void TestGame::DrawPlanetMap(Logic::PlanetJustGenerateEvent *evnt){

	std::map<Logic::BaseCountry*,std::vector<Logic::CountryTile>>::iterator CntrItr;
	std::vector<Logic::CountryTile>::iterator TileItr;
	int tilesize=TILESIZE;
	bool why;
	Ogre::Vector3 tempVect;
	int maxX = (int)Logic::BaseAsset::GetSigleton("MAP_X"),maxY=(int)Logic::BaseAsset::GetSigleton("MAP_Y");
	Ogre::SceneNode* node,*capitalNode,*mapnode =mSceneMgr->getRootSceneNode()->createChildSceneNode("Map");
	mapnode->translate(-maxX/2*tilesize,-maxY/2*tilesize,0);

	Ogre::Entity* entNinja = 0;

	
	Ogre::FontPtr font = Ogre::FontManager::getSingleton().getResourceIterator().begin()->second; 

	// Make sure the texture is not WRITE_ONLY, we need to read the buffer to do the blending with the font (get the alpha for example)




	int j =0;
	for(CntrItr=evnt->allTiles.begin();CntrItr!=evnt->allTiles.end(); CntrItr++){

		Ogre::ManualObject* manual = mSceneMgr->createManualObject("CountryObject"+CntrItr->first->mName);

		Ogre::Texture* texture = Ogre::TextureManager::getSingleton().createManual("CountryText"+CntrItr->first->mName,"General",Ogre::TEX_TYPE_2D,512, 512, 0, Ogre::PF_FLOAT32_RGBA , Ogre::TU_DEFAULT).getPointer();
		Ogre::MaterialPtr mat = Ogre::MaterialManager::getSingleton().create("CountryMaterial"+CntrItr->first->mName, Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME);
		//Draw the background to the new texture
		Ogre::HardwarePixelBufferSharedPtr pixelBuffer = texture->getBuffer();

		// Lock the pixel buffer and get a pixel box
		pixelBuffer->lock(Ogre::HardwareBuffer::HBL_NORMAL); // for best performance use HBL_DISCARD!
		const Ogre::PixelBox& pixelBox = pixelBuffer->getCurrentLock();

		float *pDest = static_cast<float*>(pixelBox.data);
		Ogre::ColourValue *temp = &CntrItr->first->mColor;
		// Fill in some pixel data. This will give a semi-transparent blue,
		// but this is of course dependent on the chosen pixel format.
		
		for (size_t k = 0; k < 512; k++)
			for(size_t q = 0; q < 512; q++)
			{
				*pDest++ =temp->b; // B
				*pDest++ = temp->g;
				*pDest++ =temp->r;
				*pDest++ = 0; // A*/
				
				/* *pDest++ = 255; // B
        *pDest++ =   0; // G
        *pDest++ =   0; // R
        *pDest++ = 127; // A*/
			}

			// Unlock the pixel buffer
			pixelBuffer->unlock();






			///WriteToTexture(Logic::LogicStd::IntToString(j),Ogre::TexturePtr(texture),Ogre::Image::Box(25,275,370,500),font,Ogre::ColourValue(1.0,1.0,1.0,1.0),'c');
			 mat->getTechnique(0)->getPass(0)->createTextureUnitState("CountryText"+CntrItr->first->mName);
			// mat->getTechnique(0)->getPass(0)->setSceneBlending(Ogre::SBT_TRANSPARENT_ALPHA);
			j++;
			// specify the material (by name) and rendering type
			manual->begin("CountryMaterial"+CntrItr->first->mName, Ogre::RenderOperation::OT_TRIANGLE_LIST);
			int i=0;
			for(TileItr= CntrItr->second.begin();TileItr!= CntrItr->second.end();TileItr++){
				
				tempVect = calculateActualPointFromCenter(CntrItr->first->mCapital.mPosition,(*TileItr).mPosition);
				tempVect =tempVect*tilesize;
				manual->position(tempVect.x-tilesize/2,tempVect.y+tilesize/2,tempVect.z);
				//manual->colour(CntrItr->first->mColor);
				manual->position(tempVect.x+tilesize/2,tempVect.y+tilesize/2,tempVect.z);
				//manual->colour(CntrItr->first->mColor);
				manual->position(tempVect.x+tilesize/2,tempVect.y-tilesize/2,tempVect.z);
				//manual->colour(CntrItr->first->mColor);
				manual->position(tempVect.x-tilesize/2,tempVect.y-tilesize/2,tempVect.z);
				//manual->colour(CntrItr->first->mColor);
				manual->triangle(i*4+0,i*4+2,i*4+1);
				manual->triangle(i*4+0,i*4+3,i*4+2);

