示例#1
0
void ClientConnection::processAnonymousGet(const Get& get)
{
    const std::vector<Root>& args = get->getArgs();
    if (args.empty())
    {
        Info serverInfo;
        RootEntity svObj;
        
        Atlas::Message::ListType prs;
        prs.push_back("server");
        svObj->setParentsAsList(prs);
        
        svObj->setName("Bob's StubServer");
        svObj->setAttr("server", "stubserver");
        svObj->setAttr("ruleset", "stub-world");
        svObj->setAttr("uptime", 666.0);
        svObj->setAttr("clients", 42);
        
        serverInfo->setArgs1(svObj);
        send(serverInfo);
    } else {
        std::string typeName = args.front()->getId();

        if (m_server->m_types.count(typeName))
        {
            Info typeInfo;
            typeInfo->setArgs1(m_server->m_types[typeName]);
            typeInfo->setRefno(get->getSerialno());
            send(typeInfo);
        } else
            sendError("unknown type " + typeName, get);
    }
}
示例#2
0
void check_float_list3(const Atlas::Message::ListType &list,
                       double el1, double el2, double el3)
{
    assert( list.size() == 3 );
    Atlas::Message::ListType::const_iterator i = list.begin();
    assert( (*i++) == el1 );
    assert( (*i++) == el2 );
    assert( (*i++) == el3 );
    i++;
}
void EntityImporterBase::updateRule(const Root& existingDefinition, const Root& newDefinition, OpVector & res)
{

    m_state = RULE_UPDATING;
    Root updatedDefinition = newDefinition.copy();

    //If the existing definition had any children that aren't part of the import, we should preserve those
    std::list<std::string> existingChildren, newChildren;
    extractChildren(existingDefinition, existingChildren);
    extractChildren(newDefinition, newChildren);

    for (auto& child : newChildren) {
        existingChildren.remove(child);
    }

    for (auto& child : existingChildren) {
        if (mPersistedRules.find(child) == mPersistedRules.end()) {
            newChildren.push_back(child);
        }
    }

    if (!newChildren.empty() && !existingChildren.empty()) {
        Atlas::Message::ListType childrenElement;
        for (auto& child : newChildren) {
            childrenElement.emplace_back(child);
        }
        updatedDefinition->setAttr("children", childrenElement);
    }

    if (updatedDefinition->asMessage() != existingDefinition->asMessage()) {
        S_LOG_INFO("Updating server rule '"<< updatedDefinition->getId() << "'.");
        Atlas::Objects::Operation::Set setOp;
        setOp->setFrom(mAccountId);
        setOp->setArgs1(updatedDefinition);

        setOp->setSerialno(newSerialNumber());
        res.push_back(setOp);
    } else {
        mStats.rulesProcessedCount++;
        EventProgress.emit();
        S_LOG_VERBOSE("Not updating server rule '"<< updatedDefinition->getId() << "' as nothing is changed.");
        walkRules(res);
    }
}
float extractFloat(const Atlas::Message::ListType& params, size_t position)
{
  if (params.size() > position) {
    const Atlas::Message::Element& elem(params[position]);
    if (elem.isNum()) {
      return elem.asNum();
    }
  }
  return 0;
}
示例#5
0
	void testApplyMod()
	{

		bool shouldQuit, pollEris;
		MainLoopController loopController(shouldQuit, pollEris);
		Ogre::Root root;

		TerrainSetup terrainSetup;
		Terrain::TerrainHandler& terrainHandler = terrainSetup.terrainHandler;
		DummyEntity entity;
		EntityHolder entityHolder(entity);
		entity.setAttr("pos", WFMath::Point<3>::ZERO().toAtlas());

		float terrainHeight = 25.0f;

		CPPUNIT_ASSERT(terrainSetup.createBaseTerrain(terrainHeight));
		CPPUNIT_ASSERT(terrainSetup.createPages());
		CPPUNIT_ASSERT(terrainSetup.reloadTerrain());

		Atlas::Message::ListType polygon;

		polygon.push_back(WFMath::Point<2>(-10, -10).toAtlas());
		polygon.push_back(WFMath::Point<2>(-10, 10).toAtlas());
		polygon.push_back(WFMath::Point<2>(10, 10).toAtlas());
		polygon.push_back(WFMath::Point<2>(10, -10).toAtlas());

