2 files changed, 242 insertions, 154 deletions
diff --git a/js/helper-classes/3D/StageLine.js b/js/helper-classes/3D/StageLine.js
index 787a4568..069729d0 100755
--- a/js/helper-classes/3D/StageLine.js
+++ b/js/helper-classes/3D/StageLine.js
@@ -33,6 +33,7 @@ POSSIBILITY OF SUCH DAMAGE.
 //      The line class represents a line intersected with all planes on the scene
 ///////////////////////////////////////////////////////////////////////
 var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;
+var viewUtils = require( "js/helper-classes/3D/view-utils").ViewUtils;
 var LinePlaneIntersectRec = require("js/helper-classes/3D/LinePlaneIntersectRec").LinePlaneIntersectRec;
 var StageLine = exports.StageLine = Object.create(Object.prototype, {
@@ -76,149 +77,211 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
    // Methods
    ///////////////////////////////////////////////////////////////////////
-    intersectWithPlane: {
+        intersectWithPlane: {
-        value: function( plane )
+                value: function( plane )
-        {
+                {
-            // if the plane is edge-on, ignore it
+                        // if the plane is edge-on, ignore it
-            if ( MathUtils.fpSign( plane.getPlaneEq()[2] ) == 0 )  return;
+                        if ( MathUtils.fpSign( plane.getPlaneEq()[2] ) == 0 )  return;
-            // do some quick box tests.
+                        // do some quick box tests.
-            var minPt = this.getMinPoint(),
+                        var minPt = this.getMinPoint(),
-                    maxPt = this.getMaxPoint();
+                                        maxPt = this.getMaxPoint();
-            if (maxPt[0] < plane._rect.getLeft())     return;
+                        if (maxPt[0] < plane._rect.getLeft())     return;
-            if (minPt[0] > plane._rect.getRight())    return;
+                        if (minPt[0] > plane._rect.getRight())    return;
-            if (maxPt[1] < plane._rect.getTop())      return;
+                        if (maxPt[1] < plane._rect.getTop())      return;
-            if (minPt[1] > plane._rect.getBottom())   return;
+                        if (minPt[1] > plane._rect.getBottom())   return;
-            if (minPt[2] > plane.getZMax())           return;
+                        if (minPt[2] > plane.getZMax())           return;
-            // get the boundary points for the plane
+                        // get the boundary points for the plane
-            var boundaryPts = plane.getBoundaryPoints();
+                        var boundaryPts = plane.getBoundaryPoints().slice();
-            // get the points and direction vector for the current line
+                        // get the points and direction vector for the current line
-            var pt0 = this.getPoint0(),  pt1 = this.getPoint1();
+                        var pt0 = this.getPoint0(),  pt1 = this.getPoint1();
-            //var lineDir = pt1.subtract( pt0 );
+                        //var lineDir = pt1.subtract( pt0 );
-            var lineDir = vecUtils.vecSubtract(3, pt1, pt0);
+                        var lineDir = vecUtils.vecSubtract(3, pt1, pt0);
-            // intersect with the front plane
+                        // intersect with the front plane
-            var planeEq = plane.getPlaneEq();
+                        var planeEq = plane.getPlaneEq();
-            var t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
+                        var t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
-            if (t != undefined)
+                        if (t != undefined)
-            {
+                        {
-                if ((MathUtils.fpSign(t) >= 0) && (MathUtils.fpCmp(t,1.0) <= 0))
+                                if ((MathUtils.fpSign(t) >= 0) && (MathUtils.fpCmp(t,1.0) <= 0))
-                {
+                                {
-                    // get the intersection point
+                                        // get the intersection point
-                    var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
+                                        var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
-                    // see if the intersection point is contained in the bounds
+                                        // see if the intersection point is contained in the bounds
-                    //var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );
+                                        //var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );
-                    var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing() );
+                                        var onEdge = [];
-                    if (contains == MathUtils.INSIDE)
+                                        var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing(), onEdge );
-                    {
+                                        if (contains == MathUtils.INSIDE)
-                        // add the intersection
+                                        {
-                        var dot = MathUtils.dot3( pt0, planeEq ) + planeEq[3];
+                                                // add the intersection
-                        var deltaVis = (dot > 0) ? 1 : -1;
+                                                var dot = MathUtils.dot3( pt0, planeEq ) + planeEq[3];
+                                                var deltaVis = (dot > 0) ? 1 : -1;
 //                                      if (plane.isBackFacing())
 //                        deltaVis = (dot < 0) ? 1 : -1;
-                        this.addIntersection( plane, t, deltaVis );
+                                                this.addIntersection( plane, t, deltaVis );
-                    }
+                                        }
-                    else if (contains == MathUtils.ON)
+                                        else if (contains == MathUtils.ON)
-                    {
+                                        {
-                        if (MathUtils.fpCmp(t,1.0) < 0)
+                                                if (MathUtils.fpCmp(t,1.0) < 0)
-                        {
+                                                {
-                            // take the dot product between the line and the normal to the plane
+                                                        // determine if the intersection is on a front side (no intersection) of the polygons
-                            // to determine the change in visibility
+                                                        //var ctr = [ 0.5*(boundaryPts[0][0] + boundaryPts[2][0]),  0.5*(boundaryPts[0][1] + boundaryPts[2][1]),  0.5*(boundaryPts[0][2] + boundaryPts[2][2]) ];
