Esempio n. 1
0
        // Note: This method is not optimized! Code is simplified for clarity!
        //          for example: Plane.Distance / Plane.OnSide should be inlined manually and shouldn't use enums, but floating point values directly!
        public PolygonSplitResult PolygonSplit(Plane cuttingPlane, Vector3 translation, ref Polygon inputPolygon, out Polygon outsidePolygon)
        {
            HalfEdge prev = Edges[inputPolygon.FirstIndex];
            HalfEdge current = Edges[prev.NextIndex];
            HalfEdge next = Edges[current.NextIndex];
            HalfEdge last = next;
            HalfEdge enterEdge = null;
            HalfEdge exitEdge = null;

            var prevVertex = Vertices[prev.VertexIndex];
            var prevDistance = cuttingPlane.SignedDistance(prevVertex);		// distance to previous vertex
            var prevSide = Plane.OnSide(prevDistance);				// side of plane of previous vertex

            var currentVertex = Vertices[current.VertexIndex];
            var currentDistance = cuttingPlane.SignedDistance(currentVertex);		// distance to current vertex
            var currentSide = Plane.OnSide(currentDistance);			// side of plane of current vertex

            do
            {
                var nextVertex = Vertices[next.VertexIndex];
                var nextDistance = cuttingPlane.SignedDistance(nextVertex);		// distance to next vertex
                var nextSide = Plane.OnSide(nextDistance);				// side of plane of next vertex

                if (prevSide != currentSide)							// check if edge crossed the plane ...
                {
                    if (currentSide != PlaneSideResult.Intersects)		// prev:inside/outside - current:inside/outside - next:??
                    {
                        if (prevSide != PlaneSideResult.Intersects)		// prev:inside/outside - current:outside        - next:??
                        {
                            // Calculate intersection of edge with plane split the edge into two, inserting the new vertex
                            var newVertex = Plane.Intersection(prevVertex, currentVertex, prevDistance, currentDistance);
                            var newEdge = EdgeSplit(current, newVertex);

                            if (prevSide == PlaneSideResult.Inside)		// prev:inside         - current:outside        - next:??
                            {
                                //edge01 exits:
                                //
                                //      outside
                                //         1
                                //         *
                                // ......./........ intersect
                                //       /
                                //      0
                                //      inside

                                exitEdge = current;
                            }
                            else
                                if (prevSide == PlaneSideResult.Outside)		// prev:outside - current:inside - next:??
                                {
                                    //edge01 enters:
                                    //
                                    //      outside
                                    //      0
                                    //       \
                                    // .......\........ intersect
                                    //         *
                                    //         1
                                    //      inside

                                    enterEdge = current;
                                }

                            prevDistance = 0;
                            prev = Edges[prev.NextIndex];
                            prevSide = PlaneSideResult.Intersects;

                            if (exitEdge != null &&
                                enterEdge != null)
                                break;

                            current = Edges[prev.NextIndex];
                            currentVertex = Vertices[current.VertexIndex];

                            next = Edges[current.NextIndex];
                            nextVertex = Vertices[next.VertexIndex];
                        }
                    }
                    else												// prev:??                - current:intersects - next:??
                    {
                        if (prevSide == PlaneSideResult.Intersects ||	// prev:intersects        - current:intersects - next:??
                            nextSide == PlaneSideResult.Intersects ||	// prev:??                - current:intersects - next:intersects
                            prevSide == nextSide)						// prev:inside/outde      - current:intersects - next:inside/outde
                        {
                            if (prevSide == PlaneSideResult.Inside ||	// prev:inside            - current:intersects - next:intersects/inside
                                nextSide == PlaneSideResult.Inside)		// prev:intersects/inside - current:intersects - next:inside
                            {
                                //      outside
                                // 0       1
                                // --------*....... intersect
                                //          \
                                //           2
                                //       inside
                                //
                                //      outside
                                //         1      2
                                // ........*------- intersect
                                //        /
                                //       0
                                //      inside
                                //
                                //     outside
                                //        1
                                //........*....... intersect
                                //       / \
                                //      0   2
                                //      inside
                                //

                                prevSide = PlaneSideResult.Inside;
                                enterEdge = exitEdge = null;
                                break;
                            }
                            else
                                if (prevSide == PlaneSideResult.Outside ||		// prev:outside            - current:intersects - next:intersects/outside
                                    nextSide == PlaneSideResult.Outside)		// prev:intersects/outside - current:intersects - next:outside
                                {
                                    //     outside
                                    //          2
                                    //         /
                                    //..------*....... intersect
                                    //  0     1
                                    //     inside
                                    //
                                    //     outside
                                    //      0
                                    //       \
                                    //........*------- intersect
                                    //        1      2
                                    //     inside
                                    //
                                    //     outside
                                    //      0   2
                                    //       \ /
                                    //........*....... intersect
                                    //        1
                                    //     inside
                                    //

                                    prevSide = PlaneSideResult.Outside;
                                    enterEdge = exitEdge = null;
                                    break;
                                }
                        }
                        else											// prev:inside/outside - current:intersects - next:inside/outside
                        {
                            if (prevSide == PlaneSideResult.Inside)		// prev:inside         - current:intersects - next:outside
                            {
                                //find exit edge:
                                //
                                //      outside
                                //           2
                                //        1 /
                                // ........*....... intersect
                                //        /
                                //       0
                                //       inside

                                exitEdge = current;
                                if (enterEdge != null)
                                    break;
                            }
                            else										// prev:outside        - current:intersects - next:inside
                            {
                                //find enter edge:
                                //
                                //      outside
                                //       0
                                //        \ 1
                                // ........*....... intersect
                                //          \
                                //           2
                                //       inside

                                enterEdge = current;
                                if (exitEdge != null)
                                    break;
                            }
                        }
                    }
                }

                prev = current;
                current = next;
                next = Edges[next.NextIndex];

                prevDistance = currentDistance;
                currentDistance = nextDistance;
                prevSide = currentSide;
                currentSide = nextSide;
                prevVertex = currentVertex;
                currentVertex = nextVertex;
            } while (next != last);

