#include "world.hpp"

#include <cmath>
#include <iostream>

#include <components/bsa/bsa_archive.hpp>
#include <components/files/collections.hpp>

#include "../mwbase/environment.hpp"

#include "../mwrender/sky.hpp"
#include "../mwrender/player.hpp"

#include "../mwmechanics/mechanicsmanager.hpp"

#include "../mwsound/soundmanager.hpp"

#include "../mwgui/window_manager.hpp"

#include "ptr.hpp"
#include "class.hpp"
#include "player.hpp"
#include "weather.hpp"

#include "refdata.hpp"
#include "globals.hpp"
#include "cellfunctors.hpp"

#include <OgreVector3.h>
using namespace Ogre;

namespace
{
    template<typename T>
    void listCellScripts (const ESMS::ESMStore& store,
        ESMS::CellRefList<T, MWWorld::RefData>& cellRefList, MWWorld::LocalScripts& localScripts,
        MWWorld::Ptr::CellStore *cell)
    {
        for (typename ESMS::CellRefList<T, MWWorld::RefData>::List::iterator iter (
            cellRefList.list.begin());
            iter!=cellRefList.list.end(); ++iter)
        {
            if (!iter->base->script.empty() && iter->mData.getCount())
            {
                if (const ESM::Script *script = store.scripts.find (iter->base->script))
                {
                    iter->mData.setLocals (*script);

                    localScripts.add (iter->base->script, MWWorld::Ptr (&*iter, cell));
                }
            }
        }
    }

    template<typename T>
    ESMS::LiveCellRef<T, MWWorld::RefData> *searchViaHandle (const std::string& handle,
        ESMS::CellRefList<T, MWWorld::RefData>& refList)
    {
        typedef typename ESMS::CellRefList<T, MWWorld::RefData>::List::iterator iterator;

        for (iterator iter (refList.list.begin()); iter!=refList.list.end(); ++iter)
        {
            if(iter->mData.getBaseNode()){
            if (iter->mData.getHandle()==handle)
            {
                return &*iter;
            }
            }
        }
        return 0;
    }
}

namespace MWWorld
{
    Ptr World::getPtrViaHandle (const std::string& handle, Ptr::CellStore& cell)
    {
        if (ESMS::LiveCellRef<ESM::Activator, RefData> *ref =
            searchViaHandle (handle, cell.activators))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Potion, RefData> *ref = searchViaHandle (handle, cell.potions))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Apparatus, RefData> *ref = searchViaHandle (handle, cell.appas))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Armor, RefData> *ref = searchViaHandle (handle, cell.armors))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Book, RefData> *ref = searchViaHandle (handle, cell.books))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Clothing, RefData> *ref = searchViaHandle (handle, cell.clothes))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Container, RefData> *ref =
            searchViaHandle (handle, cell.containers))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Creature, RefData> *ref =
            searchViaHandle (handle, cell.creatures))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Door, RefData> *ref = searchViaHandle (handle, cell.doors))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Ingredient, RefData> *ref =
            searchViaHandle (handle, cell.ingreds))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Light, RefData> *ref = searchViaHandle (handle, cell.lights))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Tool, RefData> *ref = searchViaHandle (handle, cell.lockpicks))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Miscellaneous, RefData> *ref = searchViaHandle (handle, cell.miscItems))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::NPC, RefData> *ref = searchViaHandle (handle, cell.npcs))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Probe, RefData> *ref = searchViaHandle (handle, cell.probes))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Repair, RefData> *ref = searchViaHandle (handle, cell.repairs))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Static, RefData> *ref = searchViaHandle (handle, cell.statics))
            return Ptr (ref, &cell);
        if (ESMS::LiveCellRef<ESM::Weapon, RefData> *ref = searchViaHandle (handle, cell.weapons))
            return Ptr (ref, &cell);
        return Ptr();
    }


