2 files changed, 164 insertions, 29 deletions
diff --git a/js/helper-classes/3D/StageLine.js b/js/helper-classes/3D/StageLine.js
index 5aaa325a..17021e91 100755
--- a/js/helper-classes/3D/StageLine.js
+++ b/js/helper-classes/3D/StageLine.js
@@ -34,6 +34,7 @@ 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, {
@@ -96,7 +97,7 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
            if (minPt[2] > plane.getZMax())           return;
            // 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
            var pt0 = this.getPoint0(),  pt1 = this.getPoint1();
@@ -115,7 +116,8 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
                    // see if the intersection point is contained in the bounds
                    //var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );
-                    var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing() );
+                    var onEdge = [];
+                    var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing(), onEdge );
                    if (contains == MathUtils.INSIDE)
                    {
                        // add the intersection
@@ -130,23 +132,40 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
                    {
                        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() );
+                            if (this.edgeGoesBehindPlane( plane, boundaryPts, onEdge[0], onEdge[1],  pt0, pt1  ))
-                            var sign = MathUtils.fpSign( dot );
-                            if (sign == 0)
-                                throw new Error( "coplanar intersection being treated as not coplanar" );
-                            if (!plane.isBackFacing())
                            {
-                                if (sign < 0)
+                                this.addIntersection( plane, t, 1 );
-                                    this.addIntersection( plane, t, 1 );
                            }
-                            else
+                            else if (this.edgeGoesBehindPlane( plane, boundaryPts, onEdge[0], onEdge[1],  pt1, pt0  ))
                            {
-                                if (sign > 0)
+                                this.addIntersection( plane, t, -1 );
-                                    this.addIntersection( plane, t, -1 );
+                            }
+                            /*
+                            if ( !this.edgeIsFrontFacing(boundaryPts, planeEq, plane.isBackFacing(), onEdge[0], onEdge[1]) )
+                            {
+                                // take the dot product between the line and the normal to the plane
+                                // to determine the change in visibility
+                                var vec = vecUtils.vecSubtract( 3, pt1, pt0 );
+                                var dot = vecUtils.vecDot( 3, vec, planeEq );
+                                var sign = MathUtils.fpSign( dot );
+                                if (sign == 0)
+                                    throw new Error( "coplanar intersection being treated as not coplanar" );
+                                if (!plane.isBackFacing())
+                                {
+                                    if (sign < 0)
+                                        this.addIntersection( plane, t, 1 );
+                                }
+                                else
+                                {
+                                    if (sign > 0)
+                                        this.addIntersection( plane, t, -1 );
+                                }
                            }
+                            */
                        }
                    }
                }
@@ -208,18 +227,119 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
        }
    },
+    edgeGoesBehindPlane:
+    {
+        value: function( plane, boundaryPts, iEdge, t,  lPt0, lPt1 )
+        {
+            var rtnVal = false;
+            if ( MathUtils.fpCmp(t,1.0) == 0 )
+            {
+                iEdge = (iEdge + 1) % 4;
+                t = 0.0;
+            }
+            // boundary points (line points: lPt0, lPt1)
+            var bPt0, bPt1, bPt2, bVec, bVec0, bVec1, lVec;
+            if (MathUtils.fpSign(t) == 0)
+            {
+                // get the 3 relevant points.  The line goes through pt1.
