Пример #1
0
 public void OnPickStart(Topology.Face face, int button)
 {
     if (button == 0 && face.isInternal)
     {
         ClearPreviousPickState();
         _startFace = face;
         DrawCurrentPickState(face);
         _dynamicMesh.RebuildMesh(DynamicMesh.VertexAttributes.Normal | DynamicMesh.VertexAttributes.Color);
     }
 }
Пример #2
0
 private void Select(Topology.Face face)
 {
     _dynamicMesh.RebuildFace(face, _selectedFaceTriangulation);
     _dynamicMesh.RebuildMesh(DynamicMesh.VertexAttributes.UV2);
 }
Пример #3
0
        protected void Start()
        {
            orbitalCamera.enabled = !isInverted;
            pivotalCamera.enabled = isInverted;

            exteriorLight.enabled = !isInverted;
            interiorLight.enabled = isInverted;

            _lightVector = (isInverted ? interiorLight : exteriorLight).transform.position;
            _lightAxis   = Vector3.Cross(Vector3.Cross(Vector3.up, _lightVector), _lightVector);

            RenderSettings.ambientLight          = new Color(0.3f, 0.4f, 0.5f);
            RenderSettings.ambientIntensity      = 0.25f;
            RenderSettings.customReflection      = whiteCubeMap;
            RenderSettings.reflectionIntensity   = 0.125f;
            RenderSettings.defaultReflectionMode = UnityEngine.Rendering.DefaultReflectionMode.Custom;

            _picker = GetComponent <FaceSpatialPartitioningPicker>();

            _surface = SphericalSurface.Create(Vector3.up, Vector3.right, 10f, isInverted);
            Vector3[] baseVertexPositionsArray;
            Topology  baseTopology;

            SphericalManifoldUtility.CreateIcosahedron(_surface, out baseTopology, out baseVertexPositionsArray);

            Vector3[] vertexPositionsArray;
            SphericalManifoldUtility.Subdivide(_surface, baseTopology, baseVertexPositionsArray.AsVertexAttribute(), topologySubdivision, out _topology, out vertexPositionsArray);

            _vertexPositions = PositionalVertexAttribute.Create(_surface, vertexPositionsArray);

            SphericalManifoldUtility.MakeDual(_surface, _topology, _vertexPositions, out vertexPositionsArray);
            _vertexPositions = PositionalVertexAttribute.Create(_surface, vertexPositionsArray);

            var regularityWeight = 0.5f;
            var equalAreaWeight  = 1f - regularityWeight;

            var regularityRelaxedVertexPositions = new Vector3[_topology.vertices.Count].AsVertexAttribute();
            var equalAreaRelaxedVertexPositions  = new Vector3[_topology.vertices.Count].AsVertexAttribute();
            var relaxedVertexPositions           = regularityRelaxedVertexPositions;
            var faceCentroids      = PositionalFaceAttribute.Create(_surface, _topology.internalFaces.Count);
            var faceCentroidAngles = new float[_topology.faceEdges.Count].AsEdgeAttribute();
            var vertexAreas        = new float[_topology.vertices.Count].AsVertexAttribute();

            FaceAttributeUtility.CalculateFaceCentroidsFromVertexPositions(_topology.internalFaces, _vertexPositions, faceCentroids);
            VertexAttributeUtility.CalculateVertexAreasFromVertexPositionsAndFaceCentroids(_topology.vertices, _vertexPositions, faceCentroids, vertexAreas);

            Func <float> relaxIterationFunction = () =>
            {
                SphericalManifoldUtility.RelaxVertexPositionsForRegularity(_surface, _topology, _vertexPositions, true, regularityRelaxedVertexPositions);
                SphericalManifoldUtility.RelaxVertexPositionsForEqualArea(_surface, _topology, _vertexPositions, true, equalAreaRelaxedVertexPositions, faceCentroids, faceCentroidAngles, vertexAreas);
                for (int i = 0; i < relaxedVertexPositions.Count; ++i)
                {
                    relaxedVertexPositions[i] = regularityRelaxedVertexPositions[i] * regularityWeight + equalAreaRelaxedVertexPositions[i] * equalAreaWeight;
                }
                var relaxationAmount = SphericalManifoldUtility.CalculateRelaxationAmount(_vertexPositions, relaxedVertexPositions);
                for (int i = 0; i < _vertexPositions.Count; ++i)
                {
                    _vertexPositions[i] = relaxedVertexPositions[i];
                }
                return(relaxationAmount);
            };

