Example #1
0
  void _setOverlay(void)
  {
    mOverlayMgr = OverlayManager::getSingletonPtr();
    mTextOverlay = mOverlayMgr->create("TextOverlay");

    mPanel = static_cast<Ogre::OverlayContainer*>(mOverlayMgr->createOverlayElement("Panel", "container1"));
    mPanel->setDimensions(1, 1);
    mPanel->setPosition(-0.3f, 0.5f);

    OverlayElement* textBox = mOverlayMgr->createOverlayElement("TextArea", "TextID");
    textBox->setMetricsMode(Ogre::GMM_PIXELS);
    textBox->setPosition(10, 10);
    textBox->setWidth(100);
    textBox->setHeight(20);
    textBox->setParameter("font_name", "Font/NanumBold18");
    textBox->setParameter("char_height", "40");
    textBox->setColour(Ogre::ColourValue::White);
    textBox->setCaption(L"한국산업기술대학교 이대현 선수");
    mPanel->addChild(textBox);

    mTextOverlay->add2D(mPanel);
    mTextOverlay->show();

    mLogoOverlay = OverlayManager::getSingleton().getByName("Overlay/KPU_LOGO");
    mLogoOverlay->show();

mLogoOverlay = OverlayManager::getSingleton().getByName("Overlay/Information");
mLogoOverlay->show(); 
  }
Example #2
0
bool TruckHUD::update(float dt, Beam *truck, bool visible)
{
	OverlayElement *overlayElement = 0;

	// only update every 300 ms
	if (visible)
	{
		updatetime -= dt;
		if (updatetime <= 0.0f)
		{
			// update now, reset timer
			updatetime = 0.3f;
		} else
		{
			// don't update visuals, only count stats
			visible = false;
		}
	}

	if (visible)
	{
		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Truckname");
		overlayElement->setCaption(truck->getTruckName());
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Truckauthor");
		overlayElement->setCaption(_L("(no author information available)"));
		std::vector<authorinfo_t> file_authors = truck->getAuthors();
		if (!file_authors.empty())
		{
			String authors = "";
			for (std::vector<authorinfo_t>::iterator it = file_authors.begin(); it != file_authors.end(); ++it)
			{
				authors += (*it).name + " ";
			}
			overlayElement->setCaption(_L("Authors: ") + authors);
		}
		checkOverflow(overlayElement);

		std::vector<std::string> description = truck->getDescription();
		for (unsigned int i=1; i < 3; i++)
		{
			overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/DescriptionLine" + TOSTRING(i+1));
			overlayElement->setCaption("");
			if (i < description.size())
			{
				overlayElement->setCaption(ANSI_TO_UTF(description[i]));
			}
			checkOverflow(overlayElement);
		}

		beam_t *beam = truck->getBeams();
		float average_deformation = 0.0f;
		float beamstress = 0.0f;
		float current_deformation = 0.0f;
		float mass = truck->getTotalMass();
		int beamCount = truck->getBeamCount();
		int beambroken = 0;
		int beamdeformed = 0;

		for (int i=0; i < beamCount; i++, beam++)
		{
			if (beam->broken != 0)
			{
				beambroken++;
			}
			beamstress += beam->stress;
			current_deformation = fabs(beam->L-beam->refL);
			if (fabs(current_deformation) > 0.0001f && beam->type != BEAM_HYDRO && beam->type != BEAM_INVISIBLE_HYDRO)
			{
				beamdeformed++;
			}
			average_deformation += current_deformation;
		}

