public NiTriShape(NiTriBasedGeom shape)
 {
     this.name = "";
     this.nameIdx = -1;
     this.numExtraData = shape.GetNumExtraData();
     this.extraData = shape.GetExtraData();
     this.controller = shape.GetController();
     this.flags = shape.GetFlags();
     this.flags2 = shape.GetFlags2();
     this.translation = shape.GetTranslation();
     this.rotation = shape.GetRotation();
     this.scale = shape.GetScale();
     this.collisionObject = shape.GetCollisionObject();
     this.data = shape.GetData();
     this.skinInstance = shape.GetSkinInstance();
     this.numMaterials = shape.GetNumMaterials();
     this.materialNames = shape.GetMaterialNames();
     this.materialExtraData = shape.GetMaterialExtraData();
     this.activeMaterial = shape.GetActiveMaterial();
     this.dirtyFlag = shape.GetDirtyFlag();
     this.numProperties = shape.GetNumProperties();
     this.properties = new List<int>();
     for (int index = 0; (long)index < (long)this.numProperties; ++index)
         this.properties.Add(shape.GetProperty(index));
     this.bsProperties = new int[2];
     for (int index = 0; index < 2; ++index)
         this.bsProperties[index] = shape.GetBSProperty(index);
 }
Exemplo n.º 2
0
 public NiTriShape(NiTriBasedGeom shape)
 {
     this.name              = "";
     this.nameIdx           = -1;
     this.numExtraData      = shape.GetNumExtraData();
     this.extraData         = shape.GetExtraData();
     this.controller        = shape.GetController();
     this.flags             = shape.GetFlags();
     this.flags2            = shape.GetFlags2();
     this.translation       = shape.GetTranslation();
     this.rotation          = shape.GetRotation();
     this.scale             = shape.GetScale();
     this.collisionObject   = shape.GetCollisionObject();
     this.data              = shape.GetData();
     this.skinInstance      = shape.GetSkinInstance();
     this.numMaterials      = shape.GetNumMaterials();
     this.materialNames     = shape.GetMaterialNames();
     this.materialExtraData = shape.GetMaterialExtraData();
     this.activeMaterial    = shape.GetActiveMaterial();
     this.dirtyFlag         = shape.GetDirtyFlag();
     this.numProperties     = shape.GetNumProperties();
     this.properties        = new List <int>();
     for (int index = 0; (long)index < (long)this.numProperties; ++index)
     {
         this.properties.Add(shape.GetProperty(index));
     }
     this.bsProperties = new int[2];
     for (int index = 0; index < 2; ++index)
     {
         this.bsProperties[index] = shape.GetBSProperty(index);
     }
 }
 private ShapeDesc TransformShape(QuadDesc quad, StaticDesc stat, NiFile file, NiTriBasedGeom geom, Matrix44 parentTransform, float parentScale)
 {
     BBox bbox = new BBox(float.MaxValue, float.MinValue, float.MaxValue, float.MinValue, float.MaxValue, float.MinValue);
     ShapeDesc shape1 = new ShapeDesc();
     NiTriShape shape2;
     NiTriShapeData data = new NiTriShapeData();
     //Console.WriteLine("Reading block #" + geom.GetData());
     if (geom.GetClassName() == "NiTriStrips")
     {
         shape2 = new NiTriShape(geom);
         data = new NiTriShapeData((NiTriStripsData)file.GetBlockAtIndex(geom.GetData()));
     }
     else if (geom.GetClassName() == "BSLODTriShape")
     {
         shape2 = new NiTriShape(geom);
         data = (NiTriShapeData)file.GetBlockAtIndex(geom.GetData());
     }
     else
     {
         shape2 = new NiTriShape(geom);
         data = (NiTriShapeData)file.GetBlockAtIndex(geom.GetData());
     }
     if (verbose && !data.HasVertexColors() && ((this.GetShaderFlags2(file, shape2) & 32) == 32))
     {
         if (!stat.staticModels[this.quadIndex].Contains("glacierrubbletrim0"))
         {
             logFile.WriteLog("Vertex Colors Flag, but no vertex colors in " + stat.staticModels[this.quadIndex]);
         }
     }
     if (((int)data.GetBSNumUVSets() & 1) == 0)
