public static CutResult Run(
GameObject target,
CuttingPlane plane,
CutParams param
)
{
CuttingPlane cutting_plane = plane.ToLocalSpace(target.transform);
Mesh mesh = target.GetComponent <MeshFilter>().mesh;
MeshPart pos = new MeshPart(true), neg = new MeshPart(false);
RingGenerator pos_rings = new RingGenerator(), neg_rings = new RingGenerator();
Vector2[] uvs = mesh.uv;
Vector3[] vertices = mesh.vertices;
Vector3[] normals = mesh.normals;
int[] triangles = mesh.triangles;
bool addUVs = uvs.Length > 0 && param.innerTextureCoord != null,
addNormals = normals.Length > 0;
// removed indices
HashSet <int> removed = new HashSet <int>();
// divide mesh in half by vertices
int i = -1;
foreach (Vector3 vertex in vertices)
{
i++;
float dist = cutting_plane.Distance(vertex);
if (dist < param.seperationDistance)
{
removed.Add(i);
continue;
}
if (cutting_plane.IsAbove(vertex))
{
pos.indexMap.Add(i, pos.vertices.Count);
pos.vertices.Add(vertex);
if (addUVs)
{
pos.uvs.Add(uvs[i]);
}
if (addNormals)
{
pos.normals.Add(normals[i]);
}
}
else
{
neg.indexMap.Add(i, neg.vertices.Count);
neg.vertices.Add(vertex);
if (addUVs)
{
neg.uvs.Add(uvs[i]);
}
if (addNormals)
{
pos.normals.Add(normals[i]);
}
}
}
// if either vertex list is empty and no vertices were removed, the knife plane didn't collide
if (pos.vertices.Count == 0 || neg.vertices.Count == 0)
{
if (!param.allowSingleResult)
{
return(null);
}
}
// put triangles in correct mesh
for (i = 0; i < triangles.Length; i += 3)
{
// find orignal indices
int i_a = triangles[i],
i_b = triangles[i + 1],
i_c = triangles[i + 2];
// find if these were removed in cut
bool r_a = removed.Contains(i_a),
r_b = removed.Contains(i_b),
r_c = removed.Contains(i_c);
// if all are removed, ignore triangle
if (r_a && r_b && r_c)
{
continue;
}
// find original verticies
Vector3 a = vertices[i_a],
b = vertices[i_b],
c = vertices[i_c];
Vector2 txa, txb, txc;
// find original uvs
if (uvs.Length > 0)
{
txa = uvs[i_a];
txb = uvs[i_b];
txc = uvs[i_c];
}
else
{
txa = txb = txc = Vector2.zero;
}
// find original normals
Vector3 na, nb, nc;
if (addNormals)
{
na = normals[i_a];
nb = normals[i_b];
nc = normals[i_c];
}
else
{
na = nb = nc = Vector3.zero;
}
// seperation check
bool aAbove = cutting_plane.IsAbove(a),
bAbove = cutting_plane.IsAbove(b),
cAbove = cutting_plane.IsAbove(c);
if (!r_a && !r_b && !r_c)
{
// all available
if (aAbove && bAbove && cAbove)
{
// triangle above plane
pos.indices.Add(pos.indexMap[i_a]);
pos.indices.Add(pos.indexMap[i_b]);
pos.indices.Add(pos.indexMap[i_c]);
}
else if (!aAbove && !bAbove && !cAbove)
{
// triangle below plane
neg.indices.Add(neg.indexMap[i_a]);
neg.indices.Add(neg.indexMap[i_b]);
neg.indices.Add(neg.indexMap[i_c]);
}
else
{
// triangle crosses plane
if (aAbove == bAbove)
{
// a, b, c
GenTwoTriangles(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
GenTriangle(
cutting_plane,
cAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
cAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else if (aAbove == cAbove)
{
// c, a, b
GenTwoTriangles(
cutting_plane,
aAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
GenTriangle(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else if (bAbove == cAbove)
{
// b, c, a
GenTwoTriangles(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
GenTriangle(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
}
}
else if (!r_a && !r_b)
{
// a and b available
