Esempio n. 1
0
void World::DeleteOperation(const Operation & op, OpVector & res)
{
    //A delete operation with an argument sent to the world indicates that an
    //entity should be deleted forcefully (whereas a Delete operation sent to
    //an entity directly, which is the norm, always can be overridden by the entity).
    auto& args = op->getArgs();
    if (!args.empty()) {
        auto arg = args.front();
        if (!arg->isDefaultId()) {
            auto entity = BaseWorld::instance().getEntity(arg->getId());
            if (entity) {
                if (entity == this) {
                    Atlas::Message::Element force;
                    if (arg->copyAttr("force", force) == 0 && force.isInt() && force.asInt() == 1) {
                        clearWorld(res);
                    } else {
                        log(ERROR, "World::DeleteOperation cannot delete world unless 'force' flag is set.");
                    }
                } else {
                    BaseWorld::instance().delEntity(entity.get());
                }
            } else {
                log(NOTICE, String::compose("Tried to delete non existent entity with id %1", arg->getId()));
            }
        } else {
            log(ERROR, "World::DeleteOperation got delete op with arg but no id.");
        }
    } else {
        assert(m_location.m_parent == nullptr);
        // Deleting has no effect.
    }
}
Esempio n. 2
0
void OutfitMatch::testAttribute(const Atlas::Message::Element& attribute, bool triggerEvaluation)
{
	if (attribute.isMap()) {
		Eris::Entity* entity(nullptr);
		const auto& tmap = attribute.asMap();
		auto I = tmap.find(mOutfitName);
		std::string entityId;
		if (I != tmap.end() && Eris::Entity::extractEntityId(I->second, entityId)) {
			entity = mView->getEntity(entityId);
			//the entity might not be available yet, so we need to create an observer for it
			if (!entity) {
				if (mEntityObserver.get()) {
					mEntityObserver->observeCreation(mView, entityId);
				}
			} else {
				testEntity(entity);
			}
		} else {
			testEntity(entity);
		}
	}
	if (triggerEvaluation) {
		evaluateChanges();
	}
}
void ProvidersTest::test_OutfitProviders()
{
    Atlas::Message::Element value;
    //Check if we get the right entity in outfit query
    auto provider = CreateProvider( { "entity", "outfit", "hands" });
    provider->value(value, QueryContext { *m_ch1 });
    assert(value.Ptr() == m_glovesEntity);

    //Check for outfit's property query
    provider = CreateProvider( { "entity", "outfit", "hands", "color" });
    provider->value(value, QueryContext { *m_ch1 });
    assert(value.String() == "brown");

    //Check if we get the right entity in nested outfit query
    provider = CreateProvider(
            { "entity", "outfit", "hands", "outfit", "thumb" });
    provider->value(value, QueryContext { *m_ch1 });
    assert(value.Ptr() == m_cloth);

    //Check for nested outfit's property
    provider = CreateProvider( { "entity", "outfit", "hands", "outfit", "thumb",
            "color" });
    provider->value(value, QueryContext { *m_ch1 });
    assert(value.String() == "green");
}
Esempio n. 4
0
void TasksProperty::set(const Atlas::Message::Element & val)
{
    if (!val.isList())
    {
        log(ERROR, "Task property must be a list.");
        return;
    }

    if (m_task == 0) {
        log(ERROR, "No task in ::set");
        return;
    }

    ListType tasks = val.asList();
    ListType::const_iterator I = tasks.begin();
    ListType::const_iterator Iend = tasks.end();
    for (; I != Iend; ++I) {
        if (!I->isMap()) {
            log(ERROR, "Task must be a map.");
            return;
        }
        const MapType & task = I->asMap();
        MapType::const_iterator J = task.begin();
        MapType::const_iterator Jend = task.end();
        for (J = task.begin(); J != Jend; ++J) {
            m_task->setAttr(J->first, J->second);
        }
    }
}
Esempio n. 5
0
void Tasktest::test_sequence()
{
    m_task->nextTick(1.5);

    Atlas::Message::Element val;
    m_task->getAttr("foo", val);
    assert(val.isNone());
    m_task->setAttr("foo", 1);
    m_task->getAttr("foo", val);
    assert(val.isInt());

    assert(!m_task->obsolete());

    OpVector res;

    assert(res.empty());

    Atlas::Objects::Operation::Generic c;
    c->setParents(std::list<std::string>(1, "generic"));

    m_task->initTask(c, res);