-                            var vec = vecUtils.vecSubtract( 3, pt1, pt0 );
+                                                        //var vec = vecUtils.vecSubtract(3, pt, ctr );
-                            var dot = vecUtils.vecDot( 3, vec, plane.getPlaneEq() );
+                                                        this.edgeIsFrontFacing2( plane   );
-                            var sign = MathUtils.fpSign( dot );
+                                                        if ( !this.edgeIsFrontFacing(boundaryPts, planeEq, plane.isBackFacing(), onEdge[0], onEdge[1]) )
-                            if (sign == 0)
+                                                        {
-                                throw new Error( "coplanar intersection being treated as not coplanar" );
+                                                                // take the dot product between the line and the normal to the plane
-                            if (!plane.isBackFacing())
+                                                                // to determine the change in visibility
-                            {
+                                                                var vec = vecUtils.vecSubtract( 3, pt1, pt0 );
-                                if (sign < 0)
+                                                                var dot = vecUtils.vecDot( 3, vec, planeEq );
-                                    this.addIntersection( plane, t, 1 );
+                                                                var sign = MathUtils.fpSign( dot );
-                            }
+                                                                if (sign == 0)
-                            else
+                                                                        throw new Error( "coplanar intersection being treated as not coplanar" );
-                            {
+                                                                if (!plane.isBackFacing())
-                                if (sign > 0)
+                                                                {
-                                    this.addIntersection( plane, t, -1 );
+                                                                        if (sign < 0)
-                            }
+                                                                                this.addIntersection( plane, t, 1 );
-                        }
+                                                                }
-                    }
+                                                                else
-                }
+                                                                {
-            }
+                                                                        if (sign > 0)
-            else
+                                                                                this.addIntersection( plane, t, -1 );
-            {
+                                                                }
-                // the line must be parallel to the plane.  If the line is in the plane,
+                                                        }
-                // we need to do some special processing
+                                                }
-                var d0 = vecUtils.vecDot(3, planeEq, pt0) + planeEq[3],
+                                        }
-                        d1 = vecUtils.vecDot(3, planeEq, pt1) + planeEq[3];
+                                }
-                if ((MathUtils.fpSign(d0) == 0) && (MathUtils.fpSign(d1) == 0))
+                        }
-                    this.doCoplanarIntersection( plane );
+                        else
-            }
+                        {
+                                // the line must be parallel to the plane.  If the line is in the plane,
+                                // we need to do some special processing
+                                var d0 = vecUtils.vecDot(3, planeEq, pt0) + planeEq[3],
+                                                d1 = vecUtils.vecDot(3, planeEq, pt1) + planeEq[3];
+                                if ((MathUtils.fpSign(d0) == 0) && (MathUtils.fpSign(d1) == 0))
+                                        this.doCoplanarIntersection( plane );
+                        }
-            // intersect with the 4 planes formed by the edges of the plane, going back in Z
+                        // intersect with the 4 planes formed by the edges of the plane, going back in Z
-            var bPt1 = boundaryPts[3];
+                        var bPt1 = boundaryPts[3];
-            for (var i=0;  i<4;  i++)
+                        for (var i=0;  i<4;  i++)
-            {
+                        {
-                // get the 2 points that define the front edge of the plane
+                                // get the 2 points that define the front edge of the plane
-                var bPt0 = bPt1;
+                                var bPt0 = bPt1;
-                var bPt1 = boundaryPts[i];
+                                var bPt1 = boundaryPts[i];
-                // calculate the plane equation.  The normal should point towards the OUTSIDE of the boundary
+                                // calculate the plane equation.  The normal should point towards the OUTSIDE of the boundary
-                //var vec = bPt1.subtract( bPt0 );
+                                //var vec = bPt1.subtract( bPt0 );
-                var vec = vecUtils.vecSubtract(3, bPt1, bPt0);
+                                var vec = vecUtils.vecSubtract(3, bPt1, bPt0);
-                if (plane.isBackFacing())
+                                if (plane.isBackFacing())
-                    MathUtils.negate( vec );
+                                        MathUtils.negate( vec );
-                planeEq = [-vec[1], vec[0], 0];
+                                planeEq = [-vec[1], vec[0], 0];
-                var normal = [planeEq[0], planeEq[1], planeEq[2]];
+                                var normal = [planeEq[0], planeEq[1], planeEq[2]];
 //                      var d = -planeEq.dot(bPt0);
-                var d = -vecUtils.vecDot(3, planeEq, bPt0);
+                                var d = -vecUtils.vecDot(3, planeEq, bPt0);
-                planeEq[3] = d;
+                                planeEq[3] = d;
-                t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
+                                t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
-                if (t)
+                                if (t)
-                {
+                                {
-                    if ((MathUtils.fpSign(t) > 0) && (MathUtils.fpCmp(t,1.0) <= 0))     // the strict vs not-strict inequality comparisons are IMPORTANT!
