private static Vector3d GetAveragedNormal(DMesh3 mesh, int vertex)
{
MeshFaceSelection selection = new MeshFaceSelection(mesh);
var surroundingTris = new List <int>();
mesh.GetVtxTriangles(vertex, surroundingTris, false);
selection.FloodFill(surroundingTris.ToArray(), i => IsInRange(mesh, vertex, i, 3));
Vector3d cumulative = Vector3d.Zero;
foreach (var i in selection)
{
cumulative += mesh.GetTriNormal(i);
}
var normal = cumulative / selection.Count;
return(normal);
}
public static void test_uv_insert_string()
{
DMesh3 mesh = TestUtil.LoadTestInputMesh("plane_xy_25x25.obj");
mesh.EnableVertexUVs(Vector2f.Zero);
DMeshAABBTree3 spatial = new DMeshAABBTree3(mesh);
spatial.Build();
int tid = spatial.FindNearestTriangle(Vector3d.Zero);
PolygonFont2d font = PolygonFont2d.ReadFont("c:\\scratch\\font.bin");
//List<GeneralPolygon2d> letter = new List<GeneralPolygon2d>(font.Characters.First().Value.Polygons);
//double targetWidth = 20.0f;
List <GeneralPolygon2d> letter = font.GetCharacter('a');
double targetWidth = 10.0f;
AxisAlignedBox2d bounds = font.MaxBounds;
Vector2d center = bounds.Center;
Vector2d scale2d = (targetWidth / font.MaxBounds.Width) * new Vector2d(1, 1);
for (int li = 0; li < letter.Count; ++li)
{
GeneralPolygon2d gp = new GeneralPolygon2d(letter[li]);
gp.Scale(scale2d, center);
gp.Translate(-center);
letter[li] = gp;
}
List <MeshFaceSelection> letter_interiors = new List <MeshFaceSelection>();
bool bSimplify = true;
for (int li = 0; li < letter.Count; ++li)
{
GeneralPolygon2d gp = letter[li];
MeshInsertUVPolyCurve outer = new MeshInsertUVPolyCurve(mesh, gp.Outer);
Util.gDevAssert(outer.Validate() == ValidationStatus.Ok);
outer.Apply();
if (bSimplify)
{
outer.Simplify();
}
List <MeshInsertUVPolyCurve> holes = new List <MeshInsertUVPolyCurve>(gp.Holes.Count);
for (int hi = 0; hi < gp.Holes.Count; ++hi)
{
MeshInsertUVPolyCurve insert = new MeshInsertUVPolyCurve(mesh, gp.Holes[hi]);
Util.gDevAssert(insert.Validate() == ValidationStatus.Ok);
insert.Apply();
if (bSimplify)
{
insert.Simplify();
}
holes.Add(insert);
}
// find a triangle connected to loop that is inside the polygon
// [TODO] maybe we could be a bit more robust about this? at least
// check if triangle is too degenerate...
int seed_tri = -1;
EdgeLoop outer_loop = outer.Loops[0];
for (int i = 0; i < outer_loop.EdgeCount; ++i)
{
if (!mesh.IsEdge(outer_loop.Edges[i]))
{
continue;
}
Index2i et = mesh.GetEdgeT(outer_loop.Edges[i]);
Vector3d ca = mesh.GetTriCentroid(et.a);
bool in_a = gp.Outer.Contains(ca.xy);
Vector3d cb = mesh.GetTriCentroid(et.b);
bool in_b = gp.Outer.Contains(cb.xy);
if (in_a && in_b == false)
{
seed_tri = et.a;
break;
}
else if (in_b && in_a == false)
{
seed_tri = et.b;
break;
}
}
Util.gDevAssert(seed_tri != -1);
// make list of all outer & hole edges
HashSet <int> loopEdges = new HashSet <int>(outer_loop.Edges);
foreach (var insertion in holes)
{
foreach (int eid in insertion.Loops[0].Edges)
{
loopEdges.Add(eid);
}
}
// flood-fill inside loop from seed triangle
MeshFaceSelection sel = new MeshFaceSelection(mesh);
sel.FloodFill(seed_tri, null, (eid) => { return(loopEdges.Contains(eid) == false); });
letter_interiors.Add(sel);
}
// extrude regions
Func <Vector3d, Vector3f, int, Vector3d> OffsetF = (v, n, i) => {
