public virtual HeightfieldLayerSet buildLayers(InputGeom geom, RecastBuilderConfig cfg) { Context ctx = new Context(); CompactHeightfield chf = buildCompactHeightfield(geom, cfg, ctx); return(RecastLayers.buildHeightfieldLayers(ctx, chf, cfg.borderSize, cfg.cfg.walkableHeight)); }
public virtual RecastBuilderResult build(InputGeom geom, RecastBuilderConfig bcfg) { RecastConfig cfg = bcfg.cfg; Context ctx = new Context(); CompactHeightfield chf = buildCompactHeightfield(geom, bcfg, ctx); // Partition the heightfield so that we can use simple algorithm later // to triangulate the walkable areas. // There are 3 martitioning methods, each with some pros and cons: // 1) Watershed partitioning // - the classic Recast partitioning // - creates the nicest tessellation // - usually slowest // - partitions the heightfield into nice regions without holes or // overlaps // - the are some corner cases where this method creates produces holes // and overlaps // - holes may appear when a small obstacles is close to large open area // (triangulation can handle this) // - overlaps may occur if you have narrow spiral corridors (i.e // stairs), this make triangulation to fail // * generally the best choice if you precompute the nacmesh, use this // if you have large open areas // 2) Monotone partioning // - fastest // - partitions the heightfield into regions without holes and overlaps // (guaranteed) // - creates long thin polygons, which sometimes causes paths with // detours // * use this if you want fast navmesh generation // 3) Layer partitoining // - quite fast // - partitions the heighfield into non-overlapping regions // - relies on the triangulation code to cope with holes (thus slower // than monotone partitioning) // - produces better triangles than monotone partitioning // - does not have the corner cases of watershed partitioning // - can be slow and create a bit ugly tessellation (still better than // monotone) // if you have large open areas with small obstacles (not a problem if // you use tiles) // * good choice to use for tiled navmesh with medium and small sized // tiles if (cfg.partitionType == PartitionType.WATERSHED) { // Prepare for region partitioning, by calculating distance field // along the walkable surface. RecastRegion.buildDistanceField(ctx, chf); // Partition the walkable surface into simple regions without holes. RecastRegion.buildRegions(ctx, chf, bcfg.borderSize, cfg.minRegionArea, cfg.mergeRegionArea); } else if (cfg.partitionType == PartitionType.MONOTONE) { // Partition the walkable surface into simple regions without holes. // Monotone partitioning does not need distancefield. RecastRegion.buildRegionsMonotone(ctx, chf, bcfg.borderSize, cfg.minRegionArea, cfg.mergeRegionArea); } else { // Partition the walkable surface into simple regions without holes. RecastRegion.buildLayerRegions(ctx, chf, bcfg.borderSize, cfg.minRegionArea); } // // Step 5. Trace and simplify region contours. // // Create contours. ContourSet cset = RecastContour.buildContours(ctx, chf, cfg.maxSimplificationError, cfg.maxEdgeLen, RecastConstants.RC_CONTOUR_TESS_WALL_EDGES); // // Step 6. Build polygons mesh from contours. // PolyMesh pmesh = RecastMesh.buildPolyMesh(ctx, cset, cfg.maxVertsPerPoly); // // Step 7. Create detail mesh which allows to access approximate height // on each polygon. // PolyMeshDetail dmesh = RecastMeshDetail.buildPolyMeshDetail(ctx, pmesh, chf, cfg.detailSampleDist, cfg.detailSampleMaxError); return(new RecastBuilderResult(this, pmesh, dmesh)); }
private CompactHeightfield buildCompactHeightfield(InputGeom geom, RecastBuilderConfig bcfg, Context ctx) { RecastConfig cfg = bcfg.cfg; // // Step 2. Rasterize input polygon soup. // // Allocate voxel heightfield where we rasterize our input data to. Heightfield solid = new Heightfield(bcfg.width, bcfg.height, bcfg.bmin, bcfg.bmax, cfg.cs, cfg.ch); // Allocate array that can hold triangle area types. // If you have multiple meshes you need to process, allocate // and array which can hold the max number of triangles you need to // process. // Find triangles which are walkable based on their slope and rasterize // them. // If your input data is multiple meshes, you can transform them here, // calculate // the are type for each of the meshes and rasterize them. float[] verts = geom.Verts; bool tiled = cfg.tileSize > 0; int totaltris = 0; if (tiled) { ChunkyTriMesh chunkyMesh = geom.ChunkyMesh; float[] tbmin = new float[2]; float[] tbmax = new float[2]; tbmin[0] = bcfg.bmin[0]; tbmin[1] = bcfg.bmin[2]; tbmax[0] = bcfg.bmax[0]; tbmax[1] = bcfg.bmax[2]; List <ChunkyTriMeshNode> nodes = chunkyMesh.getChunksOverlappingRect(tbmin, tbmax); foreach (ChunkyTriMeshNode node in nodes) { int[] tris = node.tris; int ntris = tris.Length / 3; totaltris += ntris; int[] m_triareas = Recast.markWalkableTriangles(ctx, cfg.walkableSlopeAngle, verts, tris, ntris); RecastRasterization.rasterizeTriangles(ctx, verts, tris, m_triareas, ntris, solid, cfg.walkableClimb); } } else { int[] tris = geom.Tris; int ntris = tris.Length / 3; int[] m_triareas = Recast.markWalkableTriangles(ctx, cfg.walkableSlopeAngle, verts, tris, ntris); totaltris = ntris; RecastRasterization.rasterizeTriangles(ctx, verts, tris, m_triareas, ntris, solid, cfg.walkableClimb); } // // Step 3. Filter walkables surfaces. // // Once all geometry is rasterized, we do initial pass of filtering to // remove unwanted overhangs caused by the conservative rasterization // as well as filter spans where the character cannot possibly stand. RecastFilter.filterLowHangingWalkableObstacles(ctx, cfg.walkableClimb, solid); RecastFilter.filterLedgeSpans(ctx, cfg.walkableHeight, cfg.walkableClimb, solid); RecastFilter.filterWalkableLowHeightSpans(ctx, cfg.walkableHeight, solid); // // Step 4. Partition walkable surface to simple regions. // // Compact the heightfield so that it is faster to handle from now on. // This will result more cache coherent data as well as the neighbours // between walkable cells will be calculated. CompactHeightfield chf = Recast.buildCompactHeightfield(ctx, cfg.walkableHeight, cfg.walkableClimb, solid); // Erode the walkable area by agent radius. RecastArea.erodeWalkableArea(ctx, cfg.walkableRadius, chf); // (Optional) Mark areas. foreach (ConvexVolume vol in geom.ConvexVolumes) { RecastArea.markConvexPolyArea(ctx, vol.verts, vol.hmin, vol.hmax, vol.area, chf); } return(chf); }