		Atlas::Message::MapType shape;
		shape["points"] = polygon;
		shape["type"] = "polygon";

		Atlas::Message::MapType mod;
		mod["shape"] = shape;
		mod["type"] = "levelmod";
		mod["heightoffset"] = 2.0f;

		entity.setAttr("terrainmod", mod);

		OgreView::Terrain::TerrainMod terrainMod(entity);
		terrainMod.init();
		terrainHandler.addTerrainMod(&terrainMod);

	}
int main()
{
    Eris::Logged.connect(sigc::ptr_fun(writeLog));
    Eris::setLogLevel(Eris::LOG_DEBUG);
    {
        TestConnection con("name", "localhost",
                                                    6767, true);

        TestAccount acc(&con);
        
        std::string fake_char_id("1");
        TestAvatar ea(&acc, fake_char_id);
        acc.setup_insertActiveCharacters(&ea);
        TestEntity* char_ent = new TestEntity(fake_char_id, 0, ea.getView());
        ea.setup_setEntity(char_ent);
        
        typedef std::map<std::string, Atlas::Message::Element> ElementStore;
        ElementStore modTypes;
        ElementStore shapes;
        
        ElementStore levelMods;
        Atlas::Message::MapType levelMod1;
        levelMod1["type"] = Atlas::Message::Element("levelmod");
        levelMods["1"] = levelMod1;
        Atlas::Message::MapType levelMod2(levelMod1);
        levelMod2["height"] = 20;
        levelMods["2"] = levelMod2;
        Atlas::Message::MapType levelMod3(levelMod1);
        levelMod2["heightoffset"] = 30;
        levelMods["3"] = levelMod3;
        
        
        ElementStore adjustMods;
        Atlas::Message::MapType adjustMod1;
        adjustMod1["type"] = Atlas::Message::Element("adjustmod");
        adjustMods["1"] = levelMod1;
        Atlas::Message::MapType adjustMod2(adjustMod1);
        adjustMod2["height"] = 20;
        adjustMods["2"] = adjustMod2;
        Atlas::Message::MapType adjustMod3(adjustMod1);
        adjustMod2["heightoffset"] = 30;
        adjustMods["3"] = adjustMod3;
        
        Atlas::Message::MapType craterMod1;
        craterMod1["type"] = Atlas::Message::Element("cratermod");
        
        ElementStore slopeMods;
        Atlas::Message::MapType slopeMod1;
        slopeMod1["type"] = Atlas::Message::Element("slopemod");
        Atlas::Message::ListType slopes;
        slopes.push_back(10);
        slopes.push_back(20);
        slopeMod1["slopes"] = slopes;
        slopeMods["1"] = slopeMod1;
        
        
        Atlas::Message::MapType shapeCircle;
        shapeCircle["radius"] = 15;
        shapeCircle["position"] = Atlas::Message::ListType(2, 0.);
        shapeCircle["type"] = "ball";
        shapes["ball"] = shapeCircle;
        
        Atlas::Message::MapType shapePolygon;
        Atlas::Message::ListType points;
        points.push_back(WFMath::Point<2>(0,0).toAtlas());
        points.push_back(WFMath::Point<2>(10,0).toAtlas());
        points.push_back(WFMath::Point<2>(10,10).toAtlas());
        points.push_back(WFMath::Point<2>(0,10).toAtlas());
        shapePolygon["points"] = points;
        shapePolygon["type"] = "polygon";
        shapes["polygon"] = shapePolygon;
        
        shapes["empty"] = Atlas::Message::MapType();
        
        //no terrain mod info
        {
            Atlas::Message::MapType emptyElement;
            TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
            mod_ent->setup_setAttr("terrainmod", emptyElement);
            
            Eris::TerrainModObserver mod(mod_ent);
            assert(!mod.init());
            
        }
        
        //no shape
        {
            Atlas::Message::MapType modElement = levelMod1;
            TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
            mod_ent->setup_setAttr("terrainmod", modElement);
            
            Eris::TerrainModObserver mod(mod_ent);
            assert(!mod.init());
            