				//manual->quad(i*4+0,i*4+2,i*4+3,i*4+1);
				i++;
			}


			// tell Ogre, your definition has finished
			manual->end();

			// add ManualObject to the RootSceneNode (so it will be visible)
			node =mapnode->createChildSceneNode();
			entNinja= mSceneMgr->createEntity("Capital/"+CntrItr->first->mName, "capital.mesh");
			entNinja->setCastShadows(true);
			entNinja->setMaterialName("CountryMaterial"+CntrItr->first->mName);
			Control::ClickHelper* helpr = 	new Control::ClickHelper(Logic::CHT_COUNTRY);
			helpr->target = CntrItr->first;
			entNinja->setUserAny(Ogre::Any(helpr));
			CntrItr->first->mNode = node;
			capitalNode = node->createChildSceneNode();
			capitalNode->attachObject(entNinja);
			capitalNode->pitch(Ogre::Degree(90));
			node->attachObject(manual);
			// I move the SceneNode so that it is visible to the camera.
			tempVect = 	Ogre::Vector3(CntrItr->first->mCapital.mPosition.x*tilesize,CntrItr->first->mCapital.mPosition.y*tilesize,-10);
			node->translate(tempVect);


	} 
	mapnode->pitch(Ogre::Degree(-45));


}
Exemplo n.º 2
0
//!
//! Clones an Ogre::MovableObject.
//!
//! Is needed because OGRE does not provide clone functions for cameras and
//! lights.
//!
//! \param movableObject The object to clone.
//! \param name The name to use for the object.
//! \param sceneManager The scene manager to use for creating the object.
//! \return The cloned object.
//!
Ogre::MovableObject * OgreTools::cloneMovableObject ( Ogre::MovableObject *movableObject, const QString &name, Ogre::SceneManager *sceneManager /* =  0 */ )
{
    // make sure the given object is valid
    if (!movableObject) {
        Log::error("The given movable object is invalid.", "OgreTools::cloneMovableObject");
        return 0;
    }

    // make sure a valid scene manager is available
    if (!sceneManager)
        sceneManager = movableObject->_getManager();
    if (!sceneManager) {
        Log::error("No valid scene manager available.", "OgreTools::cloneMovableObject");
        return 0;
    }

    Ogre::MovableObject *result = 0;
    Ogre::String typeName = movableObject->getMovableType();
    if (typeName == "Entity") {
        // clone entity
        Ogre::Entity *entity = dynamic_cast<Ogre::Entity *>(movableObject);
        //movableObjectCopy = entity->clone(name.toStdString());
        Ogre::Entity *entityCopy = sceneManager->createEntity(name.toStdString(), entity->getMesh()->getName());
        Ogre::AnimationStateSet *animationStateSet = entity->getAllAnimationStates();
        Ogre::AnimationStateSet *animationStateSetCopy  = entityCopy->getAllAnimationStates();
        // set the same blend mode on entity copy
        if (entity && entityCopy) {
            if (entity->hasSkeleton() && entityCopy->hasSkeleton()) {
                Ogre::Skeleton *skeleton = entity->getSkeleton();
                Ogre::Skeleton *skeletonCopy = entityCopy->getSkeleton();
                skeletonCopy->setBlendMode(skeleton->getBlendMode());
            }
        }
        // copy all animation states
        if (animationStateSet && animationStateSetCopy) {
            Ogre::AnimationStateIterator animationStateIter = animationStateSet->getAnimationStateIterator();
            Ogre::AnimationStateIterator animationStateCopyIter = animationStateSetCopy->getAnimationStateIterator();
            while (animationStateIter.hasMoreElements()) {
                if (!animationStateCopyIter.hasMoreElements())
                    break;
                Ogre::AnimationState *animationState = animationStateIter.getNext();
                Ogre::AnimationState *animationStateCopy = animationStateCopyIter.getNext();
                animationStateCopy->setLoop(animationState->getLoop());
                //bool enabled = animationState->getEnabled();
                //animationStateCopy->setEnabled(animationState->getEnabled());
                animationStateCopy->setEnabled(true);
                animationStateCopy->setTimePosition(animationState->getTimePosition());
            }
        }