+                bPt0  = boundaryPts[(iEdge+3)%4].slice();
+                bPt1  = boundaryPts[iEdge].slice();
+                bPt2  = boundaryPts[(iEdge+1)%4].slice();
+                bVec0 = vecUtils.vecSubtract(2, bPt0, bPt1);
+                bVec1 = vecUtils.vecSubtract(2, bPt2, bPt1);
+                lVec  = vecUtils.vecSubtract(2, lPt1, bPt1);
+                var c0 = vecUtils.vecCross(2, bVec1, lVec),
+                    c1 = vecUtils.vecCross(2, lVec, bVec0);
+//                if ((MathUtils.fpSign(c0) < 0) && (MathUtils.fpSign(c1) < 0))
+//                    rtnVal = true;
+                                if (!plane.isBackFacing() && (MathUtils.fpSign(c0) < 0) && (MathUtils.fpSign(c1) < 0))
+                                        rtnVal = true;
+                                else if (plane.isBackFacing() && (MathUtils.fpSign(c0) > 0) && (MathUtils.fpSign(c1) > 0))
+                                        rtnVal = true;
+            }
+            else
+            {
+                bPt0 = boundaryPts[iEdge].slice();
+                bPt1 = boundaryPts[(iEdge+1)%4].slice();
+                bVec = vecUtils.vecSubtract(3, bPt1, bPt0);
+                lVec = vecUtils.vecSubtract(3, lPt1, lPt0);
+                var planeEq = plane.getPlaneEq();
+                var bNormal = vecUtils.vecCross(3, planeEq, bVec);
+                var dot = vecUtils.vecDot(3, bNormal, lVec);
+                if (MathUtils.fpSign(dot) < 0)
+                {
+                    var d = vecUtils.vecDot(3, lPt1, planeEq) + planeEq[3];
+                    if (plane.isBackFacing())  d = -d;
+                    if (MathUtils.fpSign(d) < 0)  rtnVal = true;
+                }
+            }
+            return rtnVal;
+        }
+    },
+    edgeIsFrontFacing: 
+    {
+        value: function(boundaryPts, planeNormal, backfacing, iEdge, t)
+        {
+            var frontFacing = false;
+            if (MathUtils.fpCmp(t,1.0) == 0)
+            {
+                iEdge = (iEdge + 1) % 4;
+                t = 0.0;
+            }
+            var pt0 = boundaryPts[iEdge].slice(),
+                pt1 = boundaryPts[(iEdge+1)%4].slice();
+            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]) ],
+                mid = MathUtils.interpolateLine3D( pt0, pt1, 0.5 );
+            var vec = vecUtils.vecSubtract( 3, mid, ctr );
+            if (MathUtils.fpSign(t) == 0)
+            {
+                // if the edge already calculated is back facing, check the preceeding edge
+                if (vec[2] > 0)
+                {
+                    frontFacing = true;
+                }
+                else
+                {
+                    var ptm1 = boundaryPts[(iEdge+3)%4].slice();
+                    mid = MathUtils.interpolateLine3D( ptm1, pt0, 0.5 );
+                    vec = vecUtils.vecSubtract( 3, mid, ctr );
+                    if (vec[2] > 0)  frontFacing = true;
+                }
+            }
+            else
+            {
+                var cross = VecUtils.vecCross( 3,  planeNormal,  vecUtils.vecSubtract(3, pt1, pt0) );
+                if ((!backfacing && (cross[2] > 0)) || (backfacing && (cross[2] < 0)))  frontFacing = true;
+            }
+            return frontFacing;
+        }
+    },
    doCoplanarIntersection: {
        value: function( plane )
        {
            // get the boundary points for the plane
-            var boundaryPts = plane.getBoundaryPoints();
+            var boundaryPts = plane.getBoundaryPoints().slice();
            var planeEq = plane.getPlaneEq();
-            if (plane.isBackFacing())
+            var backFacing = plane.isBackFacing();
+            if (backFacing)
            {
                var tmp;
                tmp = boundaryPts[0];  boundaryPts[0] = boundaryPts[3];  boundaryPts[3] = tmp;
                tmp = boundaryPts[1];  boundaryPts[1] = boundaryPts[2];  boundaryPts[2] = tmp;
+                vecUtils.vecNegate(4,  planeEq);
            }
            var pt0 = this.getPoint0(),
@@ -246,19 +366,27 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {

diff --git a/js/helper-classes/3D/StageLine.js b/js/helper-classes/3D/StageLine.js index 5aaa325a..17021e91 100755 --- a/js/helper-classes/3D/StageLine.js +++ b/js/helper-classes/3D/StageLine.js
@@ -34,6 +34,7 @@ POSSIBILITY OF SUCH DAMAGE.
