source: osgVisual/trunk/src/core/visual_core.cpp @ 197

/* -*-c++-*- osgVisual - Copyright (C) 2009-2010 Torben Dannhauer
 *
 * This library is based on OpenSceneGraph, 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.
 *
 * osgVisual requires for some proprietary modules a license from the correspondig manufacturer.
 * You have to aquire licenses for all used proprietary modules.
 * 
 * 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.
*/


#include <visual_core.h>

using namespace osgVisual;

visual_core::visual_core(osg::ArgumentParser& arguments_) : arguments(arguments_)
{
        OSG_NOTIFY( osg::ALWAYS ) << "visual_core instantiated." << std::endl;
}

visual_core::~visual_core(void)
{
        OSG_NOTIFY( osg::ALWAYS ) << "visual_core destroyed." << std::endl;
}

void visual_core::initialize()
{
        OSG_NOTIFY( osg::ALWAYS ) << "Initialize visual_core..." << std::endl;

        // Check for config file to provide it to all modules during initialization.
        if( arguments.read("-c", configFilename) || arguments.read("--config", configFilename) )
        {
                if( !osgDB::fileExists(configFilename) )
                        configFilename = "";
                else
                        OSG_ALWAYS << "Using configuration file: " << configFilename << std::endl;
        }

        // Configure osg to use KdTrees
        osgDB::Registry::instance()->setBuildKdTreesHint(osgDB::ReaderWriter::Options::BUILD_KDTREES);

        // Setup pathes
        osgDB::Registry::instance()->getDataFilePathList().push_back( "D:\\DA\\osgVisual\\models" );
        
        // Setup viewer
        viewer = new osgViewer::Viewer(arguments);

        // Setup coordinate system node
        rootNode = new osg::CoordinateSystemNode;       // todo memleakf
        rootNode->setEllipsoidModel(new osg::EllipsoidModel());

        // Test memory leak (todo)
        double* test = new double[1000];

        #ifdef USE_SPACENAVIGATOR
                mouse = NULL;
        #endif

        //osg::DisplaySettings::instance()->setNumOfDatabaseThreadsHint( 8 );

        // Show model
        viewer->setSceneData( rootNode );

        osg::Group* distortedSceneGraph = NULL;
#ifdef USE_DISTORTION
        // Initialize distortion
        distortion = new visual_distortion( viewer, arguments, configFilename );
        distortedSceneGraph = distortion->initialize( rootNode, viewer->getCamera()->getClearColor() );
#endif

#ifdef USE_SKY_SILVERLINING
        // Initialize sky
        bool disabled = false;  // to ask if the skyp is disabled or enabled
        sky = new visual_skySilverLining( viewer, configFilename, disabled );
        if(disabled)
                sky = NULL;
        if(sky.valid())
                sky->init(distortedSceneGraph, rootNode);       // Without distortion: distortedSceneGraph=NULL
#endif

        // Initialize DataIO interface
        visual_dataIO::getInstance()->init(viewer, configFilename);

        // Add manipulators for user interaction - after dataIO to be able to skip it in slaves rendering machines.
        addManipulators();

        // create the windows and run the threads.
        viewer->realize();

        loadTerrain(arguments);

        // All modules are initialized - now check arguments for any unused parameter.
        checkCommandlineArgumentsForFinalErrors();

        // Run visual main loop
        mainLoop();
}

void visual_core::mainLoop()
{
        int framestoScenerySetup = 5;
        // run main loop
        while( !viewer->done() )
    {
                // setup scenery
                if(framestoScenerySetup-- == 0)
                        setupScenery();

                // next frame please....
        viewer->advance();

                /*double hat, hot, lat, lon, height;
                util::getWGS84ofCamera( viewer->getCamera(), rootNode, lat, lon, height);
                if (util::queryHeightOfTerrain( hot, rootNode, lat, lon) && util::queryHeightAboveTerrainInWGS84( hat, rootNode, lat, lon, height ) )
                        OSG_NOTIFY( osg::ALWAYS ) << "HOT is: " << hot << ", HAT is: " << hat << std::endl;*/
        
                // perform all queued events
                viewer->eventTraversal();

                // update the scene by traversing it with the the update visitor which will
        // call all node update callbacks and animations.
        viewer->updateTraversal();
                
        // Render the Frame.
        viewer->renderingTraversals();