+                                        if ((MathUtils.fpSign(t) > 0) && (MathUtils.fpCmp(t,1.0) <= 0)) // the strict vs not-strict inequality comparisons are IMPORTANT!
-                    {
+                                        {
-                        // get the intersection point
+                                                // get the intersection point
-                        var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
+                                                var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
-                        // we need to get the parameter on the edge of the projection
+                                                // we need to get the parameter on the edge of the projection
-                        // of the intersection point onto the line.
+                                                // of the intersection point onto the line.
-                        var index = (Math.abs(vec[0]) > Math.abs(vec[1])) ? 0 : 1;
+                                                var index = (Math.abs(vec[0]) > Math.abs(vec[1])) ? 0 : 1;
-                        var tEdge = (pt[index] - bPt0[index])/(bPt1[index] - bPt0[index]);
+                                                var tEdge = (pt[index] - bPt0[index])/(bPt1[index] - bPt0[index]);

diff --git a/js/helper-classes/3D/StageLine.js b/js/helper-classes/3D/StageLine.js index 787a4568..069729d0 100755 --- a/js/helper-classes/3D/StageLine.js +++ b/js/helper-classes/3D/StageLine.js
@@ -33,6 +33,7 @@ POSSIBILITY OF SUCH DAMAGE.
33	// The line class represents a line intersected with all planes on the scene	33	// The line class represents a line intersected with all planes on the scene
34	///////////////////////////////////////////////////////////////////////	34	///////////////////////////////////////////////////////////////////////
35	var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;	35	var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;
		36	var viewUtils = require( "js/helper-classes/3D/view-utils").ViewUtils;
36	var LinePlaneIntersectRec = require("js/helper-classes/3D/LinePlaneIntersectRec").LinePlaneIntersectRec;	37	var LinePlaneIntersectRec = require("js/helper-classes/3D/LinePlaneIntersectRec").LinePlaneIntersectRec;
37		38
38	var StageLine = exports.StageLine = Object.create(Object.prototype, {	39	var StageLine = exports.StageLine = Object.create(Object.prototype, {
@@ -76,149 +77,211 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
76	// Methods	77	// Methods
77	///////////////////////////////////////////////////////////////////////	78	///////////////////////////////////////////////////////////////////////
78		79
79	intersectWithPlane: {	80	intersectWithPlane: {
80	value: function( plane )	81	value: function( plane )
81	{	82	{
82	// if the plane is edge-on, ignore it	83	// if the plane is edge-on, ignore it
83	if ( MathUtils.fpSign( plane.getPlaneEq()[2] ) == 0 ) return;	84	if ( MathUtils.fpSign( plane.getPlaneEq()[2] ) == 0 ) return;
84		85
85	// do some quick box tests.	86	// do some quick box tests.
