From 381e6b89a054d545519874fd5e828ef534287336 Mon Sep 17 00:00:00 2001
From: Valerio Virgillito
Date: Thu, 15 Mar 2012 01:09:01 -0700
Subject: Removing the backup-delete folder and the RDGE tools directory.

Signed-off-by: Valerio Virgillito <valerio@motorola.com>
---
 js/helper-classes/backup-delete/GLSubpath.js | 1286 --------------------------
 1 file changed, 1286 deletions(-)
 delete mode 100755 js/helper-classes/backup-delete/GLSubpath.js

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

diff --git a/js/helper-classes/backup-delete/GLSubpath.js b/js/helper-classes/backup-delete/GLSubpath.js
deleted file mode 100755
index 2fb91d33..00000000
--- a/js/helper-classes/backup-delete/GLSubpath.js
+++ /dev/null
@@ -1,1286 +0,0 @@
-/* <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;
-
-
-function SubpathOffsetPoint(pos, mapPos) {
-    this.Pos = Vector.create([pos[0],pos[1],pos[2]]);
-    this.CurveMapPos = Vector.create([mapPos[0], mapPos[1], mapPos[2]]);
-}
-
-function SubpathOffsetTriangle(v0, v1, v2) {
-    this.v0 = v0;
-    this.v1 = v1;
-    this.v2 = v2;
-    this.n = Vector.create([0,0,1]); //replace with the actual cross product later
-}
-
-function sortNumberAscending(a,b){
-    return a-b;
-}
-function sortNumberDescending(a,b){
-    return b-a;
-}
-function SegmentIntersections(){
-    this.paramArray = [];
-}
-
-///////////////////////////////////////////////////////////////////////
-// Class GLSubpath
-//      representation a sequence of cubic bezier curves.
-//      Derived from class GLGeomObj
-///////////////////////////////////////////////////////////////////////
-
-function GLSubpath() {
-    ///////////////////////////////////////////////////
-    // Instance variables
-    ///////////////////////////////////////////////////
-    this._Anchors = [];
-    this._BBoxMin = [0, 0, 0];
-    this._BBoxMax = [0, 0, 0];
-    this._isClosed = false;
-
-    this._samples = [];                 //polyline representation of this curve
-    this._sampleParam = [];            //parametric distance of samples, within [0, N], where N is # of Bezier curves (=# of anchor points if closed, =#anchor pts -1 if open)
-    this._anchorSampleIndex = [];       //index within _samples corresponding to anchor points
-    
-    this._UnprojectedAnchors = [];
-
-    //initially set the _dirty bit so we will construct samples
-    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";
-    this._materialAmbient = [0.2, 0.2, 0.2, 1.0];
-    this._materialDiffuse = [0.4, 0.4, 0.4, 1.0];
-    this._materialSpecular = [0.4, 0.4, 0.4, 1.0];
-    this._fillColor = [0.4, 0.4, 0.4, 1.0];
-    this._fillMaterial;
-    this._DISPLAY_ANCHOR_RADIUS = 5;
-    //drawing context
-    this._world = null;
-
-    //tool that owns this subpath
-    this._drawingTool = null;
-    this._planeMat = null;
-    this._planeMatInv = null;
-    this._planeCenter = null;
-
-    this.inheritedFrom = GLGeomObj;
-    this.inheritedFrom();
-
-    //used to query what the user selected, OR-able for future extensions
-    this.SEL_NONE = 0;          //nothing was selected
-    this.SEL_ANCHOR = 1;        //anchor point was selected
-    this.SEL_PREV = 2;          //previous handle of anchor point was selected
-    this.SEL_NEXT = 4;          //next handle of anchor point was selected
-    this.SEL_PATH = 8;          //the path itself was selected
-    this._selectMode = this.SEL_NONE;
-    this._selectedAnchorIndex = -1;
-
-    this._SAMPLING_EPSILON = 0.5; //epsilon used for sampling the curve
-    this._DEFAULT_STROKE_WIDTH = 20; //use only if stroke width not specified
-    this._MAX_OFFSET_ANGLE = 10; //max angle (in degrees) between consecutive vectors from curve to offset path
-
-    // (current GLGeomObj complains if buildBuffers/render is added to GLSubpath prototype)
-    //buildBuffers
-    //  Build the stroke vertices, normals, textures and colors
-    //  Add that array data to the GPU using OpenGL data binding
-    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 subpath render" );
-
-         // get the context
-        var ctx = world.get2DContext();
-        if (!ctx)  throw ("null context in subpath render")
-
-        var numAnchors = this.getNumAnchors();
-        if (numAnchors === 0)
-            return; //nothing to do for empty paths
-
-        ctx.save();
-
-        this.createSamples(); //dirty bit checked in this function...will generate a polyline representation
-        var bboxMin = this.getBBoxMin();
-        var bboxMax = this.getBBoxMax();
-        var bboxWidth = bboxMax[0] - bboxMin[0];
-        var bboxHeight = bboxMax[1] - bboxMin[1];
-        var bboxMid = Vector.create([0.5 * (bboxMax[0] + bboxMin[0]), 0.5 * (bboxMax[1] + bboxMin[1]), 0.5 * (bboxMax[2] + bboxMin[2])]);
-
-        ctx.clearRect(0, 0, bboxWidth, bboxHeight);
-
-
-        ctx.lineWidth = this._strokeWidth;
-        ctx.strokeStyle = "black";
-        if (this._strokeColor)
-            ctx.strokeStyle = MathUtils.colorToHex( this._strokeColor );
-        ctx.fillStyle = "white";
-        if (this._fillColor){
-            //ctx.fillStyle = MathUtils.colorToHex( this._fillColor );
-            var fillColorStr = "rgba("+parseInt(255*this._fillColor[0])+","+parseInt(255*this._fillColor[1])+","+parseInt(255*this._fillColor[2])+","+this._fillColor[3]+")";
-            ctx.fillStyle = fillColorStr;
-        }
-        var lineCap = ['butt','round','square'];
-        ctx.lineCap = lineCap[1];
-        ctx.beginPath();
-
-        /*
-        commenting this out for now because of Chrome bug where coincident endpoints of bezier curve cause the curve to not be rendered
-        var prevAnchor = this.getAnchor(0);
-        ctx.moveTo(prevAnchor.getPosX()-bboxMin[0],prevAnchor.getPosY()-bboxMin[1]);
-        for (var i = 1; i < numAnchors; i++) {
-            var currAnchor = this.getAnchor(i);
-            ctx.bezierCurveTo(prevAnchor.getNextX()-bboxMin[0],prevAnchor.getNextY()-bboxMin[1], currAnchor.getPrevX()-bboxMin[0], currAnchor.getPrevY()-bboxMin[1], currAnchor.getPosX()-bboxMin[0], currAnchor.getPosY()-bboxMin[1]);
-            prevAnchor = currAnchor;
-        }
-        if (this._isClosed === true) {
