示例#1
0
void CBuilderCAI::ExecuteFight(Command& c)
{
	assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);

	if (tempOrder) {
		tempOrder = false;
		inCommand = true;
	}
	if (c.params.size() < 3) { // this shouldnt happen but anyway ...
		LOG_L(L_ERROR,
				"Received a Fight command with less than 3 params on %s in BuilderCAI",
				owner->unitDef->humanName.c_str());
		return;
	}

	if (c.params.size() >= 6) {
		if (!inCommand) {
			commandPos1 = c.GetPos(3);
		}
	} else {
		// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
		// rotated (only shortened) if we reach this because the previous return
		// fight command finished by the 'if((curPos-pos).SqLength2D()<(64*64)){'
		// condition, but is actually updated correctly if you click somewhere
		// outside the area close to the line (for a new command).
		commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		if (f3SqDist(owner->pos, commandPos1) > (96 * 96)) {
			commandPos1 = owner->pos;
		}
	}

	float3 pos = c.GetPos(0);
	if (!inCommand) {
		inCommand = true;
		commandPos2 = pos;
	}

	float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	if (c.params.size() >= 6) {
		pos = curPosOnLine;
	}

	if (pos != goalPos) {
		SetGoal(pos, owner->pos);
	}

	const bool resurrectMode = !!(c.options & ALT_KEY);
	const bool reclaimEnemyMode = !!(c.options & META_KEY);
	const bool reclaimEnemyOnlyMode = (c.options & CONTROL_KEY) && (c.options & META_KEY);

	ReclaimOption recopt;
	if (resurrectMode)        recopt |= REC_NONREZ;
	if (reclaimEnemyMode)     recopt |= REC_ENEMY;
	if (reclaimEnemyOnlyMode) recopt |= REC_ENEMYONLY;

	const float searchRadius = (owner->immobile ? 0 : (300 * owner->moveState)) + ownerBuilder->buildDistance;

	if (!reclaimEnemyOnlyMode && (owner->unitDef->canRepair || owner->unitDef->canAssist) && // Priority 1: Repair
	    FindRepairTargetAndRepair(curPosOnLine, searchRadius, c.options, true, resurrectMode)){
		tempOrder = true;
		inCommand = false;
		if (lastPC1 != gs->frameNum) {  //avoid infinite loops
			lastPC1 = gs->frameNum;
			SlowUpdate();
		}
		return;
	}
	if (!reclaimEnemyOnlyMode && resurrectMode && owner->unitDef->canResurrect && // Priority 2: Resurrect (optional)
	    FindResurrectableFeatureAndResurrect(curPosOnLine, searchRadius, c.options, false)) {
		tempOrder = true;
		inCommand = false;
		if (lastPC2 != gs->frameNum) {  //avoid infinite loops
			lastPC2 = gs->frameNum;
			SlowUpdate();
		}
		return;
	}
	if (owner->unitDef->canReclaim && // Priority 3: Reclaim / reclaim non resurrectable (optional) / reclaim enemy units (optional)
	    FindReclaimTargetAndReclaim(curPosOnLine, searchRadius, c.options, recopt)) {
		tempOrder = true;
		inCommand = false;
		if (lastPC3 != gs->frameNum) {  //avoid infinite loops
			lastPC3 = gs->frameNum;
			SlowUpdate();
		}
		return;
	}
	if (f3SqDist(owner->pos, pos) < (64*64)) {
		FinishCommand();
		return;
	}

	if (owner->haveTarget && owner->moveType->progressState != AMoveType::Done) {
		StopMove();
	} else if (owner->moveType->progressState != AMoveType::Active) {
		owner->moveType->StartMoving(goalPos, 8);
	}
}
示例#2
0
void CAirCAI::SlowUpdate()
{
	if (!commandQue.empty() && commandQue.front().timeOut < gs->frameNum) {
		FinishCommand();
		return;
	}

	if (owner->usingScriptMoveType) {
		return; // avoid the invalid (CAirMoveType*) cast
	}

	AAirMoveType* myPlane=(AAirMoveType*) owner->moveType;

	if(owner->unitDef->maxFuel > 0){
		RefuelIfNeeded();
	}

	if(commandQue.empty()){
		if(myPlane->aircraftState == AAirMoveType::AIRCRAFT_FLYING
			&& !owner->unitDef->DontLand() && myPlane->autoLand){
			StopMove();
//			myPlane->SetState(AAirMoveType::AIRCRAFT_LANDING);
		}

		if(owner->unitDef->canAttack && owner->fireState>=2
				&& owner->moveState != 0 && owner->maxRange > 0){
			if(myPlane->IsFighter()){
				float testRad=1000 * owner->moveState;
				CUnit* enemy=helper->GetClosestEnemyAircraft(
					owner->pos + (owner->speed * 10), testRad, owner->allyteam);
				if(IsValidTarget(enemy)) {
					Command nc;
					nc.id = CMD_ATTACK;
					nc.params.push_back(enemy->id);
					nc.options = 0;
					commandQue.push_front(nc);
					inCommand = false;
					return;
				}
			}
			float testRad = 500 * owner->moveState;
			CUnit* enemy = helper->GetClosestEnemyUnit(
				owner->pos + (owner->speed * 20), testRad, owner->allyteam);
			if(IsValidTarget(enemy)) {
				Command nc;
				nc.id = CMD_ATTACK;
				nc.params.push_back(enemy->id);
				nc.options = 0;
				commandQue.push_front(nc);
				inCommand = false;
				return;
			}
		}
		return;
	}

	Command& c = commandQue.front();

	if (c.id == CMD_WAIT) {
		if ((myPlane->aircraftState == AAirMoveType::AIRCRAFT_FLYING)
		    && !owner->unitDef->DontLand() && myPlane->autoLand) {
			StopMove(); 
//			myPlane->SetState(AAirMoveType::AIRCRAFT_LANDING);
		}
		return;
	}

	if (c.id != CMD_STOP) {
		myPlane->Takeoff();
	}

	float3 curPos=owner->pos;

	switch(c.id){
		case CMD_AREA_ATTACK:{
			ExecuteAreaAttack(c);
			return;
		}
		default:{
			CMobileCAI::Execute();
			return;
		}
	}
}
示例#3
0
void CAirCAI::ExecuteAttack(Command &c)
{
	assert(owner->unitDef->canAttack);
	targetAge++;

	if (tempOrder && owner->moveState == 1) {
		// limit how far away we fly
		if (orderTarget && LinePointDist(commandPos1, commandPos2, orderTarget->pos) > 1500) {
			owner->SetUserTarget(0);
			FinishCommand();
			return;
		}
	}

	if (inCommand) {
		if (targetDied || (c.params.size() == 1 && UpdateTargetLostTimer(int(c.params[0])) == 0)) {
			FinishCommand();
			return;
		}
		if ((c.params.size() == 3) && (owner->commandShotCount < 0) && (commandQue.size() > 1)) {
			owner->AttackGround(float3(c.params[0], c.params[1], c.params[2]), true);
			FinishCommand();
			return;
		}
		if (orderTarget) {
			if (orderTarget->unitDef->canfly && orderTarget->crashing) {
				owner->SetUserTarget(0);
				FinishCommand();
				return;
			}
			if (!(c.options & ALT_KEY) && SkipParalyzeTarget(orderTarget)) {
				owner->SetUserTarget(0);
				FinishCommand();
				return;
			}
		}
	} else {
		targetAge = 0;
		owner->commandShotCount = -1;

		if (c.params.size() == 1) {
			const int targetID     = int(c.params[0]);
			const bool legalTarget = (targetID >= 0 && targetID < MAX_UNITS);
			CUnit* targetUnit      = (legalTarget)? uh->units[targetID]: 0x0;

			if (legalTarget && targetUnit != 0x0 && targetUnit != owner) {
				orderTarget = targetUnit;
				owner->AttackUnit(orderTarget, false);
				AddDeathDependence(orderTarget);
				inCommand = true;
				SetGoal(orderTarget->pos, owner->pos, cancelDistance);
			} else {
				FinishCommand();
				return;
			}
		} else {
			float3 pos(c.params[0], c.params[1], c.params[2]);
			owner->AttackGround(pos, false);
			inCommand = true;
		}
	}

	return;
}
示例#4
0
void CAirCAI::SlowUpdate()
{
	if (!commandQue.empty() && commandQue.front().timeOut < gs->frameNum) {
		FinishCommand();
		return;
	}

	if (owner->usingScriptMoveType) {
		return; // avoid the invalid (CAirMoveType*) cast
	}

	CAirMoveType* myPlane=(CAirMoveType*) owner->moveType;

	if(owner->unitDef->maxFuel > 0){
		if(myPlane->reservedPad){
			return;
		}else{
			if(owner->currentFuel <= 0){
				owner->userAttackGround=false;
				owner->userTarget=0;
				inCommand=false;

				CAirBaseHandler::LandingPad* lp = airBaseHandler->FindAirBase(
					owner, owner->unitDef->minAirBasePower);
				if(lp){
					myPlane->AddDeathDependence(lp);
					myPlane->reservedPad = lp;
					myPlane->padStatus = 0;
					myPlane->oldGoalPos = myPlane->goalPos;
					return;
				}
				float3 landingPos = airBaseHandler->FindClosestAirBasePos(
					owner, owner->unitDef->minAirBasePower);
				if(landingPos != ZeroVector && owner->pos.distance2D(landingPos) > 300){
					if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_LANDED
							&& owner->pos.distance2D(landingPos) > 800) {
						myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);
					}
					myPlane->goalPos = landingPos;
				} else {
					if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_FLYING)
						myPlane->SetState(CAirMoveType::AIRCRAFT_LANDING);
				}
				return;
			}
			if(owner->currentFuel < myPlane->repairBelowHealth * owner->unitDef->maxFuel){
				if(commandQue.empty() || commandQue.front().id == CMD_PATROL){
					CAirBaseHandler::LandingPad* lp =
						airBaseHandler->FindAirBase(owner, owner->unitDef->minAirBasePower);
					if(lp){
						owner->userAttackGround=false;
						owner->userTarget=0;
						inCommand=false;
						myPlane->AddDeathDependence(lp);
						myPlane->reservedPad=lp;
						myPlane->padStatus=0;
						myPlane->oldGoalPos=myPlane->goalPos;
						if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_LANDED){
							myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);
						}
						return;
					}
				}
			}
		}
	}

	if(commandQue.empty()){
		if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_FLYING
				&& !owner->unitDef->DontLand()){
			myPlane->SetState(CAirMoveType::AIRCRAFT_LANDING);
		}

		if(owner->unitDef->canAttack && owner->fireState==2
				&& owner->moveState != 0 && owner->maxRange > 0){
			if(myPlane->isFighter){
				float testRad=1000 * owner->moveState;
				CUnit* enemy=helper->GetClosestEnemyAircraft(
					owner->pos + (owner->speed * 10), testRad, owner->allyteam);
				if(enemy && !enemy->crashing){
					Command nc;
					nc.id = CMD_ATTACK;
					nc.params.push_back(enemy->id);
					nc.options = 0;
					commandQue.push_front(nc);
					inCommand = false;
					return;
				}
			}
			float testRad = 500 * owner->moveState;
			CUnit* enemy = helper->GetClosestEnemyUnit(
				owner->pos + (owner->speed * 20), testRad, owner->allyteam);
			if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater)
					&& !enemy->crashing
					&& (myPlane->isFighter || !enemy->unitDef->canfly)){
				Command nc;
				nc.id = CMD_ATTACK;
				nc.params.push_back(enemy->id);
				nc.options = 0;
				commandQue.push_front(nc);
				inCommand = false;
				return;
			}
		}
		return;
	}

	Command& c = commandQue.front();

	if (c.id == CMD_WAIT) {
		if ((myPlane->aircraftState == CAirMoveType::AIRCRAFT_FLYING)
		    && !owner->unitDef->DontLand()) {
			myPlane->SetState(CAirMoveType::AIRCRAFT_LANDING);
		}
		return;
	}

	if (c.id != CMD_STOP) {
		if (myPlane->aircraftState == CAirMoveType::AIRCRAFT_LANDED) {
			myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);
		}
		if (myPlane->aircraftState == CAirMoveType::AIRCRAFT_LANDING) {
			myPlane->SetState(CAirMoveType::AIRCRAFT_FLYING);
		}
	}

	float3 curPos=owner->pos;

	switch(c.id){
		case CMD_AREA_ATTACK:{
			ExecuteAreaAttack(c);
			return;
		}
		default:{
			CMobileCAI::Execute();
			return;
		}
	}
}
void CMobileCAI::SlowUpdate()
{
    if(owner->unitDef->maxFuel>0 && dynamic_cast<CTAAirMoveType*>(owner->moveType)) {
        CTAAirMoveType* myPlane=(CTAAirMoveType*)owner->moveType;
        if(myPlane->reservedPad) {
            return;
        } else {
            if(owner->currentFuel <= 0) {
                StopMove();
                owner->userAttackGround=false;
                owner->userTarget=0;
                inCommand=false;
                CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
                if(lp) {
                    myPlane->AddDeathDependence(lp);
                    myPlane->reservedPad=lp;
                    myPlane->padStatus=0;
                    myPlane->oldGoalPos=myPlane->goalPos;
                    return;
                }
                float3 landingPos = airBaseHandler->FindClosestAirBasePos(owner,8000,owner->unitDef->minAirBasePower);
                if(landingPos != ZeroVector && owner->pos.distance2D(landingPos) > 300) {
                    inCommand=false;
                    StopMove();
                    SetGoal(landingPos,owner->pos);
                } else {
                    if(myPlane->aircraftState == CTAAirMoveType::AIRCRAFT_FLYING)
                        myPlane->SetState(CTAAirMoveType::AIRCRAFT_LANDING);
                }
                return;
            }
            if(owner->currentFuel < myPlane->repairBelowHealth*owner->unitDef->maxFuel) {
                if(commandQue.empty() || commandQue.front().id==CMD_PATROL) {
                    CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
                    if(lp) {
                        StopMove();
                        owner->userAttackGround=false;
                        owner->userTarget=0;
                        inCommand=false;
                        myPlane->AddDeathDependence(lp);
                        myPlane->reservedPad=lp;
                        myPlane->padStatus=0;
                        myPlane->oldGoalPos=myPlane->goalPos;
                        if(myPlane->aircraftState==CTAAirMoveType::AIRCRAFT_LANDED) {
                            myPlane->SetState(CTAAirMoveType::AIRCRAFT_TAKEOFF);
                        }
                        return;
                    }
                }
            }
        }
    }

    if(!commandQue.empty() && commandQue.front().timeOut<gs->frameNum) {
        StopMove();
        FinishCommand();
        return;
    }

    if(commandQue.empty()) {
//		if(!owner->ai || owner->ai->State() != CHasState::Active) {
        IdleCheck();
//		}
        if(commandQue.empty() || commandQue.front().id==CMD_ATTACK)	//the attack order could terminate directly and thus cause a loop
            return;
    }

    float3 curPos=owner->pos;

    Command& c=commandQue.front();
    switch(c.id) {
    case CMD_STOP: {
        StopMove();
        CCommandAI::SlowUpdate();
        break;
    }
    case CMD_MOVE: {
        float3 pos(c.params[0],c.params[1],c.params[2]);
        if(!(pos==goalPos)) {
            SetGoal(pos,curPos);
        }
        if((curPos-goalPos).SqLength2D()<1024 || owner->moveType->progressState==CMoveType::Failed) {
            FinishCommand();
        }
        break;
    }
    case CMD_PATROL: {
        if(c.params.size()<3) {		//this shouldnt happen but anyway ...
            info->AddLine("Error: got patrol cmd with less than 3 params on %s in mobilecai",
                          owner->unitDef->humanName.c_str());
            return;
        }
        Command temp;
        temp.id = CMD_FIGHT;
        temp.params.push_back(c.params[0]);
        temp.params.push_back(c.params[1]);
        temp.params.push_back(c.params[2]);
        temp.options = c.options|INTERNAL_ORDER;
        commandQue.push_back(c);
        commandQue.pop_front();
        commandQue.push_front(temp);
        if(owner->group) {
            owner->group->CommandFinished(owner->id,CMD_PATROL);
        }
        SlowUpdate();
        return;
    }
    case CMD_FIGHT: {
        if(tempOrder) {
            inCommand = true;
            tempOrder = false;
        }
        if(c.params.size()<3) {		//this shouldnt happen but anyway ...
            info->AddLine("Error: got fight cmd with less than 3 params on %s in mobilecai",
                          owner->unitDef->humanName.c_str());
            return;
        }
        if(c.params.size() >= 6) {
            if(!inCommand) {
                commandPos1 = float3(c.params[3],c.params[4],c.params[5]);
            }
        } else {
            commandPos1 = curPos;
        }
        float3 pos(c.params[0],c.params[1],c.params[2]);
        if(!inCommand) {
            inCommand = true;
            commandPos2 = pos;
        }
        if(pos!=goalPos) {
            SetGoal(pos,curPos);
        }

        if(owner->fireState==2) {
            CUnit* enemy=helper->GetClosestEnemyUnit(
                             curPos, owner->maxRange+100*owner->moveState*owner->moveState, owner->allyteam);
            if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater)
                    && !(owner->unitDef->noChaseCategory & enemy->category) && !owner->weapons.empty()) {	//todo: make sure they dont stray to far from path
                if(owner->moveState!=1
                        || LinePointDist(commandPos1,commandPos2,enemy->pos)
                        < 300+max(owner->maxRange, (float)owner->losRadius)) {
                    Command c2,c3;
                    c3 = this->GetReturnFight(c);
                    c2.id=CMD_ATTACK;
                    c2.options=c.options|INTERNAL_ORDER;
                    c2.params.push_back(enemy->id);
                    commandQue.push_front(c3);
                    commandQue.push_front(c2);
                    inCommand=false;
                    tempOrder=true;
                    if(lastPC!=gs->frameNum) {	//avoid infinite loops
                        lastPC=gs->frameNum;
                        SlowUpdate();
                    }
                    return;
                }
            }
        }
        if((curPos-goalPos).SqLength2D()<4096 || owner->moveType->progressState==CMoveType::Failed) {
            FinishCommand();
        }
        return;
    }
    case CMD_DGUN:
        if(uh->limitDgun && owner->unitDef->isCommander
                && owner->pos.distance(gs->Team(owner->team)->startPos)>uh->dgunRadius) {
            StopMove();
            FinishCommand();
            return;
        }
    //no break
    case CMD_ATTACK:
        if(tempOrder && owner->moveState<2) {		//limit how far away we fly
            if(orderTarget && LinePointDist(commandPos1,commandPos2,orderTarget->pos) > 500+owner->maxRange) {
                StopMove();
                FinishCommand();
                break;
            }
        }
        if(!inCommand) {
            if(c.params.size()==1) {
                if(uh->units[int(c.params[0])]!=0 && uh->units[int(c.params[0])]!=owner) {
                    float3 fix=uh->units[int(c.params[0])]->pos+owner->posErrorVector*128;
                    SetGoal(fix,curPos);
                    orderTarget=uh->units[int(c.params[0])];
                    AddDeathDependence(orderTarget);
                    inCommand=true;
                } else {
                    StopMove();		//cancel keeppointingto
                    FinishCommand();
                    break;
                }
            } else {
                float3 pos(c.params[0],c.params[1],c.params[2]);
                SetGoal(pos,curPos);
                inCommand=true;
            }
        }
        else if ((c.params.size() == 3) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
            StopMove();
            FinishCommand();
            break;
        }