86	var minPt = this.getMinPoint(),	87	var minPt = this.getMinPoint(),
87	maxPt = this.getMaxPoint();	88	maxPt = this.getMaxPoint();
88		89
89	if (maxPt[0] < plane._rect.getLeft()) return;	90	if (maxPt[0] < plane._rect.getLeft()) return;
90	if (minPt[0] > plane._rect.getRight()) return;	91	if (minPt[0] > plane._rect.getRight()) return;
91		92
92	if (maxPt[1] < plane._rect.getTop()) return;	93	if (maxPt[1] < plane._rect.getTop()) return;
93	if (minPt[1] > plane._rect.getBottom()) return;	94	if (minPt[1] > plane._rect.getBottom()) return;
94		95
95	if (minPt[2] > plane.getZMax()) return;	96	if (minPt[2] > plane.getZMax()) return;
96		97
97	// get the boundary points for the plane	98	// get the boundary points for the plane
98	var boundaryPts = plane.getBoundaryPoints();	99	var boundaryPts = plane.getBoundaryPoints().slice();
99		100
100	// get the points and direction vector for the current line	101	// get the points and direction vector for the current line
101	var pt0 = this.getPoint0(), pt1 = this.getPoint1();	102	var pt0 = this.getPoint0(), pt1 = this.getPoint1();
102	//var lineDir = pt1.subtract( pt0 );	103	//var lineDir = pt1.subtract( pt0 );
103	var lineDir = vecUtils.vecSubtract(3, pt1, pt0);	104	var lineDir = vecUtils.vecSubtract(3, pt1, pt0);
104		105
105	// intersect with the front plane	106	// intersect with the front plane
106	var planeEq = plane.getPlaneEq();	107	var planeEq = plane.getPlaneEq();
107	var t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );	108	var t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
108	if (t != undefined)	109	if (t != undefined)
109	{	110	{
110	if ((MathUtils.fpSign(t) >= 0) && (MathUtils.fpCmp(t,1.0) <= 0))	111	if ((MathUtils.fpSign(t) >= 0) && (MathUtils.fpCmp(t,1.0) <= 0))
111	{	112	{
112	// get the intersection point	113	// get the intersection point
113	var pt = MathUtils.interpolateLine3D( pt0, pt1, t );	114	var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
114		115
115	// see if the intersection point is contained in the bounds	116	// see if the intersection point is contained in the bounds
116	//var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );	117	//var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );
117	var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing() );	118	var onEdge = [];
118	if (contains == MathUtils.INSIDE)	119	var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing(), onEdge );
119	{	120	if (contains == MathUtils.INSIDE)
120	// add the intersection	121	{
121	var dot = MathUtils.dot3( pt0, planeEq ) + planeEq[3];	122	// add the intersection
122	var deltaVis = (dot > 0) ? 1 : -1;	123	var dot = MathUtils.dot3( pt0, planeEq ) + planeEq[3];
		124	var deltaVis = (dot > 0) ? 1 : -1;
123	// if (plane.isBackFacing())	125	// if (plane.isBackFacing())
124	// deltaVis = (dot < 0) ? 1 : -1;	126	// deltaVis = (dot < 0) ? 1 : -1;
125		127
126	this.addIntersection( plane, t, deltaVis );	128	this.addIntersection( plane, t, deltaVis );
127	}	129	}
128	else if (contains == MathUtils.ON)	130	else if (contains == MathUtils.ON)
129	{	131	{
130	if (MathUtils.fpCmp(t,1.0) < 0)	132	if (MathUtils.fpCmp(t,1.0) < 0)
131	{	133	{
132	// take the dot product between the line and the normal to the plane	134	// determine if the intersection is on a front side (no intersection) of the polygons
133	// to determine the change in visibility	135	//var ctr = [ 0.5(boundaryPts[0][0] + boundaryPts[2][0]), 0.5(boundaryPts[0][1] + boundaryPts[2][1]), 0.5*(boundaryPts[0][2] + boundaryPts[2][2]) ];
134	var vec = vecUtils.vecSubtract( 3, pt1, pt0 );	136	//var vec = vecUtils.vecSubtract(3, pt, ctr );
135	var dot = vecUtils.vecDot( 3, vec, plane.getPlaneEq() );	137	this.edgeIsFrontFacing2( plane );
136	var sign = MathUtils.fpSign( dot );	138	if ( !this.edgeIsFrontFacing(boundaryPts, planeEq, plane.isBackFacing(), onEdge[0], onEdge[1]) )
137	if (sign == 0)	139	{
138	throw new Error( "coplanar intersection being treated as not coplanar" );	140	// take the dot product between the line and the normal to the plane
