@Override public void setMeshes(List<Mesh> meshes) { this.vertices = new ArrayList<List<Vector3f>>(meshes.size()); this.normals = new ArrayList<List<Vector3f>>(meshes.size()); for (Mesh mesh : meshes) { Vector3f[] vertexTable = BufferUtils.getVector3Array(mesh.getFloatBuffer(Type.Position)); int[] indices = new int[3]; List<Vector3f> vertices = new ArrayList<Vector3f>(mesh.getTriangleCount() * 3); List<Vector3f> normals = new ArrayList<Vector3f>(mesh.getTriangleCount()); for (int i = 0; i < mesh.getTriangleCount(); ++i) { mesh.getTriangle(i, indices); vertices.add(vertexTable[indices[0]]); vertices.add(vertexTable[indices[1]]); vertices.add(vertexTable[indices[2]]); normals.add(FastMath.computeNormal(vertexTable[indices[0]], vertexTable[indices[1]], vertexTable[indices[2]])); } this.vertices.add(vertices); this.normals.add(normals); } }
beziers.add(new BezierLine(BufferUtils.getVector3Array(vertsBuffer), materialIndex, smooth, cyclic));
Curve curve = new Curve(new Spline(controlPoints.get(0), knots[0]), resolu); FloatBuffer vertsBuffer = (FloatBuffer) curve.getBuffer(Type.Position).getData(); beziers.add(new BezierLine(BufferUtils.getVector3Array(vertsBuffer), materialIndex, smooth, false)); } else {// creating the NURB surface int resolv = ((Number) nurb.getFieldValue("resolv")).intValue(); vertices.addAll(Arrays.asList(BufferUtils.getVector3Array(vertsBuffer))); FloatBuffer normalsBuffer = (FloatBuffer) nurbSurface.getBuffer(Type.Normal).getData(); normals.addAll(Arrays.asList(BufferUtils.getVector3Array(normalsBuffer)));
bevelObject = new CurvesTemporalMesh(blenderContext); FloatBuffer vertsBuffer = (FloatBuffer) bevelCurve.getBuffer(Type.Position).getData(); Vector3f[] verts = BufferUtils.getVector3Array(vertsBuffer); if (cyclic) {// get rid of the last vertex which is identical to the first one verts = Arrays.copyOf(verts, verts.length - 1);
@Override public void setMeshes(List<Mesh> meshes) { this.vertices = new ArrayList<List<Vector3f>>(meshes.size()); this.normals = new ArrayList<List<Vector3f>>(meshes.size()); for (Mesh mesh : meshes) { Vector3f[] vertexTable = BufferUtils.getVector3Array(mesh.getFloatBuffer(Type.Position)); int[] indices = new int[3]; List<Vector3f> vertices = new ArrayList<Vector3f>(mesh.getTriangleCount() * 3); List<Vector3f> normals = new ArrayList<Vector3f>(mesh.getTriangleCount()); for (int i = 0; i < mesh.getTriangleCount(); ++i) { mesh.getTriangle(i, indices); vertices.add(vertexTable[indices[0]]); vertices.add(vertexTable[indices[1]]); vertices.add(vertexTable[indices[2]]); normals.add(FastMath.computeNormal(vertexTable[indices[0]], vertexTable[indices[1]], vertexTable[indices[2]])); } this.vertices.add(vertices); this.normals.add(normals); } }
@Override public void setMeshes(List<Mesh> meshes) { this.vertices = new ArrayList<List<Vector3f>>(meshes.size()); this.normals = new ArrayList<List<Vector3f>>(meshes.size()); for (Mesh mesh : meshes) { Vector3f[] vertexTable = BufferUtils.getVector3Array(mesh.getFloatBuffer(Type.Position)); int[] indices = new int[3]; List<Vector3f> vertices = new ArrayList<Vector3f>(mesh.getTriangleCount() * 3); List<Vector3f> normals = new ArrayList<Vector3f>(mesh.getTriangleCount()); for (int i = 0; i < mesh.getTriangleCount(); ++i) { mesh.getTriangle(i, indices); vertices.add(vertexTable[indices[0]]); vertices.add(vertexTable[indices[1]]); vertices.add(vertexTable[indices[2]]); normals.add(FastMath.computeNormal(vertexTable[indices[0]], vertexTable[indices[1]], vertexTable[indices[2]])); } this.vertices.add(vertices); this.normals.add(normals); } }