Ejemplo n.º 1
0
        /**
         * Initialize a new qe_Mesh with @InGameObject.  Must have a valid meshfilter and mesh.
         * GameObject will have it's MeshFilter.sharedMesh property set to the clone mesh for editing.
         * Call qe_Mesh.Revert() to undo this change (and destroy the cloned mesh in the process).
         */
        public static qe_Mesh Create(GameObject InGameObject)
        {
            qe_Mesh qmesh = ScriptableObject.CreateInstance <qe_Mesh>();

            qmesh.hideFlags = HideFlags.DontSave;

            qmesh.gameObject = InGameObject;
            qmesh.transform  = qmesh.gameObject.transform;

            qmesh.originalMesh = InGameObject.GetComponent <MeshFilter>().sharedMesh;
            qmesh.source       = qe_Editor_Utility.GetMeshGUID(qmesh.originalMesh, ref qmesh.originalMeshGUID);

            // Copy mesh from InMesh.
            qmesh.cloneMesh = qe_Mesh_Utility.Clone(InGameObject.GetComponent <MeshFilter>().sharedMesh);
            Undo.RegisterCreatedObjectUndo(qmesh.cloneMesh, "Open Quick Edit");

            Undo.RecordObject(qmesh, "Open Quick Edit");
            qmesh.Apply();

            qmesh.handlesRenderer           = (qe_HandleRenderer)Undo.AddComponent(InGameObject, typeof(qe_HandleRenderer));
            qmesh.handlesRenderer.hideFlags = HideFlags.HideAndDontSave;

            qmesh.handlesRenderer.mesh           = new Mesh();
            qmesh.handlesRenderer.mesh.hideFlags = HideFlags.HideAndDontSave;
            qmesh.handlesRenderer.material       = null;

            qmesh.CacheElements();

            return(qmesh);
        }
Ejemplo n.º 2
0
        public static void RebuildUV2(qe_Mesh mesh)
        {
            Unwrapping.GenerateSecondaryUVSet(mesh.cloneMesh);

            // GenerateSecondaryUVSet may add vertices, so rebuild the
            // internal stores.
            mesh.CacheElements();
        }
Ejemplo n.º 3
0
        /**
         * Remove @triangles from this mesh.
         */
        public static bool DeleteTriangles(qe_Mesh mesh, List <qe_Triangle> triangles)
        {
            List <qe_Triangle> trianglesToRemove = new List <qe_Triangle>(triangles);

            trianglesToRemove.Distinct();

            if (trianglesToRemove.Count == mesh.faces.Length)
            {
                Debug.LogWarning("Cannot delete every triangle on a mesh!");
                return(false);
            }

            int subMeshCount = mesh.cloneMesh.subMeshCount;

            for (int i = 0; i < subMeshCount; i++)
            {
                List <int> remove = new List <int>();
                List <int> tris   = mesh.GetIndices(i).ToList();

                for (int n = 0; n < tris.Count; n += 3)
                {
                    int index = trianglesToRemove.IndexOf(tris[n], tris[n + 1], tris[n + 2]);

                    if (index > -1)
                    {
                        remove.Add(n + 0);
                        remove.Add(n + 1);
                        remove.Add(n + 2);

                        trianglesToRemove.RemoveAt(index);
                    }
                }

                remove.Sort();

                List <int> rebuilt     = new List <int>();
                int        removeIndex = 0;

                for (int n = 0; n < tris.Count; n++)
                {
                    if (removeIndex < remove.Count && n == remove[removeIndex])
                    {
                        removeIndex++;
                        continue;
                    }

                    rebuilt.Add(tris[n]);
                }

                mesh.SetIndices(i, rebuilt.ToArray());
            }

            RemoveUnusedVertices(ref mesh.cloneMesh);

            mesh.CacheElements();
            return(true);
        }
Ejemplo n.º 4
0
        /**
         *
         */
        public static bool SnapVertices(qe_Mesh mesh, List <int> selected)
        {
            /*
             * Vector3 v = mesh.cloneMesh.vertices[selected[0]];
             *
             * Vector3[] verts = mesh.cloneMesh.vertices;
             * for (int a = 1; a < selected.Count; a++)
             * {
             *  for (int b = 0; b < verts.Length;b++)
             *      if (verts[selected[a]] == verts[b])
             *          verts[b] = v;
             * }
             */
            Vector3[]  verts        = mesh.cloneMesh.vertices;
            List <int> trueSelected = new List <int>();
            Vector3    v            = mesh.cloneMesh.vertices[selected[0]];

            for (int b = 0; b < verts.Length; b++)
            {
                for (int a = 1; a < selected.Count; a++)
                {
                    if (verts[selected[a]] == verts[b])
                    {
                        trueSelected.Add(b);
                    }
                }
            }

            foreach (int i in trueSelected)
            {
                verts[i] = v;
            }

            mesh.cloneMesh.vertices = verts;

            mesh.CacheElements();

            // float d = Vector3.Distance(v,verts[selected[0]]);

            //Debug.Log(">>> " + selected.Count+" / "+c+"/"+d);

            return(true);
        }
Ejemplo n.º 5
0
        public static void Facetize(qe_Mesh qmesh)
        {
            Mesh mesh = qmesh.cloneMesh;

            int triangleCount = mesh.triangles.Length;

            bool boneWeights_isNull = mesh.boneWeights.NullOrEmpty();
            bool colors_isNull      = mesh.colors.NullOrEmpty();
            bool colors32_isNull    = mesh.colors32.NullOrEmpty();
            bool normals_isNull     = mesh.normals.NullOrEmpty();
            bool tangents_isNull    = mesh.tangents.NullOrEmpty();
            bool uv_isNull          = mesh.uv.NullOrEmpty();
            bool uv2_isNull         = mesh.uv2.NullOrEmpty();