-            var currAnchor = this.getAnchor(0);
-            ctx.bezierCurveTo(prevAnchor.getNextX()-bboxMin[0],prevAnchor.getNextY()-bboxMin[1], currAnchor.getPrevX()-bboxMin[0], currAnchor.getPrevY()-bboxMin[1], currAnchor.getPosX()-bboxMin[0], currAnchor.getPosY()-bboxMin[1]);
-            prevAnchor = currAnchor;
-            ctx.fill();
-        }
-        */
-
-
-        var numPoints = this._samples.length/3;
-        ctx.moveTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);
-        for (var i=0;i<numPoints;i++){
-            ctx.lineTo(this._samples[3*i]-bboxMin[0],this._samples[3*i + 1]-bboxMin[1]);
-        }
-        if (this._isClosed === true) {
-            ctx.lineTo(this._samples[0]-bboxMin[0],this._samples[1]-bboxMin[1]);
-        }
-        ctx.fill();
-        ctx.stroke();
-        ctx.restore();
-    } //render()
-
-    this.geomType = function () { return this.GEOM_TYPE_CUBIC_BEZIER; }
-
-
-    this.setWidth = function (newW) {
-        if (newW<1)
-            newW=1; //clamp minimum width to 1
-        //scale the contents of this subpath to lie within this width
-        //determine the scale factor by comparing with the old width
-        var oldWidth = this._BBoxMax[0]-this._BBoxMin[0];
-        if (oldWidth<1){
-            oldWidth=1;
-        }
-        var scaleX = newW/oldWidth;
-        if (scaleX===1){
-            return; //no need to do anything
-        }
-
-        //scale the anchor point positions such that the width of the bbox is the newW
-        var origX = this._BBoxMin[0];
-        var numAnchors = this._Anchors.length;
-        for (var i=0;i<numAnchors;i++){
-            //compute the distance from the bboxMin
-            var oldW = this._Anchors[i].getPosX() - origX;
-            var prevW = this._Anchors[i].getPrevX() - origX;
-            var nextW = this._Anchors[i].getNextX() - origX;
-
-            this._Anchors[i].setPos(origX + oldW*scaleX,this._Anchors[i].getPosY(),this._Anchors[i].getPosZ());
-            this._Anchors[i].setPrevPos(origX + prevW*scaleX,this._Anchors[i].getPrevY(),this._Anchors[i].getPrevZ());
-            this._Anchors[i].setNextPos(origX + nextW*scaleX,this._Anchors[i].getNextY(),this._Anchors[i].getNextZ());
-        }
-        this.makeDirty();
-    }
-    this.setHeight = function (newH) {
-        if (newH<1)
-            newH=1; //clamp minimum width to 1
-        //scale the contents of this subpath to lie within this height
-        //determine the scale factor by comparing with the old height
-        var oldHeight = this._BBoxMax[1]-this._BBoxMin[1];
-        if (oldHeight<1){
-            oldHeight=1;
-        }
-        var scaleY = newH/oldHeight;
-        if (scaleY===1){
-            return; //no need to do anything
-        }
-
-        //scale the anchor point positions such that the height of the bbox is the newH
-        var origY = this._BBoxMin[1];
-        var numAnchors = this._Anchors.length;
-        for (var i=0;i<numAnchors;i++){
-            //compute the distance from the bboxMin
-            var oldW = this._Anchors[i].getPosY() - origY;
-            var prevW = this._Anchors[i].getPrevY() - origY;
-            var nextW = this._Anchors[i].getNextY() - origY;
-
-            this._Anchors[i].setPos(this._Anchors[i].getPosX(), origY + oldW*scaleY,this._Anchors[i].getPosZ());
-            this._Anchors[i].setPrevPos(this._Anchors[i].getPrevX(), origY + prevW*scaleY,this._Anchors[i].getPrevZ());
-            this._Anchors[i].setNextPos(this._Anchors[i].getNextX(), origY + nextW*scaleY,this._Anchors[i].getNextZ());
-        }
-        this.makeDirty();
-    }
-
-} //function GLSubpath ...class definition
-
-
-
-
-
-
-    /////////////////////////////////////////////////////////
-    // Property Accessors/Setters
-    /////////////////////////////////////////////////////////
-GLSubpath.prototype.setWorld = function (world) { this._world = world; }
-GLSubpath.prototype.getWorld = function () { return this._world; }
-GLSubpath.prototype.makeDirty = function () {this._dirty = true;}
-GLSubpath.prototype.setDrawingTool = function (tool) {this._drawingTool = tool;}
-GLSubpath.prototype.getDrawingTool = function () {return this._drawingTool;}
-GLSubpath.prototype.setPlaneMatrix = function(planeMat){this._planeMat = planeMat;}
-GLSubpath.prototype.setPlaneMatrixInverse = function(planeMatInv){this._planeMatInv = planeMatInv;}
-GLSubpath.prototype.setPlaneCenter = function(pc){this._planeCenter = pc;}
-
-GLSubpath.prototype.getCanvasX = function(){return this._canvasX;}
-GLSubpath.prototype.getCanvasY = function(){return this._canvasY;}
-GLSubpath.prototype.setCanvasX = function(cx){this._canvasX=cx;}
-GLSubpath.prototype.setCanvasY = function(cy){this._canvasY=cy;}
-
-GLSubpath.prototype.getIsClosed = function () {return this._isClosed;}
-GLSubpath.prototype.setIsClosed = function (isClosed) {
-    if (this._isClosed !== isClosed) {
-        this._isClosed = isClosed;
-        this._dirty = true;
-    }
-}
-GLSubpath.prototype.getNumAnchors = function () { return this._Anchors.length; }
-GLSubpath.prototype.getAnchor = function (index) { return this._Anchors[index]; }
-GLSubpath.prototype.addAnchor = function (anchorPt) {
-    this._Anchors.push(anchorPt);
-    this._selectedAnchorIndex = this._Anchors.length-1;
-    this._dirty = true;
-}
-
-GLSubpath.prototype.insertAnchor = function(anchorPt, index){
-    this._Anchors.splice(index, 0, anchorPt);
-}
-
-//remove and return anchor at specified index, return null on error
-GLSubpath.prototype.removeAnchor = function (index) {
-    var retAnchor = null;
-    if (index < this._Anchors.length) {
-        retAnchor = this._Anchors.splice(index, 1);
-        this._dirty = true;
-    }
-    //deselect the removed anchor
-    this._selectedAnchorIndex = -1;
-    return retAnchor;
-}
-
-GLSubpath.prototype.deselectAnchorPoint = function(){
-    this._selectedAnchorIndex = -1;
-}
-
-GLSubpath.prototype.reversePath = function() {
-    var revAnchors = [];
-    var numAnchors = this._Anchors.length;
-    var lastIndex = numAnchors-1;
-    if (lastIndex<0){
-        return; //cannot reverse empty path
-    }
-    for (var i=lastIndex;i>=0;i--) {
-        var newAnchor = new GLAnchorPoint();