            Func <bool> repairFunction = () =>
            {
                return(SphericalManifoldUtility.ValidateAndRepair(_surface, _topology, _vertexPositions, 0.5f, true));
            };

            Action relaxationLoopFunction = TopologyRandomizer.CreateRelaxationLoopFunction(20, 20, 0.95f, relaxIterationFunction, repairFunction);

            TopologyRandomizer.Randomize(
                _topology, 1, 0.1f,
                3, 3, 5, 7, true,
                _random,
                relaxationLoopFunction);

            _facePositions = PositionalFaceAttribute.Create(_surface, _topology.internalFaces.Count);
            FaceAttributeUtility.CalculateFaceCentroidsFromVertexPositions(_topology.internalFaces, _vertexPositions, _facePositions);

            _maximumFaceDistance = 0f;
            foreach (var edge in _topology.faceEdges)
            {
                var distance = Geometry.AngleBetweenVectors(_facePositions[edge.nearFace], _facePositions[edge.farFace]) * _surface.radius;
                _maximumFaceDistance = Mathf.Max(_maximumFaceDistance, distance);
            }

            _innerAngleBisectors = EdgeAttributeUtility.CalculateFaceEdgeBisectorsFromVertexPositions(_topology.internalFaces, _vertexPositions, _facePositions);

            _innerVertexPositions = new Vector3[_topology.faceEdges.Count].AsEdgeAttribute();
            foreach (var edge in _topology.faceEdges)
            {
                _innerVertexPositions[edge] = _vertexPositions[edge] + _innerAngleBisectors[edge] * 0.03f;
            }

            _faceNormals      = FaceAttributeUtility.CalculateFaceNormalsFromSurface(_topology.faces, _surface, _facePositions);
            _faceUVFrames     = FaceAttributeUtility.CalculatePerFaceSphericalUVFramesFromFaceNormals(_topology.faces, _faceNormals, Quaternion.identity);
            _faceOuterEdgeUVs = EdgeAttributeUtility.CalculatePerFaceUnnormalizedUVsFromVertexPositions(_topology.faces, _vertexPositions, _faceUVFrames);
            _faceInnerEdgeUVs = EdgeAttributeUtility.CalculatePerFaceUnnormalizedUVsFromVertexPositions(_topology.faces, _innerVertexPositions, _faceUVFrames);
            _faceCenterUVs    = FaceAttributeUtility.CalculateUnnormalizedUVsFromFacePositions(_topology.faces, _facePositions, _faceUVFrames);

            var faceMinUVs   = new Vector2[_topology.faces.Count].AsFaceAttribute();
            var faceRangeUVs = new Vector2[_topology.faces.Count].AsFaceAttribute();

            FaceAttributeUtility.CalculateFaceEdgeMinAndRangeValues(_topology.faces, _faceOuterEdgeUVs, faceMinUVs, faceRangeUVs);

            foreach (var face in _topology.faces)
            {
                var uvMin    = faceMinUVs[face];
                var uvRange  = faceRangeUVs[face];
                var adjusted = AspectRatioUtility.Expand(new Rect(uvMin.x, uvMin.y, uvRange.x, uvRange.y), 1f);
                faceMinUVs[face]   = adjusted.min;
                faceRangeUVs[face] = adjusted.size;
            }

            _faceOuterEdgeUVs = EdgeAttributeUtility.CalculatePerFaceUniformlyNormalizedUVsFromFaceUVMinAndRange(_topology.faces, faceMinUVs, faceRangeUVs, _faceOuterEdgeUVs);
            _faceInnerEdgeUVs = EdgeAttributeUtility.CalculatePerFaceUniformlyNormalizedUVsFromFaceUVMinAndRange(_topology.faces, faceMinUVs, faceRangeUVs, _faceInnerEdgeUVs);
            _faceCenterUVs    = FaceAttributeUtility.CalculateUniformlyNormalizedUVsFromFaceUVMinAndRange(_topology.faces, faceMinUVs, faceRangeUVs, _faceCenterUVs);

            _partitioning        = UniversalFaceSpatialPartitioning.Create(_surface, _topology, _vertexPositions);
            _picker.partitioning = _partitioning;
            _picker.enabled      = true;