        if(targetDied || (c.params.size() == 1 && uh->units[int(c.params[0])] && !(uh->units[int(c.params[0])]->losStatus[owner->allyteam] & LOS_INRADAR))) {
            StopMove();		//cancel keeppointingto
            FinishCommand();
            break;
        }
        if(orderTarget) {
            //note that we handle aircrafts slightly differently
            if((((owner->AttackUnit(orderTarget, c.id==CMD_DGUN) && owner->weapons.size() > 0
                    && owner->weapons.front()->range > orderTarget->pos.distance(owner->pos))
                    || dynamic_cast<CTAAirMoveType*>(owner->moveType))
                    && (owner->pos-orderTarget->pos).Length2D()<owner->maxRange*0.9)
                    || (owner->pos-orderTarget->pos).SqLength2D()<1024) {
                StopMove();
                owner->moveType->KeepPointingTo(orderTarget->pos, min((double)(owner->losRadius*SQUARE_SIZE*2), owner->maxRange*0.9), true);
            } else if((orderTarget->pos+owner->posErrorVector*128).distance2D(goalPos) > 10+orderTarget->pos.distance2D(owner->pos)*0.2) {
                float3 fix=orderTarget->pos+owner->posErrorVector*128;
                SetGoal(fix,curPos);
            }
        } else {
            float3 pos(c.params[0],c.params[1],c.params[2]);
            if((owner->AttackGround(pos,c.id==CMD_DGUN) && owner->weapons.size() > 0
                    && (owner->pos-pos).Length()< owner->weapons.front()->range) || (owner->pos-pos).SqLength2D()<1024) {
                StopMove();
                owner->moveType->KeepPointingTo(pos, owner->maxRange*0.9, true);
            } else if(pos.distance2D(goalPos)>10) {
                SetGoal(pos,curPos);
            }
        }
        break;
    case CMD_GUARD:
        if(uh->units[int(c.params[0])]!=0) {
            CUnit* guarded=uh->units[int(c.params[0])];
            if(guarded->lastAttacker && guarded->lastAttack+40<gs->frameNum
                    && (owner->hasUWWeapons || !guarded->lastAttacker->isUnderWater)) {
                Command nc;
                nc.id=CMD_ATTACK;
                nc.params.push_back(guarded->lastAttacker->id);
                nc.options=c.options;
                commandQue.push_front(nc);
                SlowUpdate();
                return;
            } else {
                float3 dif=guarded->pos-curPos;
                dif.Normalize();
                float3 goal=guarded->pos-dif*(guarded->radius+owner->radius+64);
                if((goal-curPos).SqLength2D()<8000) {
                    StopMove();
                    NonMoving();
                } else {
                    if((goalPos-goal).SqLength2D()>3600)
                        SetGoal(goal,curPos);
                }
            }
        } else {
            FinishCommand();
        }
        break;
    default:
        CCommandAI::SlowUpdate();
        break;
    }
}
示例#6
0
/**
* @brief Executes the Fight command c
*/
void CMobileCAI::ExecuteFight(Command& c)
{
	assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);

	if (c.params.size() == 1 && !owner->weapons.empty()) {
		CWeapon* w = owner->weapons.front();

		if ((orderTarget != NULL) && !w->AttackUnit(orderTarget, false)) {
			CUnit* newTarget = CGameHelper::GetClosestValidTarget(owner->pos, owner->maxRange, owner->allyteam, this);

			if ((newTarget != NULL) && w->AttackUnit(newTarget, false)) {
				c.params[0] = newTarget->id;

				inCommand = false;
			} else {
				w->AttackUnit(orderTarget, false);
			}
		}

		ExecuteAttack(c);
		return;
	}

	if (tempOrder) {
		inCommand = true;
		tempOrder = false;
	}
	if (c.params.size() < 3) {
		LOG_L(L_ERROR,
				"Received a Fight command with less than 3 params on %s in MobileCAI",
				owner->unitDef->humanName.c_str());
		return;
	}
	if (c.params.size() >= 6) {
		if (!inCommand) {
			commandPos1 = c.GetPos(3);
		}
	} else {
		// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
		// rotated (only shortened) if we reach this because the previous return
		// fight command finished by the 'if((curPos-pos).SqLength2D()<(64*64)){'
		// condition, but is actually updated correctly if you click somewhere
		// outside the area close to the line (for a new command).
		commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		if ((owner->pos - commandPos1).SqLength2D() > (96 * 96)) {
			commandPos1 = owner->pos;
		}
	}

	float3 pos = c.GetPos(0);

	if (!inCommand) {
		inCommand = true;
		commandPos2 = pos;
		lastUserGoal = commandPos2;
	}
	if (c.params.size() >= 6) {
		pos = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	}
	if (pos != goalPos) {
		SetGoal(pos, owner->pos);
	}

	if (owner->unitDef->canAttack && owner->fireState >= FIRESTATE_FIREATWILL && !owner->weapons.empty()) {
		const float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		const float searchRadius = owner->maxRange + 100 * owner->moveState * owner->moveState;
		CUnit* enemy = CGameHelper::GetClosestValidTarget(curPosOnLine, searchRadius, owner->allyteam, this);

		if (enemy != NULL) {
			PushOrUpdateReturnFight();

			// make the attack-command inherit <c>'s options
			// NOTE: see AirCAI::ExecuteFight why we do not set INTERNAL_ORDER
			Command c2(CMD_ATTACK, c.options, enemy->id);
			commandQue.push_front(c2);

			inCommand = false;
			tempOrder = true;

			// avoid infinite loops (?)
			if (lastPC != gs->frameNum) {
				lastPC = gs->frameNum;
				SlowUpdate();
			}
			return;
		}
	}

	if ((owner->pos - goalPos).SqLength2D() < (64 * 64)
			|| (owner->moveType->progressState == AMoveType::Failed)){
		FinishCommand();
	}
}
void CCommandAI::ExecuteRemove(const Command& c)
{
	if ((c.params.size() <= 0) ||
	    (commandQue.size() <= 0)) {
		return;
	}

	// disable repeating during the removals
	const bool prevRepeat = repeatOrders;
	repeatOrders = false;

	CCommandQueue* queue = &commandQue;

	bool facBuildQueue = false;
	CFactoryCAI* facCAI = dynamic_cast<CFactoryCAI*>(this);
	if (facCAI) {
		if (c.options & CONTROL_KEY) {
			// check the build order
			facBuildQueue = true;
		} else {
			// use the new commands
			queue = &facCAI->newUnitCommands;
		}
	}

	// erase commands by a list of command types
	bool active = false;
	for (int p = 0; p < (int)c.params.size(); p++) {
		const int removeValue = (int)c.params[p]; // tag or id
		if (facBuildQueue && (removeValue == 0) && !(c.options & ALT_KEY)) {
			continue; // don't remove tag=0 commands from build queues, they
			          // are used the same way that CMD_STOP is, to void orders
		}
		CCommandQueue::iterator ci;
		do {
			for (ci = queue->begin(); ci != queue->end(); ++ci) {
				const Command& qc = *ci;
				if (c.options & ALT_KEY) {
					if (qc.id != removeValue)  { continue; }
				} else {
					if (qc.tag != removeValue) { continue; }
				}

				if (qc.id == CMD_WAIT) {
					waitCommandsAI.RemoveWaitCommand(owner, qc);
				}

				if (facBuildQueue) {
					facCAI->RemoveBuildCommand(ci);
					ci = queue->begin();
					break; // the removal may have corrupted the iterator
				}

				if (!facCAI && (ci == queue->begin())) {
					if (!active) {
						active = true;
						FinishCommand();
						ci = queue->begin();
						break;
					}
					active = true;
				}
				queue->erase(ci);
				ci = queue->begin();
				break; // the removal may have corrupted the iterator
			}
		}
		while (ci != queue->end());
	}

	repeatOrders = prevRepeat;
	return;
}
示例#8
0
void CCommandAI::ExecuteRemove(const Command& c)
{
	CCommandQueue* queue = &commandQue;
	CFactoryCAI* facCAI = dynamic_cast<CFactoryCAI*>(this);

	// if false, remove commands by tag
	const bool removeByID = (c.options & ALT_KEY);
	// disable repeating during the removals
	const bool prevRepeat = repeatOrders;

	// erase commands by a list of command types
	bool active = false;
	bool facBuildQueue = false;

	if (facCAI) {
		if (c.options & CONTROL_KEY) {
			// keep using the build-order queue
			facBuildQueue = true;
		} else {
			// use the command-queue for new units
			queue = &facCAI->newUnitCommands;
		}
	}

	if ((c.params.size() <= 0) || (queue->size() <= 0)) {
		return;
	}

	repeatOrders = false;

	for (unsigned int p = 0; p < c.params.size(); p++) {
		const int removeValue = c.params[p]; // tag or id

		if (facBuildQueue && !removeByID && (removeValue == 0)) {
			// don't remove commands with tag 0 from build queues, they
			// are used the same way that CMD_STOP is (to void orders)
			continue;
		}

		CCommandQueue::iterator ci;

		do {
			for (ci = queue->begin(); ci != queue->end(); ++ci) {
				const Command& qc = *ci;

				if (removeByID) {
					if (qc.GetID() != removeValue)  { continue; }
				} else {
					if (qc.tag != removeValue) { continue; }
				}

				if (qc.GetID() == CMD_WAIT) {
					waitCommandsAI.RemoveWaitCommand(owner, qc);
				}

				if (facBuildQueue) {
					// if ci == queue->begin() and !queue->empty(), this pop_front()'s
					// via CFAI::ExecuteStop; otherwise only modifies *ci (not <queue>)
					if (facCAI->RemoveBuildCommand(ci)) {
						ci = queue->begin(); break;
					}
				}

				if (!facCAI && (ci == queue->begin())) {
					if (!active) {
						active = true;
						FinishCommand();
						ci = queue->begin();
						break;
					}
					active = true;
				}

				queue->erase(ci);
				ci = queue->begin();

				// the removal may have corrupted the iterator
				break;
			}
		}
		while (ci != queue->end());
	}

	repeatOrders = prevRepeat;
}
void CMobileCAI::SlowUpdate()
{
	if(owner->unitDef->maxFuel>0 && dynamic_cast<CTAAirMoveType*>(owner->moveType)){
		CTAAirMoveType* myPlane=(CTAAirMoveType*)owner->moveType;
		if(myPlane->reservedPad){
			return;
		} else {
			if(owner->currentFuel <= 0){
				StopMove();
				owner->userAttackGround=false;
				owner->userTarget=0;
				inCommand=false;
				CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
				if(lp){
					myPlane->AddDeathDependence(lp);
					myPlane->reservedPad=lp;
					myPlane->padStatus=0;
					myPlane->oldGoalPos=myPlane->goalPos;
					return;
				}
				float3 landingPos = airBaseHandler->FindClosestAirBasePos(owner,8000,owner->unitDef->minAirBasePower);
				if(landingPos != ZeroVector && owner->pos.distance2D(landingPos) > 300){
					inCommand=false;
					StopMove();
					SetGoal(landingPos,owner->pos);
				} else {
					if(myPlane->aircraftState == CTAAirMoveType::AIRCRAFT_FLYING)
						myPlane->SetState(CTAAirMoveType::AIRCRAFT_LANDING);	
				}
				return;
			}
			if(owner->currentFuel < myPlane->repairBelowHealth*owner->unitDef->maxFuel){
				if(commandQue.empty() || commandQue.front().id==CMD_PATROL){
					CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
					if(lp){
						StopMove();
						owner->userAttackGround=false;
						owner->userTarget=0;
						inCommand=false;
						myPlane->AddDeathDependence(lp);
						myPlane->reservedPad=lp;
						myPlane->padStatus=0;
						myPlane->oldGoalPos=myPlane->goalPos;
						if(myPlane->aircraftState==CTAAirMoveType::AIRCRAFT_LANDED){
							myPlane->SetState(CTAAirMoveType::AIRCRAFT_TAKEOFF);
						}
						return;
					}		
				}
			}
		}
	}

	if(!commandQue.empty() && commandQue.front().timeOut<gs->frameNum){
		StopMove();
		FinishCommand();
		return;
	}

	if(commandQue.empty()) {
//		if(!owner->ai || owner->ai->State() != CHasState::Active) {
			IdleCheck();
//		}
		if(commandQue.empty() || commandQue.front().id==CMD_ATTACK)	//the attack order could terminate directly and thus cause a loop
			return;
	}

	float3 curPos=owner->pos;
	
	// treat any following CMD_SET_WANTED_MAX_SPEED commands as options
	// to the current command  (and ignore them when it's their turn)
	if (commandQue.size() >= 2) {
		deque<Command>::iterator it = commandQue.begin();
		it++;
		const Command& c = *it;
		if ((c.id == CMD_SET_WANTED_MAX_SPEED) && (c.params.size() >= 1)) {
			const float defMaxSpeed = (owner->unitDef->speed / 30.0f);
			const float newMaxSpeed = min(c.params[0], defMaxSpeed);
			owner->moveType->SetMaxSpeed(newMaxSpeed);
		}
	}	 

	Command& c=commandQue.front();
	switch(c.id){
	case CMD_WAIT:{
		break;
	}
	case CMD_STOP:{
		StopMove();
		CCommandAI::SlowUpdate();
		break;
	}
	case CMD_SET_WANTED_MAX_SPEED:{
	  if (repeatOrders && (commandQue.size() >= 2) &&
	      (commandQue.back().id != CMD_SET_WANTED_MAX_SPEED)) {
	  	commandQue.push_back(commandQue.front());
		}
		commandQue.pop_front();
		SlowUpdate();
		break;
	}
	case CMD_MOVE:{
		float3 pos(c.params[0],c.params[1],c.params[2]);
		if(!(pos==goalPos)){
			SetGoal(pos,curPos);
		}
		if((curPos-goalPos).SqLength2D()<1024 || owner->moveType->progressState==CMoveType::Failed){
			FinishCommand();
		}
		break;
	}
	case CMD_PATROL:{
		assert(owner->unitDef->canPatrol);
		if(c.params.size()<3){		//this shouldnt happen but anyway ...
			logOutput.Print("Error: got patrol cmd with less than 3 params on %s in mobilecai",
				owner->unitDef->humanName.c_str());
			return;
		}
		Command temp;
		temp.id = CMD_FIGHT;
		temp.params.push_back(c.params[0]);
		temp.params.push_back(c.params[1]);
		temp.params.push_back(c.params[2]);
		temp.options = c.options|INTERNAL_ORDER;
		commandQue.push_back(c);
		commandQue.pop_front();
		commandQue.push_front(temp);
		if(owner->group){
			owner->group->CommandFinished(owner->id,CMD_PATROL);
		}
		SlowUpdate();
		return;
	}
	case CMD_FIGHT:{
		assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);
		if(tempOrder){
			inCommand = true;
			tempOrder = false;
		}
		if(c.params.size()<3){		//this shouldnt happen but anyway ...
			logOutput.Print("Error: got fight cmd with less than 3 params on %s in mobilecai",
				owner->unitDef->humanName.c_str());
			return;
		}
		if(c.params.size() >= 6){
			if(!inCommand){
				commandPos1 = float3(c.params[3],c.params[4],c.params[5]);
			}
		} else {
			// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
			// rotated (only shortened) if we reach this because the previous return
			// fight command finished by the 'if((curPos-pos).SqLength2D()<(64*64)){'
			// condition, but is actually updated correctly if you click somewhere
			// outside the area close to the line (for a new command).
			commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, curPos);
			if ((curPos-commandPos1).SqLength2D()>(96*96)) {
				commandPos1 = curPos;
			}
		}
		float3 pos(c.params[0],c.params[1],c.params[2]);
		if(!inCommand){
			inCommand = true;
			commandPos2 = pos;
		}
		if(pos!=goalPos){
			SetGoal(pos,curPos);
		}

		if(owner->unitDef->canAttack && owner->fireState==2){
			float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2, curPos);
			CUnit* enemy=helper->GetClosestEnemyUnit(
				curPosOnLine, owner->maxRange+100*owner->moveState*owner->moveState, owner->allyteam);
			if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater)
						&& !(owner->unitDef->noChaseCategory & enemy->category) && !owner->weapons.empty()){
				Command c2;
				c2.id=CMD_ATTACK;
				c2.options=c.options|INTERNAL_ORDER;
				c2.params.push_back(enemy->id);
				PushOrUpdateReturnFight();
				commandQue.push_front(c2);
				inCommand=false;
				tempOrder=true;
				if(lastPC!=gs->frameNum){	//avoid infinite loops
					lastPC=gs->frameNum;
					SlowUpdate();
				}
				return;
			}
		}
		if((curPos-goalPos).SqLength2D()<(64*64) || owner->moveType->progressState==CMoveType::Failed){
			FinishCommand();
		}
		return;
	}
	case CMD_DGUN:
		if(uh->limitDgun && owner->unitDef->isCommander
		  && owner->pos.distance(gs->Team(owner->team)->startPos)>uh->dgunRadius){
			StopMove();
			FinishCommand();
			return;
		}
		//no break
	case CMD_ATTACK:
		assert(owner->unitDef->canAttack);
		if(tempOrder && owner->moveState<2){		//limit how far away we fly
			if(orderTarget && LinePointDist(commandPos1,commandPos2,orderTarget->pos) > 500+owner->maxRange){
				StopMove();
				FinishCommand();
				break;
			}
		}
		if(!inCommand){
			if(c.params.size()==1){
				if(uh->units[int(c.params[0])]!=0 && uh->units[int(c.params[0])]!=owner){
					float3 fix=uh->units[int(c.params[0])]->pos+owner->posErrorVector*128;
					SetGoal(fix,curPos);
					orderTarget=uh->units[int(c.params[0])];
					AddDeathDependence(orderTarget);
					inCommand=true;
				} else {
					StopMove();		//cancel keeppointingto
					FinishCommand();
					break;
				}
			} else {
				float3 pos(c.params[0],c.params[1],c.params[2]);
				SetGoal(pos,curPos);
				inCommand=true;
			}
		}
		else if ((c.params.size() == 3) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
			// the trailing CMD_SET_WANTED_MAX_SPEED in a command pair does not count
			if ((commandQue.size() != 2) || (commandQue.back().id != CMD_SET_WANTED_MAX_SPEED)) {
				StopMove();
				FinishCommand();
				break;
			}
		}