-        var oldAnchor = this._Anchors[i];
-        newAnchor.setPos(oldAnchor.getPosX(),oldAnchor.getPosY(),oldAnchor.getPosZ());
-        newAnchor.setPrevPos(oldAnchor.getNextX(),oldAnchor.getNextY(),oldAnchor.getNextZ());
-        newAnchor.setNextPos(oldAnchor.getPrevX(),oldAnchor.getPrevY(),oldAnchor.getPrevZ());
-        revAnchors.push(newAnchor);
-    }
-    if (this._selectedAnchorIndex >= 0){
-        this._selectedAnchorIndex = (numAnchors-1) - this._selectedAnchorIndex;
-    }
-    this._Anchors = revAnchors;
-    this._dirty=true;
-}
-
-//remove all the anchor points
-GLSubpath.prototype.clearAllAnchors = function () {
-    this._Anchors = [];
-    this._isClosed = false;
-    this._dirty = true;
-}
-
-GLSubpath.prototype.insertAnchorAtParameter = function(index, param) {
-    if (index+1 >= this._Anchors.length && !this._isClosed) {
-        return;
-    }
-    //insert an anchor after the specified index using the parameter, using De Casteljau subdivision
-    var nextIndex = (index+1)%this._Anchors.length;
-
-    //build the De Casteljau points
-    var P0P1 = VecUtils.vecInterpolate(3, this._Anchors[index].getPos(), this._Anchors[index].getNext(), param);
-    var P1P2 = VecUtils.vecInterpolate(3, this._Anchors[index].getNext(), this._Anchors[nextIndex].getPrev(), param);
-    var P2P3 = VecUtils.vecInterpolate(3, this._Anchors[nextIndex].getPrev(), this._Anchors[nextIndex].getPos(), param);
-
-    var P0P1P2 = VecUtils.vecInterpolate(3, P0P1, P1P2, param);
-    var P1P2P3 = VecUtils.vecInterpolate(3, P1P2, P2P3, param);
-    var anchorPos = VecUtils.vecInterpolate(3, P0P1P2, P1P2P3, param);
-
-
-    //update the next of the anchor at index and prev of anchor at nextIndex
-    var isPrevCoincident = false;
-    var isNextCoincident = false;
-    if (VecUtils.vecDist( 3, P0P1, this._Anchors[index].getNext()) < this._SAMPLING_EPSILON) {
-        //no change to the next point
-        isPrevCoincident = true;
-    } else {
-        this._Anchors[index].setNextPos(P0P1[0], P0P1[1], P0P1[2]);
-    }
-
-    if (VecUtils.vecDist( 3, P2P3, this._Anchors[nextIndex].getPrev()) < this._SAMPLING_EPSILON) {
-        //no change to the prev point
-        isNextCoincident = true;
-    } else {
-        this._Anchors[nextIndex].setPrevPos(P2P3[0], P2P3[1], P2P3[2]);
-    }
-
-    //create a new anchor point
-    var newAnchor = new GLAnchorPoint();
-
-    if (isPrevCoincident && isNextCoincident){
-        anchorPos[0]=P1P2[0];anchorPos[1]=P1P2[1];anchorPos[2]=P1P2[2];
-        newAnchor.setPos(anchorPos[0],anchorPos[1],anchorPos[2]);
-        newAnchor.setPrevPos(anchorPos[0],anchorPos[1],anchorPos[2]);
-        newAnchor.setNextPos(anchorPos[0],anchorPos[1],anchorPos[2]);
-    } else {
-        newAnchor.setPrevPos(P0P1P2[0], P0P1P2[1], P0P1P2[2]);
-        newAnchor.setNextPos(P1P2P3[0], P1P2P3[1], P1P2P3[2]);
-        newAnchor.setPos(anchorPos[0], anchorPos[1], anchorPos[2]);
-    }
-
-    //insert the new anchor point at the correct index and set it as the selected anchor
-    this._Anchors.splice(nextIndex, 0, newAnchor);
-    this._selectedAnchorIndex = nextIndex;
-    this._dirty = true;
-}
-
-GLSubpath.prototype._checkIntersectionWithSamples = function(startIndex, endIndex, point, radius){
-    //check whether the point is within the radius distance from the curve represented as a polyline in _samples
-    //return the parametric distance along the curve if there is an intersection, else return null
-    //will assume that the BBox test is performed outside this function
-    if (endIndex<startIndex){
-        //go from startIndex to the end of the samples
-        endIndex = this._samples.length/3;
-    }
-    for (var i=startIndex; i<endIndex; i++){
-        var seg0 = Vector.create([this._samples[3*i], this._samples[3*i + 1], this._samples[3*i + 2]]);
-        var j=i+1;
-        var seg1 = Vector.create([this._samples[3*j], this._samples[3*j + 1], this._samples[3*j + 2]]);
-        var distToSegment = MathUtils.distPointToSegment(point, seg0, seg1);
-        if (distToSegment<=radius){
-            var paramDistance = MathUtils.paramPointProjectionOnSegment(point, seg0, seg1); //TODO Optimize! this function was called in distPointToSegment above
-            var retParam = this._sampleParam[i] + (this._sampleParam[j] - this._sampleParam[i])*paramDistance;
-            return retParam;
-        }
-    }
-    return null;
-}
-GLSubpath.prototype._checkIntersection = function(controlPts, beginParam, endParam, point, radius) {
-    //check whether the point is within radius distance from the curve
-    // if there is an intersection, return the parameter value (between beginParam and endParam) of the intersection point, else return null
-    var bboxMin = Vector.create([Infinity, Infinity, Infinity]);
-    var bboxMax = Vector.create([-Infinity,-Infinity,-Infinity]);
-    for (var i=0;i<controlPts.length;i++) {
-        for (var d=0;d<3;d++){
-            if (controlPts[i][d] < bboxMin[d]){
-                bboxMin[d] = controlPts[i][d];
-            }
-            if (controlPts[i][d] > bboxMax[d]){
-                bboxMax[d] = controlPts[i][d];
-            }
-        }
-    }
-    //check whether the bbox of the control points contains the point within the specified radius
-    for (var d=0;d<3;d++){
-        if (point[d] < (bboxMin[d]-radius)){
-            return null;
-        }
-        if (point[d] > (bboxMax[d]+radius)){
-            return null;
-        }
-    }
-
-    //check if the curve is already flat, and if so, check the distance from the segment C0C3 to the point
-    //measure distance of C1 and C2 to segment C0-C3
-    var distC1 = MathUtils.distPointToSegment(controlPts[1], controlPts[0], controlPts[3]);
-    var distC2 = MathUtils.distPointToSegment(controlPts[2], controlPts[0], controlPts[3]);
-    var maxDist = Math.max(distC1, distC2);
-    var threshold = this._SAMPLING_EPSILON; //this should be set outside this function //TODO
-    if (maxDist < threshold) { //if the curve is flat
-        var distP = MathUtils.distPointToSegment(point, controlPts[0], controlPts[3]); //TODO we may need to neglect cases where the non-perpendicular distance is used...