        }       
         
        //test level mod
        for (ElementStore::iterator I = levelMods.begin(); I != levelMods.end(); ++I) {
            for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
                std::cout << "Testing level mod " << I->first << " with " << J->first << std::endl;
                Atlas::Message::Element modElement = I->second;
                modElement.asMap()["shape"] = J->second;
                TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
                mod_ent->setup_setAttr("terrainmod", modElement);
                
                Eris::TerrainModObserver mod(mod_ent);
                if (J->first == "empty") {
                    assert(!mod.init());
                } else {
                    assert(mod.init());
                }
            }
        }        
        
        //test adjust mod
        for (ElementStore::iterator I = adjustMods.begin(); I != adjustMods.end(); ++I) {
            for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
                std::cout << "Testing adjust mod " << I->first << " with " << J->first << std::endl;
                Atlas::Message::Element modElement = I->second;
                modElement.asMap()["shape"] = J->second;
                TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
                mod_ent->setup_setAttr("terrainmod", modElement);
                
                Eris::TerrainModObserver mod(mod_ent);
                if (J->first == "empty") {
                    assert(!mod.init());
                } else {
                    assert(mod.init());
                }
            }
        }
                
        //test slope mod
        for (ElementStore::iterator I = slopeMods.begin(); I != slopeMods.end(); ++I) {
            for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
                std::cout << "Testing slope mod " << I->first << " with " << J->first << std::endl;
                Atlas::Message::Element modElement = I->second;
                modElement.asMap()["shape"] = J->second;
                TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
                mod_ent->setup_setAttr("terrainmod", modElement);
                
                Eris::TerrainModObserver mod(mod_ent);
                if (J->first == "empty") {
                    assert(!mod.init());
                } else {
                    assert(mod.init());
                }
            }
        }
        
        Atlas::Message::MapType shapeBall;
        shapeBall["radius"] = 15;
        shapeBall["position"] = Atlas::Message::ListType(3, 0.);
        shapeBall["type"] = "ball";
        
        //test crater mod
        {
            Atlas::Message::MapType modElement = craterMod1;
            modElement["shape"] = shapeCircle;
            TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
            mod_ent->setup_setAttr("terrainmod", modElement);
            
            Eris::TerrainModObserver mod(mod_ent);
            assert(mod.init());
            
        }
    }
    return 0;
}
void EntityImporterBase::sendMinds()
{
    if (!mResolvedMindMapping.empty()) {
        S_LOG_INFO("Sending minds.");
        for (auto mind : mResolvedMindMapping) {
            Atlas::Message::MapType message;
            mind.second->addToMessage(message);

            Atlas::Message::Element thoughtsElem = message["thoughts"];
            Atlas::Message::ListType thoughtArgs;

            if (thoughtsElem.isList()) {
                Atlas::Message::ListType thoughtList = thoughtsElem.List();

                for (auto& thought : thoughtList) {
                    //If the thought is a list of things the entity owns, we should adjust it with the new entity ids.
                    if (thought.isMap()) {
                        auto& thoughtMap = thought.Map();
                        if (thoughtMap.count("things") > 0) {
                            auto& thingsElement = thoughtMap.find("things")->second;
                            if (thingsElement.isMap()) {
                                for (auto& thingI : thingsElement.asMap()) {
                                    if (thingI.second.isList()) {
                                        Atlas::Message::ListType newList;
                                        for (auto& thingId : thingI.second.asList()) {
                                            if (thingId.isString()) {
                                                const auto& entityIdLookupI = mEntityIdMap.find(thingId.asString());
                                                //Check if the owned entity has been created with a new id. If so, replace the data.
                                                if (entityIdLookupI != mEntityIdMap.end()) {
                                                    newList.emplace_back(entityIdLookupI->second);
                                                } else {
                                                    newList.push_back(thingId);
                                                }
                                            } else {
                                                newList.push_back(thingId);
                                            }
                                        }
                                        thingI.second = newList;
                                    }
                                }
                            }
                        }