    int World::getDaysPerMonth (int month) const
    {
        switch (month)
        {
            case 0: return 31;
            case 1: return 28;
            case 2: return 31;
            case 3: return 30;
            case 4: return 31;
            case 5: return 30;
            case 6: return 31;
            case 7: return 31;
            case 8: return 30;
            case 9: return 31;
            case 10: return 30;
            case 11: return 31;
        }

        throw std::runtime_error ("month out of range");
    }

    void World::adjustSky()
    {
        if (mSky && (isCellExterior() || isCellQuasiExterior()))
        {
            mRendering->skySetHour (mGlobalVariables->getFloat ("gamehour"));
            mRendering->skySetDate (mGlobalVariables->getInt ("day"),
                mGlobalVariables->getInt ("month"));

            mRendering->skyEnable();
        }
        else
            mRendering->skyDisable();
    }

    void World::setFallbackValues(std::map<std::string,std::string> fallbackMap)
    {
        mFallback = fallbackMap;
    }

    std::string World::getFallback(std::string key)
    {
        return getFallback(key, "");
    }

    std::string World::getFallback(std::string key, std::string def)
    {
        std::map<std::string,std::string>::iterator it;
        if((it = mFallback.find(key)) == mFallback.end())
        {
            return def;
        }
        return it->second;
    }

    World::World (OEngine::Render::OgreRenderer& renderer,
        const Files::Collections& fileCollections,
        const std::string& master, const boost::filesystem::path& resDir, bool newGame,
        const std::string& encoding, std::map<std::string,std::string> fallbackMap)
    : mPlayer (0), mLocalScripts (mStore), mGlobalVariables (0),
      mSky (true), mNextDynamicRecord (0), mCells (mStore, mEsm, *this),
      mNumFacing(0)
    {
        mPhysics = new PhysicsSystem(renderer);
        mPhysEngine = mPhysics->getEngine();

        mRendering = new MWRender::RenderingManager(renderer, resDir, mPhysEngine);

        mWeatherManager = new MWWorld::WeatherManager(mRendering);

        boost::filesystem::path masterPath (fileCollections.getCollection (".esm").getPath (master));

        std::cout << "Loading ESM " << masterPath.string() << "\n";

        // This parses the ESM file and loads a sample cell
        mEsm.setEncoding(encoding);
        mEsm.open (masterPath.string());
        mStore.load (mEsm);

        MWRender::Player* play = &(mRendering->getPlayer());
        mPlayer = new MWWorld::Player (play, mStore.npcs.find ("player"), *this);
        mPhysics->addActor (mPlayer->getPlayer().getRefData().getHandle(), "", Ogre::Vector3 (0, 0, 0));

        // global variables
        mGlobalVariables = new Globals (mStore);

        if (newGame)
        {
            // set new game mark
            mGlobalVariables->setInt ("chargenstate", 1);
        }

        mWorldScene = new Scene(this, *mRendering, mPhysics);

        setFallbackValues(fallbackMap);

        lastTick = mTimer.getMilliseconds();
    }


    World::~World()
    {
        delete mWeatherManager;
        delete mWorldScene;
        delete mGlobalVariables;
        delete mRendering;
        delete mPhysics;

        delete mPlayer;
    }

    const ESM::Cell *World::getExterior (const std::string& cellName) const
    {
        // first try named cells
        if (const ESM::Cell *cell = mStore.cells.searchExtByName (cellName))
            return cell;

        // didn't work -> now check for regions
        std::string cellName2 = ESMS::RecListT<ESM::Region>::toLower (cellName);

        for (ESMS::RecListT<ESM::Region>::MapType::const_iterator iter (mStore.regions.list.begin());
            iter!=mStore.regions.list.end(); ++iter)
        {
            if (ESMS::RecListT<ESM::Region>::toLower (iter->second.name)==cellName2)
            {
                if (const ESM::Cell *cell = mStore.cells.searchExtByRegion (iter->first))
                    return cell;

                break;
            }
        }

        return 0;
    }

    Ptr::CellStore *World::getExterior (int x, int y)
    {
        return mCells.getExterior (x, y);
    }

