.getWorld() );
+            if(this._strokeColor)
+             {
+                strokeMaterial.setProperty("color", this._strokeColor);
+            }
+        }
+
+        this._materialArray.push( strokeMaterial );
+        this._materialTypeArray.push( "stroke" );
+
+        return strokeMaterial;
+    }
+
+    this.makeFillMaterial = function()
+    {
+        var fillMaterial;
+        if (this.getFillMaterial())
+            fillMaterial = this.getFillMaterial().dup();
+        else
+            fillMaterial = new FlatMaterial();
+
+        if (fillMaterial)
+        {
+            fillMaterial.init( this.getWorld() );
+            //if(!this.getFillMaterial() && this._fillColor)
+            if (this._fillColor)
+            {
+                fillMaterial.setProperty("color", this._fillColor);
+            }
+        }
+
+        this._materialArray.push( fillMaterial );
+        this._materialTypeArray.push( "fill" );
+
+        return fillMaterial;
+    }
+
+
+    this.translate   = function(v)
+    {
+        var mat = Matrix.Translation( v );
+        //var mat2 = mat.multiply( this._matrix );
+        //this._matrix = mat2;
+		glmat4.multiply(mat, this._matrix, this._matrix);
+    }
+
+    this.transform  = function( mat )
+    {
+        if (mat)
+		{
+            //this._matrix = mat.multiply( this._matrix );
+			glmat4.multiply(mat, this._matrix, this._matrix);
+		}
+    }
+
+    this.setMatrix  = function(mat)
+    {
+        var gl = this.getWorld().getGLContext();
+        if (gl)
+        {
+            gl.uniformMatrix4fv(this.getWorld().getShaderProgram().mvMatrixUniform, false, new Float32Array(mat));
+        }
+    }
+
+    this.buildBuffers = function()
+    {
+        // this function must be overridden by the base class
+        alert( "GLGeomObj.buildBuffers must be overridden by base class" );
+    }
+
+    this.render = function()
+    {
+        alert( "GLGeomObj.render method must be overridden by sub class" );
+    }
+
+    this.collidesWithPoint = function( x, y )
+    {
+        alert( "GLGeomObj.collidesWithPoint method must be overridden by sub class" );
+    }
+
+
+    this.getNearPoint = function( pt, dir )
+    {
+		// the alert is not displayed.  Objects may choose not to implement this method.
+        //alert( "GLGeomObj.getNearPoint method must be overridden by sub class" );
+    }
+
+	this.getNearVertex = function( pt, dir )
+	{
+		// this should be overridden by objects (such as rectangles) that have corners
+	}
+
+    this.containsPoint = function( pt, dir )
+    {
+		// the alert is not displayed.  Objects may choose not to implement this method.
+        //alert( "GLGeomObj.containsPoint method must be overridden by sub class" );
+    }
+
+	this.getPropertyFromString = function( prop, str )
+	{
+		var index = str.indexOf( prop );
+		if (index < 0)  throw new Error( "property " + prop + " not found in string: " + str);
+
+		var rtnStr = str.substr( index+prop.length );
+		index = rtnStr.indexOf( "\n" );
+		if (index >= 0)
+			rtnStr = rtnStr.substr(0, index);
+
+		return rtnStr;
+	}
+
+    this.export = function()
+    {
+		var rtnStr;
+
+		/*
+		var matNodeArr = this.getMaterialNodeArray();
+		if (matNodeArr)
+		{
+			var nMats = matNodeArr.length;
+			if (nMats > 0)
+			{
+				for (var i=0;  i<nMats;  i++)
+				{
+					var trNode = this.getWorld().findTransformNodeByMaterial( matNodeArr[i] );
+					if (trNode)
+					{
+						var meshNode = trNode.transformNode.meshes[i];
+						if (meshNode)
+						{
+							var matNode = trNode.transformNode.materialNode;
+							if (matNode)
+							{
+								if (!rtnStr)
+									rtnStr = "type: " + this.geomType() + "\n";
+
+								var jsonMeshText = JSON.stringify( meshNode );
+
+								rtnStr += "mesh: " + jsonMeshText + "endMesh\n";
+
+								//var jsonMatDef = JSON.parse( matNode.shaderProgram.exportShader() );
+								var jsonMatText = matNode.shaderProgram.exportShader();
+								rtnStr += "material: " + jsonMatText + "endMat\n";
+							}
+						}
+					}
+				}
+			}
+		}
+		*/
+
+		return rtnStr;
+    }
+}
+
diff --git a/js/helper-classes/backup-delete/GLLight.js b/js/helper-classes/backup-delete/GLLight.js
new file mode 100755
index 00000000..2bd5f77e
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLLight.js
@@ -0,0 +1,30 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+///////////////////////////////////////////////////////////////////////
+// Class GLMaterial
+//      GL representation of a material.
