1 files changed, 154 insertions, 8 deletions
diff --git a/js/helper-classes/RDGE/GLRectangle.js b/js/helper-classes/RDGE/GLRectangle.js
index 2899e476..4216fe53 100755
--- a/js/helper-classes/RDGE/GLRectangle.js
+++ b/js/helper-classes/RDGE/GLRectangle.js
@@ -180,7 +180,7 @@ function GLRectangle()
                this._strokeStyle               = Number( this.getPropertyFromString( "strokeStyle: ",  importStr )  );
                var strokeMaterialName  = this.getPropertyFromString( "strokeMat: ",    importStr );
                var fillMaterialName    = this.getPropertyFromString( "fillMat: ",              importStr );
-                this._strokeStyle               =  Number( this.getPropertyFromString( "strokeColor: ", importStr )  );
+                this._strokeStyle               =  this.getPropertyFromString( "strokeStyle: ", importStr );
                this._fillColor                 =  eval( "[" + this.getPropertyFromString( "fillColor: ",       importStr ) + "]" );
                this._strokeColor               =  eval( "[" + this.getPropertyFromString( "strokeColor: ",     importStr ) + "]" );
                this._tlRadius                  =  Number( this.getPropertyFromString( "tlRadius: ",    importStr )  );
@@ -210,8 +210,11 @@ function GLRectangle()
                // get the world
                var world = this.getWorld();
                if (!world)  throw( "null world in buildBuffers" );
+                //console.log( "GLRectangle.buildBuffers " + world._worldCount );
                if (!world._useWebGL)  return;
+                
+                // make sure RDGE has the correct context
+                g_Engine.setContext( world.getCanvas().uuid );
                // create the gl buffer
                var gl = world.getGLContext();
@@ -284,6 +287,7 @@ function GLRectangle()
                xFill -= strokeSize;
                yFill -= strokeSize;
                var fillMaterial = this.makeFillMaterial();
+                //console.log( "fillMaterial: " + fillMaterial.getName() );
                var fillPrim = this.createFill([x,y],  2*xFill,  2*yFill,  tlRadius, blRadius, brRadius, trRadius, fillMaterial);
        this._primArray.push( fillPrim );
                this._materialNodeArray.push( fillMaterial.getMaterialNode() );
@@ -418,7 +422,7 @@ function GLRectangle()
        this.createStroke = function(ctr,  width,  height,  strokeWidth,  tlRad, blRad, brRad, trRad, material)
        {
                // create the geometry
-                var prim = RectangleStroke.create( ctr,  width, height, strokeWidth,  tlRad, blRad,  brRad, trRad)
+                var prim = RectangleStroke.create( ctr,  width, height, strokeWidth,  tlRad, blRad,  brRad, trRad, material)
                return prim;
        }
@@ -428,9 +432,9 @@ function GLRectangle()
                // special the (common) case of no rounded corners
                var prim
                if ((tlRad <= 0) && (blRad <= 0) && (brRad <= 0) && (trRad <= 0))
-                        prim = RectangleGeometry.create( ctr, width, height );
+                        prim = RectangleGeometry.create( ctr, width, height, material );
                else
-                        prim = RectangleFill.create( ctr,  width, height,  tlRad, blRad,  brRad, trRad);
+                        prim = RectangleFill.create( ctr,  width, height,  tlRad, blRad,  brRad, trRad, material);
                return prim;
        }
@@ -679,7 +683,7 @@ function GLRectangle()
 }
 RectangleFill = {};
-RectangleFill.create = function( rectCtr,  width, height, tlRad, blRad,  brRad, trRad)
+RectangleFill.create = function( rectCtr,  width, height, tlRad, blRad,  brRad, trRad,  material)
 {
        var x = rectCtr[0],  y = rectCtr[1],  z = 0.0;
        var     hw = 0.5*width,  hh = 0.5*height;
@@ -766,6 +770,17 @@ RectangleFill.create = function( rectCtr,  width, height, tlRad, blRad,  brRad,