    Ptr::CellStore *World::getInterior (const std::string& name)
    {
        return mCells.getInterior (name);
    }

    MWWorld::Player& World::getPlayer()
    {
        return *mPlayer;
    }

    const ESMS::ESMStore& World::getStore() const
    {
        return mStore;
    }

    ESM::ESMReader& World::getEsmReader()
    {
        return mEsm;
    }

    LocalScripts& World::getLocalScripts()
    {
        return mLocalScripts;
    }

    bool World::hasCellChanged() const
    {
        return mWorldScene->hasCellChanged();
    }

    Globals::Data& World::getGlobalVariable (const std::string& name)
    {
        return (*mGlobalVariables)[name];
    }

    Globals::Data World::getGlobalVariable (const std::string& name) const
    {
        return (*mGlobalVariables)[name];
    }

    char World::getGlobalVariableType (const std::string& name) const
    {
        return mGlobalVariables->getType (name);
    }

    Ptr World::getPtr (const std::string& name, bool activeOnly)
    {
        // the player is always in an active cell.
        if (name=="player")
        {
            return mPlayer->getPlayer();
        }

        // active cells
        for (Scene::CellStoreCollection::const_iterator iter (mWorldScene->getActiveCells().begin());
            iter!=mWorldScene->getActiveCells().end(); ++iter)
        {
            Ptr::CellStore* cellstore = *iter;
            Ptr ptr = mCells.getPtr (name, *cellstore);

            if (!ptr.isEmpty())
                return ptr;
        }

        if (!activeOnly)
        {
            Ptr ptr = mCells.getPtr (name);

            if (!ptr.isEmpty())
                return ptr;
        }

        throw std::runtime_error ("unknown ID: " + name);
    }

    Ptr World::getPtrViaHandle (const std::string& handle)
    {
        if (mPlayer->getPlayer().getRefData().getHandle()==handle)
            return mPlayer->getPlayer();
        for (Scene::CellStoreCollection::const_iterator iter (mWorldScene->getActiveCells().begin());
            iter!=mWorldScene->getActiveCells().end(); ++iter)
        {
            Ptr::CellStore* cellstore = *iter;
            Ptr ptr = getPtrViaHandle (handle, *cellstore);

            if (!ptr.isEmpty())
                return ptr;
        }

        throw std::runtime_error ("unknown Ogre handle: " + handle);
    }

    void World::enable (Ptr reference)
    {
        if (!reference.getRefData().isEnabled())
        {
            reference.getRefData().enable();


                //render->enable (reference.getRefData().getHandle());
            if(mWorldScene->getActiveCells().find (reference.getCell()) != mWorldScene->getActiveCells().end())
                 Class::get (reference).enable (reference);


        }
    }

    void World::disable (Ptr reference)
    {
        if (reference.getRefData().isEnabled())
        {
            reference.getRefData().disable();


                //render->disable (reference.getRefData().getHandle());
            if(mWorldScene->getActiveCells().find (reference.getCell())!=mWorldScene->getActiveCells().end()){
                  Class::get (reference).disable (reference);
                  MWBase::Environment::get().getSoundManager()->stopSound3D (reference);
            }


        }
    }

    void World::advanceTime (double hours)
    {
        hours += mGlobalVariables->getFloat ("gamehour");

        setHour (hours);

        int days = hours / 24;

        if (days>0)
            mGlobalVariables->setInt ("dayspassed", days + mGlobalVariables->getInt ("dayspassed"));
    }

    void World::setHour (double hour)
    {
        if (hour<0)
            hour = 0;

        int days = hour / 24;

        hour = std::fmod (hour, 24);

        mGlobalVariables->setFloat ("gamehour", hour);

        mRendering->skySetHour (hour);

        mWeatherManager->setHour (hour);

        if (days>0)
            setDay (days + mGlobalVariables->getInt ("day"));
    }

    void World::setDay (int day)
    {
        if (day<0)
            day = 0;