if (aAbove != bAbove)
{
GenTriangle(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
GenTriangle(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else
{
GenTwoTriangles(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
}
}
else if (!r_a && !r_c)
{
// a and c available
if (aAbove != cAbove)
{
GenTriangle(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
GenTriangle(
cutting_plane,
cAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
cAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else
{
GenTwoTriangles(
cutting_plane,
aAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
}
}
else if (!r_b && !r_c)
{
// b and c available
if (bAbove != cAbove)
{
GenTriangle(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
GenTriangle(
cutting_plane,
cAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
cAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else
{
GenTwoTriangles(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
-param.seperationDistance
);
}
}
else if (!r_a)
{
// a available
GenTriangle(
cutting_plane,
aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
aAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else if (!r_b)
{
// b available
GenTriangle(
cutting_plane,
bAbove ? pos : neg,
b, c, a, txb, txc, txa, nb, nc, na, i_b, i_c, i_a,
bAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
else
{
// c available
GenTriangle(
cutting_plane,
cAbove ? pos : neg,
c, a, b, txc, txa, txb, nc, na, nb, i_c, i_a, i_b,
cAbove ? pos_rings : neg_rings,
addUVs,
addNormals,
param.seperationDistance
);
}
}
List <Ring> pos_ring_res = pos_rings.GetRings(param.selfConnectRings, param.ignorePartialRings);
List <Ring> neg_ring_res = neg_rings.GetRings(param.selfConnectRings, param.ignorePartialRings);
List <Ring> pos_analysis = param.hiearchyAnalysis ? Hierarchy.Analyse(pos_ring_res, cutting_plane.normal) : pos_ring_res;
List <Ring> neg_analysis = param.hiearchyAnalysis ? Hierarchy.Analyse(neg_ring_res, cutting_plane.normal) : neg_ring_res;
Vector2?innerUV = addUVs ? param.innerTextureCoord : null;
// generate seperation meshing
foreach (var ring in pos_analysis)
{
GenerateRingMesh(ring, pos, cutting_plane.normal, innerUV);
}
foreach (var ring in neg_analysis)
{
GenerateRingMesh(ring, neg, cutting_plane.normal, innerUV);
}
List <MeshPart> resParts = new List <MeshPart>();
if (pos.vertices.Count > 0)
{
resParts.Add(pos);
}
if (neg.vertices.Count > 0)
{
resParts.Add(neg);
}
if (resParts.Count < 2 && !param.allowSingleResult)
{
return(null);
}
return(new CutResult(target, resParts, cutting_plane.ToWorldSpace().normal, new List <Ring>(), false));
}
public static CutResult Run(
GameObject target,
CuttingPlane plane,
CutParams param
)
{
CuttingPlane cutting_plane = plane.ToLocalSpace(target.transform);
Mesh mesh = target.GetComponent <MeshFilter>().mesh;
MeshPart pos = new MeshPart(true), neg = new MeshPart(false);
RingGenerator rings = new RingGenerator();
//DateTime start = DateTime.Now;
Vector2[] uvs = mesh.uv;
Vector3[] vertices = mesh.vertices;
Vector3[] normals = mesh.normals;
int[] triangles = mesh.triangles;
bool addUVs = uvs.Length > 0 && param.innerTextureCoord != null,
addNormals = normals.Length > 0;
// divide mesh in half by vertices
int i = 0;
foreach (Vector3 vertex in vertices)
{
if (cutting_plane.IsAbove(vertex))
{
pos.indexMap.Add(i, pos.vertices.Count);
pos.vertices.Add(vertex);
if (addUVs)
{
pos.uvs.Add(uvs[i]);
}
if (addNormals)