    Operation op;

    m_task->operation(op, res);

    m_task->irrelevant();

    assert(m_task->obsolete());
}
Esempio n. 6
0
void EntityEditor::submitChanges()
{
	if (mRootAdapter->hasChanges()) {
		Atlas::Message::Element rootElement = mRootAdapter->getSelectedChangedElements();
		if (rootElement.isMap()) {
			std::map<std::string, ::Atlas::Message::Element> attributes(rootElement.asMap());
			if (attributes.size()) {

				std::stringstream ss;

				Atlas::Message::QueuedDecoder decoder;

				Atlas::Codecs::XML codec(ss, decoder);
				Atlas::Formatter formatter(ss, codec);
				Atlas::Message::Encoder encoder(formatter);
				formatter.streamBegin();
				encoder.streamMessageElement(attributes);
				formatter.streamEnd();
				S_LOG_VERBOSE("Sending attribute update to server:\n" << ss.str());

				EmberServices::getSingleton().getServerService().setAttributes(&mEntity, attributes);
			}
		}
	}
}
void TerrainModAdapter::updateGui(const ::Atlas::Message::Element& element)
{
	mPositioningsBinder.sync();
	mTerrainModsBinder.sync();
	if (element.isMap()) {
		const ::Atlas::Message::MapType& mapElement = element.asMap();
		::Atlas::Message::MapType::const_iterator I = mapElement.find("height");
		float height = 0;
		if (I != mapElement.end()) {
			mPositioningsBinder.select("height");
			if (I->second.isNum()) {
				height = I->second.asNum();
			}
		} else {
			I = mapElement.find("heightoffset");
			if (I != mapElement.end()) {
				mPositioningsBinder.select("heightoffset");
				if (I->second.isNum()) {
					height = I->second.asNum();
				}
			}
		}
		std::stringstream ss;
		ss << height;
		mHeightTextbox->setText(ss.str());
		
		I = mapElement.find("type");
		if (I != mapElement.end() && I->second.isString()) {
			mTerrainModsBinder.select(I->second.asString());
		}
	}
}
TerrainModAdapter::TerrainModAdapter(const ::Atlas::Message::Element& element, CEGUI::PushButton* showButton, EmberEntity* entity, CEGUI::Combobox* posTypeCombobox, CEGUI::Combobox* modTypeCombobox, CEGUI::Editbox* heightTextbox)
: AdapterBase(element), mEntity(entity), mPolygonAdapter(0), mHeightTextbox(heightTextbox), mTerrainModsBinder(modTypeCombobox), mPositioningsBinder(posTypeCombobox)
{
	
	if (element.isMap()) {
		const ::Atlas::Message::MapType& areaData(element.asMap());
		::Atlas::Message::MapType::const_iterator I = areaData.find("shape");
		if (I != areaData.end()) {
			mPolygonAdapter = std::auto_ptr<PolygonAdapter>(new PolygonAdapter(I->second, showButton, entity));
		} else {
			mPolygonAdapter = std::auto_ptr<PolygonAdapter>(new PolygonAdapter(::Atlas::Message::Element(), showButton, entity));
		}
	} else {
		mPolygonAdapter = std::auto_ptr<PolygonAdapter>(new PolygonAdapter(::Atlas::Message::Element(), showButton, entity));
	}
	
	if (heightTextbox) {
		addGuiEventConnection(heightTextbox->subscribeEvent(CEGUI::Window::EventTextChanged, CEGUI::Event::Subscriber(&TerrainModAdapter::heightTextbox_TextChanged, this))); 
	}
	mTerrainModsBinder.addType("levelmod", "Level", LevelTerrainMod());
	mTerrainModsBinder.addType("adjustmod", "Adjust", AdjustTerrainMod());
	
	mPositioningsBinder.addType("height", "Fixed", FixedPositioning());
	mPositioningsBinder.addType("heightoffset", "Relative", RelativePositioning());
	
	updateGui(element);
}
Esempio n. 9
0
bool NumericComparerWrapper::testAttribute(const Atlas::Message::Element& attribute)
{
 	if (attribute.isNum()) {
		return mNumericComparer->test(attribute.asNum());
 	}
 	return false;
}
Esempio n. 10
0
AreaAdapter::AreaAdapter(const ::Atlas::Message::Element& element, CEGUI::PushButton* showButton, CEGUI::Combobox* layerWindow, EmberEntity* entity) :
		AdapterBase(element), mLayer(0), mLayerWindow(layerWindow), mEntity(entity), mPolygonAdapter(nullptr)
{
	if (element.isMap()) {
		const ::Atlas::Message::MapType& areaData(element.asMap());
		::Atlas::Message::MapType::const_iterator shapeI = areaData.find("shape");
		if (shapeI != areaData.end()) {
			mPolygonAdapter = std::unique_ptr<PolygonAdapter>(new PolygonAdapter(shapeI->second, showButton, entity));
		} else {
			::Atlas::Message::MapType defaultShape;