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamTotal");
		overlayElement->setCaption(_L("beam count: ") + TOUTFSTRING(beamCount));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamBroken");
		overlayElement->setCaption(_L("broken: ") + TOUTFSTRING(beambroken) + U(" (") + TOUTFSTRING(Round((float)beambroken / (float)beamCount, 2) * 100.0f) + U("%)"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamHealth");
		float health = ((float)beambroken / (float)beamCount) * 10.0f + ((float)beamdeformed / (float)beamCount);
		if (health < 1.0f)
		{
			overlayElement->setCaption(_L("health: ") + TOUTFSTRING(Round((1.0f - health) * 100.0f, 2)) + U("%"));
			overlayElement->setColour(ColourValue(0.6f, 0.8f, 0.4f, 1.0f));
		} else if (health >= 1.0f)
		{
			health = ((float)beambroken / (float)beamCount) * 3.0f;
			health = std::min(health, 1.0f);
			overlayElement->setCaption(_L("destruction: ") + TOUTFSTRING(Round(health * 100.0f, 2)) + U("%"));
			overlayElement->setColour(ColourValue(0.8f, 0.4f, 0.4f, 1.0f));
		}
		checkOverflow(overlayElement);


		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamDeformed");
		overlayElement->setCaption(_L("deformed: ") + TOUTFSTRING(beamdeformed) + U(" (") + TOUTFSTRING(Round((float)beamdeformed / (float)beamCount, 2) * 100.0f) + U("%)"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageBeamDeformation");
		overlayElement->setCaption(_L("average deformation: ") + TOUTFSTRING(Round((float)average_deformation / (float)beamCount, 4) * 100.0f));
		checkOverflow(overlayElement);
		
		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageBeamStress");
		wchar_t beamstressstr[256];
		swprintf(beamstressstr, 256, L"%+08.0f", 1-(float)beamstress/(float)beamCount);
		overlayElement->setCaption(_L("average stress: ") + UTFString(beamstressstr));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/NodeCount");
		int ncount = truck->getNodeCount();
		int wcount =  truck->getWheelNodeCount();
		wchar_t nodecountstr[256];
		swprintf(nodecountstr, 256, L"%d (wheels: %d)", ncount, wcount);
		overlayElement->setCaption(_L("node count: ") + UTFString(nodecountstr));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/TruckWeight");
		wchar_t truckmassstr[256];
		UTFString massstr = _L("current mass:");
		swprintf(truckmassstr, 256, L"%ls %8.2f kg (%.2f tons)", massstr.asWStr_c_str(), mass, mass / 1000.0f);
		overlayElement->setCaption(UTFString(truckmassstr));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Gees");
		wchar_t geesstr[256];
		Vector3 gees = truck->getGForces();
		// apply deadzones ==> no flickering +/-
		if (fabs(gees.y) < 0.01) gees.y = 0.0f;
		if (fabs(gees.z) < 0.01) gees.z = 0.0f;
		UTFString tmp = _L("Gees: Vertical %1.2fg // Saggital %1.2fg // Lateral %1.2fg");
		swprintf(geesstr, 256, tmp.asWStr_c_str(), gees.x, gees.y, gees.z);
		overlayElement->setCaption(UTFString(geesstr));
		checkOverflow(overlayElement);

		// max g-forces
		if (truck->driveable == TRUCK || truck->driveable == AIRPLANE || truck->driveable == BOAT)
		{
			if (gees.x > maxPosVerG[truck->driveable])
				maxPosVerG[truck->driveable] = gees.x;
			if (gees.x < maxNegVerG[truck->driveable])
				maxNegVerG[truck->driveable] = gees.x;

			if (gees.y > maxPosSagG[truck->driveable])
				maxPosSagG[truck->driveable] = gees.y;
			if (gees.y < maxNegSagG[truck->driveable])
				maxNegSagG[truck->driveable] = gees.y;

			if (gees.z > maxPosLatG[truck->driveable])
				maxPosLatG[truck->driveable] = gees.z;
			if (gees.z < maxNegLatG[truck->driveable])
				maxNegLatG[truck->driveable] = gees.z;

			tmp = _L("maxG: V %1.2fg %1.2fg // S %1.2fg %1.2fg // L %1.2fg %1.2fg");
			swprintf(geesstr, 256, tmp.asWStr_c_str(),
					maxPosVerG[truck->driveable],
					maxNegVerG[truck->driveable],
					maxPosSagG[truck->driveable],
					maxNegSagG[truck->driveable],
					maxPosLatG[truck->driveable],
					maxNegLatG[truck->driveable]
				);

			overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Gees2");
			overlayElement->setCaption(UTFString(geesstr));
			checkOverflow(overlayElement);
		}
	}

