Esempio n. 1
0
void BoneNPCManager::LoadOneLevelNPC(int levelID,CCNode *parentNode)
{
	int city_id = MainLandManager::Get()->GetCityIdByMapId(levelID);

	if(0 == parentNode)
	{
		return ;
	}

	bool bMainLandLevel = MainLandManager::Get()->isMainLand(LevelManager::sShareInstance()->getCurMapId());
	if (bMainLandLevel == false)
	{
		return ;
	}

	// Note: 加载npc动画资源
	SkeletonAnimRcsManager::getInstance()->LoadOneLevelNPCRcs(city_id);

	// Note: 创建Npc实例
	std::map<int,NPCData *>* pMapNpcTypeIdAndData = LoadNPCConfigInfoFromLua(city_id);
	for (std::map<int,NPCData *>::iterator iter = pMapNpcTypeIdAndData->begin();
		 iter != pMapNpcTypeIdAndData->end();iter++)
	{
		// TODO:临时放置的Npc资源ID
		SpriteNPC * pNpcSprite = SpriteNPC::NPCWithData((*iter).second);
		parentNode->addChild(pNpcSprite);

		CATLObjectLayer* pObjLayer = dynamic_cast<CATLObjectLayer*>(parentNode);
		if(pObjLayer)
		{
			pObjLayer->AddRoleShadow(pNpcSprite);
		}

		mMapNpcTypeIdAndSprites->insert(std::make_pair((*iter).first,pNpcSprite));

		CCPoint npcPos((*iter).second->posx,(*iter).second->posy);
		pNpcSprite->setPosition(npcPos);
		pNpcSprite->setZOrder(LevelLayer::sCalcZorder(npcPos));

		if ((*iter).second->bFlip)
		{
			pNpcSprite->SetAnimFlipX(true);
		}
	}

	pMapNpcTypeIdAndData->clear();
	delete pMapNpcTypeIdAndData;
	pMapNpcTypeIdAndData = 0;
}
Esempio n. 2
0
bool MWMechanics::AiWander::execute (const MWWorld::Ptr& actor)
{
    if(mDuration)
    {
        // End package if duration is complete or mid-night hits:
        MWWorld::TimeStamp currentTime = MWBase::Environment::get().getWorld()->getTimeStamp();
        if(currentTime.getHour() >= mStartTime.getHour() + mDuration)
        {
            if(!mRepeat)
            {
                stopWalking(actor, mPathFinder);
                return true;
            }
            else
                mStartTime = currentTime;
        }
        else if(int(currentTime.getHour()) == 0 && currentTime.getDay() != mStartTime.getDay())
        {
            if(!mRepeat)
            {
                stopWalking(actor, mPathFinder);
                return true;
            }
            else
                mStartTime = currentTime;
        }
    }

    ESM::Position pos = actor.getRefData().getPosition();

    if(!mStoredAvailableNodes)
    {
        mStoredAvailableNodes = true;
        mPathgrid =
            MWBase::Environment::get().getWorld()->getStore().get<ESM::Pathgrid>().search(*actor.getCell()->mCell);

        mCellX = actor.getCell()->mCell->mData.mX;
        mCellY = actor.getCell()->mCell->mData.mY;

        if(!mPathgrid)
            mDistance = 0;
        else if(mPathgrid->mPoints.empty())
            mDistance = 0;

        if(mDistance)
        {
            mXCell = 0;
            mYCell = 0;
            if(actor.getCell()->mCell->isExterior())
            {
                mXCell = mCellX * ESM::Land::REAL_SIZE;
                mYCell = mCellY * ESM::Land::REAL_SIZE;
            }

            Ogre::Vector3 npcPos(actor.getRefData().getPosition().pos);
            npcPos[0] = npcPos[0] - mXCell;
            npcPos[1] = npcPos[1] - mYCell;