    }   // END WHILE
}

void visual_core::shutdown()
{
        OSG_NOTIFY( osg::ALWAYS ) << "Shutdown visual_core..." << std::endl;

        // Shutdown Dbug HUD
        if(hud.valid())
                hud->shutdown();
        // Unset scene data
        viewer->setSceneData( NULL );

#ifdef USE_SKY_SILVERLINING
        // Shutdown sky
        if( sky.valid() )
                sky->shutdown();
#endif

#ifdef USE_DISTORTION
        // Shutdown distortion
        if( distortion.valid() )
                distortion->shutdown();
#endif

        // Shutdown data
        rootNode = NULL;

        // Shutdown dataIO
        visual_dataIO::getInstance()->shutdown();

        
#ifdef USE_SPACENAVIGATOR
        //Delete SpaceMouse driver
        if(mouse)
        {
                mouse->shutdown();
                delete mouse;
        }
#endif

        // Destroy osgViewer
        viewer = NULL;
}

bool visual_core::loadTerrain(osg::ArgumentParser& arguments_)
{
        osg::ref_ptr<osg::Node> model = osgDB::readNodeFiles(util::getTerrainFromXMLConfig(configFilename));
        if( model.valid() )
        {
        rootNode->addChild( model.get() );
                return true;
        }
        else
        {
        OSG_NOTIFY( osg::FATAL ) << "Load terrain: No data loaded" << std::endl;
        return false;
    }    

        return false;
}

void visual_core::addManipulators()
{
        if(!visual_dataIO::getInstance()->isSlave()) // set up the camera manipulators if not slave.
    {
        osg::ref_ptr<osgGA::KeySwitchMatrixManipulator> keyswitchManipulator = new osgGA::KeySwitchMatrixManipulator;

        keyswitchManipulator->addMatrixManipulator( '1', "Trackball", new osgGA::TrackballManipulator() );
        keyswitchManipulator->addMatrixManipulator( '2', "Flight", new osgGA::FlightManipulator() );
        keyswitchManipulator->addMatrixManipulator( '3', "Terrain", new osgGA::TerrainManipulator() );
                nt = new osgGA::NodeTrackerManipulator();
                keyswitchManipulator->addMatrixManipulator( '4', "NodeTrackerManipulator", nt );
                
#ifdef USE_SPACENAVIGATOR
                // SpaceNavigator manipulator
                mouse = new SpaceMouse();
                mouse->initialize();
                mouseTrackerManip = new NodeTrackerSpaceMouse(mouse);
                mouseTrackerManip->setTrackerMode(NodeTrackerSpaceMouse::NODE_CENTER);
                mouseTrackerManip->setRotationMode(NodeTrackerSpaceMouse::ELEVATION_AZIM);
                mouseTrackerManip->setAutoComputeHomePosition( true );
                keyswitchManipulator->addMatrixManipulator( '5', "Spacemouse Node Tracker", mouseTrackerManip );
                keyswitchManipulator->addMatrixManipulator( '6', "Spacemouse Free (Airplane)", new FreeManipulator(mouse) );
#endif

                // objectMounted Manipulator for Camera control by Nodes
                objectMountedCameraManip = new objectMountedManipulator();
                keyswitchManipulator->addMatrixManipulator( '7', "Object mounted Camera", objectMountedCameraManip );

                // Animation path manipulator
                std::string pathfile = util::getAnimationPathFromXMLConfig(configFilename);
        char keyForAnimationPath = '8';
                if( pathfile != "" )
        {
            osgGA::AnimationPathManipulator* apm = new osgGA::AnimationPathManipulator(pathfile);
            if (apm || !apm->valid()) 
            {
                unsigned int num = keyswitchManipulator->getNumMatrixManipulators();
                keyswitchManipulator->addMatrixManipulator( keyForAnimationPath, "Path", apm );
                keyswitchManipulator->selectMatrixManipulator(num);
                ++keyForAnimationPath;
            }
        }

        viewer->setCameraManipulator( keyswitchManipulator.get() );
    }   // If not Slave END

    // add the state manipulator
    viewer->addEventHandler( new osgGA::StateSetManipulator(rootNode->getOrCreateStateSet()) );
    
    // add the thread model handler
    viewer->addEventHandler(new osgViewer::ThreadingHandler);