            // We should never have only one edge crossing the plane ..
            Debug.Assert((enterEdge == null) == (exitEdge == null));

            // Check if we have an edge that exits and an edge that enters the plane and split the polygon into two if we do
            if (enterEdge != null && exitEdge != null)
            {
                //enter   .
                //        .
                //  =====>*----->
                //        .
                //
                //outside . inside
                //        .
                //  <-----*<=====
                //        .
                //        .  exit

                outsidePolygon = new Polygon();
                var outsidePolygonIndex = (short)this.Polygons.Count;
                this.Polygons.Add(outsidePolygon);

                var outsideEdge = new HalfEdge();
                var outsideEdgeIndex = (short)Edges.Count;

                var insideEdge = new HalfEdge();
                var insideEdgeIndex = (short)(outsideEdgeIndex + 1);

                outsideEdge.TwinIndex = insideEdgeIndex;
                insideEdge.TwinIndex = outsideEdgeIndex;

                //insideEdge.PolygonIndex	= inputPolygonIndex;// index does not change
                outsideEdge.PolygonIndex = outsidePolygonIndex;

                outsideEdge.VertexIndex = exitEdge.VertexIndex;
                insideEdge.VertexIndex = enterEdge.VertexIndex;

                outsideEdge.NextIndex = exitEdge.NextIndex;
                insideEdge.NextIndex = enterEdge.NextIndex;

                exitEdge.NextIndex = insideEdgeIndex;
                enterEdge.NextIndex = outsideEdgeIndex;

                outsidePolygon.FirstIndex = outsideEdgeIndex;
                inputPolygon.FirstIndex = insideEdgeIndex;

                outsidePolygon.Visible = inputPolygon.Visible;
                outsidePolygon.Category = inputPolygon.Category;
                outsidePolygon.PlaneIndex = inputPolygon.PlaneIndex;

                Edges.Add(outsideEdge);
                Edges.Add(insideEdge);

                // calculate the bounds of the polygons
                outsidePolygon.Bounds.Clear();
                var first = Edges[outsidePolygon.FirstIndex];
                var iterator = first;
                do
                {
                    outsidePolygon.Bounds.Add(Vertices[iterator.VertexIndex]);
                    iterator.PolygonIndex = outsidePolygonIndex;
                    iterator = Edges[iterator.NextIndex];
                } while (iterator != first);

                inputPolygon.Bounds.Clear();
                first = Edges[inputPolygon.FirstIndex];
                iterator = first;
                do
                {
                    inputPolygon.Bounds.Add(Vertices[iterator.VertexIndex]);
                    iterator = Edges[iterator.NextIndex];
                } while (iterator != first);

                return PolygonSplitResult.Split;
            }
            else
            {
                outsidePolygon = null;
                switch (prevSide)
                {
                    case PlaneSideResult.Inside: return PolygonSplitResult.CompletelyInside;
                    case PlaneSideResult.Outside: return PolygonSplitResult.CompletelyOutside;
                    default:
                    case PlaneSideResult.Intersects:
                        {
                            var polygonPlane = Planes[inputPolygon.PlaneIndex];
                            var result = Vector3.Dot(polygonPlane.Normal, cuttingPlane.Normal);
                            if (result > 0)
                                return PolygonSplitResult.PlaneAligned;
                            else
                                return PolygonSplitResult.PlaneOppositeAligned;
                        }
                }
            }
        }
Esempio n. 2
0
        public static CSGMesh Combine(Vector3 offset, IDictionary<CSGNode, CSGMesh> brushMeshes)
        {
            var planeLookup = new Dictionary<Plane, short>();
            var vertexLookup = new Dictionary<Vector3, short>();

            var planes = new List<Plane>();
            var polygons = new List<Polygon>();
            var edges = new List<HalfEdge>();
            var vertices = new List<Vector3>();

            var bounds = new AABBi();

            bounds.Clear();
            int edgeIndex = 0;
            int polygonIndex = 0;
            foreach (var item in brushMeshes)
            {
                var node = item.Key;
                var translation = node.Translation - offset;
                var mesh = item.Value;
                foreach (var edge in mesh.Edges)
                {
                    short vertexIndex;
                    var vertex = mesh.Vertices[edge.VertexIndex] + translation;
                    if (!vertexLookup.TryGetValue(vertex, out vertexIndex))
                    {
                        vertexIndex = (short)vertices.Count;
                        vertices.Add(vertex);
                        vertexLookup.Add(vertex, vertexIndex);
                    }

                    var newEdge = new HalfEdge();
                    newEdge.VertexIndex = vertexIndex;
                    newEdge.NextIndex = (short)(edge.NextIndex + edgeIndex);
                    newEdge.TwinIndex = (short)(edge.TwinIndex + edgeIndex);
                    newEdge.PolygonIndex = (short)(edge.PolygonIndex + polygonIndex);

                    edges.Add(newEdge);
                }

                foreach (var polygon in mesh.Polygons)
                {
                    if (polygon.FirstIndex == -1)
                        continue;
                    short planeIndex;
                    var plane = mesh.Planes[polygon.PlaneIndex];
                    if (!planeLookup.TryGetValue(plane, out planeIndex))
                    {
                        planeIndex = (short)planes.Count;
                        planes.Add(plane);
                        planeLookup.Add(plane, planeIndex);
                    }

                    var newPolygon = new Polygon();
                    newPolygon.PlaneIndex = planeIndex;
                    newPolygon.FirstIndex = (short)(polygon.FirstIndex + edgeIndex);
                    newPolygon.Category = polygon.Category;
                    newPolygon.Visible = polygon.Visible;
                    newPolygon.Bounds.Set(polygon.Bounds, translation);

                    polygons.Add(newPolygon);