                        if (thoughtMap.count("pending_things") > 0) {
                            //things that the entity owns, but haven't yet discovered are expressed as a list of entity ids
                            auto& pendingThingsElement = thoughtMap.find("pending_things")->second;
                            if (pendingThingsElement.isList()) {
                                Atlas::Message::ListType newList;
                                for (auto& thingId : pendingThingsElement.asList()) {
                                    if (thingId.isString()) {
                                        const auto& entityIdLookupI = mEntityIdMap.find(thingId.asString());
                                        //Check if the owned entity has been created with a new id. If so, replace the data.
                                        if (entityIdLookupI != mEntityIdMap.end()) {
                                            newList.emplace_back(entityIdLookupI->second);
                                        } else {
                                            newList.push_back(thingId);
                                        }
                                    } else {
                                        newList.push_back(thingId);
                                    }
                                }
                                pendingThingsElement = newList;
                            }
                        }

                        if (thoughtMap.count("object") > 0) {
                            auto& objectElement = thoughtMap.find("object")->second;
                            if (objectElement.isString()) {
                                std::string& objectString = objectElement.String();
                                //Other entities are referred to using the syntax "'$eid:...'".
                                //For example, the entity with id 2 would be "'$eid:2'".
                                auto pos = objectString.find("$eid:");
                                if (pos != std::string::npos) {
                                    auto quotePos = objectString.find('\'', pos);
                                    if (quotePos != std::string::npos) {
                                        auto id = objectString.substr(pos + 5, quotePos - pos - 5);
                                        auto I = mEntityIdMap.find(id);
                                        if (I != mEntityIdMap.end()) {
                                            objectString.replace(pos + 5, quotePos - 7, I->second);
                                        }
                                    }
                                }
                            }
                        }

                    }
                    thoughtArgs.push_back(thought);
                }
            }

            Atlas::Objects::Operation::RootOperation thinkOp;
            thinkOp->setParent("think");
            thinkOp->setTo(mind.first);
            //By setting it TO an entity and FROM our avatar we'll make the server deliver it as
            //if it came from the entity itself (the server rewrites the FROM to be of the entity).
            thinkOp->setFrom(mAvatarId);
            thinkOp->setSerialno(newSerialNumber());

            Atlas::Objects::Operation::Set setOp;
            setOp->setArgsAsList(thoughtArgs);
            thinkOp->setArgs1(setOp);


            mStats.mindsProcessedCount++;
            S_LOG_VERBOSE("Restoring mind of " << mind.first);
            mThoughtOpsInTransit++;

            sigc::slot<void, const Operation&> slot = sigc::mem_fun(*this, &EntityImporterBase::operationThinkResult);
            sendAndAwaitResponse(thinkOp, slot);
            EventProgress.emit();
        }
        mResolvedMindMapping.clear();
    } else {
        complete();
    }
}
示例#8
0
	void testUpdateMod()
	{

		Ogre::Root root;

		TerrainSetup terrainSetup;
		TestTerrainHandler& terrainHandler = terrainSetup.terrainHandler;
		DummyEntity entity;
		EntityHolder entityHolder(entity);

		entity.setAttr("pos", WFMath::Point<3>::ZERO().toAtlas());

		float terrainHeight = 25.0f;

		CPPUNIT_ASSERT(terrainSetup.createBaseTerrain(terrainHeight));
		CPPUNIT_ASSERT(terrainSetup.createPages());
		CPPUNIT_ASSERT(terrainSetup.reloadTerrain());

		Atlas::Message::ListType polygon;

		polygon.push_back(WFMath::Point<2>(-10, -10).toAtlas());
		polygon.push_back(WFMath::Point<2>(-10, 10).toAtlas());
		polygon.push_back(WFMath::Point<2>(10, 10).toAtlas());
		polygon.push_back(WFMath::Point<2>(10, -10).toAtlas());

		Atlas::Message::MapType shape;
		shape["points"] = polygon;
		shape["type"] = "polygon";

		Atlas::Message::MapType mod;
		mod["shape"] = shape;
		mod["type"] = "levelmod";
		mod["heightoffset"] = 2.0f;

		entity.setAttr("terrainmod", mod);

		OgreView::Terrain::TerrainMod* terrainMod = new Terrain::TerrainMod(entity);
		terrainMod->init();

		{
			AfterTerrainUpdateListener afterTerrainUpdateListener(terrainHandler.EventAfterTerrainUpdate);