34	// The line class represents a line intersected with all planes on the scene	34	// The line class represents a line intersected with all planes on the scene
35	///////////////////////////////////////////////////////////////////////	35	///////////////////////////////////////////////////////////////////////
36	var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;	36	var vecUtils = require("js/helper-classes/3D/vec-utils").VecUtils;
		37	var viewUtils = require( "js/helper-classes/3D/view-utils").ViewUtils;
37	var LinePlaneIntersectRec = require("js/helper-classes/3D/LinePlaneIntersectRec").LinePlaneIntersectRec;	38	var LinePlaneIntersectRec = require("js/helper-classes/3D/LinePlaneIntersectRec").LinePlaneIntersectRec;
38		39
39	var StageLine = exports.StageLine = Object.create(Object.prototype, {	40	var StageLine = exports.StageLine = Object.create(Object.prototype, {
@@ -96,7 +97,7 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
96	if (minPt[2] > plane.getZMax()) return;	97	if (minPt[2] > plane.getZMax()) return;
97		98
98	// get the boundary points for the plane	99	// get the boundary points for the plane
99	var boundaryPts = plane.getBoundaryPoints();	100	var boundaryPts = plane.getBoundaryPoints().slice();
100		101
101	// get the points and direction vector for the current line	102	// get the points and direction vector for the current line
102	var pt0 = this.getPoint0(), pt1 = this.getPoint1();	103	var pt0 = this.getPoint0(), pt1 = this.getPoint1();
@@ -115,7 +116,8 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
115		116
116	// see if the intersection point is contained in the bounds	117	// see if the intersection point is contained in the bounds
117	//var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );	118	//var contains = this.boundaryContainsPoint( boundaryPts, plane.isBackFacing(), pt );
118	var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing() );	119	var onEdge = [];
		120	var contains = MathUtils.boundaryContainsPoint( boundaryPts, pt, plane.isBackFacing(), onEdge );
119	if (contains == MathUtils.INSIDE)	121	if (contains == MathUtils.INSIDE)
120	{	122	{
121	// add the intersection	123	// add the intersection
@@ -130,23 +132,40 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
130	{	132	{
131	if (MathUtils.fpCmp(t,1.0) < 0)	133	if (MathUtils.fpCmp(t,1.0) < 0)
132	{	134	{
133	// take the dot product between the line and the normal to the plane	135	// determine if the intersection is on a front side (no intersection) of the polygons
134	// to determine the change in visibility	136	//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]) ];
135	var vec = vecUtils.vecSubtract( 3, pt1, pt0 );	137	//var vec = vecUtils.vecSubtract(3, pt, ctr );
136	var dot = vecUtils.vecDot( 3, vec, plane.getPlaneEq() );	138	if (this.edgeGoesBehindPlane( plane, boundaryPts, onEdge[0], onEdge[1], pt0, pt1 ))
137	var sign = MathUtils.fpSign( dot );
138	if (sign == 0)
139	throw new Error( "coplanar intersection being treated as not coplanar" );
140	if (!plane.isBackFacing())
141	{	139	{
142	if (sign < 0)	140	this.addIntersection( plane, t, 1 );
143	this.addIntersection( plane, t, 1 );
144	}	141	}
145	else	142	else if (this.edgeGoesBehindPlane( plane, boundaryPts, onEdge[0], onEdge[1], pt1, pt0 ))
146	{	143	{
147	if (sign > 0)	144	this.addIntersection( plane, t, -1 );
148	this.addIntersection( plane, t, -1 );	145	}
		146
		147	/*
		148	if ( !this.edgeIsFrontFacing(boundaryPts, planeEq, plane.isBackFacing(), onEdge[0], onEdge[1]) )
		149	{
		150	// take the dot product between the line and the normal to the plane
		151	// to determine the change in visibility
		152	var vec = vecUtils.vecSubtract( 3, pt1, pt0 );
		153	var dot = vecUtils.vecDot( 3, vec, planeEq );
		154	var sign = MathUtils.fpSign( dot );
		155	if (sign == 0)
		156	throw new Error( "coplanar intersection being treated as not coplanar" );
		157	if (!plane.isBackFacing())
		158	{
		159	if (sign < 0)
		160	this.addIntersection( plane, t, 1 );
		161	}
		162	else
		163	{
		164	if (sign > 0)
		165	this.addIntersection( plane, t, -1 );
		166	}
149	}	167	}
		168	*/
150	}	169	}
151	}	170	}
152	}	171	}
@@ -208,18 +227,119 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
208	}	227	}
209	},	228	},
210		229
		230	edgeGoesBehindPlane:
		231	{
		232	value: function( plane, boundaryPts, iEdge, t, lPt0, lPt1 )
		233	{
		234	var rtnVal = false;
		235
		236	if ( MathUtils.fpCmp(t,1.0) == 0 )
		237	{
		238	iEdge = (iEdge + 1) % 4;
		239	t = 0.0;
		240	}
		241
		242	// boundary points (line points: lPt0, lPt1)
		243	var bPt0, bPt1, bPt2, bVec, bVec0, bVec1, lVec;
		244
		245	if (MathUtils.fpSign(t) == 0)
		246	{
		247	// get the 3 relevant points. The line goes through pt1.
