#include "MobAI.hpp" #include "Player.hpp" #include "RacingManager.hpp" #include "TransportManager.hpp" #include "NanoManager.hpp" #include "Combat.hpp" #include "Abilities.hpp" #include #include std::map MobAI::Mobs; static std::queue RemovalQueue; bool MobAI::simulateMobs; static void roamingStep(Mob *mob, time_t currTime); /* * Dynamic lerp; distinct from TransportManager::lerp(). This one doesn't care about height and * only returns the first step, since the rest will need to be recalculated anyway if chasing player. */ static std::pair lerp(int x1, int y1, int x2, int y2, int speed) { std::pair ret = {x1, y1}; if (speed == 0) return ret; int distance = hypot(x1 - x2, y1 - y2); if (distance > speed) { int lerps = distance / speed; // interpolate only the first point float frac = 1.0f / lerps; ret.first = (x1 + (x2 - x1) * frac); ret.second = (y1 + (y2 - y1) * frac); } else { ret.first = x2; ret.second = y2; } return ret; } void MobAI::clearDebuff(Mob *mob) { mob->skillStyle = -1; mob->appearanceData.iConditionBitFlag = 0; mob->unbuffTimes.clear(); INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt1); pkt1.eCT = 2; pkt1.iID = mob->appearanceData.iNPC_ID; pkt1.iConditionBitFlag = mob->appearanceData.iConditionBitFlag; NPCManager::sendToViewable(mob, &pkt1, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT)); } void MobAI::followToCombat(Mob *mob) { if (Mobs.find(mob->groupLeader) != Mobs.end()) { Mob* leadMob = Mobs[mob->groupLeader]; for (int i = 0; i < 4; i++) { if (leadMob->groupMember[i] == 0) break; if (Mobs.find(leadMob->groupMember[i]) == Mobs.end()) { std::cout << "[WARN] roamingStep: leader can't find a group member!" << std::endl; continue; } Mob* followerMob = Mobs[leadMob->groupMember[i]]; if (followerMob->state != MobState::ROAMING) // only roaming mobs should transition to combat continue; enterCombat(mob->target, followerMob); } if (leadMob->state != MobState::ROAMING) return; enterCombat(mob->target, leadMob); } } void MobAI::groupRetreat(Mob *mob) { if (Mobs.find(mob->groupLeader) == Mobs.end()) return; Mob* leadMob = Mobs[mob->groupLeader]; for (int i = 0; i < 4; i++) { if (leadMob->groupMember[i] == 0) break; if (Mobs.find(leadMob->groupMember[i]) == Mobs.end()) { std::cout << "[WARN] roamingStep: leader can't find a group member!" << std::endl; continue; } Mob* followerMob = Mobs[leadMob->groupMember[i]]; followerMob->target = nullptr; followerMob->state = MobState::RETREAT; clearDebuff(followerMob); } leadMob->target = nullptr; leadMob->state = MobState::RETREAT; clearDebuff(leadMob); } /* * Aggro on nearby players. * Even if they're in range, we can't assume they're all in the same one chunk * as the mob, since it might be near a chunk boundary. */ bool MobAI::aggroCheck(Mob *mob, time_t currTime) { CNSocket *closest = nullptr; int closestDistance = INT_MAX; for (auto it = mob->viewableChunks->begin(); it != mob->viewableChunks->end(); it++) { Chunk* chunk = *it; for (CNSocket *s : chunk->players) { Player *plr = PlayerManager::getPlayer(s); if (plr->HP <= 0) continue; int mobRange = mob->sightRange; if (plr->iConditionBitFlag & CSB_BIT_UP_STEALTH || RacingManager::EPRaces.find(s) != RacingManager::EPRaces.end()) mobRange /= 3; // 0.33x - 1.66x the range int levelDifference = plr->level - mob->level; if (levelDifference > -10) mobRange = levelDifference < 10 ? mobRange - (levelDifference * mobRange / 15) : mobRange / 3; if (mob->state != MobState::ROAMING && plr->inCombat) // freshly out of aggro mobs mobRange = mob->sightRange * 2; // should not be impacted by the above if (plr->iSpecialState & (CN_SPECIAL_STATE_FLAG__INVISIBLE|CN_SPECIAL_STATE_FLAG__INVULNERABLE)) mobRange = -1; // height is relevant for aggro distance because of platforming int xyDistance = hypot(mob->appearanceData.iX - plr->x, mob->appearanceData.iY - plr->y); int distance = hypot(xyDistance, (mob->appearanceData.iZ - plr->z) * 2); // difference in Z counts twice if (distance > mobRange || distance > closestDistance) continue; // found a player closest = s; closestDistance = distance; } } if (closest != nullptr) { // found closest player. engage. enterCombat(closest, mob); if (mob->groupLeader != 0) followToCombat(mob); return true; } return false; } static void dealCorruption(Mob *mob, std::vector targetData, int skillID, int style) { Player *plr = PlayerManager::getPlayer(mob->target); size_t resplen = sizeof(sP_FE2CL_NPC_SKILL_CORRUPTION_HIT) + targetData[0] * sizeof(sCAttackResult); // validate response packet if (!validOutVarPacket(sizeof(sP_FE2CL_NPC_SKILL_CORRUPTION_HIT), targetData[0], sizeof(sCAttackResult))) { std::cout << "[WARN] bad sP_FE2CL_NPC_SKILL_CORRUPTION_HIT packet size" << std::endl; return; } uint8_t respbuf[CN_PACKET_BUFFER_SIZE]; memset(respbuf, 0, resplen); sP_FE2CL_NPC_SKILL_CORRUPTION_HIT *resp = (sP_FE2CL_NPC_SKILL_CORRUPTION_HIT*)respbuf; sCAttackResult *respdata = (sCAttackResult*)(respbuf+sizeof(sP_FE2CL_NPC_SKILL_CORRUPTION_HIT)); resp->iNPC_ID = mob->appearanceData.iNPC_ID; resp->iSkillID = skillID; resp->iStyle = style; resp->iValue1 = plr->x; resp->iValue2 = plr->y; resp->iValue3 = plr->z; resp->iTargetCnt = targetData[0]; for (int i = 0; i < targetData[0]; i++) { CNSocket *sock = nullptr; Player *plr = nullptr; for (auto& pair : PlayerManager::players) { if (pair.second->iID == targetData[i+1]) { sock = pair.first; plr = pair.second; break; } } // player not found if (plr == nullptr) { std::cout << "[WARN] dealCorruption: player ID not found" << std::endl; return; } respdata[i].eCT = 1; respdata[i].iID = plr->iID; respdata[i].bProtected = 0; respdata[i].iActiveNanoSlotNum = -1; for (int n = 0; n < 3; n++) if (plr->activeNano == plr->equippedNanos[n]) respdata[i].iActiveNanoSlotNum = n; respdata[i].iNanoID = plr->activeNano; int style2 = NanoManager::nanoStyle(plr->activeNano); if (style2 == -1) { // no nano respdata[i].iHitFlag = 8; respdata[i].iDamage = NanoManager::SkillTable[skillID].powerIntensity[0] * PC_MAXHEALTH((int)mob->data["m_iNpcLevel"]) / 1500; } else if (style == style2) { respdata[i].iHitFlag = 8; // tie respdata[i].iDamage = 0; respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina; } else if (style - style2 == 1 || style2 - style == 2) { respdata[i].iHitFlag = 4; // win respdata[i].iDamage = 0; respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina += 45; if (plr->Nanos[plr->activeNano].iStamina > 150) respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina = 150; // fire damage power disguised as a corruption attack back at the enemy std::vector targetData2 = {1, mob->appearanceData.iNPC_ID, 0, 0, 0}; for (auto& pwr : NanoManager::NanoPowers) if (pwr.skillType == EST_DAMAGE) pwr.handle(sock, targetData2, plr->activeNano, skillID, 0, 200); } else { respdata[i].iHitFlag = 16; // lose respdata[i].iDamage = NanoManager::SkillTable[skillID].powerIntensity[0] * PC_MAXHEALTH((int)mob->data["m_iNpcLevel"]) / 1500; respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina -= 90; if (plr->Nanos[plr->activeNano].iStamina < 0) { respdata[i].bNanoDeactive = 1; respdata[i].iNanoStamina = plr->Nanos[plr->activeNano].iStamina = 0; } } if (!