Ejemplo n.º 1
0
        //----------------------------------------------------------------------------

        static public WorldcraftObject FromTokenReader(TokenReader tr, Textures textures)
        {
            WorldcraftObject wo = new WorldcraftObject();

            Debug.Assert(tr.LookAhead == "{");
            tr.GetToken();

            while (tr.LookAhead != null && tr.LookAhead != "}")
            {
                if (tr.LookAhead == "{")
                {
                    tr.GetToken();
                    WorldcraftSidePlanes sidePlanes = new WorldcraftSidePlanes();
                    while (tr.LookAhead != null && tr.LookAhead == "(")
                    {
                        sidePlanes.Add(WorldcraftSidePlane.FromTokenReader(tr, textures));
                    }
                    wo.Faces.AddRange(ConvertSidePlanesToFaces(wo, sidePlanes, textures));

                    Debug.Assert(tr.LookAhead == "}");
                    tr.GetToken();
                }
                else
                {
                    string key = tr.GetToken();
                    string val = tr.GetToken();
                    if (wo._properties.Contains(key) == false)
                    {
                        wo._properties.Add(key, val);
                    }
                }
            }

            Debug.Assert(tr.LookAhead != null);
            tr.GetToken();

            Debug.Assert(wo.ClassName != null);

            /*Color clrMaterial = wo.MaterialColor;
             * foreach( Face face in wo.Faces ) {
             *      face.Color = clrMaterial;
             * }*/

            return(wo);
        }
Ejemplo n.º 2
0
        public void LoadDataSet(string fileName, Color clr)
        {
            //Debug.Assert( this.Faces.Count == 0 );
            //Debug2.Push( "Parse Object Definition File" );

            TokenReader tr = new TokenReader(fileName, ' ');

            int vertexCount   = int.Parse(tr.GetToken());
            int triangleCount = int.Parse(tr.GetToken());

            _vertices  = new Vector3D[vertexCount];
            _normals   = new Vector3D[vertexCount];
            _triangles = new int[triangleCount * 3];

            _trianglePlanes = new Plane3D[triangleCount];

            for (int v = 0; v < vertexCount; v++)
            {
                tr.GetToken();
                _vertices[v] = new Vector3D(
                    float.Parse(tr.GetToken()),
                    float.Parse(tr.GetToken()),
                    float.Parse(tr.GetToken()));
                _normals[v] = new Vector3D(0, 0, 0);
            }

            // translate vertices
            Vector3D ptOldMin, ptOldMax;

            FaceUtils.GetExtents(_vertices, out ptOldMin, out ptOldMax);
            Vector3D ptOldMidPoint = (ptOldMin + ptOldMax) * 0.5f;
            float    fOldScale     = (ptOldMidPoint - ptOldMin).GetMagnitude();

            for (int i = 0; i < vertexCount; i++)
            {
                _vertices[i] = (_vertices[i] - ptOldMidPoint) / fOldScale * this.Scale + this.MidPoint;
            }

            for (int t = 0; t < triangleCount; t++)
            {
                tr.GetToken();

                // triangle vertices
                _triangles[t * 3 + 0] = int.Parse(tr.GetToken());
                _triangles[t * 3 + 1] = int.Parse(tr.GetToken());
                _triangles[t * 3 + 2] = int.Parse(tr.GetToken());

                // skip extra triangle info
                tr.GetToken();
                tr.GetToken();
                tr.GetToken();

                // calculate triangle normal
                Vector3D vertexA = _vertices[_triangles[t * 3 + 0]];
                Vector3D vertexB = _vertices[_triangles[t * 3 + 1]];
                Vector3D vertexC = _vertices[_triangles[t * 3 + 2]];
                _trianglePlanes[t] = Plane3D.FromCoplanarPoints(vertexA, vertexB, vertexC);
                //Vector3D.Cross( vertexC - vertexB, vertexA - vertexB ).GetUnit();
            }

            tr.Close();

            //Debug2.Pop();

            /*for( int v = 0; v < vertexCount; v ++ ) {
             *      if( vertexNormals[ v ].GetMagnitude() > 0.1 ) {
             *              vertexNormals[ v ].Normalize();
             *      }
             *      else {
             *              vertexNormals[ v ] = new Vector3D( 1, 0, 0 );
             *      }
             * }  */