		if(targetDied || (c.params.size() == 1 && UpdateTargetLostTimer(int(c.params[0])) == 0)){
			StopMove();		//cancel keeppointingto
			FinishCommand();
			break;
		}
		if(orderTarget){
			//note that we handle aircrafts slightly differently
			if((((owner->AttackUnit(orderTarget, c.id==CMD_DGUN)
					&& owner->weapons.size() > 0 
					&& owner->weapons.front()->range -
						owner->weapons.front()->relWeaponPos.Length() >
						orderTarget->pos.distance(owner->pos))
					|| dynamic_cast<CTAAirMoveType*>(owner->moveType))
					&& (owner->pos-orderTarget->pos).Length2D() <
						owner->maxRange*0.9f)
					|| (owner->pos-orderTarget->pos).SqLength2D()<1024){
				StopMove();
				owner->moveType->KeepPointingTo(orderTarget,
					min((float)(owner->losRadius*SQUARE_SIZE*2),
					owner->maxRange*0.9f), true);
			} else if((orderTarget->pos+owner->posErrorVector*128).distance2D(goalPos) > 10+orderTarget->pos.distance2D(owner->pos)*0.2f){
				float3 fix=orderTarget->pos+owner->posErrorVector*128;
				SetGoal(fix,curPos);
			}
		} else {
			float3 pos(c.params[0],c.params[1],c.params[2]);
			if((owner->AttackGround(pos,c.id==CMD_DGUN) && owner->weapons.size() > 0
					&& (owner->pos-pos).Length() < 
						owner->weapons.front()->range -
						owner->weapons.front()->relWeaponPos.Length())
					|| (owner->pos-pos).SqLength2D()<1024){
				StopMove();
				owner->moveType->KeepPointingTo(pos, owner->maxRange*0.9f, true);
			} else if(pos.distance2D(goalPos)>10){
				SetGoal(pos,curPos);
			}
		}
		break;
	case CMD_GUARD:
		assert(owner->unitDef->canGuard);
		if(uh->units[int(c.params[0])]!=0 && UpdateTargetLostTimer(int(c.params[0]))){
			CUnit* guarded=uh->units[int(c.params[0])];
			if(owner->unitDef->canAttack && guarded->lastAttacker && guarded->lastAttack+40<gs->frameNum
			  && (owner->hasUWWeapons || !guarded->lastAttacker->isUnderWater)){
				Command nc;
				nc.id=CMD_ATTACK;
				nc.params.push_back(guarded->lastAttacker->id);
				nc.options=c.options;
				commandQue.push_front(nc);
				SlowUpdate();
				return;
			} else {
				float3 dif=guarded->pos-curPos;
				dif.Normalize();
				float3 goal=guarded->pos-dif*(guarded->radius+owner->radius+64);
				if((goal-curPos).SqLength2D()<8000){
					StopMove();
					NonMoving();
				}else{
					if((goalPos-goal).SqLength2D()>3600)
						SetGoal(goal,curPos);
				}
			}
		} else {
			FinishCommand();
		}
		break;
	default:
		CCommandAI::SlowUpdate();
		break;
	}
}
示例#10
0
void CBuilderCAI::ExecuteReclaim(Command& c)
{
	// not all builders are reclaim-capable by default
	if (!owner->unitDef->canReclaim)
		return;

	if (c.params.size() == 1 || c.params.size() == 5) {
		const int signedId = (int) c.params[0];

		if (signedId < 0) {
			LOG_L(L_WARNING, "Trying to reclaim unit or feature with id < 0 (%i), aborting.", signedId);
			return;
		}

		const unsigned int uid = signedId;

		const bool checkForBetterTarget = ((++randomCounter % 5) == 0);
		if (checkForBetterTarget && (c.options & INTERNAL_ORDER) && (c.params.size() >= 5)) {
			// regular check if there is a closer reclaim target
			CSolidObject* obj;
			if (uid >= unitHandler->MaxUnits()) {
				obj = featureHandler->GetFeature(uid - unitHandler->MaxUnits());
			} else {
				obj = unitHandler->GetUnit(uid);
			}
			if (obj) {
				const float3& pos = c.GetPos(1);
				const float radius = c.params[4];
				const float curdist = pos.SqDistance2D(obj->pos);

				const bool recUnits = !!(c.options & META_KEY);
				const bool recEnemyOnly = (c.options & META_KEY) && (c.options & CONTROL_KEY);
				const bool recSpecial = !!(c.options & CONTROL_KEY);

				ReclaimOption recopt = REC_NORESCHECK;
				if (recUnits)     recopt |= REC_UNITS;
				if (recEnemyOnly) recopt |= REC_ENEMYONLY;
				if (recSpecial)   recopt |= REC_SPECIAL;

				const int rid = FindReclaimTarget(pos, radius, c.options, recopt, curdist);
				if ((rid > 0) && (rid != uid)) {
					FinishCommand();
					RemoveUnitFromReclaimers(owner);
					RemoveUnitFromFeatureReclaimers(owner);
					return;
				}
			}
		}

		if (uid >= unitHandler->MaxUnits()) { // reclaim feature
			CFeature* feature = featureHandler->GetFeature(uid - unitHandler->MaxUnits());

			if (feature != NULL) {
				bool featureBeingResurrected = IsFeatureBeingResurrected(feature->id, owner);
				featureBeingResurrected &= (c.options & INTERNAL_ORDER) && !(c.options & CONTROL_KEY);

				if (featureBeingResurrected || !ReclaimObject(feature)) {
					StopMove();
					FinishCommand();
					RemoveUnitFromFeatureReclaimers(owner);
				} else {
					AddUnitToFeatureReclaimers(owner);
				}
			} else {
				StopMove();
				FinishCommand();
				RemoveUnitFromFeatureReclaimers(owner);
			}

			RemoveUnitFromReclaimers(owner);
		} else { // reclaim unit
			CUnit* unit = unitHandler->GetUnit(uid);

			if (unit != NULL && c.params.size() == 5) {
				const float3& pos = c.GetPos(1);
				const float radius = c.params[4] + 100.0f; // do not walk too far outside reclaim area

				const bool outOfReclaimRange =
					(pos.SqDistance2D(unit->pos) > radius * radius) ||
					(ownerBuilder->curReclaim == unit && unit->IsMoving() && !IsInBuildRange(unit));
				const bool busyAlliedBuilder =
					unit->unitDef->builder &&
					!unit->commandAI->commandQue.empty() &&
					teamHandler->Ally(owner->allyteam, unit->allyteam);

				if (outOfReclaimRange || busyAlliedBuilder) {
					StopMove();
					RemoveUnitFromReclaimers(owner);
					FinishCommand();
					RemoveUnitFromFeatureReclaimers(owner);
					return;
				}
			}

			if (unit != NULL && unit != owner && unit->unitDef->reclaimable && UpdateTargetLostTimer(unit->id) && unit->AllowedReclaim(owner)) {
				if (!ReclaimObject(unit)) {
					StopMove();
					FinishCommand();
				} else {
					AddUnitToReclaimers(owner);
				}
			} else {
				RemoveUnitFromReclaimers(owner);
				FinishCommand();
			}

			RemoveUnitFromFeatureReclaimers(owner);
		}
	} else if (c.params.size() == 4) {
		// area reclaim
		const float3 pos = c.GetPos(0);
		const float radius = c.params[3];
		const bool recUnits = !!(c.options & META_KEY);
		const bool recEnemyOnly = (c.options & META_KEY) && (c.options & CONTROL_KEY);
		const bool recSpecial = !!(c.options & CONTROL_KEY);

		RemoveUnitFromReclaimers(owner);
		RemoveUnitFromFeatureReclaimers(owner);
		ownerBuilder->StopBuild();

		ReclaimOption recopt = REC_NORESCHECK;
		if (recUnits)     recopt |= REC_UNITS;
		if (recEnemyOnly) recopt |= REC_ENEMYONLY;
		if (recSpecial)   recopt |= REC_SPECIAL;

		if (FindReclaimTargetAndReclaim(pos, radius, c.options, recopt)) {
			inCommand = false;
			SlowUpdate();
			return;
		}
		if(!(c.options & ALT_KEY)){
			FinishCommand();
		}
	} else {
		// wrong number of parameters
		RemoveUnitFromReclaimers(owner);
		RemoveUnitFromFeatureReclaimers(owner);
		FinishCommand();
	}
}
示例#11
0
void CFactoryCAI::SlowUpdate()
{
	if (commandQue.empty() || owner->beingBuilt) {
		return;
	}

	CFactory* fac=(CFactory*)owner;

	unsigned int oldSize;
	do {
		Command& c=commandQue.front();
		oldSize=commandQue.size();
		map<int,BuildOption>::iterator boi;
		if((boi=buildOptions.find(c.id))!=buildOptions.end()){
			const UnitDef *def = unitDefHandler->GetUnitByName(boi->second.name);
			if(building){
				if(!fac->curBuild && !fac->quedBuild){
					building=false;
					if(owner->group)
						owner->group->CommandFinished(owner->id,commandQue.front().id);
					if(!repeatOrders || c.options & DONT_REPEAT)
						boi->second.numQued--;
					UpdateIconName(c.id,boi->second);
					FinishCommand();
				}
				// This can only be true if two factories started building
				// the restricted unit in the same simulation frame
				else if(uh->unitsByDefs[owner->team][def->id].size() > def->maxThisUnit){ //unit restricted?
					CFactory* fac=(CFactory*)owner;
					building = false;
					fac->StopBuild();
					CancelRestrictedUnit(c, boi->second);
				}
			} else {
				const UnitDef *def = unitDefHandler->GetUnitByName(boi->second.name);
				if(luaRules && !luaRules->AllowUnitCreation(def, owner, NULL)) {
					if(!repeatOrders || c.options & DONT_REPEAT){
						boi->second.numQued--;
					}
					UpdateIconName(c.id,boi->second);
					FinishCommand();
				}
				else if(uh->unitsByDefs[owner->team][def->id].size() >= def->maxThisUnit){ //unit restricted?
					CancelRestrictedUnit(c, boi->second);
				}
				else if(uh->maxUnits>teamHandler->Team(owner->team)->units.size()){  //max unitlimit reached?
					fac->StartBuild(boi->second.fullName);
					building=true;
				}
			}
		}
		else {
			switch(c.id){
				case CMD_STOP: {
					ExecuteStop(c);
					break;
				}
				default: {
					CCommandAI::SlowUpdate();
					return;
				}
			}
		}
	} while ((oldSize != commandQue.size()) && !commandQue.empty());

	return;
}
示例#12
0
void CBuilderCAI::ExecuteGuard(Command& c)
{
	if (!owner->unitDef->canGuard)
		return;

	CUnit* guardee = unitHandler->GetUnit(c.params[0]);

	if (guardee == NULL) { FinishCommand(); return; }
	if (guardee == owner) { FinishCommand(); return; }
	if (UpdateTargetLostTimer(guardee->id) == 0) { FinishCommand(); return; }
	if (guardee->outOfMapTime > (GAME_SPEED * 5)) { FinishCommand(); return; }


	if (CBuilder* b = dynamic_cast<CBuilder*>(guardee)) {
		if (b->terraforming) {
			if (MoveInBuildRange(b->terraformCenter, b->terraformRadius * 0.7f)) {
				ownerBuilder->HelpTerraform(b);
			} else {
				StopSlowGuard();
			}
			return;
		} else if (b->curReclaim && owner->unitDef->canReclaim) {
			StopSlowGuard();
			if (!ReclaimObject(b->curReclaim)) {
				StopMove();
			}
			return;
		} else if (b->curResurrect && owner->unitDef->canResurrect) {
			StopSlowGuard();
			if (!ResurrectObject(b->curResurrect)) {
				StopMove();
			}
			return;
		} else {
			ownerBuilder->StopBuild();
		}

		const bool pushRepairCommand =
			(  b->curBuild != NULL) &&
			(  b->curBuild->soloBuilder == NULL || b->curBuild->soloBuilder == owner) &&
			(( b->curBuild->beingBuilt && owner->unitDef->canAssist) ||
			( !b->curBuild->beingBuilt && owner->unitDef->canRepair));

		if (pushRepairCommand) {
			StopSlowGuard();

			Command nc(CMD_REPAIR, c.options, b->curBuild->id);

			commandQue.push_front(nc);
			inCommand = false;
			SlowUpdate();
			return;
		}
	}

	if (CFactory* fac = dynamic_cast<CFactory*>(guardee)) {
		const bool pushRepairCommand =
			(  fac->curBuild != NULL) &&
			(  fac->curBuild->soloBuilder == NULL || fac->curBuild->soloBuilder == owner) &&
			(( fac->curBuild->beingBuilt && owner->unitDef->canAssist) ||
			 (!fac->curBuild->beingBuilt && owner->unitDef->canRepair));

		if (pushRepairCommand) {
			StopSlowGuard();

			Command nc(CMD_REPAIR, c.options, fac->curBuild->id);

			commandQue.push_front(nc);
			inCommand = false;
			// SlowUpdate();
			return;
		}
	}

	if (!(c.options & CONTROL_KEY) && IsUnitBeingReclaimed(guardee, owner))
		return;

	const float3 pos    = guardee->pos;
	const float  radius = (guardee->immobile) ? guardee->radius : guardee->radius * 0.8f; // in case of mobile units reduce radius a bit

	if (MoveInBuildRange(pos, radius)) {
		StartSlowGuard(guardee->moveType->GetMaxSpeed());

		const bool pushRepairCommand =
			(  guardee->health < guardee->maxHealth) &&
			(  guardee->soloBuilder == NULL || guardee->soloBuilder == owner) &&
			(( guardee->beingBuilt && owner->unitDef->canAssist) ||
			 (!guardee->beingBuilt && owner->unitDef->canRepair));

		if (pushRepairCommand) {
			StopSlowGuard();

			Command nc(CMD_REPAIR, c.options, guardee->id);

			commandQue.push_front(nc);
			inCommand = false;
			return;
		} else {
			NonMoving();
		}
	} else {
		StopSlowGuard();
	}
}
示例#13
0
void CBuilderCAI::ExecuteRepair(Command& c)
{
	// not all builders are repair-capable by default
	if (!owner->unitDef->canRepair)
		return;

	if (c.params.size() == 1 || c.params.size() == 5) {
		// repair unit
		CUnit* unit = unitHandler->GetUnit(c.params[0]);

		if (unit == NULL) {
			FinishCommand();
			return;
		}

		if (tempOrder && owner->moveState <= MOVESTATE_MANEUVER) {
			// limit how far away we go when not roaming
			if (LinePointDist(commandPos1, commandPos2, unit->pos) > std::max(500.0f, GetBuildRange(unit->radius))) {
				StopMove();
				FinishCommand();
				return;
			}
		}

		if (c.params.size() == 5) {
			const float3& pos = c.GetPos(1);
			const float radius = c.params[4] + 100.0f; // do not walk too far outside repair area

			if ((pos - unit->pos).SqLength2D() > radius * radius ||
				(unit->IsMoving() && (((c.options & INTERNAL_ORDER) && !TargetInterceptable(unit, unit->speed.Length2D())) || ownerBuilder->curBuild == unit)
				&& !IsInBuildRange(unit))) {
				StopMove();
				FinishCommand();
				return;
			}
		}

		// do not consider units under construction irreparable
		// even if they can be repaired
		bool canRepairUnit = true;
		canRepairUnit &= ((unit->beingBuilt) || (unit->unitDef->repairable && (unit->health < unit->maxHealth)));
		canRepairUnit &= ((unit != owner) || owner->unitDef->canSelfRepair);
		canRepairUnit &= (!unit->soloBuilder || (unit->soloBuilder == owner));
		canRepairUnit &= (!(c.options & INTERNAL_ORDER) || (c.options & CONTROL_KEY) || !IsUnitBeingReclaimed(unit, owner));
		canRepairUnit &= (UpdateTargetLostTimer(unit->id) != 0);

		if (canRepairUnit) {
			if (MoveInBuildRange(unit)) {
				ownerBuilder->SetRepairTarget(unit);
			}
		} else {
			StopMove();
			FinishCommand();
		}
	} else if (c.params.size() == 4) {
		// area repair
		const float3 pos = c.GetPos(0);
		const float radius = c.params[3];

		ownerBuilder->StopBuild();
		if (FindRepairTargetAndRepair(pos, radius, c.options, false, (c.options & META_KEY))) {
			inCommand = false;
			SlowUpdate();
			return;
		}
		if (!(c.options & ALT_KEY)) {
			FinishCommand();
		}
	} else {
		FinishCommand();
	}
}
示例#14
0
void CBuilderCAI::ExecuteBuildCmd(Command& c)
{
	const map<int, string>::const_iterator boi = buildOptions.find(c.GetID());

	if (boi == buildOptions.end())
		return;

	if (!inCommand) {
		BuildInfo bi;
		bi.pos.x = math::floor(c.params[0] / SQUARE_SIZE + 0.5f) * SQUARE_SIZE;
		bi.pos.z = math::floor(c.params[2] / SQUARE_SIZE + 0.5f) * SQUARE_SIZE;
		bi.pos.y = c.params[1];

		if (c.params.size() == 4)
			bi.buildFacing = abs((int)c.params[3]) % NUM_FACINGS;

		bi.def = unitDefHandler->GetUnitDefByName(boi->second);

		CFeature* f = NULL;
		CGameHelper::TestUnitBuildSquare(bi, f, owner->allyteam, true);

		if (f != NULL) {
			if (!bi.def->isFeature || bi.def->wreckName != f->def->name) {
				ReclaimFeature(f);
			} else {
				FinishCommand();
			}
			return;
		}

		inCommand = true;
		build.Parse(c);
	}

	assert(build.def->id == -c.GetID() && build.def->id != 0);
	const float buildeeRadius = GetBuildOptionRadius(build.def, c.GetID());

	if (building) {
		// keep moving until 3D distance to buildPos is LEQ our buildDistance
		MoveInBuildRange(build.pos, 0.0f);

		if (!ownerBuilder->curBuild && !ownerBuilder->terraforming) {
			building = false;
			StopMove(); // cancel the effect of KeepPointingTo
			FinishCommand();
		}
		// This can only be true if two builders started building
		// the restricted unit in the same simulation frame
		else if (unitHandler->unitsByDefs[owner->team][build.def->id].size() > build.def->maxThisUnit) {
			// unit restricted
			building = false;
			ownerBuilder->StopBuild();
			CancelRestrictedUnit(boi->second);
		}
	} else {
		if (unitHandler->unitsByDefs[owner->team][build.def->id].size() >= build.def->maxThisUnit) {
			// unit restricted, don't bother moving all the way
			// to the construction site first before telling us
			// (since greyed-out icons can still be clicked etc,
			// would be better to prevent that but doesn't cover
			// case where limit reached while builder en-route)
			CancelRestrictedUnit(boi->second);
			StopMove();
			return;
		}

		build.pos = CGameHelper::Pos2BuildPos(build, true);