    // add the window size toggle handler
    viewer->addEventHandler(new osgViewer::WindowSizeHandler);
        
    // add the stats handler
    viewer->addEventHandler(new osgViewer::StatsHandler);

    // add the help handler
    viewer->addEventHandler(new osgViewer::HelpHandler(arguments.getApplicationUsage()));

    // add the record camera path handler
    viewer->addEventHandler(new osgViewer::RecordCameraPathHandler);

    // add the LOD Scale handler
    viewer->addEventHandler(new osgViewer::LODScaleHandler);

    // add the screen capture handler
    viewer->addEventHandler(new osgViewer::ScreenCaptureHandler);
}

void visual_core::parseScenery(xmlNode* a_node)
{
        OSG_ALWAYS << "parseScenery()" << std::endl;

        a_node = a_node->children;

        for (xmlNode *cur_node = a_node; cur_node; cur_node = cur_node->next)
        {
                std::string node_name=reinterpret_cast<const char*>(cur_node->name);

                // terrain is parsend seperately
                // animationpath is parsend seperately

                if(cur_node->type == XML_ELEMENT_NODE && node_name == "models")
                {
                        /*
                        <models>
                          <model filename="cessna" type="plain" label="TestText!" dynamic="yes">
                                <position lat="47.12345" lon="11.234567" alt="1500.0"></position>
                                <attitude rot_x="0.0" rot_y="0.0" rot_z="0.0"></attitude>
                                <cameraoffset>
                                  <translation trans_x="0.0" trans_y="0.0" trans_z="0.0"></translation>
                                  <rotation rot_x="0.0" rot_y="0.0" rot_z="0.0"></rotation>
                                </cameraoffset>
                          </model>
                        </models>
                        */
                }

                if(cur_node->type == XML_ELEMENT_NODE && node_name == "datetime")
                {
                        int hour, minute;
                        int day=0,month=0,year=0;

                        xmlAttr  *attr = cur_node->properties;
                        while ( attr ) 
                        { 
                                std::string attr_name=reinterpret_cast<const char*>(attr->name);
                                std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
                                if( attr_name == "day" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> day;
                                }
                                if( attr_name == "month" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> month;
                                }
                                if( attr_name == "year" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> year;
                                }
                                if( attr_name == "hour" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> hour;
                                }
                                if( attr_name == "minute" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> minute;
                                }
                                attr = attr->next; 
                        }
                        if(sky.valid())
                        {
                                if(day!=0 && month!=0 && year!=0)
                                        sky->setDate(year, month, day);
                                sky->setTime(hour,minute,00);
                        }

                }

                if(cur_node->type == XML_ELEMENT_NODE && node_name == "visibility")
                {
                        float range = 50000, turbidity=2.2;
                        xmlAttr  *attr = cur_node->properties;
                        while ( attr ) 
                        { 
                                std::string attr_name=reinterpret_cast<const char*>(attr->name);
                                std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
                                if( attr_name == "range" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> range;
                                }
                                if( attr_name == "turbidity" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> turbidity;
                                }
                                attr = attr->next; 
                        }
                        if(sky.valid())
                        {
                                sky->setVisibility( range );
                                sky->setTurbidity( turbidity );
                        }
                }

                if(cur_node->type == XML_ELEMENT_NODE && node_name == "cloudlayer")
                {
                        /*
                        <cloudlayer slot="1" type="cumulusCongestus" enabled="true" fadetime="15">
                          <geometry baselength="50000" basewidth="50000" thickness="500" baseHeight="1700" density="0.3"></geometry>
                          <precipitation rate_mmPerHour_rain="5.0" rate_mmPerHour_drySnow="7.0" rate_mmPerHour_wetSnow="10.0" rate_mmPerHour_sleet="0.0"></precipitation>
                        </cloudlayer>
                        */
                }

                if(cur_node->type == XML_ELEMENT_NODE && node_name == "windlayer")
                {
                        float bottom = 0.0, top=5000.0, speed=25.0, direction=0.0;
                        xmlAttr  *attr = cur_node->properties;
                        while ( attr ) 
                        { 
                                std::string attr_name=reinterpret_cast<const char*>(attr->name);
                                std::string attr_value=reinterpret_cast<const char*>(attr->children->content);
                                if( attr_name == "bottom" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> bottom;
                                }
                                if( attr_name == "top" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> top;
                                }
                                if( attr_name == "speed" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> speed;
                                }
                                if( attr_name == "direction" )
                                {
                                        std::stringstream sstr(attr_value);
                                        sstr >> direction;
                                }
                                attr = attr->next; 
                        }
                        if(sky.valid())
                        {
                                sky->addWindVolume( bottom, top, speed, direction );
                        }
                }
        }// FOR all nodes END