	Vector3 hdir = Vector3::ZERO;
	if (truck->cameranodepos[0] >= 0 && truck->cameranodepos[0] < MAX_NODES)
	{
		hdir = (truck->nodes[truck->cameranodepos[0]].RelPosition - truck->nodes[truck->cameranodedir[0]].RelPosition).normalisedCopy();
	}
	float g_along_hdir = hdir.dotProduct(truck->ffforce / 10000.0f);

	// always update these statistics, also if not visible!
	overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
	overlayElement->setCaption("");
	UTFString rpmsstr = _L("current RPM:");
	if (truck->driveable == TRUCK && truck->engine)
	{
		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
		overlayElement->setCaption(rpmsstr + U(" ") + TOUTFSTRING(Round(truck->engine->getRPM())) + U(" / ") + TOUTFSTRING(Round(truck->engine->getMaxRPM())));
	} else if (truck->driveable == AIRPLANE)
	{
		for (int i=0; i < 8; i++)
		{
			if (truck->aeroengines[i])
			{
				rpmsstr = rpmsstr + U(" / ") + TOUTFSTRING(Round(truck->aeroengines[i]->getRPM()));
			}
		}
		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
		overlayElement->setCaption(UTFString(rpmsstr));
	}
	checkOverflow(overlayElement);

	UTFString cspeedstr   = _L("current Speed:") + U(" ");
	UTFString mspeedstr   = _L("max Speed:")     + U(" ");
	UTFString altitudestr = _L("Altitude:")      + U(" ");

	if (truck->driveable == TRUCK)
	{
		maxVelos[truck->driveable] = std::max(maxVelos[truck->driveable], truck->WheelSpeed);
		minVelos[truck->driveable] = std::min(truck->WheelSpeed, minVelos[truck->driveable]);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity");
		
		float velocityKMH = truck->WheelSpeed* 3.6f;
		float velocityMPH = truck->WheelSpeed * 2.23693629f;
		// apply a deadzone ==> no flickering +/-
		if (fabs(truck->WheelSpeed) < 1.0f)
		{
			velocityKMH = velocityMPH = 0.0f;
		}
		overlayElement->setCaption(cspeedstr + TOUTFSTRING(Round(velocityKMH)) + U(" km/h (") + TOUTFSTRING(Round(velocityMPH)) + U(" mph)"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity");
		float velocityMaxKMH = maxVelos[truck->driveable] * 3.6f;
		float velocityMinKMH = minVelos[truck->driveable] * 3.6f;
		float velocityMaxMPH = maxVelos[truck->driveable] * 2.23693629f;
		float velocityMinMPH = minVelos[truck->driveable] * 2.23693629f;
		overlayElement->setCaption(mspeedstr + TOUTFSTRING(Round(velocityMaxKMH)) + U("km/h (") + TOUTFSTRING(Round(velocityMaxMPH)) + U("mph)") + U(", min: ") + TOUTFSTRING(Round(velocityMinKMH)) + U("km/h (") + TOUTFSTRING(Round(velocityMinMPH)) + U("mph)"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity");
		overlayElement->setCaption("");
	} else if (truck->driveable == AIRPLANE || truck->driveable == BOAT)
	{
		float velocity = truck->nodes[0].Velocity.length();
		
		if (truck->cameranodepos[0] >= 0 && truck->cameranodedir[0] && truck->driveable == BOAT)
		{
			hdir = (truck->nodes[truck->cameranodepos[0]].RelPosition - truck->nodes[truck->cameranodedir[0]].RelPosition).normalisedCopy();
			velocity = hdir.dotProduct(truck->nodes[truck->cameranodepos[0]].Velocity);
		}
		