        // create a new container for the cloned entity
        OgreContainer *entityCopyContainer = new OgreContainer(entityCopy);
        entityCopy->setUserAny(Ogre::Any(entityCopyContainer));
        if (!entity->getUserAny().isEmpty()) {
            OgreContainer *entityContainer = Ogre::any_cast<OgreContainer *>(entity->getUserAny());
			if (entityContainer) {
                QObject::connect(entityContainer, SIGNAL(animationStateUpdated(const QString &, double)), entityCopyContainer, SLOT(updateAnimationState(const QString &, double)));
				QObject::connect(entityContainer, SIGNAL(boneTransformUpdated(const QString &, double, double, double, double, double, double)), entityCopyContainer, SLOT(updateBoneTransform(const QString &, double, double, double, double, double, double)));
			}
        }
        result = dynamic_cast<Ogre::MovableObject *>(entityCopy);
    } else if (typeName == "Light") {
        // clone light
        Ogre::Light *light = dynamic_cast<Ogre::Light *>(movableObject);
        Ogre::Light *lightCopy = sceneManager->createLight(name.toStdString());
        lightCopy->setType(light->getType());
        lightCopy->setDiffuseColour(light->getDiffuseColour());
        lightCopy->setSpecularColour(light->getSpecularColour());
        lightCopy->setAttenuation(light->getAttenuationRange(), light->getAttenuationConstant(), light->getAttenuationLinear(), light->getAttenuationQuadric());
        lightCopy->setPosition(light->getPosition());
        lightCopy->setDirection(light->getDirection());
        if (lightCopy->getType() == Ogre::Light::LT_SPOTLIGHT)
            lightCopy->setSpotlightRange(light->getSpotlightInnerAngle(), light->getSpotlightOuterAngle(), light->getSpotlightFalloff());
        lightCopy->setPowerScale(light->getPowerScale());
        lightCopy->setCastShadows(light->getCastShadows());

        // create a new container for the cloned light
        OgreContainer *lightCopyContainer = new OgreContainer(lightCopy);
        lightCopy->setUserAny(Ogre::Any(lightCopyContainer));
        if (!light->getUserAny().isEmpty()) {
            OgreContainer *lightContainer = Ogre::any_cast<OgreContainer *>(light->getUserAny());
            if (lightContainer)
                QObject::connect(lightContainer, SIGNAL(sceneNodeUpdated()), lightCopyContainer, SLOT(updateLight()));
        }
        result = dynamic_cast<Ogre::MovableObject *>(lightCopy);
    } else if (typeName == "Camera") {
        // clone camera
        Ogre::Camera *camera = dynamic_cast<Ogre::Camera *>(movableObject);
        Ogre::Camera *cameraCopy = sceneManager->createCamera(name.toStdString());
        //cameraCopy->setCustomParameter(0, camera->getCustomParameter(0));
        cameraCopy->setAspectRatio(camera->getAspectRatio());
        cameraCopy->setAutoAspectRatio(camera->getAutoAspectRatio());
        //cameraCopy->setAutoTracking(...);
        cameraCopy->setCastShadows(camera->getCastsShadows());
        //cameraCopy->setCullingFrustum(camera->getCullingFrustum());
        //cameraCopy->setCustomParameter(...);
        //cameraCopy->setCustomProjectionMatrix(..);
        //cameraCopy->setCustomViewMatrix(..);
        //cameraCopy->setDebugDisplayEnabled(...);
        //cameraCopy->setDefaultQueryFlags(...);
        //cameraCopy->setDefaultVisibilityFlags(...);
        cameraCopy->setDirection(camera->getDirection());
        //cameraCopy->setFixedYawAxis(...);
        cameraCopy->setFocalLength(camera->getFocalLength());
        cameraCopy->setFOVy(camera->getFOVy());

        //Ogre::Real left;
        //Ogre::Real right;
        //Ogre::Real top;
        //Ogre::Real bottom;
        //camera->getFrustumExtents(left, right, top, bottom);
        //cameraCopy->setFrustumExtents(left, right, top, bottom);
        //cameraCopy->setFrustumOffset(camera->getFrustumOffset());
        //cameraCopy->setListener(camera->getListener());
        cameraCopy->setLodBias(camera->getLodBias());
        //cameraCopy->setLodCamera(camera->getLodCamera());
        cameraCopy->setNearClipDistance(camera->getNearClipDistance());
        cameraCopy->setFarClipDistance(camera->getFarClipDistance());
        cameraCopy->setOrientation(camera->getOrientation());
        //cameraCopy->setOrthoWindow(...);
        //cameraCopy->setOrthoWindowHeight(...);
        //cameraCopy->setOrthoWindowWidth(...);
        cameraCopy->setPolygonMode(camera->getPolygonMode());
        cameraCopy->setPolygonModeOverrideable(camera->getPolygonModeOverrideable());
        cameraCopy->setPosition(camera->getPosition());
        cameraCopy->setProjectionType(camera->getProjectionType());
        cameraCopy->setQueryFlags(camera->getQueryFlags());
        cameraCopy->setRenderingDistance(camera->getRenderingDistance());
        cameraCopy->setRenderQueueGroup(camera->getRenderQueueGroup());
        //cameraCopy->setRenderSystemData(camera->getRenderSystemData());
        cameraCopy->setUseIdentityProjection(camera->getUseIdentityProjection());
        cameraCopy->setUseIdentityView(camera->getUseIdentityView());
        //cameraCopy->setUserAny(camera->getUserAny());
        cameraCopy->setUseRenderingDistance(camera->getUseRenderingDistance());
        //cameraCopy->setUserObject(camera->getUserObject());
        cameraCopy->setVisibilityFlags(camera->getVisibilityFlags());
        cameraCopy->setVisible(camera->getVisible());
        //cameraCopy->setWindow(...);