139	if (!plane.isBackFacing())	141	// to determine the change in visibility
140	{	142	var vec = vecUtils.vecSubtract( 3, pt1, pt0 );
141	if (sign < 0)	143	var dot = vecUtils.vecDot( 3, vec, planeEq );
142	this.addIntersection( plane, t, 1 );	144	var sign = MathUtils.fpSign( dot );
143	}	145	if (sign == 0)
144	else	146	throw new Error( "coplanar intersection being treated as not coplanar" );
145	{	147	if (!plane.isBackFacing())
146	if (sign > 0)	148	{
147	this.addIntersection( plane, t, -1 );	149	if (sign < 0)
148	}	150	this.addIntersection( plane, t, 1 );
149	}	151	}
150	}	152	else
151	}	153	{
152	}	154	if (sign > 0)
153	else	155	this.addIntersection( plane, t, -1 );
154	{	156	}
155	// the line must be parallel to the plane. If the line is in the plane,	157	}
156	// we need to do some special processing	158	}
157	var d0 = vecUtils.vecDot(3, planeEq, pt0) + planeEq[3],	159	}
158	d1 = vecUtils.vecDot(3, planeEq, pt1) + planeEq[3];	160	}
159	if ((MathUtils.fpSign(d0) == 0) && (MathUtils.fpSign(d1) == 0))	161	}
160	this.doCoplanarIntersection( plane );	162	else
161	}	163	{
		164	// the line must be parallel to the plane. If the line is in the plane,
		165	// we need to do some special processing
		166	var d0 = vecUtils.vecDot(3, planeEq, pt0) + planeEq[3],
		167	d1 = vecUtils.vecDot(3, planeEq, pt1) + planeEq[3];
		168	if ((MathUtils.fpSign(d0) == 0) && (MathUtils.fpSign(d1) == 0))
		169	this.doCoplanarIntersection( plane );
		170	}
162		171
163	// intersect with the 4 planes formed by the edges of the plane, going back in Z	172	// intersect with the 4 planes formed by the edges of the plane, going back in Z
164	var bPt1 = boundaryPts[3];	173	var bPt1 = boundaryPts[3];
165	for (var i=0; i<4; i++)	174	for (var i=0; i<4; i++)
166	{	175	{
167	// get the 2 points that define the front edge of the plane	176	// get the 2 points that define the front edge of the plane
168	var bPt0 = bPt1;	177	var bPt0 = bPt1;
169	var bPt1 = boundaryPts[i];	178	var bPt1 = boundaryPts[i];
170		179
171	// calculate the plane equation. The normal should point towards the OUTSIDE of the boundary	180	// calculate the plane equation. The normal should point towards the OUTSIDE of the boundary
172	//var vec = bPt1.subtract( bPt0 );	181	//var vec = bPt1.subtract( bPt0 );
173	var vec = vecUtils.vecSubtract(3, bPt1, bPt0);	182	var vec = vecUtils.vecSubtract(3, bPt1, bPt0);
174	if (plane.isBackFacing())	183	if (plane.isBackFacing())
175	MathUtils.negate( vec );	184	MathUtils.negate( vec );
176	planeEq = [-vec[1], vec[0], 0];	185	planeEq = [-vec[1], vec[0], 0];
177	var normal = [planeEq[0], planeEq[1], planeEq[2]];	186	var normal = [planeEq[0], planeEq[1], planeEq[2]];
178	// var d = -planeEq.dot(bPt0);	187	// var d = -planeEq.dot(bPt0);
179	var d = -vecUtils.vecDot(3, planeEq, bPt0);	188	var d = -vecUtils.vecDot(3, planeEq, bPt0);
180	planeEq[3] = d;	189	planeEq[3] = d;
181		190
182	t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );	191	t = MathUtils.vecIntersectPlaneForParam( pt0, lineDir, planeEq );
183	if (t)	192	if (t)
184	{	193	{
185	if ((MathUtils.fpSign(t) > 0) && (MathUtils.fpCmp(t,1.0) <= 0)) // the strict vs not-strict inequality comparisons are IMPORTANT!	194	if ((MathUtils.fpSign(t) > 0) && (MathUtils.fpCmp(t,1.0) <= 0)) // the strict vs not-strict inequality comparisons are IMPORTANT!
186	{	195	{
187	// get the intersection point	196	// get the intersection point
188	var pt = MathUtils.interpolateLine3D( pt0, pt1, t );	197	var pt = MathUtils.interpolateLine3D( pt0, pt1, t );
189		198
190	// we need to get the parameter on the edge of the projection	199	// we need to get the parameter on the edge of the projection
191	// of the intersection point onto the line.	200	// of the intersection point onto the line.
192	var index = (Math.abs(vec[0]) > Math.abs(vec[1])) ? 0 : 1;	201	var index = (Math.abs(vec[0]) > Math.abs(vec[1])) ? 0 : 1;
193	var tEdge = (pt[index] - bPt0[index])/(bPt1[index] - bPt0[index]);	202	var tEdge = (pt[index] - bPt0[index])/(bPt1[index] - bPt0[index]);