-        if (distP>radius)
-            return null;
-        else {
-            var param = MathUtils.paramPointProjectionOnSegment(point, controlPts[0], controlPts[3]); //TODO this function is already called in distPointToSegment...optimize by removing redundant call
-            //var param = VecUtils.vecDist(3, point, controlPts[0])/VecUtils.vecDist(3, controlPts[3], controlPts[0]);
-            if (param<0)
-                param=0;
-            if (param>1)
-                param=1;
-
-            return beginParam + (endParam-beginParam)*param;
-        }
-    }
-
-    //subdivide this curve using De Casteljau interpolation
-    var C0_ = VecUtils.vecInterpolate(3, controlPts[0], controlPts[1], 0.5);
-    var C1_ = VecUtils.vecInterpolate(3, controlPts[1], controlPts[2], 0.5);
-    var C2_ = VecUtils.vecInterpolate(3, controlPts[2], controlPts[3], 0.5);
-
-    var C0__ = VecUtils.vecInterpolate(3, C0_, C1_, 0.5);
-    var C1__ = VecUtils.vecInterpolate(3, C1_, C2_, 0.5);
-
-    var C0___ = VecUtils.vecInterpolate(3, C0__, C1__, 0.5);
-
-    //recursively sample the first half of the curve
-    var midParam = (endParam+beginParam)*0.5;
-    var param1 = this._checkIntersection(Vector.create([controlPts[0],C0_,C0__,C0___]), beginParam, midParam, point, radius);
-    if (param1!==null){
-        return param1;
-    }
-
-    //recursively sample the second half of the curve
-    var param2 = this._checkIntersection(Vector.create([C0___,C1__,C2_,controlPts[3]]), midParam, endParam, point, radius);
-    if (param2!==null){
-        return param2;
-    }
-
-    //no intersection, so return null
-    return null;
-}
-
-//whether the point lies within the bbox given by the four control points
-GLSubpath.prototype._isWithinBoundingBox = function(point, ctrlPts, radius) {
-    var bboxMin = Vector.create([Infinity, Infinity, Infinity]);
-    var bboxMax = Vector.create([-Infinity,-Infinity,-Infinity]);
-    for (var i=0;i<ctrlPts.length;i++) {
-        for (var d=0;d<3;d++){
-            if (ctrlPts[i][d] < bboxMin[d]){
-                bboxMin[d] = ctrlPts[i][d];
-            }
-            if (ctrlPts[i][d] > bboxMax[d]){
-                bboxMax[d] = ctrlPts[i][d];
-            }
-        }
-    }
-    //check whether the bbox of the control points contains the point within the specified radius
-    for (var d=0;d<3;d++){
-        if (point[d] < (bboxMin[d]-radius)){
-            return false;
-        }
-        if (point[d] > (bboxMax[d]+radius)){
-            return false;
-        }
-    }
-    return true;
-}
-
-GLSubpath.prototype.pickAnchor = function (pickX, pickY, pickZ, radius) {
-    var numAnchors = this._Anchors.length;
-    var selAnchorIndex = -1;
-    var radSq = radius * radius;
-    var minDistance = Infinity;
-    //check if the clicked location is close to the currently selected anchor position
-    if (this._selectedAnchorIndex>=0 && this._selectedAnchorIndex<this._Anchors.length){
-        var distSq = this._Anchors[this._selectedAnchorIndex].getDistanceSq(pickX, pickY, pickZ);
-        //check the anchor point
-        if (distSq < minDistance && distSq < radSq) {
-            selAnchorIndex = this._selectedAnchorIndex;
-            minDistance = distSq;
-        } else {
-            //check the prev and next of the selected anchor if the above did not register a hit
-            distSq = this._Anchors[this._selectedAnchorIndex].getPrevDistanceSq(pickX, pickY, pickZ);
-            if (distSq < minDistance && distSq < radSq){
-                selAnchorIndex = this._selectedAnchorIndex;
-                minDistance = distSq;
-            } else {
-                //check the next for this anchor point
-                distSq = this._Anchors[this._selectedAnchorIndex].getNextDistanceSq(pickX, pickY, pickZ);
-                if (distSq<minDistance && distSq<radSq){
-                    selAnchorIndex = this._selectedAnchorIndex;
-                    minDistance = distSq;
-                }
-            }
-        }
-    }
-    
-    //now check if the click location is close to any anchor position
-    if (selAnchorIndex===-1) {
-        for (var i = 0; i < numAnchors; i++) {
-            var distSq = this._Anchors[i].getDistanceSq(pickX, pickY, pickZ);
-            //check the anchor point
-            if (distSq < minDistance && distSq < radSq) {
-                selAnchorIndex = i;
-                minDistance = distSq;
-            }
-        }//for every anchor i
-    }
-    return selAnchorIndex;
-}
-
-GLSubpath.prototype.isWithinBBox =function(x,y,z){
-    if (this._BBoxMin[0]>x || this._BBoxMin[1]>y || this._BBoxMin[2]>z){
-        return false;
-    }
-    if (this._BBoxMax[0]<x || this._BBoxMax[1]<y || this._BBoxMax[2]<z){
-        return false;
-    }
-    return true;
-}
-
-//pick the path point closest to the specified location, return null if some anchor point (or its handles) is within radius, else return the parameter distance
-GLSubpath.prototype.pathHitTest = function (pickX, pickY, pickZ, radius) {
-    var numAnchors = this._Anchors.length;
-    var selAnchorIndex = -1;
-    var retParam = null;
-    var radSq = radius * radius;
-    var minDistance = Infinity;
-    
-    //check if the location is close to the currently selected anchor position
-    if (this._selectedAnchorIndex>=0 && this._selectedAnchorIndex<this._Anchors.length){
-        var distSq = this._Anchors[this._selectedAnchorIndex].getDistanceSq(pickX, pickY, pickZ);
-        //check the anchor point
-        if (distSq < minDistance && distSq < radSq) {
-            selAnchorIndex = this._selectedAnchorIndex;
-            minDistance = distSq;
-        }
-    }
-    //check the prev and next of the selected anchor if the above did not register a hit
-    if (this._selectedAnchorIndex>=0 && selAnchorIndex === -1) {
-        var distSq = this._Anchors[this._selectedAnchorIndex].getPrevDistanceSq(pickX, pickY, pickZ);
-        if (distSq < minDistance && distSq < radSq){
-            selAnchorIndex = this._selectedAnchorIndex;
-            minDistance = distSq;
-        } else {
-            //check the next for this anchor point
-            distSq = this._Anchors[this._selectedAnchorIndex].getNextDistanceSq(pickX, pickY, pickZ);
-            if (distSq<minDistance && distSq<radSq){
-                selAnchorIndex = this._selectedAnchorIndex;
-                minDistance = distSq;
-            }
-        }
-    }
-
-    //now check if the location is close to any anchor position
-    if (selAnchorIndex===-1) {
-        for (var i = 0; i < numAnchors; i++) {
-            var distSq = this._Anchors[i].getDistanceSq(pickX, pickY, pickZ);
-            //check the anchor point
-            if (distSq < minDistance && distSq < radSq) {
-                selAnchorIndex = i;
-                minDistance = distSq;
-            }
-        }//for every anchor i
-    }
-
-    //finally check if the location is close to the curve itself
-    if (selAnchorIndex===-1) {