        int month = mGlobalVariables->getInt ("month");

        while (true)
        {
            int days = getDaysPerMonth (month);
            if (day<days)
                break;

            if (month<11)
            {
                ++month;
            }
            else
            {
                month = 0;
                mGlobalVariables->setInt ("year", mGlobalVariables->getInt ("year")+1);
            }

            day -= days;
        }

        mGlobalVariables->setInt ("day", day);
        mGlobalVariables->setInt ("month", month);

        mRendering->skySetDate (day, month);

        mWeatherManager->setDate (day, month);


    }

    void World::setMonth (int month)
    {
        if (month<0)
            month = 0;

        int years = month / 12;
        month = month % 12;

        int days = getDaysPerMonth (month);

        if (mGlobalVariables->getInt ("day")>=days)
            mGlobalVariables->setInt ("day", days-1);

        mGlobalVariables->setInt ("month", month);

        if (years>0)
            mGlobalVariables->setInt ("year", years+mGlobalVariables->getInt ("year"));

        mRendering->skySetDate (mGlobalVariables->getInt ("day"), month);
    }

    bool World::toggleSky()
    {
        if (mSky)
        {
            mSky = false;
            mRendering->skyDisable();
            return false;
        }
        else
        {
            mSky = true;
            mRendering->skyEnable();
            return true;
        }
    }

    int World::getMasserPhase() const
    {
        return mRendering->skyGetMasserPhase();
    }

    int World::getSecundaPhase() const
    {
        return mRendering->skyGetSecundaPhase();
    }

    void World::setMoonColour (bool red)
    {
        mRendering->skySetMoonColour (red);
    }

    float World::getTimeScaleFactor() const
    {
        return mGlobalVariables->getFloat ("timescale");
    }

    void World::changeToInteriorCell (const std::string& cellName, const ESM::Position& position)
    {
        return mWorldScene->changeToInteriorCell(cellName, position);
    }

    void World::changeToExteriorCell (const ESM::Position& position)
    {
        return mWorldScene->changeToExteriorCell(position);
    }

    void World::markCellAsUnchanged()
    {
        return mWorldScene->markCellAsUnchanged();
    }

    std::string World::getFacedHandle()
    {
        if (!mRendering->occlusionQuerySupported())
        {
            std::pair<std::string, float> result = mPhysics->getFacedHandle (*this);

            if (result.first.empty() ||
                result.second>getStore().gameSettings.find ("iMaxActivateDist")->i)
                return "";

            return result.first;
        }
        else
        {
            // updated every few frames in update()
            return mFacedHandle;
        }
    }

    void World::deleteObject (Ptr ptr)
    {
        if (ptr.getRefData().getCount()>0)
        {
            ptr.getRefData().setCount (0);


                if (mWorldScene->getActiveCells().find (ptr.getCell())!=mWorldScene->getActiveCells().end()){
//                           Class::get (ptr).disable (ptr, mEnvironment); /// \todo this line needs to be removed
                            MWBase::Environment::get().getSoundManager()->stopSound3D (ptr);

                            mPhysics->removeObject (ptr.getRefData().getHandle());
                            mRendering->removeObject(ptr);

                            mLocalScripts.remove (ptr);
                }
        }
    }

    bool World::moveObjectImp (Ptr ptr, float x, float y, float z)
    {
        bool ret = false;
        ptr.getRefData().getPosition().pos[0] = x;
        ptr.getRefData().getPosition().pos[1] = y;
        ptr.getRefData().getPosition().pos[2] = z;
        if (ptr==mPlayer->getPlayer())
        {
            //std::cout << "X:" <<   ptr.getRefData().getPosition().pos[0] << " Z: "  << ptr.getRefData().getPosition().pos[1] << "\n";