{
pos.normals.Add(normals[i]);
}
}
else
{
neg.indexMap.Add(i, neg.vertices.Count);
neg.vertices.Add(vertex);
if (addUVs)
{
neg.uvs.Add(uvs[i]);
}
if (addNormals)
{
neg.normals.Add(normals[i]);
}
}
i++;
}
//Debug.Log((DateTime.Now-start).TotalMilliseconds+" elapsed (1)");
//start = DateTime.Now;
// if either vertex list is empty the knife plane didn't collide
if (pos.vertices.Count == 0 || neg.vertices.Count == 0)
{
if (!param.allowSingleResult)
{
return(null);
}
}
// put triangles in correct mesh
for (i = 0; i < triangles.Length; i += 3)
{
// find orignal indices
int i_a = triangles[i],
i_b = triangles[i + 1],
i_c = triangles[i + 2];
// find original verticies
Vector3 a = vertices[i_a],
b = vertices[i_b],
c = vertices[i_c];
// find original uvs
Vector2 txa, txb, txc;
if (addUVs)
{
txa = uvs[i_a];
txb = uvs[i_b];
txc = uvs[i_c];
}
else
{
txa = txb = txc = Vector3.zero;
}
// find original normals
Vector3 na, nb, nc;
if (addNormals)
{
na = normals[i_a];
nb = normals[i_b];
nc = normals[i_c];
}
else
{
na = nb = nc = Vector3.zero;
}
// seperation check
bool aAbove = cutting_plane.IsAbove(a),
bAbove = cutting_plane.IsAbove(b),
cAbove = cutting_plane.IsAbove(c);
if (aAbove && bAbove && cAbove)
{
// triangle above plane
pos.indices.Add(pos.indexMap[i_a]);
pos.indices.Add(pos.indexMap[i_b]);
pos.indices.Add(pos.indexMap[i_c]);
}
else if (!aAbove && !bAbove && !cAbove)
{
// triangle below plane
neg.indices.Add(neg.indexMap[i_a]);
neg.indices.Add(neg.indexMap[i_b]);
neg.indices.Add(neg.indexMap[i_c]);
}
else
{
// triangle crosses plane
// call Util.GenTriangles
if (aAbove == bAbove)
{
// a, b, c
GenTriangles(
cutting_plane,
aAbove ? pos : neg,
!aAbove ? pos : neg,
a, b, c, txa, txb, txc, na, nb, nc, i_a, i_b, i_c,
rings,
addUVs,
addNormals
);
}
else if (aAbove == cAbove)
{
// c, a, b
GenTriangles(
cutting_plane,
aAbove ? pos : neg,
!aAbove ? pos : neg,
c, a, b, txc, txa, txb, na, nb, nc, i_c, i_a, i_b,
rings,
addUVs,
addNormals
);
}
else if (bAbove == cAbove)
{
// b, c, a (use bAbove)
GenTriangles(
cutting_plane,
bAbove ? pos : neg,
!bAbove ? pos : neg,
b, c, a, txb, txc, txa, na, nb, nc, i_b, i_c, i_a,
rings,
addUVs,
addNormals
);
}
}
}
//Debug.Log((DateTime.Now-start).TotalMilliseconds+" elapsed (2)");
//start = DateTime.Now;
List <Ring> ringOut = rings.GetRings(param.selfConnectRings, param.ignorePartialRings);
List <Ring> analysis = param.hiearchyAnalysis ? Hierarchy.Analyse(ringOut, cutting_plane.normal) : ringOut;
Vector2?innerUV = addUVs ? param.innerTextureCoord : null;
// generate seperation meshing
foreach (var ring in analysis)
{
GenerateRingMesh(ring, pos, cutting_plane.normal, innerUV, addNormals);
GenerateRingMesh(ring, neg, cutting_plane.normal, innerUV, addNormals);
}
//Debug.Log((DateTime.Now-start).TotalMilliseconds+" elapsed (3)");
//start = DateTime.Now;
return(new CutResult(target, cutting_plane.ToWorldSpace().normal, ringOut, pos, neg));
}
public static CutResult Run(
GameObject target,
CuttingPlane plane,
CutParams param
)
{
CuttingPlane cutting_plane = plane.ToLocalSpace(target.transform);
Mesh mesh = target.GetComponent <MeshFilter>().mesh;
MeshPart part = new MeshPart(false);
Vector2[] uvs = mesh.uv;
Vector3[] vertices = mesh.vertices;
int[] triangles = mesh.triangles;
//
// First we find the rings that are eligable for cutting
//
RingGenerator rings = new RingGenerator();
int i;
for (i = 0; i < triangles.Length; i += 3)
{