            //Debug2.Push( "Calculate Face Normals" );

            float fLimit = 0f;

            for (int t = 0; t < triangleCount; t++)
            {
                for (int v = 0; v < 3; v++)
                {
                    int      vIndex    = _triangles[t * 3 + v];
                    Vector3D normalSum = _trianglePlanes[t].Normal;
                    Vector3D normal    = _trianglePlanes[t].Normal;
                    for (int t2 = 0; t2 < triangleCount; t2++)
                    {
                        if (t2 == t)
                        {
                            continue;
                        }
                        bool bMatch = false;
                        for (int v2 = 0; v2 < 3; v2++)
                        {
                            if (vIndex == _triangles[t2 * 3 + v2])
                            {
                                bMatch = true;
                                break;
                            }
                        }
                        if (bMatch == true)
                        {
                            Vector3D normal2 = _trianglePlanes[t2].Normal;
                            if (Vector3D.Dot(normal, normal2) > fLimit)
                            {
                                normalSum += normal2;
                            }
                        }
                    }
                    if (normalSum.GetMagnitude() > 0.01)
                    {
                        _normals[vIndex] = normalSum.GetUnit();
                    }
                    else
                    {
                        _normals[vIndex] = (Vector3D)normal.Clone();
                    }
                }
            }
            //Debug2.Pop();

            /*
             *      int a = faceIndices[ f, 0 ];
             *      int b = faceIndices[ f, 1 ];
             *      int c = faceIndices[ f, 2 ];
             *
             *      Face face = this.Faces[f];
             *      face.VertexNormals = new Vector3DCollection();
             *      face.VertexNormals.Add( vertexNormals[ a ].Clone() );
             *      face.VertexNormals.Add( vertexNormals[ b ].Clone() );
             *      face.VertexNormals.Add( vertexNormals[ c ].Clone() );
             * }*/
        }
Ejemplo n.º 3
0
        static public WorldcraftSidePlane FromTokenReader(TokenReader tr, Textures textures)
        {
            WorldcraftSidePlane sp = new WorldcraftSidePlane();

            Debug.Assert(tr.LookAhead == "(");
            tr.GetToken();
            Vector3D pt1 = ReadVector3D(tr);

            Debug.Assert(tr.LookAhead == ")");
            tr.GetToken();

            Debug.Assert(tr.LookAhead == "(");
            tr.GetToken();
            Vector3D pt2 = ReadVector3D(tr);

            Debug.Assert(tr.LookAhead == ")");
            tr.GetToken();

            Debug.Assert(tr.LookAhead == "(");
            tr.GetToken();
            Vector3D pt3 = ReadVector3D(tr);

            Debug.Assert(tr.LookAhead == ")");
            tr.GetToken();

            sp.plane = Plane3D.FromCoplanarPoints(pt2, pt1, pt3);
            sp.plane.Flip();
            //Debug.Assert( sp.plane != null );

            sp.texture = textures.RequestTexture(tr.GetToken());
            Debug.Assert(sp.texture != null);
            if (sp.texture.IsBitmapLoaded == false)
            {
                sp.texture.LoadBitmap();
            }

            Debug.Assert(tr.LookAhead == "[");
            tr.GetToken();
            Vector3D sAxis   = ReadVector3D(tr);
            float    sOffset = float.Parse(tr.GetToken());

            Debug.Assert(tr.LookAhead == "]");
            tr.GetToken();

            Debug.Assert(tr.LookAhead == "[");
            tr.GetToken();
            Vector3D tAxis   = ReadVector3D(tr);
            float    tOffset = float.Parse(tr.GetToken());

            Debug.Assert(tr.LookAhead == "]");
            tr.GetToken();

            Vector3D rAxis = Vector3D.Cross(sAxis, tAxis);

            float rotation = float.Parse(tr.GetToken());
            float sScale   = float.Parse(tr.GetToken());
            float tScale   = float.Parse(tr.GetToken());

            Matrix3D xfrm = new Matrix3D();

            //xfrm.Scale( sScale, tScale, 1 );
            //xfrm.Translate( -sOffset, -tOffset, 0 );
            sp.sAxis = sAxis;
            sp.tAxis = tAxis;

            //xfrm.ChangeBasis( sAxis, tAxis, rAxis );
            //xfrm.Scale( sp.texture.Width, sp.texture.Height, 1 );

            //xfrm.Invert();
            //sp.xfrm = xfrm;

            return(sp);
        }
Ejemplo n.º 4
0
 static protected Vector3D ReadVector3D(TokenReader tr)
 {
     return(Vector3D.FromXYZ(float.Parse(tr.GetToken()), float.Parse(tr.GetToken()), float.Parse(tr.GetToken())));
 }