            Ptr::CellStore *currentCell = mWorldScene->getCurrentCell();
            if (currentCell)
            {
                if (!(currentCell->cell->data.flags & ESM::Cell::Interior))
                {
                    // exterior -> adjust loaded cells
                    int cellX = 0;
                    int cellY = 0;

                    positionToIndex (x, y, cellX, cellY);

                    if (currentCell->cell->data.gridX!=cellX || currentCell->cell->data.gridY!=cellY)
                    {
                        mWorldScene->changeCell (cellX, cellY, mPlayer->getPlayer().getRefData().getPosition(), false);
                        ret = true;
                    }

                }
            }
        }

        /// \todo cell change for non-player ref

        mRendering->moveObject (ptr, Ogre::Vector3 (x, y, z));

        return ret;
    }

    void World::moveObject (Ptr ptr, float x, float y, float z)
    {
        moveObjectImp(ptr, x, y, z);

        mPhysics->moveObject (ptr.getRefData().getHandle(), Ogre::Vector3 (x, y, z));
    }

    void World::indexToPosition (int cellX, int cellY, float &x, float &y, bool centre) const
    {
        const int cellSize = 8192;

        x = cellSize * cellX;
        y = cellSize * cellY;

        if (centre)
        {
            x += cellSize/2;
            y += cellSize/2;
        }
    }

    void World::positionToIndex (float x, float y, int &cellX, int &cellY) const
    {
        const int cellSize = 8192;

        cellX = static_cast<int> (x/cellSize);

        if (x<0)
            --cellX;

        cellY = static_cast<int> (y/cellSize);

        if (y<0)
            --cellY;
    }

    void World::doPhysics (const std::vector<std::pair<std::string, Ogre::Vector3> >& actors,
        float duration)
    {
        mPhysics->doPhysics(duration, actors);

        const int tick = 16; // 16 ms ^= 60 Hz

        // Game clock part of the loop, contains everything that has to be executed in a fixed timestep
        long long dt = mTimer.getMilliseconds() - lastTick;
        if (dt >= 100)
        {
            //  throw away wall clock time if necessary to keep the framerate above the minimum of 10 fps
            lastTick += (dt - 100);
            dt = 100;
        }
        while (dt >= tick)
        {
            dt -= tick;
            lastTick += tick;

            std::vector< std::pair<std::string, Ogre::Vector3> > vectors = mPhysics->doPhysicsFixed (actors);

            std::vector< std::pair<std::string, Ogre::Vector3> >::iterator player = vectors.end();

            for (std::vector< std::pair<std::string, Ogre::Vector3> >::iterator it = vectors.begin();
                it!= vectors.end(); ++it)
            {
                if (it->first=="player")
                {
                    player = it;
                }
                else
                {
                    MWWorld::Ptr ptr = getPtrViaHandle (it->first);
                    moveObjectImp (ptr, it->second.x, it->second.y, it->second.z);
                }
            }

            // Make sure player is moved last (otherwise the cell might change in the middle of an update
            // loop)
            if (player!=vectors.end())
            {
                if (moveObjectImp (getPtrViaHandle (player->first),
                    player->second.x, player->second.y, player->second.z) == true)
                    return; // abort the current loop if the cell has changed
            }
        }
    }

    bool World::toggleCollisionMode()
    {
        return mPhysics->toggleCollisionMode();;
    }

    bool World::toggleRenderMode (RenderMode mode)
    {
        return mRendering->toggleRenderMode (mode);
    }

    std::pair<std::string, const ESM::Potion *> World::createRecord (const ESM::Potion& record)
    {
        /// \todo Rewrite the ESMStore so that a dynamic 2nd ESMStore can be attached to it.
        /// This function should then insert the record into the 2nd store (the code for this
        /// should also be moved to the ESMStore class). It might be a good idea to review
        /// the STL-container usage of the ESMStore before the rewrite.