                j++;
        }
+        //refine the mesh for vertex deformations
+        if (material)
+        {
+                if (material.hasVertexDeformation())
+                {
+                        var paramRange = material.getVertexDeformationRange();
+                        var tolerance = material.getVertexDeformationTolerance();
+                        nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices,  paramRange,  tolerance );
+                }
+        }
        // create the RDGE primitive
        var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
        return prim;
@@ -838,7 +853,7 @@ RectangleFill.getRoundedCorner = function(ctr, startPt,  vertices)
 RectangleStroke = {};
-RectangleStroke.create = function( rectCtr,  width, height, strokeWidth,  tlRad, blRad,  brRad, trRad)
+RectangleStroke.create = function( rectCtr,  width, height, strokeWidth,  tlRad, blRad,  brRad, trRad, material)
 {
        var x = rectCtr[0],  y = rectCtr[1],  z = 0.0;
        var     hw = 0.5*width,  hh = 0.5*height,  sw = strokeWidth;
@@ -1029,8 +1044,20 @@ RectangleStroke.create = function( rectCtr,  width, height, strokeWidth,  tlRad,
                k++;
        }
+        //refine the mesh for vertex deformations
+        if (material)
+        {
+                if (material.hasVertexDeformation())
+                {
+                        var paramRange = material.getVertexDeformationRange();
+                        var tolerance = material.getVertexDeformationTolerance();
+                        nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices,  paramRange,  tolerance );
+                }
+        }
        // create the RDGE primitive
        var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
+        //var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.LINES, nVertices);
        return prim;
 }
@@ -1073,7 +1100,7 @@ RectangleStroke.getUV		= RectangleFill.getUV;
 // Helper function for generating Three.js geometry
 RectangleGeometry = {};
-RectangleGeometry.create = function( ctr,  width, height )
+RectangleGeometry.create = function( ctr,  width, height, material )
 {
        var x = ctr[0],  y = ctr[1],  z = 0.0;
        var     hw = 0.5*width,  hh = 0.5*height;
@@ -1111,8 +1138,20 @@ RectangleGeometry.create = function( ctr,  width, height )
        RectangleGeometry.pushIndices( 2, 1, 0 );
        RectangleGeometry.pushIndices( 0, 3, 2 );
+        //refine the mesh for vertex deformations
+        if (material)
+        {
+                if (material.hasVertexDeformation())
+                {
+                        var paramRange = material.getVertexDeformationRange();
+                        var tolerance = material.getVertexDeformationTolerance();
+                        nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices,  paramRange,  tolerance );
+                }
+        }
        // create the RDGE primitive
        var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
+        //var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.LINES, nVertices);
        return prim;
 }
@@ -1182,3 +1221,110 @@ ShapePrimitive.create = function(coords,  normals,  uvs,  indices, primType, ver
        return prim;
 }
+ShapePrimitive.refineMesh = function( verts, norms, uvs, indices, nVertices,  paramRange,  tolerance )
+{
+        // get the param range
+        var pUMin = paramRange[0],  pVMin = paramRange[1],
+                pUMax = paramRange[2],  pVMax = paramRange[3];
+        var iTriangle = 0;
+        var nTriangles = indices.length/3;
+        var index = 0;
+        while (iTriangle < nTriangles)
+        {
+                // get the indices of the 3 vertices
+                var i0 = indices[index],
+                        i1 = indices[index+1],
+                        i2 = indices[index+2];