                    if (newPolygon.Visible)
                    {
                        var first = edges[newPolygon.FirstIndex];
                        var iterator = first;
                        do
                        {
                            bounds.Add(vertices[iterator.VertexIndex]);
                            iterator = edges[iterator.NextIndex];
                        } while (iterator != first);
                    }
                }
                edgeIndex = edges.Count;
                polygonIndex = polygons.Count;
            }
            return new CSGMesh(planes.ToArray(), polygons, edges, vertices, bounds);
        }
Esempio n. 3
0
        public CSGMesh Clone()
        {
            var newPlanes = new Plane[Planes.Length];
            for (int i = 0; i < Planes.Length; i++)
            {
                var plane = Planes[i];
                newPlanes[i] = new Plane(plane.A, plane.B, plane.C, plane.D);
            }
            var newPolygons = new List<Polygon>(Polygons.Count);
            foreach (var polygon in Polygons)
            {
                var newPolygon = new Polygon();
                newPolygon.FirstIndex = polygon.FirstIndex;
                newPolygon.Visible = polygon.Visible;
                newPolygon.Category = polygon.Category;
                newPolygon.PlaneIndex = polygon.PlaneIndex;
                newPolygon.Bounds.Set(polygon.Bounds);

                newPolygons.Add(newPolygon);
            }

            var newEdges = new List<HalfEdge>(Edges.Count);
            foreach (var edge in Edges)
            {
                var newEdge = new HalfEdge();
                newEdge.NextIndex = edge.NextIndex;
                newEdge.PolygonIndex = edge.PolygonIndex;
                newEdge.TwinIndex = edge.TwinIndex;
                newEdge.VertexIndex = edge.VertexIndex;
                newEdges.Add(newEdge);
            }

            var newVertices = new List<Vector3>(Vertices.Count);
            foreach (var vertex in Vertices)
            {
                newVertices.Add(vertex);
            }

            var newBounds = new AABBi(Bounds);
            var newMesh = new CSGMesh(
                newPlanes,
                newPolygons,
                newEdges,
                newVertices,
                newBounds);

            return newMesh;
        }
Esempio n. 4
0
        public static CSGMesh CreateFromPlanes(Plane[] brushPlanes)
        {
            var planes = new Plane[brushPlanes.Length];
            for (int i = 0; i < brushPlanes.Length; i++)
            {
                var plane = brushPlanes[i];
                planes[i] = new Plane(plane.A, plane.B, plane.C, plane.D);
            }

            var pointIntersections = new List<PointIntersection>(planes.Length * planes.Length);
            var intersectingPlanes = new List<short>();
            var vertices = new List<Vector3>();
            var edges = new List<HalfEdge>();

            // Find all point intersections where 3 (or more planes) intersect
            for (short planeIndex1 = 0; planeIndex1 < planes.Length - 2; planeIndex1++)
            {
                var plane1 = planes[planeIndex1];
                for (short planeIndex2 = (short)(planeIndex1 + 1); planeIndex2 < planes.Length - 1; planeIndex2++)
                {
                    var plane2 = planes[planeIndex2];
                    for (short planeIndex3 = (short)(planeIndex2 + 1); planeIndex3 < planes.Length; planeIndex3++)
                    {
                        var plane3 = planes[planeIndex3];

                        // Calculate the intersection
                        var vertex = Plane.Intersection(plane1, plane2, plane3);

                        // Check if the intersection is valid
                        if (float.IsNaN(vertex.X) || float.IsNaN(vertex.Y) || float.IsNaN(vertex.Z) ||
                            float.IsInfinity(vertex.X) || float.IsInfinity(vertex.Y) || float.IsInfinity(vertex.Z))
                            continue;

                        intersectingPlanes.Clear();
                        intersectingPlanes.Add(planeIndex1);
                        intersectingPlanes.Add(planeIndex2);
                        intersectingPlanes.Add(planeIndex3);

                        for (short planeIndex4 = 0; planeIndex4 < planes.Length; planeIndex4++)
                        {
                            if (planeIndex4 == planeIndex1 ||
                                planeIndex4 == planeIndex2 ||
                                planeIndex4 == planeIndex3)
                                continue;

                            var plane4 = planes[planeIndex4];
                            var side = plane4.OnSide(vertex);
                            if (side == PlaneSideResult.Intersects)
                            {
                                if (planeIndex4 < planeIndex3)
                                    // Already found this vertex
                                    goto SkipIntersection;

                                // We've found another plane which goes trough our found intersection point
                                intersectingPlanes.Add(planeIndex4);
                            }
                            else
                                if (side == PlaneSideResult.Outside)
                                    // Intersection is outside of brush
                                    goto SkipIntersection;
                        }

                        var vertexIndex = (short)vertices.Count;
                        vertices.Add(vertex);

                        // Add intersection point to our list
                        pointIntersections.Add(new PointIntersection(vertexIndex, intersectingPlanes));

                    SkipIntersection:
                        ;
                    }
                }
            }

            var foundPlanes = new short[2];
            // Find all our intersection edges which are formed by a pair of planes
            // (this could probably be done inside the previous loop)
            for (int i = 0; i < pointIntersections.Count; i++)
            {
                var pointIntersectionA = pointIntersections[i];
                for (int j = i + 1; j < pointIntersections.Count; j++)
                {
                    var pointIntersectionB = pointIntersections[j];
                    var planesIndicesA = pointIntersectionA.PlaneIndices;
                    var planesIndicesB = pointIntersectionB.PlaneIndices;

                    short foundPlaneIndex = 0;
                    foreach (var currentPlaneIndex in planesIndicesA)
                    {
                        if (!planesIndicesB.Contains(currentPlaneIndex))
                            continue;

                        foundPlanes[foundPlaneIndex] = currentPlaneIndex;
                        foundPlaneIndex++;

                        if (foundPlaneIndex == 2)
                            break;
                    }

                    // If foundPlaneIndex is 0 or 1 then either this combination does not exist,
                    // or only goes trough one point
                    if (foundPlaneIndex < 2)
                        continue;