-        //first check if the input location is within the bounding box
-        if (this.isWithinBBox(pickX,pickY,pickZ)){
-            var numSegments = this._isClosed ? numAnchors : numAnchors-1;
-            for (var i = 0; i < numSegments; i++) {
-                var nextIndex = (i+1)%numAnchors;
-                //check if the point is close to the bezier segment between anchor i and anchor nextIndex
-                var controlPoints = Vector.create([Vector.create([this._Anchors[i].getPosX(),this._Anchors[i].getPosY(),this._Anchors[i].getPosZ()]),
-                    Vector.create([this._Anchors[i].getNextX(),this._Anchors[i].getNextY(),this._Anchors[i].getNextZ()]),
-                    Vector.create([this._Anchors[nextIndex].getPrevX(),this._Anchors[nextIndex].getPrevY(),this._Anchors[nextIndex].getPrevZ()]),
-                    Vector.create([this._Anchors[nextIndex].getPosX(),this._Anchors[nextIndex].getPosY(),this._Anchors[nextIndex].getPosZ()])]);
-                var point = Vector.create([pickX, pickY, pickZ]);
-                if (this._isWithinBoundingBox(point, controlPoints, radius)) {
-                    //var intersectParam = this._checkIntersection(controlPoints, 0.0, 1.0, point, radius);
-                    var intersectParam = this._checkIntersectionWithSamples(this._anchorSampleIndex[i], this._anchorSampleIndex[nextIndex], point, radius);
-                    console.log("intersectParam:"+intersectParam);
-                    if (intersectParam){
-                        selAnchorIndex=i;
-                        retParam = intersectParam-i; //make the retParam go from 0 to 1
-                        break;
-                    }
-                }
-            }//for every anchor i
-        }//if is within bbox
-    }
-    return [selAnchorIndex,retParam];
-}     //GLSubpath.pathHitTest function
-
-
-//pick the path point closest to the specified location, return null if some anchor point (or its handles) is within radius, else return the parameter distance
-GLSubpath.prototype.pickPath = function (pickX, pickY, pickZ, radius) {
-    var numAnchors = this._Anchors.length;
-    var selAnchorIndex = -1;
-    var retCode = this.SEL_NONE;
-    var retParam = null;
-    var radSq = radius * radius;
-    var minDistance = Infinity;
-    //check if the clicked location is close to the currently selected anchor position
-    if (this._selectedAnchorIndex>=0 && this._selectedAnchorIndex<this._Anchors.length){
-        var distSq = this._Anchors[this._selectedAnchorIndex].getDistanceSq(pickX, pickY, pickZ);
-        //check the anchor point
-        if (distSq < minDistance && distSq < radSq) {
-            selAnchorIndex = this._selectedAnchorIndex;
-            minDistance = distSq;
-            retCode = retCode | this.SEL_ANCHOR;
-        }
-    }
-    //now check if the click location is close to any anchor position
-    if (selAnchorIndex===-1) {
-        for (var i = 0; i < numAnchors; i++) {
-            var distSq = this._Anchors[i].getDistanceSq(pickX, pickY, pickZ);
-            //check the anchor point
-            if (distSq < minDistance && distSq < radSq) {
-                selAnchorIndex = i;
-                minDistance = distSq;
-                retCode = retCode | this.SEL_ANCHOR;
-            }
-        }//for every anchor i
-    }
-
-    //check the prev and next of the selected anchor if the above did not register a hit
-    if (this._selectedAnchorIndex>=0 && selAnchorIndex === -1) {
-        var distSq = this._Anchors[this._selectedAnchorIndex].getPrevDistanceSq(pickX, pickY, pickZ);
-        if (distSq < minDistance && distSq < radSq){
-            selAnchorIndex = this._selectedAnchorIndex;
-            minDistance = distSq;
-            retCode = retCode | this.SEL_PREV;
-        } else {
-            //check the next for this anchor point
-            distSq = this._Anchors[this._selectedAnchorIndex].getNextDistanceSq(pickX, pickY, pickZ);
-            if (distSq<minDistance && distSq<radSq){
-                selAnchorIndex = this._selectedAnchorIndex;
-                minDistance = distSq;
-                retCode = retCode | this.SEL_NEXT;
-            }
-        }
-    }
-
-    if (retCode !== this.SEL_NONE) {
-        retCode = retCode | this.SEL_PATH; //ensure that path is also selected if anything else is selected
-        this._selectedAnchorIndex = selAnchorIndex;
-    } else {
-        this._selectedAnchorIndex = -1;
-        //first check if the input location is within the bounding box
-        if (this.isWithinBBox(pickX,pickY,pickZ)){
-            var numSegments = this._isClosed ? numAnchors : numAnchors-1;
-            for (var i = 0; i < numSegments; i++) {
-                var nextIndex = (i+1)%numAnchors;
-                //check if the point is close to the bezier segment between anchor i and anchor nextIndex
-                var controlPoints = Vector.create([Vector.create([this._Anchors[i].getPosX(),this._Anchors[i].getPosY(),this._Anchors[i].getPosZ()]),
-                    Vector.create([this._Anchors[i].getNextX(),this._Anchors[i].getNextY(),this._Anchors[i].getNextZ()]),
-                    Vector.create([this._Anchors[nextIndex].getPrevX(),this._Anchors[nextIndex].getPrevY(),this._Anchors[nextIndex].getPrevZ()]),
-                    Vector.create([this._Anchors[nextIndex].getPosX(),this._Anchors[nextIndex].getPosY(),this._Anchors[nextIndex].getPosZ()])]);
-                var point = Vector.create([pickX, pickY, pickZ]);
-                if (this._isWithinBoundingBox(point, controlPoints, radius)) {
-                    //var intersectParam = this._checkIntersection(controlPoints, 0.0, 1.0, point, radius);
-                    var intersectParam = this._checkIntersectionWithSamples(this._anchorSampleIndex[i], this._anchorSampleIndex[nextIndex], point, radius);
-                    console.log("intersectParam:"+intersectParam);
-                    if (intersectParam){
-                        retCode = retCode | this.SEL_PATH;
-                        retParam = intersectParam-i; //make the retParam go from 0 to 1
-                        this._selectedAnchorIndex = i;
-                        break;
-                    }
-                }
-            }//for every anchor i
-        }//is within bounding box
-    }
-    this._selectMode = retCode;
-    return retParam;
-}     //GLSubpath.pickPath function
-
-
-GLSubpath.prototype.getSelectedAnchorIndex = function () { return this._selectedAnchorIndex; }
-GLSubpath.prototype.getSelectedMode = function () { return this._selectMode; }
-
-GLSubpath.prototype.getNumPoints = function () { return this._samples.length; }
-
-GLSubpath.prototype.getBBoxMin = function () { return this._BBoxMin; }
-GLSubpath.prototype.getBBoxMax = function () { return this._BBoxMax; }
-
-GLSubpath.prototype.getStrokeWidth = function () { return this._strokeWidth; }
-GLSubpath.prototype.setStrokeWidth = function (w) { this._strokeWidth = w; }