(plr->iSpecialState & CN_SPECIAL_STATE_FLAG__INVULNERABLE)) plr->HP -= respdata[i].iDamage; respdata[i].iHP = plr->HP; respdata[i].iConditionBitFlag = plr->iConditionBitFlag; if (plr->HP <= 0) { mob->target = nullptr; mob->state = MobState::RETREAT; if (!MobAI::aggroCheck(mob, getTime())) { MobAI::clearDebuff(mob); if (mob->groupLeader != 0) MobAI::groupRetreat(mob); } } } NPCManager::sendToViewable(mob, (void*)&respbuf, P_FE2CL_NPC_SKILL_CORRUPTION_HIT, resplen); } static void useAbilities(Mob *mob, time_t currTime) { /* * targetData approach * first integer is the count * second to fifth integers are IDs, these can be either player iID or mob's iID * whether the skill targets players or mobs is determined by the skill packet being fired */ Player *plr = PlayerManager::getPlayer(mob->target); if (mob->skillStyle >= 0) { // corruption hit int skillID = (int)mob->data["m_iCorruptionType"]; std::vector targetData = {1, plr->iID, 0, 0, 0}; int temp = mob->skillStyle; mob->skillStyle = -3; // corruption cooldown mob->nextAttack = currTime + 1000; dealCorruption(mob, targetData, skillID, temp); return; } if (mob->skillStyle == -2) { // eruption hit int skillID = (int)mob->data["m_iMegaType"]; std::vector targetData = {0, 0, 0, 0, 0}; // find the players within range of eruption for (auto it = mob->viewableChunks->begin(); it != mob->viewableChunks->end(); it++) { Chunk* chunk = *it; for (CNSocket *s : chunk->players) { Player *plr = PlayerManager::getPlayer(s); if (plr->HP <= 0) continue; int distance = hypot(mob->hitX - plr->x, mob->hitY - plr->y); if (distance < NanoManager::SkillTable[skillID].effectArea) { targetData[0] += 1; targetData[targetData[0]] = plr->iID; if (targetData[0] > 3) // make sure not to have more than 4 break; } } } for (auto& pwr : Combat::MobPowers) if (pwr.skillType == NanoManager::SkillTable[skillID].skillType) pwr.handle(mob, targetData, skillID, NanoManager::SkillTable[skillID].durationTime[0], NanoManager::SkillTable[skillID].powerIntensity[0]); mob->skillStyle = -3; // eruption cooldown mob->nextAttack = currTime + 1000; return; } if (mob->skillStyle == -3) { // cooldown expires mob->skillStyle = -1; return; } int random = rand() % 2000 * 1000; int prob1 = (int)mob->data["m_iActiveSkill1Prob"]; // active skill probability int prob2 = (int)mob->data["m_iCorruptionTypeProb"]; // corruption probability int prob3 = (int)mob->data["m_iMegaTypeProb"]; // eruption probability if (random < prob1) { // active skill hit int skillID = (int)mob->data["m_iActiveSkill1"]; std::vector targetData = {1, plr->iID, 0, 0, 0}; for (auto& pwr : Combat::MobPowers) if (pwr.skillType == NanoManager::SkillTable[skillID].skillType) { if (pwr.bitFlag != 0 && (plr->iConditionBitFlag & pwr.bitFlag)) return; // prevent debuffing a player twice pwr.handle(mob, targetData, skillID, NanoManager::SkillTable[skillID].durationTime[0], NanoManager::SkillTable[skillID].powerIntensity[0]); } mob->nextAttack = currTime + (int)mob->data["m_iDelayTime"] * 100; return; } if (random < prob1 + prob2) { // corruption windup int skillID = (int)mob->data["m_iCorruptionType"]; INITSTRUCT(sP_FE2CL_NPC_SKILL_CORRUPTION_READY, pkt); pkt.iNPC_ID = mob->appearanceData.iNPC_ID; pkt.iSkillID = skillID; pkt.iValue1 = plr->x; pkt.iValue2 = plr->y; pkt.iValue3 = plr->z; mob->skillStyle = NanoManager::nanoStyle(plr->activeNano) - 1; if (mob->skillStyle == -1) mob->skillStyle = 2; if (mob->skillStyle == -2) mob->skillStyle = rand() % 3; pkt.iStyle = mob->skillStyle; NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_SKILL_CORRUPTION_READY, sizeof(sP_FE2CL_NPC_SKILL_CORRUPTION_READY)); mob->nextAttack = currTime + 1800; return; } if (random < prob1 + prob2 + prob3) { // eruption windup int skillID = (int)mob->data["m_iMegaType"]; INITSTRUCT(sP_FE2CL_NPC_SKILL_READY, pkt); pkt.iNPC_ID = mob->appearanceData.iNPC_ID; pkt.iSkillID = skillID; pkt.iValue1 = mob->hitX = plr->x; pkt.iValue2 = mob->hitY = plr->y; pkt.iValue3 = mob->hitZ = plr->z; NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_SKILL_READY, sizeof(sP_FE2CL_NPC_SKILL_READY)); mob->nextAttack = currTime + 1800; mob->skillStyle = -2; return; } return; } void MobAI::enterCombat(CNSocket *sock, Mob *mob) { mob->target = sock; mob->state = MobState::COMBAT; mob->nextMovement = getTime(); mob->nextAttack = 0; mob->roamX = mob->appearanceData.iX; mob->roamY = mob->appearanceData.iY; mob->roamZ = mob->appearanceData.iZ; int skillID = (int)mob->data["m_iPassiveBuff"]; // cast passive std::vector targetData = {1, mob->appearanceData.iNPC_ID, 0, 0, 0}; for (auto& pwr : Combat::MobPowers) if (pwr.skillType == NanoManager::SkillTable[skillID].skillType) pwr.handle(mob, targetData, skillID, NanoManager::SkillTable[skillID].durationTime[0], NanoManager::SkillTable[skillID].powerIntensity[0]); for (NPCEvent& event : NPCManager::NPCEvents) // trigger an ON_COMBAT if (event.trigger == ON_COMBAT && event.npcType == mob->appearanceData.iNPCType) event.handler(sock, mob); } static void drainMobHP(Mob *mob, int amount) { size_t resplen = sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK) + sizeof(sSkillResult_Damage); assert(resplen < CN_PACKET_BUFFER_SIZE - 8); uint8_t respbuf[CN_PACKET_BUFFER_SIZE]; memset(respbuf, 0, resplen); sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK *pkt = (sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK*)respbuf; sSkillResult_Damage *drain = (sSkillResult_Damage*)(respbuf + sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_TICK)); pkt->iID = mob->appearanceData.iNPC_ID; pkt->eCT = 4; // mob pkt->iTB_ID = ECSB_BOUNDINGBALL; drain->eCT = 4; drain->iID = mob->appearanceData.iNPC_ID; drain->iDamage = amount; drain->iHP = mob->appearanceData.iHP -= amount; NPCManager::sendToViewable(mob, (void*)&respbuf, P_FE2CL_CHAR_TIME_BUFF_TIME_TICK, resplen); if (mob->appearanceData.iHP <= 0) Combat::killMob(mob->target, mob); } static void deadStep(Mob *mob, time_t currTime) { // despawn the mob after a short delay if (mob->killedTime != 0 && !mob->despawned && currTime - mob->killedTime > 2000) { mob->despawned = true; INITSTRUCT(sP_FE2CL_NPC_EXIT, pkt); pkt.iNPC_ID = mob->appearanceData.iNPC_ID; NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_EXIT, sizeof(sP_FE2CL_NPC_EXIT)); // if it was summoned, mark it for removal if (mob->summoned) { std::cout << "[INFO] Queueing killed summoned mob for removal" << std::endl; RemovalQueue.push(mob->appearanceData.iNPC_ID); return; } // pre-set spawn coordinates if not marked for removal mob->appearanceData.iX = mob->spawnX; mob->appearanceData.iY = mob->spawnY; mob->appearanceData.iZ = mob->spawnZ; } // to guide their groupmates, group leaders still need to move despite being dead if (mob->groupLeader == mob->appearanceData.iNPC_ID) roamingStep(mob, currTime); if (mob->killedTime != 0 && currTime - mob->killedTime < mob->regenTime * 100) return; std::cout << "respawning mob " << mob->appearanceData.iNPC_ID << " with HP = " << mob->maxHealth << std::endl; mob->appearanceData.iHP = mob->maxHealth; mob->state = MobState::ROAMING; // if mob is a group leader/follower, spawn where the group is. if (mob->groupLeader != 0) { if (MobAI::Mobs.find(mob->groupLeader) != MobAI::Mobs.end()) { Mob* leaderMob = MobAI::Mobs[mob->groupLeader]; mob->appearanceData.iX = leaderMob->appearanceData.iX + mob->offsetX; mob->appearanceData.iY = leaderMob->appearanceData.iY + mob->offsetY; mob->appearanceData.iZ = leaderMob->appearanceData.iZ; } else { std::cout << "[WARN] deadStep: mob cannot find it's leader!" << std::endl; } } INITSTRUCT(sP_FE2CL_NPC_NEW, pkt); pkt.NPCAppearanceData = mob->appearanceData; // notify all nearby players NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_NEW, sizeof(sP_FE2CL_NPC_NEW)); } static void combatStep(Mob *mob, time_t currTime) { assert(mob->target != nullptr); // lose aggro if the player lost connection if (PlayerManager::players.find(mob->target) == PlayerManager::players.end()) { mob->target = nullptr; mob->state = MobState::RETREAT; if (!MobAI::aggroCheck(mob, currTime)) { MobAI::clearDebuff(mob); if (mob->groupLeader != 0) MobAI::groupRetreat(mob); } return; } Player *plr = PlayerManager::getPlayer(mob->target); // lose aggro if the player became invulnerable or died if (plr->HP <= 0 || (plr->iSpecialState & CN_SPECIAL_STATE_FLAG__INVULNERABLE)) { mob->target = nullptr; mob->state = MobState::RETREAT; if (!MobAI::aggroCheck(mob, currTime)) { MobAI::clearDebuff(mob); if (mob->groupLeader != 0) MobAI::groupRetreat(mob); } return; } // drain if (mob->skillStyle < 0 && (mob->lastDrainTime == 0 || currTime - mob->lastDrainTime >= 1000) && mob->appearanceData.iConditionBitFlag & CSB_BIT_BOUNDINGBALL) { drainMobHP(mob, mob->maxHealth / 20); // lose 5% every second mob->lastDrainTime = currTime; } // if drain killed the mob, return early if (mob->appearanceData.iHP <= 0) return; // unbuffing std::unordered_map::iterator it = mob->unbuffTimes.begin(); while (it != mob->unbuffTimes.end()) { if (currTime >= it->second) { mob->appearanceData.iConditionBitFlag &= ~it->first; INITSTRUCT(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT, pkt1); pkt1.eCT = 2; pkt1.iID = mob->appearanceData.iNPC_ID; pkt1.iConditionBitFlag = mob->appearanceData.iConditionBitFlag; NPCManager::sendToViewable(mob, &pkt1, P_FE2CL_CHAR_TIME_BUFF_TIME_OUT, sizeof(sP_FE2CL_CHAR_TIME_BUFF_TIME_OUT)); it = mob->unbuffTimes.erase(it); } else { it++; } } // skip attack if stunned or asleep if (mob->appearanceData.iConditionBitFlag & (CSB_BIT_STUN|CSB_BIT_MEZ)) { mob->skillStyle = -1; // in this case we also reset the any outlying abilities the mob might be winding up. return; } int distance = hypot(plr->x - mob->appearanceData.iX, plr->y - mob->appearanceData.iY); int mobRange = (int)mob->data["m_iAtkRange"] + (int)mob->data["m_iRadius"]; if (currTime >= mob->nextAttack) { if (mob->skillStyle != -1 || distance <= mobRange || rand() % 20 == 0) // while not in attack range, 1 / 20 chance. useAbilities(mob, currTime); if (mob->target == nullptr) return; } int distanceToTravel = INT_MAX; int speed = mob->data["m_iRunSpeed"]; // movement logic: move when out of range but don't move while casting a skill if (distance > mobRange && mob->skillStyle == -1) { if (mob->nextMovement != 0 && currTime < mob->nextMovement) return; mob->nextMovement = currTime + 400; if (currTime >= mob->nextAttack) mob->nextAttack = 0; // halve movement speed if snared if (mob->appearanceData.iConditionBitFlag & CSB_BIT_DN_MOVE_SPEED) speed /= 2; int targetX = plr->x; int targetY = plr->y; if (mob->groupLeader != 0) { targetX += mob->offsetX*distance/(mob->idleRange + 1); targetY += mob->offsetY*distance/(mob->idleRange + 1); } distanceToTravel = std::min(distance-mobRange+1, speed*2/5); auto targ = lerp(mob->appearanceData.iX, mob->appearanceData.iY, targetX, targetY, distanceToTravel); if (distanceToTravel < speed*2/5 && currTime >= mob->nextAttack) mob->nextAttack = 