		// keep moving until until 3D distance to buildPos is LEQ our buildDistance
		if (MoveInBuildRange(build.pos, 0.0f, true)) {
			if (IsBuildPosBlocked(build)) {
				StopMove();
				FinishCommand();
				return;
			}

			if (!eventHandler.AllowUnitCreation(build.def, owner, &build)) {
				StopMove(); // cancel KeepPointingTo
				FinishCommand();
				return;
			}

			if (teamHandler->Team(owner->team)->AtUnitLimit()) {
				return;
			}

			CFeature* f = NULL;

			bool waitstance = false;
			if (ownerBuilder->StartBuild(build, f, waitstance) || (++buildRetries > 30)) {
				building = true;
			}
			else if (f != NULL && (!build.def->isFeature || build.def->wreckName != f->def->name)) {
				inCommand = false;
				ReclaimFeature(f);
			}
			else if (!waitstance) {
				const float fpSqRadius = (build.def->xsize * build.def->xsize + build.def->zsize * build.def->zsize);
				const float fpRadius = (math::sqrt(fpSqRadius) * 0.5f) * SQUARE_SIZE;

				// tell everything within the radius of the soon-to-be buildee
				// to get out of the way; using the model radius is not correct
				// because this can be shorter than half the footprint diagonal
				CGameHelper::BuggerOff(build.pos, std::max(buildeeRadius, fpRadius), false, true, owner->team, NULL);
				NonMoving();
			}
		} else {
			if (owner->moveType->progressState == AMoveType::Failed) {
				if (++buildRetries > 5) {
					StopMove();
					FinishCommand();
					return;
				}
			}

			// we are on the way to the buildpos, meanwhile it can happen
			// that another builder already finished our buildcmd or blocked
			// the buildpos with another building (skip our buildcmd then)
			if ((++randomCounter % 5) == 0) {
				if (IsBuildPosBlocked(build)) {
					StopMove();
					FinishCommand();
					return;
				}
			}
		}
	}
}
示例#15
0
/**
* @brief Causes this CMobileCAI to execute the attack order c
*/
void CMobileCAI::ExecuteAttack(Command &c)
{
	assert(owner->unitDef->canAttack);

	// limit how far away we fly
	if (tempOrder && (owner->moveState < 2) && orderTarget
			&& LinePointDist(ClosestPointOnLine(commandPos1, commandPos2, owner->pos),
					commandPos2, orderTarget->pos)
			> (500 * owner->moveState + owner->maxRange)) {
		StopMove();
		FinishCommand();
		return;
	}

	// check if we are in direct command of attacker
	if (!inCommand) {
		// don't start counting until the owner->AttackGround() order is given
		owner->commandShotCount = -1;

		if (c.params.size() == 1) {
			const int targetID     = int(c.params[0]);
			const bool legalTarget = (targetID >= 0 && targetID < MAX_UNITS);
			CUnit* targetUnit      = (legalTarget)? uh->units[targetID]: 0x0;

			// check if we have valid target parameter and that we aren't attacking ourselves
			if (legalTarget && targetUnit != 0x0 && targetUnit != owner) {
				float3 fix = targetUnit->pos + owner->posErrorVector * 128;
				float3 diff = float3(fix - owner->pos).Normalize();

				if (owner->moveState > 0 || !tempOrder) {
					SetGoal(fix - diff * targetUnit->radius, owner->pos);
				}

				orderTarget = targetUnit;
				AddDeathDependence(orderTarget);
				inCommand = true;
			} else {
				// unit may not fire on itself, cancel order
				StopMove();
				FinishCommand();
				return;
			}
		}
		else {
			// user gave force-fire attack command
			float3 pos(c.params[0], c.params[1], c.params[2]);
			SetGoal(pos, owner->pos);
			inCommand = true;
		}
	}
	else if ((c.params.size() == 3) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
		// the trailing CMD_SET_WANTED_MAX_SPEED in a command pair does not count
		if ((commandQue.size() > 2) || (commandQue.back().id != CMD_SET_WANTED_MAX_SPEED)) {
			StopMove();
			FinishCommand();
			return;
		}
	}

	// if our target is dead or we lost it then stop attacking
	// NOTE: unit should actually just continue to target area!
	if (targetDied || (c.params.size() == 1 && UpdateTargetLostTimer(int(c.params[0])) == 0)) {
		// cancel keeppointingto
		StopMove();
		FinishCommand();
		return;
	}


	// user clicked on enemy unit (note that we handle aircrafts slightly differently)
	if (orderTarget) {
		//bool b1 = owner->AttackUnit(orderTarget, c.id == CMD_DGUN);
		bool b2 = false;
		bool b3 = false;
		bool b4 = false;
		float edgeFactor = 0.f; // percent offset to target center
		float3 diff = owner->pos - orderTarget->midPos;

		if (owner->weapons.size() > 0) {
			if (!(c.options & ALT_KEY) && SkipParalyzeTarget(orderTarget)) {
				StopMove();
				FinishCommand();
				return;
			}
			CWeapon* w = owner->weapons.front();
			// if we have at least one weapon then check if we
			// can hit target with our first (meanest) one
			b2 = w->TryTargetRotate(orderTarget, c.id == CMD_DGUN);
			b3 = Square(w->range - (w->relWeaponPos).Length())
					> (orderTarget->pos.SqDistance(owner->pos));
			b4 = w->TryTargetHeading(GetHeadingFromVector(-diff.x, -diff.z),
					orderTarget->pos, orderTarget != NULL);
			edgeFactor = fabs(w->targetBorder);
		}

		double diffLength2d = diff.Length2D();

		// if w->AttackUnit() returned true then we are already
		// in range with our biggest weapon so stop moving
		// also make sure that we're not locked in close-in/in-range state loop
		// due to rotates invoked by in-range or out-of-range states
		if (b2) {
			if (!(tempOrder && owner->moveState == 0)
				&& (diffLength2d * 1.4f > owner->maxRange
					- orderTarget->speed.SqLength()
							/ owner->unitDef->maxAcc)
				&& b4 && diff.dot(orderTarget->speed) < 0)
			{
				SetGoal(owner->pos + (orderTarget->speed * 80), owner->pos,
						SQUARE_SIZE, orderTarget->speed.Length() * 1.1f);
			} else {
				StopMove();
				// FIXME kill magic frame number
				if (gs->frameNum > lastCloseInTry + MAX_CLOSE_IN_RETRY_TICKS) {
					owner->moveType->KeepPointingTo(orderTarget->midPos,
							std::min((float) (owner->losRadius * SQUARE_SIZE * 2),
									owner->maxRange * 0.9f), true);
				}
			}
			owner->AttackUnit(orderTarget, c.id == CMD_DGUN);
		}
		// if ((our movetype has type TAAirMoveType and length of 2D vector from us to target
		// less than 90% of our maximum range) OR squared length of 2D vector from us to target
		// less than 1024) then we are close enough
		else if(diffLength2d < (owner->maxRange * 0.9f)){
			if (dynamic_cast<CTAAirMoveType*>(owner->moveType)
					|| (diff.SqLength2D() < 1024))
			{
				StopMove();
				owner->moveType->KeepPointingTo(orderTarget->midPos,
						std::min((float) (owner->losRadius * SQUARE_SIZE * 2),
								owner->maxRange * 0.9f), true);
			} else if(tempOrder && owner->moveState == 0){
				SetGoal(lastUserGoal, owner->pos);
			}

			// if (((first weapon range minus first weapon length greater than distance to target)
			// and length of 2D vector from us to target less than 90% of our maximum range)
			// then we are close enough, but need to move sideways to get a shot.
			//assumption is flawed: The unit may be aiming or otherwise unable to shoot
			else if (owner->unitDef->strafeToAttack && b3 && diffLength2d < (owner->maxRange * 0.9f))
			{
				moveDir ^= (owner->moveType->progressState == AMoveType::Failed);
				float sin = moveDir ? 3.0/5 : -3.0/5;
				float cos = 4.0/5;
				float3 goalDiff(0, 0, 0);
				goalDiff.x = diff.dot(float3(cos, 0, -sin));
				goalDiff.z = diff.dot(float3(sin, 0, cos));
				goalDiff *= (diffLength2d < (owner->maxRange * 0.3f)) ? 1/cos : cos;
				goalDiff += orderTarget->pos;
				SetGoal(goalDiff, owner->pos);
			}
		}

		// if 2D distance of (target position plus attacker error vector times 128)
		// to goal position greater than
		// (10 plus 20% of 2D distance between attacker and target) then we need to close
		// in on target more
		else if ((orderTarget->pos + owner->posErrorVector * 128).SqDistance2D(goalPos)
				> Square(10 + orderTarget->pos.distance2D(owner->pos) * 0.2f)) {
			// if the target isn't in LOS, go to its approximate position
			// otherwise try to go precisely to the target
			// this should fix issues with low range weapons (mainly melee)
			float3 fix = orderTarget->pos +
					(orderTarget->losStatus[owner->allyteam] & LOS_INLOS ?
						float3(0.f,0.f,0.f) :
						owner->posErrorVector * 128);
			float3 norm = float3(fix - owner->pos).Normalize();
			float3 goal = fix - norm*(orderTarget->radius*edgeFactor*0.8f);
			SetGoal(goal, owner->pos);
			if (lastCloseInTry < gs->frameNum + MAX_CLOSE_IN_RETRY_TICKS)
				lastCloseInTry = gs->frameNum;
		}
	}

	// user is attacking ground
	else {
		const float3 pos(c.params[0], c.params[1], c.params[2]);
		const float3 diff = owner->pos - pos;

		if (owner->weapons.size() > 0) {
			// if we have at least one weapon then check if
			// we can hit position with our first (assumed
			// to be meanest) one
			CWeapon* w = owner->weapons.front();

			// XXX hack - dgun overrides any checks
			if (c.id == CMD_DGUN) {
				float rr = owner->maxRange * owner->maxRange;

				for (vector<CWeapon*>::iterator it = owner->weapons.begin();
						it != owner->weapons.end(); ++it) {

					if (dynamic_cast<CDGunWeapon*>(*it))
						rr = (*it)->range * (*it)->range;
				}

				if (diff.SqLength() < rr) {
					StopMove();
					owner->AttackGround(pos, c.id == CMD_DGUN);
					owner->moveType->KeepPointingTo(pos, owner->maxRange * 0.9f, true);
				}
			} else {
				const bool inAngle = w->TryTargetRotate(pos, c.id == CMD_DGUN);
				const bool inRange = diff.Length2D() < (w->range - (w->relWeaponPos).Length2D());

				if (inAngle || inRange) {
					StopMove();
					owner->AttackGround(pos, c.id == CMD_DGUN);
					owner->moveType->KeepPointingTo(pos, owner->maxRange * 0.9f, true);
				}
			}
		}

		else if (diff.SqLength2D() < 1024) {
			StopMove();
			owner->moveType->KeepPointingTo(pos, owner->maxRange * 0.9f, true);
		}

		// if we are more than 10 units distant from target position then keeping moving closer
		else if (pos.SqDistance2D(goalPos) > 100) {
			SetGoal(pos, owner->pos);
		}
	}
}
示例#16
0
void CBuilderCAI::SlowUpdate()
{
	if(commandQue.empty()){
		CMobileCAI::SlowUpdate();
		return;
	}

	if(owner->stunned){
		return;
	}

	Command& c=commandQue.front();
	CBuilder* fac=(CBuilder*)owner;
	float3 curPos=owner->pos;

	map<int,string>::iterator boi;
	if((boi=buildOptions.find(c.id))!=buildOptions.end()){
		const UnitDef* ud = unitDefHandler->GetUnitByName(boi->second);
		const float radius = GetUnitRadius(ud, c.id);
		if (inCommand) {
			if (building) {
				if (build.pos.distance2D(fac->pos) > fac->buildDistance+radius-8.0f) {
					owner->moveType->StartMoving(build.pos, fac->buildDistance*0.5f+radius);
				} else {
					StopMove();
					owner->moveType->KeepPointingTo(build.pos, (fac->buildDistance+radius)*0.6f, false);	//needed since above startmoving cancels this
				}
				if(!fac->curBuild && !fac->terraforming){
					building=false;
					StopMove();				//cancel the effect of KeepPointingTo
					FinishCommand();
				}
			} else {
				build.Parse(c);
				const float dist = build.pos.distance2D(fac->pos);
				if ((dist < (fac->buildDistance * 0.6f + radius)) ||
				    (!owner->unitDef->canmove && (dist <= (fac->buildDistance+radius-8.0f)))) {
					StopMove();
					if(luaRules && !luaRules->AllowUnitCreation(build.def, owner, &build.pos)) {
						FinishCommand();
					}
					else if(uh->unitsType[owner->team][build.def->id]>=build.def->maxThisUnit){ //unit restricted
						ENTER_MIXED;
						if(owner->team == gu->myTeam){
							logOutput.Print("%s: Build failed, unit type limit reached",owner->unitDef->humanName.c_str());
							logOutput.SetLastMsgPos(owner->pos);
						}
						ENTER_SYNCED;
						FinishCommand();
					}
					else if(uh->maxUnits>(int)gs->Team(owner->team)->units.size()){ //max unitlimit reached
						buildRetries++;
						owner->moveType->KeepPointingTo(build.pos, fac->buildDistance*0.7f+radius, false);
						if (fac->StartBuild(build) || (buildRetries > 20)) {
							building=true;
						} else {
							ENTER_MIXED;
							if ((owner->team == gu->myTeam) && !(buildRetries & 7)) {
								logOutput.Print("%s: Build pos blocked",owner->unitDef->humanName.c_str());
								logOutput.SetLastMsgPos(owner->pos);
							}
							ENTER_SYNCED;
							helper->BuggerOff(build.pos,radius);
							NonMoving();
						}
					}
				} else {
					if (owner->moveType->progressState == CMoveType::Failed) {
						if (++buildRetries > 5) {
							StopMove();
							FinishCommand();
						}
					}
					SetGoal(build.pos,owner->pos, fac->buildDistance*0.4f+radius);
				}
			}
		} else {		//!inCommand
			BuildInfo bi;
			bi.pos.x=floor(c.params[0]/SQUARE_SIZE+0.5f)*SQUARE_SIZE;
			bi.pos.z=floor(c.params[2]/SQUARE_SIZE+0.5f)*SQUARE_SIZE;
			bi.pos.y=c.params[1];
			CFeature* f=0;
			if (c.params.size()==4)
				bi.buildFacing = int(c.params[3]);
			bi.def = unitDefHandler->GetUnitByName(boi->second);

			uh->TestUnitBuildSquare(bi,f,owner->allyteam);
			if (f) {
				if (!owner->unitDef->canReclaim || !f->def->reclaimable) {
					// FIXME user shouldn't be able to queue buildings on top of features
					// in the first place (in this case).
					StopMove();
					FinishCommand();
				} else {
					Command c2;
					c2.id=CMD_RECLAIM;
					c2.options=0;
					c2.params.push_back(f->id+MAX_UNITS);
					commandQue.push_front(c2);
					SlowUpdate(); //this assumes that the reclaim command can never return directly without having reclaimed the target
				}
			} else {
				inCommand=true;
				SlowUpdate();
			}
		}
		return;
	}

	switch (c.id) {
		case CMD_STOP:      { ExecuteStop(c);      return; }
		case CMD_REPAIR:    { ExecuteRepair(c);    return; }
		case CMD_CAPTURE:   { ExecuteCapture(c);   return; }
		case CMD_GUARD:     { ExecuteGuard(c);     return; }
		case CMD_RECLAIM:   { ExecuteReclaim(c);   return; }
		case CMD_RESURRECT: { ExecuteResurrect(c); return; }
		case CMD_PATROL:    { ExecutePatrol(c);    return; }
		case CMD_FIGHT:     { ExecuteFight(c);     return; }
		case CMD_RESTORE:   { ExecuteRestore(c);   return; }
		default: {
			CMobileCAI::SlowUpdate();
			return;
		}
	}
}
示例#17
0
void CAirCAI::SlowUpdate()
{
	if(!commandQue.empty() && commandQue.front().timeOut<gs->frameNum){
		FinishCommand();
		return;
	}

	CAirMoveType* myPlane=(CAirMoveType*)owner->moveType;

	if(owner->unitDef->maxFuel>0){
		if(myPlane->reservedPad){
			return;
		}else{
			if(owner->currentFuel <= 0){
				owner->userAttackGround=false;
				owner->userTarget=0;
				inCommand=false;

				CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
				if(lp){
					myPlane->AddDeathDependence(lp);
					myPlane->reservedPad=lp;
					myPlane->padStatus=0;
					myPlane->oldGoalPos=myPlane->goalPos;
					return;
				}
				float3 landingPos = airBaseHandler->FindClosestAirBasePos(owner,8000,owner->unitDef->minAirBasePower);
				if(landingPos != ZeroVector && owner->pos.distance2D(landingPos) > 300){
					if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_LANDED && owner->pos.distance2D(landingPos) > 800)
						myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);	
					myPlane->goalPos=landingPos;		
				} else {
					if(myPlane->aircraftState == CAirMoveType::AIRCRAFT_FLYING)
						myPlane->SetState(CAirMoveType::AIRCRAFT_LANDING);	
				}
				return;
			}
			if(owner->currentFuel < myPlane->repairBelowHealth*owner->unitDef->maxFuel){
				if(commandQue.empty() || commandQue.front().id==CMD_PATROL){
					CAirBaseHandler::LandingPad* lp=airBaseHandler->FindAirBase(owner,8000,owner->unitDef->minAirBasePower);
					if(lp){
						owner->userAttackGround=false;
						owner->userTarget=0;
						inCommand=false;
						myPlane->AddDeathDependence(lp);
						myPlane->reservedPad=lp;
						myPlane->padStatus=0;
						myPlane->oldGoalPos=myPlane->goalPos;
						if(myPlane->aircraftState==CAirMoveType::AIRCRAFT_LANDED){
							myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);
						}
						return;
					}		
				}
			}
		}
	}

	if(commandQue.empty()){
		if(myPlane->aircraftState==CAirMoveType::AIRCRAFT_FLYING && !owner->unitDef->DontLand ())
			myPlane->SetState(CAirMoveType::AIRCRAFT_LANDING);

		if(owner->fireState==2 && owner->moveState!=0 && owner->maxRange>0){
			if(myPlane->isFighter){
				float testRad=1000*owner->moveState;
				CUnit* enemy=helper->GetClosestEnemyAircraft(owner->pos+owner->speed*10,testRad,owner->allyteam);
				if(enemy && !enemy->crashing){
					Command nc;
					nc.id=CMD_ATTACK;
					nc.params.push_back(enemy->id);
					nc.options=0;
					commandQue.push_front(nc);
					inCommand=false;
					return;
				}
			}
			if(owner->moveState && owner->fireState==2 && owner->maxRange>0){
				float testRad=500*owner->moveState;
				CUnit* enemy=helper->GetClosestEnemyUnit(owner->pos+owner->speed*20,testRad,owner->allyteam);
				if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater)  && !enemy->crashing && (myPlane->isFighter || !enemy->unitDef->canfly)){
					Command nc;
					nc.id=CMD_ATTACK;
					nc.params.push_back(enemy->id);
					nc.options=0;
					commandQue.push_front(nc);
					inCommand=false;
					return;
				}
			}
		}
		return;
	}

	if(myPlane->aircraftState==CAirMoveType::AIRCRAFT_LANDED && commandQue.front().id!=CMD_STOP){
		myPlane->SetState(CAirMoveType::AIRCRAFT_TAKEOFF);
	}

	if(myPlane->aircraftState==CAirMoveType::AIRCRAFT_LANDING && commandQue.front().id!=CMD_STOP){
		myPlane->SetState(CAirMoveType::AIRCRAFT_FLYING);
	}

	float3 curPos=owner->pos;