			//The shape should affect all four pages.
			terrainHandler.addTerrainMod(terrainMod);

			{
				Timer timer;
				do {
					terrainSetup.es.processAllHandlers();
				} while (afterTerrainUpdateListener.getCompletedCount() < 4);
			}
			CPPUNIT_ASSERT(afterTerrainUpdateListener.getCompletedCount() == 4);

			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, -5, 2.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, 5, 2.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, 5, 2.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, -5, 2.0f));

		}

		mod["heightoffset"] = 20.0f;
		//Setting the attribute should trigger a mod change
		entity.setAttr("terrainmod", mod);

		{
			AfterTerrainUpdateListener afterTerrainUpdateListener(terrainHandler.EventAfterTerrainUpdate);

			{
				Timer timer;
				do {
					terrainSetup.es.processAllHandlers();
//				} while ((!timer.hasElapsed(5000)) && afterTerrainUpdateListener.getCompletedCount() < 4);
				} while (afterTerrainUpdateListener.getCompletedCount() < 4);
			}
			CPPUNIT_ASSERT(afterTerrainUpdateListener.getCompletedCount() == 4);
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, -5, 20.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, 5, 20.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, 5, 20.0f));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, -5, 20.0f));

		}

		//Move the mod out of the way
		entity.setAttr("pos", WFMath::Point<3>(40, 40, 0).toAtlas());

		{
			AfterTerrainUpdateListener afterTerrainUpdateListener(terrainHandler.EventAfterTerrainUpdate);

			{
				Timer timer;
				do {
					terrainSetup.es.processAllHandlers();
				} while ((!timer.hasElapsed(5000)) && afterTerrainUpdateListener.getCompletedCount() < 4);
			}
			CPPUNIT_ASSERT(afterTerrainUpdateListener.getCompletedCount() == 4);
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, -5, 25));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(-5, 5, 25));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, 5, 25));
			CPPUNIT_ASSERT(terrainHandler.checkTerrainHeight(5, -5, 25));
		}
	}
示例#9
0
void testXML()
{
    RootEntity human;
    human->setId("foo");

    Move move_op;
    move_op->setFrom(std::string("bar"));
    std::vector<Root> move_args(1);
    move_args[0] = human;
    move_op->setArgs(move_args);

    Atlas::Message::ListType velocity;
    velocity.push_back(2.0);
    velocity.push_back(1.0);
    velocity.push_back(0.0);
    human->setVelocityAsList(velocity);

//    typedef BaseObjectData *(*alloc_func)();
//    alloc_func alloc_entity = &Entity::RootEntityDataInstance::alloc;
//    BaseObjectData *bod = alloc_entity();
    //Root human2(bod);
    Root human2 = Atlas::Objects::factory<Atlas::Objects::Entity::RootEntityData>("root_enitty", Atlas::Objects::Entity::RootEntity()->getClassNo());
    std::cout<<"human.id="<<human->getId()<<std::endl;
    std::cout<<"human2.id="<<human2->getId()<<std::endl;
#if 0
    typedef std::list<Atlas::Factory<Atlas::Codec >*> FactoryCodecs;
    FactoryCodecs *myCodecs = &Factory<Codec >::factories();
    FactoryCodecs::iterator i;
    std::cout<<"myCodecs: "<<myCodecs->size();
    for (i = myCodecs->begin(); i != myCodecs->end(); ++i)
        std::cout<<":"<<(*i)->getName();
    std::cout<<std::endl;
#endif

    //DebugBridge bridge;
    TestDecoder bridge;
#if USE_FILE
    fstream stream;
    std::string atlas_xml_path;
    char * srcdir_env = getenv("srcdir");
    if (srcdir_env != 0) {
        atlas_xml_path = srcdir_env;
        atlas_xml_path += "/";
    }
    atlas_xml_path += "../../protocol/spec/atlas.xml";
    stream.open(atlas_xml_path, std::ios::in);
    assert(!!stream);
#else
    std::stringstream stream;
#endif
//     typedef std::list<Atlas::Factory<Atlas::Codec >*> FactoryCodecs;
//     FactoryCodecs *myCodecs = &Factory<Codec >::factories();
//     FactoryCodecs::iterator codec_i;
//     Atlas::Codec *codec = NULL;
//     for(codec_i = myCodecs->begin(); codec_i != myCodecs->end(); ++codec_i)
//     {
//         std::cout<<(*codec_i)->getName()<<std::endl;
//         if ((*codec_i)->getName() == "XML") {
//             codec = (*codec_i)->New(Codec::Parameters(stream, &bridge));
//         }
//     }
//     assert(codec);