-GLSubpath.prototype.getStrokeMaterial = function () { return this._strokeMaterial; }
-GLSubpath.prototype.setStrokeMaterial = function (m) { this._strokeMaterial = m; }
-GLSubpath.prototype.getStrokeColor = function () { return this._strokeColor; }
-GLSubpath.prototype.setStrokeColor = function (c) { this._strokeColor = c; }
-GLSubpath.prototype.getStrokeStyle = function () { return this._strokeStyle; }
-GLSubpath.prototype.setStrokeStyle = function (s) { this._strokeStyle = s; }
-GLSubpath.prototype.getFillMaterial = function() {return this._fillMaterial;}
-GLSubpath.prototype.setFillMaterial = function(m){ this._fillMaterial = m;}
-GLSubpath.prototype.getFillColor = function() {return this._fillColor;}
-GLSubpath.prototype.setFillColor = function(c){this._fillColor = c;}
-
-GLSubpath.prototype.copyFromSubpath = function (subpath) {
-    this.clearAllAnchors();
-    for (var i = 0; i < subpath.getNumAnchors(); i++) {
-        var oldAnchor = subpath.getAnchor(i);
-        var newAnchor = new GLAnchorPoint();
-        newAnchor.setPos(oldAnchor.getPosX(), oldAnchor.getPosY(), oldAnchor.getPosZ());
-        newAnchor.setPrevPos(oldAnchor.getPrevX(), oldAnchor.getPrevY(), oldAnchor.getPrevZ());
-        newAnchor.setNextPos(oldAnchor.getNextX(), oldAnchor.getNextY(), oldAnchor.getNextZ());
-        this.addAnchor(newAnchor);
-    }
-    this.setIsClosed(subpath.getIsClosed());
-    this.setStrokeWidth(subpath.getStrokeWidth());
-}
-
-GLSubpath.prototype.translateAnchors = function (tx, ty, tz) {
-    for (var i=0;i<this._Anchors.length;i++){
-        this._Anchors[i].translateAll(tx,ty,tz);
-    }
-    this._dirty = true;
-}
-
-
-GLSubpath.prototype._getCubicBezierPoint = function(C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, param) {
-    var t = param;
-    var t2 = t * t;
-    var t3 = t * t2;
-    var s = 1 - t;
-    var s2 = s * s;
-    var s3 = s * s2;
-    var Px = s3 * C0X + 3 * s2 * t * C1X + 3 * s * t2 * C2X + t3 * C3X;
-    var Py = s3 * C0Y + 3 * s2 * t * C1Y + 3 * s * t2 * C2Y + t3 * C3Y;
-    var Pz = s3 * C0Z + 3 * s2 * t * C1Z + 3 * s * t2 * C2Z + t3 * C3Z;
-    return Vector.create([Px,Py, Pz]);
-}
-
-GLSubpath.prototype.getCubicBezierPoint = function(startIndex, param){
-    var C0X = this._Anchors[startIndex].getPosX();
-    var C0Y = this._Anchors[startIndex].getPosY();
-    var C0Z = this._Anchors[startIndex].getPosZ();
-    var C1X = this._Anchors[startIndex].getNextX();
-    var C1Y = this._Anchors[startIndex].getNextY();
-    var C1Z = this._Anchors[startIndex].getNextZ();
-    var nextIndex = (startIndex +1)% this._Anchors.length;
-    var C2X = this._Anchors[nextIndex].getPrevX();
-    var C2Y = this._Anchors[nextIndex].getPrevY();
-    var C2Z = this._Anchors[nextIndex].getPrevZ();
-    var C3X = this._Anchors[nextIndex].getPosX();
-    var C3Y = this._Anchors[nextIndex].getPosY();
-    var C3Z = this._Anchors[nextIndex].getPosZ();
-    return this._getCubicBezierPoint(C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, param);
-}
-
-GLSubpath.prototype._sampleCubicBezierUniform = function (C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, beginParam, endParam) {
-    //for now, sample using regularly spaced parameter values
-    var numSteps = 11; //hard-coded for now
-    var stepSize = 0.1; // = 1/(numSteps-1)
-    for (var i = 0; i < numSteps; i++) {
-        var t = i * stepSize;
-        var t2 = t * t;
-        var t3 = t * t2;
-        var s = 1 - t;
-        var s2 = s * s;
-        var s3 = s * s2;
-        var Px = s3 * C0X + 3 * s2 * t * C1X + 3 * s * t2 * C2X + t3 * C3X;
-        var Py = s3 * C0Y + 3 * s2 * t * C1Y + 3 * s * t2 * C2Y + t3 * C3Y;
-        var Pz = s3 * C0Z + 3 * s2 * t * C1Z + 3 * s * t2 * C2Z + t3 * C3Z;
-        this._samples.push(Px);
-        this._samples.push(Py);
-        this._samples.push(Pz);
-
-        if (beginParam && endParam) {
-            this._sampleParam.push(beginParam + (endParam-beginParam)*t);
-        }
-    }
-}
-
-// _sampleCubicBezier
-//  queries the Bezier curve and adaptively samples it, adds samples in this._samples
-GLSubpath.prototype._sampleCubicBezier = function (C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, beginParam, endParam) {
-    var C0 = Vector.create([C0X, C0Y, C0Z]);
-    var C1 = Vector.create([C1X, C1Y, C1Z]);
-    var C2 = Vector.create([C2X, C2Y, C2Z]);
-    var C3 = Vector.create([C3X, C3Y, C3Z]);
-
-    //measure distance of C1 and C2 to segment C0-C3
-    var distC1 = MathUtils.distPointToSegment(C1, C0, C3);
-    var distC2 = MathUtils.distPointToSegment(C2, C0, C3);
-    var maxDist = Math.max(distC1, distC2);
-
-    //if max. distance is smaller than threshold, early exit
-    var threshold = this._SAMPLING_EPSILON; //this should be set outside this function
-    if (maxDist < threshold) {
-        //push the endpoints and return
-        this._samples.push(C0X);
-        this._samples.push(C0Y);
-        this._samples.push(C0Z);
-
-        this._samples.push(C3X);
-        this._samples.push(C3Y);
-        this._samples.push(C3Z);
-
-        this._sampleParam.push(beginParam);
-        this._sampleParam.push(endParam);
-        return;
-    }
-
-    //subdivide this curve
-    var C0_ = VecUtils.vecAdd(3, C0, C1); C0_ = VecUtils.vecScale(3, C0_, 0.5);
-    var C1_ = VecUtils.vecAdd(3, C1, C2); C1_ = VecUtils.vecScale(3, C1_, 0.5);
-    var C2_ = VecUtils.vecAdd(3, C2, C3); C2_ = VecUtils.vecScale(3, C2_, 0.5);
-
-    var C0__ = VecUtils.vecAdd(3, C0_, C1_); C0__ = VecUtils.vecScale(3, C0__, 0.5);
-    var C1__ = VecUtils.vecAdd(3, C1_, C2_); C1__ = VecUtils.vecScale(3, C1__, 0.5);
-
-    var C0___ = VecUtils.vecAdd(3, C0__, C1__); C0___ = VecUtils.vecScale(3, C0___, 0.5);
-
-    var midParam = beginParam + (endParam-beginParam)*0.5;
-    //recursively sample the first half of the curve
-    this._sampleCubicBezier(C0X, C0Y, C0Z,
-                    C0_[0], C0_[1], C0_[2],
-                    C0__[0], C0__[1], C0__[2],
-                    C0___[0], C0___[1], C0___[2], beginParam, midParam);
-
-    //recursively sample the second half of the curve
-    this._sampleCubicBezier(C0___[0], C0___[1], C0___[2],
-                    C1__[0], C1__[1], C1__[2],
-                    C2_[0], C2_[1], C2_[2],
-                    C3X, C3Y, C3Z, midParam, endParam);
-}
-
-///////////////////////////////////////////////////////////
-// Methods
-///////////////////////////////////////////////////////////
-//  createSamples
-//  stores samples of the subpath in _samples
-GLSubpath.prototype.createSamples = function () {
-    if (this._dirty) {
-        //clear any previously computed samples
-        this._samples = [];
-        this._sampleParam = [];
-        this._anchorSampleIndex = [];
-
-        var numAnchors = this._Anchors.length;
-        if (numAnchors > 1) {
-            //start with the first anchor position (since the Bezier curve start point is not added in the sample function below)
-            //this._samples.push(this._Anchors[0].getPosX());