         return shape1;
     float _x = stat.x - (float)quad.x * 4096f;
     float _y = stat.y - (float)quad.y * 4096f;
     Matrix33 matrix33_1 = new Matrix33(true);
     Matrix33 matrix33_2 = new Matrix33(true);
     Matrix33 matrix33_3 = new Matrix33(true);
     matrix33_1.SetRotationX(Utils.ToRadians(-stat.rotX));
     matrix33_2.SetRotationY(Utils.ToRadians(-stat.rotY));
     matrix33_3.SetRotationZ(Utils.ToRadians(-stat.rotZ));
     Matrix44 matrix44 = new Matrix44(new Matrix33(true) * matrix33_1 * matrix33_2 * matrix33_3, new Vector3(_x, _y, stat.z), 1f);
     List<Vector3> vertices = new List<Vector3>(data.GetVertices());
     List<Vector3> normals = new List<Vector3>(data.GetNormals());
     List<Vector3> tangents = new List<Vector3>(data.GetTangents());
     List<Vector3> bitangents = new List<Vector3>(data.GetBitangents());
     // generate tangents independent of fix tangents setting
     bool newtangents = false;
     bool newbitangents = false;
     if (this.generateTangents && data.HasNormals())
     {
         if (tangents.Count == 0)
         {
             newtangents = true;
             for (int index = 0; index < vertices.Count; ++index)
                 tangents.Add(new Vector3(0.0f, 0.0f, 0.0f));
         }
         if (bitangents.Count == 0)
         {
             newbitangents = true;
             for (int index = 0; index < vertices.Count; ++index)
                 bitangents.Add(new Vector3(0.0f, 0.0f, 0.0f));
         }
     }
     for (int index = 0; index < vertices.Count; ++index)
     {
         vertices[index] *= shape2.GetScale() * parentScale;
         vertices[index] *= shape2.GetTransform() * parentTransform;
         vertices[index] *= stat.scale;
         vertices[index] *= matrix44;
         if (data.HasNormals())
         {
             normals[index] *= parentTransform.RemoveTranslation() * shape2.GetTransform().RemoveTranslation();
             normals[index] *= matrix44.RemoveTranslation();
             // adjust tangents as well
             if (tangents.Count != 0)
             {
                 tangents[index] *= parentTransform.RemoveTranslation() * shape2.GetTransform().RemoveTranslation();
                 tangents[index] *= matrix44.RemoveTranslation();
             }
             // adjust bitangents as well
             if (bitangents.Count != 0)
             {
                 bitangents[index] *= parentTransform.RemoveTranslation() * shape2.GetTransform().RemoveTranslation();
                 bitangents[index] *= matrix44.RemoveTranslation();
             }
             // fix tangents when they were newly generated
             if (newtangents || newbitangents || this.fixTangents)
             {
                 Vector3 vector3_1 = Vector3.Cross(normals[index], new Vector3(0.0f, 0.0f, 1f));
                 Vector3 vector3_2 = Vector3.Cross(normals[index], new Vector3(0.0f, 1f, 0.0f));
                 if (newtangents)
                 {
                     tangents[index] = (double)vector3_1.Length > (double)vector3_2.Length ? vector3_1 : vector3_2;
                     tangents[index].Normalize();
                 }
                 if (newbitangents)
                 {
                     bitangents[index] = Vector3.Cross(normals[index], tangents[index]);
                     bitangents[index].Normalize();
                 }
             }
         }
         bbox.GrowByVertex(vertices[index]);
         vertices[index] /= (float)this.quadLevel;
     }
     data.SetVertices(vertices);
     if (data.HasNormals())
     {
         data.SetNormals(normals);
         data.SetHasTangents(false);
     }
     data.SetCenter(new Vector3((float)(((double)bbox.px1 + (double)bbox.px2) / 2.0), (float)(((double)bbox.py1 + (double)bbox.py2) / 2.0), (float)(((double)bbox.pz1 + (double)bbox.pz2) / 2.0)) / (float)this.quadLevel);
     data.SetRadius(this.CalcRadius(data));
     data.SetConsistencyFlags((ushort)0);