                    // Create our found intersection edge
                    var halfEdgeA = new HalfEdge();
                    var halfEdgeAIndex = (short)edges.Count;
                    edges.Add(halfEdgeA);

                    var halfEdgeB = new HalfEdge();
                    var halfEdgeBIndex = (short)edges.Count;
                    edges.Add(halfEdgeB);

                    halfEdgeA.TwinIndex = halfEdgeBIndex;
                    halfEdgeB.TwinIndex = halfEdgeAIndex;

                    halfEdgeA.VertexIndex = pointIntersectionA.VertexIndex;
                    halfEdgeB.VertexIndex = pointIntersectionB.VertexIndex;

                    // Add it to our points
                    pointIntersectionA.Edges.Add(new EdgeIntersection(
                                                        halfEdgeA,
                                                        foundPlanes[0],
                                                        foundPlanes[1]));
                    pointIntersectionB.Edges.Add(new EdgeIntersection(
                                                        halfEdgeB,
                                                        foundPlanes[0],
                                                        foundPlanes[1]));
                }
            }

            var polygons = new List<Polygon>();
            for (short i = 0; i < (short)planes.Length; i++)
            {
                var polygon = new Polygon();
                polygon.PlaneIndex = i;
                polygons.Add(polygon);
            }

            var bounds = new AABBi();
            var direction = new Vector3();
            for (int i = pointIntersections.Count - 1; i >= 0; i--)
            {
                var pointIntersection = pointIntersections[i];
                var pointEdges = pointIntersection.Edges;

                // Make sure that we have at least 2 edges ...
                // This may happen when a plane only intersects at a single edge.
                if (pointEdges.Count <= 2)
                {
                    pointIntersections.RemoveAt(i);
                    continue;
                }

                var vertexIndex = pointIntersection.VertexIndex;
                var vertex = vertices[vertexIndex];

                for (int j = 0; j < pointEdges.Count - 1; j++)
                {
                    var edge1 = pointEdges[j];
                    for (int k = j + 1; k < pointEdges.Count; k++)
                    {
                        var edge2 = pointEdges[k];

                        int planeIndex1 = -1;
                        int planeIndex2 = -1;

                        // Determine if and which of our 2 planes are identical
                        if (edge1.PlaneIndices[0] == edge2.PlaneIndices[0]) { planeIndex1 = 0; planeIndex2 = 0; }
                        else
                            if (edge1.PlaneIndices[0] == edge2.PlaneIndices[1]) { planeIndex1 = 0; planeIndex2 = 1; }
                            else
                                if (edge1.PlaneIndices[1] == edge2.PlaneIndices[0]) { planeIndex1 = 1; planeIndex2 = 0; }
                                else
                                    if (edge1.PlaneIndices[1] == edge2.PlaneIndices[1]) { planeIndex1 = 1; planeIndex2 = 1; }
                                    else
                                        continue;

                        HalfEdge ingoing;
                        HalfEdge outgoing;
                        short outgoingIndex;

                        var shared_plane = planes[edge1.PlaneIndices[planeIndex1]];
                        var edge1_plane = planes[edge1.PlaneIndices[1 - planeIndex1]];
                        var edge2_plane = planes[edge2.PlaneIndices[1 - planeIndex2]];

                        direction = Vector3.Cross(shared_plane.Normal, edge1_plane.Normal);

                        // Determine the orientation of our two edges to determine
                        // which edge is in-going, and which one is out-going
                        if (Vector3.Dot(direction, edge2_plane.Normal) < 0)
                        {
                            ingoing = edge2.Edge;
                            outgoingIndex = edge1.Edge.TwinIndex;
                            outgoing = edges[outgoingIndex];
                        }
                        else
                        {
                            ingoing = edge1.Edge;
                            outgoingIndex = edge2.Edge.TwinIndex;
                            outgoing = edges[outgoingIndex];
                        }

                        // Link the out-going half-edge to the in-going half-edge
                        ingoing.NextIndex = outgoingIndex;

                        // Add reference to polygon to half-edge, and make sure our
                        // polygon has a reference to a half-edge
                        // Since a half-edge, in this case, serves as a circular
                        // linked list this just works.
                        var polygonIndex = edge1.PlaneIndices[planeIndex1];

                        ingoing.PolygonIndex = polygonIndex;
                        outgoing.PolygonIndex = polygonIndex;

                        var polygon = polygons[polygonIndex];
                        polygon.FirstIndex = outgoingIndex;
                        polygon.Bounds.Add(vertex);
                    }
                }

                // Add the intersection point to the area of our bounding box
                bounds.Add(vertex);
            }

            return new CSGMesh(planes, polygons, edges, vertices, bounds);
        }
Esempio n. 5
0
        // Combines multiple meshes into one
        #region Combine
        public static CSGMesh Combine(Vector3 offset, IDictionary <CSGNode, CSGMesh> brushMeshes)
        {
            var planeLookup  = new Dictionary <Plane, short>();
            var vertexLookup = new Dictionary <Vector3, short>();

            var planes   = new List <Plane>();
            var polygons = new List <Polygon>();
            var edges    = new List <HalfEdge>();
            var vertices = new List <Vector3>();

            var bounds = new AABBi();

            bounds.Clear();
            int edgeIndex    = 0;
            int polygonIndex = 0;

            foreach (var item in brushMeshes)
            {
                var node        = item.Key;
                var translation = node.Translation - offset;
                var mesh        = item.Value;
                foreach (var edge in mesh.Edges)
                {
                    short vertexIndex;
                    var   vertex = mesh.Vertices[edge.VertexIndex] + translation;
                    if (!vertexLookup.TryGetValue(vertex, out vertexIndex))
                    {
                        vertexIndex = (short)vertices.Count;
                        vertices.Add(vertex);
                        vertexLookup.Add(vertex, vertexIndex);
                    }

                    var newEdge = new HalfEdge();
                    newEdge.VertexIndex  = vertexIndex;
                    newEdge.NextIndex    = (short)(edge.NextIndex + edgeIndex);
                    newEdge.TwinIndex    = (short)(edge.TwinIndex + edgeIndex);
                    newEdge.PolygonIndex = (short)(edge.PolygonIndex + polygonIndex);