	Command& c=commandQue.front();
	switch(c.id){
	case CMD_STOP:{
		CCommandAI::SlowUpdate();
		break;}
	case CMD_MOVE:{
		if(tempOrder){
			tempOrder=false;
			inCommand=true;
		}
		if(!inCommand){
			inCommand=true;
			commandPos1=myPlane->owner->pos;
		}
		float3 pos(c.params[0],c.params[1],c.params[2]);
		commandPos2=pos;
		myPlane->goalPos=pos;
		if(!(c.options&CONTROL_KEY)){
			if(owner->fireState==2 && owner->moveState!=0 && owner->maxRange>0){
				if(myPlane->isFighter){
					float testRad=500*owner->moveState;
					CUnit* enemy=helper->GetClosestEnemyAircraft(owner->pos+owner->speed*20,testRad,owner->allyteam);
					if(enemy && ((enemy->unitDef->canfly && !enemy->crashing && myPlane->isFighter) || (!enemy->unitDef->canfly && (!myPlane->isFighter || owner->moveState==2)))){
						if(owner->moveState!=1 || LinePointDist(commandPos1,commandPos2,enemy->pos) < 1000){
							Command nc;
							nc.id=CMD_ATTACK;
							nc.params.push_back(enemy->id);
							nc.options=c.options;
							commandQue.push_front(nc);
							tempOrder=true;
							inCommand=false;
							SlowUpdate();
							return;
						}
					}
				}
				if((!myPlane->isFighter || owner->moveState==2) && owner->maxRange>0){
					float testRad=325*owner->moveState;
					CUnit* enemy=helper->GetClosestEnemyUnit(owner->pos+owner->speed*30,testRad,owner->allyteam);
					if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater) && ((enemy->unitDef->canfly && !enemy->crashing && myPlane->isFighter) || (!enemy->unitDef->canfly && (!myPlane->isFighter || owner->moveState==2)))){
						if(owner->moveState!=1 || LinePointDist(commandPos1,commandPos2,enemy->pos) < 1000){
							Command nc;
							nc.id=CMD_ATTACK;
							nc.params.push_back(enemy->id);
							nc.options=c.options;
							commandQue.push_front(nc);
							tempOrder=true;
							inCommand=false;
							SlowUpdate();
							return;
						}
					}
				}
			}
		}
		if((curPos-pos).SqLength2D()<16000){
			FinishCommand();
		}
		break;}
	case CMD_PATROL:{
		float3 curPos=owner->pos;
		if(c.params.size()<3){		//this shouldnt happen but anyway ...
			info->AddLine("Error: got patrol cmd with less than 3 params on %s in aircai",
				owner->unitDef->humanName.c_str());
			return;
		}
		Command temp;
		temp.id = CMD_FIGHT;
		temp.params.push_back(c.params[0]);
		temp.params.push_back(c.params[1]);
		temp.params.push_back(c.params[2]);
		temp.options = c.options|INTERNAL_ORDER;
		commandQue.push_back(c);
		commandQue.pop_front();
		commandQue.push_front(temp);
		if(owner->group){
			owner->group->CommandFinished(owner->id,CMD_PATROL);
		}
		SlowUpdate();
		break;}
	case CMD_FIGHT:{
		if(tempOrder){
			tempOrder=false;
			inCommand=true;
		}
		goalPos=float3(c.params[0],c.params[1],c.params[2]);
		if(!inCommand){
			commandPos2=goalPos;
			inCommand=true;
		}
		commandPos1=curPos;
		if(c.params.size()<3){		//this shouldnt happen but anyway ...
			info->AddLine("Error: got fight cmd with less than 3 params on %s in aircai",
				owner->unitDef->humanName.c_str());
			return;
		}

		float testRad=1000*owner->moveState;
		CUnit* enemy = helper->GetClosestEnemyAircraft(owner->pos+owner->speed*10,testRad,owner->allyteam);
		if(owner->fireState==2 && owner->moveState!=0 && owner->maxRange>0){
			if(myPlane->isFighter
				&& enemy && !enemy->crashing
				&& (owner->moveState!=1 || LinePointDist(commandPos1,commandPos2,enemy->pos) < 1000))
			{
				Command nc,c3;
				c3.id = CMD_MOVE; //keep it from being pulled too far off the path
				float3 dir = goalPos-curPos;
				dir.Normalize();
				dir*=sqrtf(1024+owner->xsize*owner->xsize+owner->ysize*owner->ysize);
				dir+=curPos;
				c3.params.push_back(dir.x);
				c3.params.push_back(dir.y);
				c3.params.push_back(dir.z);
				c3.options = c.options|INTERNAL_ORDER;
				nc.id=CMD_ATTACK;
				nc.params.push_back(enemy->id);
				nc.options=c.options|INTERNAL_ORDER;
				commandQue.push_front(nc);
				tempOrder=true;
				inCommand=false;
				if(lastPC1!=gs->frameNum){	//avoid infinite loops
					lastPC1=gs->frameNum;
					SlowUpdate();
				}
				return;
			} else if(owner->maxRange>0){
				float testRad=500*owner->moveState;
				enemy=helper->GetClosestEnemyUnit(owner->pos+owner->speed*20,testRad,owner->allyteam);
				if(enemy && (owner->hasUWWeapons || !enemy->isUnderWater)  && !enemy->crashing
					&& (myPlane->isFighter || !enemy->unitDef->canfly))
				{
					if(owner->moveState!=1 || LinePointDist(commandPos1,commandPos2,enemy->pos) < 1000){
						Command nc,c3;
						c3.id = CMD_MOVE; //keep it from being pulled too far off the path
						float3 dir = goalPos-curPos;
						dir.Normalize();
						dir*=sqrtf(1024+owner->xsize*owner->xsize+owner->ysize*owner->ysize);
						dir+=curPos;
						c3.params.push_back(dir.x);
						c3.params.push_back(dir.y);
						c3.params.push_back(dir.z);
						c3.options = c.options|INTERNAL_ORDER;
						nc.id=CMD_ATTACK;
						nc.params.push_back(enemy->id);
						nc.options=c.options|INTERNAL_ORDER;
						commandQue.push_front(c3);
						commandQue.push_front(nc);
						tempOrder=true;
						inCommand=false;
						if(lastPC2!=gs->frameNum){	//avoid infinite loops
							lastPC2=gs->frameNum;
							SlowUpdate();
						}
						return;
					}
				}
			}
		}
		myPlane->goalPos=goalPos;

		if((owner->pos-goalPos).SqLength2D()<16000 || (owner->pos+owner->speed*8-goalPos).SqLength2D()<16000){
			FinishCommand();
		}
		return;}
	case CMD_ATTACK:
		targetAge++;
		if(tempOrder && owner->moveState==1){		//limit how far away we fly
			if(orderTarget && LinePointDist(commandPos1,commandPos2,orderTarget->pos) > 1500){
				owner->SetUserTarget(0);
				FinishCommand();
				break;
			}
		}
		if(tempOrder && myPlane->isFighter && orderTarget){
			if(owner->fireState==2 && owner->moveState!=0){
				CUnit* enemy=helper->GetClosestEnemyAircraft(owner->pos+owner->speed*50,800,owner->allyteam);
				if(enemy && (!orderTarget->unitDef->canfly || (orderTarget->pos-owner->pos+owner->speed*50).Length()+100*gs->randFloat()*40-targetAge < (enemy->pos-owner->pos+owner->speed*50).Length())){
					c.params.clear();
					c.params.push_back(enemy->id);
					inCommand=false;
				}
			}
		}
		if(inCommand){
			if(targetDied || (c.params.size() == 1 && uh->units[int(c.params[0])] && !(uh->units[int(c.params[0])]->losStatus[owner->allyteam] & LOS_INRADAR))){
				FinishCommand();
				break;
			}
			if ((c.params.size() == 3) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
				owner->AttackUnit(0,true); 
				FinishCommand();
			  break;
			}    
			if(orderTarget && orderTarget->unitDef->canfly && orderTarget->crashing){
				owner->SetUserTarget(0);
				FinishCommand();
				break;
			}
			if(orderTarget){
//				myPlane->goalPos=orderTarget->pos;
			} else {
//				float3 pos(c.params[0],c.params[1],c.params[2]);
//				myPlane->goalPos=pos;
			}
		} else {
			targetAge=0;
			if(c.params.size()==1){
				if(uh->units[int(c.params[0])]!=0 && uh->units[int(c.params[0])]!=owner){
					orderTarget=uh->units[int(c.params[0])];
					owner->AttackUnit(orderTarget,false);
					AddDeathDependence(orderTarget);
					inCommand=true;
				} else {
					FinishCommand();
					break;
				}
			} else {
				float3 pos(c.params[0],c.params[1],c.params[2]);
				owner->AttackGround(pos,false);
				inCommand=true;
			}
		}
		break;
	case CMD_AREA_ATTACK:{
		if(targetDied){
			targetDied=false;
			inCommand=false;
		}
		float3 pos(c.params[0],c.params[1],c.params[2]);
		float radius=c.params[3];
		if(inCommand){
			if(myPlane->aircraftState==CAirMoveType::AIRCRAFT_LANDED)
				inCommand=false;
			if(orderTarget && orderTarget->pos.distance2D(pos)>radius){
				inCommand=false;
				DeleteDeathDependence(orderTarget);
				orderTarget=0;
			}
			if ((c.params.size() == 4) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
				owner->AttackUnit(0,true); 
				FinishCommand();
			}    
		} else {
			if(myPlane->aircraftState!=CAirMoveType::AIRCRAFT_LANDED){
				inCommand=true;
				std::vector<int> eu;
				helper->GetEnemyUnits(pos,radius,owner->allyteam,eu);
				if(eu.empty()){
					float3 attackPos=pos+gs->randVector()*radius;
					attackPos.y=ground->GetHeight(attackPos.x,attackPos.z);
					owner->AttackGround(attackPos,false);
				} else {
					int num=(int) (gs->randFloat()*eu.size());
					orderTarget=uh->units[eu[num]];
					owner->AttackUnit(orderTarget,false);
					AddDeathDependence(orderTarget);
				}
			}
		}
		break;}
	case CMD_GUARD:
		if(uh->units[int(c.params[0])]!=0){
			CUnit* guarded=uh->units[int(c.params[0])];
			if(guarded->lastAttacker && guarded->lastAttack+40<gs->frameNum && owner->maxRange>0 && (owner->hasUWWeapons || !guarded->lastAttacker->isUnderWater)){
				Command nc;
				nc.id=CMD_ATTACK;
				nc.params.push_back(guarded->lastAttacker->id);
				nc.options=c.options;
				commandQue.push_front(nc);
				SlowUpdate();
				return;
			} else {
				Command c2;
				c2.id=CMD_MOVE;
				c2.options=c.options;
				c2.params.push_back(guarded->pos.x);
				c2.params.push_back(guarded->pos.y);
				c2.params.push_back(guarded->pos.z);
				c2.timeOut=gs->frameNum+60;
				commandQue.push_front(c2);
				return;
			}
		} else {
			FinishCommand();
		}
		break;
	default:
		CCommandAI::SlowUpdate();
		break;
	}
}
示例#18
0
void CBuilderCAI::ExecuteGuard(Command &c)
{
	assert(owner->unitDef->canGuard);
	CBuilder* fac=(CBuilder*)owner;
	CUnit* guarded=uh->units[(int)c.params[0]];
	if(guarded && guarded!=owner && UpdateTargetLostTimer((int)c.params[0])){
		if(CBuilder* b=dynamic_cast<CBuilder*>(guarded)){
			if(b->terraforming){
				if(fac->pos.distance2D(b->terraformCenter) <
						(fac->buildDistance * 0.8f) + (b->terraformRadius * 0.7f)){
					StopMove();
					owner->moveType->KeepPointingTo(b->terraformCenter, fac->buildDistance*0.9f, false);
					fac->HelpTerraform(b);
				} else {
					StopSlowGuard();
					SetGoal(b->terraformCenter,fac->pos,fac->buildDistance*0.7f+b->terraformRadius*0.6f);
				}
				return;
			} else if (b->curReclaim && owner->unitDef->canReclaim){
				StopSlowGuard();
				if(!ReclaimObject(b->curReclaim)){
					StopMove();
				}
				return;
			} else {
				fac->StopBuild();
			}
			if (b->curBuild &&
			    (!b->curBuild->soloBuilder || (b->curBuild->soloBuilder == owner)) &&
			    (( b->curBuild->beingBuilt && owner->unitDef->canAssist) ||
			     (!b->curBuild->beingBuilt && owner->unitDef->canRepair))) {
				StopSlowGuard();
				Command nc;
				nc.id=CMD_REPAIR;
				nc.options=c.options;
				nc.params.push_back(b->curBuild->id);
				commandQue.push_front(nc);
				inCommand=false;
				SlowUpdate();
				return;
			}
		}
		if(CFactory* f=dynamic_cast<CFactory*>(guarded)){
			if (f->curBuild &&
			    (!f->curBuild->soloBuilder || (f->curBuild->soloBuilder == owner)) &&
			    (( f->curBuild->beingBuilt && owner->unitDef->canAssist) ||
			     (!f->curBuild->beingBuilt && owner->unitDef->canRepair))) {
				StopSlowGuard();
				Command nc;
				nc.id=CMD_REPAIR;
				nc.options=c.options;
				nc.params.push_back(f->curBuild->id);
				commandQue.push_front(nc);
				inCommand=false;
				//					SlowUpdate();
				return;
			}
		}
		float3 curPos=owner->pos;
		float3 dif=guarded->pos-curPos;
		dif.Normalize();
		float3 goal=guarded->pos-dif*(fac->buildDistance*.5);
		if((guarded->pos-curPos).SqLength2D() >
				(fac->buildDistance*1.1f + guarded->radius)
				*(fac->buildDistance*1.1f + guarded->radius)){
			StopSlowGuard();
		}
		if((guarded->pos-curPos).SqLength2D()<
				(fac->buildDistance*0.9f + guarded->radius)
				*(fac->buildDistance*0.9f + guarded->radius)){
			StartSlowGuard(guarded->maxSpeed);
			StopMove();
			//				logOutput.Print("should point with type 3?");
			owner->moveType->KeepPointingTo(guarded->pos,
				fac->buildDistance*0.9f+guarded->radius, false);
			if ((guarded->health < guarded->maxHealth) &&
			    (!guarded->soloBuilder || (guarded->soloBuilder == owner)) &&
			    (( guarded->beingBuilt && owner->unitDef->canAssist) ||
			     (!guarded->beingBuilt && owner->unitDef->canRepair))) {
				StopSlowGuard();

				Command nc;
				nc.id=CMD_REPAIR;
				nc.options=c.options;
				nc.params.push_back(guarded->id);
				commandQue.push_front(nc);
				inCommand=false;
				return;
			} else {
				NonMoving();
			}
		} else {
			if((goalPos-goal).SqLength2D()>4000
					|| (goalPos - owner->pos).SqLength2D() <
					(owner->maxSpeed*30 + 1 + SQUARE_SIZE*2)
					* (owner->maxSpeed*30 + 1 + SQUARE_SIZE*2)){
				SetGoal(goal,curPos);
			}
		}
	} else {
		FinishCommand();
	}
	return;
}
示例#19
0
void CMobileCAI::ExecuteAttack(Command &c)
{
	assert(owner->unitDef->canAttack);

	// limit how far away we fly based on our movestate
	if (tempOrder && orderTarget) {
		const float3& closestPos = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		const float curTargetDist = LinePointDist(closestPos, commandPos2, orderTarget->pos);
		const float maxTargetDist = (500 * owner->moveState + owner->maxRange);

		if (owner->moveState < MOVESTATE_ROAM && curTargetDist > maxTargetDist) {
			StopMove();
			FinishCommand();
			return;
		}
	}

	// check if we are in direct command of attacker
	if (!inCommand) {
		if (c.params.size() == 1) {
			CUnit* targetUnit = unitHandler->GetUnit(c.params[0]);

			// check if we have valid target parameter and that we aren't attacking ourselves
			if (targetUnit == NULL) { StopMove(); FinishCommand(); return; }
			if (targetUnit == owner) { StopMove(); FinishCommand(); return; }
			if (targetUnit->GetTransporter() != NULL && !modInfo.targetableTransportedUnits) {
				StopMove(); FinishCommand(); return;
			}

			const float3 tgtErrPos = targetUnit->pos + owner->posErrorVector * 128;
			const float3 tgtPosDir = (tgtErrPos - owner->pos).Normalize();

			SetGoal(tgtErrPos - tgtPosDir * targetUnit->radius, owner->pos);
			SetOrderTarget(targetUnit);
			owner->AttackUnit(targetUnit, (c.options & INTERNAL_ORDER) == 0, c.GetID() == CMD_MANUALFIRE);

			inCommand = true;
		}
		else if (c.params.size() >= 3) {
			// user gave force-fire attack command
			SetGoal(c.GetPos(0), owner->pos);

			inCommand = true;
		}
	}

	// if our target is dead or we lost it then stop attacking
	// NOTE: unit should actually just continue to target area!
	if (targetDied || (c.params.size() == 1 && UpdateTargetLostTimer(int(c.params[0])) == 0)) {
		// cancel keeppointingto
		StopMove();
		FinishCommand();
		return;
	}


	// user clicked on enemy unit (note that we handle aircrafts slightly differently)
	if (orderTarget != NULL) {
		bool tryTargetRotate  = false;
		bool tryTargetHeading = false;

		float edgeFactor = 0.0f; // percent offset to target center
		const float3 targetMidPosVec = owner->midPos - orderTarget->midPos;

		const float targetGoalDist = (orderTarget->pos + owner->posErrorVector * 128.0f).SqDistance2D(goalPos);
		const float targetPosDist = Square(10.0f + orderTarget->pos.distance2D(owner->pos) * 0.2f);
		const float minPointingDist = std::min(1.0f * owner->losRadius * loshandler->losDiv, owner->maxRange * 0.9f);