		maxVelos[truck->driveable] = std::max(maxVelos[truck->driveable], velocity);
		minVelos[truck->driveable] = std::min(velocity, minVelos[truck->driveable]);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity");
		float velocityKN = velocity * 1.94384449f;
		// apply a deadzone ==> no flickering +/-
		if (fabs(velocity) < 1.0f)
		{
			velocityKN = 0.0f;
		}
		overlayElement->setCaption(cspeedstr + TOUTFSTRING(Round(velocityKN)) + U(" kn"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity");
		float velocityMaxKN = maxVelos[truck->driveable] * 1.94384449f;
		float velocityMinKN = minVelos[truck->driveable] * 1.94384449f;
		overlayElement->setCaption(mspeedstr + TOUTFSTRING(Round(maxVelos[truck->driveable])) + U(" kn, min: ") + TOUTFSTRING(Round(minVelos[truck->driveable])) + U(" kn"));
		checkOverflow(overlayElement);

		overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity");
		overlayElement->setCaption("");
		if (truck->driveable == AIRPLANE)
		{
			float altitude = truck->nodes[0].AbsPosition.y * 1.1811f;
			overlayElement->setCaption(altitudestr + TOUTFSTRING(Round(altitude)) + U(" m"));
			checkOverflow(overlayElement);
		}
	} else if (truck->driveable == MACHINE)
	{
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity")->setCaption("");
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity")->setCaption("");
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity")->setCaption("");
	}

	OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/TimeStats")->setCaption("");

	if (visible)
	{
		// update commands

		// clear them first
		for (int i=1; i <= COMMANDS_VISIBLE; i++)
		{
			overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Command" + TOSTRING(i));
			overlayElement->setCaption("");
		}

		int filledCommands = 0;
		for (int i=1; i < MAX_COMMANDS && filledCommands < COMMANDS_VISIBLE; i += 2)
		{
			if(truck->commandkey[i].beams.empty() || truck->commandkey[i].description == "hide") continue;

			filledCommands++;
			char commandID[256] = {};
			String keyStr = "";

			sprintf(commandID, "COMMANDS_%02d", i);
			int eventID = RoR::Application::GetInputEngine()->resolveEventName(String(commandID));
			String keya = RoR::Application::GetInputEngine()->getEventCommand(eventID);
			sprintf(commandID, "COMMANDS_%02d", i+1);
			eventID = RoR::Application::GetInputEngine()->resolveEventName(String(commandID));
			String keyb = RoR::Application::GetInputEngine()->getEventCommand(eventID);

			// cut off expl
			if (keya.size() > 6 && keya.substr(0,5) == "EXPL+") keya = keya.substr(5);
			if (keyb.size() > 6 && keyb.substr(0,5) == "EXPL+") keyb = keyb.substr(5);

			keyStr = keya + "/" + keyb;

			overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Command" + TOSTRING(filledCommands));
			
			if (truck->commandkey[i].description.empty())
			{
				overlayElement->setCaption(keyStr + ": " + _L("unknown function"));
			} else
			{
				overlayElement->setCaption(keyStr + ": " + truck->commandkey[i].description);
			}
			checkOverflow(overlayElement);
		}

		// hide command section title if no commands
		overlayElement = overlayElement = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CommandsTitleLabel");
		overlayElement->setCaption("");
		if (filledCommands > 0)
		{
			// TODO: Fix the position of this overlay element
			//overlayElement->setCaption(_L("Commands:"));
			checkOverflow(overlayElement);
		}
	}
	return true;
}
Example #3
0
bool TruckHUD::update(float dt, Beam *truck, SceneManager *mSceneMgr, Camera* mCamera, RenderWindow* mWindow, bool visible)
{
	OverlayElement *descl = 0;

	//only update every 300 ms
	if(visible)
	{
		updatetime -= dt;
		if(updatetime <= 0)
		{
			// update now, reset timer
			updatetime = 0.3;
		} else
			// dont update visuals, only count stats
			visible = false;
	}


	if(visible)
	{
		OverlayElement* oTruckname = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Truckname");
		oTruckname->setCaption(truck->getTruckName());
		checkOverflow(oTruckname);