                    edges.Add(newEdge);
                }

                foreach (var polygon in mesh.Polygons)
                {
                    if (polygon.FirstIndex == -1)
                    {
                        continue;
                    }
                    short planeIndex;
                    var   plane = mesh.Planes[polygon.PlaneIndex];
                    if (!planeLookup.TryGetValue(plane, out planeIndex))
                    {
                        planeIndex = (short)planes.Count;
                        planes.Add(plane);
                        planeLookup.Add(plane, planeIndex);
                    }

                    var newPolygon = new Polygon();
                    newPolygon.PlaneIndex = planeIndex;
                    newPolygon.FirstIndex = (short)(polygon.FirstIndex + edgeIndex);
                    newPolygon.Category   = polygon.Category;
                    newPolygon.Visible    = polygon.Visible;
                    newPolygon.Bounds.Set(polygon.Bounds, translation);

                    polygons.Add(newPolygon);

                    if (newPolygon.Visible)
                    {
                        var first    = edges[newPolygon.FirstIndex];
                        var iterator = first;
                        do
                        {
                            bounds.Add(vertices[iterator.VertexIndex]);
                            iterator = edges[iterator.NextIndex];
                        } while (iterator != first);
                    }
                }
                edgeIndex    = edges.Count;
                polygonIndex = polygons.Count;
            }
            return(new CSGMesh(planes.ToArray(), polygons, edges, vertices, bounds));
        }
Esempio n. 6
0
        // Intersects a mesh with a brush (set of planes)
        #region Intersect
        public void Intersect(AABBi cuttingNodeBounds,
                              Plane[] cuttingNodePlanes,
                              Vector3 cuttingNodeTranslation,
                              Vector3 inputPolygonTranslation,

                              List <Polygon> inputPolygons,
                              List <Polygon> inside,
                              List <Polygon> aligned,
                              List <Polygon> revAligned,
                              List <Polygon> outside)
        {
            var categories       = new PolygonSplitResult[cuttingNodePlanes.Length];
            var translatedPlanes = new Plane[cuttingNodePlanes.Length];
            var translation      = cuttingNodeTranslation - inputPolygonTranslation;

            // translate the planes we cut our polygons with so that they're located at the same
            // relative distance from the polygons as the brushes are from each other.
            for (int i = 0; i < cuttingNodePlanes.Length; i++)
            {
                translatedPlanes[i] = Plane.Translated(cuttingNodePlanes[i], translation);
            }

            var vertices = this.Vertices;
            var edges    = this.Edges;
            var planes   = this.Planes;

            for (int i = inputPolygons.Count - 1; i >= 0; i--)
            {
                var inputPolygon = inputPolygons[i];
                if (inputPolygon.FirstIndex == -1)
                {
                    continue;
                }

                var bounds      = inputPolygon.Bounds;
                var finalResult = PolygonSplitResult.CompletelyInside;

                // A quick check if the polygon lies outside the planes we're cutting our polygons with.
                if (!AABBi.IsOutside(cuttingNodeBounds, translation, bounds))
                {
                    PolygonSplitResult intermediateResult;
                    Polygon            outsidePolygon = null;
                    for (int otherIndex = 0; otherIndex < translatedPlanes.Length; otherIndex++)
                    {
                        var translatedCuttingPlane = translatedPlanes[otherIndex];

                        var side = cuttingNodePlanes[otherIndex].OnSide(bounds, -translation);
                        if (side == PlaneSideResult.Outside)
                        {
                            finalResult = PolygonSplitResult.CompletelyOutside;
                            break;      // nothing left to process, so we exit
                        }
                        else
                        if (side == PlaneSideResult.Inside)
                        {
                            continue;
                        }

                        var polygon = inputPolygon;
                        intermediateResult = PolygonSplit(translatedCuttingPlane, inputPolygonTranslation, ref polygon, out outsidePolygon);
                        inputPolygon       = polygon;

                        if (intermediateResult == PolygonSplitResult.CompletelyOutside)
                        {
                            finalResult = PolygonSplitResult.CompletelyOutside;
                            break;      // nothing left to process, so we exit
                        }
                        else
                        if (intermediateResult == PolygonSplitResult.Split)
                        {
                            if (outside != null)
                            {
                                outside.Add(outsidePolygon);
                            }
                            // Note: left over is still completely inside,
                            //		 or plane (opposite) aligned
                        }
                        else
                        if (intermediateResult != PolygonSplitResult.CompletelyInside)
                        {
                            finalResult = intermediateResult;
                        }
                    }
                }
                else
                {
                    finalResult = PolygonSplitResult.CompletelyOutside;
                }

                switch (finalResult)
                {
                case PolygonSplitResult.CompletelyInside: inside.Add(inputPolygon); break;

                case PolygonSplitResult.CompletelyOutside: outside.Add(inputPolygon); break;

                // The polygon can only be visible if it's part of the last brush that shares it's surface area,
                // otherwise we'd get overlapping polygons if two brushes overlap.
                // When the (final) polygon is aligned with one of the cutting planes, we know it lies on the surface of
                // the CSG node we're cutting the polygons with. We also know that this node is not the node this polygon belongs to
                // because we've done that check earlier on. So we flag this polygon as being invisible.
                case PolygonSplitResult.PlaneAligned: inputPolygon.Visible = false; aligned.Add(inputPolygon); break;

                case PolygonSplitResult.PlaneOppositeAligned: inputPolygon.Visible = false; revAligned.Add(inputPolygon); break;
                }
            }
        }
Esempio n. 7
0
        // Splits a polygon into two pieces, or categorizes it as outside, inside or aligned
        #region PolygonSplit
        // Note: This method is not optimized! Code is simplified for clarity!
        //		  for example: Plane.Distance / Plane.OnSide should be inlined manually and shouldn't use enums, but floating point values directly!
        public PolygonSplitResult PolygonSplit(Plane cuttingPlane, Vector3 translation, ref Polygon inputPolygon, out Polygon outsidePolygon)
        {
            HalfEdge prev      = Edges[inputPolygon.FirstIndex];
            HalfEdge current   = Edges[prev.NextIndex];
            HalfEdge next      = Edges[current.NextIndex];
            HalfEdge last      = next;
            HalfEdge enterEdge = null;
            HalfEdge exitEdge  = null;