		// FIXME? targetMidPosMaxDist is 3D, but compared with a 2D value
		const float targetMidPosDist2D = targetMidPosVec.Length2D();
		//const float targetMidPosMaxDist = owner->maxRange - (orderTarget->speed.SqLength() / owner->unitDef->maxAcc);

		if (!owner->weapons.empty()) {
			if (!(c.options & ALT_KEY) && SkipParalyzeTarget(orderTarget)) {
				StopMove();
				FinishCommand();
				return;
			}
		}

		for (unsigned int wNum = 0; wNum < owner->weapons.size(); wNum++) {
			CWeapon* w = owner->weapons[wNum];

			if (c.GetID() == CMD_MANUALFIRE) {
				assert(owner->unitDef->canManualFire);

				if (!w->weaponDef->manualfire) {
					continue;
				}
			}

			tryTargetRotate  = w->TryTargetRotate(orderTarget, (c.options & INTERNAL_ORDER) == 0);
			tryTargetHeading = w->TryTargetHeading(GetHeadingFromVector(-targetMidPosVec.x, -targetMidPosVec.z), orderTarget->pos, orderTarget != NULL, orderTarget);

			if (tryTargetRotate || tryTargetHeading)
				break;

			edgeFactor = math::fabs(w->targetBorder);
		}


		// if w->AttackUnit() returned true then we are already
		// in range with our biggest (?) weapon, so stop moving
		// also make sure that we're not locked in close-in/in-range state loop
		// due to rotates invoked by in-range or out-of-range states
		if (tryTargetRotate) {
			const bool canChaseTarget = (!tempOrder || owner->moveState != MOVESTATE_HOLDPOS);
			const bool targetBehind = (targetMidPosVec.dot(orderTarget->speed) < 0.0f);

			if (canChaseTarget && tryTargetHeading && targetBehind) {
				SetGoal(owner->pos + (orderTarget->speed * 80), owner->pos, SQUARE_SIZE, orderTarget->speed.Length() * 1.1f);
			} else {
				StopMove();

				if (gs->frameNum > lastCloseInTry + MAX_CLOSE_IN_RETRY_TICKS) {
					owner->moveType->KeepPointingTo(orderTarget->midPos, minPointingDist, true);
				}
			}

			owner->AttackUnit(orderTarget, (c.options & INTERNAL_ORDER) == 0, c.GetID() == CMD_MANUALFIRE);
		}

		// if we're on hold pos in a temporary order, then none of the close-in
		// code below should run, and the attack command is cancelled.
		else if (tempOrder && owner->moveState == MOVESTATE_HOLDPOS) {
			StopMove();
			FinishCommand();
			return;
		}

		// if ((our movetype has type HoverAirMoveType and length of 2D vector from us to target
		// less than 90% of our maximum range) OR squared length of 2D vector from us to target
		// less than 1024) then we are close enough
		else if (targetMidPosDist2D < (owner->maxRange * 0.9f)) {
			if (dynamic_cast<CHoverAirMoveType*>(owner->moveType) != NULL || (targetMidPosVec.SqLength2D() < 1024)) {
				StopMove();
				owner->moveType->KeepPointingTo(orderTarget->midPos, minPointingDist, true);
			}

			// if (((first weapon range minus first weapon length greater than distance to target)
			// and length of 2D vector from us to target less than 90% of our maximum range)
			// then we are close enough, but need to move sideways to get a shot.
			//assumption is flawed: The unit may be aiming or otherwise unable to shoot
			else if (owner->unitDef->strafeToAttack && targetMidPosDist2D < (owner->maxRange * 0.9f)) {
				moveDir ^= (owner->moveType->progressState == AMoveType::Failed);

				const float sin = moveDir ? 3.0/5 : -3.0/5;
				const float cos = 4.0 / 5;

				float3 goalDiff;
				goalDiff.x = targetMidPosVec.dot(float3(cos, 0, -sin));
				goalDiff.z = targetMidPosVec.dot(float3(sin, 0,  cos));
				goalDiff *= (targetMidPosDist2D < (owner->maxRange * 0.3f)) ? 1/cos : cos;
				goalDiff += orderTarget->pos;
				SetGoal(goalDiff, owner->pos);
			}
		}

		// if 2D distance of (target position plus attacker error vector times 128)
		// to goal position greater than
		// (10 plus 20% of 2D distance between attacker and target) then we need to close
		// in on target more
		else if (targetGoalDist > targetPosDist) {
			// if the target isn't in LOS, go to its approximate position
			// otherwise try to go precisely to the target
			// this should fix issues with low range weapons (mainly melee)
			const float3 errPos = ((orderTarget->losStatus[owner->allyteam] & LOS_INLOS)? ZeroVector: owner->posErrorVector * 128.0f);
			const float3 tgtPos = orderTarget->pos + errPos;

			const float3 norm = (tgtPos - owner->pos).Normalize();
			const float3 goal = tgtPos - norm * (orderTarget->radius * edgeFactor * 0.8f);

			SetGoal(goal, owner->pos);

			if (lastCloseInTry < gs->frameNum + MAX_CLOSE_IN_RETRY_TICKS)
				lastCloseInTry = gs->frameNum;
		}
	}

	// user wants to attack the ground; cycle through our
	// weapons until we find one that can accomodate him
	else if (c.params.size() >= 3) {
		const float3 attackPos = c.GetPos(0);
		const float3 attackVec = attackPos - owner->pos;

		bool foundWeapon = false;

		for (unsigned int wNum = 0; wNum < owner->weapons.size(); wNum++) {
			CWeapon* w = owner->weapons[wNum];

			if (foundWeapon)
				break;

			// XXX HACK - special weapon overrides any checks
			if (c.GetID() == CMD_MANUALFIRE) {
				assert(owner->unitDef->canManualFire);

				if (!w->weaponDef->manualfire)
					continue;
				if (attackVec.SqLength() >= (w->range * w->range))
					continue;

				StopMove();
				owner->AttackGround(attackPos, (c.options & INTERNAL_ORDER) == 0, c.GetID() == CMD_MANUALFIRE);
				owner->moveType->KeepPointingTo(attackPos, owner->maxRange * 0.9f, true);

				foundWeapon = true;
			} else {
				// NOTE:
				//   we call TryTargetHeading which is less restrictive than TryTarget
				//   (eg. the former succeeds even if the unit has not already aligned
				//   itself with <attackVec>)
				if (w->TryTargetHeading(GetHeadingFromVector(attackVec.x, attackVec.z), attackPos, (c.options & INTERNAL_ORDER) == 0, NULL)) {
					if (w->TryTargetRotate(attackPos, (c.options & INTERNAL_ORDER) == 0)) {
						StopMove();
						owner->AttackGround(attackPos, (c.options & INTERNAL_ORDER) == 0, c.GetID() == CMD_MANUALFIRE);

						foundWeapon = true;
					}

					// for gunships, this pitches the nose down such that
					// TryTargetRotate (which also checks range for itself)
					// has a bigger chance of succeeding
					//
					// hence it must be called as soon as we get in range
					// and may not depend on what TryTargetRotate returns
					// (otherwise we might never get a firing solution)
					owner->moveType->KeepPointingTo(attackPos, owner->maxRange * 0.9f, true);
				}
			}
		}

		#if 0
		// no weapons --> no need to stop at an arbitrary distance?
		else if (diff.SqLength2D() < 1024) {
			StopMove();
			owner->moveType->KeepPointingTo(attackPos, owner->maxRange * 0.9f, true);
		}
		#endif

		// if we are unarmed and more than 10 elmos distant
		// from target position, then keeping moving closer
		if (owner->weapons.empty() && attackPos.SqDistance2D(goalPos) > 100) {
			SetGoal(attackPos, owner->pos);
		}
	}
示例#20
0
void CBuilderCAI::ExecuteFight(Command &c)
{
	assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);
	CBuilder* fac=(CBuilder*)owner;
	if(tempOrder){
		tempOrder=false;
		inCommand=true;
	}
	if(c.params.size()<3){		//this shouldnt happen but anyway ...
		logOutput.Print("Error: got fight cmd with less than 3 params on %s in BuilderCAI",owner->unitDef->humanName.c_str());
		return;
	}
	if(c.params.size() >= 6){
		if(!inCommand){
			commandPos1 = float3(c.params[3],c.params[4],c.params[5]);
		}
	} else {
		// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
		// rotated (only shortened) if we reach this because the previous return
		// fight command finished by the 'if((curPos-pos).SqLength2D()<(64*64)){'
		// condition, but is actually updated correctly if you click somewhere
		// outside the area close to the line (for a new command).
		commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		if ((owner->pos - commandPos1).SqLength2D() > (96 * 96)) {
			commandPos1 = owner->pos;
		}
	}
	float3 pos(c.params[0],c.params[1],c.params[2]);
	if(!inCommand){
		inCommand = true;
		commandPos2 = pos;
	}
	if(c.params.size() >= 6){
		pos = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	}
	if(pos!=goalPos){
		SetGoal(pos, owner->pos);
	}
	float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	if ((owner->unitDef->canRepair || owner->unitDef->canAssist) &&
	    FindRepairTargetAndRepair(curPosOnLine, 300*owner->moveState+fac->buildDistance-8,c.options,true)){
		CUnit* target=uh->units[(int)commandQue.front().params[0]];
		tempOrder=true;
		inCommand=false;
		if(lastPC1!=gs->frameNum){	//avoid infinite loops
			lastPC1=gs->frameNum;
			SlowUpdate();
		}
		return;
	}
	if(owner->unitDef->canReclaim && FindReclaimableFeatureAndReclaim(curPosOnLine,300,c.options,false)){
		tempOrder=true;
		inCommand=false;
		if(lastPC2!=gs->frameNum){	//avoid infinite loops
			lastPC2=gs->frameNum;
			SlowUpdate();
		}
		return;
	}
	if((owner->pos - pos).SqLength2D()<(64*64)){
		FinishCommand();
		return;
	}
	if(owner->haveTarget && owner->moveType->progressState!=CMoveType::Done){
		StopMove();
	} else if(owner->moveType->progressState!=CMoveType::Active){
		owner->moveType->StartMoving(goalPos, 8);
	}
	return;
}
示例#21
0
void CAirCAI::SlowUpdate()
{
	if(gs->paused) // Commands issued may invoke SlowUpdate when paused
		return;
	if (!commandQue.empty() && commandQue.front().timeOut < gs->frameNum) {
		FinishCommand();
		return;
	}

	if (owner->usingScriptMoveType) {
		return; // avoid the invalid (CAirMoveType*) cast
	}

	AAirMoveType* myPlane=(AAirMoveType*) owner->moveType;

	bool wantToRefuel = LandRepairIfNeeded();
	if(!wantToRefuel && owner->unitDef->maxFuel > 0){
		wantToRefuel = RefuelIfNeeded();
	}

	if(commandQue.empty()){
		if(myPlane->aircraftState == AAirMoveType::AIRCRAFT_FLYING
				&& !owner->unitDef->DontLand() && myPlane->autoLand) {
			StopMove();
//			myPlane->SetState(AAirMoveType::AIRCRAFT_LANDING);
		}

		if(owner->unitDef->canAttack && owner->fireState >= FIRESTATE_FIREATWILL
				&& owner->moveState != MOVESTATE_HOLDPOS && owner->maxRange > 0) {
			if (myPlane->IsFighter()) {
				float testRad=1000 * owner->moveState;
				CUnit* enemy=helper->GetClosestEnemyAircraft(
					owner->pos + (owner->speed * 10), testRad, owner->allyteam);
				if(IsValidTarget(enemy)) {
					Command nc;
					nc.id = CMD_ATTACK;
					nc.params.push_back(enemy->id);
					nc.options = 0;
					commandQue.push_front(nc);
					inCommand = false;
					return;
				}
			}
			const float searchRadius = 500 * owner->moveState;
			CUnit* enemy = helper->GetClosestValidTarget(
				owner->pos + (owner->speed * 20), searchRadius, owner->allyteam, this);
			if (enemy != NULL) {
				Command nc;
				nc.id = CMD_ATTACK;
				nc.params.push_back(enemy->id);
				nc.options = 0;
				commandQue.push_front(nc);
				inCommand = false;
				return;
			}
		}
		return;
	}

	Command& c = commandQue.front();

	if (c.id == CMD_WAIT) {
		if ((myPlane->aircraftState == AAirMoveType::AIRCRAFT_FLYING)
		    && !owner->unitDef->DontLand() && myPlane->autoLand) {
			StopMove();
//			myPlane->SetState(AAirMoveType::AIRCRAFT_LANDING);
		}
		return;
	}

	if (c.id != CMD_STOP && c.id != CMD_AUTOREPAIRLEVEL
			&& c.id != CMD_IDLEMODE && c.id != CMD_SET_WANTED_MAX_SPEED) {
		myPlane->Takeoff();
	}

	if (wantToRefuel) {
		switch (c.id) {
			case CMD_AREA_ATTACK:
			case CMD_ATTACK:
			case CMD_FIGHT:
				return;
		}
	}

	switch(c.id){
		case CMD_AREA_ATTACK:{
			ExecuteAreaAttack(c);
			return;
		}
		default:{
			CMobileCAI::Execute();
			return;
		}
	}
}
void CTransportCAI::SlowUpdate(void)
{
	if(commandQue.empty()){
		CMobileCAI::SlowUpdate();
		return;
	}

	CTransportUnit* transport=(CTransportUnit*)owner;
	Command& c=commandQue.front();
	switch(c.id){
	case CMD_LOAD_UNITS:
		if(c.params.size()==1){		//load single unit
			if(transport->transportCapacityUsed >= owner->unitDef->transportCapacity){
				FinishCommand();
				return;
			}
			if(inCommand){
				if(!owner->cob->busy)
					FinishCommand();
				return;
			}
			CUnit* unit=uh->units[(int)c.params[0]];
			if(unit && CanTransport(unit)){
				toBeTransportedUnitId=unit->id;
				unit->toBeTransported=true;
				if(unit->mass+transport->transportMassUsed > owner->unitDef->transportMass){
					FinishCommand();
					return;
				}
				if(goalPos.distance2D(unit->pos)>10){
					float3 fix = unit->pos;
					SetGoal(fix,owner->pos,64);
				}
				if(unit->pos.distance2D(owner->pos)<owner->unitDef->loadingRadius*0.9){
					if(CTAAirMoveType* am=dynamic_cast<CTAAirMoveType*>(owner->moveType)){		//handle air transports differently
						float3 wantedPos=unit->pos+UpVector*unit->model->height;
						SetGoal(wantedPos,owner->pos);
						am->dontCheckCol=true;
						am->ForceHeading(unit->heading);
						am->SetWantedAltitude(unit->model->height);
						am->maxDrift=1;
						//info->AddLine("cai dist %f %f %f",owner->pos.distance(wantedPos),owner->pos.distance2D(wantedPos),owner->pos.y-wantedPos.y);
						if(owner->pos.distance(wantedPos)<4 && abs(owner->heading-unit->heading)<50 && owner->updir.dot(UpVector)>0.995){
							am->dontCheckCol=false;
							am->dontLand=true;
							std::vector<int> args;
							args.push_back((int)(unit->model->height*65536));
							owner->cob->Call("BeginTransport",args);
							std::vector<int> args2;
							args2.push_back(0);
							args2.push_back((int)(unit->model->height*65536));
							owner->cob->Call("QueryTransport",args2);
							((CTransportUnit*)owner)->AttachUnit(unit,args2[0]);
							am->SetWantedAltitude(0);
							FinishCommand();
							return;
						}
					} else {
						inCommand=true;
						scriptReady=false;
						StopMove();
						std::vector<int> args;
						args.push_back(unit->id);
						owner->cob->Call("TransportPickup",args,ScriptCallback,this,0);
					}
				}
			} else {
				FinishCommand();
			}
		} else if(c.params.size()==4){		//load in radius
			if(lastCall==gs->frameNum)	//avoid infinite loops
				return;
			lastCall=gs->frameNum;
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius=c.params[3];
			CUnit* unit=FindUnitToTransport(pos,radius);
			if(unit && ((CTransportUnit*)owner)->transportCapacityUsed < owner->unitDef->transportCapacity){
				Command c2;
				c2.id=CMD_LOAD_UNITS;
				c2.params.push_back(unit->id);
				c2.options=c.options | INTERNAL_ORDER;
				commandQue.push_front(c2);
				inCommand=false;
				SlowUpdate();
				return;
			} else {
				FinishCommand();
				return;
			}
		}
		break;
	case CMD_UNLOAD_UNITS:{
		if(lastCall==gs->frameNum)	//avoid infinite loops
			return;
		lastCall=gs->frameNum;
		if(((CTransportUnit*)owner)->transported.empty()){
			FinishCommand();
			return;
		}
		float3 pos(c.params[0],c.params[1],c.params[2]);
		float radius=c.params[3];
		float3 found;
		bool canUnload=FindEmptySpot(pos,max(16.0f,radius),((CTransportUnit*)owner)->transported.front().unit->radius,found);
		if(canUnload){
			Command c2;
			c2.id=CMD_UNLOAD_UNIT;
			c2.params.push_back(found.x);
			c2.params.push_back(found.y);
			c2.params.push_back(found.z);
			c2.options=c.options | INTERNAL_ORDER;
			commandQue.push_front(c2);
			SlowUpdate();
			return;
		} else {
			FinishCommand();
		}
		break;}
	case CMD_UNLOAD_UNIT:
		if(inCommand){
			if(!owner->cob->busy)
//			if(scriptReady)
				FinishCommand();
		} else {
			if(((CTransportUnit*)owner)->transported.empty()){
				FinishCommand();
				return;
			}
			float3 pos(c.params[0],c.params[1],c.params[2]);
			if(goalPos.distance2D(pos)>20){
				SetGoal(pos,owner->pos);
			}
			if(pos.distance2D(owner->pos)<owner->unitDef->loadingRadius*0.9){
				if(CTAAirMoveType* am=dynamic_cast<CTAAirMoveType*>(owner->moveType)){		//handle air transports differently
					pos.y=ground->GetHeight(pos.x,pos.z);
					CUnit* unit=((CTransportUnit*)owner)->transported.front().unit;
					float3 wantedPos=pos+UpVector*unit->model->height;
					SetGoal(wantedPos,owner->pos);
					am->SetWantedAltitude(unit->model->height);
					am->maxDrift=1;
					if(owner->pos.distance(wantedPos)<8 && owner->updir.dot(UpVector)>0.99){
						am->dontLand=false;
						owner->cob->Call("EndTransport");
						((CTransportUnit*)owner)->DetachUnit(unit);
						float3 fix = owner->pos+owner->frontdir*20;
						SetGoal(fix,owner->pos);		//move the transport away slightly
						FinishCommand();
					}
				} else {
					inCommand=true;
					scriptReady=false;
					StopMove();
					std::vector<int> args;
					args.push_back(((CTransportUnit*)owner)->transported.front().unit->id);
					args.push_back(PACKXZ(pos.x, pos.z));
					owner->cob->Call("TransportDrop",args,ScriptCallback,this,0);
				}
			}
		}
		break;
	default:
		CMobileCAI::SlowUpdate();
		break;
	}
}
示例#23
0
void CAirCAI::ExecuteAttack(Command &c)
{
	assert(owner->unitDef->canAttack);
	targetAge++;
	if(tempOrder && owner->moveState == 1){		//limit how far away we fly
		if(orderTarget && LinePointDist(commandPos1, commandPos2, orderTarget->pos) > 1500){
			owner->SetUserTarget(0);
			FinishCommand();
			return;
		}
	}/* why was this block here? - ILMTitan
	if(tempOrder && myPlane->isFighter && orderTarget){
		if(owner->fireState == 2 && owner->moveState != 0){
			CUnit* enemy = helper->GetClosestEnemyAircraft(
				owner->pos + (owner->speed * 50), 800, owner->allyteam);
			if(enemy && (!orderTarget->unitDef->canfly
					|| (orderTarget->pos-owner->pos + owner->speed * 50).
					Length() + (100 * gs->randFloat() * 40) - targetAge
					< (enemy->pos-owner->pos + owner->speed * 50).Length())){
				c.params.clear();
				c.params.push_back(enemy->id);
				inCommand=false;
			}
		}
	}*/
	if(inCommand){
		if(targetDied || (c.params.size() == 1 && UpdateTargetLostTimer(int(c.params[0])) == 0)){
			FinishCommand();
			return;
		}
		if ((c.params.size() == 3) && (owner->commandShotCount > 0) && (commandQue.size() > 1)) {
			owner->AttackUnit(0,true);
			FinishCommand();
			return;
		}
		if (orderTarget) {
			if (orderTarget->unitDef->canfly && orderTarget->crashing) {
				owner->SetUserTarget(0);
				FinishCommand();
				return;
			}
			if (!(c.options & ALT_KEY) && SkipParalyzeTarget(orderTarget)) {
				owner->SetUserTarget(0);
				FinishCommand();
				return;
			}
		}
		if(orderTarget){
//				myPlane->goalPos=orderTarget->pos;
		} else {
//				float3 pos(c.params[0],c.params[1],c.params[2]);
//				myPlane->goalPos=pos;
		}
	} else {
		targetAge=0;
		owner->commandShotCount = -1;
		if(c.params.size() == 1){
			if(uh->units[int(c.params[0])] != 0 && uh->units[int(c.params[0])] != owner){
				orderTarget = uh->units[int(c.params[0])];
				owner->AttackUnit(orderTarget, false);
				AddDeathDependence(orderTarget);
				inCommand = true;
			} else {
				FinishCommand();
				return;
			}
		} else {
			float3 pos(c.params[0],c.params[1],c.params[2]);
			owner->AttackGround(pos,false);
			inCommand = true;
		}
	}
	return;
}
示例#24
0
void CTransportCAI::ExecuteLoadUnits(Command& c)
{
	CTransportUnit* transport = reinterpret_cast<CTransportUnit*>(owner);