			mPolygonAdapter = std::unique_ptr<PolygonAdapter>(new PolygonAdapter(getDefaultPolygon().toAtlas(), showButton, entity));
		}
		WFMath::Polygon<2> poly;
		Terrain::TerrainAreaParser parser;
		parser.parseArea(areaData, poly, mLayer);
	} else {
		mPolygonAdapter = std::unique_ptr<PolygonAdapter>(new PolygonAdapter(getDefaultPolygon().toAtlas(), showButton, entity));
	}

	if (mLayerWindow) {
		addGuiEventConnection(mLayerWindow->subscribeEvent(CEGUI::Combobox::EventListSelectionChanged, CEGUI::Event::Subscriber(&AreaAdapter::layerWindow_ListSelectionChanged, this)));
	}

	updateGui(mOriginalValue);
}
Esempio n. 11
0
TerrainDefPointStore TerrainParser::parseTerrain(const Atlas::Message::Element& terrain, const WFMath::Point<3>& offset) const
{
	//_fpreset();
	if (!terrain.isMap()) {
		S_LOG_FAILURE("Terrain is not a map");
	}
	const Atlas::Message::MapType & tmap = terrain.asMap();
	Atlas::Message::MapType::const_iterator I = tmap.find("points");
	if (I == tmap.end()) {
		S_LOG_FAILURE("No terrain points");
	}

	Terrain::TerrainDefPointStore pointStore;
	if (I->second.isList()) {
		// Legacy support for old list format.
		const Atlas::Message::ListType& plist = I->second.asList();
		Atlas::Message::ListType::const_iterator J = plist.begin();
		for (; J != plist.end(); ++J) {
			if (!J->isList()) {
				S_LOG_INFO("Non list in points");
				continue;
			}
			const Atlas::Message::ListType & point = J->asList();
			if (point.size() != 3) {
				S_LOG_INFO("Point without 3 nums.");
				continue;
			}

			Terrain::TerrainDefPoint defPoint(static_cast<int> (point[0].asNum() + offset.x()), static_cast<int> (point[1].asNum() + offset.y()), static_cast<float> (point[3].asNum() + offset.z()));
			pointStore.push_back(defPoint);
		}
	} else if (I->second.isMap()) {
		const Atlas::Message::MapType& plist = I->second.asMap();
		Atlas::Message::MapType::const_iterator J = plist.begin();
		for (; J != plist.end(); ++J) {
			if (!J->second.isList()) {
				S_LOG_INFO("Non list in points.");
				continue;
			}
			const Atlas::Message::ListType & point = J->second.asList();
			if (point.size() != 3) {
				S_LOG_INFO("Point without 3 nums.");
				continue;
			}
			int x = static_cast<int> (point[0].asNum());
			int y = static_cast<int> (point[1].asNum());
			float z = point[2].asNum();
			Terrain::TerrainDefPoint defPoint(x  + offset.x(), y + offset.y(), z + offset.z());
			pointStore.push_back(defPoint);
		}
	} else {
		S_LOG_FAILURE("Terrain is the wrong type");
	}
	return pointStore;