            var prevVertex   = Vertices[prev.VertexIndex];
            var prevDistance = cuttingPlane.SignedDistance(prevVertex);         // distance to previous vertex
            var prevSide     = Plane.OnSide(prevDistance);                      // side of plane of previous vertex

            var currentVertex   = Vertices[current.VertexIndex];
            var currentDistance = cuttingPlane.SignedDistance(currentVertex);   // distance to current vertex
            var currentSide     = Plane.OnSide(currentDistance);                // side of plane of current vertex

            do
            {
                var nextVertex   = Vertices[next.VertexIndex];
                var nextDistance = cuttingPlane.SignedDistance(nextVertex);     // distance to next vertex
                var nextSide     = Plane.OnSide(nextDistance);                  // side of plane of next vertex

                if (prevSide != currentSide)                                    // check if edge crossed the plane ...
                {
                    if (currentSide != PlaneSideResult.Intersects)              // prev:inside/outside - current:inside/outside - next:??
                    {
                        if (prevSide != PlaneSideResult.Intersects)             // prev:inside/outside - current:outside        - next:??
                        {
                            // Calculate intersection of edge with plane split the edge into two, inserting the new vertex
                            var newVertex = Plane.Intersection(prevVertex, currentVertex, prevDistance, currentDistance);
                            var newEdge   = EdgeSplit(current, newVertex);

                            if (prevSide == PlaneSideResult.Inside)             // prev:inside         - current:outside        - next:??
                            {
                                //edge01 exits:
                                //
                                //      outside
                                //         1
                                //         *
                                // ......./........ intersect
                                //       /
                                //      0
                                //      inside

                                exitEdge = current;
                            }
                            else
                            if (prevSide == PlaneSideResult.Outside)                    // prev:outside - current:inside - next:??
                            {
                                //edge01 enters:
                                //
                                //      outside
                                //      0
                                //       \ 
                                // .......\........ intersect
                                //         *
                                //         1
                                //      inside

                                enterEdge = current;
                            }

                            prevDistance = 0;
                            prev         = Edges[prev.NextIndex];
                            prevSide     = PlaneSideResult.Intersects;

                            if (exitEdge != null &&
                                enterEdge != null)
                            {
                                break;
                            }

                            current       = Edges[prev.NextIndex];
                            currentVertex = Vertices[current.VertexIndex];

                            next       = Edges[current.NextIndex];
                            nextVertex = Vertices[next.VertexIndex];
                        }
                    }
                    else                                                // prev:??                - current:intersects - next:??
                    {
                        if (prevSide == PlaneSideResult.Intersects ||   // prev:intersects        - current:intersects - next:??
                            nextSide == PlaneSideResult.Intersects ||   // prev:??                - current:intersects - next:intersects
                            prevSide == nextSide)                       // prev:inside/outde      - current:intersects - next:inside/outde
                        {
                            if (prevSide == PlaneSideResult.Inside ||   // prev:inside            - current:intersects - next:intersects/inside
                                nextSide == PlaneSideResult.Inside)     // prev:intersects/inside - current:intersects - next:inside
                            {
                                //      outside
                                // 0       1
                                // --------*....... intersect
                                //          \
                                //           2
                                //       inside
                                //
                                //      outside
                                //         1      2
                                // ........*------- intersect
                                //        /
                                //       0
                                //      inside
                                //
                                //     outside
                                //        1
                                //........*....... intersect
                                //       / \
                                //      0   2
                                //      inside
                                //

                                prevSide  = PlaneSideResult.Inside;
                                enterEdge = exitEdge = null;
                                break;
                            }
                            else
                            if (prevSide == PlaneSideResult.Outside ||                  // prev:outside            - current:intersects - next:intersects/outside
                                nextSide == PlaneSideResult.Outside)                    // prev:intersects/outside - current:intersects - next:outside
                            {
                                //     outside
                                //          2
                                //         /
                                //..------*....... intersect
                                //  0     1
                                //     inside
                                //
                                //     outside
                                //      0
                                //       \ 
                                //........*------- intersect
                                //        1      2
                                //     inside
                                //
                                //     outside
                                //      0   2
                                //       \ /
                                //........*....... intersect
                                //        1
                                //     inside
                                //

                                prevSide  = PlaneSideResult.Outside;
                                enterEdge = exitEdge = null;
                                break;
                            }
                        }
                        else                                                    // prev:inside/outside - current:intersects - next:inside/outside
                        {
                            if (prevSide == PlaneSideResult.Inside)             // prev:inside         - current:intersects - next:outside
                            {
                                //find exit edge:
                                //
                                //      outside
                                //           2
                                //        1 /
                                // ........*....... intersect
                                //        /
                                //       0
                                //       inside

                                exitEdge = current;
                                if (enterEdge != null)
                                {
                                    break;
                                }
                            }
                            else                                                                                // prev:outside        - current:intersects - next:inside
                            {
                                //find enter edge:
                                //
                                //      outside
                                //       0
                                //        \ 1
                                // ........*....... intersect
                                //          \
                                //           2
                                //       inside

                                enterEdge = current;
                                if (exitEdge != null)
                                {
                                    break;
                                }
                            }
                        }
                    }
                }

                prev    = current;
                current = next;
                next    = Edges[next.NextIndex];

                prevDistance    = currentDistance;
                currentDistance = nextDistance;
                prevSide        = currentSide;
                currentSide     = nextSide;
                prevVertex      = currentVertex;
                currentVertex   = nextVertex;
            } while (next != last);

            // We should never have only one edge crossing the plane ..
            Debug.Assert((enterEdge == null) == (exitEdge == null));