		OverlayElement* oTruckauthor = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Truckauthor");
		std::vector<authorinfo_t> file_authors = truck->getAuthors();
		if(file_authors.size() > 0)
		{
			String author_string = String("");
			for(unsigned int i=0;i<file_authors.size();i++)
				author_string += file_authors[i].name + String(" ");
			oTruckauthor->setCaption(_L("Authors: ") + author_string);
		} else
		{
			oTruckauthor->setCaption(_L("(no author information available)"));
		}
		checkOverflow(oTruckauthor);
		std::vector<std::string> desc = truck->getDescription();

		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/DescriptionLine1");
		if(desc.size() > 0)
			descl->setCaption(ANSI_TO_UTF(desc[0]));
		else
			descl->setCaption("");
		checkOverflow(descl);

		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/DescriptionLine2");
		if(desc.size() > 1)
			descl->setCaption(ANSI_TO_UTF(desc[1]));
		else
			descl->setCaption("");
		checkOverflow(descl);

		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/DescriptionLine3");
		if(desc.size() > 2)
			descl->setCaption(ANSI_TO_UTF(desc[2]));
		else
			descl->setCaption("");
		checkOverflow(descl);

		int beamCount = truck->getBeamCount();
		beam_t *beam = truck->getBeams();
		int beambroken = 0;
		float beamstress = 0;
		int beamdeformed = 0;
		float average_deformation = 0;
		float current_deformation = 0;
		float mass = truck->getTotalMass();

		for(int i=0; i<beamCount; i++, beam++)
		{
			if(beam->broken != 0)
				beambroken++;
			beamstress += beam->stress;
			current_deformation = fabs(beam->L-beam->refL);
			if (fabs(current_deformation) > 0.0001f && beam->type != BEAM_HYDRO && beam->type != BEAM_INVISIBLE_HYDRO) beamdeformed++;
			average_deformation += current_deformation;
		}

		wchar_t beamcountstr[256];
		swprintf(beamcountstr, 256, L"%d", beamCount);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamTotal");
		descl->setCaption(_L("beam count: ") + UTFString(beamcountstr));
		checkOverflow(descl);

		wchar_t beambrokenstr[256];
		swprintf(beambrokenstr, 256, L"%0.2f", ((float)beambroken/(float)beamCount)*100);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamBroken");
		descl->setCaption(_L("broken: ") + TOUTFSTRING(beambroken) + U(" (") + UTFString(beambrokenstr) + U("%)"));
		checkOverflow(descl);

		wchar_t beamhealthstr[256];
		float health = ((float)beambroken/(float)beamCount) * 10 + ((float)beamdeformed/(float)beamCount);
		if(health<1)
		{
			swprintf(beamhealthstr, 256, L"%0.2f", (1-health)*100);
			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamHealth");
			descl->setCaption(_L("health: ") + UTFString(beamhealthstr) + U("%"));
			checkOverflow(descl);
			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamHealth");
			descl->setColour(ColourValue(0.6,0.8,0.4,1));
			checkOverflow(descl);
		}else if(health>1)
		{
			health = ((float)beambroken/(float)beamCount) * 3;
			if(health>1)
				health=1;
			swprintf(beamhealthstr, 256, L"%0.2f", (health)*100);
			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamHealth");
			descl->setCaption(_L("destruction: ") + UTFString(beamhealthstr) + U("%"));
			checkOverflow(descl);
			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamHealth");
			descl->setColour(ColourValue(0.8,0.4,0.4,1));
			checkOverflow(descl);
		}
		wchar_t beamdeformedstr[256];
		swprintf(beamdeformedstr, 256, L"%0.2f", ((float)beamdeformed/(float)beamCount)*100);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/BeamDeformed");
		descl->setCaption(_L("deformed: ") + TOUTFSTRING(beamdeformed) + U(" (") + UTFString(beamdeformedstr) + U("%)"));
		checkOverflow(descl);

		wchar_t beamavdeformedstr[256];
		swprintf(beamavdeformedstr, 256, L"%0.4f", ((float)average_deformation/(float)beamCount));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageBeamDeformation");
		descl->setCaption(_L("average deformation: ") + UTFString(beamavdeformedstr));
		checkOverflow(descl);