#if UNITY_5
            bool uv3_isNull = mesh.uv3.NullOrEmpty();
            bool uv4_isNull = mesh.uv4.NullOrEmpty();
#endif
            bool vertices_isNull = mesh.vertices.NullOrEmpty();

            BoneWeight[] boneWeights = boneWeights_isNull ? null : new BoneWeight[triangleCount];
            Color[]      colors      = colors_isNull ? null : new Color[triangleCount];
            Color32[]    colors32    = colors32_isNull ? null : new Color32[triangleCount];
            Vector3[]    normals     = normals_isNull ? null : new Vector3[triangleCount];
            Vector4[]    tangents    = tangents_isNull ? null : new Vector4[triangleCount];
            Vector2[]    uv          = uv_isNull ? null : new Vector2[triangleCount];
            Vector2[]    uv2         = uv2_isNull ? null : new Vector2[triangleCount];
#if UNITY_5
            Vector2[] uv3 = uv3_isNull ? null : new Vector2[triangleCount];
            Vector2[] uv4 = uv4_isNull ? null : new Vector2[triangleCount];
#endif
            Vector3[] vertices = new Vector3[triangleCount];

            // cache mesh arrays because accessing them through the reference is slooooow
            Vector3[]    mVertices    = mesh.vertices;
            BoneWeight[] mBoneWeights = mesh.boneWeights;
            Color[]      mColors      = mesh.colors;
            Color32[]    mColors32    = mesh.colors32;
            Vector3[]    mNormals     = mesh.normals;
            Vector4[]    mTangents    = mesh.tangents;
            Vector2[]    mUv          = mesh.uv;
            Vector2[]    mUv2         = mesh.uv2;
#if UNITY_5
            Vector2[] mUv3 = mesh.uv3;
            Vector2[] mUv4 = mesh.uv4;
#endif

            int     index     = 0;
            int[][] triangles = new int[mesh.subMeshCount][];

            for (int i = 0; i < mesh.subMeshCount; i++)
            {
                triangles[i] = qmesh.GetIndices(i);

                for (int t = 0; t < triangles[i].Length; t++)
                {
                    int n = triangles[i][t];

                    if (!boneWeights_isNull)
                    {
                        boneWeights[index] = mBoneWeights[n];
                    }

                    if (!colors_isNull)
                    {
                        colors[index] = mColors[n];
                    }

                    if (!colors32_isNull)
                    {
                        colors32[index] = mColors32[n];
                    }

                    if (!normals_isNull)
                    {
                        normals[index] = mNormals[n];
                    }

                    if (!tangents_isNull)
                    {
                        tangents[index] = mTangents[n];
                    }

                    if (!uv_isNull)
                    {
                        uv[index] = mUv[n];
                    }

                    if (!uv2_isNull)
                    {
                        uv2[index] = mUv2[n];
                    }

#if UNITY_5
                    if (!uv3_isNull)
                    {
                        uv3[index] = mUv3[n];
                    }

                    if (!uv4_isNull)
                    {
                        uv4[index] = mUv4[n];
                    }
#endif
                    if (!vertices_isNull)
                    {
                        vertices[index] = mVertices[n];
                    }


                    triangles[i][t] = index;
                    index++;
                }
            }

            mesh.vertices    = vertices;
            mesh.boneWeights = boneWeights;
            mesh.colors      = colors;
            mesh.colors32    = colors32;
            mesh.normals     = normals;
            mesh.tangents    = tangents;
            mesh.uv          = uv;
            mesh.uv2         = uv2;
#if UNITY_5
            mesh.uv3 = uv3;
            mesh.uv4 = uv4;
#endif

            for (int i = 0; i < mesh.subMeshCount; i++)
            {
                qmesh.SetIndices(i, triangles[i]);
            }

            mesh.RecalculateNormals();

            qmesh.CacheElements();
        }
Ejemplo n.º 6
0
        /**
         *
         */
        public static bool SmoothTriangles(qe_Mesh mesh, List <qe_Triangle> triangles)
        {
            List <Vector3> distinctVerts = new List <Vector3>();

            List <int> tris = new List <int>();
            int        i    = 0;

            foreach (var t in triangles)
            {
                for (int a = 0; a < 3; a++)
                {
                    Vector3 v = mesh.vertices[t.indices[a]];

                    int oldIdx = -1;
                    for (int b = 0; b < distinctVerts.Count; b++)
                    {
                        if (v == distinctVerts[b])
                        {
                            oldIdx = b;
                            break;
                        }
                    }

                    if (oldIdx == -1)
                    {
                        oldIdx = distinctVerts.Count;
                        distinctVerts.Add(v);
                    }

                    tris.Add(oldIdx);
                    i++;
                }
            }

            Debug.Log("Distict verts: " + distinctVerts.Count);

            Mesh tmpMesh = new Mesh();

            tmpMesh.SetVertices(distinctVerts);
            tmpMesh.SetTriangles(tris, 0);

            tmpMesh.RecalculateNormals();

            Debug.Log("New normals: " + tmpMesh.normals.Length);

            Vector3[] norms = mesh.cloneMesh.normals;

            i = 0;
            foreach (var t in triangles)
            {
                for (int a = 0; a < 3; a++)
                {
                    int di = tris[i];

                    Vector3 n = tmpMesh.normals[di];

                    norms[t.indices[a]] = n;

                    i++;
                }
            }

            mesh.cloneMesh.normals = norms;
            mesh.CacheElements();

            return(true);
            //mesh.cloneMesh.RecalculateNormals();
        }