+                // get the uv values
+                //var vrtIndex = 3*iTriangle;
+                var iuv0 = 2 * i0,
+                        iuv1 = 2 * i1,
+                        iuv2 = 2 * i2;
+                var u0 = uvs[iuv0],  v0 = uvs[iuv0+1],
+                        u1 = uvs[iuv1],  v1 = uvs[iuv1+1],
+                        u2 = uvs[iuv2],  v2 = uvs[iuv2+1];
+                // find the u and v range
+                var uMin = u0,  vMin = v0;
+                if (u1 < uMin)  uMin = u1;  if (v1 < vMin)  vMin = v1;
+                if (u2 < uMin)  uMin = u2;  if (v2 < vMin)  vMin = v2;
+                var uMax = u0,  vMax = v0;
+                if (u1 > uMax)  uMax = u1;  if (v1 > vMax)  vMax = v1;
+                if (u2 > uMax)  uMax = u2;  if (v2 > vMax)  vMax = v2;
+                // if the parameter range of the triangle is outside the
+                // desired parameter range, advance to the next polygon and continue
+                if ((uMin > pUMax) || (uMax < pUMin) || (vMin > pVMax) || (vMax < pVMin))
+                {
+                        // go to the next triangle
+                        iTriangle++;
+                        index += 3;
+                }
+                else
+                {
+                        // check thesize of the triangle in uv space.  If small enough, advance

diff --git a/js/helper-classes/RDGE/GLRectangle.js b/js/helper-classes/RDGE/GLRectangle.js index 2899e476..4216fe53 100755 --- a/js/helper-classes/RDGE/GLRectangle.js +++ b/js/helper-classes/RDGE/GLRectangle.js
@@ -180,7 +180,7 @@ function GLRectangle()
180	this._strokeStyle = Number( this.getPropertyFromString( "strokeStyle: ", importStr ) );	180	this._strokeStyle = Number( this.getPropertyFromString( "strokeStyle: ", importStr ) );
181	var strokeMaterialName = this.getPropertyFromString( "strokeMat: ", importStr );	181	var strokeMaterialName = this.getPropertyFromString( "strokeMat: ", importStr );
182	var fillMaterialName = this.getPropertyFromString( "fillMat: ", importStr );	182	var fillMaterialName = this.getPropertyFromString( "fillMat: ", importStr );
183	this._strokeStyle = Number( this.getPropertyFromString( "strokeColor: ", importStr ) );	183	this._strokeStyle = this.getPropertyFromString( "strokeStyle: ", importStr );
184	this._fillColor = eval( "[" + this.getPropertyFromString( "fillColor: ", importStr ) + "]" );	184	this._fillColor = eval( "[" + this.getPropertyFromString( "fillColor: ", importStr ) + "]" );
185	this._strokeColor = eval( "[" + this.getPropertyFromString( "strokeColor: ", importStr ) + "]" );	185	this._strokeColor = eval( "[" + this.getPropertyFromString( "strokeColor: ", importStr ) + "]" );
186	this._tlRadius = Number( this.getPropertyFromString( "tlRadius: ", importStr ) );	186	this._tlRadius = Number( this.getPropertyFromString( "tlRadius: ", importStr ) );
@@ -210,8 +210,11 @@ function GLRectangle()
210	// get the world	210	// get the world
211	var world = this.getWorld();	211	var world = this.getWorld();
212	if (!world) throw( "null world in buildBuffers" );	212	if (!world) throw( "null world in buildBuffers" );
213		213	//console.log( "GLRectangle.buildBuffers " + world._worldCount );
214	if (!world._useWebGL) return;	214	if (!world._useWebGL) return;
		215
		216	// make sure RDGE has the correct context
		217	g_Engine.setContext( world.getCanvas().uuid );
215		218
216	// create the gl buffer	219	// create the gl buffer
217	var gl = world.getGLContext();	220	var gl = world.getGLContext();
@@ -284,6 +287,7 @@ function GLRectangle()
284	xFill -= strokeSize;	287	xFill -= strokeSize;
285	yFill -= strokeSize;	288	yFill -= strokeSize;
286	var fillMaterial = this.makeFillMaterial();	289	var fillMaterial = this.makeFillMaterial();
		290	//console.log( "fillMaterial: " + fillMaterial.getName() );