     data.SetKeepFlags((byte)51);
     data.SetSkyrimMaterial(0U);
     shape1.shape = shape2;
     shape1.data = data;
     // relative x, y for segment
     shape1.x = _x;
     shape1.y = _y;
     shape1.boundingBox = bbox;
     //Console.WriteLine(stat.staticName + " 2 " + stat.refID + " " + file + " " + shape2.GetName() + " ");
     shape1.textures = this.GetMeshTextures(file, shape2);
     shape1.material = stat.materialName;
     shape1.isHighDetail = false;
     if (useHDFlag)
     {
         if ((stat.refFlags & 131072) == 131072)
         {
             if (HDMeshList.Any(stat.staticModels[this.quadIndex].ToLower().Contains))
             {
                 shape1.isHighDetail = true;
             }
             else if (notHDMeshList.Any(stat.staticModels[this.quadIndex].ToLower().Contains))
             {
                 shape1.isHighDetail = false;
             }
             else
             {
                 shape1.isHighDetail = true;
             }
         }
     }
     // Shader Flags 2 SLSF2_Double_Sided
     shape1.isDoubleSided = (this.GetShaderFlags2(file, shape2) & 16) == 16;
     // clamp mode for atlas
     shape1.TextureClampMode = this.GetTextureClampMode(file, shape2);
     /*if ((this.GetShaderFlags1(file, shape2) & 1) == 1)
     {
         //logFile.WriteLog("Specular" + stat.staticModels[this.quadIndex]);
     }*/
     if (AtlasList.Contains(shape1.textures[0]))
     {
         if (this.UVAtlas(data, shape1.textures[0], stat))
         {
             string[] strArray = new string[2];
             strArray[0] = AtlasList.Get(shape1.textures[0]).AtlasTexture;
             strArray[1] = AtlasList.Get(shape1.textures[0]).AtlasTextureN;
             shape1.textures = strArray;
             shape1.TextureClampMode = 0U;
             shape1.isHighDetail = false;
         }
     }
     else
     {
         if (useOptimizer && quadLevel != 4 && shape1.textures[0].ToLower().Contains("mountainslab01"))
         {
             string[] strArray = new string[2];
             strArray[0] = "textures\\landscape\\mountains\\mountainslab02.dds";
             strArray[1] = "textures\\landscape\\mountains\\mountainslab02_n.dds";
             shape1.textures = strArray;
         }
         if (notHDTextureList.Any(shape1.textures[0].Contains))
         {
             if (this.verbose)
             {
                 logFile.WriteLog("No atlas for " + shape1.textures[0] + " in " + stat.staticModels[this.quadIndex]);
             }
         }
         else
         {
             if (!useHDFlag)
             {
                 shape1.isHighDetail = true;
             }
         }
     }
     if (notHDTextureList.Any(shape1.textures[0].Contains))
     {
         shape1.isHighDetail = false;
     }
     if (HDTextureList.Any(shape1.textures[0].Contains))
     {
         shape1.isHighDetail = true;
     }
     if (shape1.textures[0].Contains("dyndolod\\lod"))
     {
         shape1.TextureClampMode = 0U;
         shape1.isHighDetail = false;
     }
     if (!this.generateVertexColors || (this.quadLevel != 4 && !shape1.isHighDetail))
     {
         data.SetHasVertexColors(false);
         shape1.hasVertexColor = false;
     }
     if (this.generateTangents)
     {
         //shape1.material.Length != 0
         if (!useOptimizer || (useOptimizer && (this.quadLevel == 4 || shape1.isHighDetail)))
         {
             data.SetTangents(tangents);
             data.SetBitangents(bitangents);
         }
     }
     if (this.removeUnseenFaces && quad.hasTerrainVertices)
     {
         this.RemoveUnseenFaces(quad, data, shape1);
         if ((int)data.GetNumTriangles() == 0)
             return (ShapeDesc)null;
     }
     else
     {
         quad.outValues.totalTriCount += data.GetNumTriangles();
         quad.outValues.reducedTriCount += data.GetNumTriangles();
     }
     this.GenerateSegments(quad, ref shape1);
     return shape1;
 }