            // Check if we have an edge that exits and an edge that enters the plane and split the polygon into two if we do
            if (enterEdge != null && exitEdge != null)
            {
                //enter   .
                //        .
                //  =====>*----->
                //        .
                //
                //outside . inside
                //        .
                //  <-----*<=====
                //        .
                //        .  exit

                outsidePolygon = new Polygon();
                var outsidePolygonIndex = (short)this.Polygons.Count;
                this.Polygons.Add(outsidePolygon);

                var outsideEdge      = new HalfEdge();
                var outsideEdgeIndex = (short)Edges.Count;

                var insideEdge      = new HalfEdge();
                var insideEdgeIndex = (short)(outsideEdgeIndex + 1);

                outsideEdge.TwinIndex = insideEdgeIndex;
                insideEdge.TwinIndex  = outsideEdgeIndex;

                //insideEdge.PolygonIndex	= inputPolygonIndex;// index does not change
                outsideEdge.PolygonIndex = outsidePolygonIndex;

                outsideEdge.VertexIndex = exitEdge.VertexIndex;
                insideEdge.VertexIndex  = enterEdge.VertexIndex;

                outsideEdge.NextIndex = exitEdge.NextIndex;
                insideEdge.NextIndex  = enterEdge.NextIndex;

                exitEdge.NextIndex  = insideEdgeIndex;
                enterEdge.NextIndex = outsideEdgeIndex;

                outsidePolygon.FirstIndex = outsideEdgeIndex;
                inputPolygon.FirstIndex   = insideEdgeIndex;

                outsidePolygon.Visible    = inputPolygon.Visible;
                outsidePolygon.Category   = inputPolygon.Category;
                outsidePolygon.PlaneIndex = inputPolygon.PlaneIndex;

                Edges.Add(outsideEdge);
                Edges.Add(insideEdge);


                // calculate the bounds of the polygons
                outsidePolygon.Bounds.Clear();
                var first    = Edges[outsidePolygon.FirstIndex];
                var iterator = first;
                do
                {
                    outsidePolygon.Bounds.Add(Vertices[iterator.VertexIndex]);
                    iterator.PolygonIndex = outsidePolygonIndex;
                    iterator = Edges[iterator.NextIndex];
                } while (iterator != first);

                inputPolygon.Bounds.Clear();
                first    = Edges[inputPolygon.FirstIndex];
                iterator = first;
                do
                {
                    inputPolygon.Bounds.Add(Vertices[iterator.VertexIndex]);
                    iterator = Edges[iterator.NextIndex];
                } while (iterator != first);

                return(PolygonSplitResult.Split);
            }
            else
            {
                outsidePolygon = null;
                switch (prevSide)
                {
                case PlaneSideResult.Inside: return(PolygonSplitResult.CompletelyInside);

                case PlaneSideResult.Outside: return(PolygonSplitResult.CompletelyOutside);

                default:
                case PlaneSideResult.Intersects:
                {
                    var polygonPlane = Planes[inputPolygon.PlaneIndex];
                    var result       = Vector3.Dot(polygonPlane.Normal, cuttingPlane.Normal);
                    if (result > 0)
                    {
                        return(PolygonSplitResult.PlaneAligned);
                    }
                    else
                    {
                        return(PolygonSplitResult.PlaneOppositeAligned);
                    }
                }
                }
            }
        }
Esempio n. 8
0
        public static CSGMesh CreateFromPlanes(Plane[] brushPlanes)
        {
            var planes = new Plane[brushPlanes.Length];

            for (int i = 0; i < brushPlanes.Length; i++)
            {
                var plane = brushPlanes[i];
                planes[i] = new Plane(plane.A, plane.B, plane.C, plane.D);
            }

            var pointIntersections = new List <PointIntersection>(planes.Length * planes.Length);
            var intersectingPlanes = new List <short>();
            var vertices           = new List <Vector3>();
            var edges = new List <HalfEdge>();

            // Find all point intersections where 3 (or more planes) intersect
            for (short planeIndex1 = 0; planeIndex1 < planes.Length - 2; planeIndex1++)
            {
                var plane1 = planes[planeIndex1];
                for (short planeIndex2 = (short)(planeIndex1 + 1); planeIndex2 < planes.Length - 1; planeIndex2++)
                {
                    var plane2 = planes[planeIndex2];
                    for (short planeIndex3 = (short)(planeIndex2 + 1); planeIndex3 < planes.Length; planeIndex3++)
                    {
                        var plane3 = planes[planeIndex3];

                        // Calculate the intersection
                        var vertex = Plane.Intersection(plane1, plane2, plane3);

                        // Check if the intersection is valid
                        if (float.IsNaN(vertex.X) || float.IsNaN(vertex.Y) || float.IsNaN(vertex.Z) ||
                            float.IsInfinity(vertex.X) || float.IsInfinity(vertex.Y) || float.IsInfinity(vertex.Z))
                        {
                            continue;
                        }

                        intersectingPlanes.Clear();
                        intersectingPlanes.Add(planeIndex1);
                        intersectingPlanes.Add(planeIndex2);
                        intersectingPlanes.Add(planeIndex3);

                        for (short planeIndex4 = 0; planeIndex4 < planes.Length; planeIndex4++)
                        {
                            if (planeIndex4 == planeIndex1 ||
                                planeIndex4 == planeIndex2 ||
                                planeIndex4 == planeIndex3)
                            {
                                continue;
                            }

                            var plane4 = planes[planeIndex4];
                            var side   = plane4.OnSide(vertex);
                            if (side == PlaneSideResult.Intersects)
                            {
                                if (planeIndex4 < planeIndex3)
                                {
                                    // Already found this vertex
                                    goto SkipIntersection;
                                }

                                // We've found another plane which goes trough our found intersection point
                                intersectingPlanes.Add(planeIndex4);
                            }
                            else
                            if (side == PlaneSideResult.Outside)
                            {
                                // Intersection is outside of brush
                                goto SkipIntersection;
                            }
                        }

                        var vertexIndex = (short)vertices.Count;
                        vertices.Add(vertex);

                        // Add intersection point to our list
                        pointIntersections.Add(new PointIntersection(vertexIndex, intersectingPlanes));