		wchar_t beamstressstr[256];
		swprintf(beamstressstr, 256, L"%+08.0f", 1-(float)beamstress/(float)beamCount);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageBeamStress");
		descl->setCaption(_L("average stress: ") + UTFString(beamstressstr));
		checkOverflow(descl);

		int nodeCount = truck->getNodeCount();
		int wcount =  truck->getWheelNodeCount();
		wchar_t nodecountstr[256];
		swprintf(nodecountstr, 256, L"%d (wheels: %d)", nodeCount, wcount);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/NodeCount");
		descl->setCaption(_L("node count: ") + UTFString(nodecountstr));
		checkOverflow(descl);

		wchar_t truckmassstr[256];
		UTFString massstr = _L("current mass:");
		swprintf(truckmassstr, 256, L"%ls %8.2f kg (%.2f tons)", massstr.asWStr_c_str(), mass, mass/1000);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/TruckWeight");
		descl->setCaption(UTFString(truckmassstr));
		checkOverflow(descl);

		wchar_t geesstr[256];
		Vector3 gees = truck->getGForces();
		UTFString tmp = _L("Gees: Vertical %1.2fg // Saggital %1.2fg // Lateral %1.2fg");
		swprintf(geesstr, 256, tmp.asWStr_c_str(), gees.x, gees.y, gees.z);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Gees");
		descl->setCaption(UTFString(geesstr));
		checkOverflow(descl);

		//maxGees
		if(truck->driveable == TRUCK || truck->driveable == AIRPLANE || truck->driveable == BOAT)
		{
			if(gees.x > maxPosVerG[truck->driveable])
				maxPosVerG[truck->driveable] = gees.x;
			if(gees.x < maxNegVerG[truck->driveable])
				maxNegVerG[truck->driveable] = gees.x;

			if(gees.y > maxPosSagG[truck->driveable])
				maxPosSagG[truck->driveable] = gees.y;
			if(gees.y < maxNegSagG[truck->driveable])
				maxNegSagG[truck->driveable] = gees.y;

			if(gees.z > maxPosLatG[truck->driveable])
				maxPosLatG[truck->driveable] = gees.z;
			if(gees.z < maxNegLatG[truck->driveable])
				maxNegLatG[truck->driveable] = gees.z;

			tmp = _L("maxG: V %1.2fg %1.2fg // S %1.2fg %1.2fg // L %1.2fg %1.2fg");
			swprintf(geesstr, 256, tmp.asWStr_c_str(), 
					maxPosVerG[truck->driveable], 
					maxNegVerG[truck->driveable], 
					maxPosSagG[truck->driveable], 
					maxNegSagG[truck->driveable], 
					maxPosLatG[truck->driveable], 
					maxNegLatG[truck->driveable]
				);

			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/Gees2");
			descl->setCaption(UTFString(geesstr));
			checkOverflow(descl);
		}
	}

	Vector3 hdir = Vector3::ZERO;
	if(truck->cameranodepos[0]>=0)
		hdir = truck->nodes[truck->cameranodepos[0]].RelPosition-truck->nodes[truck->cameranodedir[0]].RelPosition;
	hdir.normalise();
	float g_along_hdir=hdir.dotProduct(truck->ffforce/10000.0);

	//LOG("ffforce: " + TOSTRING(truck->ffforce.x) + ", " + TOSTRING(truck->ffforce.y) + ", " + TOSTRING(truck->ffforce.z) + " / direction: " + TOSTRING(hdir.x) + ", " + TOSTRING(hdir.y) + ", " + TOSTRING(hdir.z));


	// TODO: FIX THIS!
	//char rpmstring[256];
	//sprintf(rpmstring, "current GForces: %2.2f", g_along_hdir);
	//OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM")->setCaption(rpmstring);