}
Esempio n. 12
0
void TerrainEntityManager::entityTerrainModAttrChanged(EmberEntity& entity, const Atlas::Message::Element& value)
{
	if (value.isMap() && mTerrainMods.find(&entity) == mTerrainMods.end()) {
		Terrain::TerrainMod* mod = new Terrain::TerrainMod(entity, value.Map());
		mod->init();
		mTerrainMods.insert(std::make_pair(&entity, mod));
		mTerrainHandler.addTerrainMod(mod);
		entity.BeingDeleted.connect(sigc::bind(sigc::mem_fun(*this, &TerrainEntityManager::entityBeingDeletedTerrainMod), &entity));
	}
}
Esempio n. 13
0
void StdContainer::addToEntity(const std::string & key,
                               const Atlas::Objects::Entity::RootEntity & ent) const
{
    Atlas::Message::Element v = Atlas::Message::ListType();
    Atlas::Message::ListType & contlist = v.asList();
    EntitySet::const_iterator Iend = m_entities.end();
    for (EntitySet::const_iterator I = m_entities.begin(); I != Iend; ++I) {
        contlist.push_back((*I)->getId());
    }
    ent->setAttr(key, v);
}
Esempio n. 14
0
void ContainsRecursiveFunctionProvider::value(Atlas::Message::Element& value,
                                              const QueryContext& context) const
{
    Atlas::Message::Element container;
    m_consumer->value(container, context);
    if (container.isPtr()) {
        value = checkContainer((LocatedEntitySet*)container.Ptr());
    }
    else{
        value = false;
    }
}
Esempio n. 15
0
void RuleTreeAdapter::extractChildren(const Root& op, std::list<std::string>& children)
{
	Atlas::Message::Element childElem;
	if (op->copyAttr("children", childElem) == 0) {
		if (childElem.isList()) {
			for (auto child : childElem.asList()) {
				if (child.isString()) {
					children.push_back(child.asString());
				}
			}
		}
	}
}
Esempio n. 16
0
int main()
{
    int ret = 0;

    Operation op;

    {
        Task * task;
        OpVector res;

        if (0) {
            task->TickOperation(op, res);
        }
    }

    Entity ent1("1", 1), ent2("2", 2);
    Character chr("3", 3);

    {
        Fell fell(chr, ent1, ent2);

        fell.nextTick(1.5);

        Atlas::Message::Element val;
        fell.getAttr("foo", val);
        assert(val.isNone());
        fell.setAttr("foo", 1);
        fell.getAttr("foo", val);
        assert(val.isInt());

        assert(!fell.obsolete());

        OpVector res;

        assert(res.empty());

        Atlas::Objects::Operation::Generic c;

        fell.initTask(c, res);

        assert(!res.empty());

        fell.TickOperation(op, res);

        fell.irrelevant();

        assert(fell.obsolete());
    }

    return ret;
}
Esempio n. 17
0
void TerrainShaderParser::createShaders(const Atlas::Message::Element& surfaces)
{
  Terrain::TerrainLayerDefinitionManager& terrainManager = Terrain::TerrainLayerDefinitionManager::getSingleton();
  bool isValid = false;
  if (surfaces.isList()) {
    const Atlas::Message::ListType & slist(surfaces.asList());
    for (Atlas::Message::ListType::const_iterator I = slist.begin(); I != slist.end(); ++I) {
      if (I->isMap()) {
        std::string name;
        std::string pattern;
        const Atlas::Message::MapType& surfaceMap(I->asMap());

        Mercator::Shader::Parameters params;
        if (surfaceMap.count("params")) {
          const Atlas::Message::Element& paramsElem(surfaceMap.find("params")->second);
          if (paramsElem.isMap()) {
            for (Atlas::Message::MapType::const_iterator J = paramsElem.asMap().begin(); J != paramsElem.asMap().end(); ++J) {
              if (J->second.isNum()) {
                params[J->first] = J->second.asNum();
              }
            }
          }
        }

        if (surfaceMap.count("name")) {
          const Atlas::Message::Element& nameElem(surfaceMap.find("name")->second);
          if (nameElem.isString()) {
            const std::string& name = nameElem.asString();
            Terrain::TerrainLayerDefinition* def(terrainManager.getDefinitionForShader(name));
            if (def) {
              if (surfaceMap.count("pattern")) {
                const Atlas::Message::Element& patternElem(surfaceMap.find("pattern")->second);
                if (patternElem.isString()) {
                  const std::string& pattern = patternElem.asString();
                  Mercator::Shader* shader = Mercator::ShaderFactories::instance().newShader(pattern, params);
                  if (shader) {
                    isValid = true;
                    mTerrainHandler.createShader(def, shader);
                  }
                }
              }
            }
          }
        }
      }
    }
  }
  if (!isValid) {
    createDefaultShaders();
  }
}
Esempio n. 18
0
void StaticAdapter::updateGui(const ::Atlas::Message::Element& element)
{
	SelfUpdateContext context(*this);
	
	if (mTextWindow) {
		if (element.isString()) {
			mTextWindow->setText(element.asString());
		} else if (element.isNum()) {
			std::stringstream ss;
			ss << element.asNum();
			mTextWindow->setText(ss.str());
		}
	}
}
Esempio n. 19
0
void EmberEntity::onImaginary(const Atlas::Objects::Root& act)
{
  Atlas::Message::Element attr;
  if (act->copyAttr("description", attr) && attr.isString()) {
    std::string message = getName() + " " + attr.asString() + ".";