    
    Account account;
    Login l;
    account->setAttr("id", std::string("al"));
    account->setAttr("password", std::string("ping"));
    //list<Message::Object> args(1,account->asObject());
    //l->setArgsAsList(args);
    std::vector<Root> args(1);
    args[0] = account;
    l->setArgs(args);
    //coder->streamObjectsMessage((Root&)l);
//<map><list name="args"><map><std::string name="id">al</strin
//g></map></list><list name="parents"><std::string>root</std::string></list><std::string name="ob
//jtype">op_definition</std::string></map>


    Atlas::Codec *codec;
#if USE_XML
    codec = new Atlas::Codecs::XML((std::iostream&)stream, bridge);
#else
    codec = new Atlas::Codecs::Packed(stream, bridge);
#endif
    assert(codec);

#if USE_FILE
    while(stream) {
      codec->poll();
      //std::cout<<"--------"<<std::endl;
    }
#else
    codec->streamBegin();

    Atlas::Objects::ObjectsEncoder eno(*codec);
//    eno.streamObjectsMessage(move_op);
    eno.streamObjectsMessage(l);

    Anonymous e;
    eno.streamObjectsMessage(e);
    e->setId("foo");
    eno.streamObjectsMessage(e);
//    Atlas::Message::Encoder en(codec);
//    en.streamObjectsMessage(human->asObject());

    codec->streamEnd();
    std::cout<<std::endl<<stream.str()<<std::endl;
    //[$from=bar(args=[$id=foo])][$id=foo]
    //<atlas><map><std::string name="from">bar</std::string><list name="args"><map><std::string name="id">foo</std::string></map></list></map><map><std::string name="id">foo</std::string></map></atlas>
#endif
    delete codec;
}
示例#10
0
void test()
{
    const double x1 = 3.5;
    const double y1 = -4.6;
    const double z1 = 2.0;

    const double x2 = 42.0;
    const double y2 = 7.0;

    std::vector<RootEntity> ent_vec(10);

    for(int i=0; i<10; i++) {
        DEBUG_PRINT(std::cout<<std::endl<<"round:"<<i<<std::endl);
        RootEntity human;

        //check for empty default:
        DEBUG_PRINT(std::cout<<"empty ok?"<<std::endl);
        Atlas::Message::ListType empty = human->getVelocityAsList();
        if(i==0) check_float_list3(empty, 0.0, 0.0, 0.0);
        else check_float_list3(empty, 0.0, y2, 0.0);
        
        //check after setting it
        DEBUG_PRINT(std::cout<<"setting ok?"<<std::endl);
        Atlas::Message::ListType velocity;
        velocity.push_back(x1);
        velocity.push_back(y1);
        velocity.push_back(z1);
        check_float_list3(velocity, x1, y1, z1);
        human->setVelocityAsList(velocity);
        Atlas::Message::ListType foo = human->getVelocityAsList();
        check_float_list3(foo, x1, y1, z1);

        DEBUG_PRINT(std::cout<<"changing it?"<<std::endl);
        std::vector<double> &foo2 = human->modifyVelocity();
        *foo2.begin() = x2;
        check_float_list3(human->getVelocityAsList(), x2, y1, z1);

        DEBUG_PRINT(std::cout<<"check change result?"<<std::endl);
        foo = human->getVelocityAsList();
        check_float_list3(foo, x2, y1, z1);
        
        DEBUG_PRINT(std::cout<<"std::vector of entities?"<<std::endl);
        const Atlas::Message::ListType &ent_velocity = ent_vec[i]->getVelocityAsList();
        if(i==0) check_float_list3(ent_velocity, 0.0, 0.0, 0.0);
        else check_float_list3(ent_velocity, 0.0, y2, 0.0);