            for(unsigned int counter = 0; counter < mPathgrid->mPoints.size(); counter++)
            {
                Ogre::Vector3 nodePos(mPathgrid->mPoints[counter].mX, mPathgrid->mPoints[counter].mY, mPathgrid->mPoints[counter].mZ);
                if(npcPos.squaredDistance(nodePos) <= mDistance * mDistance)
                    mAllowedNodes.push_back(mPathgrid->mPoints[counter]);
            }
            if(!mAllowedNodes.empty())
            {
                Ogre::Vector3 firstNodePos(mAllowedNodes[0].mX, mAllowedNodes[0].mY, mAllowedNodes[0].mZ);
                float closestNode = npcPos.squaredDistance(firstNodePos);
                unsigned int index = 0;
                for(unsigned int counterThree = 1; counterThree < mAllowedNodes.size(); counterThree++)
                {
                    Ogre::Vector3 nodePos(mAllowedNodes[counterThree].mX, mAllowedNodes[counterThree].mY, mAllowedNodes[counterThree].mZ);
                    float tempDist = npcPos.squaredDistance(nodePos);
                    if(tempDist < closestNode)
                        index = counterThree;
                }
                mCurrentNode = mAllowedNodes[index];
                mAllowedNodes.erase(mAllowedNodes.begin() + index);
            }

            if(mAllowedNodes.empty())
                mDistance = 0;
        }
    }

    MWWorld::Ptr player = MWBase::Environment::get().getWorld()->getPlayer().getPlayer();
    bool cellChange = actor.getCell()->mCell->mData.mX != mCellX || actor.getCell()->mCell->mData.mY != mCellY;

    if(actor.getCell()->mCell->mData.mX != player.getCell()->mCell->mData.mX)
    {
        int sideX = sgn(actor.getCell()->mCell->mData.mX - player.getCell()->mCell->mData.mX);
        // Check if actor is near the border of an inactive cell. If so, disable AiWander.
        // FIXME: This *should* pause the AiWander package instead of terminating it.
        if(sideX*(pos.pos[0] - actor.getCell()->mCell->mData.mX * ESM::Land::REAL_SIZE) > sideX * (ESM::Land::REAL_SIZE / 2.0 - 200)) 
        {
            MWWorld::Class::get(actor).getMovementSettings(actor).mPosition[1] = 0;
            return true;
        }
    }

    if(actor.getCell()->mCell->mData.mY != player.getCell()->mCell->mData.mY)
    {
        int sideY = sgn(actor.getCell()->mCell->mData.mY - player.getCell()->mCell->mData.mY);
        // Check if actor is near the border of an inactive cell. If so, disable AiWander.
        // FIXME: This *should* pause the AiWander package instead of terminating it.
        if(sideY*(pos.pos[1] - actor.getCell()->mCell->mData.mY * ESM::Land::REAL_SIZE) > sideY * (ESM::Land::REAL_SIZE / 2.0 - 200)) 
        {
            MWWorld::Class::get(actor).getMovementSettings(actor).mPosition[1] = 0;
            return true;
        }
    }

    // Don't try to move if you are in a new cell (ie: positioncell command called) but still play idles.
    if(mDistance && (cellChange || (mCellX != actor.getCell()->mCell->mData.mX || mCellY != actor.getCell()->mCell->mData.mY)))
        mDistance = 0;

    if(mChooseAction)
    {
        mPlayedIdle = 0;
        unsigned short idleRoll = 0;

        for(unsigned int counter = 1; counter < mIdle.size(); counter++)
        {
            unsigned short idleChance = mIdleChanceMultiplier * mIdle[counter];
            unsigned short randSelect = (int)(rand() / ((double)RAND_MAX + 1) * int(100 / mIdleChanceMultiplier));
            if(randSelect < idleChance && randSelect > idleRoll)
            {
                mPlayedIdle = counter;
                idleRoll = randSelect;
            }
        }

        if(!mPlayedIdle && mDistance)
        {
            mChooseAction = false;
            mMoveNow = true;
        }
        else
        {
            // Play idle animation and recreate vanilla (broken?) behavior of resetting start time of AIWander:
            MWWorld::TimeStamp currentTime = MWBase::Environment::get().getWorld()->getTimeStamp();
            mStartTime = currentTime;
            playIdle(actor, mPlayedIdle + 1);
            mChooseAction = false;
            mIdleNow = true;
        }
    }

    if(mIdleNow)
    {
        if(!checkIdle(actor, mPlayedIdle + 1))
        {
            mPlayedIdle = 0;
            mIdleNow = false;
            mChooseAction = true;
        }
    }

    if(mMoveNow && mDistance)
    {
        if(!mPathFinder.isPathConstructed())
        {
            unsigned int randNode = (int)(rand() / ((double)RAND_MAX + 1) * mAllowedNodes.size());
            Ogre::Vector3 destNodePos(mAllowedNodes[randNode].mX, mAllowedNodes[randNode].mY, mAllowedNodes[randNode].mZ);