	if (c.params.size() == 1) {
		// load single unit
		CUnit* unit = unitHandler->GetUnit(c.params[0]);

		if (unit == NULL) {
			FinishCommand();
			return;
		}

		if (c.options & INTERNAL_ORDER) {
			if (unit->commandAI->commandQue.empty()) {
				if (!LoadStillValid(unit)) {
					FinishCommand();
					return;
				}
			} else {
				Command& currentUnitCommand = unit->commandAI->commandQue[0];

				if ((currentUnitCommand.GetID() == CMD_LOAD_ONTO) && (currentUnitCommand.params.size() == 1) && (int(currentUnitCommand.params[0]) == owner->id)) {
					if ((unit->moveType->progressState == AMoveType::Failed) && (owner->moveType->progressState == AMoveType::Failed)) {
						unit->commandAI->FinishCommand();
						FinishCommand();
						return;
					}
				} else if (!LoadStillValid(unit)) {
					FinishCommand();
					return;
				}
			}
		}

		if (inCommand) {
			if (!owner->script->IsBusy()) {
				FinishCommand();
			}
			return;
		}
		if (unit != NULL && CanTransport(unit) && UpdateTargetLostTimer(int(c.params[0]))) {
			SetTransportee(unit);

			const float sqDist = unit->pos.SqDistance2D(owner->pos);
			const bool inLoadingRadius = (sqDist <= Square(owner->unitDef->loadingRadius));

			CTransportUnit* trans = static_cast<CTransportUnit*>(owner);
			CHoverAirMoveType* am = dynamic_cast<CHoverAirMoveType*>(owner->moveType);

			// subtract 1 square to account for PFS/GMT inaccuracy
			const bool outOfRange = (goalPos.SqDistance2D(unit->pos) > Square(owner->unitDef->loadingRadius - SQUARE_SIZE));
			const bool moveCloser = (!inLoadingRadius && (!owner->IsMoving() || (am != NULL && am->aircraftState != AAirMoveType::AIRCRAFT_FLYING)));

			if (outOfRange || moveCloser) {
				SetGoal(unit->pos, owner->pos, std::min(64.0f, owner->unitDef->loadingRadius));
			}

			if (inLoadingRadius) {
				if (am != NULL) {
					// handle air transports differently
					float3 wantedPos = unit->pos;
					wantedPos.y = trans->GetTransporteeWantedHeight(wantedPos, unit);

					// calls am->StartMoving() which sets forceHeading to false (and also
					// changes aircraftState, possibly in mid-pickup) --> must check that
					// wantedPos == goalPos using some epsilon tolerance
					// we do not want the forceHeading change at point of pickup because
					// am->UpdateHeading() will suddenly notice a large deltaHeading and
					// break the DOCKING_ANGLE constraint so call am->ForceHeading() next
					SetGoal(wantedPos, owner->pos, 1.0f);

					am->ForceHeading(trans->GetTransporteeWantedHeading(unit));
					am->SetWantedAltitude(wantedPos.y - CGround::GetHeightAboveWater(wantedPos.x, wantedPos.z));
					am->maxDrift = 1.0f;

					// FIXME: kill the hardcoded constants, use the command's radius
					const bool b1 = (owner->pos.SqDistance(wantedPos) < Square(AIRTRANSPORT_DOCKING_RADIUS));
					const bool b2 = (std::abs(owner->heading - unit->heading) < AIRTRANSPORT_DOCKING_ANGLE);
					const bool b3 = (owner->updir.dot(UpVector) > 0.995f);

					if (b1 && b2 && b3) {
						am->SetAllowLanding(false);
						am->SetWantedAltitude(0.0f);

						owner->script->BeginTransport(unit);
						SetTransportee(NULL);
						transport->AttachUnit(unit, owner->script->QueryTransport(unit));

						FinishCommand();
						return;
					}
				} else {
					inCommand = true;

					StopMove();
					owner->script->TransportPickup(unit);
				}
			} else if (owner->moveType->progressState == AMoveType::Failed && sqDist < (200 * 200)) {
				// if we're pretty close already but CGroundMoveType fails because it considers
				// the goal clogged (with the future passenger...), just try to move to the
				// point halfway between the transport and the passenger.
				SetGoal((unit->pos + owner->pos) * 0.5f, owner->pos);
			}
		} else {
			FinishCommand();
		}
	} else if (c.params.size() == 4) { // area-load
		if (lastCall == gs->frameNum) { // avoid infinite loops
			return;
		}

		lastCall = gs->frameNum;

		const float3 pos = c.GetPos(0);
		const float radius = c.params[3];

		CUnit* unit = FindUnitToTransport(pos, radius);

		if (unit && CanTransport(unit)) {
			Command c2(CMD_LOAD_UNITS, c.options|INTERNAL_ORDER, unit->id);
			commandQue.push_front(c2);
			inCommand = false;

			SlowUpdate();
			return;
		} else {
			FinishCommand();
			return;
		}
	}

	isFirstIteration = true;
	startingDropPos = -OnesVector;
}
示例#25
0
void CBuilderCAI::SlowUpdate()
{
	if(commandQue.empty()){
		CMobileCAI::SlowUpdate();
		return;
	}

	Command& c=commandQue.front();
	CBuilder* fac=(CBuilder*)owner;

	map<int,string>::iterator boi;
	if((boi=buildOptions.find(c.id))!=buildOptions.end()){
		float radius;
		if(cachedRadiusId==c.id){
			radius=cachedRadius;
		} else {
			radius=modelParser->Load3DO(unitDefHandler->GetUnitByName(boi->second)->model.modelpath,1,owner->team)->radius;
			cachedRadiusId=c.id;
			cachedRadius=radius;
		}
		if(inCommand){
			if(building){
				if(buildPos.distance2D(fac->pos)>fac->buildDistance+radius-8){
					owner->moveType->StartMoving(buildPos, fac->buildDistance*0.5+radius);
				} else {
					StopMove();
					owner->moveType->KeepPointingTo(buildPos, (fac->buildDistance+radius)*0.6, false);	//needed since above startmoving cancels this
				}
				if(!fac->curBuild && !fac->terraforming){
					building=false;
					StopMove();				//cancel the effect of KeepPointingTo
					FinishCommand();
				}
			} else {
				buildPos.x=c.params[0];
				buildPos.y=c.params[1];
				buildPos.z=c.params[2];
				if(buildPos.distance2D(fac->pos)<fac->buildDistance*0.6+radius){
					StopMove();
					if(uh->maxUnits>(int)gs->Team(owner->team)->units.size()){
						buildRetries++;
						owner->moveType->KeepPointingTo(buildPos, fac->buildDistance*0.7+radius, false);
						if(fac->StartBuild(boi->second,buildPos) || buildRetries>20){
							building=true;
						} else {
							ENTER_MIXED;
							if(owner->team==gu->myTeam && !(buildRetries&7)){
								info->AddLine("%s: Build pos blocked",owner->unitDef->humanName.c_str());
								info->SetLastMsgPos(owner->pos);
							}
							ENTER_SYNCED;
							helper->BuggerOff(buildPos,radius);
							NonMoving();
						}
					}
				} else {
					if(owner->moveType->progressState==CMoveType::Failed){
						if(++buildRetries>5){
							StopMove();
							FinishCommand();			
						}
					}
					SetGoal(buildPos,owner->pos, fac->buildDistance*0.4+radius);
				}
			}
		} else {		//!inCommand
			float3 pos;
			pos.x=floor(c.params[0]/SQUARE_SIZE+0.5)*SQUARE_SIZE;
			pos.z=floor(c.params[2]/SQUARE_SIZE+0.5)*SQUARE_SIZE;
			pos.y=c.params[1];
			CFeature* f=0;
			uh->TestUnitBuildSquare(pos,boi->second,f);
			if(f){
				Command c2;
				c2.id=CMD_RECLAIM;
				c2.options=0;
				c2.params.push_back(f->id+MAX_UNITS);
				commandQue.push_front(c2);
				SlowUpdate();										//this assumes that the reclaim command can never return directly without having reclaimed the target
			} else {
				inCommand=true;
				SlowUpdate();
			}
		}
		return;
	}
	switch(c.id){
	case CMD_STOP:
		building=false;
		fac->StopBuild();
		break;
	case CMD_REPAIR:{
		if(c.params.size()==1){		//repair unit
			CUnit* unit=uh->units[(int)c.params[0]];
			if(commandFromPatrol && owner->moveState==1){		//limit how far away we go
				if(unit && LinePointDist(commandPos1,commandPos2,unit->pos) > 500){
					StopMove();
					FinishCommand();
					break;
				}
			}
			if(unit && unit->health<unit->maxHealth && unit!=owner){
				if(unit->pos.distance2D(fac->pos)<fac->buildDistance+unit->radius-8){
					StopMove();
					fac->SetRepairTarget(unit);
					owner->moveType->KeepPointingTo(unit->pos, fac->buildDistance*0.9+unit->radius, false);
				} else {
					if(goalPos.distance2D(unit->pos)>1)
						SetGoal(unit->pos,owner->pos, fac->buildDistance*0.9+unit->radius);
				}
			} else {
				StopMove();
				FinishCommand();
			}
		} else {			//repair area
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius=c.params[3];
			if(FindRepairTargetAndRepair(pos,radius,c.options,false)){
				inCommand=false;
				SlowUpdate();
				return;
			}
			if(!(c.options & ALT_KEY)){
				FinishCommand();
			}
		}
		return;}
	case CMD_CAPTURE:{
		if(c.params.size()==1){		//capture unit
			CUnit* unit=uh->units[(int)c.params[0]];
			if(unit && unit->team!=owner->team){
				if(unit->pos.distance2D(fac->pos)<fac->buildDistance+unit->radius-8){
					StopMove();
					fac->SetCaptureTarget(unit);
					owner->moveType->KeepPointingTo(unit->pos, fac->buildDistance*0.9+unit->radius, false);
				} else {
					if(goalPos.distance2D(unit->pos)>1)
						SetGoal(unit->pos,owner->pos, fac->buildDistance*0.9+unit->radius);
				}
			} else {
				StopMove();
				FinishCommand();
			}
		} else {			//capture area
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius=c.params[3];
			if(FindCaptureTargetAndCapture(pos,radius,c.options)){
				inCommand=false;
				SlowUpdate();
				return;
			}
			if(!(c.options & ALT_KEY)){
				FinishCommand();
			}
		}
		return;}
	case CMD_GUARD:{
		CUnit* guarded=uh->units[(int)c.params[0]];
		if(guarded && guarded!=owner){
			if(CBuilder* b=dynamic_cast<CBuilder*>(guarded)){
				if(b->terraforming){
					if(fac->pos.distance2D(b->terraformCenter)<fac->buildDistance*0.8+b->terraformRadius*0.7){
						StopMove();
						owner->moveType->KeepPointingTo(b->terraformCenter, fac->buildDistance*0.9, false);
						fac->HelpTerraform(b);
					} else {
						SetGoal(b->terraformCenter,fac->pos,fac->buildDistance*0.7+b->terraformRadius*0.6);
					}
					return;
				}
				if(b->curBuild){
					Command nc;
					nc.id=CMD_REPAIR;
					nc.options=c.options;
					nc.params.push_back(b->curBuild->id);
					commandQue.push_front(nc);
					inCommand=false;
//					SlowUpdate();
					return;
				}
			}
			if(CFactory* f=dynamic_cast<CFactory*>(guarded)){
				if(f->curBuild){
					Command nc;
					nc.id=CMD_REPAIR;
					nc.options=c.options;
					nc.params.push_back(f->curBuild->id);
					commandQue.push_front(nc);
					inCommand=false;
//					SlowUpdate();
					return;
				}
			}
			float3 curPos=owner->pos;
			float3 dif=guarded->pos-curPos;
			dif.Normalize();
			float3 goal=guarded->pos-dif*(fac->buildDistance-5);
			if((guarded->pos-curPos).SqLength2D()<(fac->buildDistance*0.9+guarded->radius)*(fac->buildDistance*0.9+guarded->radius)){
				StopMove();
//				info->AddLine("should point with type 3?");
				owner->moveType->KeepPointingTo(guarded->pos, fac->buildDistance*0.9+guarded->radius, false);
				if(guarded->health<guarded->maxHealth)
					fac->SetRepairTarget(guarded);
				else
					NonMoving();
			}else{
				if((goalPos-goal).SqLength2D()>4000)
					SetGoal(goal,curPos);
			}
		} else {
			FinishCommand();
		}
		return;}
	case CMD_RECLAIM:{
		if(c.params.size()==1){
			int id=(int) c.params[0];
			if(id>=MAX_UNITS){		//reclaim feature
				CFeature* feature=featureHandler->features[id-MAX_UNITS];
				if(feature){
					if(feature->pos.distance2D(fac->pos)<fac->buildDistance*0.9+feature->radius){
						StopMove();
						owner->moveType->KeepPointingTo(feature->pos, fac->buildDistance*0.9+feature->radius, false);
						fac->SetReclaimTarget(feature);
					} else {
						if(goalPos.distance2D(feature->pos)>1){
							SetGoal(feature->pos,owner->pos, fac->buildDistance*0.8+feature->radius);
						} else {
							if(owner->moveType->progressState==CMoveType::Failed){
								StopMove();
								FinishCommand();
							}
						}
					}
				} else {
					StopMove();
					FinishCommand();
				}

			} else {							//reclaim unit
				CUnit* unit=uh->units[id];
				if(unit && unit!=owner){
					if(unit->pos.distance2D(fac->pos)<fac->buildDistance-1+unit->radius){
						StopMove();
						owner->moveType->KeepPointingTo(unit->pos, fac->buildDistance*0.9+unit->radius, false);
						fac->SetReclaimTarget(unit);
					} else {
						if(goalPos.distance2D(unit->pos)>1){
							SetGoal(unit->pos,owner->pos);
						}else{
							if(owner->moveType->progressState==CMoveType::Failed){
								StopMove();
								FinishCommand();			
							}
						}
					}
				} else {
					FinishCommand();
				}
			}
		} else if(c.params.size()==4){//area reclaim
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius=c.params[3];
			if(FindReclaimableFeatureAndReclaim(pos,radius,c.options)){
				inCommand=false;
				SlowUpdate();
				return;
			}
			if(!(c.options & ALT_KEY)){
				FinishCommand();
			}
		} else {	//wrong number of parameters
			FinishCommand();
		}
		return;}
	case CMD_RESURRECT:{
		if(c.params.size()==1){
			int id=(int)c.params[0];
			if(id>=MAX_UNITS){		//resurrect feature
				CFeature* feature=featureHandler->features[id-MAX_UNITS];
				if(feature && feature->createdFromUnit!=""){
					if(feature->pos.distance2D(fac->pos)<fac->buildDistance*0.9+feature->radius){
						StopMove();
						owner->moveType->KeepPointingTo(feature->pos, fac->buildDistance*0.9+feature->radius, false);
						fac->SetResurrectTarget(feature);
					} else {
						if(goalPos.distance2D(feature->pos)>1){
							SetGoal(feature->pos,owner->pos, fac->buildDistance*0.8+feature->radius);
						} else {
							if(owner->moveType->progressState==CMoveType::Failed){
								StopMove();
								FinishCommand();			
							}
						}
					}
				} else {
					if(fac->lastResurrected && uh->units[fac->lastResurrected]){	//resurrection finished, start repair
						c.id=CMD_REPAIR;		//kind of hackery to overwrite the current order i suppose
						c.params.clear();
						c.params.push_back(fac->lastResurrected);
						c.options|=INTERNAL_ORDER;
						fac->lastResurrected=0;
						inCommand=false;
						SlowUpdate();
						return;
					}
					StopMove();
					FinishCommand();
				}
			} else {							//resurrect unit
				FinishCommand();
			}
		} else if(c.params.size()==4){//area resurect
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius=c.params[3];
			if(FindResurrectableFeatureAndResurrect(pos,radius,c.options)){
				inCommand=false;
				SlowUpdate();
				return;
			}
			if(!(c.options & ALT_KEY)){
				FinishCommand();
			}
		} else {	//wrong number of parameters
			FinishCommand();
		}
		return;}
	case CMD_PATROL:{
		float3 curPos=owner->pos;
		if(commandFromPatrol){
			commandFromPatrol=false;
			inCommand=true;
			--patrolTime;		//prevent searching reclaimtargets etc directly if one of those call returned directly (infinite loop)
		}
		if(!inCommand){
			float3 pos(c.params[0],c.params[1],c.params[2]);
			inCommand=true;
			Command co;
			co.id=CMD_PATROL;
			co.params.push_back(curPos.x);
			co.params.push_back(curPos.y);
			co.params.push_back(curPos.z);
			commandQue.push_front(co);
			activeCommand=1;
			commandPos1=curPos;
			patrolTime=0;
		}
		Command& c=commandQue[activeCommand];