        DEBUG_PRINT(std::cout<<"base?"<<std::endl);
        RootEntity base_entity = Atlas::Objects::Entity::RootEntityData::allocator.getDefaultObjectInstance();
        std::vector<double> &base = base_entity->modifyVelocity();
        base[1] = y2;
        check_float_list3(base_entity->getVelocityAsList(), 0.0, y2, 0.0);

        RootOperation move_op;
        std::vector<Root> move_args(1);
        move_args[0] = human;
        move_op->setArgs(move_args);

        RootOperation sight_op;
        //sight_op->setFrom(humanent.asObjectPtr());
        std::vector<Root> sight_args(1);
        sight_args[0] = move_op;
        sight_op->setArgs(sight_args);
        
        //test 
        DEBUG_PRINT(std::cout<<"get move_op?"<<std::endl);
        const std::vector<Root>& test_args = sight_op->getArgs();
        assert(test_args.size() == 1);
        RootOperation test_op = 
            (RootOperation&)test_args[0];
        
        DEBUG_PRINT(std::cout<<"get human_ent?"<<std::endl);
        const std::vector<Root>& test_args2 = test_op->getArgs();
        assert(test_args2.size() == 1);
        RootEntity test_ent =
            (RootEntity&)test_args2[0];
        Atlas::Message::ListType foo3 = test_ent->getVelocityAsList();
        check_float_list3(foo3, x2, y1, z1);

        std::vector<double> coords(3, 0.0);
        human->setPos(coords);
        human->setVelocity(coords);
        human->modifyVelocity()[0] = 1.0;
        check_float_list3(human->getPosAsList(), 0.0, 0.0, 0.0);
        check_float_list3(human->getVelocityAsList(), 1.0, 0.0, 0.0);
    }
}
示例#11
0
void testValues()
{
    Account account;
    Login l;
    account->setId("al");
    account->setAttr("password", std::string("ping"));
    l->setArgs1(account);

    // assert(l->getArgs()[0]->getLongDescription()=="Later in hierarchy tree objtype changes to 'object' when actual game objects are made.");
    // assert(l->getArgs()[0]->getDescription()=="Base class for accounts");
    assert(l->getId()=="");
    assert(l->getParents().front()=="login");
    assert(l->getObjtype()=="op");
    // std::cout<<std::endl<<"account.long_description: "
        // <<l->getArgs()[0]->getLongDescription()<<std::endl;
    
    {
    Atlas::Message::MapType mobj;
    Atlas::Message::ListType parents;
    parents.push_back(std::string("account"));
    mobj["parents"] = parents;
    mobj["name"] = std::string("foo");
    mobj["objtype"] = std::string("op");
    Root obj = Atlas::Objects::Factories::instance()->createObject(mobj);
    assert(obj->getClassNo() == Atlas::Objects::Entity::ACCOUNT_NO);
    assert(obj->getId() == "");
    assert(obj->isDefaultId() == true);
    assert(obj->getName() == "foo");
    assert(obj->isDefaultName() == false);
    assert(obj->getParents().front() == "account");
    //should this be true? modify MessageObject2ClassObject if yes
    assert(obj->isDefaultParents() == false);
    assert(obj->getObjtype() == "op");
    assert(obj->isDefaultObjtype() == false); //should this be true? 
    // assert(obj->getDescription() == "Base class for accounts");
    // assert(obj->isDefaultDescription() == true);
    }
    
    {
    Atlas::Message::MapType mobj;
    Root obj = Atlas::Objects::objectDefinitions.find(std::string("account"))->second;
    assert(obj->getClassNo() == Atlas::Objects::Entity::ACCOUNT_NO);
    assert(obj->getId() == "account");
    assert(obj->isDefaultId() == false);
    assert(obj->getName() == "");
    assert(obj->isDefaultName() == true);
    assert(obj->getParents().front() == "admin_entity");
    assert(obj->isDefaultParents() == false);
    assert(obj->getObjtype() == "class");
    assert(obj->isDefaultObjtype() == false);
    // assert(obj->getDescription() == "Base class for accounts");
    // assert(obj->isDefaultDescription() == false);
    }