287	var fillPrim = this.createFill([x,y], 2xFill, 2yFill, tlRadius, blRadius, brRadius, trRadius, fillMaterial);	291	var fillPrim = this.createFill([x,y], 2xFill, 2yFill, tlRadius, blRadius, brRadius, trRadius, fillMaterial);
288	this._primArray.push( fillPrim );	292	this._primArray.push( fillPrim );
289	this._materialNodeArray.push( fillMaterial.getMaterialNode() );	293	this._materialNodeArray.push( fillMaterial.getMaterialNode() );
@@ -418,7 +422,7 @@ function GLRectangle()
418	this.createStroke = function(ctr, width, height, strokeWidth, tlRad, blRad, brRad, trRad, material)	422	this.createStroke = function(ctr, width, height, strokeWidth, tlRad, blRad, brRad, trRad, material)
419	{	423	{
420	// create the geometry	424	// create the geometry
421	var prim = RectangleStroke.create( ctr, width, height, strokeWidth, tlRad, blRad, brRad, trRad)	425	var prim = RectangleStroke.create( ctr, width, height, strokeWidth, tlRad, blRad, brRad, trRad, material)
422	return prim;	426	return prim;
423	}	427	}
424		428
@@ -428,9 +432,9 @@ function GLRectangle()
428	// special the (common) case of no rounded corners	432	// special the (common) case of no rounded corners
429	var prim	433	var prim
430	if ((tlRad <= 0) && (blRad <= 0) && (brRad <= 0) && (trRad <= 0))	434	if ((tlRad <= 0) && (blRad <= 0) && (brRad <= 0) && (trRad <= 0))
431	prim = RectangleGeometry.create( ctr, width, height );	435	prim = RectangleGeometry.create( ctr, width, height, material );
432	else	436	else
433	prim = RectangleFill.create( ctr, width, height, tlRad, blRad, brRad, trRad);	437	prim = RectangleFill.create( ctr, width, height, tlRad, blRad, brRad, trRad, material);
434		438
435	return prim;	439	return prim;
436	}	440	}
@@ -679,7 +683,7 @@ function GLRectangle()
679	}	683	}
680		684
681	RectangleFill = {};	685	RectangleFill = {};
682	RectangleFill.create = function( rectCtr, width, height, tlRad, blRad, brRad, trRad)	686	RectangleFill.create = function( rectCtr, width, height, tlRad, blRad, brRad, trRad, material)
683	{	687	{
684	var x = rectCtr[0], y = rectCtr[1], z = 0.0;	688	var x = rectCtr[0], y = rectCtr[1], z = 0.0;
685	var hw = 0.5width, hh = 0.5height;	689	var hw = 0.5width, hh = 0.5height;
@@ -766,6 +770,17 @@ RectangleFill.create = function( rectCtr, width, height, tlRad, blRad, brRad,
766	j++;	770	j++;
767	}	771	}
768		772
		773	//refine the mesh for vertex deformations
		774	if (material)
		775	{
		776	if (material.hasVertexDeformation())
		777	{
		778	var paramRange = material.getVertexDeformationRange();
		779	var tolerance = material.getVertexDeformationTolerance();
		780	nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices, paramRange, tolerance );
		781	}
		782	}
		783
769	// create the RDGE primitive	784	// create the RDGE primitive
770	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);	785	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
771	return prim;	786	return prim;
@@ -838,7 +853,7 @@ RectangleFill.getRoundedCorner = function(ctr, startPt, vertices)
838		853
839		854
840	RectangleStroke = {};	855	RectangleStroke = {};
841	RectangleStroke.create = function( rectCtr, width, height, strokeWidth, tlRad, blRad, brRad, trRad)	856	RectangleStroke.create = function( rectCtr, width, height, strokeWidth, tlRad, blRad, brRad, trRad, material)
842	{	857	{
843	var x = rectCtr[0], y = rectCtr[1], z = 0.0;	858	var x = rectCtr[0], y = rectCtr[1], z = 0.0;
844	var hw = 0.5width, hh = 0.5height, sw = strokeWidth;	859	var hw = 0.5width, hh = 0.5height, sw = strokeWidth;
@@ -1029,8 +1044,20 @@ RectangleStroke.create = function( rectCtr, width, height, strokeWidth, tlRad,
1029	k++;	1044	k++;
1030	}	1045	}
1031		1046
		1047	//refine the mesh for vertex deformations
		1048	if (material)
		1049	{
		1050	if (material.hasVertexDeformation())
		1051	{
		1052	var paramRange = material.getVertexDeformationRange();
		1053	var tolerance = material.getVertexDeformationTolerance();