SkipIntersection:
                        ;
                    }
                }
            }

            var foundPlanes = new short[2];

            // Find all our intersection edges which are formed by a pair of planes
            // (this could probably be done inside the previous loop)
            for (int i = 0; i < pointIntersections.Count; i++)
            {
                var pointIntersectionA = pointIntersections[i];
                for (int j = i + 1; j < pointIntersections.Count; j++)
                {
                    var pointIntersectionB = pointIntersections[j];
                    var planesIndicesA     = pointIntersectionA.PlaneIndices;
                    var planesIndicesB     = pointIntersectionB.PlaneIndices;

                    short foundPlaneIndex = 0;
                    foreach (var currentPlaneIndex in planesIndicesA)
                    {
                        if (!planesIndicesB.Contains(currentPlaneIndex))
                        {
                            continue;
                        }

                        foundPlanes[foundPlaneIndex] = currentPlaneIndex;
                        foundPlaneIndex++;

                        if (foundPlaneIndex == 2)
                        {
                            break;
                        }
                    }

                    // If foundPlaneIndex is 0 or 1 then either this combination does not exist,
                    // or only goes trough one point
                    if (foundPlaneIndex < 2)
                    {
                        continue;
                    }

                    // Create our found intersection edge
                    var halfEdgeA      = new HalfEdge();
                    var halfEdgeAIndex = (short)edges.Count;
                    edges.Add(halfEdgeA);

                    var halfEdgeB      = new HalfEdge();
                    var halfEdgeBIndex = (short)edges.Count;
                    edges.Add(halfEdgeB);

                    halfEdgeA.TwinIndex = halfEdgeBIndex;
                    halfEdgeB.TwinIndex = halfEdgeAIndex;

                    halfEdgeA.VertexIndex = pointIntersectionA.VertexIndex;
                    halfEdgeB.VertexIndex = pointIntersectionB.VertexIndex;

                    // Add it to our points
                    pointIntersectionA.Edges.Add(new EdgeIntersection(
                                                     halfEdgeA,
                                                     foundPlanes[0],
                                                     foundPlanes[1]));
                    pointIntersectionB.Edges.Add(new EdgeIntersection(
                                                     halfEdgeB,
                                                     foundPlanes[0],
                                                     foundPlanes[1]));
                }
            }


            var polygons = new List <Polygon>();

            for (short i = 0; i < (short)planes.Length; i++)
            {
                var polygon = new Polygon();
                polygon.PlaneIndex = i;
                polygons.Add(polygon);
            }

            var bounds    = new AABBi();
            var direction = new Vector3();

            for (int i = pointIntersections.Count - 1; i >= 0; i--)
            {
                var pointIntersection = pointIntersections[i];
                var pointEdges        = pointIntersection.Edges;

                // Make sure that we have at least 2 edges ...
                // This may happen when a plane only intersects at a single edge.
                if (pointEdges.Count <= 2)
                {
                    pointIntersections.RemoveAt(i);
                    continue;
                }

                var vertexIndex = pointIntersection.VertexIndex;
                var vertex      = vertices[vertexIndex];

                for (int j = 0; j < pointEdges.Count - 1; j++)
                {
                    var edge1 = pointEdges[j];
                    for (int k = j + 1; k < pointEdges.Count; k++)
                    {
                        var edge2 = pointEdges[k];

                        int planeIndex1 = -1;
                        int planeIndex2 = -1;

                        // Determine if and which of our 2 planes are identical
                        if (edge1.PlaneIndices[0] == edge2.PlaneIndices[0])
                        {
                            planeIndex1 = 0; planeIndex2 = 0;
                        }
                        else
                        if (edge1.PlaneIndices[0] == edge2.PlaneIndices[1])
                        {
                            planeIndex1 = 0; planeIndex2 = 1;
                        }
                        else
                        if (edge1.PlaneIndices[1] == edge2.PlaneIndices[0])
                        {
                            planeIndex1 = 1; planeIndex2 = 0;
                        }
                        else
                        if (edge1.PlaneIndices[1] == edge2.PlaneIndices[1])
                        {
                            planeIndex1 = 1; planeIndex2 = 1;
                        }
                        else
                        {
                            continue;
                        }

                        HalfEdge ingoing;
                        HalfEdge outgoing;
                        short    outgoingIndex;

                        var shared_plane = planes[edge1.PlaneIndices[planeIndex1]];
                        var edge1_plane  = planes[edge1.PlaneIndices[1 - planeIndex1]];
                        var edge2_plane  = planes[edge2.PlaneIndices[1 - planeIndex2]];

                        direction = Vector3.Cross(shared_plane.Normal, edge1_plane.Normal);

                        // Determine the orientation of our two edges to determine
                        // which edge is in-going, and which one is out-going
                        if (Vector3.Dot(direction, edge2_plane.Normal) < 0)
                        {
                            ingoing       = edge2.Edge;
                            outgoingIndex = edge1.Edge.TwinIndex;
                            outgoing      = edges[outgoingIndex];
                        }
                        else
                        {
                            ingoing       = edge1.Edge;
                            outgoingIndex = edge2.Edge.TwinIndex;
                            outgoing      = edges[outgoingIndex];
                        }


                        // Link the out-going half-edge to the in-going half-edge
                        ingoing.NextIndex = outgoingIndex;


                        // Add reference to polygon to half-edge, and make sure our
                        // polygon has a reference to a half-edge
                        // Since a half-edge, in this case, serves as a circular
                        // linked list this just works.
                        var polygonIndex = edge1.PlaneIndices[planeIndex1];

                        ingoing.PolygonIndex  = polygonIndex;
                        outgoing.PolygonIndex = polygonIndex;

                        var polygon = polygons[polygonIndex];
                        polygon.FirstIndex = outgoingIndex;
                        polygon.Bounds.Add(vertex);
                    }
                }

                // Add the intersection point to the area of our bounding box
                bounds.Add(vertex);
            }

            return(new CSGMesh(planes, polygons, edges, vertices, bounds));
        }