    {
    Atlas::Message::MapType mobj;
    Root obj = Atlas::Objects::Factories::instance()->createObject(mobj);
    assert(obj->getClassNo() == Atlas::Objects::Entity::ANONYMOUS_NO);
    assert(obj->getId() == "");
    assert(obj->getName() == "");
    assert(obj->getParents().size() == 0);
    assert(obj->getObjtype() == "obj");
    // assert(obj->getDescription() == "");
    }

    {
    Atlas::Message::MapType mobj;
    mobj["id"] = std::string("bar");
    mobj["name"] = std::string("foo");
    Atlas::Message::ListType parents;
    parents.push_back(std::string("account"));
    mobj["parents"] = parents;
    Root obj = Atlas::Objects::Factories::instance()->createObject(mobj);
    assert(obj->getClassNo() == Atlas::Objects::Entity::ANONYMOUS_NO);
    assert(obj->getId() == "bar");
    assert(obj->getName() == "foo");
    assert(obj->getParents().front() == "account");
    assert(obj->getObjtype() == "obj");
    // assert(obj->getDescription() == "");
    }

    {
    Atlas::Message::MapType maccount;
    maccount["id"] = std::string("bar");
    maccount["name"] = std::string("foo");
    Atlas::Message::ListType parents;
    parents.push_back(std::string("player"));
    maccount["parents"] = parents;
    maccount["objtype"] = "obj";

    Atlas::Message::MapType mcreate;
    mcreate["from"] = std::string("bar");
    Atlas::Message::ListType parents2;
    parents2.push_back(std::string("create"));
    mcreate["parents"] = parents2;
    Atlas::Message::ListType args;
    args.push_back(maccount);
    mcreate["args"] = args;
    mcreate["objtype"] = "op";

    Create op = Atlas::Objects::smart_dynamic_cast<Create>(Atlas::Objects::Factories::instance()->createObject(mcreate));
    assert(op->getClassNo() == Atlas::Objects::Operation::CREATE_NO);
    assert(op->instanceOf(Atlas::Objects::Operation::CREATE_NO));
    assert(op->instanceOf(Atlas::Objects::Operation::ACTION_NO));
    assert(op->instanceOf(Atlas::Objects::ROOT_NO));
    assert(!op->instanceOf(Atlas::Objects::Operation::COMBINE_NO));
    assert(!op->instanceOf(Atlas::Objects::Entity::ACCOUNT_NO));
    assert(op->getFrom() == "bar");
    assert(op->getParents().size() == 1);
    assert(op->getParents().front() == "create");
    assert(op->getObjtype() == "op");
    // assert(op->getDescription() == 
           // "Create new things from nothing using this operator.");
    assert(op->getArgs().size() == 1);

    Account op_arg = (Account&)op->getArgs().front();
    assert(op_arg->getClassNo() == Atlas::Objects::Entity::PLAYER_NO);
    assert(!op_arg->instanceOf(Atlas::Objects::Operation::CREATE_NO));
    assert(!op_arg->instanceOf(Atlas::Objects::Operation::ACTION_NO));
    assert(op_arg->instanceOf(Atlas::Objects::ROOT_NO));
    assert(!op_arg->instanceOf(Atlas::Objects::Operation::COMBINE_NO));
    assert(op_arg->instanceOf(Atlas::Objects::Entity::ACCOUNT_NO));
    assert(op_arg->instanceOf(Atlas::Objects::Entity::PLAYER_NO));
    assert(op_arg->getId() == "bar");
    assert(op_arg->getParents().size() == 1);
    assert(op_arg->getParents().front() == "player");
    assert(op_arg->getObjtype() == "obj");
    // assert(op_arg->getDescription() == "Player accounts");
    assert(op_arg->getName() == "foo");
#if 0 //tmp
    assert(op_arg->hasAttr("password"));
    assert(op_arg->getAttr("password").isString());
    assert(op_arg->getAttr("password").asString() == "");
#endif
    assert(op_arg->hasAttr("name"));
    assert(!op_arg->hasAttr("foo"));
    assert(!op_arg->hasAttr("pos"));
    assert(!op_arg->isDefaultName());
    assert(op_arg->isDefaultPos());
    }
}