}

bool visual_core::checkCommandlineArgumentsForFinalErrors()
{
        // Setup Application Usage
        arguments.getApplicationUsage()->setApplicationName(arguments.getApplicationName());
        arguments.getApplicationUsage()->setDescription(arguments.getApplicationName()+" is the new FSD visualization tool, written by Torben Dannhauer");
    arguments.getApplicationUsage()->setCommandLineUsage(arguments.getApplicationName()+" [options] Terrain_filename");
        arguments.getApplicationUsage()->addCommandLineOption("-h or --help","Display this information");

    // if user request help write it out to cout.
    if (arguments.read("-h") || arguments.read("--help"))
    {
        arguments.getApplicationUsage()->write(std::cout);
                //cause the viewer to exit and shut down clean.
        viewer->setDone(true);
    }

    // report any errors if they have occurred when parsing the program arguments.
    if (arguments.errors())
    {
        arguments.writeErrorMessages(std::cout);
                //cause the viewer to exit and shut down clean.
        viewer->setDone(true);
    }

         // any option left unread are converted into errors to write out later.
    arguments.reportRemainingOptionsAsUnrecognized();

    // report any errors if they have occurred when parsing the program arguments.
    if (arguments.errors())
    {
        arguments.writeErrorMessages(std::cout);
        return false;
    }
        return true;
}

void visual_core::setupScenery()
{
        // Parse Scenery from Configuration file
        xmlDoc* tmpDoc;
        xmlNode* sceneryNode = util::getSceneryXMLConfig(configFilename, tmpDoc);
        parseScenery(sceneryNode);
        if(sceneryNode)
        {
                xmlFreeDoc(tmpDoc); xmlCleanupParser();
        }



        // Sky settings: 
        if(sky.valid())
        {
                //sky->addCloudLayer( 0, 20000, 20000, 600.0, 1000.0, 0.5, CUMULONIMBUS_CAPPILATUS );
                //sky->addCloudLayer( 1, 5000000, 5000000, 600.0, 7351.0, 0.2, CIRRUS_FIBRATUS );
                //sky->addCloudLayer( 2, 50000, 50000, 600.0, 7351.0, 0.2, CIRROCUMULUS );
                ///sky->addCloudLayer( 2, 100000, 100000, 600.0, 2351.0, 0.75, STRATUS );
                sky->addCloudLayer( 3, 50000, 50000, 1300.0, 700.0, 0.07, CUMULUS_CONGESTUS );
                //sky->addCloudLayer( 1, 100000, 100000, 3500.0, 2000.0, 0.30, STRATOCUMULUS );

                //sky->setSlotPrecipitation( 1, 0.0, 0.0, 0.0, 25.0 );
        }


        //testObj = new visual_object( rootNode, "testStab", objectMountedCameraManip );
        //testObj->setNewPosition( osg::DegreesToRadians(47.7123), osg::DegreesToRadians(12.84088), 600 );
        ///* using a huge cylinder to test position & orientation */
        //testObj->setGeometry( util::getDemoCylinder(5000.0, 20.0 ) );
        //testObj->addUpdater( new object_updater(testObj) );

        //osg::ref_ptr<visual_object> testObj2 = new visual_object( rootNode, "neuschwanstein" );       // todo memleak
        ////testObj2->setNewPosition( osg::DegreesToRadians(47.8123), osg::DegreesToRadians(12.94088), 600 );
        //testObj2->setNewPosition( osg::DegreesToRadians(47.557523564234), osg::DegreesToRadians(10.749646398595), 950 );
        //testObj2->loadGeometry( "../models/neuschwanstein.osgb" );
        ////testObj2->addUpdater( new object_updater(testObj2) );       // todo memleak

        osg::ref_ptr<visual_object> testObj3 = new visual_object( rootNode, "SAENGER1" );       // todo memleak
        testObj3->setNewPosition( osg::DegreesToRadians(47.8123), osg::DegreesToRadians(12.94088), 600 );
        testObj3->loadGeometry( "../models/saenger1.flt" );
        testObj3->addUpdater( new object_updater(testObj3) );   // todo memleak
        