return(v + Vector3d.AxisZ);
};
foreach (var interior in letter_interiors)
{
MeshExtrudeFaces extrude = new MeshExtrudeFaces(mesh, interior);
extrude.ExtrudedPositionF = OffsetF;
extrude.Extrude();
}
TestUtil.WriteTestOutputMesh(mesh, "insert_uv_string.obj");
}
public static void test_uv_insert_segment()
{
DMesh3 mesh = TestUtil.LoadTestInputMesh("plane_250v.obj");
mesh.EnableVertexUVs(Vector2f.Zero);
MeshTransforms.ConvertYUpToZUp(mesh);
DMeshAABBTree3 spatial = new DMeshAABBTree3(mesh);
spatial.Build();
int tid = spatial.FindNearestTriangle(Vector3d.Zero);
//Polygon2d poly = Polygon2d.MakeRectangle(Vector2d.Zero, 5, 5);
Polygon2d poly = Polygon2d.MakeCircle(5, 13);
//PolyLine2d poly = new PolyLine2d( new Vector2d[] { -5 * Vector2d.One, 5 * Vector2d.One });
//int tri_edge0 = mesh.GetTriEdge(tid, 0);
//Index2i edge0_tris = mesh.GetEdgeT(tri_edge0);
//Index2i edge0_verts = mesh.GetEdgeV(tri_edge0);
//Vector3d v0 = mesh.GetVertex(edge0_verts.a), v1 = mesh.GetVertex(edge0_verts.b);
//Vector3d c = mesh.GetTriCentroid(tid);
//Polygon2d poly = new Polygon2d(new Vector2d[] {
// Vector2d.Lerp(v0.xy, v1.xy, -0.25),
// Vector2d.Lerp(v0.xy, v1.xy, 1.5),
// c.xy
//});
MeshInsertUVPolyCurve insert = new MeshInsertUVPolyCurve(mesh, poly);
insert.Apply();
Polygon2d test_poly = new Polygon2d();
List <double> distances = new List <double>();
List <int> nearests = new List <int>();
for (int i = 0; i < insert.Loops[0].VertexCount; ++i)
{
Vector2d v = mesh.GetVertex(insert.Loops[0].Vertices[i]).xy;
test_poly.AppendVertex(v);
int iNear; double fNear;
distances.Add(poly.DistanceSquared(v, out iNear, out fNear));
nearests.Add(iNear);
}
System.Console.WriteLine("inserted loop poly has {0} edges", insert.Loops[0].EdgeCount);
// find a triangle connected to loop that is inside the polygon
// [TODO] maybe we could be a bit more robust about this? at least
// check if triangle is too degenerate...
int seed_tri = -1;
for (int i = 0; i < insert.Loops[0].EdgeCount; ++i)
{
Index2i et = mesh.GetEdgeT(insert.Loops[0].Edges[i]);
Vector3d ca = mesh.GetTriCentroid(et.a);
bool in_a = poly.Contains(ca.xy);
Vector3d cb = mesh.GetTriCentroid(et.b);
bool in_b = poly.Contains(cb.xy);
if (in_a && in_b == false)
{
seed_tri = et.a;
break;
}
else if (in_b && in_a == false)
{
seed_tri = et.b;
break;
}
}
Util.gDevAssert(seed_tri != -1);
// flood-fill inside loop
HashSet <int> loopEdges = new HashSet <int>(insert.Loops[0].Edges);
MeshFaceSelection sel = new MeshFaceSelection(mesh);
sel.FloodFill(seed_tri, null, (eid) => { return(loopEdges.Contains(eid) == false); });
// delete inside loop
MeshEditor editor = new MeshEditor(mesh);
editor.RemoveTriangles(sel, true);
MeshTransforms.ConvertZUpToYUp(mesh);
TestUtil.WriteTestOutputMesh(mesh, "insert_uv_segment.obj");
//OBJWriter writer = new OBJWriter();
//var s = new System.IO.StreamWriter(Program.TEST_OUTPUT_PATH + "mesh_local_param.obj", false);
//List<WriteMesh> wm = new List<WriteMesh>() { new WriteMesh(mesh) };
//WriteOptions opt = new WriteOptions() {
// bCombineMeshes = false, bWriteGroups = false, bPerVertexColors = true, bPerVertexUVs = true,
// AsciiHeaderFunc = () => { return "mttllib checkerboard.mtl\r\nusemtl checkerboard\r\n"; }
//};
//writer.Write(s, wm, opt);
//s.Close();
}