// find orignal indices
int i_a = triangles[i],
i_b = triangles[i + 1],
i_c = triangles[i + 2];
// find original verticies
Vector3 a = vertices[i_a],
b = vertices[i_b],
c = vertices[i_c];
// seperation check
bool aAbove = cutting_plane.IsAbove(a),
bAbove = cutting_plane.IsAbove(b),
cAbove = cutting_plane.IsAbove(c);
if (aAbove == bAbove && aAbove == cAbove)
{
continue;
}
if (aAbove == bAbove)
{
// a, b, c
GenIntersection(
cutting_plane,
a, b, c,
rings
);
}
else if (aAbove == cAbove)
{
// c, a, b
GenIntersection(
cutting_plane,
c, a, b,
rings
);
}
else if (bAbove == cAbove)
{
// b, c, a
GenIntersection(
cutting_plane,
b, c, a,
rings
);
}
}
Vector3 point = target.transform.InverseTransformPoint(param.originPoint);
List <Ring> resulting_rings = new List <Ring>();
foreach (Ring ring in rings.GetRings(param.selfConnectRings, param.ignorePartialRings))
{
Vector3 vec = ring.FurthestVectorToRingPerimeter(point);
vec = target.transform.TransformVector(vec);
// Debug.DrawRay(param.originPoint,vec,Color.blue,10);
float mag = vec.magnitude;
Debug.Log(mag);
if (mag < param.maxCutDistance)
{
resulting_rings.Add(ring);
}
}
if (resulting_rings.Count == 0)
{
return(null);
}
// Debug.Log(resulting_rings.Count);
HashSet <Vector3> allow_cut = new HashSet <Vector3>();
foreach (Ring ring in resulting_rings)
{
foreach (Vector3 v in ring.verts)
{
allow_cut.Add(v);
}
}
//
// Start of cutting
//
bool addUVs = uvs.Length > 0 && param.innerTextureCoord != null;
// transfer vertices into MeshPart
i = 0;
foreach (Vector3 vertex in vertices)
{
part.indexMap.Add(i, part.vertices.Count);
part.vertices.Add(vertex);
if (addUVs)
{
part.uvs.Add(uvs[i]);
}
i++;
}
// process triangles
for (i = 0; i < triangles.Length; i += 3)
{
// find orignal indices
int i_a = triangles[i],
i_b = triangles[i + 1],
i_c = triangles[i + 2];
// find original verticies
Vector3 a = vertices[i_a],
b = vertices[i_b],
c = vertices[i_c];
Vector2 txa, txb, txc;
// find original uvs
if (uvs.Length > 0)
{
txa = uvs[i_a];
txb = uvs[i_b];
txc = uvs[i_c];
}
else
{
txa = txb = txc = Vector2.zero;
}
// seperation check
bool aAbove = cutting_plane.IsAbove(a),
bAbove = cutting_plane.IsAbove(b),
cAbove = cutting_plane.IsAbove(c);
if (aAbove == bAbove && aAbove == cAbove)
{
// triangle on one side of plane
part.indices.Add(part.indexMap[i_a]);
part.indices.Add(part.indexMap[i_b]);
part.indices.Add(part.indexMap[i_c]);
}
else
{
// triangle crosses plane
if (aAbove == bAbove)
{
// a, b, c
GenPartialTriangles(
cutting_plane,
part,
a, b, c, txa, txb, txc, i_a, i_b, i_c,
allow_cut,
addUVs
);
}
else if (aAbove == cAbove)
{
// c, a, b
GenPartialTriangles(
cutting_plane,
part,
c, a, b, txc, txa, txb, i_c, i_a, i_b,
allow_cut,
addUVs
);
}
else if (bAbove == cAbove)
{
// b, c, a
GenPartialTriangles(
cutting_plane,
part,
b, c, a, txb, txc, txa, i_b, i_c, i_a,
allow_cut,
addUVs
);
}
}
}
List <Ring> analysis = param.hiearchyAnalysis ? Hierarchy.Analyse(resulting_rings, cutting_plane.normal) : resulting_rings;
List <MeshPart> parts = part.PartialPolySeparate(cutting_plane, allow_cut);
if (parts.Count < 2 && !param.allowSingleResult)
{
return(null);
}
// generate seperation meshing
if (parts.Count > 0)
{
foreach (var ring in analysis)
{
foreach (var resPart in parts)
{
GenerateRingMesh(ring, resPart, cutting_plane.normal, param.innerTextureCoord);
}
}
}
return(new CutResult(target, parts, cutting_plane.ToWorldSpace().normal, resulting_rings, true));
}