        if (!movableObject->getUserAny().isEmpty()) {
            CameraInfo *sourceCameraInfo = Ogre::any_cast<CameraInfo *>(movableObject->getUserAny());
            if (sourceCameraInfo) {
                CameraInfo *targetCameraInfo = new CameraInfo();
                targetCameraInfo->width = sourceCameraInfo->width;
                targetCameraInfo->height = sourceCameraInfo->height;
                dynamic_cast<Ogre::MovableObject *>(cameraCopy)->setUserAny(Ogre::Any(targetCameraInfo));
            }
        }

        //// Setup connections for instances
        //SceneNode *targetSceneNode = new SceneNode(cameraCopy);
        //((Ogre::MovableObject *)cameraCopy)->setUserAny(Ogre::Any(targetSceneNode));
        //if (!((Ogre::MovableObject *)camera)->getUserAny().isEmpty()) {
        //    SceneNode *sourceSceneNode = Ogre::any_cast<SceneNode *>(((Ogre::MovableObject *)camera)->getUserAny());
        //    if (sourceSceneNode) {
        //        QObject::connect(sourceSceneNode, SIGNAL(sceneNodeUpdated()), targetSceneNode, SLOT(updateSceneNode()));
        //    }
        //}

        result = dynamic_cast<Ogre::MovableObject *>(cameraCopy);
    }

    if (!result)
        Log::error(QString("Could not clone movable object \"%1\" of type \"%2\".").arg(movableObject->getName().c_str()).arg(typeName.c_str()), "OgreTools::cloneMovableObject");

    return result;
}
Ogre::SceneNode *TutorialApplication::loadBSP(std::shared_ptr<l2p::UModel> m, bool ignoreNonVisible) {
  l2p::Name name = m->package->name;
  std::vector<float> vertex_data;
  std::vector<uint32_t> index_buf;
  l2p::Box bounds;

  // Build vertex and index buffer.
  for (auto ni = m->nodes.begin(), ne = m->nodes.end(); ni != ne; ++ni) {
    l2p::BSPNode &n = *ni;
    l2p::BSPSurface &s = m->surfaces[n.surface];

    if (ignoreNonVisible && ignoreNode(m.get(), n, s))
      continue;

    uint32_t vert_start = vertex_data.size() / 8;

    const Ogre::Vector3 uvec = ogre_cast(m->vectors[s.U]);
    const Ogre::Vector3 vvec = ogre_cast(m->vectors[s.V]);
    const Ogre::Vector3 base = ogre_cast(m->points[s.base]);
    int usize = 0;
    int vsize = 0;
    std::shared_ptr<l2p::UTexture> mat = s.material;
    if (mat) {
      usize = mat->USize;
      vsize = mat->VSize;
    }

    if (usize == 0 || vsize == 0)
      usize = vsize = 64;

    // Vertex buffer.
    if (n.num_verticies > 0) {
      l2p::Vector Normal = m->vectors[s.normal];

      for (uint32_t vert_index = 0; vert_index < n.num_verticies; ++vert_index) {
        const l2p::Vector &pos = m->points[m->vertexes[n.vert_pool + vert_index].vertex];
        const Ogre::Vector3 dist(ogre_cast(pos) - base);
        const Ogre::Vector2 tcoord((dist | uvec) / float(usize), (dist | vvec) / float(vsize));
        bounds += pos;
        vertex_data.push_back(pos.X);
        vertex_data.push_back(pos.Y);
        vertex_data.push_back(pos.Z);
        vertex_data.push_back(Normal.X);
        vertex_data.push_back(Normal.Y);
        vertex_data.push_back(Normal.Z);
        vertex_data.push_back(tcoord.x);
        vertex_data.push_back(tcoord.y);
      }

