# Calculating normals between 2 meshes ending up in seams

I currently creating a terrain for Unity3D which is specialized for mobile-devices with low memory for a running app. Allowing a terrain with a size of 15.000 x 15.000 kilometers and a height from -1.000 meters to 10.000 meters and it's only limits are the space on the hard disk.

### Situation

Everything is running fine right now except that the normals between different meshes ( each mesh has a subdivision level ) are not calculated correctly. Here are two pictures which visualize the problem:

The problem only occurs on a transition from one subdivision level to another. If both mesh have the same level it works well. I first thought i miss some faces when calculating the normals but it seems they are all included into the calculation.

### Some Code

Normal calculation of each face:

``````Vector3 u = vertices[item.Face1] - vertices[item.Face0];
Vector3 v = vertices[item.Face2] - vertices[item.Face0];

Vector3 fn = new Vector3((u.Y * v.Z) - (u.Z * v.Y), (u.Z * v.X) - (u.X * v.Z), (u.X * v.Y) - (u.Y * v.X));
fn.Normalize();
``````

After calculating the normal of each face around a vertex i add all the face-normals to the vertex-normal and normalize it. The result is shown in the pictures, and as you can see in the background and on the meshes itself it works as long there is no different subdivision level.

### Some more code

``````/// <summary>
/// This is a static indicies array which contains all indicies
/// for all possible meshes.
/// </summary>
private static readonly Int32[] // Subdivision
[] // All borders
[] Indicies = new Int32[8][][]; // Indicies
``````

Calculate each normal of the current mesh:

``````Int32 count = 0;
for (int y = 0; y < length; y++)
{
for (int x = 0; x < length; x++)
{
ns[count++] = GetNormal(x, y, faces, vs);
}
}
``````

The `GetNormal`-method:

``````private unsafe Vector3 GetNormal(Int32 x, Int32 y, Int32[] indicies, Vector3* vertices)
{
Vector3 normal = new Vector3();
CalculateNormal(x, y, indicies, vertices, ref normal);
normal.Normalize();
// Calculate all face normals and normalize
return normal;
}
``````

The `CalculateNormal`-method:

``````private unsafe void CalculateNormal(Int32 x, Int32 y, Int32[] indicies, Vector3* vertices, ref Vector3 normal)
{
Int32 p = ((y * Length) + x);
Int32 length = Length - 1;

foreach (Face item in FindFaces(this, indicies, p))
{
Vector3 u = vertices[item.Face1] - vertices[item.Face0];
Vector3 v = vertices[item.Face2] - vertices[item.Face0];

Vector3 fn = new Vector3((u.Y * v.Z) - (u.Z * v.Y), (u.Z * v.X) - (u.X * v.Z), (u.X * v.Y) - (u.Y * v.X));
fn.Normalize();
normal += fn;
}

SegmentHeighmap heightmap;
if (x == 0 && y == 0)
{
foreach (Face item in FindFaces(Neighbor.Left, out heightmap, TranslateLeftX, TranslateLeftY, x, y))
{
Face f = item;
}

... /* A lot of more code here for each possible combination */
``````

The `AddFaceNormal`-method:

``````private static void AddFaceNormal(ref Face face, ref Vector3 normal, SegmentHeighmap heightmap)
{
Vector3 v0;
Vector3 v1;
Vector3 v2;
heightmap.CalculateVertex(face.Face0, out v0);
heightmap.CalculateVertex(face.Face1, out v1);
heightmap.CalculateVertex(face.Face2, out v2);

Vector3 u = v1 - v0;
Vector3 v = v2 - v0;

Vector3 fn = new Vector3((u.Y * v.Z) - (u.Z * v.Y), (u.Z * v.X) - (u.X * v.Z), (u.X * v.Y) - (u.Y * v.X));
fn.Normalize();
normal += fn;
}
``````

The `FindFaces`-methods:

``````private IEnumerable<Face> FindFaces(Neighbor neighbor, out SegmentHeighmap heightmap, TranslationHandler translateX, TranslationHandler translateY, Int32 x, Int32 y)
{
Segment segment = Segment.GetNeighbor(neighbor);
if (segment != null)
{
heightmap = segment.Heighmap;
Int32 point = ((translateY(this, heightmap, y) * Length) + translateX(this, heightmap, x));

return FindFaces(heightmap, null, point);
}
heightmap = null;
return Enumerable.Empty<Face>();
}
private IEnumerable<Face> FindFaces(SegmentHeighmap heightmap, Int32[] indicies, Int32 point)
{
indicies = indicies ?? Indicies[heightmap.Segment.SubdivisionLevel][heightmap.SideFlag];

for (int i = 0; i < indicies.Length; i += 3)
{
Int32 a = indicies[i], b = indicies[i + 1], c = indicies[i + 2];
if (a == point || b == point || c == point)
{
yield return new Face(a, b, c);
}
}
}
``````

The `TransformPoint`-method:

``````private Int32 TranslatePoint(Int32 point, Segment segment)
{
Int32 subdiv = segment.SubdivisionLevel - Parent.SubdivisionLevel;
if (subdiv == 0)
{
return point;
}
if (Math.Abs(subdiv) == 1)
{
if (subdiv > 0)
{
return point * 2;
}
return point / 2;
}

throw new InvalidOperationException("Subdivision difference is greater than 1");
}
``````

And finally the `TranslationHandler`-delegate and 2 sample handlers:

``````/// <summary>
/// Handles the translation from one coordinate space into another
/// This handler is used internal only
/// </summary>
private delegate Int32 TranslationHandler(SegmentHeighmap @this, SegmentHeighmap other, Int32 v);

private static readonly TranslationHandler TranslateLeftX = (t, o, v) => o.Length - 1;
private static readonly TranslationHandler TranslateLeftY = (t, o, v) => t.TranslatePoint(v, o.Segment);
``````

### Question

The question is simple: Why is it not working for different levels, do i miss something in my calculation?

-
And you're sure you're walking over all adjacent faces when computing a vertex' normal, also the ones that belong to the other sub-mesh? –  Christian Rau Feb 4 '12 at 12:39
You might want to provide some more code to help us see where the issue is. –  batbrat Feb 4 '12 at 12:41
@ChristianRau I've tested it with the debugger on one mesh. It's a relative simple technique, i translate the vertex point into the coordinate space of the other mesh and iterate though each face to find all faces which belong to the seam-vertex. I could post the code for the calculation here, but thats a lot of stuff. –  Felix K. Feb 4 '12 at 12:46
Added all the code except the Indicies-Generation which is another large block of code. –  Felix K. Feb 6 '12 at 15:41

I still don't know why it happens but when replacing this....

``````Vector3 u = vertices[item.Face1] - vertices[item.Face0];
Vector3 v = vertices[item.Face2] - vertices[item.Face0];

Vector3 fn = new Vector3((u.Y * v.Z) - (u.Z * v.Y), (u.Z * v.X) - (u.X * v.Z), (u.X * v.Y) - (u.Y * v.X));
fn.Normalize();
normal += fn;
``````

with another `AddFaceNormal`-method it works. I don't know why this happend but now it works.

-