-            //this._samples.push(this._Anchors[0].getPosY());
-            //this._samples.push(this._Anchors[0].getPosZ());
-
-            for (var i = 0; i < numAnchors - 1; i++) {
-                //get the control points
-                var C0X = this._Anchors[i].getPosX();
-                var C0Y = this._Anchors[i].getPosY();
-                var C0Z = this._Anchors[i].getPosZ();
-
-                var C1X = this._Anchors[i].getNextX();
-                var C1Y = this._Anchors[i].getNextY();
-                var C1Z = this._Anchors[i].getNextZ();
-
-                var C2X = this._Anchors[i + 1].getPrevX();
-                var C2Y = this._Anchors[i + 1].getPrevY();
-                var C2Z = this._Anchors[i + 1].getPrevZ();
-
-                var C3X = this._Anchors[i + 1].getPosX();
-                var C3Y = this._Anchors[i + 1].getPosY();
-                var C3Z = this._Anchors[i + 1].getPosZ();
-
-                var beginParam = i;
-                var endParam = i+1;
-                this._anchorSampleIndex.push(this._samples.length/3); //index of sample corresponding to anchor i
-                this._sampleCubicBezier(C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, beginParam, endParam);
-            } //for every anchor point i, except last
-
-            if (this._isClosed) {
-                var i = numAnchors - 1;
-                //get the control points
-                var C0X = this._Anchors[i].getPosX();
-                var C0Y = this._Anchors[i].getPosY();
-                var C0Z = this._Anchors[i].getPosZ();
-
-                var C1X = this._Anchors[i].getNextX();
-                var C1Y = this._Anchors[i].getNextY();
-                var C1Z = this._Anchors[i].getNextZ();
-
-                var C2X = this._Anchors[0].getPrevX();
-                var C2Y = this._Anchors[0].getPrevY();
-                var C2Z = this._Anchors[0].getPrevZ();
-
-                var C3X = this._Anchors[0].getPosX();
-                var C3Y = this._Anchors[0].getPosY();
-                var C3Z = this._Anchors[0].getPosZ();
-
-                var beginParam = i;
-                var endParam = i+1;
-                this._anchorSampleIndex.push(this._samples.length/3); //index of sample corresponding to anchor i
-                this._sampleCubicBezier(C0X, C0Y, C0Z, C1X, C1Y, C1Z, C2X, C2Y, C2Z, C3X, C3Y, C3Z, beginParam, endParam);
-            } else {
-                this._anchorSampleIndex.push((this._samples.length/3) - 1); //index of sample corresponding to last anchor
-            }
-        } //if (numAnchors >== 2) {
-
-        //re-compute the bounding box (this also accounts for stroke width, so assume the stroke width is set)
-        this.computeBoundingBox(true);
-
-    } //if (this._dirty)
-    this._dirty = false;
-}
-
-GLSubpath.prototype.computeBoundingBox = function(useSamples){
-    this._BBoxMin = [Infinity, Infinity, Infinity];
-    this._BBoxMax = [-Infinity, -Infinity, -Infinity];
-    if (useSamples) {
-        var numPoints = this._samples.length/3;
-        if (numPoints === 0) {
-            this._BBoxMin = [0, 0, 0];
-            this._BBoxMax = [0, 0, 0];
-        } else {
-            for (var i=0;i<numPoints;i++){
-                var pt = Vector.create([this._samples[3*i],this._samples[3*i + 1],this._samples[3*i + 2]]);
-                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
-            }
-        }
-    }
-    else{
-        //build a bbox of the anchor points, not the path itself
-        var numAnchors = this._Anchors.length;
-        var anchorPts = [Vector.create([0,0,0]), Vector.create([0,0,0]), Vector.create([0,0,0])];
-        if (numAnchors === 0) {
-            this._BBoxMin = [0, 0, 0];
-            this._BBoxMax = [0, 0, 0];
-        } else {
-            for (var i = 0; i < numAnchors; i++) {
-                anchorPts[0] = (Vector.create([this._Anchors[i].getPosX(),this._Anchors[i].getPosY(),this._Anchors[i].getPosZ()]));
-                anchorPts[1] = (Vector.create([this._Anchors[i].getPrevX(),this._Anchors[i].getPrevY(),this._Anchors[i].getPrevZ()]));
-                anchorPts[2] = (Vector.create([this._Anchors[i].getNextX(),this._Anchors[i].getNextY(),this._Anchors[i].getNextZ()]));
-
-                for (var p=0;p<3;p++){
-                    for (var d = 0; d < 3; d++) {
-                        if (this._BBoxMin[d] > anchorPts[p][d]) {
-                            this._BBoxMin[d] = anchorPts[p][d];
-                        }
-                        if (this._BBoxMax[d] < anchorPts[p][d]) {
-                            this._BBoxMax[d] = anchorPts[p][d];
-                        }
-                    }//for every dimension d from 0 to 2
-                } //for every anchorPts p from 0 to 2
-            } //for every anchor point i
-        } //else of if (numSamples === 0) {
-    }//else of if useSamples
-
-    //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
-}
-
-//returns v such that it is in [min,max]
-GLSubpath.prototype._clamp = function (v, min, max) {
-    if (v < min)
-        return min;
-    if (v > max)
-        return max;
-    return v;
-},
-
-    //input: point sIn in stage-world space, planeMidPt in stage-world space, matrix planeMat that rotates plane into XY (parallel to view plane), inverse of planeMat
-//returns: sIn 'unprojected'
-GLSubpath.prototype.unprojectPoint = function ( sIn, planeMidPt, planeMat, planeMatInv)
-{
-    var s = sIn.slice(0);
-    s[0] -= planeMidPt[0];  s[1] -= planeMidPt[1]; //bring s to the center of the plane
-
-    // unproject the point s
-    var i;
-    var viewZ = 1400;
-    if (MathUtils.fpCmp(viewZ,-s[2]) !== 0){
-        z = s[2]*viewZ/(viewZ + s[2]);
-        var x = s[0]*(viewZ - z)/viewZ,
-            y = s[1]*(viewZ - z)/viewZ;
-        s[0] = x;  s[1] = y;  s[2] = z;
-    }
-
-    // add the translation back in
-     s[0] += planeMidPt[0];   s[1] += planeMidPt[1];
-
-    return s;
-},
-
-GLSubpath.prototype.computeUnprojectedNDC = function (pos, bboxMid, bboxDim, r, l, t, b, z, zn) {
-    //unproject pos from stageworld to unprojected state
-    var ppos = this.unprojectPoint(pos, this._planeCenter, this._planeMat, this._planeMatInv);
-
-    //make the coordinates lie in [-1,1]
-    var x = (ppos[0] - bboxMid[0]) / bboxDim[0];
-    var y = -(ppos[1] - bboxMid[1]) / bboxDim[1];
-
-    //x and y should never be outside the [-1,1] range
-    x = this._clamp(x, -1, 1);
-    y = this._clamp(y, -1, 1);
-
-    //apply the perspective transform
-    x *= -z * (r - l) / (2.0 * zn);
-    y *= -z * (t - b) / (2.0 * zn);
-
-    ppos[0] = x;
-    ppos[1] = y;
-    ppos[2] = 0; //z;
-    return ppos;
-}
-
-
-GLSubpath.prototype.makeStrokeMaterial = function()
-{
-    var strokeMaterial;
-    if (this.getStrokeMaterial())
-        strokeMaterial = this.getStrokeMaterial().dup();
-    else
-        strokeMaterial = new FlatMaterial();
-
-    if (strokeMaterial)
-    {
-        strokeMaterial.init();