	// always update these statistics, also if not visible!
	UTFString rpmsstr = _L("current RPM:");
	if(truck->driveable == TRUCK && truck->engine)
	{
		wchar_t rpmstring[256];
		UTFString rpmsstr = _L("current RPM:");
		swprintf(rpmstring, 256, L"%ls %.0f / %.0f", rpmsstr.asWStr_c_str(), truck->engine->getRPM(), truck->engine->getMaxRPM()*1.25);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
		descl->setCaption(UTFString(rpmstring));
		checkOverflow(descl);

	} else if (truck->driveable == AIRPLANE)
	{
		wchar_t rpmstring[256];

		if(truck->aeroengines[0] && truck->aeroengines[1] && truck->aeroengines[2] && truck->aeroengines[3])
			swprintf(rpmstring, 256, L"%ls %.0f / %.0f / %.0f / %.0f", rpmsstr.asWStr_c_str(), truck->aeroengines[0]->getRPM(), truck->aeroengines[1]->getRPM(), truck->aeroengines[2]->getRPM(), truck->aeroengines[3]->getRPM());
		else if(truck->aeroengines[0] && truck->aeroengines[1] && truck->aeroengines[2] && !truck->aeroengines[3])
			swprintf(rpmstring, 256, L"%ls %.0f / %.0f / %.0f", rpmsstr.asWStr_c_str(), truck->aeroengines[0]->getRPM(), truck->aeroengines[1]->getRPM(), truck->aeroengines[2]->getRPM());
		else if(truck->aeroengines[0] && truck->aeroengines[1] && !truck->aeroengines[2] && !truck->aeroengines[3])
			swprintf(rpmstring, 256, L"%ls %.0f / %.0f", rpmsstr.asWStr_c_str(), truck->aeroengines[0]->getRPM(), truck->aeroengines[1]->getRPM());
		else if(truck->aeroengines[0] && !truck->aeroengines[1] && !truck->aeroengines[2] && !truck->aeroengines[3])
			swprintf(rpmstring, 256, L"%ls %.0f", rpmsstr.asWStr_c_str(), truck->aeroengines[0]->getRPM());

		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
		descl->setCaption(UTFString(rpmstring));
		checkOverflow(descl);
	} else
	{
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentRPM");
		descl->setCaption("");
	}

	UTFString cspeedstr = _L("current Speed:");
	UTFString maxspstr = _L("max Speed:");

	if(truck->driveable == TRUCK)
	{
		wchar_t velostring[256];
		float velocityKMH = (truck->WheelSpeed * 3.6);
		if(velocityKMH > maxVelos[truck->driveable])
			maxVelos[truck->driveable] = velocityKMH;
		if(velocityKMH < minVelos[truck->driveable])
			minVelos[truck->driveable] = velocityKMH;

		// round values if zero ==> no flickering +/-
		if (fabs(velocityKMH) < 1)
			velocityKMH = 0;
		float velocityMPH = velocityKMH / 1.609;
			swprintf(velostring, 256, L"%ls %+.0f km/h (%+.0f mp/h)", cspeedstr.asWStr_c_str(), ceil(velocityKMH), ceil(velocityMPH));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);

		float velocityMaxMPH = maxVelos[truck->driveable] / 1.609;
		float velocityMinMPH = minVelos[truck->driveable] / 1.609;
		swprintf(velostring, 256, L"%ls %+.0fkmh/%+.0fmph, min: %+.0fkmh/%+.0fmph", maxspstr.asWStr_c_str(), ceil(maxVelos[truck->driveable]), ceil(velocityMaxMPH), ceil(minVelos[truck->driveable]), ceil(velocityMinMPH));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity");
		descl->setCaption("");
	}
		else if(truck->driveable == AIRPLANE)
	{
		wchar_t velostring[256];
		float velocity = truck->nodes[0].Velocity.length()*1.9438;

		if(velocity > maxVelos[truck->driveable])
			maxVelos[truck->driveable] = velocity;
		if(velocity < minVelos[truck->driveable])
			minVelos[truck->driveable] = velocity;