    ConsoleBackend::getSingletonPtr()->pushMessage(message, "info");

    S_LOG_VERBOSE("Entity: " << this->getId() << " (" << this->getName() << ") imaginary: " << attr.String());
  }

  Entity::onImaginary(act);

}
Esempio n. 20
0
void EntityProperty::set(const Atlas::Message::Element & val)
{
    // INT id?
    if (val.isString()) {
        const std::string & id = val.String();
        if (m_data.get() == 0 || m_data->getId() != id) {
            debug(std::cout << "Assigning " << id << std::endl << std::flush;);
            if (id.empty()) {
                m_data = EntityRef(0);
            } else {
                LocatedEntity * e = BaseWorld::instance().getEntity(id);
                if (e != 0) {
                    debug(std::cout << "Assigned" << std::endl << std::flush;);
                    m_data = EntityRef(e);
                }
Esempio n. 21
0
void MapProvider::value(Atlas::Message::Element& value, const Atlas::Message::Element& parent_element) const
{
    if (!parent_element.isMap()) {
        return;
    }
    auto I = parent_element.Map().find(m_attribute_name);
    if (I == parent_element.Map().end()) {
        return;
    }
    if (m_consumer) {
        m_consumer->value(value, I->second);
    } else {
        value = I->second;
    }
}
Esempio n. 22
0
void SizeAdapter::updateGui(const ::Atlas::Message::Element& element)
{
	SelfUpdateContext context(*this);
	
	WFMath::AxisBox<3> axisBox;
	try {
		axisBox.fromAtlas(element.asList());
	} catch (...) {
		axisBox = WFMath::AxisBox<3>(WFMath::Point<3>(-0.5, -0.5, -0.5), WFMath::Point<3>(0.5, 0.5, 0.5));
	}
	if (mWidgets.lowerXWindow) {
		mWidgets.lowerXWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.lowCorner().x()));
	}
	if (mWidgets.lowerYWindow) {
		mWidgets.lowerYWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.lowCorner().y()));
	}
	if (mWidgets.lowerZWindow) {
		mWidgets.lowerZWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.lowCorner().z()));
	}
	if (mWidgets.upperXWindow) {
		mWidgets.upperXWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.highCorner().x()));
	}
	if (mWidgets.upperYWindow) {
		mWidgets.upperYWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.highCorner().y()));
	}
	if (mWidgets.upperZWindow) {
		mWidgets.upperZWindow->setText(ValueTypeHelper<float, std::string>::convert(axisBox.highCorner().z()));
	}

	updateInfo();

}
Esempio n. 23
0
Py::Object CyPy_Element::wrap(Atlas::Message::Element value)
{
    if (value.isNone()) {
        return Py::None();
    } else if (value.isString()) {
        return Py::String(value.String());
    } else if (value.isInt()) {
        return Py::Long(value.Int());
    } else if (value.isFloat()) {
        return Py::Float(value.Float());
    } else if (value.isList()) {
        return CyPy_ElementList::wrap(value.List());
    } else {
        return CyPy_ElementMap::wrap(value.Map());
    }
}
Esempio n. 24
0
void SizeAdapter::updateGui(const ::Atlas::Message::Element& element)
{
	AdapterSelfUpdateContext context(*this);
	WFMath::AxisBox<3> axisBox;
	try {
		axisBox.fromAtlas(element.asList());
	} catch (...) {
		axisBox = WFMath::AxisBox<3>(WFMath::Point<3>(-0.5, -0.5, -0.5), WFMath::Point<3>(0.5, 0.5, 0.5));
	}
	if (mLowerXWindow) {
		mLowerXWindow->setText(toString(axisBox.lowCorner().x()));
	}
	if (mLowerYWindow) {
		mLowerYWindow->setText(toString(axisBox.lowCorner().y()));
	}
	if (mLowerZWindow) {
		mLowerZWindow->setText(toString(axisBox.lowCorner().z()));
	}
	if (mUpperXWindow) {
		mUpperXWindow->setText(toString(axisBox.highCorner().x()));
	}
	if (mUpperYWindow) {
		mUpperYWindow->setText(toString(axisBox.highCorner().y()));
	}
	if (mUpperZWindow) {
		mUpperZWindow->setText(toString(axisBox.highCorner().z()));
	}

	updateInfo();

