/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2006 Robert Osfield * * This library is open source and may be redistributed and/or modified under * the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or * (at your option) any later version. The full license is in LICENSE file * included with this distribution, and on the openscenegraph.org website. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * OpenSceneGraph Public License for more details. */ #ifndef OSGTERRAIN_TERRAINTILE #define OSGTERRAIN_TERRAINTILE 1 #include #include #include #include #include namespace osgTerrain { class Terrain; class TileID { public: TileID(): layer(-1), x(-1), y(-1) {} TileID(int in_layer, int in_x, int in_y): layer(in_layer), x(in_x), y(in_y) {} bool operator == (const TileID& rhs) const { return (layer==rhs.layer) && (x==rhs.x) && (y==rhs.y); } bool operator != (const TileID& rhs) const { return (layer!=rhs.layer) || (x!=rhs.x) || (y!=rhs.y); } bool operator < (const TileID& rhs) const { if (layerrhs.layer) return false; if (xrhs.x) return false; return y=0; } int layer; int x; int y; }; /** Terrain provides a framework for loosely coupling height field data with height rendering algorithms. * This allows TerrainTechnique's to be plugged in at runtime.*/ class OSGTERRAIN_EXPORT TerrainTile : public osg::Group { public: TerrainTile(); /** Copy constructor using CopyOp to manage deep vs shallow copy.*/ TerrainTile(const TerrainTile&,const osg::CopyOp& copyop=osg::CopyOp::SHALLOW_COPY); META_Node(osgTerrain, TerrainTile); virtual void traverse(osg::NodeVisitor& nv); /** Call init on any attached TerrainTechnique.*/ void init(); /** Set the Terrain that this Terrain tile is a member of.*/ void setTerrain(Terrain* ts); /** Get the Terrain that this Terrain tile is a member of.*/ Terrain* getTerrain() { return _terrain; } /** Get the const Terrain that this Terrain tile is a member of.*/ const Terrain* getTerrain() const { return _terrain; } /** Set the TileID (layer, x,y) of the TerrainTile. * The TileID is used so it can be located by its neighbours * via the enclosing Terrain node that manages a map of TileID to TerraiTiles.*/ void setTileID(const TileID& tileID); /** Get the TileID (layer, x,y) of the TerrainTile.*/ const TileID& getTileID() const { return _tileID; } /** Set the TerrainTechnique*/ void setTerrainTechnique(TerrainTechnique* TerrainTechnique); /** Get the TerrainTechnique*/ TerrainTechnique* getTerrainTechnique() { return _terrainTechnique.get(); } /** Get the const TerrainTechnique*/ const TerrainTechnique* getTerrainTechnique() const { return _terrainTechnique.get(); } /** Set the coordinate frame locator of the terrain node. * The locator takes non-dimensional s,t coordinates into the X,Y,Z world coords and back.*/ void setLocator(Locator* locator) { _locator = locator; } /** Get the coordinate frame locator of the terrain node.*/ Locator* getLocator() { return _locator.get(); } /** Get the coordinate frame locator of the terrain node.*/ const Locator* getLocator() const { return _locator.get(); } /** Set the layer to use to define the elevations of the terrain.*/ void setElevationLayer(Layer* layer); /** Get the layer to use to define the elevations of the terrain.*/ Layer* getElevationLayer() { return _elevationLayer.get(); } /** Get the const layer to use to define the elevations of the terrain.*/ const Layer* getElevationLayer() const { return _elevationLayer.get(); } /** Set a color layer with specified layer number.*/ void setColorLayer(unsigned int i, Layer* layer); /** Get color layer with specified layer number.*/ Layer* getColorLayer(unsigned int i) { return i<_colorLayers.size() ? _colorLayers[i].get() : 0; } /** Set const color layer with specified layer number.*/ const Layer* getColorLayer(unsigned int i) const { return i<_colorLayers.size() ? _colorLayers[i].get() : 0; } /** Get the number of colour layers.*/ unsigned int getNumColorLayers() const { return _colorLayers.size(); } /** Set hint to whether the TerrainTechnique should create per vertex normals for lighting purposes.*/ void setRequiresNormals(bool flag) { _requiresNormals = flag; } /** Get whether the TerrainTechnique should create per vertex normals for lighting purposes.*/ bool getRequiresNormals() const { return _requiresNormals; } /** Set the hint to whether the TerrainTechnique should treat the invalid Layer entries that at are neigbours to valid entries with the default value.*/ void setTreatBoundariesToValidDataAsDefaultValue(bool flag) { _treatBoundariesToValidDataAsDefaultValue = flag; } /** Get whether the TeatBoundariesToValidDataAsDefaultValue hint.*/ bool getTreatBoundariesToValidDataAsDefaultValue() const { return _treatBoundariesToValidDataAsDefaultValue; } /** Compute the bounding volume of the terrain by computing the union of the bounding volumes of all layers.*/ virtual osg::BoundingSphere computeBound() const; protected: virtual ~TerrainTile(); typedef std::vector< osg::ref_ptr > Layers; friend class Terrain; Terrain* _terrain; bool _hasBeenTraversal; TileID _tileID; osg::ref_ptr _terrainTechnique; osg::ref_ptr _locator; osg::ref_ptr _elevationLayer; Layers _colorLayers; bool _requiresNormals; bool _treatBoundariesToValidDataAsDefaultValue; }; } #endif