            // Remove this node as an option and add back the previously used node (stops NPC from picking the same node):
            ESM::Pathgrid::Point temp = mAllowedNodes[randNode];
            mAllowedNodes.erase(mAllowedNodes.begin() + randNode);
            mAllowedNodes.push_back(mCurrentNode);
            mCurrentNode = temp;

            ESM::Pathgrid::Point dest;
            dest.mX = destNodePos[0] + mXCell;
            dest.mY = destNodePos[1] + mYCell;
            dest.mZ = destNodePos[2];

            ESM::Pathgrid::Point start;
            start.mX = pos.pos[0];
            start.mY = pos.pos[1];
            start.mZ = pos.pos[2];

            mPathFinder.buildPath(start,dest,mPathgrid,mXCell,mYCell);
            mWalking = true;
        }
    }

    if(mWalking)
    {
        float zAngle = mPathFinder.getZAngleToNext(pos.pos[0],pos.pos[1],pos.pos[2]);
        MWBase::Environment::get().getWorld()->rotateObject(actor,0,0,zAngle,false);
        MWWorld::Class::get(actor).getMovementSettings(actor).mPosition[1] = 1;

        // Unclog path nodes by allowing the NPC to be a small distance away from the center. This way two NPCs can be
        // at the same path node at the same time and both will complete instead of endlessly walking into eachother:
        Ogre::Vector3 destNodePos(mCurrentNode.mX, mCurrentNode.mY, mCurrentNode.mZ);
        Ogre::Vector3 actorPos(actor.getRefData().getPosition().pos);
        actorPos[0] = actorPos[0] - mXCell;
        actorPos[1] = actorPos[1] - mYCell;
        float distance = actorPos.squaredDistance(destNodePos);

        if(distance < 1200 || mPathFinder.checkIfNextPointReached(pos.pos[0],pos.pos[1],pos.pos[2]))
        {
            stopWalking(actor, mPathFinder);
            mMoveNow = false;
            mWalking = false;
            mChooseAction = true;
        }
        
    }

    return false;
}
Esempio n. 3
0
bool AiWander::execute (const MWWorld::Ptr& actor,float duration)
{
    if (actor.getClass().isNpc())
        actor.getClass().getNpcStats(actor).setDrawState(DrawState_Nothing);
    MWBase::World *world = MWBase::Environment::get().getWorld();
    if(mDuration)
    {
        // End package if duration is complete or mid-night hits:
        MWWorld::TimeStamp currentTime = world->getTimeStamp();
        if(currentTime.getHour() >= mStartTime.getHour() + mDuration)
        {
            if(!mRepeat)
            {
                stopWalking(actor);
                return true;
            }
            else
                mStartTime = currentTime;
        }
        else if(int(currentTime.getHour()) == 0 && currentTime.getDay() != mStartTime.getDay())
        {
            if(!mRepeat)
            {
                stopWalking(actor);
                return true;
            }
            else
                mStartTime = currentTime;
        }
    }

    ESM::Position pos = actor.getRefData().getPosition();

    if(!mStoredAvailableNodes)
    {
        mStoredAvailableNodes = true;
        mPathgrid = world->getStore().get<ESM::Pathgrid>().search(*actor.getCell()->mCell);

        mCellX = actor.getCell()->mCell->mData.mX;
        mCellY = actor.getCell()->mCell->mData.mY;

        if(!mPathgrid)
            mDistance = 0;
        else if(mPathgrid->mPoints.empty())
            mDistance = 0;

        if(mDistance)
        {
            mXCell = 0;
            mYCell = 0;
            if(actor.getCell()->mCell->isExterior())
            {
                mXCell = mCellX * ESM::Land::REAL_SIZE;
                mYCell = mCellY * ESM::Land::REAL_SIZE;
            }

            Ogre::Vector3 npcPos(actor.getRefData().getPosition().pos);
            npcPos[0] = npcPos[0] - mXCell;
            npcPos[1] = npcPos[1] - mYCell;