-        //if(!this.getStrokeMaterial() && this._strokeColor)
-        if(this._strokeColor)
-         {
-            strokeMaterial.setProperty("color", this._strokeColor);
-        }
-    }
-
-    this._materialArray.push( strokeMaterial );
-    this._materialTypeArray.push( "stroke" );
-
-    return strokeMaterial;
-}
-
-GLSubpath.prototype.makeFillMaterial = function()
-{
-    var fillMaterial;
-    if (this.getFillMaterial())
-        fillMaterial = this.getFillMaterial().dup();
-    else
-        fillMaterial = new FlatMaterial();
-
-    if (fillMaterial)
-    {
-        fillMaterial.init();
-        //if(!this.getFillMaterial() && this._fillColor)
-        if (this._fillColor)
-        {
-            fillMaterial.setProperty("color", this._fillColor);
-        }
-    }
-
-    this._materialArray.push( fillMaterial );
-    this._materialTypeArray.push( "fill" );
-
-    return fillMaterial;
-}
-
-GLSubpath.prototype.getNearVertex = function( eyePt, dir ){
-    //get the parameters used for computing perspective transformation
-    var bboxDim = [];
-    var bboxMid = [];
-    bboxDim[0] = 0.5 * (this._BBoxMax[0] - this._BBoxMin[0]);
-    bboxMid[0] = 0.5 * (this._BBoxMax[0] + this._BBoxMin[0]);
-    bboxDim[1] = 0.5 * (this._BBoxMax[1] - this._BBoxMin[1]);
-    bboxMid[1] = 0.5 * (this._BBoxMax[1] + this._BBoxMin[1]);
-    bboxDim[2] = 0.5 * (this._BBoxMax[2] - this._BBoxMin[2]);
-    bboxMid[3] = 0.5 * (this._BBoxMax[2] + this._BBoxMin[2]);
-
-    // convert the stroke vertices into normalized device coordinates
-    var world = this.getWorld();
-    if (!world) return null;
-    var aspect = world.getAspect();
-    var zn = world.getZNear(), zf = world.getZFar();
-    var t = zn * Math.tan(world.getFOV() * Math.PI / 360.0),    //top of the frustum
-        b = -t,                                                 //bottom
-        r = aspect * t,                                         //right
-        l = -r;                                                 //left
-
-    // calculate the object coordinates from their NDC coordinates
-    var z = -world.getViewDistance();
-
-    // the eyePt and dir are in WebGL space...we need to convert each anchor point into the WebGL space
-    var numAnchors = this._Anchors.length;
-    var selAnchorPpos = null;
-    var minDistance = Infinity;
-    for (var i = 0; i < numAnchors; i++) {
-        var anchorPos = Vector.create([this._Anchors[i].getPosX(), this._Anchors[i].getPosY(), this._Anchors[i].getPosZ()]);
-        var ppos = this.computeUnprojectedNDC(anchorPos, bboxMid, bboxDim, r, l, t, b, z, zn);
-        var dist = MathUtils.distPointToRay(ppos, eyePt, dir);
-        if (dist < minDistance) {
-            selAnchorPpos = ppos;
-            minDistance = dist;
-        }
-    }
-    return selAnchorPpos;
-}
-
-GLSubpath.prototype.getNearPoint = function( eyePt, dir ){
-    return null;
-}
-
-//returns true if P is left of line through l0 and l1 or on it
-GLSubpath.prototype.isLeft = function(l0, l1, P){
-    var signedArea = (l1[0]-l0[0])*(P[1] - l0[1]) - (P[0]-l0[0])*(l1[1]-l0[1]);
-    if (signedArea>=0)
-        return true;
-    else
-        return false;
-}
-//returns true if 2D point p is contained within 2D quad given by r0,r1,r2,r3 (need not be axis-aligned)
-GLSubpath.prototype.isPointInQuad2D = function(r0,r1,r2,r3,p){
-    //returns true if the point is on the same side of the segments r0r1, r1r2, r2r3, r3r0
-    var isLeft0 = this.isLeft(r0,r1,p);
-    var isLeft1 = this.isLeft(r1,r2,p);
-    var isLeft2 = this.isLeft(r2,r3,p);
-    var isLeft3 = this.isLeft(r3,r0,p);
-    var andAll = isLeft0 & isLeft1 & isLeft2 & isLeft3;
-    if (andAll)
-        return true;
-    var orAll = isLeft0 | isLeft1 | isLeft2 | isLeft3;
-    if (!orAll)
-        return true;
-    return false;
-}
-
-
-GLSubpath.prototype.export = function()
-{
-    var rtnStr = "type: " + this.geomType() + "\n";
-
-    rtnStr += "strokeWidth: "	+ this._strokeWidth	+ "\n";
-    rtnStr += "strokeStyle: "	+ this._strokeStyle	+ "\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";
-
-    var isClosedStr = "false";
-    if (this._isClosed)
-        isClosedStr = "true";
-    rtnStr += "isClosed: "      + isClosedStr + "\n";
-
-    //add the anchor points
-    var numAnchors = this._Anchors.length;
-    rtnStr += "numAnchors: "    + numAnchors        + "\n";
-    for (var i=0;i<numAnchors;i++){
-        rtnStr += "anchor"+i+"x: " + this._Anchors[i].getPosX() + "\n";
-        rtnStr += "anchor"+i+"y: " + this._Anchors[i].getPosY() + "\n";
-        rtnStr += "anchor"+i+"z: " + this._Anchors[i].getPosZ() + "\n";
-
-        rtnStr += "anchor"+i+"prevx: " + this._Anchors[i].getPrevX() + "\n";
-        rtnStr += "anchor"+i+"prevy: " + this._Anchors[i].getPrevY() + "\n";
-        rtnStr += "anchor"+i+"prevz: " + this._Anchors[i].getPrevZ() + "\n";
-
-        rtnStr += "anchor"+i+"nextx: " + this._Anchors[i].getNextX() + "\n";
-        rtnStr += "anchor"+i+"nexty: " + this._Anchors[i].getNextY() + "\n";
-        rtnStr += "anchor"+i+"nextz: " + this._Anchors[i].getNextZ() + "\n";
-    }
-    return rtnStr;
-}
-
-GLSubpath.prototype.import = function( importStr )
-{
-    this._strokeWidth		= this.getPropertyFromString( "strokeWidth: ",	importStr );
-    this._strokeStyle		= this.getPropertyFromString( "strokeStyle: ",	importStr );
-    var strokeMaterialName	= this.getPropertyFromString( "strokeMat: ",	importStr );
-    var fillMaterialName	= this.getPropertyFromString( "fillMat: ",		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;
-
-    var isClosedStr = this.getPropertyFromString( "isClosed: ", importStr);
-    this._isClosed = isClosedStr === "true";
-
-    var numAnchors = this.getPropertyFromString("numAnchors: ", importStr);
-    for (var i=0;i<numAnchors;i++) {
-        var posX = this.getPropertyFromString("anchor"+i+"x", importStr);
-        var posY = this.getPropertyFromString("anchor"+i+"y", importStr);
-        var posZ = this.getPropertyFromString("anchor"+i+"z", importStr);
-
-        var prevX = this.getPropertyFromString("anchor"+i+"prevx", importStr);
-        var prevY = this.getPropertyFromString("anchor"+i+"prevy", importStr);
-        var prevZ = this.getPropertyFromString("anchor"+i+"prevz", importStr);
-
-        var nextX = this.getPropertyFromString("anchor"+i+"nextx", importStr);
-        var nextY = this.getPropertyFromString("anchor"+i+"nexty", importStr);
-        var nextZ = this.getPropertyFromString("anchor"+i+"nextz", importStr);
-
-        var newAnchor = new GLAnchorPoint();
-        newAnchor.setPos(posX, posY, posZ);
-        newAnchor.setPrevPos(prevX, prevY, prevZ);
-        newAnchor.setNextPos(nextX, nextY, nextZ);
-        this._selectedSubpath.addAnchor(newAnchor);
-    }
-}
-
-GLSubpath.prototype.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;
-}
-
-GLSubpath.prototype.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;
-}
-
-- 
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