}
Esempio n. 25
0
bool TerrainArea::parseArea()
{
	if (!mEntity.hasAttr("area")) {
		S_LOG_FAILURE("TerrainArea created for entity with no area attribute");
		return false;
	}

	const Atlas::Message::Element areaElem(mEntity.valueOfAttr("area"));

	if (!areaElem.isMap()) {
		S_LOG_FAILURE("TerrainArea element ('area') must be of map type.");
		return false;
	}

	const Atlas::Message::MapType& areaData(areaElem.asMap());

	int layer = 0;
	WFMath::Polygon<2> poly;
	TerrainAreaParser parser;
	if (parser.parseArea(areaData, poly, layer)) {
		if (!mArea) {
			mArea = new Mercator::Area(layer, false);
		} else {
			//A bit of an ugly hack here since the Mercator system doesn't support changing the layer. We need to swap the old area for a new one if the layer has changed.
			if (mArea->getLayer() != layer) {
				mOldArea = mArea;
				mArea = new Mercator::Area(layer, false);
			}
		}
		// transform polygon into terrain coords
		WFMath::Vector<3> xVec = WFMath::Vector<3>(1.0, 0.0, 0.0).rotate(mEntity.getOrientation());
		double theta = atan2(xVec.y(), xVec.x()); // rotation about Z

		WFMath::RotMatrix<2> rm;
		poly.rotatePoint(rm.rotation(theta), WFMath::Point<2>(0, 0));
		poly.shift(WFMath::Vector<2>(mEntity.getPosition().x(), mEntity.getPosition().y()));

		mArea->setShape(poly);

		return true;
	} else {
		return false;
	}
}
Esempio n. 26
0
void NumberAdapter::updateGui(const ::Atlas::Message::Element& element)
{
	SelfUpdateContext context(*this);
	
	if (mTextWindow) {
		std::stringstream ss;
		ss << element.asNum();
		mTextWindow->setText(ss.str());
	}
}
void ProvidersTest::test_EntityProperty()
{

    Atlas::Message::Element value;

    auto provider = CreateProvider( { "entity" });

    provider->value(value, QueryContext { *m_b1 });
    assert(value.Ptr() == m_b1);

    //entity.type
    provider = CreateProvider( { "entity", "type" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Ptr() == m_barrelType);

    //entity.id
    provider = CreateProvider( { "entity", "id" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Int() == 1);

    //entity.mass
    provider = CreateProvider( { "entity", "mass" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Int() == 30);

    //entity.burn_speed
    provider = CreateProvider( { "entity", "burn_speed" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 0.3);
}
void ProvidersTest::test_BBoxProviders()
{
    Atlas::Message::Element value;
    //entity.bbox.volume
    auto provider = CreateProvider( { "entity", "bbox", "volume" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 48.0);

    //entity.bbox.height
    provider = CreateProvider( { "entity", "bbox", "height" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 6.0);

    //entity.bbox.width
    provider = CreateProvider( { "entity", "bbox", "width" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 2.0);

    //entity.bbox.depth
    provider = CreateProvider( { "entity", "bbox", "depth" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 4.0);

    //entity.bbox.area
    provider = CreateProvider( { "entity", "bbox", "area" });
    provider->value(value, QueryContext { *m_b1 });
    assert(value.Float() == 8.0);
}
Esempio n. 29
0
void TerrainArea::parse(const Atlas::Message::Element& value, Mercator::Area** area)
{
	if (!value.isMap()) {
		S_LOG_FAILURE("TerrainArea element ('area') must be of map type.");
		return;
	}

	const Atlas::Message::MapType& areaData = value.Map();
	TerrainAreaParser parser;
	if (!parser.parseArea(areaData, mParsedPoly, mParsedLayer)) {
		return;
	} else {

		WFMath::Polygon<2> poly = mParsedPoly;
		if (!placeArea(poly)) {
			return;
		}
		//TODO: handle holes
		*area = new Mercator::Area(mParsedLayer, false);
		(*area)->setShape(poly);
	}
}
Esempio n. 30
0
int OutfitProperty::get(Atlas::Message::Element & val) const
{
    val = MapType();
    MapType & val_map = val.Map();

    EntityRefMap::const_iterator I = m_data.begin();
    EntityRefMap::const_iterator Iend = m_data.end();
    for (; I != Iend; ++I) {
        const EntityRef & item = I->second;
        if (item.get() == 0) {
            val_map[I->first] = "";
        } else {
            val_map[I->first] = item->getId();
        }
    }

    return 0;
}