		1054	nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices, paramRange, tolerance );
		1055	}
		1056	}
		1057
1032	// create the RDGE primitive	1058	// create the RDGE primitive
1033	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);	1059	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
		1060	//var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.LINES, nVertices);
1034	return prim;	1061	return prim;
1035	}	1062	}
1036		1063
@@ -1073,7 +1100,7 @@ RectangleStroke.getUV = RectangleFill.getUV;
1073		1100
1074	// Helper function for generating Three.js geometry	1101	// Helper function for generating Three.js geometry
1075	RectangleGeometry = {};	1102	RectangleGeometry = {};
1076	RectangleGeometry.create = function( ctr, width, height )	1103	RectangleGeometry.create = function( ctr, width, height, material )
1077	{	1104	{
1078	var x = ctr[0], y = ctr[1], z = 0.0;	1105	var x = ctr[0], y = ctr[1], z = 0.0;
1079	var hw = 0.5width, hh = 0.5height;	1106	var hw = 0.5width, hh = 0.5height;
@@ -1111,8 +1138,20 @@ RectangleGeometry.create = function( ctr, width, height )
1111	RectangleGeometry.pushIndices( 2, 1, 0 );	1138	RectangleGeometry.pushIndices( 2, 1, 0 );
1112	RectangleGeometry.pushIndices( 0, 3, 2 );	1139	RectangleGeometry.pushIndices( 0, 3, 2 );
1113		1140
		1141	//refine the mesh for vertex deformations
		1142	if (material)
		1143	{
		1144	if (material.hasVertexDeformation())
		1145	{
		1146	var paramRange = material.getVertexDeformationRange();
		1147	var tolerance = material.getVertexDeformationTolerance();
		1148	nVertices = ShapePrimitive.refineMesh( this.vertices, this.normals, this.uvs, this.indices, nVertices, paramRange, tolerance );
		1149	}
		1150	}
		1151
1114	// create the RDGE primitive	1152	// create the RDGE primitive
1115	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);	1153	var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.TRIANGLES, nVertices);
		1154	//var prim = ShapePrimitive.create(this.vertices, this.normals, this.uvs, this.indices, g_Engine.getContext().renderer.LINES, nVertices);
1116	return prim;	1155	return prim;
1117	}	1156	}
1118		1157
@@ -1182,3 +1221,110 @@ ShapePrimitive.create = function(coords, normals, uvs, indices, primType, ver
1182		1221
1183	return prim;	1222	return prim;
1184	}	1223	}
		1224
		1225
		1226	ShapePrimitive.refineMesh = function( verts, norms, uvs, indices, nVertices, paramRange, tolerance )
		1227	{
		1228	// get the param range
		1229	var pUMin = paramRange[0], pVMin = paramRange[1],
		1230	pUMax = paramRange[2], pVMax = paramRange[3];
		1231	var iTriangle = 0;
		1232	var nTriangles = indices.length/3;
		1233	var index = 0;
		1234	while (iTriangle < nTriangles)
		1235	{
		1236	// get the indices of the 3 vertices
		1237	var i0 = indices[index],
		1238	i1 = indices[index+1],
		1239	i2 = indices[index+2];
		1240
		1241	// get the uv values
		1242	//var vrtIndex = 3*iTriangle;
		1243	var iuv0 = 2 * i0,
		1244	iuv1 = 2 * i1,
		1245	iuv2 = 2 * i2;
		1246	var u0 = uvs[iuv0], v0 = uvs[iuv0+1],
		1247	u1 = uvs[iuv1], v1 = uvs[iuv1+1],
		1248	u2 = uvs[iuv2], v2 = uvs[iuv2+1];
		1249
		1250	// find the u and v range
		1251	var uMin = u0, vMin = v0;
		1252	if (u1 < uMin) uMin = u1; if (v1 < vMin) vMin = v1;
		1253	if (u2 < uMin) uMin = u2; if (v2 < vMin) vMin = v2;
		1254	var uMax = u0, vMax = v0;
		1255	if (u1 > uMax) uMax = u1; if (v1 > vMax) vMax = v1;
		1256	if (u2 > uMax) uMax = u2; if (v2 > vMax) vMax = v2;
		1257
		1258	// if the parameter range of the triangle is outside the
		1259	// desired parameter range, advance to the next polygon and continue
		1260	if ((uMin > pUMax) \|\| (uMax < pUMin) \|\| (vMin > pVMax) \|\| (vMax < pVMin))
		1261	{
		1262	// go to the next triangle
		1263	iTriangle++;
		1264	index += 3;
		1265	}
		1266	else
		1267	{
		1268	// check thesize of the triangle in uv space. If small enough, advance