            for(unsigned int counter = 0; counter < mPathgrid->mPoints.size(); counter++)
            {
                Ogre::Vector3 nodePos(mPathgrid->mPoints[counter].mX, mPathgrid->mPoints[counter].mY,
                                      mPathgrid->mPoints[counter].mZ);
                if(npcPos.squaredDistance(nodePos) <= mDistance * mDistance)
                    mAllowedNodes.push_back(mPathgrid->mPoints[counter]);
            }
            if(!mAllowedNodes.empty())
            {
                Ogre::Vector3 firstNodePos(mAllowedNodes[0].mX, mAllowedNodes[0].mY, mAllowedNodes[0].mZ);
                float closestNode = npcPos.squaredDistance(firstNodePos);
                unsigned int index = 0;
                for(unsigned int counterThree = 1; counterThree < mAllowedNodes.size(); counterThree++)
                {
                    Ogre::Vector3 nodePos(mAllowedNodes[counterThree].mX, mAllowedNodes[counterThree].mY,
                                          mAllowedNodes[counterThree].mZ);
                    float tempDist = npcPos.squaredDistance(nodePos);
                    if(tempDist < closestNode)
                        index = counterThree;
                }
                mCurrentNode = mAllowedNodes[index];
                mAllowedNodes.erase(mAllowedNodes.begin() + index);
            }
        }
    }

    if(mAllowedNodes.empty())
        mDistance = 0;

    // Don't try to move if you are in a new cell (ie: positioncell command called) but still play idles.
    if(mDistance && (mCellX != actor.getCell()->mCell->mData.mX || mCellY != actor.getCell()->mCell->mData.mY))
        mDistance = 0;

    if(mChooseAction)
    {
        mPlayedIdle = 0;
        unsigned short idleRoll = 0;

        for(unsigned int counter = 0; counter < mIdle.size(); counter++)
        {
            unsigned short idleChance = mIdleChanceMultiplier * mIdle[counter];
            unsigned short randSelect = (int)(rand() / ((double)RAND_MAX + 1) * int(100 / mIdleChanceMultiplier));
            if(randSelect < idleChance && randSelect > idleRoll)
            {
                mPlayedIdle = counter+2;
                idleRoll = randSelect;
            }
        }

        if(!mPlayedIdle && mDistance)
        {
            mChooseAction = false;
            mMoveNow = true;
        }
        else
        {
            // Play idle animation and recreate vanilla (broken?) behavior of resetting start time of AIWander:
            MWWorld::TimeStamp currentTime = world->getTimeStamp();
            mStartTime = currentTime;
            playIdle(actor, mPlayedIdle);
            mChooseAction = false;
            mIdleNow = true;
        }
    }

    if(mIdleNow)
    {
        if(!checkIdle(actor, mPlayedIdle))
        {
            mPlayedIdle = 0;
            mIdleNow = false;
            mChooseAction = true;
        }
    }

    if(mMoveNow && mDistance)
    {
        if(!mPathFinder.isPathConstructed())
        {
            assert(mAllowedNodes.size());
            unsigned int randNode = (int)(rand() / ((double)RAND_MAX + 1) * mAllowedNodes.size());
            Ogre::Vector3 destNodePos(mAllowedNodes[randNode].mX, mAllowedNodes[randNode].mY, mAllowedNodes[randNode].mZ);

            ESM::Pathgrid::Point dest;
            dest.mX = destNodePos[0] + mXCell;
            dest.mY = destNodePos[1] + mYCell;
            dest.mZ = destNodePos[2];

            ESM::Pathgrid::Point start;
            start.mX = pos.pos[0];
            start.mY = pos.pos[1];
            start.mZ = pos.pos[2];

            mPathFinder.buildPath(start, dest, mPathgrid, mXCell, mYCell, false);

            if(mPathFinder.isPathConstructed())
            {
                // Remove this node as an option and add back the previously used node (stops NPC from picking the same node):
                ESM::Pathgrid::Point temp = mAllowedNodes[randNode];
                mAllowedNodes.erase(mAllowedNodes.begin() + randNode);
                mAllowedNodes.push_back(mCurrentNode);
                mCurrentNode = temp;

                mMoveNow = false;
                mWalking = true;
            }
            // Choose a different node and delete this one from possible nodes because it is uncreachable:
            else
                mAllowedNodes.erase(mAllowedNodes.begin() + randNode);
        }
    }

    if(mWalking)
    {
        float zAngle = mPathFinder.getZAngleToNext(pos.pos[0], pos.pos[1]);
        // TODO: use movement settings instead of rotating directly
        world->rotateObject(actor, 0, 0, zAngle, false);
        MWWorld::Class::get(actor).getMovementSettings(actor).mPosition[1] = 1;

        if(mPathFinder.checkPathCompleted(pos.pos[0], pos.pos[1], pos.pos[2]))
        {
            stopWalking(actor);
            mMoveNow = false;
            mWalking = false;
            mChooseAction = true;
        }
    }

    return false;
}