0; NPCManager::updateNPCPosition(mob->appearanceData.iNPC_ID, targ.first, targ.second, mob->appearanceData.iZ, mob->instanceID, mob->appearanceData.iAngle); INITSTRUCT(sP_FE2CL_NPC_MOVE, pkt); pkt.iNPC_ID = mob->appearanceData.iNPC_ID; pkt.iSpeed = speed; pkt.iToX = mob->appearanceData.iX = targ.first; pkt.iToY = mob->appearanceData.iY = targ.second; pkt.iToZ = plr->z; pkt.iMoveStyle = 1; // notify all nearby players NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_MOVE, sizeof(sP_FE2CL_NPC_MOVE)); } /* attack logic * 2/5 represents 400 ms which is the time interval mobs use per movement logic step * if the mob is one move interval away, we should just start attacking anyways. */ if (distance <= mobRange || distanceToTravel < speed*2/5) { if (mob->nextAttack == 0 || currTime >= mob->nextAttack) { mob->nextAttack = currTime + (int)mob->data["m_iDelayTime"] * 100; Combat::npcAttackPc(mob, currTime); } } // retreat if the player leaves combat range int xyDistance = hypot(plr->x - mob->roamX, plr->y - mob->roamY); distance = hypot(xyDistance, plr->z - mob->roamZ); if (distance >= mob->data["m_iCombatRange"]) { mob->target = nullptr; mob->state = MobState::RETREAT; MobAI::clearDebuff(mob); if (mob->groupLeader != 0) MobAI::groupRetreat(mob); } } void MobAI::incNextMovement(Mob *mob, time_t currTime) { if (currTime == 0) currTime = getTime(); int delay = (int)mob->data["m_iDelayTime"] * 1000; mob->nextMovement = currTime + delay/2 + rand() % (delay/2); } static void roamingStep(Mob *mob, time_t currTime) { /* * We reuse nextAttack to avoid scanning for players all the time, but to still * do so more often than if we waited for nextMovement (which is way too slow). * In the case of group leaders, this step will be called by dead mobs, so disable attack. */ if (mob->state != MobState::DEAD && (mob->nextAttack == 0 || currTime >= mob->nextAttack)) { mob->nextAttack = currTime + 500; if (MobAI::aggroCheck(mob, currTime)) return; } // no random roaming if the mob already has a set path if (mob->staticPath) return; if (mob->groupLeader != 0 && mob->groupLeader != mob->appearanceData.iNPC_ID) // don't roam by yourself without group leader return; /* * mob->nextMovement is also updated whenever the path queue is traversed in * TransportManager::stepNPCPathing() (which ticks at a higher frequency than nextMovement), * so we don't have to check if there's already entries in the queue since we know there won't be. */ if (mob->nextMovement != 0 && currTime < mob->nextMovement) return; MobAI::incNextMovement(mob, currTime); int xStart = mob->spawnX - mob->idleRange/2; int yStart = mob->spawnY - mob->idleRange/2; int speed = mob->data["m_iWalkSpeed"]; // some mobs don't move (and we mustn't divide/modulus by zero) if (mob->idleRange == 0 || speed == 0) return; int farX, farY, distance; int minDistance = mob->idleRange / 2; // pick a random destination farX = xStart + rand() % mob->idleRange; farY = yStart + rand() % mob->idleRange; distance = std::abs(std::max(farX - mob->appearanceData.iX, farY - mob->appearanceData.iY)); if (distance == 0) distance += 1; // hack to avoid FPE // if it's too short a walk, go further in that direction farX = mob->appearanceData.iX + (farX - mob->appearanceData.iX) * minDistance / distance; farY = mob->appearanceData.iY + (farY - mob->appearanceData.iY) * minDistance / distance; // but don't got out of bounds farX = std::clamp(farX, xStart, xStart + mob->idleRange); farY = std::clamp(farY, yStart, yStart + mob->idleRange); // halve movement speed if snared if (mob->appearanceData.iConditionBitFlag & CSB_BIT_DN_MOVE_SPEED) speed /= 2; std::queue queue; WarpLocation from = { mob->appearanceData.iX, mob->appearanceData.iY, mob->appearanceData.iZ }; WarpLocation to = { farX, farY, mob->appearanceData.iZ }; // add a route to the queue; to be processed in TransportManager::stepNPCPathing() TransportManager::lerp(&queue, from, to, speed); TransportManager::NPCQueues[mob->appearanceData.iNPC_ID] = queue; if (mob->groupLeader != 0 && mob->groupLeader == mob->appearanceData.iNPC_ID) { // make followers follow this npc. for (int i = 0; i < 4; i++) { if (mob->groupMember[i] == 0) break; if (MobAI::Mobs.find(mob->groupMember[i]) == MobAI::Mobs.end()) { std::cout << "[WARN] roamingStep: leader can't find a group member!" << std::endl; continue; } std::queue queue2; Mob* followerMob = MobAI::Mobs[mob->groupMember[i]]; from = { followerMob->appearanceData.iX, followerMob->appearanceData.iY, followerMob->appearanceData.iZ }; to = { farX + followerMob->offsetX, farY + followerMob->offsetY, followerMob->appearanceData.iZ }; TransportManager::lerp(&queue2, from, to, speed); TransportManager::NPCQueues[followerMob->appearanceData.iNPC_ID] = queue2; } } } static void retreatStep(Mob *mob, time_t currTime) { if (mob->nextMovement != 0 && currTime < mob->nextMovement) return; mob->nextMovement = currTime + 400; // distance between spawn point and current location int distance = hypot(mob->appearanceData.iX - mob->roamX, mob->appearanceData.iY - mob->roamY); //if (distance > mob->data["m_iIdleRange"]) { if (distance > 10) { INITSTRUCT(sP_FE2CL_NPC_MOVE, pkt); auto targ = lerp(mob->appearanceData.iX, mob->appearanceData.iY, mob->roamX, mob->roamY, (int)mob->data["m_iRunSpeed"]*4/5); pkt.iNPC_ID = mob->appearanceData.iNPC_ID; pkt.iSpeed = (int)mob->data["m_iRunSpeed"] * 2; pkt.iToX = mob->appearanceData.iX = targ.first; pkt.iToY = mob->appearanceData.iY = targ.second; pkt.iToZ = mob->appearanceData.iZ = mob->spawnZ; pkt.iMoveStyle = 1; // notify all nearby players NPCManager::sendToViewable(mob, &pkt, P_FE2CL_NPC_MOVE, sizeof(sP_FE2CL_NPC_MOVE)); } // if we got there //if (distance <= mob->data["m_iIdleRange"]) { if (distance <= 10) { // retreat back to the spawn point mob->state = MobState::ROAMING; mob->appearanceData.iHP = mob->maxHealth; mob->killedTime = 0; mob->nextAttack = 0; mob->appearanceData.iConditionBitFlag = 0; // cast a return home heal spell, this is the right way(tm) std::vector targetData = {1, 0, 0, 0, 0}; for (auto& pwr : Combat::MobPowers) if (pwr.skillType == NanoManager::SkillTable[110].skillType) pwr.handle(mob, targetData, 110, NanoManager::SkillTable[110].durationTime[0], NanoManager::SkillTable[110].powerIntensity[0]); // clear outlying debuffs MobAI::clearDebuff(mob); } } static void step(CNServer *serv, time_t currTime) { for (auto& pair : MobAI::Mobs) { if (pair.second->playersInView < 0) std::cout << "[WARN] Weird playerview value " << pair.second->playersInView << std::endl; // skip mob movement and combat if disabled or not in view if ((!MobAI::simulateMobs || pair.second->playersInView == 0) && pair.second->state != MobState::DEAD && pair.second->state != MobState::RETREAT) continue; switch (pair.second->state) { case MobState::INACTIVE: // no-op break; case MobState::ROAMING: roamingStep(pair.second, currTime); break; case MobState::COMBAT: combatStep(pair.second, currTime); break; case MobState::RETREAT: retreatStep(pair.second, currTime); break; case MobState::DEAD: deadStep(pair.second, currTime); break; } } // deallocate all NPCs queued for removal while (RemovalQueue.size() > 0) { NPCManager::destroyNPC(RemovalQueue.front()); RemovalQueue.pop(); } } void MobAI::init() { REGISTER_SHARD_TIMER(step, 200); simulateMobs = settings::SIMULATEMOBS; }