        std::ostringstream stream;
        stream << "$dynamic" << mNextDynamicRecord++;

        const ESM::Potion *created =
            &mStore.potions.list.insert (std::make_pair (stream.str(), record)).first->second;

        mStore.all.insert (std::make_pair (stream.str(), ESM::REC_ALCH));

        return std::make_pair (stream.str(), created);
    }

    std::pair<std::string, const ESM::Class *> World::createRecord (const ESM::Class& record)
    {
        /// \todo See function above.
        std::ostringstream stream;
        stream << "$dynamic" << mNextDynamicRecord++;

        const ESM::Class *created =
            &mStore.classes.list.insert (std::make_pair (stream.str(), record)).first->second;

        mStore.all.insert (std::make_pair (stream.str(), ESM::REC_CLAS));

        return std::make_pair (stream.str(), created);
    }

    const ESM::Cell *World::createRecord (const ESM::Cell& record)
    {
        if (record.data.flags & ESM::Cell::Interior)
        {
            if (mStore.cells.searchInt (record.name))
                throw std::runtime_error ("failed creating interior cell");

            ESM::Cell *cell = new ESM::Cell (record);
            mStore.cells.intCells.insert (std::make_pair (record.name, cell));
            return cell;
        }
        else
        {
            if (mStore.cells.searchExt (record.data.gridX, record.data.gridY))
                throw std::runtime_error ("failed creating exterior cell");

            ESM::Cell *cell = new ESM::Cell (record);
            mStore.cells.extCells.insert (
                std::make_pair (std::make_pair (record.data.gridX, record.data.gridY), cell));
            return cell;
        }
    }

    void World::playAnimationGroup (const MWWorld::Ptr& ptr, const std::string& groupName, int mode,
        int number)
    {
        mRendering->playAnimationGroup (ptr, groupName, mode, number);
    }

    void World::skipAnimation (const MWWorld::Ptr& ptr)
    {
        mRendering->skipAnimation (ptr);
    }

    void World::update (float duration)
    {
        mWorldScene->update (duration);

        mWeatherManager->update (duration);

        // inform the GUI about focused object
        try
        {
            MWBase::Environment::get().getWindowManager()->setFocusObject(getPtrViaHandle(mFacedHandle));
        }
        catch (std::runtime_error&)
        {
            MWWorld::Ptr null;
            MWBase::Environment::get().getWindowManager()->setFocusObject(null);
        }

        if (!mRendering->occlusionQuerySupported())
        {
            // cast a ray from player to sun to detect if the sun is visible
            // this is temporary until we find a better place to put this code
            // currently its here because we need to access the physics system
            float* p = mPlayer->getPlayer().getRefData().getPosition().pos;
            Vector3 sun = mRendering->getSkyManager()->getRealSunPos();
            sun = Vector3(sun.x, -sun.z, sun.y);
            mRendering->getSkyManager()->setGlare(!mPhysics->castRay(Ogre::Vector3(p[0], p[1], p[2]), sun));
        }

        // update faced handle (object the player is looking at)
        // this uses a mixture of raycasts and occlusion queries.
        else // if (mRendering->occlusionQuerySupported())
        {
            MWRender::OcclusionQuery* query = mRendering->getOcclusionQuery();
            if (!query->occlusionTestPending())
            {
                // get result of last query
                if (mNumFacing == 0) mFacedHandle = "";
                else if (mNumFacing == 1)
                {
                    bool result = query->getTestResult();
                    mFacedHandle = result ? mFaced1Name : "";
                }
                else if (mNumFacing == 2)
                {
                    bool result = query->getTestResult();
                    mFacedHandle = result ? mFaced2Name : mFaced1Name;
                }

                // send new query
                // figure out which object we want to test against
                std::vector < std::pair < float, std::string > > results = mPhysics->getFacedObjects();