      if (s.flags & l2p::PF_TwoSided) {
        for (uint32_t vert_index = 0; vert_index < n.num_verticies; ++vert_index) {
          const l2p::Vector &pos = m->points[m->vertexes[n.vert_pool + vert_index].vertex];
          const Ogre::Vector3 dist(ogre_cast(pos) - base);
          const Ogre::Vector2 tcoord((dist | uvec) / float(usize), (dist | vvec) / float(vsize));
          vertex_data.push_back(pos.X);
          vertex_data.push_back(pos.Y);
          vertex_data.push_back(pos.Z);
          vertex_data.push_back(Normal.X);
          vertex_data.push_back(Normal.Y);
          vertex_data.push_back(-Normal.Z);
          vertex_data.push_back(tcoord.x);
          vertex_data.push_back(tcoord.y);
        }
      }
    }

    // Index buffer.
    for (int verti = 2; verti < n.num_verticies; ++verti) {
      index_buf.push_back(vert_start);
      index_buf.push_back(vert_start + verti - 1);
      index_buf.push_back(vert_start + verti);
    }
    if (s.flags & l2p::PF_TwoSided) {
      for (int verti = 2; verti < n.num_verticies; ++verti) {
        index_buf.push_back(vert_start);
        index_buf.push_back(vert_start + verti);
        index_buf.push_back(vert_start + verti - 1);
      }
    }
  }

  if (vertex_data.size() == 0 || index_buf.size() == 0)
    return nullptr;

  Ogre::MeshPtr mesh = Ogre::MeshManager::getSingleton().createManual(Ogre::String(name) + Ogre::String(m->name), "General");
  Ogre::VertexData  *data = new Ogre::VertexData();
  mesh->sharedVertexData = data;
  data->vertexCount = vertex_data.size() / 8;

  Ogre::VertexDeclaration *decl = data->vertexDeclaration;
  uint32_t offset = 0;
  decl->addElement(0, offset, Ogre::VET_FLOAT3, Ogre::VES_POSITION);
  offset += Ogre::VertexElement::getTypeSize(Ogre::VET_FLOAT3);
  decl->addElement(0, offset, Ogre::VET_FLOAT3, Ogre::VES_NORMAL);
  offset += Ogre::VertexElement::getTypeSize(Ogre::VET_FLOAT3);
  decl->addElement(0, offset, Ogre::VET_FLOAT2, Ogre::VES_TEXTURE_COORDINATES);
  offset += Ogre::VertexElement::getTypeSize(Ogre::VET_FLOAT2);

  Ogre::HardwareVertexBufferSharedPtr vbuf =
    Ogre::HardwareBufferManager::getSingleton().createVertexBuffer(
      offset,
      data->vertexCount,
      Ogre::HardwareBuffer::HBU_STATIC_WRITE_ONLY);
  vbuf->writeData(0, vbuf->getSizeInBytes(), &vertex_data.front(), true);
  data->vertexBufferBinding->setBinding(0, vbuf);

  // Setup index buffer.
  Ogre::HardwareIndexBufferSharedPtr ibuf =
    Ogre::HardwareBufferManager::getSingleton().createIndexBuffer(
      Ogre::HardwareIndexBuffer::IT_32BIT,
      index_buf.size(),
      Ogre::HardwareBuffer::HBU_STATIC_WRITE_ONLY);

  ibuf->writeData(0, ibuf->getSizeInBytes(), &index_buf.front(), true);
  Ogre::SubMesh *subMesh = mesh->createSubMesh();
  subMesh->useSharedVertices = true;
  subMesh->indexData->indexBuffer = ibuf;
  subMesh->indexData->indexCount  = index_buf.size();
  subMesh->indexData->indexStart  = 0;

  mesh->_setBounds(Ogre::AxisAlignedBox(bounds.min.X, bounds.min.Y, bounds.min.Z, bounds.max.X, bounds.max.Y, bounds.max.Z));
  mesh->_setBoundingSphereRadius((std::max(bounds.max.X - bounds.min.X, std::max(bounds.max.Y - bounds.min.Y, bounds.max.Z - bounds.min.Z))) / 2.0);

  mesh->load();

  Ogre::Entity *ent = mSceneMgr->createEntity(Ogre::String(name) + Ogre::String(m->name) + "E", Ogre::String(name) + Ogre::String(m->name));
  ent->setUserAny(Ogre::Any(static_cast<l2p::UObject*>(m.get())));
  ent->setMaterialName("StaticMesh/Default");
  Ogre::SceneNode *node = mUnrealCordNode->createChildSceneNode();
  node->attachObject(ent);

  return node;
}