        osg::ref_ptr<visual_object> testObj4 = new visual_object( rootNode, "SAENGER2" );       // todo memleak
        testObj4->setNewPosition( osg::DegreesToRadians(47.8123), osg::DegreesToRadians(12.94088), 650 );
        testObj4->loadGeometry( "../models/saenger2.flt" );
        testObj4->addUpdater( new object_updater(testObj4) );   // todo memleak
        testObj4->addLabel("testLabel", "LabelTest!!\nnächste Zeile :)",osg::Vec4(1.0f,0.25f,1.0f,1.0f));

        osg::ref_ptr<visual_object> testObj5 = new visual_object( rootNode, "SAENGER" );        // todo memleak
        testObj5->setNewPosition( osg::DegreesToRadians(47.8123), osg::DegreesToRadians(12.94088), 550 );
        testObj5->loadGeometry( "../models/saengerCombine.flt" );
        //testObj5->setScale( 2 );
        testObj5->addUpdater( new object_updater(testObj5) );   // todo memleak

#ifdef USE_SPACENAVIGATOR
        // Manipulatoren auf dieses Objekt binden (Primärobjekt)
        if (objectMountedCameraManip.valid())
                objectMountedCameraManip->setAttachedObject( testObj4 );
        if (mouseTrackerManip.valid())
        {
                mouseTrackerManip->setTrackNode( testObj4->getGeometry() );
                mouseTrackerManip->setMinimumDistance( 100 );
        }
#endif

        if(nt.valid())
        {
                osgGA::NodeTrackerManipulator::TrackerMode trackerMode = osgGA::NodeTrackerManipulator::NODE_CENTER;
                osgGA::NodeTrackerManipulator::RotationMode rotationMode = osgGA::NodeTrackerManipulator::ELEVATION_AZIM;
                nt->setTrackerMode(trackerMode);
                nt->setRotationMode(rotationMode);
                //nt->setAutoComputeHomePosition( true );
                nt->setMinimumDistance( 100 );
                nt->setTrackNode(testObj4->getGeometry());
                //nt->computeHomePosition();
                nt->setAutoComputeHomePosition( true );
                nt->setDistance( 250 );
        }


        // Load EDDF
        //std::string filename = "D:\\DA\\EDDF_test\\eddf.ive";
        //if( !osgDB::fileExists(filename) )
        //{
        //      OSG_NOTIFY(osg::ALWAYS) << "Warning: EDDF Model not loaded. File '" << filename << "' does not exist. Skipping.";
        //}
        //// read model
        //osg::ref_ptr<osg::Node> tmpModel = osgDB::readNodeFile( filename );
        //if (tmpModel.valid())
        //      rootNode->addChild( tmpModel );
        
 
        visual_draw2D::getInstance()->init( rootNode, viewer );
        //osg::ref_ptr<visual_hud> hud = new visual_hud();
        hud = new visual_debug_hud();
        hud->init( viewer, rootNode );
        
        

        //osg::ref_ptr<visual_draw3D> test = new visual_draw3D();
        //test->init( rootNode, viewer );

        //// Creating Testclasses
        //osg::ref_ptr<osgVisual::dataIO_transportContainer> test = new osgVisual::dataIO_transportContainer();
        //osg::ref_ptr<osgVisual::dataIO_executer> testEx = new osgVisual::dataIO_executer();
        //osg::ref_ptr<osgVisual::dataIO_slot> testSlot = new osgVisual::dataIO_slot();
        //test->setFrameID( 22 );
        //test->setName("ugamoep");
        //testEx->setexecuterID( osgVisual::dataIO_executer::IS_COLLISION );
        //testSlot->setVariableName(std::string("HalloName"));
        //testSlot->setdataDirection( osgVisual::dataIO_slot::TO_OBJ );
        //testSlot->setvarType( osgVisual::dataIO_slot::DOUBLE );
        //testSlot->setValue( 0.12345 );
        //test->addExecuter( testEx );
        //test->addSlot( testSlot );

        visual_dataIO::getInstance()->setSlotData("TestSlot1", osgVisual::dataIO_slot::TO_OBJ, 0.12345);

}