                // ignore the player and other things we're not interested in
                std::vector < std::pair < float, std::string > >::iterator it = results.begin();
                while (it != results.end())
                {
                    if ( (*it).second.find("HeightField") != std::string::npos // not interested in terrain
                    || getPtrViaHandle((*it).second) == mPlayer->getPlayer() ) // not interested in player (unless you want to talk to yourself)
                    {
                        it = results.erase(it);
                    }
                    else
                        ++it;
                }

                if (results.size() == 0)
                {
                    mNumFacing = 0;
                }
                else if (results.size() == 1)
                {
                    mFaced1 = getPtrViaHandle(results.front().second);
                    mFaced1Name = results.front().second;
                    mNumFacing = 1;

                    btVector3 p = mPhysics->getRayPoint(results.front().first);
                    Ogre::Vector3 pos(p.x(), p.z(), -p.y());
                    Ogre::SceneNode* node = mFaced1.getRefData().getBaseNode();

                    //std::cout << "Num facing 1 : " << mFaced1Name <<  std::endl;
                    //std::cout << "Type 1 " << mFaced1.getTypeName() <<  std::endl;

                    query->occlusionTest(pos, node);
                }
                else
                {
                    mFaced1Name = results.front().second;
                    mFaced2Name = results[1].second;
                    mFaced1 = getPtrViaHandle(results.front().second);
                    mFaced2 = getPtrViaHandle(results[1].second);
                    mNumFacing = 2;

                    btVector3 p = mPhysics->getRayPoint(results[1].first);
                    Ogre::Vector3 pos(p.x(), p.z(), -p.y());
                    Ogre::SceneNode* node1 = mFaced1.getRefData().getBaseNode();
                    Ogre::SceneNode* node2 = mFaced2.getRefData().getBaseNode();

                    // no need to test if the first node is not occluder
                    if (!query->isPotentialOccluder(node1) && (mFaced1.getTypeName().find("Static") == std::string::npos))
                    {
                        mFacedHandle = mFaced1Name;
                        //std::cout << "node1 Not an occluder" << std::endl;
                        return;
                    }

                    // no need to test if the second object is static (thus cannot be activated)
                    if (mFaced2.getTypeName().find("Static") != std::string::npos)
                    {
                        mFacedHandle = mFaced1Name;
                        return;
                    }

                    // work around door problems
                    if (mFaced1.getTypeName().find("Static") != std::string::npos
                        && mFaced2.getTypeName().find("Door") != std::string::npos)
                    {
                        mFacedHandle = mFaced2Name;
                        return;
                    }

                    query->occlusionTest(pos, node2);
                }
            }
        }
    }

    bool World::isCellExterior() const
    {
        Ptr::CellStore *currentCell = mWorldScene->getCurrentCell();
        if (currentCell)
        {
            if (!(currentCell->cell->data.flags & ESM::Cell::Interior))
                return true;
            else
                return false;
        }
        return false;
    }

    bool World::isCellQuasiExterior() const
    {
        Ptr::CellStore *currentCell = mWorldScene->getCurrentCell();
        if (currentCell)
        {
            if (!(currentCell->cell->data.flags & ESM::Cell::QuasiEx))
                return false;
            else
                return true;
        }
        return false;
    }

    int World::getCurrentWeather() const
    {
        return mWeatherManager->getWeatherID();
    }

    void World::changeWeather(const std::string& region, const unsigned int id)
    {
        mWeatherManager->changeWeather(region, id);
    }

    OEngine::Render::Fader* World::getFader()
    {
        return mRendering->getFader();
    }

    Ogre::Vector2 World::getNorthVector(Ptr::CellStore* cell)
    {
        ESMS::CellRefList<ESM::Static, MWWorld::RefData> statics = cell->statics;
        ESMS::LiveCellRef<ESM::Static, MWWorld::RefData>* ref = statics.find("northmarker");
        if (!ref)
            return Vector2(0, 1);
        Ogre::SceneNode* node = ref->mData.getBaseNode();
        Vector3 dir = node->_getDerivedOrientation().yAxis();
        Vector2 d = Vector2(dir.x, dir.z);
        return d;
    }

    void World::setWaterHeight(const float height)
    {
        mRendering->setWaterHeight(height);
    }

    void World::toggleWater()
    {
        mRendering->toggleWater();
    }

}