		248	bPt0 = boundaryPts[(iEdge+3)%4].slice();
		249	bPt1 = boundaryPts[iEdge].slice();
		250	bPt2 = boundaryPts[(iEdge+1)%4].slice();
		251	bVec0 = vecUtils.vecSubtract(2, bPt0, bPt1);
		252	bVec1 = vecUtils.vecSubtract(2, bPt2, bPt1);
		253	lVec = vecUtils.vecSubtract(2, lPt1, bPt1);
		254
		255	var c0 = vecUtils.vecCross(2, bVec1, lVec),
		256	c1 = vecUtils.vecCross(2, lVec, bVec0);
		257	// if ((MathUtils.fpSign(c0) < 0) && (MathUtils.fpSign(c1) < 0))
		258	// rtnVal = true;
		259	if (!plane.isBackFacing() && (MathUtils.fpSign(c0) < 0) && (MathUtils.fpSign(c1) < 0))
		260	rtnVal = true;
		261	else if (plane.isBackFacing() && (MathUtils.fpSign(c0) > 0) && (MathUtils.fpSign(c1) > 0))
		262	rtnVal = true;
		263	}
		264	else
		265	{
		266	bPt0 = boundaryPts[iEdge].slice();
		267	bPt1 = boundaryPts[(iEdge+1)%4].slice();
		268	bVec = vecUtils.vecSubtract(3, bPt1, bPt0);
		269	lVec = vecUtils.vecSubtract(3, lPt1, lPt0);
		270
		271	var planeEq = plane.getPlaneEq();
		272	var bNormal = vecUtils.vecCross(3, planeEq, bVec);
		273	var dot = vecUtils.vecDot(3, bNormal, lVec);
		274	if (MathUtils.fpSign(dot) < 0)
		275	{
		276	var d = vecUtils.vecDot(3, lPt1, planeEq) + planeEq[3];
		277	if (plane.isBackFacing()) d = -d;
		278	if (MathUtils.fpSign(d) < 0) rtnVal = true;
		279	}
		280	}
		281
		282	return rtnVal;
		283	}
		284	},
		285
		286	edgeIsFrontFacing:
		287	{
		288	value: function(boundaryPts, planeNormal, backfacing, iEdge, t)
		289	{
		290	var frontFacing = false;
		291	if (MathUtils.fpCmp(t,1.0) == 0)
		292	{
		293	iEdge = (iEdge + 1) % 4;
		294	t = 0.0;
		295	}
		296
		297	var pt0 = boundaryPts[iEdge].slice(),
		298	pt1 = boundaryPts[(iEdge+1)%4].slice();
		299
		300	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]) ],
		301	mid = MathUtils.interpolateLine3D( pt0, pt1, 0.5 );
		302	var vec = vecUtils.vecSubtract( 3, mid, ctr );
		303
		304	if (MathUtils.fpSign(t) == 0)
		305	{
		306	// if the edge already calculated is back facing, check the preceeding edge
		307	if (vec[2] > 0)
		308	{
		309	frontFacing = true;
		310	}
		311	else
		312	{
		313	var ptm1 = boundaryPts[(iEdge+3)%4].slice();
		314	mid = MathUtils.interpolateLine3D( ptm1, pt0, 0.5 );
		315	vec = vecUtils.vecSubtract( 3, mid, ctr );
		316	if (vec[2] > 0) frontFacing = true;
		317	}
		318	}
		319	else
		320	{
		321	var cross = VecUtils.vecCross( 3, planeNormal, vecUtils.vecSubtract(3, pt1, pt0) );
		322	if ((!backfacing && (cross[2] > 0)) \|\| (backfacing && (cross[2] < 0))) frontFacing = true;
		323	}
		324
		325	return frontFacing;
		326	}
		327	},
		328
211	doCoplanarIntersection: {	329	doCoplanarIntersection: {
212	value: function( plane )	330	value: function( plane )
213	{	331	{
214	// get the boundary points for the plane	332	// get the boundary points for the plane
215	var boundaryPts = plane.getBoundaryPoints();	333	var boundaryPts = plane.getBoundaryPoints().slice();
216	var planeEq = plane.getPlaneEq();	334	var planeEq = plane.getPlaneEq();
217		335
218	if (plane.isBackFacing())	336	var backFacing = plane.isBackFacing();
		337	if (backFacing)
219	{	338	{
220	var tmp;	339	var tmp;
221	tmp = boundaryPts[0]; boundaryPts[0] = boundaryPts[3]; boundaryPts[3] = tmp;	340	tmp = boundaryPts[0]; boundaryPts[0] = boundaryPts[3]; boundaryPts[3] = tmp;
222	tmp = boundaryPts[1]; boundaryPts[1] = boundaryPts[2]; boundaryPts[2] = tmp;	341	tmp = boundaryPts[1]; boundaryPts[1] = boundaryPts[2]; boundaryPts[2] = tmp;
		342	vecUtils.vecNegate(4, planeEq);
223	}	343	}
224		344
225	var pt0 = this.getPoint0(),	345	var pt0 = this.getPoint0(),
@@ -246,19 +366,27 @@ var StageLine = exports.StageLine = Object.create(Object.prototype, {
246		366