            _faceTerrainIndices = new int[_topology.faces.Count].AsFaceAttribute();
            var terrainWeights   = new int[] { grassWeight, waterWeight, desertWeight, mountainWeight };
            int terrainWeightSum = 0;

            foreach (var weight in terrainWeights)
            {
                terrainWeightSum += weight;
            }

            var rootFaces     = new List <Topology.Face>();
            var rootFaceEdges = new List <Topology.FaceEdge>();

            for (int regionIndex = 0; regionIndex < geographicalRegionCount; ++regionIndex)
            {
                Topology.Face face;
                do
                {
                    face = _topology.internalFaces[_random.Index(_topology.internalFaces.Count)];
                } while (rootFaces.Contains(face));
                rootFaces.Add(face);
                foreach (var edge in face.edges)
                {
                    rootFaceEdges.Add(edge);
                }
                _faceTerrainIndices[face] = _random.WeightedIndex(terrainWeights, terrainWeightSum);
            }

            TopologyVisitor.VisitFacesInRandomOrder(rootFaceEdges, (FaceEdgeVisitor visitor) =>
            {
                _faceTerrainIndices[visitor.edge.farFace] = _faceTerrainIndices[visitor.edge.nearFace];

                visitor.VisitInternalNeighborsExceptSource();
            },
                                                    _random);

            _faceSeenStates  = new bool[_topology.faces.Count].AsFaceAttribute();
            _faceSightCounts = new int[_topology.faces.Count].AsFaceAttribute();

            var triangulation = new SeparatedFacesUmbrellaTriangulation(2,
                                                                        (Topology.FaceEdge edge, DynamicMesh.IIndexedVertexAttributes vertexAttributes) =>
            {
                var face         = edge.nearFace;
                var faceNormal   = _faceNormals[face];
                var gridOverlayU = GetGridOverlayU(false, _faceSeenStates[face], _faceSightCounts[face]);

                vertexAttributes.position = _vertexPositions[edge];
                vertexAttributes.normal   = faceNormal;
                vertexAttributes.uv1      = AdjustSurfaceUV(_faceOuterEdgeUVs[edge], _faceTerrainIndices[face]);
                vertexAttributes.uv2      = new Vector2(gridOverlayU, 0f);
                vertexAttributes.Advance();

                vertexAttributes.position = _innerVertexPositions[edge];
                vertexAttributes.normal   = faceNormal;
                vertexAttributes.uv1      = AdjustSurfaceUV(_faceInnerEdgeUVs[edge], _faceTerrainIndices[face]);
                vertexAttributes.uv2      = new Vector2(gridOverlayU, 0.5f);
                vertexAttributes.Advance();
            },
                                                                        (Topology.Face face, DynamicMesh.IIndexedVertexAttributes vertexAttributes) =>
            {
                vertexAttributes.position = _facePositions[face];
                vertexAttributes.normal   = _faceNormals[face];
                vertexAttributes.uv1      = AdjustSurfaceUV(_faceCenterUVs[face], _faceTerrainIndices[face]);
                vertexAttributes.uv2      = new Vector2(GetGridOverlayU(false, _faceSeenStates[face], _faceSightCounts[face]), 1f);
                vertexAttributes.Advance();
            });

            _dynamicMesh = DynamicMesh.Create(
                _topology.enumerableInternalFaces,
                DynamicMesh.VertexAttributes.Position |
                DynamicMesh.VertexAttributes.Normal |
                DynamicMesh.VertexAttributes.UV1 |
                DynamicMesh.VertexAttributes.UV2,
                triangulation);

            foreach (var mesh in _dynamicMesh.submeshes)
            {
                var meshObject = Instantiate(planetMeshPrefab);
                meshObject.mesh = mesh;
                meshObject.transform.SetParent(planetMeshes, false);
            }

            _faceUnits = new Transform[_topology.faces.Count].AsFaceAttribute();
            for (int i = 0; i < unitCount; ++i)
            {
                Topology.Face face;
                do
                {
                    face = _topology.internalFaces[_random.Index(_topology.internalFaces.Count)];
                } while (_faceTerrainIndices[face] == 1 || _faceUnits[face] != null);

                var unit = Instantiate(unitPrefab);
                unit.SetParent(units, false);
                unit.transform.position = _facePositions[face] + _faceNormals[face] * 0.15f;
                _faceUnits[face]        = unit;

                RevealUnitVicinity(face);
            }
            _dynamicMesh.RebuildMesh(DynamicMesh.VertexAttributes.UV2);
        }