		if(c.params.size()<3){		//this shouldnt happen but anyway ...
			info->AddLine("Error: got patrol cmd with less than 3 params on %s in BuilderCAI",owner->unitDef->humanName.c_str());
			return;
		}
		patrolGoal=float3(c.params[0],c.params[1],c.params[2]);
		commandPos2=patrolGoal;

		if(!(patrolTime&3) && owner->fireState==2){
			if(FindRepairTargetAndRepair(owner->pos,300*owner->moveState,c.options,true)){
				CUnit* target=uh->units[(int)commandQue.front().params[0]];
				if(owner->moveState!=1 || LinePointDist(commandPos1,commandPos2,target->pos) < 300){
					commandFromPatrol=true;
					inCommand=false;
					SlowUpdate();
					return;
				} else {
					commandQue.pop_front();
				}
			}
			if(FindReclaimableFeatureAndReclaim(owner->pos,300*owner->moveState,c.options)){
				commandFromPatrol=true;
				inCommand=false;
				SlowUpdate();
				return;
			}
		}
		patrolTime++;
		if(!(patrolGoal==goalPos)){
			SetGoal(patrolGoal,curPos);
		}
		if((curPos-patrolGoal).SqLength2D()<4096){
			if(owner->group)
				owner->group->CommandFinished(owner->id,CMD_PATROL);

			if((int)commandQue.size()<=activeCommand+1)
				activeCommand=0;
			else {
				if(commandQue[activeCommand+1].id!=CMD_PATROL)
					activeCommand=0;
				else
					activeCommand++;
			}
			commandPos1=commandPos2;
		}
		if(owner->haveTarget && owner->moveType->progressState!=CMoveType::Done)
			StopMove();
		else if(owner->moveType->progressState!=CMoveType::Active)
			owner->moveType->StartMoving(goalPos, 8);

		return;}
	case CMD_RESTORE:{
		if(inCommand){
			if(!fac->terraforming){
				FinishCommand();
			}
		} else {
			float3 pos(c.params[0],c.params[1],c.params[2]);
			float radius(c.params[3]);
			if(fac->pos.distance2D(pos)<fac->buildDistance-1){
				StopMove();
				fac->StartRestore(pos,radius);
				owner->moveType->KeepPointingTo(pos, fac->buildDistance*0.9, false);
				inCommand=true;
			} else {
				SetGoal(pos,owner->pos, fac->buildDistance*0.9);
			}
		}
		return;}
	default:
		break;
	}
	CMobileCAI::SlowUpdate();
}
示例#26
0
void CTransportCAI::UnloadLand(Command& c)
{
	// default unload
	CTransportUnit* transport = static_cast<CTransportUnit*>(owner);
	CUnit* transportee = NULL;

	float3 wantedPos = c.GetPos(0);

	if (inCommand) {
		if (!owner->script->IsBusy()) {
			FinishCommand();
		}
	} else {
		const std::list<CTransportUnit::TransportedUnit>& transportees = transport->GetTransportedUnits();

		if (transportees.empty()) {
			FinishCommand();
			return;
		}

		SetGoal(wantedPos, owner->pos);

		if (c.params.size() < 4) {
			// unload the first transportee
			transportee = (transportees.front()).unit;
		} else {
			const int unitID = c.params[3];

			// unload a specific transportee
			for (auto it = transportees.begin(); it != transportees.end(); ++it) {
				CUnit* carried = it->unit;

				if (unitID == carried->id) {
					transportee = carried;
					break;
				}
			}
			if (transportee == NULL) {
				FinishCommand();
				return;
			}
		}

		if (wantedPos.SqDistance2D(owner->pos) < Square(owner->unitDef->loadingRadius * 0.9f)) {
			CHoverAirMoveType* am = dynamic_cast<CHoverAirMoveType*>(owner->moveType);
			wantedPos.y = static_cast<CTransportUnit*>(owner)->GetTransporteeWantedHeight(wantedPos, transportee);

			if (am != NULL) {
				// handle air transports differently
				SetGoal(wantedPos, owner->pos);

				am->SetWantedAltitude(wantedPos.y - CGround::GetHeightAboveWater(wantedPos.x, wantedPos.z));
				am->ForceHeading(static_cast<CTransportUnit*>(owner)->GetTransporteeWantedHeading(transportee));

				am->maxDrift = 1.0f;

				// FIXME: kill the hardcoded constants, use the command's radius
				// NOTE: 2D distance-check would mean units get dropped from air
				const bool b1 = (owner->pos.SqDistance(wantedPos) < Square(AIRTRANSPORT_DOCKING_RADIUS));
				const bool b2 = (std::abs(owner->heading - am->GetForcedHeading()) < AIRTRANSPORT_DOCKING_ANGLE);
				const bool b3 = (owner->updir.dot(UpVector) > 0.99f);

				if (b1 && b2 && b3) {
					wantedPos.y -= transportee->radius;

					if (!SpotIsClearIgnoreSelf(wantedPos, transportee)) {
						// chosen spot is no longer clear to land, choose a new one
						// if a new spot cannot be found, don't unload at all
						float3 newWantedPos;

						if (FindEmptySpot(wantedPos, std::max(16.0f * SQUARE_SIZE, transportee->radius * 4.0f), transportee->radius, newWantedPos, transportee)) {
							c.SetPos(0, newWantedPos);
							SetGoal(newWantedPos + UpVector * transportee->model->height, owner->pos);
							return;
						}
					} else {
						transport->DetachUnit(transportee);

						if (transportees.empty()) {
							am->SetAllowLanding(true);
							owner->script->EndTransport();
						}
					}

					// move the transport away slightly
					SetGoal(owner->pos + owner->frontdir * 20.0f, owner->pos);
					FinishCommand();
				}
			} else {
				inCommand = true;
				StopMove();
				owner->script->TransportDrop(transportee, wantedPos);
			}
		}
	}
}
示例#27
0
void CAirCAI::ExecuteFight(Command &c)
{
	assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);
	AAirMoveType* myPlane = (AAirMoveType*) owner->moveType;
	if(tempOrder){
		tempOrder=false;
		inCommand=true;
	}
	if(c.params.size()<3){		//this shouldnt happen but anyway ...
		logOutput.Print("Error: got fight cmd with less than 3 params on %s in AirCAI",
			owner->unitDef->humanName.c_str());
		return;
	}
	if(c.params.size() >= 6){
		if(!inCommand){
			commandPos1 = float3(c.params[3],c.params[4],c.params[5]);
		}
	} else {
		// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
		// rotated (only shortened) if we reach this because the previous return
		// fight command finished by the 'if((curPos-pos).SqLength2D()<(127*127)){'
		// condition, but is actually updated correctly if you click somewhere
		// outside the area close to the line (for a new command).
		commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		if ((owner->pos - commandPos1).SqLength2D() > (150 * 150)) {
			commandPos1 = owner->pos;
		}
	}
	goalPos = float3(c.params[0], c.params[1], c.params[2]);
	if(!inCommand){
		inCommand = true;
		commandPos2=goalPos;
	}
	if(c.params.size() >= 6){
		goalPos = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	}

	// CMD_FIGHT is pretty useless if !canAttack but we try to honour the modders wishes anyway...
	if (owner->unitDef->canAttack && owner->fireState >= 2
			&& owner->moveState != 0 && owner->maxRange > 0) {
		float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2,
				owner->pos + owner->speed*10);
		float testRad = 1000 * owner->moveState;
		CUnit* enemy = NULL;
		if(myPlane->IsFighter()) {
			enemy = helper->GetClosestEnemyAircraft(curPosOnLine,
					testRad, owner->allyteam);
		}
		if(IsValidTarget(enemy) && (owner->moveState!=1
				|| LinePointDist(commandPos1, commandPos2, enemy->pos) < 1000))
		{
			Command nc;
			nc.id=CMD_ATTACK;
			nc.params.push_back(enemy->id);
			nc.options=c.options|INTERNAL_ORDER;
			commandQue.push_front(nc);
			tempOrder=true;
			inCommand=false;
			if(lastPC1!=gs->frameNum){	//avoid infinite loops
				lastPC1=gs->frameNum;
				SlowUpdate();
			}
			return;
		} else {
			float3 curPosOnLine = ClosestPointOnLine(
				commandPos1, commandPos2, owner->pos + owner->speed * 20);
			float testRad = 500 * owner->moveState;
			enemy = helper->GetClosestEnemyUnit(curPosOnLine, testRad, owner->allyteam);
			if(IsValidTarget(enemy)) {
				Command nc;
				nc.id = CMD_ATTACK;
				nc.params.push_back(enemy->id);
				nc.options = c.options | INTERNAL_ORDER;
				PushOrUpdateReturnFight();
				commandQue.push_front(nc);
				tempOrder = true;
				inCommand = false;
				if(lastPC2 != gs->frameNum){	//avoid infinite loops
					lastPC2 = gs->frameNum;
					SlowUpdate();
				}
				return;
			}
		}
	}
	myPlane->goalPos = goalPos;

	if((owner->pos - goalPos).SqLength2D() < (127 * 127)
			|| (owner->pos + owner->speed*8 - goalPos).SqLength2D() < (127 * 127)) {
		FinishCommand();
	}
	return;
}
示例#28
0
void CTransportCAI::UnloadLandFlood(Command& c)
{
	//land, then release all units at once
	CTransportUnit* transport = static_cast<CTransportUnit*>(owner);
	CUnit* transportee = NULL;

	if (inCommand) {
		if (!owner->script->IsBusy()) {
			FinishCommand();
		}
	} else {
		const std::list<CTransportUnit::TransportedUnit>& transportees = transport->GetTransportedUnits();

		if (transportees.empty()) {
			FinishCommand();
			return;
		}

		if (c.params.size() < 4) {
			transportee = (transportees.front()).unit;
		} else {
			const int unitID = c.params[3];

			for (auto it = transportees.begin(); it != transportees.end(); ++it) {
				CUnit* carried = it->unit;

				if (unitID == carried->id) {
					transportee = carried;
					break;
				}
			}
			if (transportee == NULL) {
				FinishCommand();
				return;
			}
		}

		// move to position
		float3 pos = c.GetPos(0);
		if (isFirstIteration) {
			if (goalPos.SqDistance2D(pos) > 400) {
				SetGoal(startingDropPos, owner->pos);
			}
		}

		if (startingDropPos.SqDistance2D(owner->pos) < Square(owner->unitDef->loadingRadius * 0.9f)) {
			CHoverAirMoveType* am = dynamic_cast<CHoverAirMoveType*>(owner->moveType);

			if (am != NULL) {
				// lower to ground
				startingDropPos.y = CGround::GetHeightAboveWater(startingDropPos.x, startingDropPos.z);
				const float3 wantedPos = startingDropPos + UpVector * transportee->model->height;
				SetGoal(wantedPos, owner->pos);

				am->SetWantedAltitude(1.0f);
				am->SetAllowLanding(true);
				am->maxDrift = 1.0f;

				// when on our way down start animations for unloading gear
				if (isFirstIteration) {
					owner->script->StartUnload();
				}
				isFirstIteration = false;

				// once at ground
				if (owner->pos.y - CGround::GetHeightAboveWater(wantedPos.x, wantedPos.z) < SQUARE_SIZE) {
					// nail it to the ground before it tries jumping up, only to land again...
					am->SetState(am->AIRCRAFT_LANDED);
					// call this so that other animations such as opening doors may be started
					owner->script->TransportDrop((transportees.front()).unit, pos);
					transport->DetachUnitFromAir(transportee, pos);

					FinishCommand();

					if (transportees.empty()) {
						am->SetAllowLanding(true);
						owner->script->EndTransport();
						am->UpdateLanded();
					}
				}
			} else {
				// land transports
				inCommand = true;
				isFirstIteration = false;

				StopMove();
				owner->script->TransportDrop((transportees.front()).unit, pos);
				transport->DetachUnitFromAir(transportee, pos);
				FinishCommand();

				if (transportees.empty()) {
					owner->script->EndTransport();
				}
			}
		}
	}
}
示例#29
0
/**
* @brief Executes the Fight command c
*/
void CMobileCAI::ExecuteFight(Command &c)
{
	assert((c.options & INTERNAL_ORDER) || owner->unitDef->canFight);
	if(c.params.size() == 1) {
		if(orderTarget && !owner->weapons.empty()
				&& !owner->weapons.front()->AttackUnit(orderTarget, false)) {
			CUnit* newTarget = helper->GetClosestValidTarget(
				owner->pos, owner->maxRange, owner->allyteam, this);
			if ((newTarget != NULL) && owner->weapons.front()->AttackUnit(newTarget, false)) {
				c.params[0] = newTarget->id;
				inCommand = false;
			} else {
				owner->weapons.front()->AttackUnit(orderTarget, false);
			}
		}
		ExecuteAttack(c);
		return;
	}
	if(tempOrder){
		inCommand = true;
		tempOrder = false;
	}
	if (c.params.size() < 3) {
		logOutput.Print("Error: got fight cmd with less than 3 params on %s in MobileCAI",
			owner->unitDef->humanName.c_str());
		return;
	}
	if(c.params.size() >= 6){
		if(!inCommand){
			commandPos1 = float3(c.params[3],c.params[4],c.params[5]);
		}
	} else {
		// Some hackery to make sure the line (commandPos1,commandPos2) is NOT
		// rotated (only shortened) if we reach this because the previous return
		// fight command finished by the 'if((curPos-pos).SqLength2D()<(64*64)){'
		// condition, but is actually updated correctly if you click somewhere
		// outside the area close to the line (for a new command).
		commandPos1 = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		if ((owner->pos - commandPos1).SqLength2D() > (96 * 96)) {
			commandPos1 = owner->pos;
		}
	}
	float3 pos(c.params[0],c.params[1],c.params[2]);
	if(!inCommand){
		inCommand = true;
		commandPos2 = pos;
		lastUserGoal = commandPos2;
	}
	if(c.params.size() >= 6){
		pos = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
	}
	if(pos!=goalPos){
		SetGoal(pos, owner->pos);
	}

	if (owner->unitDef->canAttack && owner->fireState >= 2 && !owner->weapons.empty()) {
		const float3 curPosOnLine = ClosestPointOnLine(commandPos1, commandPos2, owner->pos);
		const float searchRadius = owner->maxRange + 100 * owner->moveState * owner->moveState;
		CUnit* enemy = helper->GetClosestValidTarget(curPosOnLine, searchRadius, owner->allyteam, this);
		if (enemy != NULL) {
			Command c2;
			c2.id=CMD_FIGHT;
			c2.options=c.options|INTERNAL_ORDER;
			c2.params.push_back(enemy->id);
			PushOrUpdateReturnFight();
			commandQue.push_front(c2);
			inCommand=false;
			tempOrder=true;
			if(lastPC!=gs->frameNum){	//avoid infinite loops
				lastPC=gs->frameNum;
				SlowUpdate();
			}
			return;
		}
	}
	if((owner->pos - goalPos).SqLength2D() < (64 * 64)
			|| (owner->moveType->progressState == AMoveType::Failed)){
		FinishCommand();
	}
	return;
}
//-----------------------------------------------------------------------------
// Purpose: Runs movement commands for the player
// Input  : *player - 
//			*ucmd - 
//			*moveHelper - 
// Output : void CPlayerMove::RunCommand
//-----------------------------------------------------------------------------
void CPlayerMove::RunCommand ( CBasePlayer *player, CUserCmd *ucmd, IMoveHelper *moveHelper )
{
	StartCommand( player, ucmd );

	// Set globals appropriately
	gpGlobals->curtime		=  player->m_nTickBase * TICK_INTERVAL;
	gpGlobals->frametime	=  player->m_bGamePaused ? 0 : TICK_INTERVAL;

	// Add and subtract buttons we're forcing on the player
	ucmd->buttons |= player->m_afButtonForced;
	ucmd->buttons &= ~player->m_afButtonDisabled;

	if ( player->m_bGamePaused )
	{
		// If no clipping and cheats enabled and noclipduring game enabled, then leave
		//  forwardmove and angles stuff in usercmd
		if ( player->GetMoveType() == MOVETYPE_NOCLIP &&
			 sv_cheats->GetBool() && 
			 sv_noclipduringpause.GetBool() )
		{
			gpGlobals->frametime = TICK_INTERVAL;
		}
	}

	/*
	// TODO:  We can check whether the player is sending more commands than elapsed real time
	cmdtimeremaining -= ucmd->msec;
	if ( cmdtimeremaining < 0 )
	{
	//	return;
	}
	*/

	g_pGameMovement->StartTrackPredictionErrors( player );

	CommentarySystem_PePlayerRunCommand( player, ucmd );

	// Do weapon selection
	if ( ucmd->weaponselect != 0 )
	{
		CBaseCombatWeapon *weapon = dynamic_cast< CBaseCombatWeapon * >( CBaseEntity::Instance( ucmd->weaponselect ) );
		if ( weapon )
		{
			VPROF( "player->SelectItem()" );
			player->SelectItem( weapon->GetName(), ucmd->weaponsubtype );
		}
	}

	IServerVehicle *pVehicle = player->GetVehicle();

	// Latch in impulse.
	if ( ucmd->impulse )
	{
		// Discard impulse commands unless the vehicle allows them.
		// FIXME: UsingStandardWeapons seems like a bad filter for this. The flashlight is an impulse command, for example.
		if ( !pVehicle || player->UsingStandardWeaponsInVehicle() )
		{
			player->m_nImpulse = ucmd->impulse;
		}
	}

	// Update player input button states
	VPROF_SCOPE_BEGIN( "player->UpdateButtonState" );
	player->UpdateButtonState( ucmd->buttons );
	VPROF_SCOPE_END();

	CheckMovingGround( player, TICK_INTERVAL );

	g_pMoveData->m_vecOldAngles = player->pl.v_angle;

	// Copy from command to player unless game .dll has set angle using fixangle
	if ( player->pl.fixangle == FIXANGLE_NONE )
	{
		player->pl.v_angle = ucmd->viewangles;
	}
	else if( player->pl.fixangle == FIXANGLE_RELATIVE )
	{
		player->pl.v_angle = ucmd->viewangles + player->pl.anglechange;
	}

	// Call standard client pre-think
	RunPreThink( player );

	// Call Think if one is set
	RunThink( player, TICK_INTERVAL );

	// Setup input.
	SetupMove( player, ucmd, moveHelper, g_pMoveData );

	// Let the game do the movement.
	if ( !pVehicle )
	{
		VPROF( "g_pGameMovement->ProcessMovement()" );
		Assert( g_pGameMovement );
		g_pGameMovement->ProcessMovement( player, g_pMoveData );
	}
	else
	{
		VPROF( "pVehicle->ProcessMovement()" );
		pVehicle->ProcessMovement( player, g_pMoveData );
	}
			
	// Copy output
	FinishMove( player, ucmd, g_pMoveData );

	// Let server invoke any needed impact functions
	VPROF_SCOPE_BEGIN( "moveHelper->ProcessImpacts" );
	moveHelper->ProcessImpacts();
	VPROF_SCOPE_END();

	RunPostThink( player );

	g_pGameMovement->FinishTrackPredictionErrors( player );

	FinishCommand( player );

	// Let time pass
	player->m_nTickBase++;
}