+///////////////////////////////////////////////////////////////////////
+function GLLight()
+{
+    ///////////////////////////////////////////////////////////////////////
+    // Instance variables
+    ///////////////////////////////////////////////////////////////////////
+	this._type = 0;
+	this._color = [0.1, 0.1, 0.1, 1];
+
+    ///////////////////////////////////////////////////////////////////////
+    // Property Accessors
+    ///////////////////////////////////////////////////////////////////////
+
+    
+    ///////////////////////////////////////////////////////////////////////
+    // Methods
+    ///////////////////////////////////////////////////////////////////////
+
+}
+
+
diff --git a/js/helper-classes/backup-delete/GLLine.js b/js/helper-classes/backup-delete/GLLine.js
new file mode 100755
index 00000000..65e6ab1c
--- /dev/null
+++ b/js/helper-classes/backup-delete/GLLine.js
@@ -0,0 +1,507 @@
+/* <copyright>
+This file contains proprietary software owned by Motorola Mobility, Inc.<br/>
+No rights, expressed or implied, whatsoever to this software are provided by Motorola Mobility, Inc. hereunder.<br/>
+(c) Copyright 2011 Motorola Mobility, Inc.  All Rights Reserved.
+</copyright> */
+
+///////////////////////////////////////////////////////////////////////
+// Class GLLine
+//      GL representation of a line.
+//      Derived from class GLGeomObj
+///////////////////////////////////////////////////////////////////////
+function GLLine( world, xOffset, yOffset, width, height, slope, strokeSize, strokeColor, strokeMaterial, strokeStyle, xAdj, yAdj)
+{
+	// initialize the inherited members
+	this.inheritedFrom = GLGeomObj;
+	this.inheritedFrom();
+
+	///////////////////////////////////////////////////////////////////////
+	// Instance variables
+	///////////////////////////////////////////////////////////////////////
+	this._width = 2.0;
+	this._height = 2.0;
+	this._xOffset = 0;
+	this._yOffset = 0;
+
+	// If line doesn't fit in canvas world, we had to grow the canvas by this much on either side
+	this._xAdj = 0;
+	this._yAdj = 0;
+	
+	this._slope = 0;
+
+	this._strokeWidth = 0.25;
+
+	this._strokeStyle = "Solid";
+	this._scaleX = 1.0;
+	this._scaleY = 1.0;
+
+	if (arguments.length > 0)
+	{
+		this._width = width;
+		this._height = height;
+		this._xOffset = xOffset;
+		this._yOffset = yOffset;
+
+		this._xAdj = xAdj;
+		this._yAdj = yAdj;
+
+		this._slope = slope;
+		this._strokeWidth = strokeSize;
+		if (strokeColor)  this._strokeColor = strokeColor.slice();
+
+		this._strokeStyle = strokeStyle;
+		this._scaleX = (world.getViewportWidth())/(world.getViewportHeight());
+	}
+
+	this._strokeVerticesLen = 0;
+
+	this.m_world = world;
+
+	this._materialAmbient  = [0.2,