		// round values if zero ==> no flickering +/-
		if (fabs(velocity) < 1)
			velocity = 0;
		swprintf(velostring, 256, L"%ls %+.0f kn", cspeedstr.asWStr_c_str(), ceil(velocity));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);
		swprintf(velostring, 256, L"%ls %+.0fkn, min: %+.0f kn", maxspstr.asWStr_c_str(), ceil(maxVelos[truck->driveable]), ceil(minVelos[truck->driveable]));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);

		float alt = truck->nodes[0].AbsPosition.y*1.1811;
		UTFString altstr = _L("Altitude:");
		swprintf(velostring, 256, L"%ls %+.0f m", altstr.asWStr_c_str(), ceil(alt));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity");
		descl->setCaption(velostring);
		checkOverflow(descl);
	}
		else if(truck->driveable == BOAT)
	{
		wchar_t velostring[256];
		Vector3 hdir=truck->nodes[truck->cameranodepos[0]].RelPosition-truck->nodes[truck->cameranodedir[0]].RelPosition;
		hdir.normalise();
		float velocity=hdir.dotProduct(truck->nodes[truck->cameranodepos[0]].Velocity)*1.9438;

		if(velocity > maxVelos[truck->driveable])
			maxVelos[truck->driveable] = velocity;
		if(velocity < minVelos[truck->driveable])
			minVelos[truck->driveable] = velocity;

		swprintf(velostring, 256, L"%ls %+.0f kn", cspeedstr.asWStr_c_str(),ceil(velocity));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);

		swprintf(velostring, 256, L"%ls %+.0fkn, min: %+.0f kn", maxspstr.asWStr_c_str(),ceil(maxVelos[truck->driveable]), ceil(minVelos[truck->driveable]));
		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity");
		descl->setCaption(UTFString(velostring));
		checkOverflow(descl);

		descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity");
		descl->setCaption("");
	}
		else if(truck->driveable == MACHINE)
	{
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/MaxVelocity")->setCaption("");
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CurrentVelocity")->setCaption("");
		OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/AverageVelocity")->setCaption("");
	}
	OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/TimeStats")->setCaption("");

	if(visible)
	{
		// update commands

		//clear them first
		for(int i=1;i<=COMMANDS_VISIBLE;i++)
		{
			char commandOverlayID[256];
			sprintf(commandOverlayID, "tracks/TruckInfoBox/Command%d", i); // no wchar needed
			descl = OverlayManager::getSingleton().getOverlayElement(commandOverlayID);
			descl->setCaption(string(""));
		}

		int j = 0;
		for(int i=1,j=0;i<MAX_COMMANDS && j<COMMANDS_VISIBLE;i+=2)
		{
			if (truck->commandkey[i].description.size() == 0)
				continue;

			j++;
			char commandID[256];
			String keyStr="";

			sprintf(commandID, "COMMANDS_%02d", i);
			int eventID = INPUTENGINE.resolveEventName(String(commandID));
			String keya = INPUTENGINE.getEventCommand(eventID);
			sprintf(commandID, "COMMANDS_%02d", i+1);
			eventID = INPUTENGINE.resolveEventName(String(commandID));
			String keyb = INPUTENGINE.getEventCommand(eventID);
			//cut off expl
			if(keya.size()>6 && keya.substr(0,5) == "EXPL+") keya = keya.substr(5);
			if(keyb.size()>6 && keyb.substr(0,5) == "EXPL+") keyb = keyb.substr(5);

			keyStr = keya + "/" + keyb;

			char commandOverlayID[256];
			sprintf(commandOverlayID, "tracks/TruckInfoBox/Command%d", j);
			descl = OverlayManager::getSingleton().getOverlayElement(commandOverlayID);
			descl->setCaption(keyStr + ": " + truck->commandkey[i].description);
			checkOverflow(descl);
		}

		// hide command section title if no commands
		if(j == 0)
		{
			OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CommandsTitleLabel")->setCaption("");
		} else
		{
			descl = OverlayManager::getSingleton().getOverlayElement("tracks/TruckInfoBox/CommandsTitleLabel");
			descl->setCaption(_L("Commands:"));
			checkOverflow(descl);
		}


	}
	return true;
}